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author | Stefan Roese <sr@denx.de> | 2007-08-15 14:51:27 +0200 |
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committer | Stefan Roese <sr@denx.de> | 2007-08-15 14:51:27 +0200 |
commit | d61ea14885631e58a25feaa81ee82eb464c62d6a (patch) | |
tree | 27927975039d0a15e6c6d4dfe8f765a76a12820a /drivers | |
parent | 3ba4c2d68f6541db4677b4aea12071f56e6ff6e6 (diff) | |
parent | 594e79838ce5078a90d0c27abb2b2d61d5f8e8a7 (diff) | |
download | u-boot-imx-d61ea14885631e58a25feaa81ee82eb464c62d6a.zip u-boot-imx-d61ea14885631e58a25feaa81ee82eb464c62d6a.tar.gz u-boot-imx-d61ea14885631e58a25feaa81ee82eb464c62d6a.tar.bz2 |
Merge with git://www.denx.de/git/u-boot.git
Diffstat (limited to 'drivers')
89 files changed, 32237 insertions, 8928 deletions
diff --git a/drivers/Makefile b/drivers/Makefile index 48fd4ea..3ee6312 100644..100755 --- a/drivers/Makefile +++ b/drivers/Makefile @@ -27,11 +27,11 @@ include $(TOPDIR)/config.mk LIB = $(obj)libdrivers.a -COBJS = 3c589.o 5701rls.o ali512x.o ata_piix.o atmel_usart.o \ +COBJS = 3c589.o 5701rls.o ali512x.o at45.o ata_piix.o atmel_usart.o \ bcm570x.o bcm570x_autoneg.o cfb_console.o cfi_flash.o \ cs8900.o ct69000.o dataflash.o dc2114x.o dm9000x.o \ e1000.o eepro100.o enc28j60.o \ - i8042.o inca-ip_sw.o keyboard.o \ + i8042.o inca-ip_sw.o isp116x-hcd.o keyboard.o \ lan91c96.o macb.o \ natsemi.o ne2000.o netarm_eth.o netconsole.o \ ns16550.o ns8382x.o ns87308.o ns7520_eth.o omap1510_i2c.o \ @@ -47,12 +47,14 @@ COBJS = 3c589.o 5701rls.o ali512x.o ata_piix.o atmel_usart.o \ status_led.o sym53c8xx.o systemace.o ahci.o \ ti_pci1410a.o tigon3.o tsec.o \ tsi108_eth.o tsi108_i2c.o tsi108_pci.o \ - usbdcore.o usbdcore_ep0.o usbdcore_omap1510.o usbtty.o \ + usb_ohci.o \ + usbdcore.o usbdcore_ep0.o usbdcore_mpc8xx.o usbdcore_omap1510.o \ + usbtty.o \ videomodes.o w83c553f.o \ ks8695eth.o \ pxa_pcmcia.o mpc8xx_pcmcia.o tqm8xx_pcmcia.o \ rpx_pcmcia.o \ - fsl_i2c.o + fsl_i2c.o fsl_pci_init.o ati_radeon_fb.o SRCS := $(COBJS:.o=.c) OBJS := $(addprefix $(obj),$(COBJS)) diff --git a/drivers/ahci.c b/drivers/ahci.c index 8ceff00..3d82c62 100644 --- a/drivers/ahci.c +++ b/drivers/ahci.c @@ -253,13 +253,14 @@ static void ahci_print_info(struct ahci_probe_ent *probe_ent) static int ahci_init_one(pci_dev_t pdev) { - u32 iobase, vendor; + u32 iobase; + u16 vendor; int rc; memset((void *)ataid, 0, sizeof(hd_driveid_t *) * AHCI_MAX_PORTS); - probe_ent = malloc(sizeof(probe_ent)); - memset(probe_ent, 0, sizeof(probe_ent)); + probe_ent = malloc(sizeof(struct ahci_probe_ent)); + memset(probe_ent, 0, sizeof(struct ahci_probe_ent)); probe_ent->dev = pdev; pci_read_config_dword(pdev, AHCI_PCI_BAR, &iobase); diff --git a/drivers/at45.c b/drivers/at45.c new file mode 100755 index 0000000..507ff36 --- /dev/null +++ b/drivers/at45.c @@ -0,0 +1,566 @@ +/* Driver for ATMEL DataFlash support + * Author : Hamid Ikdoumi (Atmel) + * + * This program is free software; you can redistribute it and/or + * modify it under the terms of the GNU General Public License as + * published by the Free Software Foundation; either version 2 of + * the License, or (at your option) any later version. + * + * This program is distributed in the hope that it will be useful, + * but WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the + * GNU General Public License for more details. + * + * You should have received a copy of the GNU General Public License + * along with this program; if not, write to the Free Software + * Foundation, Inc., 59 Temple Place, Suite 330, Boston, + * MA 02111-1307 USA + * + */ + +#include <config.h> +#include <common.h> + +#ifdef CONFIG_HAS_DATAFLASH +#include <dataflash.h> + +/* + * spi.c API + */ +extern unsigned int AT91F_SpiWrite (AT91PS_DataflashDesc pDesc); +extern void AT91F_SpiEnable(int cs); + +#define AT91C_TIMEOUT_WRDY 200000 + + +/*----------------------------------------------------------------------*/ +/* \fn AT91F_DataFlashSendCommand */ +/* \brief Generic function to send a command to the dataflash */ +/*----------------------------------------------------------------------*/ +AT91S_DataFlashStatus AT91F_DataFlashSendCommand( + AT91PS_DataFlash pDataFlash, + unsigned char OpCode, + unsigned int CmdSize, + unsigned int DataflashAddress) +{ + unsigned int adr; + + if ( (pDataFlash->pDataFlashDesc->state) != IDLE) + return DATAFLASH_BUSY; + + /* process the address to obtain page address and byte address */ + adr = ((DataflashAddress / (pDataFlash->pDevice->pages_size)) << + pDataFlash->pDevice->page_offset) + (DataflashAddress % + (pDataFlash->pDevice->pages_size)); + + /* fill the command buffer */ + pDataFlash->pDataFlashDesc->command[0] = OpCode; + if (pDataFlash->pDevice->pages_number >= 16384) { + pDataFlash->pDataFlashDesc->command[1] = + (unsigned char)((adr & 0x0F000000) >> 24); + pDataFlash->pDataFlashDesc->command[2] = + (unsigned char)((adr & 0x00FF0000) >> 16); + pDataFlash->pDataFlashDesc->command[3] = + (unsigned char)((adr & 0x0000FF00) >> 8); + pDataFlash->pDataFlashDesc->command[4] = + (unsigned char)(adr & 0x000000FF); + } else { + pDataFlash->pDataFlashDesc->command[1] = + (unsigned char)((adr & 0x00FF0000) >> 16); + pDataFlash->pDataFlashDesc->command[2] = + (unsigned char)((adr & 0x0000FF00) >> 8); + pDataFlash->pDataFlashDesc->command[3] = + (unsigned char)(adr & 0x000000FF); + pDataFlash->pDataFlashDesc->command[4] = 0; + } + pDataFlash->pDataFlashDesc->command[5] = 0; + pDataFlash->pDataFlashDesc->command[6] = 0; + pDataFlash->pDataFlashDesc->command[7] = 0; + + /* Initialize the SpiData structure for the spi write fuction */ + pDataFlash->pDataFlashDesc->tx_cmd_pt = + pDataFlash->pDataFlashDesc->command; + pDataFlash->pDataFlashDesc->tx_cmd_size = CmdSize; + pDataFlash->pDataFlashDesc->rx_cmd_pt = + pDataFlash->pDataFlashDesc->command; + pDataFlash->pDataFlashDesc->rx_cmd_size = CmdSize; + + /* send the command and read the data */ + return AT91F_SpiWrite (pDataFlash->pDataFlashDesc); } + + +/*----------------------------------------------------------------------*/ +/* \fn AT91F_DataFlashGetStatus */ +/* \brief Read the status register of the dataflash */ +/*----------------------------------------------------------------------*/ +AT91S_DataFlashStatus AT91F_DataFlashGetStatus(AT91PS_DataflashDesc pDesc) +{ + AT91S_DataFlashStatus status; + + /* if a transfert is in progress ==> return 0 */ + if( (pDesc->state) != IDLE) + return DATAFLASH_BUSY; + + /* first send the read status command (D7H) */ + pDesc->command[0] = DB_STATUS; + pDesc->command[1] = 0; + + pDesc->DataFlash_state = GET_STATUS; + pDesc->tx_data_size = 0; /* Transmit the command */ + /* and receive response */ + pDesc->tx_cmd_pt = pDesc->command; + pDesc->rx_cmd_pt = pDesc->command; + pDesc->rx_cmd_size = 2; + pDesc->tx_cmd_size = 2; + status = AT91F_SpiWrite (pDesc); + + pDesc->DataFlash_state = *( (unsigned char *) (pDesc->rx_cmd_pt) +1); + + return status; +} + + +/*----------------------------------------------------------------------*/ +/* \fn AT91F_DataFlashWaitReady */ +/* \brief wait for dataflash ready (bit7 of the status register == 1) */ +/*----------------------------------------------------------------------*/ +AT91S_DataFlashStatus AT91F_DataFlashWaitReady(AT91PS_DataflashDesc +pDataFlashDesc, unsigned int timeout) +{ + pDataFlashDesc->DataFlash_state = IDLE; + + do { + AT91F_DataFlashGetStatus(pDataFlashDesc); + timeout--; + } while( ((pDataFlashDesc->DataFlash_state & 0x80) != 0x80) && + (timeout > 0) ); + + if((pDataFlashDesc->DataFlash_state & 0x80) != 0x80) + return DATAFLASH_ERROR; + + return DATAFLASH_OK; +} + + +/*--------------------------------------------------------------------------*/ +/* Function Name : AT91F_DataFlashContinuousRead */ +/* Object : Continuous stream Read */ +/* Input Parameters : DataFlash Service */ +/* : <src> = dataflash address */ +/* : <*dataBuffer> = data buffer pointer */ +/* : <sizeToRead> = data buffer size */ +/* Return value : State of the dataflash */ +/*--------------------------------------------------------------------------*/ +AT91S_DataFlashStatus AT91F_DataFlashContinuousRead ( + AT91PS_DataFlash pDataFlash, + int src, + unsigned char *dataBuffer, + int sizeToRead ) +{ + AT91S_DataFlashStatus status; + /* Test the size to read in the device */ + if ( (src + sizeToRead) > + (pDataFlash->pDevice->pages_size * + (pDataFlash->pDevice->pages_number))) + return DATAFLASH_MEMORY_OVERFLOW; + + pDataFlash->pDataFlashDesc->rx_data_pt = dataBuffer; + pDataFlash->pDataFlashDesc->rx_data_size = sizeToRead; + pDataFlash->pDataFlashDesc->tx_data_pt = dataBuffer; + pDataFlash->pDataFlashDesc->tx_data_size = sizeToRead; + + status = AT91F_DataFlashSendCommand + (pDataFlash, DB_CONTINUOUS_ARRAY_READ, 8, src); + /* Send the command to the dataflash */ + return(status); +} + + +/*---------------------------------------------------------------------------*/ +/* Function Name : AT91F_DataFlashPagePgmBuf */ +/* Object : Main memory page program thru buffer 1 or buffer 2 */ +/* Input Parameters : DataFlash Service */ +/* : <*src> = Source buffer */ +/* : <dest> = dataflash destination address */ +/* : <SizeToWrite> = data buffer size */ +/* Return value : State of the dataflash */ +/*---------------------------------------------------------------------------*/ +AT91S_DataFlashStatus AT91F_DataFlashPagePgmBuf( + AT91PS_DataFlash pDataFlash, + unsigned char *src, + unsigned int dest, + unsigned int SizeToWrite) +{ + int cmdsize; + pDataFlash->pDataFlashDesc->tx_data_pt = src; + pDataFlash->pDataFlashDesc->tx_data_size = SizeToWrite; + pDataFlash->pDataFlashDesc->rx_data_pt = src; + pDataFlash->pDataFlashDesc->rx_data_size = SizeToWrite; + + cmdsize = 4; + /* Send the command to the dataflash */ + if (pDataFlash->pDevice->pages_number >= 16384) + cmdsize = 5; + return(AT91F_DataFlashSendCommand (pDataFlash, DB_PAGE_PGM_BUF1, +cmdsize, dest)); } + + +/*---------------------------------------------------------------------------*/ +/* Function Name : AT91F_MainMemoryToBufferTransfert */ +/* Object : Read a page in the SRAM Buffer 1 or 2 */ +/* Input Parameters : DataFlash Service */ +/* : Page concerned */ +/* : */ +/* Return value : State of the dataflash */ +/*---------------------------------------------------------------------------*/ +AT91S_DataFlashStatus AT91F_MainMemoryToBufferTransfert( + AT91PS_DataFlash pDataFlash, + unsigned char BufferCommand, + unsigned int page) +{ + int cmdsize; + /* Test if the buffer command is legal */ + if ((BufferCommand != DB_PAGE_2_BUF1_TRF) + && (BufferCommand != DB_PAGE_2_BUF2_TRF)) + return DATAFLASH_BAD_COMMAND; + + /* no data to transmit or receive */ + pDataFlash->pDataFlashDesc->tx_data_size = 0; + cmdsize = 4; + if (pDataFlash->pDevice->pages_number >= 16384) + cmdsize = 5; + return(AT91F_DataFlashSendCommand (pDataFlash, BufferCommand, cmdsize, +page*pDataFlash->pDevice->pages_size)); +} + + +/*-------------------------------------------------------------------------- */ +/* Function Name : AT91F_DataFlashWriteBuffer */ +/* Object : Write data to the internal sram buffer 1 or 2 */ +/* Input Parameters : DataFlash Service */ +/* : <BufferCommand> = command to write buffer1 or 2 */ +/* : <*dataBuffer> = data buffer to write */ +/* : <bufferAddress> = address in the internal buffer */ +/* : <SizeToWrite> = data buffer size */ +/* Return value : State of the dataflash */ +/*---------------------------------------------------------------------------*/ +AT91S_DataFlashStatus AT91F_DataFlashWriteBuffer ( + AT91PS_DataFlash pDataFlash, + unsigned char BufferCommand, + unsigned char *dataBuffer, + unsigned int bufferAddress, + int SizeToWrite ) +{ + int cmdsize; + /* Test if the buffer command is legal */ + if ((BufferCommand != DB_BUF1_WRITE) + && (BufferCommand != DB_BUF2_WRITE)) + return DATAFLASH_BAD_COMMAND; + + /* buffer address must be lower than page size */ + if (bufferAddress > pDataFlash->pDevice->pages_size) + return DATAFLASH_BAD_ADDRESS; + + if ( (pDataFlash->pDataFlashDesc->state) != IDLE) + return DATAFLASH_BUSY; + + /* Send first Write Command */ + pDataFlash->pDataFlashDesc->command[0] = BufferCommand; + pDataFlash->pDataFlashDesc->command[1] = 0; + if (pDataFlash->pDevice->pages_number >= 16384) { + pDataFlash->pDataFlashDesc->command[2] = 0; + pDataFlash->pDataFlashDesc->command[3] = + (unsigned char)(((unsigned int)(bufferAddress & + pDataFlash->pDevice->byte_mask)) >> 8); + pDataFlash->pDataFlashDesc->command[4] = + (unsigned char)((unsigned int)bufferAddress & 0x00FF); + cmdsize = 5; + } else { + pDataFlash->pDataFlashDesc->command[2] = + (unsigned char)(((unsigned int)(bufferAddress & + pDataFlash->pDevice->byte_mask)) >> 8); + pDataFlash->pDataFlashDesc->command[3] = + (unsigned char)((unsigned int)bufferAddress & 0x00FF); + pDataFlash->pDataFlashDesc->command[4] = 0; + cmdsize = 4; + } + + pDataFlash->pDataFlashDesc->tx_cmd_pt = + pDataFlash->pDataFlashDesc->command; + pDataFlash->pDataFlashDesc->tx_cmd_size = cmdsize; + pDataFlash->pDataFlashDesc->rx_cmd_pt = + pDataFlash->pDataFlashDesc->command; + pDataFlash->pDataFlashDesc->rx_cmd_size = cmdsize; + + pDataFlash->pDataFlashDesc->rx_data_pt = dataBuffer; + pDataFlash->pDataFlashDesc->tx_data_pt = dataBuffer; + pDataFlash->pDataFlashDesc->rx_data_size = SizeToWrite; + pDataFlash->pDataFlashDesc->tx_data_size = SizeToWrite; + + return AT91F_SpiWrite(pDataFlash->pDataFlashDesc); +} + +/*---------------------------------------------------------------------------*/ +/* Function Name : AT91F_PageErase */ +/* Object : Erase a page */ +/* Input Parameters : DataFlash Service */ +/* : Page concerned */ +/* : */ +/* Return value : State of the dataflash */ +/*---------------------------------------------------------------------------*/ +AT91S_DataFlashStatus AT91F_PageErase( + AT91PS_DataFlash pDataFlash, + unsigned int page) +{ + int cmdsize; + /* Test if the buffer command is legal */ + /* no data to transmit or receive */ + pDataFlash->pDataFlashDesc->tx_data_size = 0; + + cmdsize = 4; + if (pDataFlash->pDevice->pages_number >= 16384) + cmdsize = 5; + return(AT91F_DataFlashSendCommand (pDataFlash, DB_PAGE_ERASE, cmdsize, +page*pDataFlash->pDevice->pages_size)); +} + + +/*---------------------------------------------------------------------------*/ +/* Function Name : AT91F_BlockErase */ +/* Object : Erase a Block */ +/* Input Parameters : DataFlash Service */ +/* : Page concerned */ +/* : */ +/* Return value : State of the dataflash */ +/*---------------------------------------------------------------------------*/ +AT91S_DataFlashStatus AT91F_BlockErase( + AT91PS_DataFlash pDataFlash, + unsigned int block) +{ + int cmdsize; + /* Test if the buffer command is legal */ + /* no data to transmit or receive */ + pDataFlash->pDataFlashDesc->tx_data_size = 0; + cmdsize = 4; + if (pDataFlash->pDevice->pages_number >= 16384) + cmdsize = 5; + return(AT91F_DataFlashSendCommand (pDataFlash, DB_BLOCK_ERASE,cmdsize, +block*8*pDataFlash->pDevice->pages_size)); +} + +/*---------------------------------------------------------------------------*/ +/* Function Name : AT91F_WriteBufferToMain */ +/* Object : Write buffer to the main memory */ +/* Input Parameters : DataFlash Service */ +/* : <BufferCommand> = command to send to buffer1 or buffer2 */ +/* : <dest> = main memory address */ +/* Return value : State of the dataflash */ +/*---------------------------------------------------------------------------*/ +AT91S_DataFlashStatus AT91F_WriteBufferToMain ( + AT91PS_DataFlash pDataFlash, + unsigned char BufferCommand, + unsigned int dest ) +{ + int cmdsize; + /* Test if the buffer command is correct */ + if ((BufferCommand != DB_BUF1_PAGE_PGM) && + (BufferCommand != DB_BUF1_PAGE_ERASE_PGM) && + (BufferCommand != DB_BUF2_PAGE_PGM) && + (BufferCommand != DB_BUF2_PAGE_ERASE_PGM) ) + return DATAFLASH_BAD_COMMAND; + + /* no data to transmit or receive */ + pDataFlash->pDataFlashDesc->tx_data_size = 0; + + cmdsize = 4; + if (pDataFlash->pDevice->pages_number >= 16384) + cmdsize = 5; + /* Send the command to the dataflash */ + return(AT91F_DataFlashSendCommand (pDataFlash, BufferCommand, cmdsize, + dest)); } + + +/*---------------------------------------------------------------------------*/ +/* Function Name : AT91F_PartialPageWrite */ +/* Object : Erase partielly a page */ +/* Input Parameters : <page> = page number */ +/* : <AdrInpage> = adr to begin the fading */ +/* : <length> = Number of bytes to erase */ +/*---------------------------------------------------------------------------*/ +AT91S_DataFlashStatus AT91F_PartialPageWrite ( + AT91PS_DataFlash pDataFlash, + unsigned char *src, + unsigned int dest, + unsigned int size) +{ + unsigned int page; + unsigned int AdrInPage; + + page = dest / (pDataFlash->pDevice->pages_size); + AdrInPage = dest % (pDataFlash->pDevice->pages_size); + + /* Read the contents of the page in the Sram Buffer */ + AT91F_MainMemoryToBufferTransfert(pDataFlash, + DB_PAGE_2_BUF1_TRF, page); + AT91F_DataFlashWaitReady(pDataFlash->pDataFlashDesc, + AT91C_TIMEOUT_WRDY); + /*Update the SRAM buffer */ + AT91F_DataFlashWriteBuffer(pDataFlash, DB_BUF1_WRITE, src, + AdrInPage, size); + + AT91F_DataFlashWaitReady(pDataFlash->pDataFlashDesc, + AT91C_TIMEOUT_WRDY); + + /* Erase page if a 128 Mbits device */ + if (pDataFlash->pDevice->pages_number >= 16384) { + AT91F_PageErase(pDataFlash, page); + /* Rewrite the modified Sram Buffer in the main memory */ + AT91F_DataFlashWaitReady(pDataFlash->pDataFlashDesc, + AT91C_TIMEOUT_WRDY); + } + + /* Rewrite the modified Sram Buffer in the main memory */ + return(AT91F_WriteBufferToMain(pDataFlash, DB_BUF1_PAGE_ERASE_PGM, + (page*pDataFlash->pDevice->pages_size))); +} + +/*---------------------------------------------------------------------------*/ +/* Function Name : AT91F_DataFlashWrite */ +/* Object : */ +/* Input Parameters : <*src> = Source buffer */ +/* : <dest> = dataflash adress */ +/* : <size> = data buffer size */ +/*---------------------------------------------------------------------------*/ +AT91S_DataFlashStatus AT91F_DataFlashWrite( + AT91PS_DataFlash pDataFlash, + unsigned char *src, + int dest, + int size ) +{ + unsigned int length; + unsigned int page; + unsigned int status; + + AT91F_SpiEnable(pDataFlash->pDevice->cs); + + if ( (dest + size) > (pDataFlash->pDevice->pages_size * + (pDataFlash->pDevice->pages_number))) + return DATAFLASH_MEMORY_OVERFLOW; + + /* If destination does not fit a page start address */ + if ((dest % ((unsigned int)(pDataFlash->pDevice->pages_size))) != 0 ) + { + length = pDataFlash->pDevice->pages_size - + (dest % + ((unsigned int) + (pDataFlash->pDevice->pages_size))); + + if (size < length) + length = size; + + if(!AT91F_PartialPageWrite(pDataFlash,src, dest, length)) + return DATAFLASH_ERROR; + + AT91F_DataFlashWaitReady(pDataFlash->pDataFlashDesc, + AT91C_TIMEOUT_WRDY); + + /* Update size, source and destination pointers */ + size -= length; + dest += length; + src += length; + } + + while (( size - pDataFlash->pDevice->pages_size ) >= 0 ) { + /* program dataflash page */ + page = (unsigned int)dest / (pDataFlash->pDevice->pages_size); + + status = AT91F_DataFlashWriteBuffer(pDataFlash, + DB_BUF1_WRITE, src, 0, + pDataFlash->pDevice->pages_size); + AT91F_DataFlashWaitReady(pDataFlash->pDataFlashDesc, + AT91C_TIMEOUT_WRDY); + + status = AT91F_PageErase(pDataFlash, page); + AT91F_DataFlashWaitReady(pDataFlash->pDataFlashDesc, + AT91C_TIMEOUT_WRDY); + if (!status) + return DATAFLASH_ERROR; + + status = AT91F_WriteBufferToMain (pDataFlash, + DB_BUF1_PAGE_PGM, dest); + if(!status) + return DATAFLASH_ERROR; + + AT91F_DataFlashWaitReady(pDataFlash->pDataFlashDesc, + AT91C_TIMEOUT_WRDY); + + /* Update size, source and destination pointers */ + size -= pDataFlash->pDevice->pages_size; + dest += pDataFlash->pDevice->pages_size; + src += pDataFlash->pDevice->pages_size; + } + + /* If still some bytes to read */ + if ( size > 0 ) { + /* program dataflash page */ + if(!AT91F_PartialPageWrite(pDataFlash, src, dest, size) ) + return DATAFLASH_ERROR; + + AT91F_DataFlashWaitReady(pDataFlash->pDataFlashDesc, + AT91C_TIMEOUT_WRDY); + } + return DATAFLASH_OK; +} + + +/*---------------------------------------------------------------------------*/ +/* Function Name : AT91F_DataFlashRead */ +/* Object : Read a block in dataflash */ +/* Input Parameters : */ +/* Return value : */ +/*---------------------------------------------------------------------------*/ +int AT91F_DataFlashRead( + AT91PS_DataFlash pDataFlash, + unsigned long addr, + unsigned long size, + char *buffer) +{ + unsigned long SizeToRead; + + AT91F_SpiEnable(pDataFlash->pDevice->cs); + + if(AT91F_DataFlashWaitReady(pDataFlash->pDataFlashDesc, + AT91C_TIMEOUT_WRDY) != DATAFLASH_OK) + return -1; + + while (size) { + SizeToRead = (size < 0x8000)? size:0x8000; + + if (AT91F_DataFlashWaitReady(pDataFlash->pDataFlashDesc, + AT91C_TIMEOUT_WRDY) != DATAFLASH_OK) + return -1; + + if (AT91F_DataFlashContinuousRead (pDataFlash, addr, + (uchar *) buffer, SizeToRead) != DATAFLASH_OK) + return -1; + + size -= SizeToRead; + addr += SizeToRead; + buffer += SizeToRead; + } + + return DATAFLASH_OK; +} + +/*---------------------------------------------------------------------------*/ +/* Function Name : AT91F_DataflashProbe */ +/* Object : */ +/* Input Parameters : */ +/* Return value : Dataflash status register */ +/*---------------------------------------------------------------------------*/ +int AT91F_DataflashProbe(int cs, AT91PS_DataflashDesc pDesc) { + AT91F_SpiEnable(cs); + AT91F_DataFlashGetStatus(pDesc); + return((pDesc->command[1] == 0xFF)? 0: pDesc->command[1] & 0x3C); +} +#endif diff --git a/drivers/ati_ids.h b/drivers/ati_ids.h new file mode 100644 index 0000000..3e72a7d --- /dev/null +++ b/drivers/ati_ids.h @@ -0,0 +1,211 @@ +/* + * ATI PCI IDs from XFree86, kept here to make sync'ing with + * XFree much simpler. Currently, this list is only used by + * radeonfb + */ + +#define PCI_CHIP_RV380_3150 0x3150 +#define PCI_CHIP_RV380_3151 0x3151 +#define PCI_CHIP_RV380_3152 0x3152 +#define PCI_CHIP_RV380_3153 0x3153 +#define PCI_CHIP_RV380_3154 0x3154 +#define PCI_CHIP_RV380_3156 0x3156 +#define PCI_CHIP_RV380_3E50 0x3E50 +#define PCI_CHIP_RV380_3E51 0x3E51 +#define PCI_CHIP_RV380_3E52 0x3E52 +#define PCI_CHIP_RV380_3E53 0x3E53 +#define PCI_CHIP_RV380_3E54 0x3E54 +#define PCI_CHIP_RV380_3E56 0x3E56 +#define PCI_CHIP_RS100_4136 0x4136 +#define PCI_CHIP_RS200_4137 0x4137 +#define PCI_CHIP_R300_AD 0x4144 +#define PCI_CHIP_R300_AE 0x4145 +#define PCI_CHIP_R300_AF 0x4146 +#define PCI_CHIP_R300_AG 0x4147 +#define PCI_CHIP_R350_AH 0x4148 +#define PCI_CHIP_R350_AI 0x4149 +#define PCI_CHIP_R350_AJ 0x414A +#define PCI_CHIP_R350_AK 0x414B +#define PCI_CHIP_RV350_AP 0x4150 +#define PCI_CHIP_RV350_AQ 0x4151 +#define PCI_CHIP_RV360_AR 0x4152 +#define PCI_CHIP_RV350_AS 0x4153 +#define PCI_CHIP_RV350_AT 0x4154 +#define PCI_CHIP_RV350_AV 0x4156 +#define PCI_CHIP_MACH32 0x4158 +#define PCI_CHIP_RS250_4237 0x4237 +#define PCI_CHIP_R200_BB 0x4242 +#define PCI_CHIP_R200_BC 0x4243 +#define PCI_CHIP_RS100_4336 0x4336 +#define PCI_CHIP_RS200_4337 0x4337 +#define PCI_CHIP_MACH64CT 0x4354 +#define PCI_CHIP_MACH64CX 0x4358 +#define PCI_CHIP_RS250_4437 0x4437 +#define PCI_CHIP_MACH64ET 0x4554 +#define PCI_CHIP_MACH64GB 0x4742 +#define PCI_CHIP_MACH64GD 0x4744 +#define PCI_CHIP_MACH64GI 0x4749 +#define PCI_CHIP_MACH64GL 0x474C +#define PCI_CHIP_MACH64GM 0x474D +#define PCI_CHIP_MACH64GN 0x474E +#define PCI_CHIP_MACH64GO 0x474F +#define PCI_CHIP_MACH64GP 0x4750 +#define PCI_CHIP_MACH64GQ 0x4751 +#define PCI_CHIP_MACH64GR 0x4752 +#define PCI_CHIP_MACH64GS 0x4753 +#define PCI_CHIP_MACH64GT 0x4754 +#define PCI_CHIP_MACH64GU 0x4755 +#define PCI_CHIP_MACH64GV 0x4756 +#define PCI_CHIP_MACH64GW 0x4757 +#define PCI_CHIP_MACH64GX 0x4758 +#define PCI_CHIP_MACH64GY 0x4759 +#define PCI_CHIP_MACH64GZ 0x475A +#define PCI_CHIP_RV250_Id 0x4964 +#define PCI_CHIP_RV250_Ie 0x4965 +#define PCI_CHIP_RV250_If 0x4966 +#define PCI_CHIP_RV250_Ig 0x4967 +#define PCI_CHIP_R420_JH 0x4A48 +#define PCI_CHIP_R420_JI 0x4A49 +#define PCI_CHIP_R420_JJ 0x4A4A +#define PCI_CHIP_R420_JK 0x4A4B +#define PCI_CHIP_R420_JL 0x4A4C +#define PCI_CHIP_R420_JM 0x4A4D +#define PCI_CHIP_R420_JN 0x4A4E +#define PCI_CHIP_R420_JP 0x4A50 +#define PCI_CHIP_MACH64LB 0x4C42 +#define PCI_CHIP_MACH64LD 0x4C44 +#define PCI_CHIP_RAGE128LE 0x4C45 +#define PCI_CHIP_RAGE128LF 0x4C46 +#define PCI_CHIP_MACH64LG 0x4C47 +#define PCI_CHIP_MACH64LI 0x4C49 +#define PCI_CHIP_MACH64LM 0x4C4D +#define PCI_CHIP_MACH64LN 0x4C4E +#define PCI_CHIP_MACH64LP 0x4C50 +#define PCI_CHIP_MACH64LQ 0x4C51 +#define PCI_CHIP_MACH64LR 0x4C52 +#define PCI_CHIP_MACH64LS 0x4C53 +#define PCI_CHIP_MACH64LT 0x4C54 +#define PCI_CHIP_RADEON_LW 0x4C57 +#define PCI_CHIP_RADEON_LX 0x4C58 +#define PCI_CHIP_RADEON_LY 0x4C59 +#define PCI_CHIP_RADEON_LZ 0x4C5A +#define PCI_CHIP_RV250_Ld 0x4C64 +#define PCI_CHIP_RV250_Le 0x4C65 +#define PCI_CHIP_RV250_Lf 0x4C66 +#define PCI_CHIP_RV250_Lg 0x4C67 +#define PCI_CHIP_RV250_Ln 0x4C6E +#define PCI_CHIP_RAGE128MF 0x4D46 +#define PCI_CHIP_RAGE128ML 0x4D4C +#define PCI_CHIP_R300_ND 0x4E44 +#define PCI_CHIP_R300_NE 0x4E45 +#define PCI_CHIP_R300_NF 0x4E46 +#define PCI_CHIP_R300_NG 0x4E47 +#define PCI_CHIP_R350_NH 0x4E48 +#define PCI_CHIP_R350_NI 0x4E49 +#define PCI_CHIP_R360_NJ 0x4E4A +#define PCI_CHIP_R350_NK 0x4E4B +#define PCI_CHIP_RV350_NP 0x4E50 +#define PCI_CHIP_RV350_NQ 0x4E51 +#define PCI_CHIP_RV350_NR 0x4E52 +#define PCI_CHIP_RV350_NS 0x4E53 +#define PCI_CHIP_RV350_NT 0x4E54 +#define PCI_CHIP_RV350_NV 0x4E56 +#define PCI_CHIP_RAGE128PA 0x5041 +#define PCI_CHIP_RAGE128PB 0x5042 +#define PCI_CHIP_RAGE128PC 0x5043 +#define PCI_CHIP_RAGE128PD 0x5044 +#define PCI_CHIP_RAGE128PE 0x5045 +#define PCI_CHIP_RAGE128PF 0x5046 +#define PCI_CHIP_RAGE128PG 0x5047 +#define PCI_CHIP_RAGE128PH 0x5048 +#define PCI_CHIP_RAGE128PI 0x5049 +#define PCI_CHIP_RAGE128PJ 0x504A +#define PCI_CHIP_RAGE128PK 0x504B +#define PCI_CHIP_RAGE128PL 0x504C +#define PCI_CHIP_RAGE128PM 0x504D +#define PCI_CHIP_RAGE128PN 0x504E +#define PCI_CHIP_RAGE128PO 0x504F +#define PCI_CHIP_RAGE128PP 0x5050 +#define PCI_CHIP_RAGE128PQ 0x5051 +#define PCI_CHIP_RAGE128PR 0x5052 +#define PCI_CHIP_RAGE128PS 0x5053 +#define PCI_CHIP_RAGE128PT 0x5054 +#define PCI_CHIP_RAGE128PU 0x5055 +#define PCI_CHIP_RAGE128PV 0x5056 +#define PCI_CHIP_RAGE128PW 0x5057 +#define PCI_CHIP_RAGE128PX 0x5058 +#define PCI_CHIP_RADEON_QD 0x5144 +#define PCI_CHIP_RADEON_QE 0x5145 +#define PCI_CHIP_RADEON_QF 0x5146 +#define PCI_CHIP_RADEON_QG 0x5147 +#define PCI_CHIP_R200_QH 0x5148 +#define PCI_CHIP_R200_QI 0x5149 +#define PCI_CHIP_R200_QJ 0x514A +#define PCI_CHIP_R200_QK 0x514B +#define PCI_CHIP_R200_QL 0x514C +#define PCI_CHIP_R200_QM 0x514D +#define PCI_CHIP_R200_QN 0x514E +#define PCI_CHIP_R200_QO 0x514F +#define PCI_CHIP_RV200_QW 0x5157 +#define PCI_CHIP_RV200_QX 0x5158 +#define PCI_CHIP_RV100_QY 0x5159 +#define PCI_CHIP_RV100_QZ 0x515A +#define PCI_CHIP_RN50 0x515E +#define PCI_CHIP_RAGE128RE 0x5245 +#define PCI_CHIP_RAGE128RF 0x5246 +#define PCI_CHIP_RAGE128RG 0x5247 +#define PCI_CHIP_RAGE128RK 0x524B +#define PCI_CHIP_RAGE128RL 0x524C +#define PCI_CHIP_RAGE128SE 0x5345 +#define PCI_CHIP_RAGE128SF 0x5346 +#define PCI_CHIP_RAGE128SG 0x5347 +#define PCI_CHIP_RAGE128SH 0x5348 +#define PCI_CHIP_RAGE128SK 0x534B +#define PCI_CHIP_RAGE128SL 0x534C +#define PCI_CHIP_RAGE128SM 0x534D +#define PCI_CHIP_RAGE128SN 0x534E +#define PCI_CHIP_RAGE128TF 0x5446 +#define PCI_CHIP_RAGE128TL 0x544C +#define PCI_CHIP_RAGE128TR 0x5452 +#define PCI_CHIP_RAGE128TS 0x5453 +#define PCI_CHIP_RAGE128TT 0x5454 +#define PCI_CHIP_RAGE128TU 0x5455 +#define PCI_CHIP_RV370_5460 0x5460 +#define PCI_CHIP_RV370_5461 0x5461 +#define PCI_CHIP_RV370_5462 0x5462 +#define PCI_CHIP_RV370_5463 0x5463 +#define PCI_CHIP_RV370_5464 0x5464 +#define PCI_CHIP_RV370_5465 0x5465 +#define PCI_CHIP_RV370_5466 0x5466 +#define PCI_CHIP_RV370_5467 0x5467 +#define PCI_CHIP_R423_UH 0x5548 +#define PCI_CHIP_R423_UI 0x5549 +#define PCI_CHIP_R423_UJ 0x554A +#define PCI_CHIP_R423_UK 0x554B +#define PCI_CHIP_R423_UQ 0x5551 +#define PCI_CHIP_R423_UR 0x5552 +#define PCI_CHIP_R423_UT 0x5554 +#define PCI_CHIP_MACH64VT 0x5654 +#define PCI_CHIP_MACH64VU 0x5655 +#define PCI_CHIP_MACH64VV 0x5656 +#define PCI_CHIP_RS300_5834 0x5834 +#define PCI_CHIP_RS300_5835 0x5835 +#define PCI_CHIP_RS300_5836 0x5836 +#define PCI_CHIP_RS300_5837 0x5837 +#define PCI_CHIP_RV370_5B60 0x5B60 +#define PCI_CHIP_RV370_5B61 0x5B61 +#define PCI_CHIP_RV370_5B62 0x5B62 +#define PCI_CHIP_RV370_5B63 0x5B63 +#define PCI_CHIP_RV370_5B64 0x5B64 +#define PCI_CHIP_RV370_5B65 0x5B65 +#define PCI_CHIP_RV370_5B66 0x5B66 +#define PCI_CHIP_RV370_5B67 0x5B67 +#define PCI_CHIP_RV280_5960 0x5960 +#define PCI_CHIP_RV280_5961 0x5961 +#define PCI_CHIP_RV280_5962 0x5962 +#define PCI_CHIP_RV280_5964 0x5964 +#define PCI_CHIP_RV280_5C61 0x5C61 +#define PCI_CHIP_RV280_5C63 0x5C63 +#define PCI_CHIP_R423_5D57 0x5D57 +#define PCI_CHIP_RS350_7834 0x7834 +#define PCI_CHIP_RS350_7835 0x7835 diff --git a/drivers/ati_radeon_fb.c b/drivers/ati_radeon_fb.c new file mode 100644 index 0000000..c174f37 --- /dev/null +++ b/drivers/ati_radeon_fb.c @@ -0,0 +1,486 @@ +/* + * ATI Radeon Video card Framebuffer driver. + * + * Copyright 2007 Freescale Semiconductor, Inc. + * Zhang Wei <wei.zhang@freescale.com> + * Jason Jin <jason.jin@freescale.com> + * + * See file CREDITS for list of people who contributed to this + * project. + * + * This program is free software; you can redistribute it and/or + * modify it under the terms of the GNU General Public License as + * published by the Free Software Foundation; either version 2 of + * the License, or (at your option) any later version. + * + * This program is distributed in the hope that it will be useful, + * but WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the + * GNU General Public License for more details. + * + * You should have received a copy of the GNU General Public License + * along with this program; if not, write to the Free Software + * Foundation, Inc., 59 Temple Place, Suite 330, Boston, + * MA 02111-1307 USA + * + * Some codes of this file is partly ported from Linux kernel + * ATI video framebuffer driver. + * + * Now the driver is tested on below ATI chips: + * 9200 + * X300 + * X700 + * + */ + +#include <common.h> + +#ifdef CONFIG_ATI_RADEON_FB + +#include <command.h> +#include <pci.h> +#include <asm/processor.h> +#include <asm/errno.h> +#include <asm/io.h> +#include <malloc.h> +#include <video_fb.h> + +#include <radeon.h> +#include "ati_ids.h" +#include "ati_radeon_fb.h" + +#undef DEBUG + +#ifdef DEBUG +#define DPRINT(x...) printf(x) +#else +#define DPRINT(x...) do{}while(0) +#endif + +#ifndef min_t +#define min_t(type,x,y) \ + ({ type __x = (x); type __y = (y); __x < __y ? __x: __y; }) +#endif + +#define MAX_MAPPED_VRAM (2048*2048*4) +#define MIN_MAPPED_VRAM (1024*768*1) + +/*#define PCI_VENDOR_ID_ATI*/ +#define PCI_CHIP_RV280_5960 0x5960 +#define PCI_CHIP_RV280_5961 0x5961 +#define PCI_CHIP_RV280_5962 0x5962 +#define PCI_CHIP_RV280_5964 0x5964 +#define PCI_CHIP_RV370_5B60 0x5B60 +#define PCI_CHIP_RV380_5657 0x5657 +#define PCI_CHIP_R420_554d 0x554d + +static struct pci_device_id ati_radeon_pci_ids[] = { + {PCI_VENDOR_ID_ATI, PCI_CHIP_RV280_5960}, + {PCI_VENDOR_ID_ATI, PCI_CHIP_RV280_5961}, + {PCI_VENDOR_ID_ATI, PCI_CHIP_RV280_5962}, + {PCI_VENDOR_ID_ATI, PCI_CHIP_RV280_5964}, + {PCI_VENDOR_ID_ATI, PCI_CHIP_RV370_5B60}, + {PCI_VENDOR_ID_ATI, PCI_CHIP_RV380_5657}, + {PCI_VENDOR_ID_ATI, PCI_CHIP_R420_554d}, + {0, 0} +}; + +static u16 ati_radeon_id_family_table[][2] = { + {PCI_CHIP_RV280_5960, CHIP_FAMILY_RV280}, + {PCI_CHIP_RV280_5961, CHIP_FAMILY_RV280}, + {PCI_CHIP_RV280_5962, CHIP_FAMILY_RV280}, + {PCI_CHIP_RV280_5964, CHIP_FAMILY_RV280}, + {PCI_CHIP_RV370_5B60, CHIP_FAMILY_RV380}, + {PCI_CHIP_RV380_5657, CHIP_FAMILY_RV380}, + {PCI_CHIP_R420_554d, CHIP_FAMILY_R420}, + {0, 0} +}; + +u16 get_radeon_id_family(u16 device) +{ + int i; + for (i=0; ati_radeon_id_family_table[0][i]; i+=2) + if (ati_radeon_id_family_table[0][i] == device) + return ati_radeon_id_family_table[0][i + 1]; + return 0; +} + +struct radeonfb_info *rinfo; + +static void radeon_identify_vram(struct radeonfb_info *rinfo) +{ + u32 tmp; + + /* framebuffer size */ + if ((rinfo->family == CHIP_FAMILY_RS100) || + (rinfo->family == CHIP_FAMILY_RS200) || + (rinfo->family == CHIP_FAMILY_RS300)) { + u32 tom = INREG(NB_TOM); + tmp = ((((tom >> 16) - (tom & 0xffff) + 1) << 6) * 1024); + + radeon_fifo_wait(6); + OUTREG(MC_FB_LOCATION, tom); + OUTREG(DISPLAY_BASE_ADDR, (tom & 0xffff) << 16); + OUTREG(CRTC2_DISPLAY_BASE_ADDR, (tom & 0xffff) << 16); + OUTREG(OV0_BASE_ADDR, (tom & 0xffff) << 16); + + /* This is supposed to fix the crtc2 noise problem. */ + OUTREG(GRPH2_BUFFER_CNTL, INREG(GRPH2_BUFFER_CNTL) & ~0x7f0000); + + if ((rinfo->family == CHIP_FAMILY_RS100) || + (rinfo->family == CHIP_FAMILY_RS200)) { + /* This is to workaround the asic bug for RMX, some versions + of BIOS dosen't have this register initialized correctly. + */ + OUTREGP(CRTC_MORE_CNTL, CRTC_H_CUTOFF_ACTIVE_EN, + ~CRTC_H_CUTOFF_ACTIVE_EN); + } + } else { + tmp = INREG(CONFIG_MEMSIZE); + } + + /* mem size is bits [28:0], mask off the rest */ + rinfo->video_ram = tmp & CONFIG_MEMSIZE_MASK; + + /* + * Hack to get around some busted production M6's + * reporting no ram + */ + if (rinfo->video_ram == 0) { + switch (rinfo->pdev.device) { + case PCI_CHIP_RADEON_LY: + case PCI_CHIP_RADEON_LZ: + rinfo->video_ram = 8192 * 1024; + break; + default: + break; + } + } + + /* + * Now try to identify VRAM type + */ + if ((rinfo->family >= CHIP_FAMILY_R300) || + (INREG(MEM_SDRAM_MODE_REG) & (1<<30))) + rinfo->vram_ddr = 1; + else + rinfo->vram_ddr = 0; + + tmp = INREG(MEM_CNTL); + if (IS_R300_VARIANT(rinfo)) { + tmp &= R300_MEM_NUM_CHANNELS_MASK; + switch (tmp) { + case 0: rinfo->vram_width = 64; break; + case 1: rinfo->vram_width = 128; break; + case 2: rinfo->vram_width = 256; break; + default: rinfo->vram_width = 128; break; + } + } else if ((rinfo->family == CHIP_FAMILY_RV100) || + (rinfo->family == CHIP_FAMILY_RS100) || + (rinfo->family == CHIP_FAMILY_RS200)){ + if (tmp & RV100_MEM_HALF_MODE) + rinfo->vram_width = 32; + else + rinfo->vram_width = 64; + } else { + if (tmp & MEM_NUM_CHANNELS_MASK) + rinfo->vram_width = 128; + else + rinfo->vram_width = 64; + } + + /* This may not be correct, as some cards can have half of channel disabled + * ToDo: identify these cases + */ + + DPRINT("radeonfb: Found %ldk of %s %d bits wide videoram\n", + rinfo->video_ram / 1024, + rinfo->vram_ddr ? "DDR" : "SDRAM", + rinfo->vram_width); + +} + +static void radeon_write_pll_regs(struct radeonfb_info *rinfo, struct radeon_regs *mode) +{ + int i; + + radeon_fifo_wait(20); + +#if 0 + /* Workaround from XFree */ + if (rinfo->is_mobility) { + /* A temporal workaround for the occational blanking on certain laptop + * panels. This appears to related to the PLL divider registers + * (fail to lock?). It occurs even when all dividers are the same + * with their old settings. In this case we really don't need to + * fiddle with PLL registers. By doing this we can avoid the blanking + * problem with some panels. + */ + if ((mode->ppll_ref_div == (INPLL(PPLL_REF_DIV) & PPLL_REF_DIV_MASK)) && + (mode->ppll_div_3 == (INPLL(PPLL_DIV_3) & + (PPLL_POST3_DIV_MASK | PPLL_FB3_DIV_MASK)))) { + /* We still have to force a switch to selected PPLL div thanks to + * an XFree86 driver bug which will switch it away in some cases + * even when using UseFDev */ + OUTREGP(CLOCK_CNTL_INDEX, + mode->clk_cntl_index & PPLL_DIV_SEL_MASK, + ~PPLL_DIV_SEL_MASK); + radeon_pll_errata_after_index(rinfo); + radeon_pll_errata_after_data(rinfo); + return; + } + } +#endif + if(rinfo->pdev.device == PCI_CHIP_RV370_5B60) return; + + /* Swich VCKL clock input to CPUCLK so it stays fed while PPLL updates*/ + OUTPLLP(VCLK_ECP_CNTL, VCLK_SRC_SEL_CPUCLK, ~VCLK_SRC_SEL_MASK); + + /* Reset PPLL & enable atomic update */ + OUTPLLP(PPLL_CNTL, + PPLL_RESET | PPLL_ATOMIC_UPDATE_EN | PPLL_VGA_ATOMIC_UPDATE_EN, + ~(PPLL_RESET | PPLL_ATOMIC_UPDATE_EN | PPLL_VGA_ATOMIC_UPDATE_EN)); + + /* Switch to selected PPLL divider */ + OUTREGP(CLOCK_CNTL_INDEX, + mode->clk_cntl_index & PPLL_DIV_SEL_MASK, + ~PPLL_DIV_SEL_MASK); + + /* Set PPLL ref. div */ + if (rinfo->family == CHIP_FAMILY_R300 || + rinfo->family == CHIP_FAMILY_RS300 || + rinfo->family == CHIP_FAMILY_R350 || + rinfo->family == CHIP_FAMILY_RV350) { + if (mode->ppll_ref_div & R300_PPLL_REF_DIV_ACC_MASK) { + /* When restoring console mode, use saved PPLL_REF_DIV + * setting. + */ + OUTPLLP(PPLL_REF_DIV, mode->ppll_ref_div, 0); + } else { + /* R300 uses ref_div_acc field as real ref divider */ + OUTPLLP(PPLL_REF_DIV, + (mode->ppll_ref_div << R300_PPLL_REF_DIV_ACC_SHIFT), + ~R300_PPLL_REF_DIV_ACC_MASK); + } + } else + OUTPLLP(PPLL_REF_DIV, mode->ppll_ref_div, ~PPLL_REF_DIV_MASK); + + /* Set PPLL divider 3 & post divider*/ + OUTPLLP(PPLL_DIV_3, mode->ppll_div_3, ~PPLL_FB3_DIV_MASK); + OUTPLLP(PPLL_DIV_3, mode->ppll_div_3, ~PPLL_POST3_DIV_MASK); + + /* Write update */ + while (INPLL(PPLL_REF_DIV) & PPLL_ATOMIC_UPDATE_R) + ; + OUTPLLP(PPLL_REF_DIV, PPLL_ATOMIC_UPDATE_W, ~PPLL_ATOMIC_UPDATE_W); + + /* Wait read update complete */ + /* FIXME: Certain revisions of R300 can't recover here. Not sure of + the cause yet, but this workaround will mask the problem for now. + Other chips usually will pass at the very first test, so the + workaround shouldn't have any effect on them. */ + for (i = 0; (i < 10000 && INPLL(PPLL_REF_DIV) & PPLL_ATOMIC_UPDATE_R); i++) + ; + + OUTPLL(HTOTAL_CNTL, 0); + + /* Clear reset & atomic update */ + OUTPLLP(PPLL_CNTL, 0, + ~(PPLL_RESET | PPLL_SLEEP | PPLL_ATOMIC_UPDATE_EN | PPLL_VGA_ATOMIC_UPDATE_EN)); + + /* We may want some locking ... oh well */ + udelay(5000); + + /* Switch back VCLK source to PPLL */ + OUTPLLP(VCLK_ECP_CNTL, VCLK_SRC_SEL_PPLLCLK, ~VCLK_SRC_SEL_MASK); +} + +typedef struct { + u16 reg; + u32 val; +} reg_val; + + +/* these common regs are cleared before mode setting so they do not + * interfere with anything + */ +static reg_val common_regs[] = { + { OVR_CLR, 0 }, + { OVR_WID_LEFT_RIGHT, 0 }, + { OVR_WID_TOP_BOTTOM, 0 }, + { OV0_SCALE_CNTL, 0 }, + { SUBPIC_CNTL, 0 }, + { VIPH_CONTROL, 0 }, + { I2C_CNTL_1, 0 }, + { GEN_INT_CNTL, 0 }, + { CAP0_TRIG_CNTL, 0 }, + { CAP1_TRIG_CNTL, 0 }, +}; + + +void radeon_setmode(void) +{ + int i; + struct radeon_regs *mode = malloc(sizeof(struct radeon_regs)); + + mode->crtc_gen_cntl = 0x03000200; + mode->crtc_ext_cntl = 0x00008048; + mode->dac_cntl = 0xff002100; + mode->crtc_h_total_disp = 0x4f0063; + mode->crtc_h_sync_strt_wid = 0x8c02a2; + mode->crtc_v_total_disp = 0x01df020c; + mode->crtc_v_sync_strt_wid = 0x8201ea; + mode->crtc_pitch = 0x00500050; + + OUTREG(CRTC_GEN_CNTL, mode->crtc_gen_cntl); + OUTREGP(CRTC_EXT_CNTL, mode->crtc_ext_cntl, + ~(CRTC_HSYNC_DIS | CRTC_VSYNC_DIS | CRTC_DISPLAY_DIS)); + OUTREGP(DAC_CNTL, mode->dac_cntl, DAC_RANGE_CNTL | DAC_BLANKING); + OUTREG(CRTC_H_TOTAL_DISP, mode->crtc_h_total_disp); + OUTREG(CRTC_H_SYNC_STRT_WID, mode->crtc_h_sync_strt_wid); + OUTREG(CRTC_V_TOTAL_DISP, mode->crtc_v_total_disp); + OUTREG(CRTC_V_SYNC_STRT_WID, mode->crtc_v_sync_strt_wid); + OUTREG(CRTC_OFFSET, 0); + OUTREG(CRTC_OFFSET_CNTL, 0); + OUTREG(CRTC_PITCH, mode->crtc_pitch); + + mode->clk_cntl_index = 0x300; + mode->ppll_ref_div = 0xc; + mode->ppll_div_3 = 0x00030059; + + radeon_write_pll_regs(rinfo, mode); +} + +int radeon_probe(struct radeonfb_info *rinfo) +{ + pci_dev_t pdev; + u16 did; + + pdev = pci_find_devices(ati_radeon_pci_ids, 0); + + if (pdev != -1) { + pci_read_config_word(pdev, PCI_DEVICE_ID, &did); + printf("ATI Radeon video card (%04x, %04x) found @(%d:%d:%d)\n", + PCI_VENDOR_ID_ATI, did, (pdev >> 16) & 0xff, + (pdev >> 11) & 0x1f, (pdev >> 8) & 0x7); + + strcpy(rinfo->name, "ATI Radeon"); + rinfo->pdev.vendor = PCI_VENDOR_ID_ATI; + rinfo->pdev.device = did; + rinfo->family = get_radeon_id_family(rinfo->pdev.device); + pci_read_config_dword(pdev, PCI_BASE_ADDRESS_0, + &rinfo->fb_base_phys); + pci_read_config_dword(pdev, PCI_BASE_ADDRESS_2, + &rinfo->mmio_base_phys); + rinfo->fb_base_phys &= 0xfffff000; + rinfo->mmio_base_phys &= ~0x04; + + rinfo->mmio_base = (void *)rinfo->mmio_base_phys; + DPRINT("rinfo->mmio_base = 0x%x\n",rinfo->mmio_base); + rinfo->fb_local_base = INREG(MC_FB_LOCATION) << 16; + DPRINT("rinfo->fb_local_base = 0x%x\n",rinfo->fb_local_base); + /* PostBIOS with x86 emulater */ + BootVideoCardBIOS(pdev, NULL, 0); + + /* + * Check for errata + * (These will be added in the future for the chipfamily + * R300, RV200, RS200, RV100, RS100.) + */ + + /* Get VRAM size and type */ + radeon_identify_vram(rinfo); + + rinfo->mapped_vram = min_t(unsigned long, MAX_MAPPED_VRAM, + rinfo->video_ram); + rinfo->fb_base = (void *)rinfo->fb_base_phys; + + DPRINT("Radeon: framebuffer base phy address 0x%08x," \ + "MMIO base phy address 0x%08x," \ + "framebuffer local base 0x%08x.\n ", + rinfo->fb_base_phys, rinfo->mmio_base_phys, + rinfo->fb_local_base); + + return 0; + } + return -1; +} + +/* + * The Graphic Device + */ +GraphicDevice ctfb; + +#define CURSOR_SIZE 0x1000 /* in KByte for HW Cursor */ +#define PATTERN_ADR (pGD->dprBase + CURSOR_SIZE) /* pattern Memory after Cursor Memory */ +#define PATTERN_SIZE 8*8*4 /* 4 Bytes per Pixel 8 x 8 Pixel */ +#define ACCELMEMORY (CURSOR_SIZE + PATTERN_SIZE) /* reserved Memory for BITBlt and hw cursor */ + +void *video_hw_init(void) +{ + GraphicDevice *pGD = (GraphicDevice *) & ctfb; + int i; + u32 *vm; + + rinfo = malloc(sizeof(struct radeonfb_info)); + + if(radeon_probe(rinfo)) { + printf("No radeon video card found!\n"); + return NULL; + } + + /* fill in Graphic device struct */ + sprintf (pGD->modeIdent, "%dx%dx%d %ldkHz %ldHz", 640, + 480, 16, (1000 / 1000), + (2000 / 1000)); + printf ("%s\n", pGD->modeIdent); + + pGD->winSizeX = 640; + pGD->winSizeY = 480; + pGD->plnSizeX = 640; + pGD->plnSizeY = 480; + + pGD->gdfBytesPP = 1; + pGD->gdfIndex = GDF__8BIT_INDEX; + + pGD->isaBase = CFG_ISA_IO_BASE_ADDRESS; + pGD->pciBase = rinfo->fb_base_phys; + pGD->frameAdrs = rinfo->fb_base_phys; + pGD->memSize = 64 * 1024 * 1024; + + /* Cursor Start Address */ + pGD->dprBase = + (pGD->winSizeX * pGD->winSizeY * pGD->gdfBytesPP) + rinfo->fb_base_phys; + if ((pGD->dprBase & 0x0fff) != 0) { + /* allign it */ + pGD->dprBase &= 0xfffff000; + pGD->dprBase += 0x00001000; + } + DPRINT ("Cursor Start %x Pattern Start %x\n", pGD->dprBase, + PATTERN_ADR); + pGD->vprBase = rinfo->fb_base_phys; /* Dummy */ + pGD->cprBase = rinfo->fb_base_phys; /* Dummy */ + /* set up Hardware */ + + /* Clear video memory */ + i = pGD->memSize / 4; + vm = (unsigned int *) pGD->pciBase; + while (i--) + *vm++ = 0; + /*SetDrawingEngine (bits_per_pixel);*/ + + radeon_setmode(); + + return ((void *) pGD); +} + +void video_set_lut (unsigned int index, /* color number */ + unsigned char r, /* red */ + unsigned char g, /* green */ + unsigned char b /* blue */ + ) +{ + OUTREG(PALETTE_INDEX, index); + OUTREG(PALETTE_DATA, (r << 16) | (g << 8) | b); +} +#endif diff --git a/drivers/ati_radeon_fb.h b/drivers/ati_radeon_fb.h new file mode 100644 index 0000000..b5c4b8b --- /dev/null +++ b/drivers/ati_radeon_fb.h @@ -0,0 +1,282 @@ +#ifndef __ATI_RADEON_FB_H +#define __ATI_RADEON_FB_H + +/*************************************************************** + * Most of the definitions here are adapted right from XFree86 * + ***************************************************************/ + +/* + * Chip families. Must fit in the low 16 bits of a long word + */ +enum radeon_family { + CHIP_FAMILY_UNKNOW, + CHIP_FAMILY_LEGACY, + CHIP_FAMILY_RADEON, + CHIP_FAMILY_RV100, + CHIP_FAMILY_RS100, /* U1 (IGP320M) or A3 (IGP320)*/ + CHIP_FAMILY_RV200, + CHIP_FAMILY_RS200, /* U2 (IGP330M/340M/350M) or A4 (IGP330/340/345/350), + RS250 (IGP 7000) */ + CHIP_FAMILY_R200, + CHIP_FAMILY_RV250, + CHIP_FAMILY_RS300, /* Radeon 9000 IGP */ + CHIP_FAMILY_RV280, + CHIP_FAMILY_R300, + CHIP_FAMILY_R350, + CHIP_FAMILY_RV350, + CHIP_FAMILY_RV380, /* RV370/RV380/M22/M24 */ + CHIP_FAMILY_R420, /* R420/R423/M18 */ + CHIP_FAMILY_LAST, +}; + +#define IS_RV100_VARIANT(rinfo) (((rinfo)->family == CHIP_FAMILY_RV100) || \ + ((rinfo)->family == CHIP_FAMILY_RV200) || \ + ((rinfo)->family == CHIP_FAMILY_RS100) || \ + ((rinfo)->family == CHIP_FAMILY_RS200) || \ + ((rinfo)->family == CHIP_FAMILY_RV250) || \ + ((rinfo)->family == CHIP_FAMILY_RV280) || \ + ((rinfo)->family == CHIP_FAMILY_RS300)) + +#define IS_R300_VARIANT(rinfo) (((rinfo)->family == CHIP_FAMILY_R300) || \ + ((rinfo)->family == CHIP_FAMILY_RV350) || \ + ((rinfo)->family == CHIP_FAMILY_R350) || \ + ((rinfo)->family == CHIP_FAMILY_RV380) || \ + ((rinfo)->family == CHIP_FAMILY_R420)) + +struct radeonfb_info { + char name[20]; + + struct pci_device_id pdev; + u16 family; + + u32 fb_base_phys; + u32 mmio_base_phys; + + void *mmio_base; + void *fb_base; + + u32 video_ram; + u32 mapped_vram; + int vram_width; + int vram_ddr; + + u32 fb_local_base; +}; + +#define INREG8(addr) readb((rinfo->mmio_base)+addr) +#define OUTREG8(addr,val) writeb(val, (rinfo->mmio_base)+addr) +#define INREG16(addr) readw((rinfo->mmio_base)+addr) +#define OUTREG16(addr,val) writew(val, (rinfo->mmio_base)+addr) +#define INREG(addr) readl((rinfo->mmio_base)+addr) +#define OUTREG(addr,val) writel(val, (rinfo->mmio_base)+addr) + +static inline void _OUTREGP(struct radeonfb_info *rinfo, u32 addr, + u32 val, u32 mask) +{ + unsigned int tmp; + + tmp = INREG(addr); + tmp &= (mask); + tmp |= (val); + OUTREG(addr, tmp); +} + +#define OUTREGP(addr,val,mask) _OUTREGP(rinfo, addr, val,mask) + +/* + * 2D Engine helper routines + */ +static inline void radeon_engine_flush (struct radeonfb_info *rinfo) +{ + int i; + + /* initiate flush */ + OUTREGP(RB2D_DSTCACHE_CTLSTAT, RB2D_DC_FLUSH_ALL, + ~RB2D_DC_FLUSH_ALL); + + for (i=0; i < 2000000; i++) { + if (!(INREG(RB2D_DSTCACHE_CTLSTAT) & RB2D_DC_BUSY)) + return; + udelay(1); + } + printf("radeonfb: Flush Timeout !\n"); +} + +static inline void _radeon_fifo_wait(struct radeonfb_info *rinfo, int entries) +{ + int i; + + for (i=0; i<2000000; i++) { + if ((INREG(RBBM_STATUS) & 0x7f) >= entries) + return; + udelay(1); + } + printf("radeonfb: FIFO Timeout !\n"); +} + +static inline void _radeon_engine_idle(struct radeonfb_info *rinfo) +{ + int i; + + /* ensure FIFO is empty before waiting for idle */ + _radeon_fifo_wait (rinfo, 64); + + for (i=0; i<2000000; i++) { + if (((INREG(RBBM_STATUS) & GUI_ACTIVE)) == 0) { + radeon_engine_flush (rinfo); + return; + } + udelay(1); + } + printf("radeonfb: Idle Timeout !\n"); +} + +#define radeon_engine_idle() _radeon_engine_idle(rinfo) +#define radeon_fifo_wait(entries) _radeon_fifo_wait(rinfo,entries) +#define radeon_msleep(ms) _radeon_msleep(rinfo,ms) + +/* + * This structure contains the various registers manipulated by this + * driver for setting or restoring a mode. It's mostly copied from + * XFree's RADEONSaveRec structure. A few chip settings might still be + * tweaked without beeing reflected or saved in these registers though + */ +struct radeon_regs { + /* Common registers */ + u32 ovr_clr; + u32 ovr_wid_left_right; + u32 ovr_wid_top_bottom; + u32 ov0_scale_cntl; + u32 mpp_tb_config; + u32 mpp_gp_config; + u32 subpic_cntl; + u32 viph_control; + u32 i2c_cntl_1; + u32 gen_int_cntl; + u32 cap0_trig_cntl; + u32 cap1_trig_cntl; + u32 bus_cntl; + u32 surface_cntl; + u32 bios_5_scratch; + + /* Other registers to save for VT switches or driver load/unload */ + u32 dp_datatype; + u32 rbbm_soft_reset; + u32 clock_cntl_index; + u32 amcgpio_en_reg; + u32 amcgpio_mask; + + /* Surface/tiling registers */ + u32 surf_lower_bound[8]; + u32 surf_upper_bound[8]; + u32 surf_info[8]; + + /* CRTC registers */ + u32 crtc_gen_cntl; + u32 crtc_ext_cntl; + u32 dac_cntl; + u32 crtc_h_total_disp; + u32 crtc_h_sync_strt_wid; + u32 crtc_v_total_disp; + u32 crtc_v_sync_strt_wid; + u32 crtc_offset; + u32 crtc_offset_cntl; + u32 crtc_pitch; + u32 disp_merge_cntl; + u32 grph_buffer_cntl; + u32 crtc_more_cntl; + + /* CRTC2 registers */ + u32 crtc2_gen_cntl; + u32 dac2_cntl; + u32 disp_output_cntl; + u32 disp_hw_debug; + u32 disp2_merge_cntl; + u32 grph2_buffer_cntl; + u32 crtc2_h_total_disp; + u32 crtc2_h_sync_strt_wid; + u32 crtc2_v_total_disp; + u32 crtc2_v_sync_strt_wid; + u32 crtc2_offset; + u32 crtc2_offset_cntl; + u32 crtc2_pitch; + + /* Flat panel regs */ + u32 fp_crtc_h_total_disp; + u32 fp_crtc_v_total_disp; + u32 fp_gen_cntl; + u32 fp2_gen_cntl; + u32 fp_h_sync_strt_wid; + u32 fp2_h_sync_strt_wid; + u32 fp_horz_stretch; + u32 fp_panel_cntl; + u32 fp_v_sync_strt_wid; + u32 fp2_v_sync_strt_wid; + u32 fp_vert_stretch; + u32 lvds_gen_cntl; + u32 lvds_pll_cntl; + u32 tmds_crc; + u32 tmds_transmitter_cntl; + + /* Computed values for PLL */ + u32 dot_clock_freq; + int feedback_div; + int post_div; + + /* PLL registers */ + u32 ppll_div_3; + u32 ppll_ref_div; + u32 vclk_ecp_cntl; + u32 clk_cntl_index; + + /* Computed values for PLL2 */ + u32 dot_clock_freq_2; + int feedback_div_2; + int post_div_2; + + /* PLL2 registers */ + u32 p2pll_ref_div; + u32 p2pll_div_0; + u32 htotal_cntl2; + + /* Palette */ + int palette_valid; +}; + +static inline u32 __INPLL(struct radeonfb_info *rinfo, u32 addr) +{ + u32 data; + + OUTREG8(CLOCK_CNTL_INDEX, addr & 0x0000003f); + /* radeon_pll_errata_after_index(rinfo); */ + data = INREG(CLOCK_CNTL_DATA); + /* radeon_pll_errata_after_data(rinfo); */ + return data; +} + +static inline void __OUTPLL(struct radeonfb_info *rinfo, unsigned int index, + u32 val) +{ + + OUTREG8(CLOCK_CNTL_INDEX, (index & 0x0000003f) | 0x00000080); + /* radeon_pll_errata_after_index(rinfo); */ + OUTREG(CLOCK_CNTL_DATA, val); + /* radeon_pll_errata_after_data(rinfo); */ +} + +static inline void __OUTPLLP(struct radeonfb_info *rinfo, unsigned int index, + u32 val, u32 mask) +{ + unsigned int tmp; + + tmp = __INPLL(rinfo, index); + tmp &= (mask); + tmp |= (val); + __OUTPLL(rinfo, index, tmp); +} + +#define INPLL(addr) __INPLL(rinfo, addr) +#define OUTPLL(index, val) __OUTPLL(rinfo, index, val) +#define OUTPLLP(index, val, mask) __OUTPLLP(rinfo, index, val, mask) + +#endif diff --git a/drivers/bcm570x.c b/drivers/bcm570x.c index 5f632a6..c8f4064 100644 --- a/drivers/bcm570x.c +++ b/drivers/bcm570x.c @@ -6,8 +6,8 @@ #include <common.h> -#if (CONFIG_COMMANDS & CFG_CMD_NET) && (!defined(CONFIG_NET_MULTI)) && \ - defined(CONFIG_BCM570x) +#if defined(CONFIG_CMD_NET) \ + && (!defined(CONFIG_NET_MULTI)) && defined(CONFIG_BCM570x) #ifdef CONFIG_BMW #include <mpc824x.h> @@ -18,7 +18,6 @@ #include <pci.h> #include <malloc.h> - /* * PCI Registers and definitions. */ @@ -31,7 +30,6 @@ #define BCM570X_MBAR 0x80100000 #define BCM570X_ILINE 1 - #define SECOND_USEC 1000000 #define MAX_PACKET_SIZE 1600 #define MAX_UNITS 4 @@ -39,62 +37,61 @@ /* Globals to this module */ int initialized = 0; unsigned int ioBase = 0; -volatile PLM_DEVICE_BLOCK pDevice = NULL; /* 570x softc */ -volatile PUM_DEVICE_BLOCK pUmDevice = NULL; +volatile PLM_DEVICE_BLOCK pDevice = NULL; /* 570x softc */ +volatile PUM_DEVICE_BLOCK pUmDevice = NULL; /* Used to pass the full-duplex flag, etc. */ -int line_speed[MAX_UNITS] = {0,0,0,0}; -static int full_duplex[MAX_UNITS] = {1,1,1,1}; -static int rx_flow_control[MAX_UNITS] = {0,0,0,0}; -static int tx_flow_control[MAX_UNITS] = {0,0,0,0}; -static int auto_flow_control[MAX_UNITS] = {0,0,0,0}; -static int tx_checksum[MAX_UNITS] = {1,1,1,1}; -static int rx_checksum[MAX_UNITS] = {1,1,1,1}; -static int auto_speed[MAX_UNITS] = {1,1,1,1}; +int line_speed[MAX_UNITS] = { 0, 0, 0, 0 }; +static int full_duplex[MAX_UNITS] = { 1, 1, 1, 1 }; +static int rx_flow_control[MAX_UNITS] = { 0, 0, 0, 0 }; +static int tx_flow_control[MAX_UNITS] = { 0, 0, 0, 0 }; +static int auto_flow_control[MAX_UNITS] = { 0, 0, 0, 0 }; +static int tx_checksum[MAX_UNITS] = { 1, 1, 1, 1 }; +static int rx_checksum[MAX_UNITS] = { 1, 1, 1, 1 }; +static int auto_speed[MAX_UNITS] = { 1, 1, 1, 1 }; #if JUMBO_FRAMES /* Jumbo MTU for interfaces. */ -static int mtu[MAX_UNITS] = {0,0,0,0}; +static int mtu[MAX_UNITS] = { 0, 0, 0, 0 }; #endif /* Turn on Wake-on lan for a device unit */ -static int enable_wol[MAX_UNITS] = {0,0,0,0}; +static int enable_wol[MAX_UNITS] = { 0, 0, 0, 0 }; #define TX_DESC_CNT DEFAULT_TX_PACKET_DESC_COUNT static unsigned int tx_pkt_desc_cnt[MAX_UNITS] = - {TX_DESC_CNT,TX_DESC_CNT,TX_DESC_CNT, TX_DESC_CNT}; + { TX_DESC_CNT, TX_DESC_CNT, TX_DESC_CNT, TX_DESC_CNT }; #define RX_DESC_CNT DEFAULT_STD_RCV_DESC_COUNT static unsigned int rx_std_desc_cnt[MAX_UNITS] = - {RX_DESC_CNT,RX_DESC_CNT,RX_DESC_CNT,RX_DESC_CNT}; + { RX_DESC_CNT, RX_DESC_CNT, RX_DESC_CNT, RX_DESC_CNT }; -static unsigned int rx_adaptive_coalesce[MAX_UNITS] = {1,1,1,1}; +static unsigned int rx_adaptive_coalesce[MAX_UNITS] = { 1, 1, 1, 1 }; #if T3_JUMBO_RCV_RCB_ENTRY_COUNT #define JBO_DESC_CNT DEFAULT_JUMBO_RCV_DESC_COUNT static unsigned int rx_jumbo_desc_cnt[MAX_UNITS] = - {JBO_DESC_CNT, JBO_DESC_CNT, JBO_DESC_CNT, JBO_DESC_CNT}; + { JBO_DESC_CNT, JBO_DESC_CNT, JBO_DESC_CNT, JBO_DESC_CNT }; #endif #define RX_COAL_TK DEFAULT_RX_COALESCING_TICKS static unsigned int rx_coalesce_ticks[MAX_UNITS] = - {RX_COAL_TK, RX_COAL_TK, RX_COAL_TK, RX_COAL_TK}; + { RX_COAL_TK, RX_COAL_TK, RX_COAL_TK, RX_COAL_TK }; #define RX_COAL_FM DEFAULT_RX_MAX_COALESCED_FRAMES static unsigned int rx_max_coalesce_frames[MAX_UNITS] = - {RX_COAL_FM, RX_COAL_FM, RX_COAL_FM, RX_COAL_FM}; + { RX_COAL_FM, RX_COAL_FM, RX_COAL_FM, RX_COAL_FM }; #define TX_COAL_TK DEFAULT_TX_COALESCING_TICKS static unsigned int tx_coalesce_ticks[MAX_UNITS] = - {TX_COAL_TK, TX_COAL_TK, TX_COAL_TK, TX_COAL_TK}; + { TX_COAL_TK, TX_COAL_TK, TX_COAL_TK, TX_COAL_TK }; #define TX_COAL_FM DEFAULT_TX_MAX_COALESCED_FRAMES static unsigned int tx_max_coalesce_frames[MAX_UNITS] = - {TX_COAL_FM, TX_COAL_FM, TX_COAL_FM, TX_COAL_FM}; + { TX_COAL_FM, TX_COAL_FM, TX_COAL_FM, TX_COAL_FM }; #define ST_COAL_TK DEFAULT_STATS_COALESCING_TICKS static unsigned int stats_coalesce_ticks[MAX_UNITS] = - {ST_COAL_TK, ST_COAL_TK, ST_COAL_TK, ST_COAL_TK}; - + { ST_COAL_TK, ST_COAL_TK, ST_COAL_TK, ST_COAL_TK }; /* * Legitimate values for BCM570x device types @@ -134,707 +131,701 @@ typedef enum { /* Chip-Rev names for each device-type */ static struct { - char* name; + char *name; } chip_rev[] = { - {"BCM5700VIGIL"}, - {"BCM5700A6"}, - {"BCM5700T6"}, - {"BCM5700A9"}, - {"BCM5700T9"}, - {"BCM5700"}, - {"BCM5701A5"}, - {"BCM5701T1"}, - {"BCM5701T8"}, - {"BCM5701A7"}, - {"BCM5701A10"}, - {"BCM5701A12"}, - {"BCM5701"}, - {"BCM5702"}, - {"BCM5703"}, - {"BCM5703A31"}, - {"TC996T"}, - {"TC996ST"}, - {"TC996SSX"}, - {"TC996SX"}, - {"TC996BT"}, - {"TC997T"}, - {"TC997SX"}, - {"TC1000T"}, - {"TC940BR01"}, - {"TC942BR01"}, - {"NC6770"}, - {"NC7760"}, - {"NC7770"}, - {"NC7780"}, - {0} + { + "BCM5700VIGIL"}, { + "BCM5700A6"}, { + "BCM5700T6"}, { + "BCM5700A9"}, { + "BCM5700T9"}, { + "BCM5700"}, { + "BCM5701A5"}, { + "BCM5701T1"}, { + "BCM5701T8"}, { + "BCM5701A7"}, { + "BCM5701A10"}, { + "BCM5701A12"}, { + "BCM5701"}, { + "BCM5702"}, { + "BCM5703"}, { + "BCM5703A31"}, { + "TC996T"}, { + "TC996ST"}, { + "TC996SSX"}, { + "TC996SX"}, { + "TC996BT"}, { + "TC997T"}, { + "TC997SX"}, { + "TC1000T"}, { + "TC940BR01"}, { + "TC942BR01"}, { + "NC6770"}, { + "NC7760"}, { + "NC7770"}, { + "NC7780"}, { + 0} }; - /* indexed by board_t, above */ static struct { - char *name; + char *name; } board_info[] = { - { "Broadcom Vigil B5700 1000Base-T" }, - { "Broadcom BCM5700 1000Base-T" }, - { "Broadcom BCM5700 1000Base-SX" }, - { "Broadcom BCM5700 1000Base-SX" }, - { "Broadcom BCM5700 1000Base-T" }, - { "Broadcom BCM5700" }, - { "Broadcom BCM5701 1000Base-T" }, - { "Broadcom BCM5701 1000Base-T" }, - { "Broadcom BCM5701 1000Base-T" }, - { "Broadcom BCM5701 1000Base-SX" }, - { "Broadcom BCM5701 1000Base-T" }, - { "Broadcom BCM5701 1000Base-T" }, - { "Broadcom BCM5701" }, - { "Broadcom BCM5702 1000Base-T" }, - { "Broadcom BCM5703 1000Base-T" }, - { "Broadcom BCM5703 1000Base-SX" }, - { "3Com 3C996 10/100/1000 Server NIC" }, - { "3Com 3C996 10/100/1000 Server NIC" }, - { "3Com 3C996 Gigabit Fiber-SX Server NIC" }, - { "3Com 3C996 Gigabit Fiber-SX Server NIC" }, - { "3Com 3C996B Gigabit Server NIC" }, - { "3Com 3C997 Gigabit Server NIC" }, - { "3Com 3C997 Gigabit Fiber-SX Server NIC" }, - { "3Com 3C1000 Gigabit NIC" }, - { "3Com 3C940 Gigabit LOM (21X21)" }, - { "3Com 3C942 Gigabit LOM (31X31)" }, - { "Compaq NC6770 Gigabit Server Adapter" }, - { "Compaq NC7760 Gigabit Server Adapter" }, - { "Compaq NC7770 Gigabit Server Adapter" }, - { "Compaq NC7780 Gigabit Server Adapter" }, - { 0 }, -}; + { + "Broadcom Vigil B5700 1000Base-T"}, { + "Broadcom BCM5700 1000Base-T"}, { + "Broadcom BCM5700 1000Base-SX"}, { + "Broadcom BCM5700 1000Base-SX"}, { + "Broadcom BCM5700 1000Base-T"}, { + "Broadcom BCM5700"}, { + "Broadcom BCM5701 1000Base-T"}, { + "Broadcom BCM5701 1000Base-T"}, { + "Broadcom BCM5701 1000Base-T"}, { + "Broadcom BCM5701 1000Base-SX"}, { + "Broadcom BCM5701 1000Base-T"}, { + "Broadcom BCM5701 1000Base-T"}, { + "Broadcom BCM5701"}, { + "Broadcom BCM5702 1000Base-T"}, { + "Broadcom BCM5703 1000Base-T"}, { + "Broadcom BCM5703 1000Base-SX"}, { + "3Com 3C996 10/100/1000 Server NIC"}, { + "3Com 3C996 10/100/1000 Server NIC"}, { + "3Com 3C996 Gigabit Fiber-SX Server NIC"}, { + "3Com 3C996 Gigabit Fiber-SX Server NIC"}, { + "3Com 3C996B Gigabit Server NIC"}, { + "3Com 3C997 Gigabit Server NIC"}, { + "3Com 3C997 Gigabit Fiber-SX Server NIC"}, { + "3Com 3C1000 Gigabit NIC"}, { + "3Com 3C940 Gigabit LOM (21X21)"}, { + "3Com 3C942 Gigabit LOM (31X31)"}, { + "Compaq NC6770 Gigabit Server Adapter"}, { + "Compaq NC7760 Gigabit Server Adapter"}, { + "Compaq NC7770 Gigabit Server Adapter"}, { + "Compaq NC7780 Gigabit Server Adapter"}, { +0},}; /* PCI Devices which use the 570x chipset */ struct pci_device_table { - unsigned short vendor_id, device_id; /* Vendor/DeviceID */ - unsigned short subvendor, subdevice; /* Subsystem ID's or PCI_ANY_ID */ - unsigned int class, class_mask; /* (class,subclass,prog-if) triplet */ - unsigned long board_id; /* Data private to the driver */ - int io_size, min_latency; + unsigned short vendor_id, device_id; /* Vendor/DeviceID */ + unsigned short subvendor, subdevice; /* Subsystem ID's or PCI_ANY_ID */ + unsigned int class, class_mask; /* (class,subclass,prog-if) triplet */ + unsigned long board_id; /* Data private to the driver */ + int io_size, min_latency; } bcm570xDevices[] = { - {0x14e4, 0x1644, 0x1014, 0x0277, 0, 0, BCM5700VIGIL ,128,32}, - {0x14e4, 0x1644, 0x14e4, 0x1644, 0, 0, BCM5700A6 ,128,32}, - {0x14e4, 0x1644, 0x14e4, 0x2, 0, 0, BCM5700T6 ,128,32}, - {0x14e4, 0x1644, 0x14e4, 0x3, 0, 0, BCM5700A9 ,128,32}, - {0x14e4, 0x1644, 0x14e4, 0x4, 0, 0, BCM5700T9 ,128,32}, - {0x14e4, 0x1644, 0x1028, 0xd1, 0, 0, BCM5700 ,128,32}, - {0x14e4, 0x1644, 0x1028, 0x0106, 0, 0, BCM5700 ,128,32}, - {0x14e4, 0x1644, 0x1028, 0x0109, 0, 0, BCM5700 ,128,32}, - {0x14e4, 0x1644, 0x1028, 0x010a, 0, 0, BCM5700 ,128,32}, - {0x14e4, 0x1644, 0x10b7, 0x1000, 0, 0, TC996T ,128,32}, - {0x14e4, 0x1644, 0x10b7, 0x1001, 0, 0, TC996ST ,128,32}, - {0x14e4, 0x1644, 0x10b7, 0x1002, 0, 0, TC996SSX ,128,32}, - {0x14e4, 0x1644, 0x10b7, 0x1003, 0, 0, TC997T ,128,32}, - {0x14e4, 0x1644, 0x10b7, 0x1005, 0, 0, TC997SX ,128,32}, - {0x14e4, 0x1644, 0x10b7, 0x1008, 0, 0, TC942BR01 ,128,32}, - {0x14e4, 0x1644, PCI_ANY_ID, PCI_ANY_ID, 0, 0, BCM5700 ,128,32}, - {0x14e4, 0x1645, 0x14e4, 1, 0, 0, BCM5701A5 ,128,32}, - {0x14e4, 0x1645, 0x14e4, 5, 0, 0, BCM5701T1 ,128,32}, - {0x14e4, 0x1645, 0x14e4, 6, 0, 0, BCM5701T8 ,128,32}, - {0x14e4, 0x1645, 0x14e4, 7, 0, 0, BCM5701A7 ,128,32}, - {0x14e4, 0x1645, 0x14e4, 8, 0, 0, BCM5701A10 ,128,32}, - {0x14e4, 0x1645, 0x14e4, 0x8008, 0, 0, BCM5701A12 ,128,32}, - {0x14e4, 0x1645, 0x0e11, 0xc1, 0, 0, NC6770 ,128,32}, - {0x14e4, 0x1645, 0x0e11, 0x7c, 0, 0, NC7770 ,128,32}, - {0x14e4, 0x1645, 0x0e11, 0x85, 0, 0, NC7780 ,128,32}, - {0x14e4, 0x1645, 0x1028, 0x0121, 0, 0, BCM5701 ,128,32}, - {0x14e4, 0x1645, 0x10b7, 0x1004, 0, 0, TC996SX ,128,32}, - {0x14e4, 0x1645, 0x10b7, 0x1006, 0, 0, TC996BT ,128,32}, - {0x14e4, 0x1645, 0x10b7, 0x1007, 0, 0, TC1000T ,128,32}, - {0x14e4, 0x1645, 0x10b7, 0x1008, 0, 0, TC940BR01 ,128,32}, - {0x14e4, 0x1645, PCI_ANY_ID, PCI_ANY_ID, 0, 0, BCM5701 ,128,32}, - {0x14e4, 0x1646, 0x14e4, 0x8009, 0, 0, BCM5702 ,128,32}, - {0x14e4, 0x1646, 0x0e11, 0xbb, 0, 0, NC7760 ,128,32}, - {0x14e4, 0x1646, PCI_ANY_ID, PCI_ANY_ID, 0, 0, BCM5702 ,128,32}, - {0x14e4, 0x16a6, 0x14e4, 0x8009, 0, 0, BCM5702 ,128,32}, - {0x14e4, 0x16a6, 0x0e11, 0xbb, 0, 0, NC7760 ,128,32}, - {0x14e4, 0x16a6, PCI_ANY_ID, PCI_ANY_ID, 0, 0, BCM5702 ,128,32}, - {0x14e4, 0x1647, 0x14e4, 0x0009, 0, 0, BCM5703 ,128,32}, - {0x14e4, 0x1647, 0x14e4, 0x000a, 0, 0, BCM5703A31 ,128,32}, - {0x14e4, 0x1647, 0x14e4, 0x000b, 0, 0, BCM5703 ,128,32}, - {0x14e4, 0x1647, 0x14e4, 0x800a, 0, 0, BCM5703 ,128,32}, - {0x14e4, 0x1647, 0x0e11, 0x9a, 0, 0, NC7770 ,128,32}, - {0x14e4, 0x1647, 0x0e11, 0x99, 0, 0, NC7780 ,128,32}, - {0x14e4, 0x1647, PCI_ANY_ID, PCI_ANY_ID, 0, 0, BCM5703 ,128,32}, - {0x14e4, 0x16a7, 0x14e4, 0x0009, 0, 0, BCM5703 ,128,32}, - {0x14e4, 0x16a7, 0x14e4, 0x000a, 0, 0, BCM5703A31 ,128,32}, - {0x14e4, 0x16a7, 0x14e4, 0x000b, 0, 0, BCM5703 ,128,32}, - {0x14e4, 0x16a7, 0x14e4, 0x800a, 0, 0, BCM5703 ,128,32}, - {0x14e4, 0x16a7, 0x0e11, 0x9a, 0, 0, NC7770 ,128,32}, - {0x14e4, 0x16a7, 0x0e11, 0x99, 0, 0, NC7780 ,128,32}, - {0x14e4, 0x16a7, PCI_ANY_ID, PCI_ANY_ID, 0, 0, BCM5703 ,128,32} + { + 0x14e4, 0x1644, 0x1014, 0x0277, 0, 0, BCM5700VIGIL, 128, 32}, { + 0x14e4, 0x1644, 0x14e4, 0x1644, 0, 0, BCM5700A6, 128, 32}, { + 0x14e4, 0x1644, 0x14e4, 0x2, 0, 0, BCM5700T6, 128, 32}, { + 0x14e4, 0x1644, 0x14e4, 0x3, 0, 0, BCM5700A9, 128, 32}, { + 0x14e4, 0x1644, 0x14e4, 0x4, 0, 0, BCM5700T9, 128, 32}, { + 0x14e4, 0x1644, 0x1028, 0xd1, 0, 0, BCM5700, 128, 32}, { + 0x14e4, 0x1644, 0x1028, 0x0106, 0, 0, BCM5700, 128, 32}, { + 0x14e4, 0x1644, 0x1028, 0x0109, 0, 0, BCM5700, 128, 32}, { + 0x14e4, 0x1644, 0x1028, 0x010a, 0, 0, BCM5700, 128, 32}, { + 0x14e4, 0x1644, 0x10b7, 0x1000, 0, 0, TC996T, 128, 32}, { + 0x14e4, 0x1644, 0x10b7, 0x1001, 0, 0, TC996ST, 128, 32}, { + 0x14e4, 0x1644, 0x10b7, 0x1002, 0, 0, TC996SSX, 128, 32}, { + 0x14e4, 0x1644, 0x10b7, 0x1003, 0, 0, TC997T, 128, 32}, { + 0x14e4, 0x1644, 0x10b7, 0x1005, 0, 0, TC997SX, 128, 32}, { + 0x14e4, 0x1644, 0x10b7, 0x1008, 0, 0, TC942BR01, 128, 32}, { + 0x14e4, 0x1644, PCI_ANY_ID, PCI_ANY_ID, 0, 0, BCM5700, 128, 32}, { + 0x14e4, 0x1645, 0x14e4, 1, 0, 0, BCM5701A5, 128, 32}, { + 0x14e4, 0x1645, 0x14e4, 5, 0, 0, BCM5701T1, 128, 32}, { + 0x14e4, 0x1645, 0x14e4, 6, 0, 0, BCM5701T8, 128, 32}, { + 0x14e4, 0x1645, 0x14e4, 7, 0, 0, BCM5701A7, 128, 32}, { + 0x14e4, 0x1645, 0x14e4, 8, 0, 0, BCM5701A10, 128, 32}, { + 0x14e4, 0x1645, 0x14e4, 0x8008, 0, 0, BCM5701A12, 128, 32}, { + 0x14e4, 0x1645, 0x0e11, 0xc1, 0, 0, NC6770, 128, 32}, { + 0x14e4, 0x1645, 0x0e11, 0x7c, 0, 0, NC7770, 128, 32}, { + 0x14e4, 0x1645, 0x0e11, 0x85, 0, 0, NC7780, 128, 32}, { + 0x14e4, 0x1645, 0x1028, 0x0121, 0, 0, BCM5701, 128, 32}, { + 0x14e4, 0x1645, 0x10b7, 0x1004, 0, 0, TC996SX, 128, 32}, { + 0x14e4, 0x1645, 0x10b7, 0x1006, 0, 0, TC996BT, 128, 32}, { + 0x14e4, 0x1645, 0x10b7, 0x1007, 0, 0, TC1000T, 128, 32}, { + 0x14e4, 0x1645, 0x10b7, 0x1008, 0, 0, TC940BR01, 128, 32}, { + 0x14e4, 0x1645, PCI_ANY_ID, PCI_ANY_ID, 0, 0, BCM5701, 128, 32}, { + 0x14e4, 0x1646, 0x14e4, 0x8009, 0, 0, BCM5702, 128, 32}, { + 0x14e4, 0x1646, 0x0e11, 0xbb, 0, 0, NC7760, 128, 32}, { + 0x14e4, 0x1646, PCI_ANY_ID, PCI_ANY_ID, 0, 0, BCM5702, 128, 32}, { + 0x14e4, 0x16a6, 0x14e4, 0x8009, 0, 0, BCM5702, 128, 32}, { + 0x14e4, 0x16a6, 0x0e11, 0xbb, 0, 0, NC7760, 128, 32}, { + 0x14e4, 0x16a6, PCI_ANY_ID, PCI_ANY_ID, 0, 0, BCM5702, 128, 32}, { + 0x14e4, 0x1647, 0x14e4, 0x0009, 0, 0, BCM5703, 128, 32}, { + 0x14e4, 0x1647, 0x14e4, 0x000a, 0, 0, BCM5703A31, 128, 32}, { + 0x14e4, 0x1647, 0x14e4, 0x000b, 0, 0, BCM5703, 128, 32}, { + 0x14e4, 0x1647, 0x14e4, 0x800a, 0, 0, BCM5703, 128, 32}, { + 0x14e4, 0x1647, 0x0e11, 0x9a, 0, 0, NC7770, 128, 32}, { + 0x14e4, 0x1647, 0x0e11, 0x99, 0, 0, NC7780, 128, 32}, { + 0x14e4, 0x1647, PCI_ANY_ID, PCI_ANY_ID, 0, 0, BCM5703, 128, 32}, { + 0x14e4, 0x16a7, 0x14e4, 0x0009, 0, 0, BCM5703, 128, 32}, { + 0x14e4, 0x16a7, 0x14e4, 0x000a, 0, 0, BCM5703A31, 128, 32}, { + 0x14e4, 0x16a7, 0x14e4, 0x000b, 0, 0, BCM5703, 128, 32}, { + 0x14e4, 0x16a7, 0x14e4, 0x800a, 0, 0, BCM5703, 128, 32}, { + 0x14e4, 0x16a7, 0x0e11, 0x9a, 0, 0, NC7770, 128, 32}, { + 0x14e4, 0x16a7, 0x0e11, 0x99, 0, 0, NC7780, 128, 32}, { + 0x14e4, 0x16a7, PCI_ANY_ID, PCI_ANY_ID, 0, 0, BCM5703, 128, 32} }; #define n570xDevices (sizeof(bcm570xDevices)/sizeof(bcm570xDevices[0])) - /* * Allocate a packet buffer from the bcm570x packet pool. */ -void * -bcm570xPktAlloc(int u, int pksize) +void *bcm570xPktAlloc (int u, int pksize) { - return malloc(pksize); + return malloc (pksize); } /* * Free a packet previously allocated from the bcm570x packet * buffer pool. */ -void -bcm570xPktFree(int u, void *p) +void bcm570xPktFree (int u, void *p) { - free(p); + free (p); } -int -bcm570xReplenishRxBuffers(PUM_DEVICE_BLOCK pUmDevice) +int bcm570xReplenishRxBuffers (PUM_DEVICE_BLOCK pUmDevice) { - PLM_PACKET pPacket; - PUM_PACKET pUmPacket; - void *skb; - int queue_rx = 0; - int ret = 0; - - while ((pUmPacket = (PUM_PACKET) - QQ_PopHead(&pUmDevice->rx_out_of_buf_q.Container)) != 0) { - - pPacket = (PLM_PACKET) pUmPacket; - - /* reuse an old skb */ - if (pUmPacket->skbuff) { - QQ_PushTail(&pDevice->RxPacketFreeQ.Container, pPacket); - queue_rx = 1; - continue; - } - if ( ( skb = bcm570xPktAlloc(pUmDevice->index, - pPacket->u.Rx.RxBufferSize + 2)) == 0) { - QQ_PushHead(&pUmDevice->rx_out_of_buf_q.Container,pPacket); - printf("NOTICE: Out of RX memory.\n"); - ret = 1; - break; - } + PLM_PACKET pPacket; + PUM_PACKET pUmPacket; + void *skb; + int queue_rx = 0; + int ret = 0; + + while ((pUmPacket = (PUM_PACKET) + QQ_PopHead (&pUmDevice->rx_out_of_buf_q.Container)) != 0) { + + pPacket = (PLM_PACKET) pUmPacket; + + /* reuse an old skb */ + if (pUmPacket->skbuff) { + QQ_PushTail (&pDevice->RxPacketFreeQ.Container, + pPacket); + queue_rx = 1; + continue; + } + if ((skb = bcm570xPktAlloc (pUmDevice->index, + pPacket->u.Rx.RxBufferSize + 2)) == + 0) { + QQ_PushHead (&pUmDevice->rx_out_of_buf_q.Container, + pPacket); + printf ("NOTICE: Out of RX memory.\n"); + ret = 1; + break; + } - pUmPacket->skbuff = skb; - QQ_PushTail(&pDevice->RxPacketFreeQ.Container, pPacket); - queue_rx = 1; - } + pUmPacket->skbuff = skb; + QQ_PushTail (&pDevice->RxPacketFreeQ.Container, pPacket); + queue_rx = 1; + } - if (queue_rx) { - LM_QueueRxPackets(pDevice); - } + if (queue_rx) { + LM_QueueRxPackets (pDevice); + } - return ret; + return ret; } /* * Probe, Map, and Init 570x device. */ -int eth_init(bd_t *bis) +int eth_init (bd_t * bis) { - int i, rv, devFound = FALSE; - pci_dev_t devbusfn; - unsigned short status; - - /* Find PCI device, if it exists, configure ... */ - for( i = 0; i < n570xDevices; i++){ - devbusfn = pci_find_device(bcm570xDevices[i].vendor_id, - bcm570xDevices[i].device_id, 0); - if(devbusfn == -1) { - continue; /* No device of that vendor/device ID */ + int i, rv, devFound = FALSE; + pci_dev_t devbusfn; + unsigned short status; + + /* Find PCI device, if it exists, configure ... */ + for (i = 0; i < n570xDevices; i++) { + devbusfn = pci_find_device (bcm570xDevices[i].vendor_id, + bcm570xDevices[i].device_id, 0); + if (devbusfn == -1) { + continue; /* No device of that vendor/device ID */ + } else { + + /* Set ILINE */ + pci_write_config_byte (devbusfn, + PCI_INTERRUPT_LINE, + BCM570X_ILINE); + + /* + * 0x10 - 0x14 define one 64-bit MBAR. + * 0x14 is the higher-order address bits of the BAR. + */ + pci_write_config_dword (devbusfn, + PCI_BASE_ADDRESS_1, 0); + + ioBase = BCM570X_MBAR; + + pci_write_config_dword (devbusfn, + PCI_BASE_ADDRESS_0, ioBase); + + /* + * Enable PCI memory, IO, and Master -- don't + * reset any status bits in doing so. + */ + pci_read_config_word (devbusfn, PCI_COMMAND, &status); + + status |= PCI_COMMAND_MEMORY | PCI_COMMAND_MASTER; + + pci_write_config_word (devbusfn, PCI_COMMAND, status); + + printf + ("\n%s: bus %d, device %d, function %d: MBAR=0x%x\n", + board_info[bcm570xDevices[i].board_id].name, + PCI_BUS (devbusfn), PCI_DEV (devbusfn), + PCI_FUNC (devbusfn), ioBase); + + /* Allocate once, but always clear on init */ + if (!pDevice) { + pDevice = malloc (sizeof (UM_DEVICE_BLOCK)); + pUmDevice = (PUM_DEVICE_BLOCK) pDevice; + memset (pDevice, 0x0, sizeof (UM_DEVICE_BLOCK)); + } + + /* Configure pci dev structure */ + pUmDevice->pdev = devbusfn; + pUmDevice->index = 0; + pUmDevice->tx_pkt = 0; + pUmDevice->rx_pkt = 0; + devFound = TRUE; + break; + } + } + + if (!devFound) { + printf + ("eth_init: FAILURE: no BCM570x Ethernet devices found.\n"); + return -1; + } + + /* Setup defaults for chip */ + pDevice->TaskToOffload = LM_TASK_OFFLOAD_NONE; + + if (pDevice->ChipRevId == T3_CHIP_ID_5700_B0) { + pDevice->TaskToOffload = LM_TASK_OFFLOAD_NONE; } else { - /* Set ILINE */ - pci_write_config_byte(devbusfn, - PCI_INTERRUPT_LINE, BCM570X_ILINE); - - /* - * 0x10 - 0x14 define one 64-bit MBAR. - * 0x14 is the higher-order address bits of the BAR. - */ - pci_write_config_dword(devbusfn, - PCI_BASE_ADDRESS_1, 0); - - ioBase = BCM570X_MBAR; - - pci_write_config_dword(devbusfn, - PCI_BASE_ADDRESS_0, ioBase); - - /* - * Enable PCI memory, IO, and Master -- don't - * reset any status bits in doing so. - */ - pci_read_config_word(devbusfn, - PCI_COMMAND, &status); - - status |= PCI_COMMAND_MEMORY|PCI_COMMAND_MASTER; - - pci_write_config_word(devbusfn, - PCI_COMMAND, status); - - printf("\n%s: bus %d, device %d, function %d: MBAR=0x%x\n", - board_info[bcm570xDevices[i].board_id].name, - PCI_BUS(devbusfn), - PCI_DEV(devbusfn), - PCI_FUNC(devbusfn), - ioBase); - - /* Allocate once, but always clear on init */ - if (!pDevice) { - pDevice = malloc(sizeof(UM_DEVICE_BLOCK)); - pUmDevice = (PUM_DEVICE_BLOCK)pDevice; - memset(pDevice, 0x0, sizeof(UM_DEVICE_BLOCK)); - } - - /* Configure pci dev structure */ - pUmDevice->pdev = devbusfn; - pUmDevice->index = 0; - pUmDevice->tx_pkt = 0; - pUmDevice->rx_pkt = 0; - devFound = TRUE; - break; + if (rx_checksum[i]) { + pDevice->TaskToOffload |= + LM_TASK_OFFLOAD_RX_TCP_CHECKSUM | + LM_TASK_OFFLOAD_RX_UDP_CHECKSUM; + } + + if (tx_checksum[i]) { + pDevice->TaskToOffload |= + LM_TASK_OFFLOAD_TX_TCP_CHECKSUM | + LM_TASK_OFFLOAD_TX_UDP_CHECKSUM; + pDevice->NoTxPseudoHdrChksum = TRUE; + } } - } - if(!devFound){ - printf("eth_init: FAILURE: no BCM570x Ethernet devices found.\n"); - return -1; - } + /* Set Device PCI Memory base address */ + pDevice->pMappedMemBase = (PLM_UINT8) ioBase; - /* Setup defaults for chip */ - pDevice->TaskToOffload = LM_TASK_OFFLOAD_NONE; + /* Pull down adapter info */ + if ((rv = LM_GetAdapterInfo (pDevice)) != LM_STATUS_SUCCESS) { + printf ("bcm570xEnd: LM_GetAdapterInfo failed: rv=%d!\n", rv); + return -2; + } - if (pDevice->ChipRevId == T3_CHIP_ID_5700_B0) { - pDevice->TaskToOffload = LM_TASK_OFFLOAD_NONE; - } else { + /* Lock not needed */ + pUmDevice->do_global_lock = 0; + + if (T3_ASIC_REV (pUmDevice->lm_dev.ChipRevId) == T3_ASIC_REV_5700) { + /* The 5700 chip works best without interleaved register */ + /* accesses on certain machines. */ + pUmDevice->do_global_lock = 1; + } + + /* Setup timer delays */ + if (T3_ASIC_REV (pDevice->ChipRevId) == T3_ASIC_REV_5701) { + pDevice->UseTaggedStatus = TRUE; + pUmDevice->timer_interval = CFG_HZ; + } else { + pUmDevice->timer_interval = CFG_HZ / 50; + } - if (rx_checksum[i]) { - pDevice->TaskToOffload |= - LM_TASK_OFFLOAD_RX_TCP_CHECKSUM | - LM_TASK_OFFLOAD_RX_UDP_CHECKSUM; + /* Grab name .... */ + pUmDevice->name = + (char *)malloc (strlen (board_info[bcm570xDevices[i].board_id].name) + + 1); + strcpy (pUmDevice->name, board_info[bcm570xDevices[i].board_id].name); + + memcpy (pDevice->NodeAddress, bis->bi_enetaddr, 6); + LM_SetMacAddress (pDevice, bis->bi_enetaddr); + /* Init queues .. */ + QQ_InitQueue (&pUmDevice->rx_out_of_buf_q.Container, + MAX_RX_PACKET_DESC_COUNT); + pUmDevice->rx_last_cnt = pUmDevice->tx_last_cnt = 0; + + /* delay for 4 seconds */ + pUmDevice->delayed_link_ind = (4 * CFG_HZ) / pUmDevice->timer_interval; + + pUmDevice->adaptive_expiry = CFG_HZ / pUmDevice->timer_interval; + + /* Sometimes we get spurious ints. after reset when link is down. */ + /* This field tells the isr to service the int. even if there is */ + /* no status block update. */ + pUmDevice->adapter_just_inited = + (3 * CFG_HZ) / pUmDevice->timer_interval; + + /* Initialize 570x */ + if (LM_InitializeAdapter (pDevice) != LM_STATUS_SUCCESS) { + printf ("ERROR: Adapter initialization failed.\n"); + return ERROR; } - if (tx_checksum[i]) { - pDevice->TaskToOffload |= - LM_TASK_OFFLOAD_TX_TCP_CHECKSUM | - LM_TASK_OFFLOAD_TX_UDP_CHECKSUM; - pDevice->NoTxPseudoHdrChksum = TRUE; + /* Enable chip ISR */ + LM_EnableInterrupt (pDevice); + + /* Clear MC table */ + LM_MulticastClear (pDevice); + + /* Enable Multicast */ + LM_SetReceiveMask (pDevice, + pDevice->ReceiveMask | LM_ACCEPT_ALL_MULTICAST); + + pUmDevice->opened = 1; + pUmDevice->tx_full = 0; + pUmDevice->tx_pkt = 0; + pUmDevice->rx_pkt = 0; + printf ("eth%d: %s @0x%lx,", + pDevice->index, pUmDevice->name, (unsigned long)ioBase); + printf ("node addr "); + for (i = 0; i < 6; i++) { + printf ("%2.2x", pDevice->NodeAddress[i]); } - } - - /* Set Device PCI Memory base address */ - pDevice->pMappedMemBase = (PLM_UINT8) ioBase; - - /* Pull down adapter info */ - if ((rv = LM_GetAdapterInfo(pDevice)) != LM_STATUS_SUCCESS) { - printf("bcm570xEnd: LM_GetAdapterInfo failed: rv=%d!\n", rv ); - return -2; - } - - /* Lock not needed */ - pUmDevice->do_global_lock = 0; - - if (T3_ASIC_REV(pUmDevice->lm_dev.ChipRevId) == T3_ASIC_REV_5700) { - /* The 5700 chip works best without interleaved register */ - /* accesses on certain machines. */ - pUmDevice->do_global_lock = 1; - } - - /* Setup timer delays */ - if (T3_ASIC_REV(pDevice->ChipRevId) == T3_ASIC_REV_5701) { - pDevice->UseTaggedStatus = TRUE; - pUmDevice->timer_interval = CFG_HZ; - } - else { - pUmDevice->timer_interval = CFG_HZ / 50; - } - - /* Grab name .... */ - pUmDevice->name = - (char*)malloc(strlen(board_info[bcm570xDevices[i].board_id].name)+1); - strcpy(pUmDevice->name,board_info[bcm570xDevices[i].board_id].name); - - memcpy(pDevice->NodeAddress, bis->bi_enetaddr, 6); - LM_SetMacAddress(pDevice, bis->bi_enetaddr); - /* Init queues .. */ - QQ_InitQueue(&pUmDevice->rx_out_of_buf_q.Container, - MAX_RX_PACKET_DESC_COUNT); - pUmDevice->rx_last_cnt = pUmDevice->tx_last_cnt = 0; - - /* delay for 4 seconds */ - pUmDevice->delayed_link_ind = - (4 * CFG_HZ) / pUmDevice->timer_interval; - - pUmDevice->adaptive_expiry = - CFG_HZ / pUmDevice->timer_interval; - - /* Sometimes we get spurious ints. after reset when link is down. */ - /* This field tells the isr to service the int. even if there is */ - /* no status block update. */ - pUmDevice->adapter_just_inited = - (3 * CFG_HZ) / pUmDevice->timer_interval; - - /* Initialize 570x */ - if (LM_InitializeAdapter(pDevice) != LM_STATUS_SUCCESS) { - printf("ERROR: Adapter initialization failed.\n"); - return ERROR; - } - - /* Enable chip ISR */ - LM_EnableInterrupt(pDevice); - - /* Clear MC table */ - LM_MulticastClear(pDevice); - - /* Enable Multicast */ - LM_SetReceiveMask(pDevice, - pDevice->ReceiveMask | LM_ACCEPT_ALL_MULTICAST); - - pUmDevice->opened = 1; - pUmDevice->tx_full = 0; - pUmDevice->tx_pkt = 0; - pUmDevice->rx_pkt = 0; - printf("eth%d: %s @0x%lx,", - pDevice->index, pUmDevice->name, (unsigned long)ioBase); - printf( "node addr "); - for (i = 0; i < 6; i++) { - printf("%2.2x", pDevice->NodeAddress[i]); - } - printf("\n"); - - printf("eth%d: ", pDevice->index); - printf("%s with ", - chip_rev[bcm570xDevices[i].board_id].name); - - if ((pDevice->PhyId & PHY_ID_MASK) == PHY_BCM5400_PHY_ID) - printf("Broadcom BCM5400 Copper "); - else if ((pDevice->PhyId & PHY_ID_MASK) == PHY_BCM5401_PHY_ID) - printf("Broadcom BCM5401 Copper "); - else if ((pDevice->PhyId & PHY_ID_MASK) == PHY_BCM5411_PHY_ID) - printf("Broadcom BCM5411 Copper "); - else if ((pDevice->PhyId & PHY_ID_MASK) == PHY_BCM5701_PHY_ID) - printf("Broadcom BCM5701 Integrated Copper "); - else if ((pDevice->PhyId & PHY_ID_MASK) == PHY_BCM5703_PHY_ID) - printf("Broadcom BCM5703 Integrated Copper "); - else if ((pDevice->PhyId & PHY_ID_MASK) == PHY_BCM8002_PHY_ID) - printf("Broadcom BCM8002 SerDes "); - else if (pDevice->EnableTbi) - printf("Agilent HDMP-1636 SerDes "); - else - printf("Unknown "); - printf("transceiver found\n"); - - printf("eth%d: %s, MTU: %d,", - pDevice->index, pDevice->BusSpeedStr, 1500); - - if ((pDevice->ChipRevId != T3_CHIP_ID_5700_B0) && - rx_checksum[i]) - printf("Rx Checksum ON\n"); - else - printf("Rx Checksum OFF\n"); - initialized++; - - return 0; + printf ("\n"); + + printf ("eth%d: ", pDevice->index); + printf ("%s with ", chip_rev[bcm570xDevices[i].board_id].name); + + if ((pDevice->PhyId & PHY_ID_MASK) == PHY_BCM5400_PHY_ID) + printf ("Broadcom BCM5400 Copper "); + else if ((pDevice->PhyId & PHY_ID_MASK) == PHY_BCM5401_PHY_ID) + printf ("Broadcom BCM5401 Copper "); + else if ((pDevice->PhyId & PHY_ID_MASK) == PHY_BCM5411_PHY_ID) + printf ("Broadcom BCM5411 Copper "); + else if ((pDevice->PhyId & PHY_ID_MASK) == PHY_BCM5701_PHY_ID) + printf ("Broadcom BCM5701 Integrated Copper "); + else if ((pDevice->PhyId & PHY_ID_MASK) == PHY_BCM5703_PHY_ID) + printf ("Broadcom BCM5703 Integrated Copper "); + else if ((pDevice->PhyId & PHY_ID_MASK) == PHY_BCM8002_PHY_ID) + printf ("Broadcom BCM8002 SerDes "); + else if (pDevice->EnableTbi) + printf ("Agilent HDMP-1636 SerDes "); + else + printf ("Unknown "); + printf ("transceiver found\n"); + + printf ("eth%d: %s, MTU: %d,", + pDevice->index, pDevice->BusSpeedStr, 1500); + + if ((pDevice->ChipRevId != T3_CHIP_ID_5700_B0) && rx_checksum[i]) + printf ("Rx Checksum ON\n"); + else + printf ("Rx Checksum OFF\n"); + initialized++; + + return 0; } /* Ethernet Interrupt service routine */ -void -eth_isr(void) +void eth_isr (void) { - LM_UINT32 oldtag, newtag; - int i; - - pUmDevice->interrupt = 1; - - if (pDevice->UseTaggedStatus) { - if ((pDevice->pStatusBlkVirt->Status & STATUS_BLOCK_UPDATED) || - pUmDevice->adapter_just_inited) { - MB_REG_WR(pDevice, Mailbox.Interrupt[0].Low, 1); - oldtag = pDevice->pStatusBlkVirt->StatusTag; - - for (i = 0; ; i++) { - pDevice->pStatusBlkVirt->Status &= ~STATUS_BLOCK_UPDATED; - LM_ServiceInterrupts(pDevice); - newtag = pDevice->pStatusBlkVirt->StatusTag; - if ((newtag == oldtag) || (i > 50)) { - MB_REG_WR(pDevice, Mailbox.Interrupt[0].Low, newtag << 24); - if (pDevice->UndiFix) { - REG_WR(pDevice, Grc.LocalCtrl, - pDevice->GrcLocalCtrl | 0x2); - } - break; - } - oldtag = newtag; - } + LM_UINT32 oldtag, newtag; + int i; + + pUmDevice->interrupt = 1; + + if (pDevice->UseTaggedStatus) { + if ((pDevice->pStatusBlkVirt->Status & STATUS_BLOCK_UPDATED) || + pUmDevice->adapter_just_inited) { + MB_REG_WR (pDevice, Mailbox.Interrupt[0].Low, 1); + oldtag = pDevice->pStatusBlkVirt->StatusTag; + + for (i = 0;; i++) { + pDevice->pStatusBlkVirt->Status &= + ~STATUS_BLOCK_UPDATED; + LM_ServiceInterrupts (pDevice); + newtag = pDevice->pStatusBlkVirt->StatusTag; + if ((newtag == oldtag) || (i > 50)) { + MB_REG_WR (pDevice, + Mailbox.Interrupt[0].Low, + newtag << 24); + if (pDevice->UndiFix) { + REG_WR (pDevice, Grc.LocalCtrl, + pDevice-> + GrcLocalCtrl | 0x2); + } + break; + } + oldtag = newtag; + } + } + } else { + while (pDevice->pStatusBlkVirt->Status & STATUS_BLOCK_UPDATED) { + unsigned int dummy; + + pDevice->pMemView->Mailbox.Interrupt[0].Low = 1; + pDevice->pStatusBlkVirt->Status &= + ~STATUS_BLOCK_UPDATED; + LM_ServiceInterrupts (pDevice); + pDevice->pMemView->Mailbox.Interrupt[0].Low = 0; + dummy = pDevice->pMemView->Mailbox.Interrupt[0].Low; + } } - } - else { - while (pDevice->pStatusBlkVirt->Status & STATUS_BLOCK_UPDATED) { - unsigned int dummy; - - pDevice->pMemView->Mailbox.Interrupt[0].Low = 1; - pDevice->pStatusBlkVirt->Status &= ~STATUS_BLOCK_UPDATED; - LM_ServiceInterrupts(pDevice); - pDevice->pMemView->Mailbox.Interrupt[0].Low = 0; - dummy = pDevice->pMemView->Mailbox.Interrupt[0].Low; + + /* Allocate new RX buffers */ + if (QQ_GetEntryCnt (&pUmDevice->rx_out_of_buf_q.Container)) { + bcm570xReplenishRxBuffers (pUmDevice); + } + + /* Queue packets */ + if (QQ_GetEntryCnt (&pDevice->RxPacketFreeQ.Container)) { + LM_QueueRxPackets (pDevice); } - } - - /* Allocate new RX buffers */ - if (QQ_GetEntryCnt(&pUmDevice->rx_out_of_buf_q.Container)) { - bcm570xReplenishRxBuffers(pUmDevice); - } - - /* Queue packets */ - if (QQ_GetEntryCnt(&pDevice->RxPacketFreeQ.Container)) { - LM_QueueRxPackets(pDevice); - } - - if (pUmDevice->tx_queued) { - pUmDevice->tx_queued = 0; - } - - if(pUmDevice->tx_full){ - if(pDevice->LinkStatus != LM_STATUS_LINK_DOWN){ - printf("NOTICE: tx was previously blocked, restarting MUX\n"); - pUmDevice->tx_full = 0; + + if (pUmDevice->tx_queued) { + pUmDevice->tx_queued = 0; + } + + if (pUmDevice->tx_full) { + if (pDevice->LinkStatus != LM_STATUS_LINK_DOWN) { + printf + ("NOTICE: tx was previously blocked, restarting MUX\n"); + pUmDevice->tx_full = 0; + } } - } - pUmDevice->interrupt = 0; + pUmDevice->interrupt = 0; } -int -eth_send(volatile void *packet, int length) +int eth_send (volatile void *packet, int length) { - int status = 0; + int status = 0; #if ET_DEBUG - unsigned char* ptr = (unsigned char*)packet; + unsigned char *ptr = (unsigned char *)packet; #endif - PLM_PACKET pPacket; - PUM_PACKET pUmPacket; + PLM_PACKET pPacket; + PUM_PACKET pUmPacket; - /* Link down, return */ - while(pDevice->LinkStatus == LM_STATUS_LINK_DOWN) { + /* Link down, return */ + while (pDevice->LinkStatus == LM_STATUS_LINK_DOWN) { #if 0 - printf("eth%d: link down - check cable or link partner.\n", - pUmDevice->index); + printf ("eth%d: link down - check cable or link partner.\n", + pUmDevice->index); #endif - eth_isr(); + eth_isr (); - /* Wait to see link for one-half a second before sending ... */ - udelay(1500000); + /* Wait to see link for one-half a second before sending ... */ + udelay (1500000); - } + } - /* Clear sent flag */ - pUmDevice->tx_pkt = 0; + /* Clear sent flag */ + pUmDevice->tx_pkt = 0; - /* Previously blocked */ - if(pUmDevice->tx_full){ - printf("eth%d: tx blocked.\n", pUmDevice->index); - return 0; - } + /* Previously blocked */ + if (pUmDevice->tx_full) { + printf ("eth%d: tx blocked.\n", pUmDevice->index); + return 0; + } - pPacket = (PLM_PACKET) - QQ_PopHead(&pDevice->TxPacketFreeQ.Container); + pPacket = (PLM_PACKET) + QQ_PopHead (&pDevice->TxPacketFreeQ.Container); - if (pPacket == 0) { - pUmDevice->tx_full = 1; - printf("bcm570xEndSend: TX full!\n"); - return 0; - } + if (pPacket == 0) { + pUmDevice->tx_full = 1; + printf ("bcm570xEndSend: TX full!\n"); + return 0; + } - if (pDevice->SendBdLeft.counter == 0) { - pUmDevice->tx_full = 1; - printf("bcm570xEndSend: no more TX descriptors!\n"); - QQ_PushHead(&pDevice->TxPacketFreeQ.Container, pPacket); - return 0; - } - - if (length <= 0){ - printf("eth: bad packet size: %d\n", length); - goto out; - } - - /* Get packet buffers and fragment list */ - pUmPacket = (PUM_PACKET) pPacket; - /* Single DMA Descriptor transmit. - * Fragments may be provided, but one DMA descriptor max is - * used to send the packet. - */ - if (MM_CoalesceTxBuffer (pDevice, pPacket) != LM_STATUS_SUCCESS) { - if (pUmPacket->skbuff == NULL){ - /* Packet was discarded */ - printf("TX: failed (1)\n"); - status = 1; - } else{ - printf("TX: failed (2)\n"); - status = 2; + if (pDevice->SendBdLeft.counter == 0) { + pUmDevice->tx_full = 1; + printf ("bcm570xEndSend: no more TX descriptors!\n"); + QQ_PushHead (&pDevice->TxPacketFreeQ.Container, pPacket); + return 0; } - QQ_PushHead (&pDevice->TxPacketFreeQ.Container, pPacket); - return status; - } - - /* Copy packet to DMA buffer */ - memset(pUmPacket->skbuff, 0x0, MAX_PACKET_SIZE); - memcpy((void*)pUmPacket->skbuff, (void*)packet, length); - pPacket->PacketSize = length; - pPacket->Flags |= SND_BD_FLAG_END|SND_BD_FLAG_COAL_NOW; - pPacket->u.Tx.FragCount = 1; - /* We've already provided a frame ready for transmission */ - pPacket->Flags &= ~SND_BD_FLAG_TCP_UDP_CKSUM; - - if ( LM_SendPacket(pDevice, pPacket) == LM_STATUS_FAILURE){ - /* - * A lower level send failure will push the packet descriptor back - * in the free queue, so just deal with the VxWorks clusters. + + if (length <= 0) { + printf ("eth: bad packet size: %d\n", length); + goto out; + } + + /* Get packet buffers and fragment list */ + pUmPacket = (PUM_PACKET) pPacket; + /* Single DMA Descriptor transmit. + * Fragments may be provided, but one DMA descriptor max is + * used to send the packet. */ - if (pUmPacket->skbuff == NULL){ - printf("TX failed (1)!\n"); - /* Packet was discarded */ - status = 3; - } else { - /* A resource problem ... */ - printf("TX failed (2)!\n"); - status = 4; + if (MM_CoalesceTxBuffer (pDevice, pPacket) != LM_STATUS_SUCCESS) { + if (pUmPacket->skbuff == NULL) { + /* Packet was discarded */ + printf ("TX: failed (1)\n"); + status = 1; + } else { + printf ("TX: failed (2)\n"); + status = 2; + } + QQ_PushHead (&pDevice->TxPacketFreeQ.Container, pPacket); + return status; } - if (QQ_GetEntryCnt(&pDevice->TxPacketFreeQ.Container) == 0) { - printf("TX: emptyQ!\n"); - pUmDevice->tx_full = 1; + /* Copy packet to DMA buffer */ + memset (pUmPacket->skbuff, 0x0, MAX_PACKET_SIZE); + memcpy ((void *)pUmPacket->skbuff, (void *)packet, length); + pPacket->PacketSize = length; + pPacket->Flags |= SND_BD_FLAG_END | SND_BD_FLAG_COAL_NOW; + pPacket->u.Tx.FragCount = 1; + /* We've already provided a frame ready for transmission */ + pPacket->Flags &= ~SND_BD_FLAG_TCP_UDP_CKSUM; + + if (LM_SendPacket (pDevice, pPacket) == LM_STATUS_FAILURE) { + /* + * A lower level send failure will push the packet descriptor back + * in the free queue, so just deal with the VxWorks clusters. + */ + if (pUmPacket->skbuff == NULL) { + printf ("TX failed (1)!\n"); + /* Packet was discarded */ + status = 3; + } else { + /* A resource problem ... */ + printf ("TX failed (2)!\n"); + status = 4; + } + + if (QQ_GetEntryCnt (&pDevice->TxPacketFreeQ.Container) == 0) { + printf ("TX: emptyQ!\n"); + pUmDevice->tx_full = 1; + } } - } - while(pUmDevice->tx_pkt == 0){ - /* Service TX */ - eth_isr(); - } + while (pUmDevice->tx_pkt == 0) { + /* Service TX */ + eth_isr (); + } #if ET_DEBUG - printf("eth_send: 0x%x, %d bytes\n" - "[%x %x %x %x %x %x %x %x %x %x %x %x %x %x %x %x] ...\n", - (int)pPacket, length, - ptr[0],ptr[1],ptr[2],ptr[3],ptr[4],ptr[5], - ptr[6],ptr[7],ptr[8],ptr[9],ptr[10],ptr[11],ptr[12], - ptr[13],ptr[14],ptr[15]); + printf ("eth_send: 0x%x, %d bytes\n" + "[%x %x %x %x %x %x %x %x %x %x %x %x %x %x %x %x] ...\n", + (int)pPacket, length, + ptr[0], ptr[1], ptr[2], ptr[3], ptr[4], ptr[5], + ptr[6], ptr[7], ptr[8], ptr[9], ptr[10], ptr[11], ptr[12], + ptr[13], ptr[14], ptr[15]); #endif - pUmDevice->tx_pkt = 0; - QQ_PushHead(&pDevice->TxPacketFreeQ.Container, pPacket); + pUmDevice->tx_pkt = 0; + QQ_PushHead (&pDevice->TxPacketFreeQ.Container, pPacket); - /* Done with send */ - out: - return status; + /* Done with send */ + out: + return status; } - /* Ethernet receive */ -int -eth_rx(void) +int eth_rx (void) { - PLM_PACKET pPacket = NULL; - PUM_PACKET pUmPacket = NULL; - void *skb; - int size=0; + PLM_PACKET pPacket = NULL; + PUM_PACKET pUmPacket = NULL; + void *skb; + int size = 0; - while(TRUE) { + while (TRUE) { - bcm570x_service_isr: - /* Pull down packet if it is there */ - eth_isr(); + bcm570x_service_isr: + /* Pull down packet if it is there */ + eth_isr (); - /* Indicate RX packets called */ - if(pUmDevice->rx_pkt){ - /* printf("eth_rx: got a packet...\n"); */ - pUmDevice->rx_pkt = 0; - } else { - /* printf("eth_rx: waiting for packet...\n"); */ - goto bcm570x_service_isr; - } + /* Indicate RX packets called */ + if (pUmDevice->rx_pkt) { + /* printf("eth_rx: got a packet...\n"); */ + pUmDevice->rx_pkt = 0; + } else { + /* printf("eth_rx: waiting for packet...\n"); */ + goto bcm570x_service_isr; + } - pPacket = (PLM_PACKET) - QQ_PopHead(&pDevice->RxPacketReceivedQ.Container); + pPacket = (PLM_PACKET) + QQ_PopHead (&pDevice->RxPacketReceivedQ.Container); - if (pPacket == 0){ - printf("eth_rx: empty packet!\n"); - goto bcm570x_service_isr; - } + if (pPacket == 0) { + printf ("eth_rx: empty packet!\n"); + goto bcm570x_service_isr; + } - pUmPacket = (PUM_PACKET) pPacket; + pUmPacket = (PUM_PACKET) pPacket; #if ET_DEBUG - printf("eth_rx: packet @0x%x\n", - (int)pPacket); + printf ("eth_rx: packet @0x%x\n", (int)pPacket); #endif - /* If the packet generated an error, reuse buffer */ - if ((pPacket->PacketStatus != LM_STATUS_SUCCESS) || - ((size = pPacket->PacketSize) > pDevice->RxMtu)) { - - /* reuse skb */ - QQ_PushTail(&pDevice->RxPacketFreeQ.Container, pPacket); - printf("eth_rx: error in packet dma!\n"); - goto bcm570x_service_isr; - } + /* If the packet generated an error, reuse buffer */ + if ((pPacket->PacketStatus != LM_STATUS_SUCCESS) || + ((size = pPacket->PacketSize) > pDevice->RxMtu)) { + + /* reuse skb */ + QQ_PushTail (&pDevice->RxPacketFreeQ.Container, + pPacket); + printf ("eth_rx: error in packet dma!\n"); + goto bcm570x_service_isr; + } - /* Set size and address */ - skb = pUmPacket->skbuff; - size = pPacket->PacketSize; + /* Set size and address */ + skb = pUmPacket->skbuff; + size = pPacket->PacketSize; - /* Pass the packet up to the protocol - * layers. - */ - NetReceive(skb, size); + /* Pass the packet up to the protocol + * layers. + */ + NetReceive (skb, size); - /* Free packet buffer */ - bcm570xPktFree (pUmDevice->index, skb); - pUmPacket->skbuff = NULL; + /* Free packet buffer */ + bcm570xPktFree (pUmDevice->index, skb); + pUmPacket->skbuff = NULL; - /* Reuse SKB */ - QQ_PushTail(&pDevice->RxPacketFreeQ.Container, pPacket); + /* Reuse SKB */ + QQ_PushTail (&pDevice->RxPacketFreeQ.Container, pPacket); - return 0; /* Got a packet, bail ... */ - } - return size; + return 0; /* Got a packet, bail ... */ + } + return size; } - /* Shut down device */ -void -eth_halt(void) +void eth_halt (void) { - int i; - if ( initialized) - if (pDevice && pUmDevice && pUmDevice->opened){ - printf("\neth%d:%s,", pUmDevice->index, pUmDevice->name); - printf("HALT,"); - /* stop device */ - LM_Halt(pDevice); - printf("POWER DOWN,"); - LM_SetPowerState(pDevice, LM_POWER_STATE_D3); - - /* Free the memory allocated by the device in tigon3 */ - for (i = 0; i < pUmDevice->mem_list_num; i++) { - if (pUmDevice->mem_list[i]) { - /* sanity check */ - if (pUmDevice->dma_list[i]) { /* cache-safe memory */ - free(pUmDevice->mem_list[i]); - } else { - free(pUmDevice->mem_list[i]); /* normal memory */ + int i; + if (initialized) + if (pDevice && pUmDevice && pUmDevice->opened) { + printf ("\neth%d:%s,", pUmDevice->index, + pUmDevice->name); + printf ("HALT,"); + /* stop device */ + LM_Halt (pDevice); + printf ("POWER DOWN,"); + LM_SetPowerState (pDevice, LM_POWER_STATE_D3); + + /* Free the memory allocated by the device in tigon3 */ + for (i = 0; i < pUmDevice->mem_list_num; i++) { + if (pUmDevice->mem_list[i]) { + /* sanity check */ + if (pUmDevice->dma_list[i]) { /* cache-safe memory */ + free (pUmDevice->mem_list[i]); + } else { + free (pUmDevice->mem_list[i]); /* normal memory */ + } + } + } + pUmDevice->opened = 0; + free (pDevice); + pDevice = NULL; + pUmDevice = NULL; + initialized = 0; + printf ("done - offline.\n"); } - } - } - pUmDevice->opened = 0; - free(pDevice); - pDevice = NULL; - pUmDevice = NULL; - initialized = 0; - printf("done - offline.\n"); - } } - /* * * Middle Module: Interface between the HW driver (tigon3 modules) and @@ -843,409 +834,380 @@ eth_halt(void) */ /* Middle module dependency - size of a packet descriptor */ -int MM_Packet_Desc_Size = sizeof(UM_PACKET); - +int MM_Packet_Desc_Size = sizeof (UM_PACKET); LM_STATUS -MM_ReadConfig32(PLM_DEVICE_BLOCK pDevice, - LM_UINT32 Offset, - LM_UINT32 *pValue32) +MM_ReadConfig32 (PLM_DEVICE_BLOCK pDevice, + LM_UINT32 Offset, LM_UINT32 * pValue32) { - UM_DEVICE_BLOCK *pUmDevice; - pUmDevice = (UM_DEVICE_BLOCK *) pDevice; - pci_read_config_dword(pUmDevice->pdev, - Offset, (u32 *) pValue32); - return LM_STATUS_SUCCESS; + UM_DEVICE_BLOCK *pUmDevice; + pUmDevice = (UM_DEVICE_BLOCK *) pDevice; + pci_read_config_dword (pUmDevice->pdev, Offset, (u32 *) pValue32); + return LM_STATUS_SUCCESS; } - LM_STATUS -MM_WriteConfig32(PLM_DEVICE_BLOCK pDevice, - LM_UINT32 Offset, - LM_UINT32 Value32) +MM_WriteConfig32 (PLM_DEVICE_BLOCK pDevice, LM_UINT32 Offset, LM_UINT32 Value32) { - UM_DEVICE_BLOCK *pUmDevice; - pUmDevice = (UM_DEVICE_BLOCK *) pDevice; - pci_write_config_dword(pUmDevice->pdev, - Offset, Value32); - return LM_STATUS_SUCCESS; + UM_DEVICE_BLOCK *pUmDevice; + pUmDevice = (UM_DEVICE_BLOCK *) pDevice; + pci_write_config_dword (pUmDevice->pdev, Offset, Value32); + return LM_STATUS_SUCCESS; } - LM_STATUS -MM_ReadConfig16(PLM_DEVICE_BLOCK pDevice, - LM_UINT32 Offset, - LM_UINT16 *pValue16) +MM_ReadConfig16 (PLM_DEVICE_BLOCK pDevice, + LM_UINT32 Offset, LM_UINT16 * pValue16) { - UM_DEVICE_BLOCK *pUmDevice; - pUmDevice = (UM_DEVICE_BLOCK *) pDevice; - pci_read_config_word(pUmDevice->pdev, - Offset, (u16*) pValue16); - return LM_STATUS_SUCCESS; + UM_DEVICE_BLOCK *pUmDevice; + pUmDevice = (UM_DEVICE_BLOCK *) pDevice; + pci_read_config_word (pUmDevice->pdev, Offset, (u16 *) pValue16); + return LM_STATUS_SUCCESS; } LM_STATUS -MM_WriteConfig16(PLM_DEVICE_BLOCK pDevice, - LM_UINT32 Offset, - LM_UINT16 Value16) +MM_WriteConfig16 (PLM_DEVICE_BLOCK pDevice, LM_UINT32 Offset, LM_UINT16 Value16) { - UM_DEVICE_BLOCK *pUmDevice; - pUmDevice = (UM_DEVICE_BLOCK *) pDevice; - pci_write_config_word(pUmDevice->pdev, - Offset, Value16); - return LM_STATUS_SUCCESS; + UM_DEVICE_BLOCK *pUmDevice; + pUmDevice = (UM_DEVICE_BLOCK *) pDevice; + pci_write_config_word (pUmDevice->pdev, Offset, Value16); + return LM_STATUS_SUCCESS; } - LM_STATUS -MM_AllocateSharedMemory(PLM_DEVICE_BLOCK pDevice, LM_UINT32 BlockSize, - PLM_VOID *pMemoryBlockVirt, - PLM_PHYSICAL_ADDRESS pMemoryBlockPhy, - LM_BOOL Cached) +MM_AllocateSharedMemory (PLM_DEVICE_BLOCK pDevice, LM_UINT32 BlockSize, + PLM_VOID * pMemoryBlockVirt, + PLM_PHYSICAL_ADDRESS pMemoryBlockPhy, LM_BOOL Cached) { - PLM_VOID pvirt; - PUM_DEVICE_BLOCK pUmDevice = (PUM_DEVICE_BLOCK) pDevice; - dma_addr_t mapping; + PLM_VOID pvirt; + PUM_DEVICE_BLOCK pUmDevice = (PUM_DEVICE_BLOCK) pDevice; + dma_addr_t mapping; - pvirt = malloc(BlockSize); - mapping = (dma_addr_t)(pvirt); - if (!pvirt) - return LM_STATUS_FAILURE; + pvirt = malloc (BlockSize); + mapping = (dma_addr_t) (pvirt); + if (!pvirt) + return LM_STATUS_FAILURE; - pUmDevice->mem_list[pUmDevice->mem_list_num] = pvirt; - pUmDevice->dma_list[pUmDevice->mem_list_num] = mapping; - pUmDevice->mem_size_list[pUmDevice->mem_list_num++] = BlockSize; - memset(pvirt, 0, BlockSize); + pUmDevice->mem_list[pUmDevice->mem_list_num] = pvirt; + pUmDevice->dma_list[pUmDevice->mem_list_num] = mapping; + pUmDevice->mem_size_list[pUmDevice->mem_list_num++] = BlockSize; + memset (pvirt, 0, BlockSize); - *pMemoryBlockVirt = (PLM_VOID) pvirt; - MM_SetAddr (pMemoryBlockPhy, (dma_addr_t) mapping); + *pMemoryBlockVirt = (PLM_VOID) pvirt; + MM_SetAddr (pMemoryBlockPhy, (dma_addr_t) mapping); - return LM_STATUS_SUCCESS; + return LM_STATUS_SUCCESS; } - LM_STATUS -MM_AllocateMemory(PLM_DEVICE_BLOCK pDevice, LM_UINT32 BlockSize, - PLM_VOID *pMemoryBlockVirt) +MM_AllocateMemory (PLM_DEVICE_BLOCK pDevice, LM_UINT32 BlockSize, + PLM_VOID * pMemoryBlockVirt) { - PLM_VOID pvirt; - PUM_DEVICE_BLOCK pUmDevice = (PUM_DEVICE_BLOCK) pDevice; + PLM_VOID pvirt; + PUM_DEVICE_BLOCK pUmDevice = (PUM_DEVICE_BLOCK) pDevice; - pvirt = malloc(BlockSize); + pvirt = malloc (BlockSize); - if (!pvirt) - return LM_STATUS_FAILURE; + if (!pvirt) + return LM_STATUS_FAILURE; - pUmDevice->mem_list[pUmDevice->mem_list_num] = pvirt; - pUmDevice->dma_list[pUmDevice->mem_list_num] = 0; - pUmDevice->mem_size_list[pUmDevice->mem_list_num++] = BlockSize; - memset(pvirt, 0, BlockSize); - *pMemoryBlockVirt = pvirt; + pUmDevice->mem_list[pUmDevice->mem_list_num] = pvirt; + pUmDevice->dma_list[pUmDevice->mem_list_num] = 0; + pUmDevice->mem_size_list[pUmDevice->mem_list_num++] = BlockSize; + memset (pvirt, 0, BlockSize); + *pMemoryBlockVirt = pvirt; - return LM_STATUS_SUCCESS; + return LM_STATUS_SUCCESS; } -LM_STATUS -MM_MapMemBase(PLM_DEVICE_BLOCK pDevice) +LM_STATUS MM_MapMemBase (PLM_DEVICE_BLOCK pDevice) { - printf("BCM570x PCI Memory base address @0x%x\n", - (unsigned int)pDevice->pMappedMemBase); - return LM_STATUS_SUCCESS; + printf ("BCM570x PCI Memory base address @0x%x\n", + (unsigned int)pDevice->pMappedMemBase); + return LM_STATUS_SUCCESS; } -LM_STATUS -MM_InitializeUmPackets(PLM_DEVICE_BLOCK pDevice) +LM_STATUS MM_InitializeUmPackets (PLM_DEVICE_BLOCK pDevice) { - int i; - void* skb; - PUM_DEVICE_BLOCK pUmDevice = (PUM_DEVICE_BLOCK) pDevice; - PUM_PACKET pUmPacket = NULL; - PLM_PACKET pPacket = NULL; - - for (i = 0; i < pDevice->RxPacketDescCnt; i++) { - pPacket = QQ_PopHead(&pDevice->RxPacketFreeQ.Container); - pUmPacket = (PUM_PACKET) pPacket; + int i; + void *skb; + PUM_DEVICE_BLOCK pUmDevice = (PUM_DEVICE_BLOCK) pDevice; + PUM_PACKET pUmPacket = NULL; + PLM_PACKET pPacket = NULL; + + for (i = 0; i < pDevice->RxPacketDescCnt; i++) { + pPacket = QQ_PopHead (&pDevice->RxPacketFreeQ.Container); + pUmPacket = (PUM_PACKET) pPacket; + + if (pPacket == 0) { + printf ("MM_InitializeUmPackets: Bad RxPacketFreeQ\n"); + } - if (pPacket == 0) { - printf("MM_InitializeUmPackets: Bad RxPacketFreeQ\n"); - } + skb = bcm570xPktAlloc (pUmDevice->index, + pPacket->u.Rx.RxBufferSize + 2); - skb = bcm570xPktAlloc(pUmDevice->index, - pPacket->u.Rx.RxBufferSize + 2); + if (skb == 0) { + pUmPacket->skbuff = 0; + QQ_PushTail (&pUmDevice->rx_out_of_buf_q.Container, + pPacket); + printf ("MM_InitializeUmPackets: out of buffer.\n"); + continue; + } - if (skb == 0) { - pUmPacket->skbuff = 0; - QQ_PushTail(&pUmDevice->rx_out_of_buf_q.Container, pPacket); - printf("MM_InitializeUmPackets: out of buffer.\n"); - continue; + pUmPacket->skbuff = skb; + QQ_PushTail (&pDevice->RxPacketFreeQ.Container, pPacket); } - pUmPacket->skbuff = skb; - QQ_PushTail(&pDevice->RxPacketFreeQ.Container, pPacket); - } + pUmDevice->rx_low_buf_thresh = pDevice->RxPacketDescCnt / 8; - pUmDevice->rx_low_buf_thresh = pDevice->RxPacketDescCnt / 8; - - return LM_STATUS_SUCCESS; + return LM_STATUS_SUCCESS; } -LM_STATUS -MM_GetConfig(PLM_DEVICE_BLOCK pDevice) +LM_STATUS MM_GetConfig (PLM_DEVICE_BLOCK pDevice) { - PUM_DEVICE_BLOCK pUmDevice = (PUM_DEVICE_BLOCK) pDevice; - int index = pDevice->index; - - if (auto_speed[index] == 0) - pDevice->DisableAutoNeg = TRUE; - else - pDevice->DisableAutoNeg = FALSE; - - if (line_speed[index] == 0) { - pDevice->RequestedMediaType = - LM_REQUESTED_MEDIA_TYPE_AUTO; - pDevice->DisableAutoNeg = FALSE; - } - else { - if (line_speed[index] == 1000) { - if (pDevice->EnableTbi) { - pDevice->RequestedMediaType = - LM_REQUESTED_MEDIA_TYPE_FIBER_1000MBPS_FULL_DUPLEX; - } - else if (full_duplex[index]) { - pDevice->RequestedMediaType = - LM_REQUESTED_MEDIA_TYPE_UTP_1000MBPS_FULL_DUPLEX; - } - else { - pDevice->RequestedMediaType = - LM_REQUESTED_MEDIA_TYPE_UTP_1000MBPS; - } - if (!pDevice->EnableTbi) + PUM_DEVICE_BLOCK pUmDevice = (PUM_DEVICE_BLOCK) pDevice; + int index = pDevice->index; + + if (auto_speed[index] == 0) + pDevice->DisableAutoNeg = TRUE; + else pDevice->DisableAutoNeg = FALSE; + + if (line_speed[index] == 0) { + pDevice->RequestedMediaType = LM_REQUESTED_MEDIA_TYPE_AUTO; + pDevice->DisableAutoNeg = FALSE; + } else { + if (line_speed[index] == 1000) { + if (pDevice->EnableTbi) { + pDevice->RequestedMediaType = + LM_REQUESTED_MEDIA_TYPE_FIBER_1000MBPS_FULL_DUPLEX; + } else if (full_duplex[index]) { + pDevice->RequestedMediaType = + LM_REQUESTED_MEDIA_TYPE_UTP_1000MBPS_FULL_DUPLEX; + } else { + pDevice->RequestedMediaType = + LM_REQUESTED_MEDIA_TYPE_UTP_1000MBPS; + } + if (!pDevice->EnableTbi) + pDevice->DisableAutoNeg = FALSE; + } else if (line_speed[index] == 100) { + if (full_duplex[index]) { + pDevice->RequestedMediaType = + LM_REQUESTED_MEDIA_TYPE_UTP_100MBPS_FULL_DUPLEX; + } else { + pDevice->RequestedMediaType = + LM_REQUESTED_MEDIA_TYPE_UTP_100MBPS; + } + } else if (line_speed[index] == 10) { + if (full_duplex[index]) { + pDevice->RequestedMediaType = + LM_REQUESTED_MEDIA_TYPE_UTP_10MBPS_FULL_DUPLEX; + } else { + pDevice->RequestedMediaType = + LM_REQUESTED_MEDIA_TYPE_UTP_10MBPS; + } + } else { + pDevice->RequestedMediaType = + LM_REQUESTED_MEDIA_TYPE_AUTO; + pDevice->DisableAutoNeg = FALSE; + } + } - else if (line_speed[index] == 100) { - if (full_duplex[index]) { - pDevice->RequestedMediaType = - LM_REQUESTED_MEDIA_TYPE_UTP_100MBPS_FULL_DUPLEX; - } - else { - pDevice->RequestedMediaType = - LM_REQUESTED_MEDIA_TYPE_UTP_100MBPS; - } - } - else if (line_speed[index] == 10) { - if (full_duplex[index]) { - pDevice->RequestedMediaType = - LM_REQUESTED_MEDIA_TYPE_UTP_10MBPS_FULL_DUPLEX; - } - else { - pDevice->RequestedMediaType = - LM_REQUESTED_MEDIA_TYPE_UTP_10MBPS; - } + pDevice->FlowControlCap = 0; + if (rx_flow_control[index] != 0) { + pDevice->FlowControlCap |= LM_FLOW_CONTROL_RECEIVE_PAUSE; } - else { - pDevice->RequestedMediaType = - LM_REQUESTED_MEDIA_TYPE_AUTO; - pDevice->DisableAutoNeg = FALSE; + if (tx_flow_control[index] != 0) { + pDevice->FlowControlCap |= LM_FLOW_CONTROL_TRANSMIT_PAUSE; } - - } - pDevice->FlowControlCap = 0; - if (rx_flow_control[index] != 0) { - pDevice->FlowControlCap |= LM_FLOW_CONTROL_RECEIVE_PAUSE; - } - if (tx_flow_control[index] != 0) { - pDevice->FlowControlCap |= LM_FLOW_CONTROL_TRANSMIT_PAUSE; - } - if ((auto_flow_control[index] != 0) && - (pDevice->DisableAutoNeg == FALSE)) { - - pDevice->FlowControlCap |= LM_FLOW_CONTROL_AUTO_PAUSE; - if ((tx_flow_control[index] == 0) && - (rx_flow_control[index] == 0)) { - pDevice->FlowControlCap |= - LM_FLOW_CONTROL_TRANSMIT_PAUSE | - LM_FLOW_CONTROL_RECEIVE_PAUSE; + if ((auto_flow_control[index] != 0) && + (pDevice->DisableAutoNeg == FALSE)) { + + pDevice->FlowControlCap |= LM_FLOW_CONTROL_AUTO_PAUSE; + if ((tx_flow_control[index] == 0) && + (rx_flow_control[index] == 0)) { + pDevice->FlowControlCap |= + LM_FLOW_CONTROL_TRANSMIT_PAUSE | + LM_FLOW_CONTROL_RECEIVE_PAUSE; + } } - } - /* Default MTU for now */ - pUmDevice->mtu = 1500; + /* Default MTU for now */ + pUmDevice->mtu = 1500; #if T3_JUMBO_RCV_RCB_ENTRY_COUNT - if (pUmDevice->mtu > 1500) { - pDevice->RxMtu = pUmDevice->mtu; - pDevice->RxJumboDescCnt = DEFAULT_JUMBO_RCV_DESC_COUNT; - } - else { - pDevice->RxJumboDescCnt = 0; - } - pDevice->RxJumboDescCnt = rx_jumbo_desc_cnt[index]; + if (pUmDevice->mtu > 1500) { + pDevice->RxMtu = pUmDevice->mtu; + pDevice->RxJumboDescCnt = DEFAULT_JUMBO_RCV_DESC_COUNT; + } else { + pDevice->RxJumboDescCnt = 0; + } + pDevice->RxJumboDescCnt = rx_jumbo_desc_cnt[index]; #else - pDevice->RxMtu = pUmDevice->mtu; + pDevice->RxMtu = pUmDevice->mtu; #endif - if (T3_ASIC_REV(pDevice->ChipRevId) == T3_ASIC_REV_5701) { - pDevice->UseTaggedStatus = TRUE; - pUmDevice->timer_interval = CFG_HZ; - } - else { - pUmDevice->timer_interval = CFG_HZ/50; - } - - pDevice->TxPacketDescCnt = tx_pkt_desc_cnt[index]; - pDevice->RxStdDescCnt = rx_std_desc_cnt[index]; - /* Note: adaptive coalescence really isn't adaptive in this driver */ - pUmDevice->rx_adaptive_coalesce = rx_adaptive_coalesce[index]; - if (!pUmDevice->rx_adaptive_coalesce) { - pDevice->RxCoalescingTicks = rx_coalesce_ticks[index]; - if (pDevice->RxCoalescingTicks > MAX_RX_COALESCING_TICKS) - pDevice->RxCoalescingTicks = MAX_RX_COALESCING_TICKS; - pUmDevice->rx_curr_coalesce_ticks =pDevice->RxCoalescingTicks; - - pDevice->RxMaxCoalescedFrames = rx_max_coalesce_frames[index]; - if (pDevice->RxMaxCoalescedFrames>MAX_RX_MAX_COALESCED_FRAMES) - pDevice->RxMaxCoalescedFrames = - MAX_RX_MAX_COALESCED_FRAMES; - pUmDevice->rx_curr_coalesce_frames = - pDevice->RxMaxCoalescedFrames; - pDevice->StatsCoalescingTicks = stats_coalesce_ticks[index]; - if (pDevice->StatsCoalescingTicks>MAX_STATS_COALESCING_TICKS) - pDevice->StatsCoalescingTicks= - MAX_STATS_COALESCING_TICKS; - } - else { - pUmDevice->rx_curr_coalesce_frames = - DEFAULT_RX_MAX_COALESCED_FRAMES; - pUmDevice->rx_curr_coalesce_ticks = - DEFAULT_RX_COALESCING_TICKS; + if (T3_ASIC_REV (pDevice->ChipRevId) == T3_ASIC_REV_5701) { + pDevice->UseTaggedStatus = TRUE; + pUmDevice->timer_interval = CFG_HZ; + } else { + pUmDevice->timer_interval = CFG_HZ / 50; } - pDevice->TxCoalescingTicks = tx_coalesce_ticks[index]; - if (pDevice->TxCoalescingTicks > MAX_TX_COALESCING_TICKS) - pDevice->TxCoalescingTicks = MAX_TX_COALESCING_TICKS; - pDevice->TxMaxCoalescedFrames = tx_max_coalesce_frames[index]; - if (pDevice->TxMaxCoalescedFrames > MAX_TX_MAX_COALESCED_FRAMES) - pDevice->TxMaxCoalescedFrames = MAX_TX_MAX_COALESCED_FRAMES; - if (enable_wol[index]) { - pDevice->WakeUpModeCap = LM_WAKE_UP_MODE_MAGIC_PACKET; - pDevice->WakeUpMode = LM_WAKE_UP_MODE_MAGIC_PACKET; - } - pDevice->NicSendBd = TRUE; + pDevice->TxPacketDescCnt = tx_pkt_desc_cnt[index]; + pDevice->RxStdDescCnt = rx_std_desc_cnt[index]; + /* Note: adaptive coalescence really isn't adaptive in this driver */ + pUmDevice->rx_adaptive_coalesce = rx_adaptive_coalesce[index]; + if (!pUmDevice->rx_adaptive_coalesce) { + pDevice->RxCoalescingTicks = rx_coalesce_ticks[index]; + if (pDevice->RxCoalescingTicks > MAX_RX_COALESCING_TICKS) + pDevice->RxCoalescingTicks = MAX_RX_COALESCING_TICKS; + pUmDevice->rx_curr_coalesce_ticks = pDevice->RxCoalescingTicks; + + pDevice->RxMaxCoalescedFrames = rx_max_coalesce_frames[index]; + if (pDevice->RxMaxCoalescedFrames > MAX_RX_MAX_COALESCED_FRAMES) + pDevice->RxMaxCoalescedFrames = + MAX_RX_MAX_COALESCED_FRAMES; + pUmDevice->rx_curr_coalesce_frames = + pDevice->RxMaxCoalescedFrames; + pDevice->StatsCoalescingTicks = stats_coalesce_ticks[index]; + if (pDevice->StatsCoalescingTicks > MAX_STATS_COALESCING_TICKS) + pDevice->StatsCoalescingTicks = + MAX_STATS_COALESCING_TICKS; + } else { + pUmDevice->rx_curr_coalesce_frames = + DEFAULT_RX_MAX_COALESCED_FRAMES; + pUmDevice->rx_curr_coalesce_ticks = DEFAULT_RX_COALESCING_TICKS; + } + pDevice->TxCoalescingTicks = tx_coalesce_ticks[index]; + if (pDevice->TxCoalescingTicks > MAX_TX_COALESCING_TICKS) + pDevice->TxCoalescingTicks = MAX_TX_COALESCING_TICKS; + pDevice->TxMaxCoalescedFrames = tx_max_coalesce_frames[index]; + if (pDevice->TxMaxCoalescedFrames > MAX_TX_MAX_COALESCED_FRAMES) + pDevice->TxMaxCoalescedFrames = MAX_TX_MAX_COALESCED_FRAMES; + + if (enable_wol[index]) { + pDevice->WakeUpModeCap = LM_WAKE_UP_MODE_MAGIC_PACKET; + pDevice->WakeUpMode = LM_WAKE_UP_MODE_MAGIC_PACKET; + } + pDevice->NicSendBd = TRUE; - /* Don't update status blocks during interrupt */ - pDevice->RxCoalescingTicksDuringInt = 0; - pDevice->TxCoalescingTicksDuringInt = 0; + /* Don't update status blocks during interrupt */ + pDevice->RxCoalescingTicksDuringInt = 0; + pDevice->TxCoalescingTicksDuringInt = 0; - return LM_STATUS_SUCCESS; + return LM_STATUS_SUCCESS; } - -LM_STATUS -MM_StartTxDma(PLM_DEVICE_BLOCK pDevice, PLM_PACKET pPacket) +LM_STATUS MM_StartTxDma (PLM_DEVICE_BLOCK pDevice, PLM_PACKET pPacket) { - PUM_DEVICE_BLOCK pUmDevice = (PUM_DEVICE_BLOCK) pDevice; - printf("Start TX DMA: dev=%d packet @0x%x\n", - (int)pUmDevice->index, (unsigned int)pPacket); + PUM_DEVICE_BLOCK pUmDevice = (PUM_DEVICE_BLOCK) pDevice; + printf ("Start TX DMA: dev=%d packet @0x%x\n", + (int)pUmDevice->index, (unsigned int)pPacket); - return LM_STATUS_SUCCESS; + return LM_STATUS_SUCCESS; } -LM_STATUS -MM_CompleteTxDma(PLM_DEVICE_BLOCK pDevice, PLM_PACKET pPacket) +LM_STATUS MM_CompleteTxDma (PLM_DEVICE_BLOCK pDevice, PLM_PACKET pPacket) { - PUM_DEVICE_BLOCK pUmDevice = (PUM_DEVICE_BLOCK) pDevice; - printf("Complete TX DMA: dev=%d packet @0x%x\n", - (int)pUmDevice->index, (unsigned int)pPacket); - return LM_STATUS_SUCCESS; + PUM_DEVICE_BLOCK pUmDevice = (PUM_DEVICE_BLOCK) pDevice; + printf ("Complete TX DMA: dev=%d packet @0x%x\n", + (int)pUmDevice->index, (unsigned int)pPacket); + return LM_STATUS_SUCCESS; } - -LM_STATUS -MM_IndicateStatus(PLM_DEVICE_BLOCK pDevice, LM_STATUS Status) +LM_STATUS MM_IndicateStatus (PLM_DEVICE_BLOCK pDevice, LM_STATUS Status) { - char buf[128]; - char lcd[4]; - PUM_DEVICE_BLOCK pUmDevice = (PUM_DEVICE_BLOCK) pDevice; - LM_FLOW_CONTROL flow_control; - - pUmDevice->delayed_link_ind = 0; - memset(lcd, 0x0, 4); - - if (Status == LM_STATUS_LINK_DOWN) { - sprintf(buf,"eth%d: %s: NIC Link is down\n", - pUmDevice->index,pUmDevice->name); - lcd[0] = 'L';lcd[1]='N';lcd[2]='K';lcd[3] = '?'; - } else if (Status == LM_STATUS_LINK_ACTIVE) { - sprintf(buf,"eth%d:%s: ", pUmDevice->index, pUmDevice->name); - - if (pDevice->LineSpeed == LM_LINE_SPEED_1000MBPS){ - strcat(buf,"1000 Mbps "); - lcd[0] = '1';lcd[1]='G';lcd[2]='B'; - } else if (pDevice->LineSpeed == LM_LINE_SPEED_100MBPS){ - strcat(buf,"100 Mbps "); - lcd[0] = '1';lcd[1]='0';lcd[2]='0'; - } else if (pDevice->LineSpeed == LM_LINE_SPEED_10MBPS){ - strcat(buf,"10 Mbps "); - lcd[0] = '1';lcd[1]='0';lcd[2]=' '; - } - if (pDevice->DuplexMode == LM_DUPLEX_MODE_FULL){ - strcat(buf, "full duplex"); - lcd[3] = 'F'; - } else { - strcat(buf, "half duplex"); - lcd[3] = 'H'; - } - strcat(buf, " link up"); - - flow_control = pDevice->FlowControl & - (LM_FLOW_CONTROL_RECEIVE_PAUSE | - LM_FLOW_CONTROL_TRANSMIT_PAUSE); - - if (flow_control) { - if (flow_control & LM_FLOW_CONTROL_RECEIVE_PAUSE) { - strcat(buf,", receive "); - if (flow_control & LM_FLOW_CONTROL_TRANSMIT_PAUSE) - strcat(buf," & transmit "); - } - else { - strcat(buf,", transmit "); - } - strcat(buf,"flow control ON"); - } else { - strcat(buf, ", flow control OFF"); + char buf[128]; + char lcd[4]; + PUM_DEVICE_BLOCK pUmDevice = (PUM_DEVICE_BLOCK) pDevice; + LM_FLOW_CONTROL flow_control; + + pUmDevice->delayed_link_ind = 0; + memset (lcd, 0x0, 4); + + if (Status == LM_STATUS_LINK_DOWN) { + sprintf (buf, "eth%d: %s: NIC Link is down\n", + pUmDevice->index, pUmDevice->name); + lcd[0] = 'L'; + lcd[1] = 'N'; + lcd[2] = 'K'; + lcd[3] = '?'; + } else if (Status == LM_STATUS_LINK_ACTIVE) { + sprintf (buf, "eth%d:%s: ", pUmDevice->index, pUmDevice->name); + + if (pDevice->LineSpeed == LM_LINE_SPEED_1000MBPS) { + strcat (buf, "1000 Mbps "); + lcd[0] = '1'; + lcd[1] = 'G'; + lcd[2] = 'B'; + } else if (pDevice->LineSpeed == LM_LINE_SPEED_100MBPS) { + strcat (buf, "100 Mbps "); + lcd[0] = '1'; + lcd[1] = '0'; + lcd[2] = '0'; + } else if (pDevice->LineSpeed == LM_LINE_SPEED_10MBPS) { + strcat (buf, "10 Mbps "); + lcd[0] = '1'; + lcd[1] = '0'; + lcd[2] = ' '; + } + if (pDevice->DuplexMode == LM_DUPLEX_MODE_FULL) { + strcat (buf, "full duplex"); + lcd[3] = 'F'; + } else { + strcat (buf, "half duplex"); + lcd[3] = 'H'; + } + strcat (buf, " link up"); + + flow_control = pDevice->FlowControl & + (LM_FLOW_CONTROL_RECEIVE_PAUSE | + LM_FLOW_CONTROL_TRANSMIT_PAUSE); + + if (flow_control) { + if (flow_control & LM_FLOW_CONTROL_RECEIVE_PAUSE) { + strcat (buf, ", receive "); + if (flow_control & + LM_FLOW_CONTROL_TRANSMIT_PAUSE) + strcat (buf, " & transmit "); + } else { + strcat (buf, ", transmit "); + } + strcat (buf, "flow control ON"); + } else { + strcat (buf, ", flow control OFF"); + } + strcat (buf, "\n"); + printf ("%s", buf); } - strcat(buf,"\n"); - printf("%s",buf); - } #if 0 - sysLedDsply(lcd[0],lcd[1],lcd[2],lcd[3]); + sysLedDsply (lcd[0], lcd[1], lcd[2], lcd[3]); #endif - return LM_STATUS_SUCCESS; + return LM_STATUS_SUCCESS; } -LM_STATUS -MM_FreeRxBuffer(PLM_DEVICE_BLOCK pDevice, PLM_PACKET pPacket) +LM_STATUS MM_FreeRxBuffer (PLM_DEVICE_BLOCK pDevice, PLM_PACKET pPacket) { - PUM_DEVICE_BLOCK pUmDevice = (PUM_DEVICE_BLOCK) pDevice; - PUM_PACKET pUmPacket; - void *skb; + PUM_DEVICE_BLOCK pUmDevice = (PUM_DEVICE_BLOCK) pDevice; + PUM_PACKET pUmPacket; + void *skb; - pUmPacket = (PUM_PACKET) pPacket; + pUmPacket = (PUM_PACKET) pPacket; - if ((skb = pUmPacket->skbuff)) - bcm570xPktFree(pUmDevice->index, skb); + if ((skb = pUmPacket->skbuff)) + bcm570xPktFree (pUmDevice->index, skb); - pUmPacket->skbuff = 0; + pUmPacket->skbuff = 0; - return LM_STATUS_SUCCESS; + return LM_STATUS_SUCCESS; } -unsigned long -MM_AnGetCurrentTime_us(PAN_STATE_INFO pAnInfo) +unsigned long MM_AnGetCurrentTime_us (PAN_STATE_INFO pAnInfo) { - return get_timer(0); + return get_timer (0); } /* @@ -1258,86 +1220,82 @@ MM_AnGetCurrentTime_us(PAN_STATE_INFO pAnInfo) * non-fatal. The incoming cluster chain is not freed, giving * the caller the choice of whether to try a retransmit later. */ -LM_STATUS -MM_CoalesceTxBuffer(PLM_DEVICE_BLOCK pDevice, PLM_PACKET pPacket) +LM_STATUS MM_CoalesceTxBuffer (PLM_DEVICE_BLOCK pDevice, PLM_PACKET pPacket) { - PUM_PACKET pUmPacket = (PUM_PACKET) pPacket; - PUM_DEVICE_BLOCK pUmDevice = (PUM_DEVICE_BLOCK) pDevice; - void *skbnew; - int len = 0; - - if (len == 0) - return (LM_STATUS_SUCCESS); - - if (len > MAX_PACKET_SIZE){ - printf ("eth%d: xmit frame discarded, too big!, size = %d\n", - pUmDevice->index, len); - return (LM_STATUS_FAILURE); - } + PUM_PACKET pUmPacket = (PUM_PACKET) pPacket; + PUM_DEVICE_BLOCK pUmDevice = (PUM_DEVICE_BLOCK) pDevice; + void *skbnew; + int len = 0; + + if (len == 0) + return (LM_STATUS_SUCCESS); + + if (len > MAX_PACKET_SIZE) { + printf ("eth%d: xmit frame discarded, too big!, size = %d\n", + pUmDevice->index, len); + return (LM_STATUS_FAILURE); + } - skbnew = bcm570xPktAlloc(pUmDevice->index, MAX_PACKET_SIZE); + skbnew = bcm570xPktAlloc (pUmDevice->index, MAX_PACKET_SIZE); - if (skbnew == NULL) { - pUmDevice->tx_full = 1; - printf ("eth%d: out of transmit buffers", pUmDevice->index); - return (LM_STATUS_FAILURE); - } + if (skbnew == NULL) { + pUmDevice->tx_full = 1; + printf ("eth%d: out of transmit buffers", pUmDevice->index); + return (LM_STATUS_FAILURE); + } - /* New packet values */ - pUmPacket->skbuff = skbnew; - pUmPacket->lm_packet.u.Tx.FragCount = 1; + /* New packet values */ + pUmPacket->skbuff = skbnew; + pUmPacket->lm_packet.u.Tx.FragCount = 1; - return (LM_STATUS_SUCCESS); + return (LM_STATUS_SUCCESS); } - -LM_STATUS -MM_IndicateRxPackets(PLM_DEVICE_BLOCK pDevice) +LM_STATUS MM_IndicateRxPackets (PLM_DEVICE_BLOCK pDevice) { - PUM_DEVICE_BLOCK pUmDevice = (PUM_DEVICE_BLOCK) pDevice; - pUmDevice->rx_pkt = 1; - return LM_STATUS_SUCCESS; + PUM_DEVICE_BLOCK pUmDevice = (PUM_DEVICE_BLOCK) pDevice; + pUmDevice->rx_pkt = 1; + return LM_STATUS_SUCCESS; } -LM_STATUS -MM_IndicateTxPackets(PLM_DEVICE_BLOCK pDevice) +LM_STATUS MM_IndicateTxPackets (PLM_DEVICE_BLOCK pDevice) { - PUM_DEVICE_BLOCK pUmDevice = (PUM_DEVICE_BLOCK) pDevice; - PLM_PACKET pPacket; - PUM_PACKET pUmPacket; - void *skb; - while ( TRUE ) { - - pPacket = (PLM_PACKET) - QQ_PopHead(&pDevice->TxPacketXmittedQ.Container); - - if (pPacket == 0) - break; - - pUmPacket = (PUM_PACKET) pPacket; - skb = (void*)pUmPacket->skbuff; - - /* - * Free MBLK if we transmitted a fragmented packet or a - * non-fragmented packet straight from the VxWorks - * buffer pool. If packet was copied to a local transmit - * buffer, then there's no MBUF to free, just free - * the transmit buffer back to the cluster pool. - */ - - if (skb) - bcm570xPktFree (pUmDevice->index, skb); - - pUmPacket->skbuff = 0; - QQ_PushTail(&pDevice->TxPacketFreeQ.Container, pPacket); - pUmDevice->tx_pkt = 1; - } - if (pUmDevice->tx_full) { - if (QQ_GetEntryCnt(&pDevice->TxPacketFreeQ.Container) >= - (QQ_GetSize(&pDevice->TxPacketFreeQ.Container) >> 1)) - pUmDevice->tx_full = 0; - } - return LM_STATUS_SUCCESS; + PUM_DEVICE_BLOCK pUmDevice = (PUM_DEVICE_BLOCK) pDevice; + PLM_PACKET pPacket; + PUM_PACKET pUmPacket; + void *skb; + while (TRUE) { + + pPacket = (PLM_PACKET) + QQ_PopHead (&pDevice->TxPacketXmittedQ.Container); + + if (pPacket == 0) + break; + + pUmPacket = (PUM_PACKET) pPacket; + skb = (void *)pUmPacket->skbuff; + + /* + * Free MBLK if we transmitted a fragmented packet or a + * non-fragmented packet straight from the VxWorks + * buffer pool. If packet was copied to a local transmit + * buffer, then there's no MBUF to free, just free + * the transmit buffer back to the cluster pool. + */ + + if (skb) + bcm570xPktFree (pUmDevice->index, skb); + + pUmPacket->skbuff = 0; + QQ_PushTail (&pDevice->TxPacketFreeQ.Container, pPacket); + pUmDevice->tx_pkt = 1; + } + if (pUmDevice->tx_full) { + if (QQ_GetEntryCnt (&pDevice->TxPacketFreeQ.Container) >= + (QQ_GetSize (&pDevice->TxPacketFreeQ.Container) >> 1)) + pUmDevice->tx_full = 0; + } + return LM_STATUS_SUCCESS; } /* @@ -1345,16 +1303,12 @@ MM_IndicateTxPackets(PLM_DEVICE_BLOCK pDevice) * Return its length and physical address. */ void MM_MapTxDma - ( - PLM_DEVICE_BLOCK pDevice, - struct _LM_PACKET *pPacket, - T3_64BIT_HOST_ADDR *paddr, - LM_UINT32 *len, - int frag) -{ - PUM_PACKET pUmPacket = (PUM_PACKET) pPacket; - *len = pPacket->PacketSize; - MM_SetT3Addr(paddr, (dma_addr_t) pUmPacket->skbuff); + (PLM_DEVICE_BLOCK pDevice, + struct _LM_PACKET *pPacket, + T3_64BIT_HOST_ADDR * paddr, LM_UINT32 * len, int frag) { + PUM_PACKET pUmPacket = (PUM_PACKET) pPacket; + *len = pPacket->PacketSize; + MM_SetT3Addr (paddr, (dma_addr_t) pUmPacket->skbuff); } /* @@ -1362,35 +1316,31 @@ void MM_MapTxDma * to a physical address as seen from a PCI device. Store the * result at paddr. */ -void MM_MapRxDma( - PLM_DEVICE_BLOCK pDevice, - struct _LM_PACKET *pPacket, - T3_64BIT_HOST_ADDR *paddr) +void MM_MapRxDma (PLM_DEVICE_BLOCK pDevice, + struct _LM_PACKET *pPacket, T3_64BIT_HOST_ADDR * paddr) { - PUM_PACKET pUmPacket = (PUM_PACKET) pPacket; - MM_SetT3Addr(paddr, (dma_addr_t) pUmPacket->skbuff); + PUM_PACKET pUmPacket = (PUM_PACKET) pPacket; + MM_SetT3Addr (paddr, (dma_addr_t) pUmPacket->skbuff); } -void -MM_SetAddr (LM_PHYSICAL_ADDRESS *paddr, dma_addr_t addr) +void MM_SetAddr (LM_PHYSICAL_ADDRESS * paddr, dma_addr_t addr) { #if (BITS_PER_LONG == 64) - paddr->High = ((unsigned long) addr) >> 32; - paddr->Low = ((unsigned long) addr) & 0xffffffff; + paddr->High = ((unsigned long)addr) >> 32; + paddr->Low = ((unsigned long)addr) & 0xffffffff; #else paddr->High = 0; - paddr->Low = (unsigned long) addr; + paddr->Low = (unsigned long)addr; #endif } -void -MM_SetT3Addr(T3_64BIT_HOST_ADDR *paddr, dma_addr_t addr) +void MM_SetT3Addr (T3_64BIT_HOST_ADDR * paddr, dma_addr_t addr) { - unsigned long baddr = (unsigned long) addr; + unsigned long baddr = (unsigned long)addr; #if (BITS_PER_LONG == 64) - set_64bit_addr(paddr, baddr & 0xffffffff, baddr >> 32); + set_64bit_addr (paddr, baddr & 0xffffffff, baddr >> 32); #else - set_64bit_addr(paddr, baddr, 0); + set_64bit_addr (paddr, baddr, 0); #endif } @@ -1403,42 +1353,38 @@ MM_SetT3Addr(T3_64BIT_HOST_ADDR *paddr, dma_addr_t addr) * If any uses of the function remain, they will refer to the single copy * in the library. */ -void -atomic_set(atomic_t* entry, int val) +void atomic_set (atomic_t * entry, int val) { - entry->counter = val; + entry->counter = val; } -int -atomic_read(atomic_t* entry) + +int atomic_read (atomic_t * entry) { - return entry->counter; + return entry->counter; } -void -atomic_inc(atomic_t* entry) + +void atomic_inc (atomic_t * entry) { - if(entry) - entry->counter++; + if (entry) + entry->counter++; } -void -atomic_dec(atomic_t* entry) +void atomic_dec (atomic_t * entry) { - if(entry) - entry->counter--; + if (entry) + entry->counter--; } -void -atomic_sub(int a, atomic_t* entry) +void atomic_sub (int a, atomic_t * entry) { - if(entry) - entry->counter -= a; + if (entry) + entry->counter -= a; } -void -atomic_add(int a, atomic_t* entry) +void atomic_add (int a, atomic_t * entry) { - if(entry) - entry->counter += a; + if (entry) + entry->counter += a; } /******************************************************************************/ @@ -1446,68 +1392,57 @@ atomic_add(int a, atomic_t* entry) /* */ /* Return: */ /******************************************************************************/ -void -QQ_InitQueue( -PQQ_CONTAINER pQueue, -unsigned int QueueSize) { - pQueue->Head = 0; - pQueue->Tail = 0; - pQueue->Size = QueueSize+1; - atomic_set(&pQueue->EntryCnt, 0); -} /* QQ_InitQueue */ - +void QQ_InitQueue (PQQ_CONTAINER pQueue, unsigned int QueueSize) +{ + pQueue->Head = 0; + pQueue->Tail = 0; + pQueue->Size = QueueSize + 1; + atomic_set (&pQueue->EntryCnt, 0); +} /* QQ_InitQueue */ /******************************************************************************/ /* Description: */ /* */ /* Return: */ /******************************************************************************/ -char -QQ_Full( -PQQ_CONTAINER pQueue) { - unsigned int NewHead; - - NewHead = (pQueue->Head + 1) % pQueue->Size; +char QQ_Full (PQQ_CONTAINER pQueue) +{ + unsigned int NewHead; - return(NewHead == pQueue->Tail); -} /* QQ_Full */ + NewHead = (pQueue->Head + 1) % pQueue->Size; + return (NewHead == pQueue->Tail); +} /* QQ_Full */ /******************************************************************************/ /* Description: */ /* */ /* Return: */ /******************************************************************************/ -char -QQ_Empty( -PQQ_CONTAINER pQueue) { - return(pQueue->Head == pQueue->Tail); -} /* QQ_Empty */ - +char QQ_Empty (PQQ_CONTAINER pQueue) +{ + return (pQueue->Head == pQueue->Tail); +} /* QQ_Empty */ /******************************************************************************/ /* Description: */ /* */ /* Return: */ /******************************************************************************/ -unsigned int -QQ_GetSize( -PQQ_CONTAINER pQueue) { - return pQueue->Size; -} /* QQ_GetSize */ - +unsigned int QQ_GetSize (PQQ_CONTAINER pQueue) +{ + return pQueue->Size; +} /* QQ_GetSize */ /******************************************************************************/ /* Description: */ /* */ /* Return: */ /******************************************************************************/ -unsigned int -QQ_GetEntryCnt( -PQQ_CONTAINER pQueue) { - return atomic_read(&pQueue->EntryCnt); -} /* QQ_GetEntryCnt */ - +unsigned int QQ_GetEntryCnt (PQQ_CONTAINER pQueue) +{ + return atomic_read (&pQueue->EntryCnt); +} /* QQ_GetEntryCnt */ /******************************************************************************/ /* Description: */ @@ -1516,28 +1451,25 @@ PQQ_CONTAINER pQueue) { /* TRUE entry was added successfully. */ /* FALSE queue is full. */ /******************************************************************************/ -char -QQ_PushHead( -PQQ_CONTAINER pQueue, -PQQ_ENTRY pEntry) { - unsigned int Head; +char QQ_PushHead (PQQ_CONTAINER pQueue, PQQ_ENTRY pEntry) +{ + unsigned int Head; - Head = (pQueue->Head + 1) % pQueue->Size; + Head = (pQueue->Head + 1) % pQueue->Size; #if !defined(QQ_NO_OVERFLOW_CHECK) - if(Head == pQueue->Tail) { - return 0; - } /* if */ -#endif /* QQ_NO_OVERFLOW_CHECK */ - - pQueue->Array[pQueue->Head] = pEntry; - wmb(); - pQueue->Head = Head; - atomic_inc(&pQueue->EntryCnt); + if (Head == pQueue->Tail) { + return 0; + } /* if */ +#endif /* QQ_NO_OVERFLOW_CHECK */ - return -1; -} /* QQ_PushHead */ + pQueue->Array[pQueue->Head] = pEntry; + wmb (); + pQueue->Head = Head; + atomic_inc (&pQueue->EntryCnt); + return -1; +} /* QQ_PushHead */ /******************************************************************************/ /* Description: */ @@ -1546,146 +1478,126 @@ PQQ_ENTRY pEntry) { /* TRUE entry was added successfully. */ /* FALSE queue is full. */ /******************************************************************************/ -char -QQ_PushTail( -PQQ_CONTAINER pQueue, -PQQ_ENTRY pEntry) { - unsigned int Tail; - - Tail = pQueue->Tail; - if(Tail == 0) { - Tail = pQueue->Size; - } /* if */ - Tail--; +char QQ_PushTail (PQQ_CONTAINER pQueue, PQQ_ENTRY pEntry) +{ + unsigned int Tail; -#if !defined(QQ_NO_OVERFLOW_CHECK) - if(Tail == pQueue->Head) { - return 0; - } /* if */ -#endif /* QQ_NO_OVERFLOW_CHECK */ + Tail = pQueue->Tail; + if (Tail == 0) { + Tail = pQueue->Size; + } /* if */ + Tail--; - pQueue->Array[Tail] = pEntry; - wmb(); - pQueue->Tail = Tail; - atomic_inc(&pQueue->EntryCnt); +#if !defined(QQ_NO_OVERFLOW_CHECK) + if (Tail == pQueue->Head) { + return 0; + } /* if */ +#endif /* QQ_NO_OVERFLOW_CHECK */ - return -1; -} /* QQ_PushTail */ + pQueue->Array[Tail] = pEntry; + wmb (); + pQueue->Tail = Tail; + atomic_inc (&pQueue->EntryCnt); + return -1; +} /* QQ_PushTail */ /******************************************************************************/ /* Description: */ /* */ /* Return: */ /******************************************************************************/ -PQQ_ENTRY -QQ_PopHead( -PQQ_CONTAINER pQueue) { - unsigned int Head; - PQQ_ENTRY Entry; +PQQ_ENTRY QQ_PopHead (PQQ_CONTAINER pQueue) +{ + unsigned int Head; + PQQ_ENTRY Entry; - Head = pQueue->Head; + Head = pQueue->Head; #if !defined(QQ_NO_UNDERFLOW_CHECK) - if(Head == pQueue->Tail) { - return (PQQ_ENTRY) 0; - } /* if */ -#endif /* QQ_NO_UNDERFLOW_CHECK */ - - if(Head == 0) { - Head = pQueue->Size; - } /* if */ - Head--; + if (Head == pQueue->Tail) { + return (PQQ_ENTRY) 0; + } /* if */ +#endif /* QQ_NO_UNDERFLOW_CHECK */ - Entry = pQueue->Array[Head]; - membar(); + if (Head == 0) { + Head = pQueue->Size; + } /* if */ + Head--; - pQueue->Head = Head; - atomic_dec(&pQueue->EntryCnt); + Entry = pQueue->Array[Head]; + membar (); - return Entry; -} /* QQ_PopHead */ + pQueue->Head = Head; + atomic_dec (&pQueue->EntryCnt); + return Entry; +} /* QQ_PopHead */ /******************************************************************************/ /* Description: */ /* */ /* Return: */ /******************************************************************************/ -PQQ_ENTRY -QQ_PopTail( -PQQ_CONTAINER pQueue) { - unsigned int Tail; - PQQ_ENTRY Entry; +PQQ_ENTRY QQ_PopTail (PQQ_CONTAINER pQueue) +{ + unsigned int Tail; + PQQ_ENTRY Entry; - Tail = pQueue->Tail; + Tail = pQueue->Tail; #if !defined(QQ_NO_UNDERFLOW_CHECK) - if(Tail == pQueue->Head) { - return (PQQ_ENTRY) 0; - } /* if */ -#endif /* QQ_NO_UNDERFLOW_CHECK */ + if (Tail == pQueue->Head) { + return (PQQ_ENTRY) 0; + } /* if */ +#endif /* QQ_NO_UNDERFLOW_CHECK */ - Entry = pQueue->Array[Tail]; - membar(); - pQueue->Tail = (Tail + 1) % pQueue->Size; - atomic_dec(&pQueue->EntryCnt); - - return Entry; -} /* QQ_PopTail */ + Entry = pQueue->Array[Tail]; + membar (); + pQueue->Tail = (Tail + 1) % pQueue->Size; + atomic_dec (&pQueue->EntryCnt); + return Entry; +} /* QQ_PopTail */ /******************************************************************************/ /* Description: */ /* */ /* Return: */ /******************************************************************************/ -PQQ_ENTRY -QQ_GetHead( - PQQ_CONTAINER pQueue, - unsigned int Idx) +PQQ_ENTRY QQ_GetHead (PQQ_CONTAINER pQueue, unsigned int Idx) { - if(Idx >= atomic_read(&pQueue->EntryCnt)) - { - return (PQQ_ENTRY) 0; - } - - if(pQueue->Head > Idx) - { - Idx = pQueue->Head - Idx; - } - else - { - Idx = pQueue->Size - (Idx - pQueue->Head); - } - Idx--; - - return pQueue->Array[Idx]; -} + if (Idx >= atomic_read (&pQueue->EntryCnt)) { + return (PQQ_ENTRY) 0; + } + + if (pQueue->Head > Idx) { + Idx = pQueue->Head - Idx; + } else { + Idx = pQueue->Size - (Idx - pQueue->Head); + } + Idx--; + return pQueue->Array[Idx]; +} /******************************************************************************/ /* Description: */ /* */ /* Return: */ /******************************************************************************/ -PQQ_ENTRY -QQ_GetTail( - PQQ_CONTAINER pQueue, - unsigned int Idx) +PQQ_ENTRY QQ_GetTail (PQQ_CONTAINER pQueue, unsigned int Idx) { - if(Idx >= atomic_read(&pQueue->EntryCnt)) - { - return (PQQ_ENTRY) 0; - } - - Idx += pQueue->Tail; - if(Idx >= pQueue->Size) - { - Idx = Idx - pQueue->Size; - } - - return pQueue->Array[Idx]; + if (Idx >= atomic_read (&pQueue->EntryCnt)) { + return (PQQ_ENTRY) 0; + } + + Idx += pQueue->Tail; + if (Idx >= pQueue->Size) { + Idx = Idx - pQueue->Size; + } + + return pQueue->Array[Idx]; } -#endif /* CFG_CMD_NET, !CONFIG_NET_MULTI, CONFIG_BCM570x */ +#endif diff --git a/drivers/bcm570x_lm.h b/drivers/bcm570x_lm.h index 607f3fd..2ea6ca8 100644 --- a/drivers/bcm570x_lm.h +++ b/drivers/bcm570x_lm.h @@ -19,29 +19,28 @@ #include "bcm570x_queue.h" #include "bcm570x_bits.h" - /******************************************************************************/ /* Basic types. */ /******************************************************************************/ -typedef char LM_CHAR, *PLM_CHAR; -typedef unsigned int LM_UINT, *PLM_UINT; -typedef unsigned char LM_UINT8, *PLM_UINT8; -typedef unsigned short LM_UINT16, *PLM_UINT16; -typedef unsigned int LM_UINT32, *PLM_UINT32; -typedef unsigned int LM_COUNTER, *PLM_COUNTER; -typedef void LM_VOID, *PLM_VOID; -typedef char LM_BOOL, *PLM_BOOL; +typedef char LM_CHAR, *PLM_CHAR; +typedef unsigned int LM_UINT, *PLM_UINT; +typedef unsigned char LM_UINT8, *PLM_UINT8; +typedef unsigned short LM_UINT16, *PLM_UINT16; +typedef unsigned int LM_UINT32, *PLM_UINT32; +typedef unsigned int LM_COUNTER, *PLM_COUNTER; +typedef void LM_VOID, *PLM_VOID; +typedef char LM_BOOL, *PLM_BOOL; /* 64bit value. */ typedef struct { #ifdef BIG_ENDIAN_HOST - LM_UINT32 High; - LM_UINT32 Low; -#else /* BIG_ENDIAN_HOST */ - LM_UINT32 Low; - LM_UINT32 High; -#endif /* !BIG_ENDIAN_HOST */ + LM_UINT32 High; + LM_UINT32 Low; +#else /* BIG_ENDIAN_HOST */ + LM_UINT32 Low; + LM_UINT32 High; +#endif /* !BIG_ENDIAN_HOST */ } LM_UINT64, *PLM_UINT64; typedef LM_UINT64 LM_PHYSICAL_ADDRESS, *PLM_PHYSICAL_ADDRESS; @@ -58,15 +57,13 @@ typedef LM_UINT64 LM_PHYSICAL_ADDRESS, *PLM_PHYSICAL_ADDRESS; } \ } - #ifndef NULL #define NULL ((void *) 0) -#endif /* NULL */ +#endif /* NULL */ #ifndef OFFSETOF #define OFFSETOF(_s, _m) (MM_UINT_PTR(&(((_s *) 0)->_m))) -#endif /* OFFSETOF */ - +#endif /* OFFSETOF */ /******************************************************************************/ /* Simple macros. */ @@ -100,26 +97,24 @@ typedef LM_UINT64 LM_PHYSICAL_ADDRESS, *PLM_PHYSICAL_ADDRESS; ((unsigned char *) (_Dst))[4] = ((unsigned char *) (_Src))[4]; \ ((unsigned char *) (_Dst))[5] = ((unsigned char *) (_Src))[5]; - /******************************************************************************/ /* Constants. */ /******************************************************************************/ #define ETHERNET_ADDRESS_SIZE 6 #define ETHERNET_PACKET_HEADER_SIZE 14 -#define MIN_ETHERNET_PACKET_SIZE 64 /* with 4 byte crc. */ -#define MAX_ETHERNET_PACKET_SIZE 1518 /* with 4 byte crc. */ +#define MIN_ETHERNET_PACKET_SIZE 64 /* with 4 byte crc. */ +#define MAX_ETHERNET_PACKET_SIZE 1518 /* with 4 byte crc. */ #define MIN_ETHERNET_PACKET_SIZE_NO_CRC 60 #define MAX_ETHERNET_PACKET_SIZE_NO_CRC 1514 -#define MAX_ETHERNET_PACKET_BUFFER_SIZE 1536 /* A nice even number. */ +#define MAX_ETHERNET_PACKET_BUFFER_SIZE 1536 /* A nice even number. */ #ifndef LM_MAX_MC_TABLE_SIZE #define LM_MAX_MC_TABLE_SIZE 32 -#endif /* LM_MAX_MC_TABLE_SIZE */ +#endif /* LM_MAX_MC_TABLE_SIZE */ #define LM_MC_ENTRY_SIZE (ETHERNET_ADDRESS_SIZE+1) #define LM_MC_INSTANCE_COUNT_INDEX (LM_MC_ENTRY_SIZE-1) - /* Receive filter masks. */ #define LM_ACCEPT_UNICAST 0x0001 #define LM_ACCEPT_MULTICAST 0x0002 @@ -129,7 +124,6 @@ typedef LM_UINT64 LM_PHYSICAL_ADDRESS, *PLM_PHYSICAL_ADDRESS; #define LM_PROMISCUOUS_MODE 0x10000 - /******************************************************************************/ /* PCI registers. */ /******************************************************************************/ @@ -169,20 +163,20 @@ typedef LM_UINT64 LM_PHYSICAL_ADDRESS, *PLM_PHYSICAL_ADDRESS; /******************************************************************************/ typedef struct { - LM_UINT32 FragSize; - LM_PHYSICAL_ADDRESS FragBuf; + LM_UINT32 FragSize; + LM_PHYSICAL_ADDRESS FragBuf; } LM_FRAG, *PLM_FRAG; typedef struct { - /* FragCount is initialized for the caller to the maximum array size, on */ - /* return FragCount is the number of the actual fragments in the array. */ - LM_UINT32 FragCount; + /* FragCount is initialized for the caller to the maximum array size, on */ + /* return FragCount is the number of the actual fragments in the array. */ + LM_UINT32 FragCount; - /* Total buffer size. */ - LM_UINT32 TotalSize; + /* Total buffer size. */ + LM_UINT32 TotalSize; - /* Fragment array buffer. */ - LM_FRAG Fragments[1]; + /* Fragment array buffer. */ + LM_FRAG Fragments[1]; } LM_FRAG_LIST, *PLM_FRAG_LIST; #define DECLARE_FRAG_LIST_BUFFER_TYPE(_FRAG_LIST_TYPE_NAME, _MAX_FRAG_COUNT) \ @@ -191,7 +185,6 @@ typedef struct { LM_FRAG FragListBuffer[_MAX_FRAG_COUNT-1]; \ } _FRAG_LIST_TYPE_NAME, *P##_FRAG_LIST_TYPE_NAME - /******************************************************************************/ /* Status codes. */ /******************************************************************************/ @@ -217,7 +210,6 @@ typedef struct { typedef LM_UINT LM_STATUS, *PLM_STATUS; - /******************************************************************************/ /* Requested media type. */ /******************************************************************************/ @@ -240,7 +232,6 @@ typedef LM_UINT LM_STATUS, *PLM_STATUS; typedef LM_UINT32 LM_REQUESTED_MEDIA_TYPE, *PLM_REQUESTED_MEDIA_TYPE; - /******************************************************************************/ /* Media type. */ /******************************************************************************/ @@ -254,7 +245,6 @@ typedef LM_UINT32 LM_REQUESTED_MEDIA_TYPE, *PLM_REQUESTED_MEDIA_TYPE; typedef LM_UINT32 LM_MEDIA_TYPE, *PLM_MEDIA_TYPE; - /******************************************************************************/ /* Line speed. */ /******************************************************************************/ @@ -266,7 +256,6 @@ typedef LM_UINT32 LM_MEDIA_TYPE, *PLM_MEDIA_TYPE; typedef LM_UINT32 LM_LINE_SPEED, *PLM_LINE_SPEED; - /******************************************************************************/ /* Duplex mode. */ /******************************************************************************/ @@ -277,7 +266,6 @@ typedef LM_UINT32 LM_LINE_SPEED, *PLM_LINE_SPEED; typedef LM_UINT32 LM_DUPLEX_MODE, *PLM_DUPLEX_MODE; - /******************************************************************************/ /* Power state. */ /******************************************************************************/ @@ -289,7 +277,6 @@ typedef LM_UINT32 LM_DUPLEX_MODE, *PLM_DUPLEX_MODE; typedef LM_UINT32 LM_POWER_STATE, *PLM_POWER_STATE; - /******************************************************************************/ /* Task offloading. */ /******************************************************************************/ @@ -305,7 +292,6 @@ typedef LM_UINT32 LM_POWER_STATE, *PLM_POWER_STATE; typedef LM_UINT32 LM_TASK_OFFLOAD, *PLM_TASK_OFFLOAD; - /******************************************************************************/ /* Flow control. */ /******************************************************************************/ @@ -324,7 +310,6 @@ typedef LM_UINT32 LM_TASK_OFFLOAD, *PLM_TASK_OFFLOAD; typedef LM_UINT32 LM_FLOW_CONTROL, *PLM_FLOW_CONTROL; - /******************************************************************************/ /* Wake up mode. */ /******************************************************************************/ @@ -336,7 +321,6 @@ typedef LM_UINT32 LM_FLOW_CONTROL, *PLM_FLOW_CONTROL; typedef LM_UINT32 LM_WAKE_UP_MODE, *PLM_WAKE_UP_MODE; - /******************************************************************************/ /* Counters. */ /******************************************************************************/ @@ -362,7 +346,6 @@ typedef LM_UINT32 LM_WAKE_UP_MODE, *PLM_WAKE_UP_MODE; typedef LM_UINT32 LM_COUNTER_TYPE, *PLM_COUNTER_TYPE; - /******************************************************************************/ /* Forward definition. */ /******************************************************************************/ @@ -370,82 +353,82 @@ typedef LM_UINT32 LM_COUNTER_TYPE, *PLM_COUNTER_TYPE; typedef struct _LM_DEVICE_BLOCK *PLM_DEVICE_BLOCK; typedef struct _LM_PACKET *PLM_PACKET; - /******************************************************************************/ /* Function prototypes. */ /******************************************************************************/ -LM_STATUS LM_GetAdapterInfo(PLM_DEVICE_BLOCK pDevice); -LM_STATUS LM_InitializeAdapter(PLM_DEVICE_BLOCK pDevice); -LM_STATUS LM_ResetAdapter(PLM_DEVICE_BLOCK pDevice); -LM_STATUS LM_DisableInterrupt(PLM_DEVICE_BLOCK pDevice); -LM_STATUS LM_EnableInterrupt(PLM_DEVICE_BLOCK pDevice); -LM_STATUS LM_SendPacket(PLM_DEVICE_BLOCK pDevice, PLM_PACKET pPacket); -LM_STATUS LM_ServiceInterrupts(PLM_DEVICE_BLOCK pDevice); -LM_STATUS LM_QueueRxPackets(PLM_DEVICE_BLOCK pDevice); -LM_STATUS LM_SetReceiveMask(PLM_DEVICE_BLOCK pDevice, LM_UINT32 Mask); -LM_STATUS LM_Halt(PLM_DEVICE_BLOCK pDevice); -LM_STATUS LM_Abort(PLM_DEVICE_BLOCK pDevice); -LM_STATUS LM_MulticastAdd(PLM_DEVICE_BLOCK pDevice, PLM_UINT8 pMcAddress); -LM_STATUS LM_MulticastDel(PLM_DEVICE_BLOCK pDevice, PLM_UINT8 pMcAddress); -LM_STATUS LM_MulticastClear(PLM_DEVICE_BLOCK pDevice); -LM_STATUS LM_SetMacAddress(PLM_DEVICE_BLOCK pDevice, PLM_UINT8 pMacAddress); -LM_STATUS LM_LoopbackAddress(PLM_DEVICE_BLOCK pDevice, PLM_UINT8 pAddress); - -LM_UINT32 LM_GetCrcCounter(PLM_DEVICE_BLOCK pDevice); - -LM_WAKE_UP_MODE LM_PMCapabilities(PLM_DEVICE_BLOCK pDevice); -LM_STATUS LM_NwufAdd(PLM_DEVICE_BLOCK pDevice, LM_UINT32 ByteMaskSize, - LM_UINT8 *pByteMask, LM_UINT8 *pPattern); -LM_STATUS LM_NwufRemove(PLM_DEVICE_BLOCK pDevice, LM_UINT32 ByteMaskSize, - LM_UINT8 *pByteMask, LM_UINT8 *pPattern); -LM_STATUS LM_SetPowerState(PLM_DEVICE_BLOCK pDevice, LM_POWER_STATE PowerLevel); - -LM_VOID LM_ReadPhy(PLM_DEVICE_BLOCK pDevice, LM_UINT32 PhyReg, - PLM_UINT32 pData32); -LM_VOID LM_WritePhy(PLM_DEVICE_BLOCK pDevice, LM_UINT32 PhyReg, - LM_UINT32 Data32); - -LM_STATUS LM_ControlLoopBack(PLM_DEVICE_BLOCK pDevice, LM_UINT32 Control); -LM_STATUS LM_SetupPhy(PLM_DEVICE_BLOCK pDevice); -int LM_BlinkLED(PLM_DEVICE_BLOCK pDevice, LM_UINT32 BlinkDuration); - +LM_STATUS LM_GetAdapterInfo (PLM_DEVICE_BLOCK pDevice); +LM_STATUS LM_InitializeAdapter (PLM_DEVICE_BLOCK pDevice); +LM_STATUS LM_ResetAdapter (PLM_DEVICE_BLOCK pDevice); +LM_STATUS LM_DisableInterrupt (PLM_DEVICE_BLOCK pDevice); +LM_STATUS LM_EnableInterrupt (PLM_DEVICE_BLOCK pDevice); +LM_STATUS LM_SendPacket (PLM_DEVICE_BLOCK pDevice, PLM_PACKET pPacket); +LM_STATUS LM_ServiceInterrupts (PLM_DEVICE_BLOCK pDevice); +LM_STATUS LM_QueueRxPackets (PLM_DEVICE_BLOCK pDevice); +LM_STATUS LM_SetReceiveMask (PLM_DEVICE_BLOCK pDevice, LM_UINT32 Mask); +LM_STATUS LM_Halt (PLM_DEVICE_BLOCK pDevice); +LM_STATUS LM_Abort (PLM_DEVICE_BLOCK pDevice); +LM_STATUS LM_MulticastAdd (PLM_DEVICE_BLOCK pDevice, PLM_UINT8 pMcAddress); +LM_STATUS LM_MulticastDel (PLM_DEVICE_BLOCK pDevice, PLM_UINT8 pMcAddress); +LM_STATUS LM_MulticastClear (PLM_DEVICE_BLOCK pDevice); +LM_STATUS LM_SetMacAddress (PLM_DEVICE_BLOCK pDevice, PLM_UINT8 pMacAddress); +LM_STATUS LM_LoopbackAddress (PLM_DEVICE_BLOCK pDevice, PLM_UINT8 pAddress); + +LM_UINT32 LM_GetCrcCounter (PLM_DEVICE_BLOCK pDevice); + +LM_WAKE_UP_MODE LM_PMCapabilities (PLM_DEVICE_BLOCK pDevice); +LM_STATUS LM_NwufAdd (PLM_DEVICE_BLOCK pDevice, LM_UINT32 ByteMaskSize, + LM_UINT8 * pByteMask, LM_UINT8 * pPattern); +LM_STATUS LM_NwufRemove (PLM_DEVICE_BLOCK pDevice, LM_UINT32 ByteMaskSize, + LM_UINT8 * pByteMask, LM_UINT8 * pPattern); +LM_STATUS LM_SetPowerState (PLM_DEVICE_BLOCK pDevice, + LM_POWER_STATE PowerLevel); + +LM_VOID LM_ReadPhy (PLM_DEVICE_BLOCK pDevice, LM_UINT32 PhyReg, + PLM_UINT32 pData32); +LM_VOID LM_WritePhy (PLM_DEVICE_BLOCK pDevice, LM_UINT32 PhyReg, + LM_UINT32 Data32); + +LM_STATUS LM_ControlLoopBack (PLM_DEVICE_BLOCK pDevice, LM_UINT32 Control); +LM_STATUS LM_SetupPhy (PLM_DEVICE_BLOCK pDevice); +int LM_BlinkLED (PLM_DEVICE_BLOCK pDevice, LM_UINT32 BlinkDuration); /******************************************************************************/ /* These are the OS specific functions called by LMAC. */ /******************************************************************************/ -LM_STATUS MM_ReadConfig16(PLM_DEVICE_BLOCK pDevice, LM_UINT32 Offset, - LM_UINT16 *pValue16); -LM_STATUS MM_WriteConfig16(PLM_DEVICE_BLOCK pDevice, LM_UINT32 Offset, - LM_UINT16 Value16); -LM_STATUS MM_ReadConfig32(PLM_DEVICE_BLOCK pDevice, LM_UINT32 Offset, - LM_UINT32 *pValue32); -LM_STATUS MM_WriteConfig32(PLM_DEVICE_BLOCK pDevice, LM_UINT32 Offset, - LM_UINT32 Value32); -LM_STATUS MM_MapMemBase(PLM_DEVICE_BLOCK pDevice); -LM_STATUS MM_MapIoBase(PLM_DEVICE_BLOCK pDevice); -LM_STATUS MM_IndicateRxPackets(PLM_DEVICE_BLOCK pDevice); -LM_STATUS MM_IndicateTxPackets(PLM_DEVICE_BLOCK pDevice); -LM_STATUS MM_StartTxDma(PLM_DEVICE_BLOCK pDevice, PLM_PACKET pPacket); -LM_STATUS MM_CompleteTxDma(PLM_DEVICE_BLOCK pDevice, PLM_PACKET pPacket); -LM_STATUS MM_AllocateMemory(PLM_DEVICE_BLOCK pDevice, LM_UINT32 BlockSize, - PLM_VOID *pMemoryBlockVirt); -LM_STATUS MM_AllocateSharedMemory(PLM_DEVICE_BLOCK pDevice, LM_UINT32 BlockSize, - PLM_VOID *pMemoryBlockVirt, PLM_PHYSICAL_ADDRESS pMemoryBlockPhy, - LM_BOOL Cached); -LM_STATUS MM_GetConfig(PLM_DEVICE_BLOCK pDevice); -LM_STATUS MM_IndicateStatus(PLM_DEVICE_BLOCK pDevice, LM_STATUS Status); -LM_STATUS MM_InitializeUmPackets(PLM_DEVICE_BLOCK pDevice); -LM_STATUS MM_FreeRxBuffer(PLM_DEVICE_BLOCK pDevice, PLM_PACKET pPacket); -LM_STATUS MM_CoalesceTxBuffer(PLM_DEVICE_BLOCK pDevice, PLM_PACKET pPacket); -LM_STATUS LM_MbufWorkAround(PLM_DEVICE_BLOCK pDevice); -LM_STATUS LM_SetLinkSpeed(PLM_DEVICE_BLOCK pDevice, - LM_REQUESTED_MEDIA_TYPE RequestedMediaType); +LM_STATUS MM_ReadConfig16 (PLM_DEVICE_BLOCK pDevice, LM_UINT32 Offset, + LM_UINT16 * pValue16); +LM_STATUS MM_WriteConfig16 (PLM_DEVICE_BLOCK pDevice, LM_UINT32 Offset, + LM_UINT16 Value16); +LM_STATUS MM_ReadConfig32 (PLM_DEVICE_BLOCK pDevice, LM_UINT32 Offset, + LM_UINT32 * pValue32); +LM_STATUS MM_WriteConfig32 (PLM_DEVICE_BLOCK pDevice, LM_UINT32 Offset, + LM_UINT32 Value32); +LM_STATUS MM_MapMemBase (PLM_DEVICE_BLOCK pDevice); +LM_STATUS MM_MapIoBase (PLM_DEVICE_BLOCK pDevice); +LM_STATUS MM_IndicateRxPackets (PLM_DEVICE_BLOCK pDevice); +LM_STATUS MM_IndicateTxPackets (PLM_DEVICE_BLOCK pDevice); +LM_STATUS MM_StartTxDma (PLM_DEVICE_BLOCK pDevice, PLM_PACKET pPacket); +LM_STATUS MM_CompleteTxDma (PLM_DEVICE_BLOCK pDevice, PLM_PACKET pPacket); +LM_STATUS MM_AllocateMemory (PLM_DEVICE_BLOCK pDevice, LM_UINT32 BlockSize, + PLM_VOID * pMemoryBlockVirt); +LM_STATUS MM_AllocateSharedMemory (PLM_DEVICE_BLOCK pDevice, + LM_UINT32 BlockSize, + PLM_VOID * pMemoryBlockVirt, + PLM_PHYSICAL_ADDRESS pMemoryBlockPhy, + LM_BOOL Cached); +LM_STATUS MM_GetConfig (PLM_DEVICE_BLOCK pDevice); +LM_STATUS MM_IndicateStatus (PLM_DEVICE_BLOCK pDevice, LM_STATUS Status); +LM_STATUS MM_InitializeUmPackets (PLM_DEVICE_BLOCK pDevice); +LM_STATUS MM_FreeRxBuffer (PLM_DEVICE_BLOCK pDevice, PLM_PACKET pPacket); +LM_STATUS MM_CoalesceTxBuffer (PLM_DEVICE_BLOCK pDevice, PLM_PACKET pPacket); +LM_STATUS LM_MbufWorkAround (PLM_DEVICE_BLOCK pDevice); +LM_STATUS LM_SetLinkSpeed (PLM_DEVICE_BLOCK pDevice, + LM_REQUESTED_MEDIA_TYPE RequestedMediaType); #if INCLUDE_5703_A0_FIX -LM_STATUS LM_Load5703DmaWFirmware(PLM_DEVICE_BLOCK pDevice); +LM_STATUS LM_Load5703DmaWFirmware (PLM_DEVICE_BLOCK pDevice); #endif - -#endif /* LM_H */ +#endif /* LM_H */ diff --git a/drivers/bcm570x_mm.h b/drivers/bcm570x_mm.h index b7cbf8a..ff5302f 100644 --- a/drivers/bcm570x_mm.h +++ b/drivers/bcm570x_mm.h @@ -45,7 +45,7 @@ extern int MM_Packet_Desc_Size; #define MM_PACKET_DESC_SIZE MM_Packet_Desc_Size -DECLARE_QUEUE_TYPE(UM_RX_PACKET_Q, MAX_RX_PACKET_DESC_COUNT+1); +DECLARE_QUEUE_TYPE (UM_RX_PACKET_Q, MAX_RX_PACKET_DESC_COUNT + 1); #define MAX_MEM 16 @@ -65,51 +65,50 @@ typedef struct _UM_DEVICE_BLOCK { int mtu; int index; int opened; - int delayed_link_ind; /* Delay link status during initial load */ - int adapter_just_inited; /* the first few seconds after init. */ - int spurious_int; /* new -- unsupported */ + int delayed_link_ind; /* Delay link status during initial load */ + int adapter_just_inited; /* the first few seconds after init. */ + int spurious_int; /* new -- unsupported */ int timer_interval; int adaptive_expiry; - int crc_counter_expiry; /* new -- unsupported */ - int poll_tib_expiry; /* new -- unsupported */ + int crc_counter_expiry; /* new -- unsupported */ + int poll_tib_expiry; /* new -- unsupported */ int tx_full; int tx_queued; int line_speed; /* in Mbps, 0 if link is down */ UM_RX_PACKET_Q rx_out_of_buf_q; int rx_out_of_buf; - int rx_low_buf_thresh; /* changed to rx_buf_repl_thresh */ + int rx_low_buf_thresh; /* changed to rx_buf_repl_thresh */ int rx_buf_repl_panic_thresh; - int rx_buf_align; /* new -- unsupported */ + int rx_buf_align; /* new -- unsupported */ int do_global_lock; mutex_t global_lock; mutex_t undi_lock; long undi_flags; volatile int interrupt; int tasklet_pending; - int tasklet_busy; /* new -- unsupported */ + int tasklet_busy; /* new -- unsupported */ int rx_pkt; int tx_pkt; -#ifdef NICE_SUPPORT /* unsupported, this is a linux ioctl */ - void (*nice_rx)(void*, void* ); - void* nice_ctx; -#endif /* NICE_SUPPORT */ +#ifdef NICE_SUPPORT /* unsupported, this is a linux ioctl */ + void (*nice_rx) (void *, void *); + void *nice_ctx; +#endif /* NICE_SUPPORT */ int rx_adaptive_coalesce; unsigned int rx_last_cnt; unsigned int tx_last_cnt; unsigned int rx_curr_coalesce_frames; unsigned int rx_curr_coalesce_ticks; - unsigned int tx_curr_coalesce_frames; /* new -- unsupported */ -#if TIGON3_DEBUG /* new -- unsupported */ + unsigned int tx_curr_coalesce_frames; /* new -- unsupported */ +#if TIGON3_DEBUG /* new -- unsupported */ uint tx_zc_count; uint tx_chksum_count; uint tx_himem_count; uint rx_good_chksum_count; #endif - unsigned int rx_bad_chksum_count; /* new -- unsupported */ - unsigned int rx_misc_errors; /* new -- unsupported */ + unsigned int rx_bad_chksum_count; /* new -- unsupported */ + unsigned int rx_misc_errors; /* new -- unsupported */ } UM_DEVICE_BLOCK, *PUM_DEVICE_BLOCK; - /* Physical/PCI DMA address */ typedef union { dma_addr_t dma_map; @@ -117,9 +116,9 @@ typedef union { /* Packet */ typedef struct -_UM_PACKET { - LM_PACKET lm_packet; - void* skbuff; /* Address of packet buffer */ + _UM_PACKET { + LM_PACKET lm_packet; + void *skbuff; /* Address of packet buffer */ } UM_PACKET, *PUM_PACKET; #define MM_ACQUIRE_UNDI_LOCK(_pDevice) @@ -137,15 +136,14 @@ _UM_PACKET { #define MEM_TO_PCI_PHYS(addr) (addr) -extern void MM_SetAddr (LM_PHYSICAL_ADDRESS *paddr, dma_addr_t addr); -extern void MM_SetT3Addr(T3_64BIT_HOST_ADDR *paddr, dma_addr_t addr); +extern void MM_SetAddr (LM_PHYSICAL_ADDRESS * paddr, dma_addr_t addr); +extern void MM_SetT3Addr (T3_64BIT_HOST_ADDR * paddr, dma_addr_t addr); extern void MM_MapTxDma (PLM_DEVICE_BLOCK pDevice, - struct _LM_PACKET *pPacket, T3_64BIT_HOST_ADDR *paddr, - LM_UINT32 *len, int frag); -extern void MM_MapRxDma ( PLM_DEVICE_BLOCK pDevice, - struct _LM_PACKET *pPacket, - T3_64BIT_HOST_ADDR *paddr); - + struct _LM_PACKET *pPacket, T3_64BIT_HOST_ADDR * paddr, + LM_UINT32 * len, int frag); +extern void MM_MapRxDma (PLM_DEVICE_BLOCK pDevice, + struct _LM_PACKET *pPacket, + T3_64BIT_HOST_ADDR * paddr); /* BSP needs to provide sysUsecDelay and sysSerialPrintString */ extern void sysSerialPrintString (char *s); @@ -157,4 +155,4 @@ extern void sysSerialPrintString (char *s); #if 0 #define cpu_to_le32(val) LONGSWAP(val) #endif -#endif /* MM_H */ +#endif /* MM_H */ diff --git a/drivers/bios_emulator/Makefile b/drivers/bios_emulator/Makefile new file mode 100644 index 0000000..586e83b --- /dev/null +++ b/drivers/bios_emulator/Makefile @@ -0,0 +1,30 @@ +include $(TOPDIR)/config.mk + +LIB := $(obj)libatibiosemu.a + +X86DIR = ./x86emu + +OBJS = atibios.o biosemu.o besys.o bios.o \ + $(X86DIR)/decode.o \ + $(X86DIR)/ops2.o \ + $(X86DIR)/ops.o \ + $(X86DIR)/prim_ops.o \ + $(X86DIR)/sys.o \ + $(X86DIR)/debug.o + +CFLAGS += -I. -I./include -I$(X86DIR) -I$(TOPDIR)/include \ + -D__PPC__ -D__BIG_ENDIAN__ + +all: $(LIB) + +$(LIB): $(OBJS) + $(AR) crv $@ $(OBJS) + +######################################################################### + +.depend: Makefile $(OBJS:.o=.c) + $(CC) -M $(CFLAGS) $(OBJS:.o=.c) > $@ + +sinclude .depend + +######################################################################### diff --git a/drivers/bios_emulator/atibios.c b/drivers/bios_emulator/atibios.c new file mode 100644 index 0000000..5779f99 --- /dev/null +++ b/drivers/bios_emulator/atibios.c @@ -0,0 +1,340 @@ +/**************************************************************************** +* +* Video BOOT Graphics Card POST Module +* +* ======================================================================== +* Copyright (C) 2007 Freescale Semiconductor, Inc. All rights reserved. +* Jason Jin <Jason.jin@freescale.com> +* +* Copyright (C) 1991-2004 SciTech Software, Inc. All rights reserved. +* +* This file may be distributed and/or modified under the terms of the +* GNU General Public License version 2.0 as published by the Free +* Software Foundation and appearing in the file LICENSE.GPL included +* in the packaging of this file. +* +* Licensees holding a valid Commercial License for this product from +* SciTech Software, Inc. may use this file in accordance with the +* Commercial License Agreement provided with the Software. +* +* This file is provided AS IS with NO WARRANTY OF ANY KIND, INCLUDING +* THE WARRANTY OF DESIGN, MERCHANTABILITY AND FITNESS FOR A PARTICULAR +* PURPOSE. +* +* See http://www.scitechsoft.com/license/ for information about +* the licensing options available and how to purchase a Commercial +* License Agreement. +* +* Contact license@scitechsoft.com if any conditions of this licensing +* are not clear to you, or you have questions about licensing options. +* +* ======================================================================== +* +* Language: ANSI C +* Environment: Linux Kernel +* Developer: Kendall Bennett +* +* Description: Module to implement booting PCI/AGP controllers on the +* bus. We use the x86 real mode emulator to run the BIOS on +* graphics controllers to bring the cards up. +* +* Note that at present this module does *not* support +* multiple controllers. +* +* The orignal name of this file is warmboot.c. +* Jason ported this file to u-boot to run the ATI video card +* BIOS in u-boot. +****************************************************************************/ +#include <common.h> + +#ifdef CONFIG_BIOSEMU + +#include "biosemui.h" +#include <malloc.h> + +/* Length of the BIOS image */ +#define MAX_BIOSLEN (128 * 1024L) + +/* Define some useful types and macros */ +#define true 1 +#define false 0 + +/* Place to save PCI BAR's that we change and later restore */ +static u32 saveROMBaseAddress; +static u32 saveBaseAddress10; +static u32 saveBaseAddress14; +static u32 saveBaseAddress18; +static u32 saveBaseAddress20; + +/**************************************************************************** +PARAMETERS: +pcidev - PCI device info for the video card on the bus to boot +VGAInfo - BIOS emulator VGA info structure + +REMARKS: +This function executes the BIOS POST code on the controller. We assume that +at this stage the controller has its I/O and memory space enabled and +that all other controllers are in a disabled state. +****************************************************************************/ +static void PCI_doBIOSPOST(pci_dev_t pcidev, BE_VGAInfo * VGAInfo) +{ + RMREGS regs; + RMSREGS sregs; + + /* Determine the value to store in AX for BIOS POST. Per the PCI specs, + AH must contain the bus and AL must contain the devfn, encoded as + (dev << 3) | fn + */ + memset(®s, 0, sizeof(regs)); + memset(&sregs, 0, sizeof(sregs)); + regs.x.ax = ((int)PCI_BUS(pcidev) << 8) | + ((int)PCI_DEV(pcidev) << 3) | (int)PCI_FUNC(pcidev); + + /*Setup the X86 emulator for the VGA BIOS*/ + BE_setVGA(VGAInfo); + + /*Execute the BIOS POST code*/ + BE_callRealMode(0xC000, 0x0003, ®s, &sregs); + + /*Cleanup and exit*/ + BE_getVGA(VGAInfo); +} + +/**************************************************************************** +PARAMETERS: +pcidev - PCI device info for the video card on the bus +bar - Place to return the base address register offset to use + +RETURNS: +The address to use to map the secondary BIOS (AGP devices) + +REMARKS: +Searches all the PCI base address registers for the device looking for a +memory mapping that is large enough to hold our ROM BIOS. We usually end up +finding the framebuffer mapping (usually BAR 0x10), and we use this mapping +to map the BIOS for the device into. We use a mapping that is already +assigned to the device to ensure the memory range will be passed through +by any PCI->PCI or AGP->PCI bridge that may be present. + +NOTE: Usually this function is only used for AGP devices, but it may be + used for PCI devices that have already been POST'ed and the BIOS + ROM base address has been zero'ed out. + +NOTE: This function leaves the original memory aperture disabled by leaving + it programmed to all 1's. It must be restored to the correct value + later. +****************************************************************************/ +static u32 PCI_findBIOSAddr(pci_dev_t pcidev, int *bar) +{ + u32 base, size; + + for (*bar = 0x10; *bar <= 0x14; (*bar) += 4) { + pci_read_config_dword(pcidev, *bar, &base); + if (!(base & 0x1)) { + pci_write_config_dword(pcidev, *bar, 0xFFFFFFFF); + pci_read_config_dword(pcidev, *bar, &size); + size = ~(size & ~0xFF) + 1; + if (size >= MAX_BIOSLEN) + return base & ~0xFF; + } + } + return 0; +} + +/**************************************************************************** +REMARKS: +Some non-x86 Linux kernels map PCI relocateable I/O to values that +are above 64K, which will not work with the BIOS image that requires +the offset for the I/O ports to be a maximum of 16-bits. Ideally +someone should fix the kernel to map the I/O ports for VGA compatible +devices to a different location (or just all I/O ports since it is +unlikely you can have enough devices in the machine to use up all +64K of the I/O space - a total of more than 256 cards would be +necessary). + +Anyway to fix this we change all I/O mapped base registers and +chop off the top bits. +****************************************************************************/ +static void PCI_fixupIObase(pci_dev_t pcidev, int reg, u32 * base) +{ + if ((*base & 0x1) && (*base > 0xFFFE)) { + *base &= 0xFFFF; + pci_write_config_dword(pcidev, reg, *base); + + } +} + +/**************************************************************************** +PARAMETERS: +pcidev - PCI device info for the video card on the bus + +RETURNS: +Pointers to the mapped BIOS image + +REMARKS: +Maps a pointer to the BIOS image on the graphics card on the PCI bus. +****************************************************************************/ +void *PCI_mapBIOSImage(pci_dev_t pcidev) +{ + u32 BIOSImagePhys; + int BIOSImageBAR; + u8 *BIOSImage; + + /*Save PCI BAR registers that might get changed*/ + pci_read_config_dword(pcidev, PCI_ROM_ADDRESS, &saveROMBaseAddress); + pci_read_config_dword(pcidev, PCI_BASE_ADDRESS_0, &saveBaseAddress10); + pci_read_config_dword(pcidev, PCI_BASE_ADDRESS_1, &saveBaseAddress14); + pci_read_config_dword(pcidev, PCI_BASE_ADDRESS_2, &saveBaseAddress18); + pci_read_config_dword(pcidev, PCI_BASE_ADDRESS_4, &saveBaseAddress20); + + /*Fix up I/O base registers to less than 64K */ + if(saveBaseAddress14 != 0) + PCI_fixupIObase(pcidev, PCI_BASE_ADDRESS_1, &saveBaseAddress14); + else + PCI_fixupIObase(pcidev, PCI_BASE_ADDRESS_4, &saveBaseAddress20); + + /* Some cards have problems that stop us from being able to read the + BIOS image from the ROM BAR. To fix this we have to do some chipset + specific programming for different cards to solve this problem. + */ + + if ((BIOSImagePhys = PCI_findBIOSAddr(pcidev, &BIOSImageBAR)) == 0) { + printf("Find bios addr error\n"); + return NULL; + } + + BIOSImage = (u8 *) BIOSImagePhys; + + /*Change the PCI BAR registers to map it onto the bus.*/ + pci_write_config_dword(pcidev, BIOSImageBAR, 0); + pci_write_config_dword(pcidev, PCI_ROM_ADDRESS, BIOSImagePhys | 0x1); + + udelay(1); + + /*Check that the BIOS image is valid. If not fail, or return the + compiled in BIOS image if that option was enabled + */ + if (BIOSImage[0] != 0x55 || BIOSImage[1] != 0xAA || BIOSImage[2] == 0) { + return NULL; + } + + return BIOSImage; +} + +/**************************************************************************** +PARAMETERS: +pcidev - PCI device info for the video card on the bus + +REMARKS: +Unmaps the BIOS image for the device and restores framebuffer mappings +****************************************************************************/ +void PCI_unmapBIOSImage(pci_dev_t pcidev, void *BIOSImage) +{ + pci_write_config_dword(pcidev, PCI_ROM_ADDRESS, saveROMBaseAddress); + pci_write_config_dword(pcidev, PCI_BASE_ADDRESS_0, saveBaseAddress10); + pci_write_config_dword(pcidev, PCI_BASE_ADDRESS_1, saveBaseAddress14); + pci_write_config_dword(pcidev, PCI_BASE_ADDRESS_2, saveBaseAddress18); + pci_write_config_dword(pcidev, PCI_BASE_ADDRESS_4, saveBaseAddress20); +} + +/**************************************************************************** +PARAMETERS: +pcidev - PCI device info for the video card on the bus to boot +VGAInfo - BIOS emulator VGA info structure + +RETURNS: +True if successfully initialised, false if not. + +REMARKS: +Loads and POST's the display controllers BIOS, directly from the BIOS +image we can extract over the PCI bus. +****************************************************************************/ +static int PCI_postController(pci_dev_t pcidev, BE_VGAInfo * VGAInfo) +{ + u32 BIOSImageLen; + uchar *mappedBIOS; + uchar *copyOfBIOS; + + /*Allocate memory to store copy of BIOS from display controller*/ + if ((mappedBIOS = PCI_mapBIOSImage(pcidev)) == NULL) { + printf("videoboot: Video ROM failed to map!\n"); + return false; + } + + BIOSImageLen = mappedBIOS[2] * 512; + + if ((copyOfBIOS = malloc(BIOSImageLen)) == NULL) { + printf("videoboot: Out of memory!\n"); + return false; + } + memcpy(copyOfBIOS, mappedBIOS, BIOSImageLen); + + PCI_unmapBIOSImage(pcidev, mappedBIOS); + + /*Save information in VGAInfo structure*/ + VGAInfo->function = PCI_FUNC(pcidev); + VGAInfo->device = PCI_DEV(pcidev); + VGAInfo->bus = PCI_BUS(pcidev); + VGAInfo->pcidev = pcidev; + VGAInfo->BIOSImage = copyOfBIOS; + VGAInfo->BIOSImageLen = BIOSImageLen; + + /*Now execute the BIOS POST for the device*/ + if (copyOfBIOS[0] != 0x55 || copyOfBIOS[1] != 0xAA) { + printf("videoboot: Video ROM image is invalid!\n"); + return false; + } + + PCI_doBIOSPOST(pcidev, VGAInfo); + + /*Reset the size of the BIOS image to the final size*/ + VGAInfo->BIOSImageLen = copyOfBIOS[2] * 512; + return true; +} + +/**************************************************************************** +PARAMETERS: +pcidev - PCI device info for the video card on the bus to boot +pVGAInfo - Place to return VGA info structure is requested +cleanUp - True to clean up on exit, false to leave emulator active + +REMARKS: +Boots the PCI/AGP video card on the bus using the Video ROM BIOS image +and the X86 BIOS emulator module. +****************************************************************************/ +int BootVideoCardBIOS(pci_dev_t pcidev, BE_VGAInfo ** pVGAInfo, int cleanUp) +{ + BE_VGAInfo *VGAInfo; + + printf("videoboot: Booting PCI video card bus %d, function %d, device %d\n", + PCI_BUS(pcidev), PCI_FUNC(pcidev), PCI_DEV(pcidev)); + + /*Initialise the x86 BIOS emulator*/ + if ((VGAInfo = malloc(sizeof(*VGAInfo))) == NULL) { + printf("videoboot: Out of memory!\n"); + return false; + } + memset(VGAInfo, 0, sizeof(*VGAInfo)); + BE_init(0, 65536, VGAInfo, 0); + + /*Post all the display controller BIOS'es*/ + PCI_postController(pcidev, VGAInfo); + + /*Cleanup and exit the emulator if requested. If the BIOS emulator + is needed after booting the card, we will not call BE_exit and + leave it enabled for further use (ie: VESA driver etc). + */ + if (cleanUp) { + BE_exit(); + if (VGAInfo->BIOSImage) + free(VGAInfo->BIOSImage); + free(VGAInfo); + VGAInfo = NULL; + } + /*Return VGA info pointer if the caller requested it*/ + if (pVGAInfo) + *pVGAInfo = VGAInfo; + return true; +} + +#endif diff --git a/drivers/bios_emulator/besys.c b/drivers/bios_emulator/besys.c new file mode 100644 index 0000000..4c4bc8d --- /dev/null +++ b/drivers/bios_emulator/besys.c @@ -0,0 +1,721 @@ +/**************************************************************************** +* +* BIOS emulator and interface +* to Realmode X86 Emulator Library +* +* ======================================================================== +* +* Copyright (C) 2007 Freescale Semiconductor, Inc. All rights reserved. +* Jason Jin<Jason.jin@freescale.com> +* +* Copyright (C) 1991-2004 SciTech Software, Inc. All rights reserved. +* +* This file may be distributed and/or modified under the terms of the +* GNU General Public License version 2.0 as published by the Free +* Software Foundation and appearing in the file LICENSE.GPL included +* in the packaging of this file. +* +* Licensees holding a valid Commercial License for this product from +* SciTech Software, Inc. may use this file in accordance with the +* Commercial License Agreement provided with the Software. +* +* This file is provided AS IS with NO WARRANTY OF ANY KIND, INCLUDING +* THE WARRANTY OF DESIGN, MERCHANTABILITY AND FITNESS FOR A PARTICULAR +* PURPOSE. +* +* See http://www.scitechsoft.com/license/ for information about +* the licensing options available and how to purchase a Commercial +* License Agreement. +* +* Contact license@scitechsoft.com if any conditions of this licensing +* are not clear to you, or you have questions about licensing options. +* +* ======================================================================== +* +* Language: ANSI C +* Environment: Any +* Developer: Kendall Bennett +* +* Description: This file includes BIOS emulator I/O and memory access +* functions. +* +* Jason ported this file to u-boot to run the ATI video card +* BIOS in u-boot. Removed some emulate functions such as the +* timer port access. Made all the VGA port except reading 0x3c3 +* be emulated. Seems like reading 0x3c3 should return the high +* 16 bit of the io port. +* +****************************************************************************/ + +#include "biosemui.h" + +#if defined(CONFIG_BIOSEMU) +/*------------------------- Global Variables ------------------------------*/ + +#ifndef __i386__ +static char *BE_biosDate = "08/14/99"; +static u8 BE_model = 0xFC; +static u8 BE_submodel = 0x00; +#endif + +/*----------------------------- Implementation ----------------------------*/ + +/**************************************************************************** +PARAMETERS: +addr - Emulator memory address to convert + +RETURNS: +Actual memory address to read or write the data + +REMARKS: +This function converts an emulator memory address in a 32-bit range to +a real memory address that we wish to access. It handles splitting up the +memory address space appropriately to access the emulator BIOS image, video +memory and system BIOS etc. +****************************************************************************/ +static u8 *BE_memaddr(u32 addr) +{ + if (addr >= 0xC0000 && addr <= _BE_env.biosmem_limit) { + return (u8*)(_BE_env.biosmem_base + addr - 0xC0000); + } else if (addr > _BE_env.biosmem_limit && addr < 0xD0000) { + DB(printf("BE_memaddr: address %#lx may be invalid!\n", addr);) + return M.mem_base; + } else if (addr >= 0xA0000 && addr <= 0xBFFFF) { + return (u8*)(_BE_env.busmem_base + addr - 0xA0000); + } +#ifdef __i386__ + else if (addr >= 0xD0000 && addr <= 0xFFFFF) { + /* We map the real System BIOS directly on real PC's */ + DB(printf("BE_memaddr: System BIOS address %#lx\n", addr);) + return _BE_env.busmem_base + addr - 0xA0000; + } +#else + else if (addr >= 0xFFFF5 && addr < 0xFFFFE) { + /* Return a faked BIOS date string for non-x86 machines */ + DB(printf("BE_memaddr - Returning BIOS date\n");) + return BE_biosDate + addr - 0xFFFF5; + } else if (addr == 0xFFFFE) { + /* Return system model identifier for non-x86 machines */ + DB(printf("BE_memaddr - Returning model\n");) + return &BE_model; + } else if (addr == 0xFFFFF) { + /* Return system submodel identifier for non-x86 machines */ + DB(printf("BE_memaddr - Returning submodel\n");) + return &BE_submodel; + } +#endif + else if (addr > M.mem_size - 1) { + HALT_SYS(); + return M.mem_base; + } + + return M.mem_base + addr; +} + +/**************************************************************************** +PARAMETERS: +addr - Emulator memory address to read + +RETURNS: +Byte value read from emulator memory. + +REMARKS: +Reads a byte value from the emulator memory. We have three distinct memory +regions that are handled differently, which this function handles. +****************************************************************************/ +u8 X86API BE_rdb(u32 addr) +{ + if (_BE_env.emulateVGA && addr >= 0xA0000 && addr <= 0xBFFFF) + return 0; + else { + u8 val = readb_le(BE_memaddr(addr)); + return val; + } +} + +/**************************************************************************** +PARAMETERS: +addr - Emulator memory address to read + +RETURNS: +Word value read from emulator memory. + +REMARKS: +Reads a word value from the emulator memory. We have three distinct memory +regions that are handled differently, which this function handles. +****************************************************************************/ +u16 X86API BE_rdw(u32 addr) +{ + if (_BE_env.emulateVGA && addr >= 0xA0000 && addr <= 0xBFFFF) + return 0; + else { + u8 *base = BE_memaddr(addr); + u16 val = readw_le(base); + return val; + } +} + +/**************************************************************************** +PARAMETERS: +addr - Emulator memory address to read + +RETURNS: +Long value read from emulator memory. + +REMARKS: +Reads a 32-bit value from the emulator memory. We have three distinct memory +regions that are handled differently, which this function handles. +****************************************************************************/ +u32 X86API BE_rdl(u32 addr) +{ + if (_BE_env.emulateVGA && addr >= 0xA0000 && addr <= 0xBFFFF) + return 0; + else { + u8 *base = BE_memaddr(addr); + u32 val = readl_le(base); + return val; + } +} + +/**************************************************************************** +PARAMETERS: +addr - Emulator memory address to read +val - Value to store + +REMARKS: +Writes a byte value to emulator memory. We have three distinct memory +regions that are handled differently, which this function handles. +****************************************************************************/ +void X86API BE_wrb(u32 addr, u8 val) +{ + if (!(_BE_env.emulateVGA && addr >= 0xA0000 && addr <= 0xBFFFF)) { + writeb_le(BE_memaddr(addr), val); + } +} + +/**************************************************************************** +PARAMETERS: +addr - Emulator memory address to read +val - Value to store + +REMARKS: +Writes a word value to emulator memory. We have three distinct memory +regions that are handled differently, which this function handles. +****************************************************************************/ +void X86API BE_wrw(u32 addr, u16 val) +{ + if (!(_BE_env.emulateVGA && addr >= 0xA0000 && addr <= 0xBFFFF)) { + u8 *base = BE_memaddr(addr); + writew_le(base, val); + + } +} + +/**************************************************************************** +PARAMETERS: +addr - Emulator memory address to read +val - Value to store + +REMARKS: +Writes a 32-bit value to emulator memory. We have three distinct memory +regions that are handled differently, which this function handles. +****************************************************************************/ +void X86API BE_wrl(u32 addr, u32 val) +{ + if (!(_BE_env.emulateVGA && addr >= 0xA0000 && addr <= 0xBFFFF)) { + u8 *base = BE_memaddr(addr); + writel_le(base, val); + } +} + +#if defined(DEBUG) || !defined(__i386__) + +/* For Non-Intel machines we may need to emulate some I/O port accesses that + * the BIOS may try to access, such as the PCI config registers. + */ + +#define IS_TIMER_PORT(port) (0x40 <= port && port <= 0x43) +#define IS_CMOS_PORT(port) (0x70 <= port && port <= 0x71) +/*#define IS_VGA_PORT(port) (_BE_env.emulateVGA && 0x3C0 <= port && port <= 0x3DA)*/ +#define IS_VGA_PORT(port) (0x3C0 <= port && port <= 0x3DA) +#define IS_PCI_PORT(port) (0xCF8 <= port && port <= 0xCFF) +#define IS_SPKR_PORT(port) (port == 0x61) + +/**************************************************************************** +PARAMETERS: +port - Port to read from +type - Type of access to perform + +REMARKS: +Performs an emulated read from the Standard VGA I/O ports. If the target +hardware does not support mapping the VGA I/O and memory (such as some +PowerPC systems), we emulate the VGA so that the BIOS will still be able to +set NonVGA display modes such as on ATI hardware. +****************************************************************************/ +static u8 VGA_inpb (const int port) +{ + u8 val = 0xff; + + switch (port) { + case 0x3C0: + /* 3C0 has funky characteristics because it can act as either + a data register or index register depending on the state + of an internal flip flop in the hardware. Hence we have + to emulate that functionality in here. */ + if (_BE_env.flipFlop3C0 == 0) { + /* Access 3C0 as index register */ + val = _BE_env.emu3C0; + } else { + /* Access 3C0 as data register */ + if (_BE_env.emu3C0 < ATT_C) + val = _BE_env.emu3C1[_BE_env.emu3C0]; + } + _BE_env.flipFlop3C0 ^= 1; + break; + case 0x3C1: + if (_BE_env.emu3C0 < ATT_C) + return _BE_env.emu3C1[_BE_env.emu3C0]; + break; + case 0x3CC: + return _BE_env.emu3C2; + case 0x3C4: + return _BE_env.emu3C4; + case 0x3C5: + if (_BE_env.emu3C4 < ATT_C) + return _BE_env.emu3C5[_BE_env.emu3C4]; + break; + case 0x3C6: + return _BE_env.emu3C6; + case 0x3C7: + return _BE_env.emu3C7; + case 0x3C8: + return _BE_env.emu3C8; + case 0x3C9: + if (_BE_env.emu3C7 < PAL_C) + return _BE_env.emu3C9[_BE_env.emu3C7++]; + break; + case 0x3CE: + return _BE_env.emu3CE; + case 0x3CF: + if (_BE_env.emu3CE < GRA_C) + return _BE_env.emu3CF[_BE_env.emu3CE]; + break; + case 0x3D4: + if (_BE_env.emu3C2 & 0x1) + return _BE_env.emu3D4; + break; + case 0x3D5: + if ((_BE_env.emu3C2 & 0x1) && (_BE_env.emu3D4 < CRT_C)) + return _BE_env.emu3D5[_BE_env.emu3D4]; + break; + case 0x3DA: + _BE_env.flipFlop3C0 = 0; + val = _BE_env.emu3DA; + _BE_env.emu3DA ^= 0x9; + break; + } + return val; +} + +/**************************************************************************** +PARAMETERS: +port - Port to write to +type - Type of access to perform + +REMARKS: +Performs an emulated write to one of the 8253 timer registers. For now +we only emulate timer 0 which is the only timer that the BIOS code appears +to use. +****************************************************************************/ +static void VGA_outpb (int port, u8 val) +{ + switch (port) { + case 0x3C0: + /* 3C0 has funky characteristics because it can act as either + a data register or index register depending on the state + of an internal flip flop in the hardware. Hence we have + to emulate that functionality in here. */ + if (_BE_env.flipFlop3C0 == 0) { + /* Access 3C0 as index register */ + _BE_env.emu3C0 = val; + } else { + /* Access 3C0 as data register */ + if (_BE_env.emu3C0 < ATT_C) + _BE_env.emu3C1[_BE_env.emu3C0] = val; + } + _BE_env.flipFlop3C0 ^= 1; + break; + case 0x3C2: + _BE_env.emu3C2 = val; + break; + case 0x3C4: + _BE_env.emu3C4 = val; + break; + case 0x3C5: + if (_BE_env.emu3C4 < ATT_C) + _BE_env.emu3C5[_BE_env.emu3C4] = val; + break; + case 0x3C6: + _BE_env.emu3C6 = val; + break; + case 0x3C7: + _BE_env.emu3C7 = (int) val *3; + + break; + case 0x3C8: + _BE_env.emu3C8 = (int) val *3; + + break; + case 0x3C9: + if (_BE_env.emu3C8 < PAL_C) + _BE_env.emu3C9[_BE_env.emu3C8++] = val; + break; + case 0x3CE: + _BE_env.emu3CE = val; + break; + case 0x3CF: + if (_BE_env.emu3CE < GRA_C) + _BE_env.emu3CF[_BE_env.emu3CE] = val; + break; + case 0x3D4: + if (_BE_env.emu3C2 & 0x1) + _BE_env.emu3D4 = val; + break; + case 0x3D5: + if ((_BE_env.emu3C2 & 0x1) && (_BE_env.emu3D4 < CRT_C)) + _BE_env.emu3D5[_BE_env.emu3D4] = val; + break; + } +} + +/**************************************************************************** +PARAMETERS: +regOffset - Offset into register space for non-DWORD accesses +value - Value to write to register for PCI_WRITE_* operations +func - Function to perform (PCIAccessRegFlags) + +RETURNS: +Value read from configuration register for PCI_READ_* operations + +REMARKS: +Accesses a PCI configuration space register by decoding the value currently +stored in the _BE_env.configAddress variable and passing it through to the +portable PCI_accessReg function. +****************************************************************************/ +static u32 BE_accessReg(int regOffset, u32 value, int func) +{ +#ifdef __KERNEL__ + int function, device, bus; + u8 val8; + u16 val16; + u32 val32; + + + /* Decode the configuration register values for the register we wish to + * access + */ + regOffset += (_BE_env.configAddress & 0xFF); + function = (_BE_env.configAddress >> 8) & 0x7; + device = (_BE_env.configAddress >> 11) & 0x1F; + bus = (_BE_env.configAddress >> 16) & 0xFF; + + /* Ignore accesses to all devices other than the one we're POSTing */ + if ((function == _BE_env.vgaInfo.function) && + (device == _BE_env.vgaInfo.device) && + (bus == _BE_env.vgaInfo.bus)) { + switch (func) { + case REG_READ_BYTE: + pci_read_config_byte(_BE_env.vgaInfo.pcidev, regOffset, + &val8); + return val8; + case REG_READ_WORD: + pci_read_config_word(_BE_env.vgaInfo.pcidev, regOffset, + &val16); + return val16; + case REG_READ_DWORD: + pci_read_config_dword(_BE_env.vgaInfo.pcidev, regOffset, + &val32); + return val32; + case REG_WRITE_BYTE: + pci_write_config_byte(_BE_env.vgaInfo.pcidev, regOffset, + value); + + return 0; + case REG_WRITE_WORD: + pci_write_config_word(_BE_env.vgaInfo.pcidev, regOffset, + value); + + return 0; + case REG_WRITE_DWORD: + pci_write_config_dword(_BE_env.vgaInfo.pcidev, + regOffset, value); + + return 0; + } + } + return 0; +#else + PCIDeviceInfo pciInfo; + + pciInfo.mech1 = 1; + pciInfo.slot.i = 0; + pciInfo.slot.p.Function = (_BE_env.configAddress >> 8) & 0x7; + pciInfo.slot.p.Device = (_BE_env.configAddress >> 11) & 0x1F; + pciInfo.slot.p.Bus = (_BE_env.configAddress >> 16) & 0xFF; + pciInfo.slot.p.Enable = 1; + + /* Ignore accesses to all devices other than the one we're POSTing */ + if ((pciInfo.slot.p.Function == + _BE_env.vgaInfo.pciInfo->slot.p.Function) + && (pciInfo.slot.p.Device == _BE_env.vgaInfo.pciInfo->slot.p.Device) + && (pciInfo.slot.p.Bus == _BE_env.vgaInfo.pciInfo->slot.p.Bus)) + return PCI_accessReg((_BE_env.configAddress & 0xFF) + regOffset, + value, func, &pciInfo); + return 0; +#endif +} + +/**************************************************************************** +PARAMETERS: +port - Port to read from +type - Type of access to perform + +REMARKS: +Performs an emulated read from one of the PCI configuration space registers. +We emulate this using our PCI_accessReg function which will access the PCI +configuration space registers in a portable fashion. +****************************************************************************/ +static u32 PCI_inp(int port, int type) +{ + switch (type) { + case REG_READ_BYTE: + if ((_BE_env.configAddress & 0x80000000) && 0xCFC <= port + && port <= 0xCFF) + return BE_accessReg(port - 0xCFC, 0, REG_READ_BYTE); + break; + case REG_READ_WORD: + if ((_BE_env.configAddress & 0x80000000) && 0xCFC <= port + && port <= 0xCFF) + return BE_accessReg(port - 0xCFC, 0, REG_READ_WORD); + break; + case REG_READ_DWORD: + if (port == 0xCF8) + return _BE_env.configAddress; + else if ((_BE_env.configAddress & 0x80000000) && port == 0xCFC) + return BE_accessReg(0, 0, REG_READ_DWORD); + break; + } + return 0; +} + +/**************************************************************************** +PARAMETERS: +port - Port to write to +type - Type of access to perform + +REMARKS: +Performs an emulated write to one of the PCI control registers. +****************************************************************************/ +static void PCI_outp(int port, u32 val, int type) +{ + switch (type) { + case REG_WRITE_BYTE: + if ((_BE_env.configAddress & 0x80000000) && 0xCFC <= port + && port <= 0xCFF) + BE_accessReg(port - 0xCFC, val, REG_WRITE_BYTE); + break; + case REG_WRITE_WORD: + if ((_BE_env.configAddress & 0x80000000) && 0xCFC <= port + && port <= 0xCFF) + BE_accessReg(port - 0xCFC, val, REG_WRITE_WORD); + break; + case REG_WRITE_DWORD: + if (port == 0xCF8) + { + _BE_env.configAddress = val & 0x80FFFFFC; + } + else if ((_BE_env.configAddress & 0x80000000) && port == 0xCFC) + BE_accessReg(0, val, REG_WRITE_DWORD); + break; + } +} + +#endif + +/**************************************************************************** +PARAMETERS: +port - Port to write to + +RETURNS: +Value read from the I/O port + +REMARKS: +Performs an emulated 8-bit read from an I/O port. We handle special cases +that we need to emulate in here, and fall through to reflecting the write +through to the real hardware if we don't need to special case it. +****************************************************************************/ +u8 X86API BE_inb(X86EMU_pioAddr port) +{ + u8 val = 0; + +#if defined(DEBUG) || !defined(__i386__) + if (IS_VGA_PORT(port)){ + /*seems reading port 0x3c3 return the high 16 bit of io port*/ + if(port == 0x3c3) + val = LOG_inpb(port); + else + val = VGA_inpb(port); + } + else if (IS_TIMER_PORT(port)) + DB(printf("Can not interept TIMER port now!\n");) + else if (IS_SPKR_PORT(port)) + DB(printf("Can not interept SPEAKER port now!\n");) + else if (IS_CMOS_PORT(port)) + DB(printf("Can not interept CMOS port now!\n");) + else if (IS_PCI_PORT(port)) + val = PCI_inp(port, REG_READ_BYTE); + else if (port < 0x100) { + DB(printf("WARN: INVALID inb.%04X -> %02X\n", (u16) port, val);) + val = LOG_inpb(port); + } else +#endif + val = LOG_inpb(port); + return val; +} + +/**************************************************************************** +PARAMETERS: +port - Port to write to + +RETURNS: +Value read from the I/O port + +REMARKS: +Performs an emulated 16-bit read from an I/O port. We handle special cases +that we need to emulate in here, and fall through to reflecting the write +through to the real hardware if we don't need to special case it. +****************************************************************************/ +u16 X86API BE_inw(X86EMU_pioAddr port) +{ + u16 val = 0; + +#if defined(DEBUG) || !defined(__i386__) + if (IS_PCI_PORT(port)) + val = PCI_inp(port, REG_READ_WORD); + else if (port < 0x100) { + DB(printf("WARN: Maybe INVALID inw.%04X -> %04X\n", (u16) port, val);) + val = LOG_inpw(port); + } else +#endif + val = LOG_inpw(port); + return val; +} + +/**************************************************************************** +PARAMETERS: +port - Port to write to + +RETURNS: +Value read from the I/O port + +REMARKS: +Performs an emulated 32-bit read from an I/O port. We handle special cases +that we need to emulate in here, and fall through to reflecting the write +through to the real hardware if we don't need to special case it. +****************************************************************************/ +u32 X86API BE_inl(X86EMU_pioAddr port) +{ + u32 val = 0; + +#if defined(DEBUG) || !defined(__i386__) + if (IS_PCI_PORT(port)) + val = PCI_inp(port, REG_READ_DWORD); + else if (port < 0x100) { + val = LOG_inpd(port); + } else +#endif + val = LOG_inpd(port); + return val; +} + +/**************************************************************************** +PARAMETERS: +port - Port to write to +val - Value to write to port + +REMARKS: +Performs an emulated 8-bit write to an I/O port. We handle special cases +that we need to emulate in here, and fall through to reflecting the write +through to the real hardware if we don't need to special case it. +****************************************************************************/ +void X86API BE_outb(X86EMU_pioAddr port, u8 val) +{ +#if defined(DEBUG) || !defined(__i386__) + if (IS_VGA_PORT(port)) + VGA_outpb(port, val); + else if (IS_TIMER_PORT(port)) + DB(printf("Can not interept TIMER port now!\n");) + else if (IS_SPKR_PORT(port)) + DB(printf("Can not interept SPEAKER port now!\n");) + else if (IS_CMOS_PORT(port)) + DB(printf("Can not interept CMOS port now!\n");) + else if (IS_PCI_PORT(port)) + PCI_outp(port, val, REG_WRITE_BYTE); + else if (port < 0x100) { + DB(printf("WARN:Maybe INVALID outb.%04X <- %02X\n", (u16) port, val);) + LOG_outpb(port, val); + } else +#endif + LOG_outpb(port, val); +} + +/**************************************************************************** +PARAMETERS: +port - Port to write to +val - Value to write to port + +REMARKS: +Performs an emulated 16-bit write to an I/O port. We handle special cases +that we need to emulate in here, and fall through to reflecting the write +through to the real hardware if we don't need to special case it. +****************************************************************************/ +void X86API BE_outw(X86EMU_pioAddr port, u16 val) +{ +#if defined(DEBUG) || !defined(__i386__) + if (IS_VGA_PORT(port)) { + VGA_outpb(port, val); + VGA_outpb(port + 1, val >> 8); + } else if (IS_PCI_PORT(port)) + PCI_outp(port, val, REG_WRITE_WORD); + else if (port < 0x100) { + DB(printf("WARN: MAybe INVALID outw.%04X <- %04X\n", (u16) port, + val);) + LOG_outpw(port, val); + } else +#endif + LOG_outpw(port, val); +} + +/**************************************************************************** +PARAMETERS: +port - Port to write to +val - Value to write to port + +REMARKS: +Performs an emulated 32-bit write to an I/O port. We handle special cases +that we need to emulate in here, and fall through to reflecting the write +through to the real hardware if we don't need to special case it. +****************************************************************************/ +void X86API BE_outl(X86EMU_pioAddr port, u32 val) +{ +#if defined(DEBUG) || !defined(__i386__) + if (IS_PCI_PORT(port)) + PCI_outp(port, val, REG_WRITE_DWORD); + else if (port < 0x100) { + DB(printf("WARN: INVALID outl.%04X <- %08X\n", (u16) port,val);) + LOG_outpd(port, val); + } else +#endif + LOG_outpd(port, val); +} +#endif diff --git a/drivers/bios_emulator/bios.c b/drivers/bios_emulator/bios.c new file mode 100644 index 0000000..7aa1bfb2e --- /dev/null +++ b/drivers/bios_emulator/bios.c @@ -0,0 +1,323 @@ +/**************************************************************************** +* +* BIOS emulator and interface +* to Realmode X86 Emulator Library +* +* Copyright (C) 2007 Freescale Semiconductor, Inc. All rights reserved. +* Jason Jin <Jason.jin@freescale.com> +* +* Copyright (C) 1996-1999 SciTech Software, Inc. +* +* ======================================================================== +* +* Permission to use, copy, modify, distribute, and sell this software and +* its documentation for any purpose is hereby granted without fee, +* provided that the above copyright notice appear in all copies and that +* both that copyright notice and this permission notice appear in +* supporting documentation, and that the name of the authors not be used +* in advertising or publicity pertaining to distribution of the software +* without specific, written prior permission. The authors makes no +* representations about the suitability of this software for any purpose. +* It is provided "as is" without express or implied warranty. +* +* THE AUTHORS DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, +* INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO +* EVENT SHALL THE AUTHORS BE LIABLE FOR ANY SPECIAL, INDIRECT OR +* CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF +* USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR +* OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR +* PERFORMANCE OF THIS SOFTWARE. +* +* ======================================================================== +* +* Language: ANSI C +* Environment: Any +* Developer: Kendall Bennett +* +* Description: Module implementing the BIOS specific functions. +* +* Jason ported this file to u-boot to run the ATI video card +* video BIOS. +* +****************************************************************************/ + +#include "biosemui.h" + +#if defined(CONFIG_BIOSEMU) +/*----------------------------- Implementation ----------------------------*/ + +/**************************************************************************** +PARAMETERS: +intno - Interrupt number being serviced + +REMARKS: +Handler for undefined interrupts. +****************************************************************************/ +static void X86API undefined_intr(int intno) +{ + if (BE_rdw(intno * 4 + 2) == BIOS_SEG) { + DB(printf("biosEmu: undefined interrupt %xh called!\n", intno);) + } else + X86EMU_prepareForInt(intno); +} + +/**************************************************************************** +PARAMETERS: +intno - Interrupt number being serviced + +REMARKS: +This function handles the default system BIOS Int 10h (the default is stored +in the Int 42h vector by the system BIOS at bootup). We only need to handle +a small number of special functions used by the BIOS during POST time. +****************************************************************************/ +static void X86API int42(int intno) +{ + if (M.x86.R_AH == 0x12 && M.x86.R_BL == 0x32) { + if (M.x86.R_AL == 0) { + /* Enable CPU accesses to video memory */ + PM_outpb(0x3c2, PM_inpb(0x3cc) | (u8) 0x02); + return; + } else if (M.x86.R_AL == 1) { + /* Disable CPU accesses to video memory */ + PM_outpb(0x3c2, PM_inpb(0x3cc) & (u8) ~ 0x02); + return; + } +#ifdef DEBUG + else { + printf("int42: unknown function AH=0x12, BL=0x32, AL=%#02x\n", + M.x86.R_AL); + } +#endif + } +#ifdef DEBUG + else { + printf("int42: unknown function AH=%#02x, AL=%#02x, BL=%#02x\n", + M.x86.R_AH, M.x86.R_AL, M.x86.R_BL); + } +#endif +} + +/**************************************************************************** +PARAMETERS: +intno - Interrupt number being serviced + +REMARKS: +This function handles the default system BIOS Int 10h. If the POST code +has not yet re-vectored the Int 10h BIOS interrupt vector, we handle this +by simply calling the int42 interrupt handler above. Very early in the +BIOS POST process, the vector gets replaced and we simply let the real +mode interrupt handler process the interrupt. +****************************************************************************/ +static void X86API int10(int intno) +{ + if (BE_rdw(intno * 4 + 2) == BIOS_SEG) + int42(intno); + else + X86EMU_prepareForInt(intno); +} + +/* Result codes returned by the PCI BIOS */ + +#define SUCCESSFUL 0x00 +#define FUNC_NOT_SUPPORT 0x81 +#define BAD_VENDOR_ID 0x83 +#define DEVICE_NOT_FOUND 0x86 +#define BAD_REGISTER_NUMBER 0x87 +#define SET_FAILED 0x88 +#define BUFFER_TOO_SMALL 0x89 + +/**************************************************************************** +PARAMETERS: +intno - Interrupt number being serviced + +REMARKS: +This function handles the default Int 1Ah interrupt handler for the real +mode code, which provides support for the PCI BIOS functions. Since we only +want to allow the real mode BIOS code *only* see the PCI config space for +its own device, we only return information for the specific PCI config +space that we have passed in to the init function. This solves problems +when using the BIOS to warm boot a secondary adapter when there is an +identical adapter before it on the bus (some BIOS'es get confused in this +case). +****************************************************************************/ +static void X86API int1A(int unused) +{ + u16 pciSlot; + +#ifdef __KERNEL__ + u8 interface, subclass, baseclass; + + /* Initialise the PCI slot number */ + pciSlot = ((int)_BE_env.vgaInfo.bus << 8) | + ((int)_BE_env.vgaInfo.device << 3) | (int)_BE_env.vgaInfo.function; +#else +/* Fail if no PCI device information has been registered */ + if (!_BE_env.vgaInfo.pciInfo) + return; + + pciSlot = (u16) (_BE_env.vgaInfo.pciInfo->slot.i >> 8); +#endif + switch (M.x86.R_AX) { + case 0xB101: /* PCI bios present? */ + M.x86.R_AL = 0x00; /* no config space/special cycle generation support */ + M.x86.R_EDX = 0x20494350; /* " ICP" */ + M.x86.R_BX = 0x0210; /* Version 2.10 */ + M.x86.R_CL = 0; /* Max bus number in system */ + CLEAR_FLAG(F_CF); + break; + case 0xB102: /* Find PCI device */ + M.x86.R_AH = DEVICE_NOT_FOUND; +#ifdef __KERNEL__ + if (M.x86.R_DX == _BE_env.vgaInfo.VendorID && + M.x86.R_CX == _BE_env.vgaInfo.DeviceID && M.x86.R_SI == 0) { +#else + if (M.x86.R_DX == _BE_env.vgaInfo.pciInfo->VendorID && + M.x86.R_CX == _BE_env.vgaInfo.pciInfo->DeviceID && + M.x86.R_SI == 0) { +#endif + M.x86.R_AH = SUCCESSFUL; + M.x86.R_BX = pciSlot; + } + CONDITIONAL_SET_FLAG((M.x86.R_AH != SUCCESSFUL), F_CF); + break; + case 0xB103: /* Find PCI class code */ + M.x86.R_AH = DEVICE_NOT_FOUND; +#ifdef __KERNEL__ + pci_read_config_byte(_BE_env.vgaInfo.pcidev, PCI_CLASS_PROG, + &interface); + pci_read_config_byte(_BE_env.vgaInfo.pcidev, PCI_CLASS_DEVICE, + &subclass); + pci_read_config_byte(_BE_env.vgaInfo.pcidev, + PCI_CLASS_DEVICE + 1, &baseclass); + if (M.x86.R_CL == interface && M.x86.R_CH == subclass + && (u8) (M.x86.R_ECX >> 16) == baseclass) { +#else + if (M.x86.R_CL == _BE_env.vgaInfo.pciInfo->Interface && + M.x86.R_CH == _BE_env.vgaInfo.pciInfo->SubClass && + (u8) (M.x86.R_ECX >> 16) == + _BE_env.vgaInfo.pciInfo->BaseClass) { +#endif + M.x86.R_AH = SUCCESSFUL; + M.x86.R_BX = pciSlot; + } + CONDITIONAL_SET_FLAG((M.x86.R_AH != SUCCESSFUL), F_CF); + break; + case 0xB108: /* Read configuration byte */ + M.x86.R_AH = BAD_REGISTER_NUMBER; + if (M.x86.R_BX == pciSlot) { + M.x86.R_AH = SUCCESSFUL; +#ifdef __KERNEL__ + pci_read_config_byte(_BE_env.vgaInfo.pcidev, M.x86.R_DI, + &M.x86.R_CL); +#else + M.x86.R_CL = + (u8) PCI_accessReg(M.x86.R_DI, 0, PCI_READ_BYTE, + _BE_env.vgaInfo.pciInfo); +#endif + } + CONDITIONAL_SET_FLAG((M.x86.R_AH != SUCCESSFUL), F_CF); + break; + case 0xB109: /* Read configuration word */ + M.x86.R_AH = BAD_REGISTER_NUMBER; + if (M.x86.R_BX == pciSlot) { + M.x86.R_AH = SUCCESSFUL; +#ifdef __KERNEL__ + pci_read_config_word(_BE_env.vgaInfo.pcidev, M.x86.R_DI, + &M.x86.R_CX); +#else + M.x86.R_CX = + (u16) PCI_accessReg(M.x86.R_DI, 0, PCI_READ_WORD, + _BE_env.vgaInfo.pciInfo); +#endif + } + CONDITIONAL_SET_FLAG((M.x86.R_AH != SUCCESSFUL), F_CF); + break; + case 0xB10A: /* Read configuration dword */ + M.x86.R_AH = BAD_REGISTER_NUMBER; + if (M.x86.R_BX == pciSlot) { + M.x86.R_AH = SUCCESSFUL; +#ifdef __KERNEL__ + pci_read_config_dword(_BE_env.vgaInfo.pcidev, + M.x86.R_DI, &M.x86.R_ECX); +#else + M.x86.R_ECX = + (u32) PCI_accessReg(M.x86.R_DI, 0, PCI_READ_DWORD, + _BE_env.vgaInfo.pciInfo); +#endif + } + CONDITIONAL_SET_FLAG((M.x86.R_AH != SUCCESSFUL), F_CF); + break; + case 0xB10B: /* Write configuration byte */ + M.x86.R_AH = BAD_REGISTER_NUMBER; + if (M.x86.R_BX == pciSlot) { + M.x86.R_AH = SUCCESSFUL; +#ifdef __KERNEL__ + pci_write_config_byte(_BE_env.vgaInfo.pcidev, + M.x86.R_DI, M.x86.R_CL); +#else + PCI_accessReg(M.x86.R_DI, M.x86.R_CL, PCI_WRITE_BYTE, + _BE_env.vgaInfo.pciInfo); +#endif + } + CONDITIONAL_SET_FLAG((M.x86.R_AH != SUCCESSFUL), F_CF); + break; + case 0xB10C: /* Write configuration word */ + M.x86.R_AH = BAD_REGISTER_NUMBER; + if (M.x86.R_BX == pciSlot) { + M.x86.R_AH = SUCCESSFUL; +#ifdef __KERNEL__ + pci_write_config_word(_BE_env.vgaInfo.pcidev, + M.x86.R_DI, M.x86.R_CX); +#else + PCI_accessReg(M.x86.R_DI, M.x86.R_CX, PCI_WRITE_WORD, + _BE_env.vgaInfo.pciInfo); +#endif + } + CONDITIONAL_SET_FLAG((M.x86.R_AH != SUCCESSFUL), F_CF); + break; + case 0xB10D: /* Write configuration dword */ + M.x86.R_AH = BAD_REGISTER_NUMBER; + if (M.x86.R_BX == pciSlot) { + M.x86.R_AH = SUCCESSFUL; +#ifdef __KERNEL__ + pci_write_config_dword(_BE_env.vgaInfo.pcidev, + M.x86.R_DI, M.x86.R_ECX); +#else + PCI_accessReg(M.x86.R_DI, M.x86.R_ECX, PCI_WRITE_DWORD, + _BE_env.vgaInfo.pciInfo); +#endif + } + CONDITIONAL_SET_FLAG((M.x86.R_AH != SUCCESSFUL), F_CF); + break; + default: + printf("biosEmu/bios.int1a: unknown function AX=%#04x\n", + M.x86.R_AX); + } +} + +/**************************************************************************** +REMARKS: +This function initialises the BIOS emulation functions for the specific +PCI display device. We insulate the real mode BIOS from any other devices +on the bus, so that it will work correctly thinking that it is the only +device present on the bus (ie: avoiding any adapters present in from of +the device we are trying to control). +****************************************************************************/ +#define BE_constLE_32(v) ((((((v)&0xff00)>>8)|(((v)&0xff)<<8))<<16)|(((((v)&0xff000000)>>8)|(((v)&0x00ff0000)<<8))>>16)) + +void _BE_bios_init(u32 * intrTab) +{ + int i; + X86EMU_intrFuncs bios_intr_tab[256]; + + for (i = 0; i < 256; ++i) { + intrTab[i] = BE_constLE_32(BIOS_SEG << 16); + bios_intr_tab[i] = undefined_intr; + } + bios_intr_tab[0x10] = int10; + bios_intr_tab[0x1A] = int1A; + bios_intr_tab[0x42] = int42; + bios_intr_tab[0x6D] = int10; + X86EMU_setupIntrFuncs(bios_intr_tab); +} +#endif diff --git a/drivers/bios_emulator/biosemu.c b/drivers/bios_emulator/biosemu.c new file mode 100644 index 0000000..4c3aedf --- /dev/null +++ b/drivers/bios_emulator/biosemu.c @@ -0,0 +1,373 @@ +/**************************************************************************** +* +* BIOS emulator and interface +* to Realmode X86 Emulator Library +* +* Copyright (C) 2007 Freescale Semiconductor, Inc. All rights reserved. +* Jason Jin <Jason.jin@freescale.com> +* +* Copyright (C) 1996-1999 SciTech Software, Inc. +* +* ======================================================================== +* +* Permission to use, copy, modify, distribute, and sell this software and +* its documentation for any purpose is hereby granted without fee, +* provided that the above copyright notice appear in all copies and that +* both that copyright notice and this permission notice appear in +* supporting documentation, and that the name of the authors not be used +* in advertising or publicity pertaining to distribution of the software +* without specific, written prior permission. The authors makes no +* representations about the suitability of this software for any purpose. +* It is provided "as is" without express or implied warranty. +* +* THE AUTHORS DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, +* INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO +* EVENT SHALL THE AUTHORS BE LIABLE FOR ANY SPECIAL, INDIRECT OR +* CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF +* USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR +* OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR +* PERFORMANCE OF THIS SOFTWARE. +* +* ======================================================================== +* +* Language: ANSI C +* Environment: Any +* Developer: Kendall Bennett +* +* Description: Module implementing the system specific functions. This +* module is always compiled and linked in the OS depedent +* libraries, and never in a binary portable driver. +* +* Jason ported this file to u-boot to run the ATI video card BIOS +* in u-boot. Made all the video memory be emulated during the +* BIOS runing process which may affect the VGA function but the +* frambuffer function can work after run the BIOS. +* +****************************************************************************/ + +#include "biosemui.h" +#include <malloc.h> + +#if defined(CONFIG_BIOSEMU) + +BE_sysEnv _BE_env = {{0}}; +static X86EMU_memFuncs _BE_mem __attribute__((section(".got2"))) = { + BE_rdb, + BE_rdw, + BE_rdl, + BE_wrb, + BE_wrw, + BE_wrl, + }; + +static X86EMU_pioFuncs _BE_pio __attribute__((section(".got2"))) = { + BE_inb, + BE_inw, + BE_inl, + BE_outb, + BE_outw, + BE_outl, + }; + +#define OFF(addr) (u16)(((addr) >> 0) & 0xffff) +#define SEG(addr) (u16)(((addr) >> 4) & 0xf000) + +/**************************************************************************** +PARAMETERS: +debugFlags - Flags to enable debugging options (debug builds only) +memSize - Amount of memory to allocate for real mode machine +info - Pointer to default VGA device information + +REMARKS: +This functions initialises the BElib, and uses the passed in +BIOS image as the BIOS that is used and emulated at 0xC0000. +****************************************************************************/ +int X86API BE_init(u32 debugFlags, int memSize, BE_VGAInfo * info, int shared) +{ +#if !defined(__DRIVER__) && !defined(__KERNEL__) + + PM_init(); +#endif + memset(&M, 0, sizeof(M)); + if (memSize < 20480){ + printf("Emulator requires at least 20Kb of memory!\n"); + return 0; + } + + M.mem_base = (unsigned long)malloc(memSize); + + if (M.mem_base == NULL){ + printf("Biosemu:Out of memory!"); + return 0; + } + M.mem_size = memSize; + + _BE_env.emulateVGA = 0; + _BE_env.busmem_base = (unsigned long)malloc(128 * 1024); + if (_BE_env.busmem_base == NULL){ + printf("Biosemu:Out of memory!"); + return 0; + } + M.x86.debug = debugFlags; + _BE_bios_init((u32*)info->LowMem); + X86EMU_setupMemFuncs(&_BE_mem); + X86EMU_setupPioFuncs(&_BE_pio); + BE_setVGA(info); + return 1; +} + +/**************************************************************************** +PARAMETERS: +info - Pointer to VGA device information to make current + +REMARKS: +This function sets the VGA BIOS functions in the emulator to point to the +specific VGA BIOS in use. This includes swapping the BIOS interrupt +vectors, BIOS image and BIOS data area to the new BIOS. This allows the +real mode BIOS to be swapped without resetting the entire emulator. +****************************************************************************/ +void X86API BE_setVGA(BE_VGAInfo * info) +{ + +#ifdef __KERNEL__ + _BE_env.vgaInfo.function = info->function; + _BE_env.vgaInfo.device = info->device; + _BE_env.vgaInfo.bus = info->bus; + _BE_env.vgaInfo.pcidev = info->pcidev; +#else + _BE_env.vgaInfo.pciInfo = info->pciInfo; +#endif + _BE_env.vgaInfo.BIOSImage = info->BIOSImage; + if (info->BIOSImage) { + _BE_env.biosmem_base = (ulong) info->BIOSImage; + _BE_env.biosmem_limit = 0xC0000 + info->BIOSImageLen - 1; + } else { + _BE_env.biosmem_base = _BE_env.busmem_base + 0x20000; + _BE_env.biosmem_limit = 0xC7FFF; + } + if (*((u32 *) info->LowMem) == 0) + _BE_bios_init((u32 *) info->LowMem); + memcpy((u8 *) M.mem_base, info->LowMem, sizeof(info->LowMem)); +} + +/**************************************************************************** +PARAMETERS: +info - Pointer to VGA device information to retrieve current + +REMARKS: +This function returns the VGA BIOS functions currently active in the +emulator, so they can be restored at a later date. +****************************************************************************/ +void X86API BE_getVGA(BE_VGAInfo * info) +{ +#ifdef __KERNEL__ + info->function = _BE_env.vgaInfo.function; + info->device = _BE_env.vgaInfo.device; + info->bus = _BE_env.vgaInfo.bus; + info->pcidev = _BE_env.vgaInfo.pcidev; +#else + info->pciInfo = _BE_env.vgaInfo.pciInfo; +#endif + info->BIOSImage = _BE_env.vgaInfo.BIOSImage; + memcpy(info->LowMem, (u8 *) M.mem_base, sizeof(info->LowMem)); +} + +/**************************************************************************** +PARAMETERS: +r_seg - Segment for pointer to convert +r_off - Offset for pointer to convert + +REMARKS: +This function maps a real mode pointer in the emulator memory to a protected +mode pointer that can be used to directly access the memory. + +NOTE: The memory is *always* in little endian format, son on non-x86 + systems you will need to do endian translations to access this + memory. +****************************************************************************/ +void *X86API BE_mapRealPointer(uint r_seg, uint r_off) +{ + u32 addr = ((u32) r_seg << 4) + r_off; + + if (addr >= 0xC0000 && addr <= _BE_env.biosmem_limit) { + return (void *)(_BE_env.biosmem_base + addr - 0xC0000); + } else if (addr >= 0xA0000 && addr <= 0xFFFFF) { + return (void *)(_BE_env.busmem_base + addr - 0xA0000); + } + return (void *)(M.mem_base + addr); +} + +/**************************************************************************** +PARAMETERS: +len - Return the length of the VESA buffer +rseg - Place to store VESA buffer segment +roff - Place to store VESA buffer offset + +REMARKS: +This function returns the address of the VESA transfer buffer in real +_BE_piomode emulator memory. The VESA transfer buffer is always 1024 bytes long, +and located at 15Kb into the start of the real mode memory (16Kb is where +we put the real mode code we execute for issuing interrupts). + +NOTE: The memory is *always* in little endian format, son on non-x86 + systems you will need to do endian translations to access this + memory. +****************************************************************************/ +void *X86API BE_getVESABuf(uint * len, uint * rseg, uint * roff) +{ + *len = 1024; + *rseg = SEG(0x03C00); + *roff = OFF(0x03C00); + return (void *)(M.mem_base + ((u32) * rseg << 4) + *roff); +} + +/**************************************************************************** +REMARKS: +Cleans up and exits the emulator. +****************************************************************************/ +void X86API BE_exit(void) +{ + free(M.mem_base); + free(_BE_env.busmem_base); +} + +/**************************************************************************** +PARAMETERS: +seg - Segment of code to call +off - Offset of code to call +regs - Real mode registers to load +sregs - Real mode segment registers to load + +REMARKS: +This functions calls a real mode far function at the specified address, +and loads all the x86 registers from the passed in registers structure. +On exit the registers returned from the call are returned in the same +structures. +****************************************************************************/ +void X86API BE_callRealMode(uint seg, uint off, RMREGS * regs, RMSREGS * sregs) +{ + M.x86.R_EAX = regs->e.eax; + M.x86.R_EBX = regs->e.ebx; + M.x86.R_ECX = regs->e.ecx; + M.x86.R_EDX = regs->e.edx; + M.x86.R_ESI = regs->e.esi; + M.x86.R_EDI = regs->e.edi; + M.x86.R_DS = sregs->ds; + M.x86.R_ES = sregs->es; + M.x86.R_FS = sregs->fs; + M.x86.R_GS = sregs->gs; + + ((u8 *) M.mem_base)[0x4000] = 0x9A; + ((u8 *) M.mem_base)[0x4001] = (u8) off; + ((u8 *) M.mem_base)[0x4002] = (u8) (off >> 8); + ((u8 *) M.mem_base)[0x4003] = (u8) seg; + ((u8 *) M.mem_base)[0x4004] = (u8) (seg >> 8); + ((u8 *) M.mem_base)[0x4005] = 0xF1; /* Illegal op-code */ + M.x86.R_CS = SEG(0x04000); + M.x86.R_IP = OFF(0x04000); + + M.x86.R_SS = SEG(M.mem_size - 2); + M.x86.R_SP = OFF(M.mem_size - 2) + 2; + + X86EMU_exec(); + + regs->e.cflag = M.x86.R_EFLG & F_CF; + regs->e.eax = M.x86.R_EAX; + regs->e.ebx = M.x86.R_EBX; + regs->e.ecx = M.x86.R_ECX; + regs->e.edx = M.x86.R_EDX; + regs->e.esi = M.x86.R_ESI; + regs->e.edi = M.x86.R_EDI; + sregs->ds = M.x86.R_DS; + sregs->es = M.x86.R_ES; + sregs->fs = M.x86.R_FS; + sregs->gs = M.x86.R_GS; +} + +/**************************************************************************** +PARAMETERS: +intno - Interrupt number to execute +in - Real mode registers to load +out - Place to store resulting real mode registers + +REMARKS: +This functions calls a real mode interrupt function at the specified address, +and loads all the x86 registers from the passed in registers structure. +On exit the registers returned from the call are returned in out stucture. +****************************************************************************/ +int X86API BE_int86(int intno, RMREGS * in, RMREGS * out) +{ + M.x86.R_EAX = in->e.eax; + M.x86.R_EBX = in->e.ebx; + M.x86.R_ECX = in->e.ecx; + M.x86.R_EDX = in->e.edx; + M.x86.R_ESI = in->e.esi; + M.x86.R_EDI = in->e.edi; + ((u8 *) M.mem_base)[0x4000] = 0xCD; + ((u8 *) M.mem_base)[0x4001] = (u8) intno; + ((u8 *) M.mem_base)[0x4002] = 0xF1; + M.x86.R_CS = SEG(0x04000); + M.x86.R_IP = OFF(0x04000); + + M.x86.R_SS = SEG(M.mem_size - 1); + M.x86.R_SP = OFF(M.mem_size - 1) - 1; + + X86EMU_exec(); + out->e.cflag = M.x86.R_EFLG & F_CF; + out->e.eax = M.x86.R_EAX; + out->e.ebx = M.x86.R_EBX; + out->e.ecx = M.x86.R_ECX; + out->e.edx = M.x86.R_EDX; + out->e.esi = M.x86.R_ESI; + out->e.edi = M.x86.R_EDI; + return out->x.ax; +} + +/**************************************************************************** +PARAMETERS: +intno - Interrupt number to execute +in - Real mode registers to load +out - Place to store resulting real mode registers +sregs - Real mode segment registers to load + +REMARKS: +This functions calls a real mode interrupt function at the specified address, +and loads all the x86 registers from the passed in registers structure. +On exit the registers returned from the call are returned in out stucture. +****************************************************************************/ +int X86API BE_int86x(int intno, RMREGS * in, RMREGS * out, RMSREGS * sregs) +{ + M.x86.R_EAX = in->e.eax; + M.x86.R_EBX = in->e.ebx; + M.x86.R_ECX = in->e.ecx; + M.x86.R_EDX = in->e.edx; + M.x86.R_ESI = in->e.esi; + M.x86.R_EDI = in->e.edi; + M.x86.R_DS = sregs->ds; + M.x86.R_ES = sregs->es; + M.x86.R_FS = sregs->fs; + M.x86.R_GS = sregs->gs; + ((u8 *) M.mem_base)[0x4000] = 0xCD; + ((u8 *) M.mem_base)[0x4001] = (u8) intno; + ((u8 *) M.mem_base)[0x4002] = 0xF1; + M.x86.R_CS = SEG(0x04000); + M.x86.R_IP = OFF(0x04000); + + M.x86.R_SS = SEG(M.mem_size - 1); + M.x86.R_SP = OFF(M.mem_size - 1) - 1; + + X86EMU_exec(); + out->e.cflag = M.x86.R_EFLG & F_CF; + out->e.eax = M.x86.R_EAX; + out->e.ebx = M.x86.R_EBX; + out->e.ecx = M.x86.R_ECX; + out->e.edx = M.x86.R_EDX; + out->e.esi = M.x86.R_ESI; + out->e.edi = M.x86.R_EDI; + sregs->ds = M.x86.R_DS; + sregs->es = M.x86.R_ES; + sregs->fs = M.x86.R_FS; + sregs->gs = M.x86.R_GS; + return out->x.ax; +} +#endif diff --git a/drivers/bios_emulator/biosemui.h b/drivers/bios_emulator/biosemui.h new file mode 100644 index 0000000..e85e656 --- /dev/null +++ b/drivers/bios_emulator/biosemui.h @@ -0,0 +1,169 @@ +/**************************************************************************** +* +* BIOS emulator and interface +* to Realmode X86 Emulator Library +* +* Copyright (C) 2007 Freescale Semiconductor, Inc. All rights reserved. +* Jason Jin <Jason.jin@freescale.com> +* +* Copyright (C) 1996-1999 SciTech Software, Inc. +* +* ======================================================================== +* +* Permission to use, copy, modify, distribute, and sell this software and +* its documentation for any purpose is hereby granted without fee, +* provided that the above copyright notice appear in all copies and that +* both that copyright notice and this permission notice appear in +* supporting documentation, and that the name of the authors not be used +* in advertising or publicity pertaining to distribution of the software +* without specific, written prior permission. The authors makes no +* representations about the suitability of this software for any purpose. +* It is provided "as is" without express or implied warranty. +* +* THE AUTHORS DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, +* INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO +* EVENT SHALL THE AUTHORS BE LIABLE FOR ANY SPECIAL, INDIRECT OR +* CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF +* USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR +* OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR +* PERFORMANCE OF THIS SOFTWARE. +* +* ======================================================================== +* +* Language: ANSI C +* Environment: Any +* Developer: Kendall Bennett +* +* Description: Internal header file for the BIOS emulator library. +* +* Jason ported this file to u-boot, Added some architecture +* related Macro. +* +****************************************************************************/ + +#ifndef __BIOSEMUI_H +#define __BIOSEMUI_H + +#include "biosemu.h" +#include <asm/io.h> +/*---------------------- Macros and type definitions ----------------------*/ + +#ifdef DEBUG +#define DB(x) x +#else +#define DB(x) do{}while(0); +#endif + +#define BIOS_SEG 0xfff0 +extern X86EMU_sysEnv _X86EMU_env; +#define M _X86EMU_env + +/* Macros to read and write values to x86 emulator memory. Memory is always + * considered to be little endian, so we use macros to do endian swapping + * where necessary. + */ + +#ifdef __BIG_ENDIAN__ +#define readb_le(base) *((u8*)(base)) +#define readw_le(base) ((u16)readb_le(base) | ((u16)readb_le((base) + 1) << 8)) +#define readl_le(base) ((u32)readb_le((base) + 0) | ((u32)readb_le((base) + 1) << 8) | \ + ((u32)readb_le((base) + 2) << 16) | ((u32)readb_le((base) + 3) << 24)) +#define writeb_le(base, v) *((u8*)(base)) = (v) +#define writew_le(base, v) writeb_le(base + 0, (v >> 0) & 0xff), \ + writeb_le(base + 1, (v >> 8) & 0xff) +#define writel_le(base, v) writeb_le(base + 0, (v >> 0) & 0xff), \ + writeb_le(base + 1, (v >> 8) & 0xff), \ + writeb_le(base + 2, (v >> 16) & 0xff), \ + writeb_le(base + 3, (v >> 24) & 0xff) +#else +#define readb_le(base) *((u8*)(base)) +#define readw_le(base) *((u16*)(base)) +#define readl_le(base) *((u32*)(base)) +#define writeb_le(base, v) *((u8*)(base)) = (v) +#define writew_le(base, v) *((u16*)(base)) = (v) +#define writel_le(base, v) *((u32*)(base)) = (v) +#endif + +/**************************************************************************** +REMARKS: +Function codes passed to the emulated I/O port functions to determine the +type of operation to perform. +****************************************************************************/ +typedef enum { + REG_READ_BYTE = 0, + REG_READ_WORD = 1, + REG_READ_DWORD = 2, + REG_WRITE_BYTE = 3, + REG_WRITE_WORD = 4, + REG_WRITE_DWORD = 5 +} RegisterFlags; + +/**************************************************************************** +REMARKS: +Function codes passed to the emulated I/O port functions to determine the +type of operation to perform. +****************************************************************************/ +typedef enum { + PORT_BYTE = 1, + PORT_WORD = 2, + PORT_DWORD = 3, +} PortInfoFlags; + +/**************************************************************************** +REMARKS: +Data structure used to describe the details for the BIOS emulator system +environment as used by the X86 emulator library. + +HEADER: +biosemu.h + +MEMBERS: +type - Type of port access (1 = byte, 2 = word, 3 = dword) +defVal - Default power on value +finalVal - Final value +****************************************************************************/ +typedef struct { + u8 type; + u32 defVal; + u32 finalVal; +} BE_portInfo; + +#define PM_inpb(port) inb(port+VIDEO_IO_OFFSET) +#define PM_inpw(port) inw(port+VIDEO_IO_OFFSET) +#define PM_inpd(port) inl(port+VIDEO_IO_OFFSET) +#define PM_outpb(port,val) outb(val,port+VIDEO_IO_OFFSET) +#define PM_outpw(port,val) outw(val,port+VIDEO_IO_OFFSET) +#define PM_outpd(port,val) outl(val,port+VIDEO_IO_OFFSET) + +#define LOG_inpb(port) PM_inpb(port) +#define LOG_inpw(port) PM_inpw(port) +#define LOG_inpd(port) PM_inpd(port) +#define LOG_outpb(port,val) PM_outpb(port,val) +#define LOG_outpw(port,val) PM_outpw(port,val) +#define LOG_outpd(port,val) PM_outpd(port,val) + +/*-------------------------- Function Prototypes --------------------------*/ + +/* bios.c */ + +void _BE_bios_init(u32 * intrTab); +void _BE_setup_funcs(void); + +/* besys.c */ +#define DEBUG_IO() (M.x86.debug & DEBUG_IO_TRACE_F) + +u8 X86API BE_rdb(u32 addr); +u16 X86API BE_rdw(u32 addr); +u32 X86API BE_rdl(u32 addr); +void X86API BE_wrb(u32 addr, u8 val); +void X86API BE_wrw(u32 addr, u16 val); +void X86API BE_wrl(u32 addr, u32 val); + +u8 X86API BE_inb(X86EMU_pioAddr port); +u16 X86API BE_inw(X86EMU_pioAddr port); +u32 X86API BE_inl(X86EMU_pioAddr port); +void X86API BE_outb(X86EMU_pioAddr port, u8 val); +void X86API BE_outw(X86EMU_pioAddr port, u16 val); +void X86API BE_outl(X86EMU_pioAddr port, u32 val); +#endif +/* __BIOSEMUI_H */ diff --git a/drivers/bios_emulator/include/biosemu.h b/drivers/bios_emulator/include/biosemu.h new file mode 100644 index 0000000..13cb317 --- /dev/null +++ b/drivers/bios_emulator/include/biosemu.h @@ -0,0 +1,392 @@ +/**************************************************************************** +* +* BIOS emulator and interface +* to Realmode X86 Emulator Library +* +* Copyright (C) 1996-1999 SciTech Software, Inc. +* +* ======================================================================== +* +* Permission to use, copy, modify, distribute, and sell this software and +* its documentation for any purpose is hereby granted without fee, +* provided that the above copyright notice appear in all copies and that +* both that copyright notice and this permission notice appear in +* supporting documentation, and that the name of the authors not be used +* in advertising or publicity pertaining to distribution of the software +* without specific, written prior permission. The authors makes no +* representations about the suitability of this software for any purpose. +* It is provided "as is" without express or implied warranty. +* +* THE AUTHORS DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, +* INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO +* EVENT SHALL THE AUTHORS BE LIABLE FOR ANY SPECIAL, INDIRECT OR +* CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF +* USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR +* OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR +* PERFORMANCE OF THIS SOFTWARE. +* +* ======================================================================== +* +* Language: ANSI C +* Environment: Any +* Developer: Kendall Bennett +* +* Description: Header file for the real mode x86 BIOS emulator, which is +* used to warmboot any number of VGA compatible PCI/AGP +* controllers under any OS, on any processor family that +* supports PCI. We also allow the user application to call +* real mode BIOS functions and Int 10h functions (including +* the VESA BIOS). +* +****************************************************************************/ + +#ifndef __BIOSEMU_H +#define __BIOSEMU_H + +#ifdef __KERNEL__ +#include "x86emu.h" +#else +#include "x86emu.h" +#include "pmapi.h" +#include "pcilib.h" +#endif + +/*---------------------- Macros and type definitions ----------------------*/ + +#pragma pack(1) + +#ifndef __KERNEL__ +/**************************************************************************** +REMARKS: +Data structure used to describe the details specific to a particular VGA +controller. This information is used to allow the VGA controller to be +swapped on the fly within the BIOS emulator. + +HEADER: +biosemu.h + +MEMBERS: +pciInfo - PCI device information block for the controller +BIOSImage - Pointer to a read/write copy of the BIOS image +BIOSImageLen - Length of the BIOS image +LowMem - Copy of key low memory areas +****************************************************************************/ +typedef struct { + PCIDeviceInfo *pciInfo; + void *BIOSImage; + ulong BIOSImageLen; + uchar LowMem[1536]; +} BE_VGAInfo; +#else +/**************************************************************************** +REMARKS: +Data structure used to describe the details for the BIOS emulator system +environment as used by the X86 emulator library. + +HEADER: +biosemu.h + +MEMBERS: +vgaInfo - VGA BIOS information structure +biosmem_base - Base of the BIOS image +biosmem_limit - Limit of the BIOS image +busmem_base - Base of the VGA bus memory +****************************************************************************/ +typedef struct { + int function; + int device; + int bus; + u32 VendorID; + u32 DeviceID; + pci_dev_t pcidev; + void *BIOSImage; + u32 BIOSImageLen; + u8 LowMem[1536]; +} BE_VGAInfo; + +#endif /* __KERNEL__ */ + +#define CRT_C 24 /* 24 CRT Controller Registers */ +#define ATT_C 21 /* 21 Attribute Controller Registers */ +#define GRA_C 9 /* 9 Graphics Controller Registers */ +#define SEQ_C 5 /* 5 Sequencer Registers */ +#define PAL_C 768 /* 768 Palette Registers */ + +/**************************************************************************** +REMARKS: +Data structure used to describe the details for the BIOS emulator system +environment as used by the X86 emulator library. + +HEADER: +biosemu.h + +MEMBERS: +vgaInfo - VGA BIOS information structure +biosmem_base - Base of the BIOS image +biosmem_limit - Limit of the BIOS image +busmem_base - Base of the VGA bus memory +timer - Timer used to emulate PC timer ports +timer0 - Latched value for timer 0 +timer0Latched - True if timer 0 value was just latched +timer2 - Current value for timer 2 +emulateVGA - True to emulate VGA I/O and memory accesses +****************************************************************************/ + +typedef struct { + BE_VGAInfo vgaInfo; + ulong biosmem_base; + ulong biosmem_limit; + ulong busmem_base; + + u32 timer0; + int timer0Latched; + u32 timer1; + int timer1Latched; + u32 timer2; + int timer2Latched; + + int emulateVGA; + u8 emu61; + u8 emu70; + int flipFlop3C0; + u32 configAddress; + u8 emu3C0; + u8 emu3C1[ATT_C]; + u8 emu3C2; + u8 emu3C4; + u8 emu3C5[SEQ_C]; + u8 emu3C6; + uint emu3C7; + uint emu3C8; + u8 emu3C9[PAL_C]; + u8 emu3CE; + u8 emu3CF[GRA_C]; + u8 emu3D4; + u8 emu3D5[CRT_C]; + u8 emu3DA; + +} BE_sysEnv; + +#ifdef __KERNEL__ + +/* Define some types when compiling for the Linux kernel that normally + * come from the SciTech PM library. + */ + +/**************************************************************************** +REMARKS: +Structure describing the 32-bit extended x86 CPU registers + +HEADER: +pmapi.h + +MEMBERS: +eax - Value of the EAX register +ebx - Value of the EBX register +ecx - Value of the ECX register +edx - Value of the EDX register +esi - Value of the ESI register +edi - Value of the EDI register +cflag - Value of the carry flag +****************************************************************************/ +typedef struct { + u32 eax; + u32 ebx; + u32 ecx; + u32 edx; + u32 esi; + u32 edi; + u32 cflag; +} RMDWORDREGS; + +/**************************************************************************** +REMARKS: +Structure describing the 16-bit x86 CPU registers + +HEADER: +pmapi.h + +MEMBERS: +ax - Value of the AX register +bx - Value of the BX register +cx - Value of the CX register +dx - Value of the DX register +si - Value of the SI register +di - Value of the DI register +cflag - Value of the carry flag +****************************************************************************/ +#ifdef __BIG_ENDIAN__ +typedef struct { + u16 ax_hi, ax; + u16 bx_hi, bx; + u16 cx_hi, cx; + u16 dx_hi, dx; + u16 si_hi, si; + u16 di_hi, di; + u16 cflag_hi, cflag; +} RMWORDREGS; +#else +typedef struct { + u16 ax, ax_hi; + u16 bx, bx_hi; + u16 cx, cx_hi; + u16 dx, dx_hi; + u16 si, si_hi; + u16 di, di_hi; + u16 cflag, cflag_hi; +} RMWORDREGS; +#endif + +/**************************************************************************** +REMARKS: +Structure describing the 8-bit x86 CPU registers + +HEADER: +pmapi.h + +MEMBERS: +al - Value of the AL register +ah - Value of the AH register +bl - Value of the BL register +bh - Value of the BH register +cl - Value of the CL register +ch - Value of the CH register +dl - Value of the DL register +dh - Value of the DH register +****************************************************************************/ +#ifdef __BIG_ENDIAN__ +typedef struct { + u16 ax_hi; + u8 ah, al; + u16 bx_hi; + u8 bh, bl; + u16 cx_hi; + u8 ch, cl; + u16 dx_hi; + u8 dh, dl; +} RMBYTEREGS; +#else +typedef struct { + u8 al; + u8 ah; + u16 ax_hi; + u8 bl; + u8 bh; + u16 bx_hi; + u8 cl; + u8 ch; + u16 cx_hi; + u8 dl; + u8 dh; + u16 dx_hi; +} RMBYTEREGS; +#endif + +/**************************************************************************** +REMARKS: +Structure describing all the x86 CPU registers + +HEADER: +pmapi.h + +MEMBERS: +e - Member to access registers as 32-bit values +x - Member to access registers as 16-bit values +h - Member to access registers as 8-bit values +****************************************************************************/ +typedef union { + RMDWORDREGS e; + RMWORDREGS x; + RMBYTEREGS h; +} RMREGS; + +/**************************************************************************** +REMARKS: +Structure describing all the x86 segment registers + +HEADER: +pmapi.h + +MEMBERS: +es - ES segment register +cs - CS segment register +ss - SS segment register +ds - DS segment register +fs - FS segment register +gs - GS segment register +****************************************************************************/ +typedef struct { + u16 es; + u16 cs; + u16 ss; + u16 ds; + u16 fs; + u16 gs; +} RMSREGS; + +#endif /* __KERNEL__ */ + +#ifndef __KERNEL__ + +/**************************************************************************** +REMARKS: +Structure defining all the BIOS Emulator API functions as exported from +the Binary Portable DLL. +{secret} +****************************************************************************/ +typedef struct { + ulong dwSize; + ibool(PMAPIP BE_init) (u32 debugFlags, int memSize, BE_VGAInfo * info); + void (PMAPIP BE_setVGA) (BE_VGAInfo * info); + void (PMAPIP BE_getVGA) (BE_VGAInfo * info); + void *(PMAPIP BE_mapRealPointer) (uint r_seg, uint r_off); + void *(PMAPIP BE_getVESABuf) (uint * len, uint * rseg, uint * roff); + void (PMAPIP BE_callRealMode) (uint seg, uint off, RMREGS * regs, + RMSREGS * sregs); + int (PMAPIP BE_int86) (int intno, RMREGS * in, RMREGS * out); + int (PMAPIP BE_int86x) (int intno, RMREGS * in, RMREGS * out, + RMSREGS * sregs); + void *reserved1; + void (PMAPIP BE_exit) (void); +} BE_exports; + +/**************************************************************************** +REMARKS: +Function pointer type for the Binary Portable DLL initialisation entry point. +{secret} +****************************************************************************/ +typedef BE_exports *(PMAPIP BE_initLibrary_t) (PM_imports * PMImp); +#endif + +#pragma pack() + +/*---------------------------- Global variables ---------------------------*/ + +#ifdef __cplusplus +extern "C" { /* Use "C" linkage when in C++ mode */ +#endif + +/* {secret} Global BIOS emulator system environment */ + extern BE_sysEnv _BE_env; + +/*-------------------------- Function Prototypes --------------------------*/ + +/* BIOS emulator library entry points */ + int X86API BE_init(u32 debugFlags, int memSize, BE_VGAInfo * info, + int shared); + void X86API BE_setVGA(BE_VGAInfo * info); + void X86API BE_getVGA(BE_VGAInfo * info); + void X86API BE_setDebugFlags(u32 debugFlags); + void *X86API BE_mapRealPointer(uint r_seg, uint r_off); + void *X86API BE_getVESABuf(uint * len, uint * rseg, uint * roff); + void X86API BE_callRealMode(uint seg, uint off, RMREGS * regs, + RMSREGS * sregs); + int X86API BE_int86(int intno, RMREGS * in, RMREGS * out); + int X86API BE_int86x(int intno, RMREGS * in, RMREGS * out, + RMSREGS * sregs); + void X86API BE_exit(void); + +#ifdef __cplusplus +} /* End of "C" linkage for C++ */ +#endif +#endif /* __BIOSEMU_H */ diff --git a/drivers/bios_emulator/include/x86emu.h b/drivers/bios_emulator/include/x86emu.h new file mode 100644 index 0000000..6004beb --- /dev/null +++ b/drivers/bios_emulator/include/x86emu.h @@ -0,0 +1,191 @@ +/**************************************************************************** +* +* Realmode X86 Emulator Library +* +* Copyright (C) 1996-1999 SciTech Software, Inc. +* Copyright (C) David Mosberger-Tang +* Copyright (C) 1999 Egbert Eich +* +* ======================================================================== +* +* Permission to use, copy, modify, distribute, and sell this software and +* its documentation for any purpose is hereby granted without fee, +* provided that the above copyright notice appear in all copies and that +* both that copyright notice and this permission notice appear in +* supporting documentation, and that the name of the authors not be used +* in advertising or publicity pertaining to distribution of the software +* without specific, written prior permission. The authors makes no +* representations about the suitability of this software for any purpose. +* It is provided "as is" without express or implied warranty. +* +* THE AUTHORS DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, +* INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO +* EVENT SHALL THE AUTHORS BE LIABLE FOR ANY SPECIAL, INDIRECT OR +* CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF +* USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR +* OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR +* PERFORMANCE OF THIS SOFTWARE. +* +* ======================================================================== +* +* Language: ANSI C +* Environment: Any +* Developer: Kendall Bennett +* +* Description: Header file for public specific functions. +* Any application linking against us should only +* include this header +* +****************************************************************************/ + +#ifndef __X86EMU_X86EMU_H +#define __X86EMU_X86EMU_H + +#include <asm/types.h> +#include <common.h> +#include <pci.h> +#include <asm/io.h> +#define X86API +#define X86APIP * +typedef u16 X86EMU_pioAddr; + +#include "x86emu/regs.h" + +/*---------------------- Macros and type definitions ----------------------*/ + +#pragma pack(1) + +/**************************************************************************** +REMARKS: +Data structure containing ponters to programmed I/O functions used by the +emulator. This is used so that the user program can hook all programmed +I/O for the emulator to handled as necessary by the user program. By +default the emulator contains simple functions that do not do access the +hardware in any way. To allow the emualtor access the hardware, you will +need to override the programmed I/O functions using the X86EMU_setupPioFuncs +function. + +HEADER: +x86emu.h + +MEMBERS: +inb - Function to read a byte from an I/O port +inw - Function to read a word from an I/O port +inl - Function to read a dword from an I/O port +outb - Function to write a byte to an I/O port +outw - Function to write a word to an I/O port +outl - Function to write a dword to an I/O port +****************************************************************************/ +typedef struct { + u8(X86APIP inb) (X86EMU_pioAddr addr); + u16(X86APIP inw) (X86EMU_pioAddr addr); + u32(X86APIP inl) (X86EMU_pioAddr addr); + void (X86APIP outb) (X86EMU_pioAddr addr, u8 val); + void (X86APIP outw) (X86EMU_pioAddr addr, u16 val); + void (X86APIP outl) (X86EMU_pioAddr addr, u32 val); +} X86EMU_pioFuncs; + +/**************************************************************************** +REMARKS: +Data structure containing ponters to memory access functions used by the +emulator. This is used so that the user program can hook all memory +access functions as necessary for the emulator. By default the emulator +contains simple functions that only access the internal memory of the +emulator. If you need specialised functions to handle access to different +types of memory (ie: hardware framebuffer accesses and BIOS memory access +etc), you will need to override this using the X86EMU_setupMemFuncs +function. + +HEADER: +x86emu.h + +MEMBERS: +rdb - Function to read a byte from an address +rdw - Function to read a word from an address +rdl - Function to read a dword from an address +wrb - Function to write a byte to an address +wrw - Function to write a word to an address +wrl - Function to write a dword to an address +****************************************************************************/ +typedef struct { + u8(X86APIP rdb) (u32 addr); + u16(X86APIP rdw) (u32 addr); + u32(X86APIP rdl) (u32 addr); + void (X86APIP wrb) (u32 addr, u8 val); + void (X86APIP wrw) (u32 addr, u16 val); + void (X86APIP wrl) (u32 addr, u32 val); +} X86EMU_memFuncs; + +/**************************************************************************** + Here are the default memory read and write + function in case they are needed as fallbacks. +***************************************************************************/ +extern u8 X86API rdb(u32 addr); +extern u16 X86API rdw(u32 addr); +extern u32 X86API rdl(u32 addr); +extern void X86API wrb(u32 addr, u8 val); +extern void X86API wrw(u32 addr, u16 val); +extern void X86API wrl(u32 addr, u32 val); + +#pragma pack() + +/*--------------------- type definitions -----------------------------------*/ + +typedef void (X86APIP X86EMU_intrFuncs) (int num); +extern X86EMU_intrFuncs _X86EMU_intrTab[256]; + +/*-------------------------- Function Prototypes --------------------------*/ + +#ifdef __cplusplus +extern "C" { /* Use "C" linkage when in C++ mode */ +#endif + + void X86EMU_setupMemFuncs(X86EMU_memFuncs * funcs); + void X86EMU_setupPioFuncs(X86EMU_pioFuncs * funcs); + void X86EMU_setupIntrFuncs(X86EMU_intrFuncs funcs[]); + void X86EMU_prepareForInt(int num); + +/* decode.c */ + + void X86EMU_exec(void); + void X86EMU_halt_sys(void); + +#ifdef DEBUG +#define HALT_SYS() \ + printf("halt_sys: file %s, line %d\n", __FILE__, __LINE__), \ + X86EMU_halt_sys() +#else +#define HALT_SYS() X86EMU_halt_sys() +#endif + +/* Debug options */ + +#define DEBUG_DECODE_F 0x0001 /* print decoded instruction */ +#define DEBUG_TRACE_F 0x0002 /* dump regs before/after execution */ +#define DEBUG_STEP_F 0x0004 +#define DEBUG_DISASSEMBLE_F 0x0008 +#define DEBUG_BREAK_F 0x0010 +#define DEBUG_SVC_F 0x0020 +#define DEBUG_SAVE_CS_IP 0x0040 +#define DEBUG_FS_F 0x0080 +#define DEBUG_PROC_F 0x0100 +#define DEBUG_SYSINT_F 0x0200 /* bios system interrupts. */ +#define DEBUG_TRACECALL_F 0x0400 +#define DEBUG_INSTRUMENT_F 0x0800 +#define DEBUG_MEM_TRACE_F 0x1000 +#define DEBUG_IO_TRACE_F 0x2000 +#define DEBUG_TRACECALL_REGS_F 0x4000 +#define DEBUG_DECODE_NOPRINT_F 0x8000 +#define DEBUG_EXIT 0x10000 +#define DEBUG_SYS_F (DEBUG_SVC_F|DEBUG_FS_F|DEBUG_PROC_F) + + void X86EMU_trace_regs(void); + void X86EMU_trace_xregs(void); + void X86EMU_dump_memory(u16 seg, u16 off, u32 amt); + int X86EMU_trace_on(void); + int X86EMU_trace_off(void); + +#ifdef __cplusplus +} /* End of "C" linkage for C++ */ +#endif +#endif /* __X86EMU_X86EMU_H */ diff --git a/drivers/bios_emulator/include/x86emu/debug.h b/drivers/bios_emulator/include/x86emu/debug.h new file mode 100644 index 0000000..268c9d3 --- /dev/null +++ b/drivers/bios_emulator/include/x86emu/debug.h @@ -0,0 +1,209 @@ +/**************************************************************************** +* +* Realmode X86 Emulator Library +* +* Copyright (C) 1991-2004 SciTech Software, Inc. +* Copyright (C) David Mosberger-Tang +* Copyright (C) 1999 Egbert Eich +* +* ======================================================================== +* +* Permission to use, copy, modify, distribute, and sell this software and +* its documentation for any purpose is hereby granted without fee, +* provided that the above copyright notice appear in all copies and that +* both that copyright notice and this permission notice appear in +* supporting documentation, and that the name of the authors not be used +* in advertising or publicity pertaining to distribution of the software +* without specific, written prior permission. The authors makes no +* representations about the suitability of this software for any purpose. +* It is provided "as is" without express or implied warranty. +* +* THE AUTHORS DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, +* INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO +* EVENT SHALL THE AUTHORS BE LIABLE FOR ANY SPECIAL, INDIRECT OR +* CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF +* USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR +* OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR +* PERFORMANCE OF THIS SOFTWARE. +* +* ======================================================================== +* +* Language: ANSI C +* Environment: Any +* Developer: Kendall Bennett +* +* Description: Header file for debug definitions. +* +****************************************************************************/ + +#ifndef __X86EMU_DEBUG_H +#define __X86EMU_DEBUG_H + +/*---------------------- Macros and type definitions ----------------------*/ + +/* checks to be enabled for "runtime" */ + +#define CHECK_IP_FETCH_F 0x1 +#define CHECK_SP_ACCESS_F 0x2 +#define CHECK_MEM_ACCESS_F 0x4 /*using regular linear pointer */ +#define CHECK_DATA_ACCESS_F 0x8 /*using segment:offset */ + +#ifdef DEBUG +# define CHECK_IP_FETCH() (M.x86.check & CHECK_IP_FETCH_F) +# define CHECK_SP_ACCESS() (M.x86.check & CHECK_SP_ACCESS_F) +# define CHECK_MEM_ACCESS() (M.x86.check & CHECK_MEM_ACCESS_F) +# define CHECK_DATA_ACCESS() (M.x86.check & CHECK_DATA_ACCESS_F) +#else +# define CHECK_IP_FETCH() +# define CHECK_SP_ACCESS() +# define CHECK_MEM_ACCESS() +# define CHECK_DATA_ACCESS() +#endif + +#ifdef DEBUG +# define DEBUG_INSTRUMENT() (M.x86.debug & DEBUG_INSTRUMENT_F) +# define DEBUG_DECODE() (M.x86.debug & DEBUG_DECODE_F) +# define DEBUG_TRACE() (M.x86.debug & DEBUG_TRACE_F) +# define DEBUG_STEP() (M.x86.debug & DEBUG_STEP_F) +# define DEBUG_DISASSEMBLE() (M.x86.debug & DEBUG_DISASSEMBLE_F) +# define DEBUG_BREAK() (M.x86.debug & DEBUG_BREAK_F) +# define DEBUG_SVC() (M.x86.debug & DEBUG_SVC_F) +# define DEBUG_SAVE_IP_CS() (M.x86.debug & DEBUG_SAVE_CS_IP) + +# define DEBUG_FS() (M.x86.debug & DEBUG_FS_F) +# define DEBUG_PROC() (M.x86.debug & DEBUG_PROC_F) +# define DEBUG_SYSINT() (M.x86.debug & DEBUG_SYSINT_F) +# define DEBUG_TRACECALL() (M.x86.debug & DEBUG_TRACECALL_F) +# define DEBUG_TRACECALLREGS() (M.x86.debug & DEBUG_TRACECALL_REGS_F) +# define DEBUG_SYS() (M.x86.debug & DEBUG_SYS_F) +# define DEBUG_MEM_TRACE() (M.x86.debug & DEBUG_MEM_TRACE_F) +# define DEBUG_IO_TRACE() (M.x86.debug & DEBUG_IO_TRACE_F) +# define DEBUG_DECODE_NOPRINT() (M.x86.debug & DEBUG_DECODE_NOPRINT_F) +#else +# define DEBUG_INSTRUMENT() 0 +# define DEBUG_DECODE() 0 +# define DEBUG_TRACE() 0 +# define DEBUG_STEP() 0 +# define DEBUG_DISASSEMBLE() 0 +# define DEBUG_BREAK() 0 +# define DEBUG_SVC() 0 +# define DEBUG_SAVE_IP_CS() 0 +# define DEBUG_FS() 0 +# define DEBUG_PROC() 0 +# define DEBUG_SYSINT() 0 +# define DEBUG_TRACECALL() 0 +# define DEBUG_TRACECALLREGS() 0 +# define DEBUG_SYS() 0 +# define DEBUG_MEM_TRACE() 0 +# define DEBUG_IO_TRACE() 0 +# define DEBUG_DECODE_NOPRINT() 0 +#endif + +#ifdef DEBUG + +# define DECODE_PRINTF(x) if (DEBUG_DECODE()) \ + x86emu_decode_printf(x) +# define DECODE_PRINTF2(x,y) if (DEBUG_DECODE()) \ + x86emu_decode_printf2(x,y) + +/* + * The following allow us to look at the bytes of an instruction. The + * first INCR_INSTRN_LEN, is called everytime bytes are consumed in + * the decoding process. The SAVE_IP_CS is called initially when the + * major opcode of the instruction is accessed. + */ +#define INC_DECODED_INST_LEN(x) \ + if (DEBUG_DECODE()) \ + x86emu_inc_decoded_inst_len(x) + +#define SAVE_IP_CS(x,y) \ + if (DEBUG_DECODE() | DEBUG_TRACECALL() | DEBUG_BREAK() \ + | DEBUG_IO_TRACE() | DEBUG_SAVE_IP_CS()) { \ + M.x86.saved_cs = x; \ + M.x86.saved_ip = y; \ + } +#else +# define INC_DECODED_INST_LEN(x) +# define DECODE_PRINTF(x) +# define DECODE_PRINTF2(x,y) +# define SAVE_IP_CS(x,y) +#endif + +#ifdef DEBUG +#define TRACE_REGS() \ + if (DEBUG_DISASSEMBLE()) { \ + x86emu_just_disassemble(); \ + goto EndOfTheInstructionProcedure; \ + } \ + if (DEBUG_TRACE() || DEBUG_DECODE()) X86EMU_trace_regs() +#else +# define TRACE_REGS() +#endif + +#ifdef DEBUG +# define SINGLE_STEP() if (DEBUG_STEP()) x86emu_single_step() +#else +# define SINGLE_STEP() +#endif + +#define TRACE_AND_STEP() \ + TRACE_REGS(); \ + SINGLE_STEP() + +#ifdef DEBUG +# define START_OF_INSTR() +# define END_OF_INSTR() EndOfTheInstructionProcedure: x86emu_end_instr(); +# define END_OF_INSTR_NO_TRACE() x86emu_end_instr(); +#else +# define START_OF_INSTR() +# define END_OF_INSTR() +# define END_OF_INSTR_NO_TRACE() +#endif + +#ifdef DEBUG +# define CALL_TRACE(u,v,w,x,s) \ + if (DEBUG_TRACECALLREGS()) \ + x86emu_dump_regs(); \ + if (DEBUG_TRACECALL()) \ + printk("%04x:%04x: CALL %s%04x:%04x\n", u , v, s, w, x); +# define RETURN_TRACE(n,u,v) \ + if (DEBUG_TRACECALLREGS()) \ + x86emu_dump_regs(); \ + if (DEBUG_TRACECALL()) \ + printk("%04x:%04x: %s\n",u,v,n); +#else +# define CALL_TRACE(u,v,w,x,s) +# define RETURN_TRACE(n,u,v) +#endif + +#ifdef DEBUG +#define DB(x) x +#else +#define DB(x) +#endif + +/*-------------------------- Function Prototypes --------------------------*/ + +#ifdef __cplusplus +extern "C" { /* Use "C" linkage when in C++ mode */ +#endif + + extern void x86emu_inc_decoded_inst_len(int x); + extern void x86emu_decode_printf(char *x); + extern void x86emu_decode_printf2(char *x, int y); + extern void x86emu_just_disassemble(void); + extern void x86emu_single_step(void); + extern void x86emu_end_instr(void); + extern void x86emu_dump_regs(void); + extern void x86emu_dump_xregs(void); + extern void x86emu_print_int_vect(u16 iv); + extern void x86emu_instrument_instruction(void); + extern void x86emu_check_ip_access(void); + extern void x86emu_check_sp_access(void); + extern void x86emu_check_mem_access(u32 p); + extern void x86emu_check_data_access(uint s, uint o); + +#ifdef __cplusplus +} /* End of "C" linkage for C++ */ +#endif +#endif /* __X86EMU_DEBUG_H */ diff --git a/drivers/bios_emulator/include/x86emu/decode.h b/drivers/bios_emulator/include/x86emu/decode.h new file mode 100644 index 0000000..77769f0 --- /dev/null +++ b/drivers/bios_emulator/include/x86emu/decode.h @@ -0,0 +1,88 @@ +/**************************************************************************** +* +* Realmode X86 Emulator Library +* +* Copyright (C) 1991-2004 SciTech Software, Inc. +* Copyright (C) David Mosberger-Tang +* Copyright (C) 1999 Egbert Eich +* +* ======================================================================== +* +* Permission to use, copy, modify, distribute, and sell this software and +* its documentation for any purpose is hereby granted without fee, +* provided that the above copyright notice appear in all copies and that +* both that copyright notice and this permission notice appear in +* supporting documentation, and that the name of the authors not be used +* in advertising or publicity pertaining to distribution of the software +* without specific, written prior permission. The authors makes no +* representations about the suitability of this software for any purpose. +* It is provided "as is" without express or implied warranty. +* +* THE AUTHORS DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, +* INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO +* EVENT SHALL THE AUTHORS BE LIABLE FOR ANY SPECIAL, INDIRECT OR +* CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF +* USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR +* OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR +* PERFORMANCE OF THIS SOFTWARE. +* +* ======================================================================== +* +* Language: ANSI C +* Environment: Any +* Developer: Kendall Bennett +* +* Description: Header file for instruction decoding logic. +* +****************************************************************************/ + +#ifndef __X86EMU_DECODE_H +#define __X86EMU_DECODE_H + +/*---------------------- Macros and type definitions ----------------------*/ + +/* Instruction Decoding Stuff */ + +#define FETCH_DECODE_MODRM(mod,rh,rl) fetch_decode_modrm(&mod,&rh,&rl) +#define DECODE_RM_BYTE_REGISTER(r) decode_rm_byte_register(r) +#define DECODE_RM_WORD_REGISTER(r) decode_rm_word_register(r) +#define DECODE_RM_LONG_REGISTER(r) decode_rm_long_register(r) +#define DECODE_CLEAR_SEGOVR() M.x86.mode &= ~SYSMODE_CLRMASK + +/*-------------------------- Function Prototypes --------------------------*/ + +#ifdef __cplusplus +extern "C" { /* Use "C" linkage when in C++ mode */ +#endif + +void x86emu_intr_raise (u8 type); +void fetch_decode_modrm (int *mod,int *regh,int *regl); +u8 fetch_byte_imm (void); +u16 fetch_word_imm (void); +u32 fetch_long_imm (void); +u8 fetch_data_byte (uint offset); +u8 fetch_data_byte_abs (uint segment, uint offset); +u16 fetch_data_word (uint offset); +u16 fetch_data_word_abs (uint segment, uint offset); +u32 fetch_data_long (uint offset); +u32 fetch_data_long_abs (uint segment, uint offset); +void store_data_byte (uint offset, u8 val); +void store_data_byte_abs (uint segment, uint offset, u8 val); +void store_data_word (uint offset, u16 val); +void store_data_word_abs (uint segment, uint offset, u16 val); +void store_data_long (uint offset, u32 val); +void store_data_long_abs (uint segment, uint offset, u32 val); +u8* decode_rm_byte_register(int reg); +u16* decode_rm_word_register(int reg); +u32* decode_rm_long_register(int reg); +u16* decode_rm_seg_register(int reg); +unsigned decode_rm00_address(int rm); +unsigned decode_rm01_address(int rm); +unsigned decode_rm10_address(int rm); +unsigned decode_rmXX_address(int mod, int rm); + +#ifdef __cplusplus +} /* End of "C" linkage for C++ */ +#endif + +#endif /* __X86EMU_DECODE_H */ diff --git a/drivers/bios_emulator/include/x86emu/ops.h b/drivers/bios_emulator/include/x86emu/ops.h new file mode 100644 index 0000000..a4f2316 --- /dev/null +++ b/drivers/bios_emulator/include/x86emu/ops.h @@ -0,0 +1,45 @@ +/**************************************************************************** +* +* Realmode X86 Emulator Library +* +* Copyright (C) 1991-2004 SciTech Software, Inc. +* Copyright (C) David Mosberger-Tang +* Copyright (C) 1999 Egbert Eich +* +* ======================================================================== +* +* Permission to use, copy, modify, distribute, and sell this software and +* its documentation for any purpose is hereby granted without fee, +* provided that the above copyright notice appear in all copies and that +* both that copyright notice and this permission notice appear in +* supporting documentation, and that the name of the authors not be used +* in advertising or publicity pertaining to distribution of the software +* without specific, written prior permission. The authors makes no +* representations about the suitability of this software for any purpose. +* It is provided "as is" without express or implied warranty. +* +* THE AUTHORS DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, +* INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO +* EVENT SHALL THE AUTHORS BE LIABLE FOR ANY SPECIAL, INDIRECT OR +* CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF +* USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR +* OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR +* PERFORMANCE OF THIS SOFTWARE. +* +* ======================================================================== +* +* Language: ANSI C +* Environment: Any +* Developer: Kendall Bennett +* +* Description: Header file for operand decoding functions. +* +****************************************************************************/ + +#ifndef __X86EMU_OPS_H +#define __X86EMU_OPS_H + +extern void (*x86emu_optab[0x100])(u8 op1); +extern void (*x86emu_optab2[0x100])(u8 op2); + +#endif /* __X86EMU_OPS_H */ diff --git a/drivers/bios_emulator/include/x86emu/prim_asm.h b/drivers/bios_emulator/include/x86emu/prim_asm.h new file mode 100644 index 0000000..4cb4cab --- /dev/null +++ b/drivers/bios_emulator/include/x86emu/prim_asm.h @@ -0,0 +1,970 @@ +/**************************************************************************** +* +* Realmode X86 Emulator Library +* +* Copyright (C) 1991-2004 SciTech Software, Inc. +* Copyright (C) David Mosberger-Tang +* Copyright (C) 1999 Egbert Eich +* +* ======================================================================== +* +* Permission to use, copy, modify, distribute, and sell this software and +* its documentation for any purpose is hereby granted without fee, +* provided that the above copyright notice appear in all copies and that +* both that copyright notice and this permission notice appear in +* supporting documentation, and that the name of the authors not be used +* in advertising or publicity pertaining to distribution of the software +* without specific, written prior permission. The authors makes no +* representations about the suitability of this software for any purpose. +* It is provided "as is" without express or implied warranty. +* +* THE AUTHORS DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, +* INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO +* EVENT SHALL THE AUTHORS BE LIABLE FOR ANY SPECIAL, INDIRECT OR +* CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF +* USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR +* OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR +* PERFORMANCE OF THIS SOFTWARE. +* +* ======================================================================== +* +* Language: Watcom C++ 10.6 or later +* Environment: Any +* Developer: Kendall Bennett +* +* Description: Inline assembler versions of the primitive operand +* functions for faster performance. At the moment this is +* x86 inline assembler, but these functions could be replaced +* with native inline assembler for each supported processor +* platform. +* +****************************************************************************/ + +#ifndef __X86EMU_PRIM_ASM_H +#define __X86EMU_PRIM_ASM_H + +#ifdef __WATCOMC__ + +#ifndef VALIDATE +#define __HAVE_INLINE_ASSEMBLER__ +#endif + +u32 get_flags_asm(void); +#pragma aux get_flags_asm = \ + "pushf" \ + "pop eax" \ + value [eax] \ + modify exact [eax]; + +u16 aaa_word_asm(u32 * flags, u16 d); +#pragma aux aaa_word_asm = \ + "push [edi]" \ + "popf" \ + "aaa" \ + "pushf" \ + "pop [edi]" \ + parm [edi] [ax] \ + value [ax] \ + modify exact [ax]; + +u16 aas_word_asm(u32 * flags, u16 d); +#pragma aux aas_word_asm = \ + "push [edi]" \ + "popf" \ + "aas" \ + "pushf" \ + "pop [edi]" \ + parm [edi] [ax] \ + value [ax] \ + modify exact [ax]; + +u16 aad_word_asm(u32 * flags, u16 d); +#pragma aux aad_word_asm = \ + "push [edi]" \ + "popf" \ + "aad" \ + "pushf" \ + "pop [edi]" \ + parm [edi] [ax] \ + value [ax] \ + modify exact [ax]; + +u16 aam_word_asm(u32 * flags, u8 d); +#pragma aux aam_word_asm = \ + "push [edi]" \ + "popf" \ + "aam" \ + "pushf" \ + "pop [edi]" \ + parm [edi] [al] \ + value [ax] \ + modify exact [ax]; + +u8 adc_byte_asm(u32 * flags, u8 d, u8 s); +#pragma aux adc_byte_asm = \ + "push [edi]" \ + "popf" \ + "adc al,bl" \ + "pushf" \ + "pop [edi]" \ + parm [edi] [al] [bl] \ + value [al] \ + modify exact [al bl]; + +u16 adc_word_asm(u32 * flags, u16 d, u16 s); +#pragma aux adc_word_asm = \ + "push [edi]" \ + "popf" \ + "adc ax,bx" \ + "pushf" \ + "pop [edi]" \ + parm [edi] [ax] [bx] \ + value [ax] \ + modify exact [ax bx]; + +u32 adc_long_asm(u32 * flags, u32 d, u32 s); +#pragma aux adc_long_asm = \ + "push [edi]" \ + "popf" \ + "adc eax,ebx" \ + "pushf" \ + "pop [edi]" \ + parm [edi] [eax] [ebx] \ + value [eax] \ + modify exact [eax ebx]; + +u8 add_byte_asm(u32 * flags, u8 d, u8 s); +#pragma aux add_byte_asm = \ + "push [edi]" \ + "popf" \ + "add al,bl" \ + "pushf" \ + "pop [edi]" \ + parm [edi] [al] [bl] \ + value [al] \ + modify exact [al bl]; + +u16 add_word_asm(u32 * flags, u16 d, u16 s); +#pragma aux add_word_asm = \ + "push [edi]" \ + "popf" \ + "add ax,bx" \ + "pushf" \ + "pop [edi]" \ + parm [edi] [ax] [bx] \ + value [ax] \ + modify exact [ax bx]; + +u32 add_long_asm(u32 * flags, u32 d, u32 s); +#pragma aux add_long_asm = \ + "push [edi]" \ + "popf" \ + "add eax,ebx" \ + "pushf" \ + "pop [edi]" \ + parm [edi] [eax] [ebx] \ + value [eax] \ + modify exact [eax ebx]; + +u8 and_byte_asm(u32 * flags, u8 d, u8 s); +#pragma aux and_byte_asm = \ + "push [edi]" \ + "popf" \ + "and al,bl" \ + "pushf" \ + "pop [edi]" \ + parm [edi] [al] [bl] \ + value [al] \ + modify exact [al bl]; + +u16 and_word_asm(u32 * flags, u16 d, u16 s); +#pragma aux and_word_asm = \ + "push [edi]" \ + "popf" \ + "and ax,bx" \ + "pushf" \ + "pop [edi]" \ + parm [edi] [ax] [bx] \ + value [ax] \ + modify exact [ax bx]; + +u32 and_long_asm(u32 * flags, u32 d, u32 s); +#pragma aux and_long_asm = \ + "push [edi]" \ + "popf" \ + "and eax,ebx" \ + "pushf" \ + "pop [edi]" \ + parm [edi] [eax] [ebx] \ + value [eax] \ + modify exact [eax ebx]; + +u8 cmp_byte_asm(u32 * flags, u8 d, u8 s); +#pragma aux cmp_byte_asm = \ + "push [edi]" \ + "popf" \ + "cmp al,bl" \ + "pushf" \ + "pop [edi]" \ + parm [edi] [al] [bl] \ + value [al] \ + modify exact [al bl]; + +u16 cmp_word_asm(u32 * flags, u16 d, u16 s); +#pragma aux cmp_word_asm = \ + "push [edi]" \ + "popf" \ + "cmp ax,bx" \ + "pushf" \ + "pop [edi]" \ + parm [edi] [ax] [bx] \ + value [ax] \ + modify exact [ax bx]; + +u32 cmp_long_asm(u32 * flags, u32 d, u32 s); +#pragma aux cmp_long_asm = \ + "push [edi]" \ + "popf" \ + "cmp eax,ebx" \ + "pushf" \ + "pop [edi]" \ + parm [edi] [eax] [ebx] \ + value [eax] \ + modify exact [eax ebx]; + +u8 daa_byte_asm(u32 * flags, u8 d); +#pragma aux daa_byte_asm = \ + "push [edi]" \ + "popf" \ + "daa" \ + "pushf" \ + "pop [edi]" \ + parm [edi] [al] \ + value [al] \ + modify exact [al]; + +u8 das_byte_asm(u32 * flags, u8 d); +#pragma aux das_byte_asm = \ + "push [edi]" \ + "popf" \ + "das" \ + "pushf" \ + "pop [edi]" \ + parm [edi] [al] \ + value [al] \ + modify exact [al]; + +u8 dec_byte_asm(u32 * flags, u8 d); +#pragma aux dec_byte_asm = \ + "push [edi]" \ + "popf" \ + "dec al" \ + "pushf" \ + "pop [edi]" \ + parm [edi] [al] \ + value [al] \ + modify exact [al]; + +u16 dec_word_asm(u32 * flags, u16 d); +#pragma aux dec_word_asm = \ + "push [edi]" \ + "popf" \ + "dec ax" \ + "pushf" \ + "pop [edi]" \ + parm [edi] [ax] \ + value [ax] \ + modify exact [ax]; + +u32 dec_long_asm(u32 * flags, u32 d); +#pragma aux dec_long_asm = \ + "push [edi]" \ + "popf" \ + "dec eax" \ + "pushf" \ + "pop [edi]" \ + parm [edi] [eax] \ + value [eax] \ + modify exact [eax]; + +u8 inc_byte_asm(u32 * flags, u8 d); +#pragma aux inc_byte_asm = \ + "push [edi]" \ + "popf" \ + "inc al" \ + "pushf" \ + "pop [edi]" \ + parm [edi] [al] \ + value [al] \ + modify exact [al]; + +u16 inc_word_asm(u32 * flags, u16 d); +#pragma aux inc_word_asm = \ + "push [edi]" \ + "popf" \ + "inc ax" \ + "pushf" \ + "pop [edi]" \ + parm [edi] [ax] \ + value [ax] \ + modify exact [ax]; + +u32 inc_long_asm(u32 * flags, u32 d); +#pragma aux inc_long_asm = \ + "push [edi]" \ + "popf" \ + "inc eax" \ + "pushf" \ + "pop [edi]" \ + parm [edi] [eax] \ + value [eax] \ + modify exact [eax]; + +u8 or_byte_asm(u32 * flags, u8 d, u8 s); +#pragma aux or_byte_asm = \ + "push [edi]" \ + "popf" \ + "or al,bl" \ + "pushf" \ + "pop [edi]" \ + parm [edi] [al] [bl] \ + value [al] \ + modify exact [al bl]; + +u16 or_word_asm(u32 * flags, u16 d, u16 s); +#pragma aux or_word_asm = \ + "push [edi]" \ + "popf" \ + "or ax,bx" \ + "pushf" \ + "pop [edi]" \ + parm [edi] [ax] [bx] \ + value [ax] \ + modify exact [ax bx]; + +u32 or_long_asm(u32 * flags, u32 d, u32 s); +#pragma aux or_long_asm = \ + "push [edi]" \ + "popf" \ + "or eax,ebx" \ + "pushf" \ + "pop [edi]" \ + parm [edi] [eax] [ebx] \ + value [eax] \ + modify exact [eax ebx]; + +u8 neg_byte_asm(u32 * flags, u8 d); +#pragma aux neg_byte_asm = \ + "push [edi]" \ + "popf" \ + "neg al" \ + "pushf" \ + "pop [edi]" \ + parm [edi] [al] \ + value [al] \ + modify exact [al]; + +u16 neg_word_asm(u32 * flags, u16 d); +#pragma aux neg_word_asm = \ + "push [edi]" \ + "popf" \ + "neg ax" \ + "pushf" \ + "pop [edi]" \ + parm [edi] [ax] \ + value [ax] \ + modify exact [ax]; + +u32 neg_long_asm(u32 * flags, u32 d); +#pragma aux neg_long_asm = \ + "push [edi]" \ + "popf" \ + "neg eax" \ + "pushf" \ + "pop [edi]" \ + parm [edi] [eax] \ + value [eax] \ + modify exact [eax]; + +u8 not_byte_asm(u32 * flags, u8 d); +#pragma aux not_byte_asm = \ + "push [edi]" \ + "popf" \ + "not al" \ + "pushf" \ + "pop [edi]" \ + parm [edi] [al] \ + value [al] \ + modify exact [al]; + +u16 not_word_asm(u32 * flags, u16 d); +#pragma aux not_word_asm = \ + "push [edi]" \ + "popf" \ + "not ax" \ + "pushf" \ + "pop [edi]" \ + parm [edi] [ax] \ + value [ax] \ + modify exact [ax]; + +u32 not_long_asm(u32 * flags, u32 d); +#pragma aux not_long_asm = \ + "push [edi]" \ + "popf" \ + "not eax" \ + "pushf" \ + "pop [edi]" \ + parm [edi] [eax] \ + value [eax] \ + modify exact [eax]; + +u8 rcl_byte_asm(u32 * flags, u8 d, u8 s); +#pragma aux rcl_byte_asm = \ + "push [edi]" \ + "popf" \ + "rcl al,cl" \ + "pushf" \ + "pop [edi]" \ + parm [edi] [al] [cl] \ + value [al] \ + modify exact [al cl]; + +u16 rcl_word_asm(u32 * flags, u16 d, u8 s); +#pragma aux rcl_word_asm = \ + "push [edi]" \ + "popf" \ + "rcl ax,cl" \ + "pushf" \ + "pop [edi]" \ + parm [edi] [ax] [cl] \ + value [ax] \ + modify exact [ax cl]; + +u32 rcl_long_asm(u32 * flags, u32 d, u8 s); +#pragma aux rcl_long_asm = \ + "push [edi]" \ + "popf" \ + "rcl eax,cl" \ + "pushf" \ + "pop [edi]" \ + parm [edi] [eax] [cl] \ + value [eax] \ + modify exact [eax cl]; + +u8 rcr_byte_asm(u32 * flags, u8 d, u8 s); +#pragma aux rcr_byte_asm = \ + "push [edi]" \ + "popf" \ + "rcr al,cl" \ + "pushf" \ + "pop [edi]" \ + parm [edi] [al] [cl] \ + value [al] \ + modify exact [al cl]; + +u16 rcr_word_asm(u32 * flags, u16 d, u8 s); +#pragma aux rcr_word_asm = \ + "push [edi]" \ + "popf" \ + "rcr ax,cl" \ + "pushf" \ + "pop [edi]" \ + parm [edi] [ax] [cl] \ + value [ax] \ + modify exact [ax cl]; + +u32 rcr_long_asm(u32 * flags, u32 d, u8 s); +#pragma aux rcr_long_asm = \ + "push [edi]" \ + "popf" \ + "rcr eax,cl" \ + "pushf" \ + "pop [edi]" \ + parm [edi] [eax] [cl] \ + value [eax] \ + modify exact [eax cl]; + +u8 rol_byte_asm(u32 * flags, u8 d, u8 s); +#pragma aux rol_byte_asm = \ + "push [edi]" \ + "popf" \ + "rol al,cl" \ + "pushf" \ + "pop [edi]" \ + parm [edi] [al] [cl] \ + value [al] \ + modify exact [al cl]; + +u16 rol_word_asm(u32 * flags, u16 d, u8 s); +#pragma aux rol_word_asm = \ + "push [edi]" \ + "popf" \ + "rol ax,cl" \ + "pushf" \ + "pop [edi]" \ + parm [edi] [ax] [cl] \ + value [ax] \ + modify exact [ax cl]; + +u32 rol_long_asm(u32 * flags, u32 d, u8 s); +#pragma aux rol_long_asm = \ + "push [edi]" \ + "popf" \ + "rol eax,cl" \ + "pushf" \ + "pop [edi]" \ + parm [edi] [eax] [cl] \ + value [eax] \ + modify exact [eax cl]; + +u8 ror_byte_asm(u32 * flags, u8 d, u8 s); +#pragma aux ror_byte_asm = \ + "push [edi]" \ + "popf" \ + "ror al,cl" \ + "pushf" \ + "pop [edi]" \ + parm [edi] [al] [cl] \ + value [al] \ + modify exact [al cl]; + +u16 ror_word_asm(u32 * flags, u16 d, u8 s); +#pragma aux ror_word_asm = \ + "push [edi]" \ + "popf" \ + "ror ax,cl" \ + "pushf" \ + "pop [edi]" \ + parm [edi] [ax] [cl] \ + value [ax] \ + modify exact [ax cl]; + +u32 ror_long_asm(u32 * flags, u32 d, u8 s); +#pragma aux ror_long_asm = \ + "push [edi]" \ + "popf" \ + "ror eax,cl" \ + "pushf" \ + "pop [edi]" \ + parm [edi] [eax] [cl] \ + value [eax] \ + modify exact [eax cl]; + +u8 shl_byte_asm(u32 * flags, u8 d, u8 s); +#pragma aux shl_byte_asm = \ + "push [edi]" \ + "popf" \ + "shl al,cl" \ + "pushf" \ + "pop [edi]" \ + parm [edi] [al] [cl] \ + value [al] \ + modify exact [al cl]; + +u16 shl_word_asm(u32 * flags, u16 d, u8 s); +#pragma aux shl_word_asm = \ + "push [edi]" \ + "popf" \ + "shl ax,cl" \ + "pushf" \ + "pop [edi]" \ + parm [edi] [ax] [cl] \ + value [ax] \ + modify exact [ax cl]; + +u32 shl_long_asm(u32 * flags, u32 d, u8 s); +#pragma aux shl_long_asm = \ + "push [edi]" \ + "popf" \ + "shl eax,cl" \ + "pushf" \ + "pop [edi]" \ + parm [edi] [eax] [cl] \ + value [eax] \ + modify exact [eax cl]; + +u8 shr_byte_asm(u32 * flags, u8 d, u8 s); +#pragma aux shr_byte_asm = \ + "push [edi]" \ + "popf" \ + "shr al,cl" \ + "pushf" \ + "pop [edi]" \ + parm [edi] [al] [cl] \ + value [al] \ + modify exact [al cl]; + +u16 shr_word_asm(u32 * flags, u16 d, u8 s); +#pragma aux shr_word_asm = \ + "push [edi]" \ + "popf" \ + "shr ax,cl" \ + "pushf" \ + "pop [edi]" \ + parm [edi] [ax] [cl] \ + value [ax] \ + modify exact [ax cl]; + +u32 shr_long_asm(u32 * flags, u32 d, u8 s); +#pragma aux shr_long_asm = \ + "push [edi]" \ + "popf" \ + "shr eax,cl" \ + "pushf" \ + "pop [edi]" \ + parm [edi] [eax] [cl] \ + value [eax] \ + modify exact [eax cl]; + +u8 sar_byte_asm(u32 * flags, u8 d, u8 s); +#pragma aux sar_byte_asm = \ + "push [edi]" \ + "popf" \ + "sar al,cl" \ + "pushf" \ + "pop [edi]" \ + parm [edi] [al] [cl] \ + value [al] \ + modify exact [al cl]; + +u16 sar_word_asm(u32 * flags, u16 d, u8 s); +#pragma aux sar_word_asm = \ + "push [edi]" \ + "popf" \ + "sar ax,cl" \ + "pushf" \ + "pop [edi]" \ + parm [edi] [ax] [cl] \ + value [ax] \ + modify exact [ax cl]; + +u32 sar_long_asm(u32 * flags, u32 d, u8 s); +#pragma aux sar_long_asm = \ + "push [edi]" \ + "popf" \ + "sar eax,cl" \ + "pushf" \ + "pop [edi]" \ + parm [edi] [eax] [cl] \ + value [eax] \ + modify exact [eax cl]; + +u16 shld_word_asm(u32 * flags, u16 d, u16 fill, u8 s); +#pragma aux shld_word_asm = \ + "push [edi]" \ + "popf" \ + "shld ax,dx,cl" \ + "pushf" \ + "pop [edi]" \ + parm [edi] [ax] [dx] [cl] \ + value [ax] \ + modify exact [ax dx cl]; + +u32 shld_long_asm(u32 * flags, u32 d, u32 fill, u8 s); +#pragma aux shld_long_asm = \ + "push [edi]" \ + "popf" \ + "shld eax,edx,cl" \ + "pushf" \ + "pop [edi]" \ + parm [edi] [eax] [edx] [cl] \ + value [eax] \ + modify exact [eax edx cl]; + +u16 shrd_word_asm(u32 * flags, u16 d, u16 fill, u8 s); +#pragma aux shrd_word_asm = \ + "push [edi]" \ + "popf" \ + "shrd ax,dx,cl" \ + "pushf" \ + "pop [edi]" \ + parm [edi] [ax] [dx] [cl] \ + value [ax] \ + modify exact [ax dx cl]; + +u32 shrd_long_asm(u32 * flags, u32 d, u32 fill, u8 s); +#pragma aux shrd_long_asm = \ + "push [edi]" \ + "popf" \ + "shrd eax,edx,cl" \ + "pushf" \ + "pop [edi]" \ + parm [edi] [eax] [edx] [cl] \ + value [eax] \ + modify exact [eax edx cl]; + +u8 sbb_byte_asm(u32 * flags, u8 d, u8 s); +#pragma aux sbb_byte_asm = \ + "push [edi]" \ + "popf" \ + "sbb al,bl" \ + "pushf" \ + "pop [edi]" \ + parm [edi] [al] [bl] \ + value [al] \ + modify exact [al bl]; + +u16 sbb_word_asm(u32 * flags, u16 d, u16 s); +#pragma aux sbb_word_asm = \ + "push [edi]" \ + "popf" \ + "sbb ax,bx" \ + "pushf" \ + "pop [edi]" \ + parm [edi] [ax] [bx] \ + value [ax] \ + modify exact [ax bx]; + +u32 sbb_long_asm(u32 * flags, u32 d, u32 s); +#pragma aux sbb_long_asm = \ + "push [edi]" \ + "popf" \ + "sbb eax,ebx" \ + "pushf" \ + "pop [edi]" \ + parm [edi] [eax] [ebx] \ + value [eax] \ + modify exact [eax ebx]; + +u8 sub_byte_asm(u32 * flags, u8 d, u8 s); +#pragma aux sub_byte_asm = \ + "push [edi]" \ + "popf" \ + "sub al,bl" \ + "pushf" \ + "pop [edi]" \ + parm [edi] [al] [bl] \ + value [al] \ + modify exact [al bl]; + +u16 sub_word_asm(u32 * flags, u16 d, u16 s); +#pragma aux sub_word_asm = \ + "push [edi]" \ + "popf" \ + "sub ax,bx" \ + "pushf" \ + "pop [edi]" \ + parm [edi] [ax] [bx] \ + value [ax] \ + modify exact [ax bx]; + +u32 sub_long_asm(u32 * flags, u32 d, u32 s); +#pragma aux sub_long_asm = \ + "push [edi]" \ + "popf" \ + "sub eax,ebx" \ + "pushf" \ + "pop [edi]" \ + parm [edi] [eax] [ebx] \ + value [eax] \ + modify exact [eax ebx]; + +void test_byte_asm(u32 * flags, u8 d, u8 s); +#pragma aux test_byte_asm = \ + "push [edi]" \ + "popf" \ + "test al,bl" \ + "pushf" \ + "pop [edi]" \ + parm [edi] [al] [bl] \ + modify exact [al bl]; + +void test_word_asm(u32 * flags, u16 d, u16 s); +#pragma aux test_word_asm = \ + "push [edi]" \ + "popf" \ + "test ax,bx" \ + "pushf" \ + "pop [edi]" \ + parm [edi] [ax] [bx] \ + modify exact [ax bx]; + +void test_long_asm(u32 * flags, u32 d, u32 s); +#pragma aux test_long_asm = \ + "push [edi]" \ + "popf" \ + "test eax,ebx" \ + "pushf" \ + "pop [edi]" \ + parm [edi] [eax] [ebx] \ + modify exact [eax ebx]; + +u8 xor_byte_asm(u32 * flags, u8 d, u8 s); +#pragma aux xor_byte_asm = \ + "push [edi]" \ + "popf" \ + "xor al,bl" \ + "pushf" \ + "pop [edi]" \ + parm [edi] [al] [bl] \ + value [al] \ + modify exact [al bl]; + +u16 xor_word_asm(u32 * flags, u16 d, u16 s); +#pragma aux xor_word_asm = \ + "push [edi]" \ + "popf" \ + "xor ax,bx" \ + "pushf" \ + "pop [edi]" \ + parm [edi] [ax] [bx] \ + value [ax] \ + modify exact [ax bx]; + +u32 xor_long_asm(u32 * flags, u32 d, u32 s); +#pragma aux xor_long_asm = \ + "push [edi]" \ + "popf" \ + "xor eax,ebx" \ + "pushf" \ + "pop [edi]" \ + parm [edi] [eax] [ebx] \ + value [eax] \ + modify exact [eax ebx]; + +void imul_byte_asm(u32 * flags, u16 * ax, u8 d, u8 s); +#pragma aux imul_byte_asm = \ + "push [edi]" \ + "popf" \ + "imul bl" \ + "pushf" \ + "pop [edi]" \ + "mov [esi],ax" \ + parm [edi] [esi] [al] [bl] \ + modify exact [esi ax bl]; + +void imul_word_asm(u32 * flags, u16 * ax, u16 * dx, u16 d, u16 s); +#pragma aux imul_word_asm = \ + "push [edi]" \ + "popf" \ + "imul bx" \ + "pushf" \ + "pop [edi]" \ + "mov [esi],ax" \ + "mov [ecx],dx" \ + parm [edi] [esi] [ecx] [ax] [bx]\ + modify exact [esi edi ax bx dx]; + +void imul_long_asm(u32 * flags, u32 * eax, u32 * edx, u32 d, u32 s); +#pragma aux imul_long_asm = \ + "push [edi]" \ + "popf" \ + "imul ebx" \ + "pushf" \ + "pop [edi]" \ + "mov [esi],eax" \ + "mov [ecx],edx" \ + parm [edi] [esi] [ecx] [eax] [ebx] \ + modify exact [esi edi eax ebx edx]; + +void mul_byte_asm(u32 * flags, u16 * ax, u8 d, u8 s); +#pragma aux mul_byte_asm = \ + "push [edi]" \ + "popf" \ + "mul bl" \ + "pushf" \ + "pop [edi]" \ + "mov [esi],ax" \ + parm [edi] [esi] [al] [bl] \ + modify exact [esi ax bl]; + +void mul_word_asm(u32 * flags, u16 * ax, u16 * dx, u16 d, u16 s); +#pragma aux mul_word_asm = \ + "push [edi]" \ + "popf" \ + "mul bx" \ + "pushf" \ + "pop [edi]" \ + "mov [esi],ax" \ + "mov [ecx],dx" \ + parm [edi] [esi] [ecx] [ax] [bx]\ + modify exact [esi edi ax bx dx]; + +void mul_long_asm(u32 * flags, u32 * eax, u32 * edx, u32 d, u32 s); +#pragma aux mul_long_asm = \ + "push [edi]" \ + "popf" \ + "mul ebx" \ + "pushf" \ + "pop [edi]" \ + "mov [esi],eax" \ + "mov [ecx],edx" \ + parm [edi] [esi] [ecx] [eax] [ebx] \ + modify exact [esi edi eax ebx edx]; + +void idiv_byte_asm(u32 * flags, u8 * al, u8 * ah, u16 d, u8 s); +#pragma aux idiv_byte_asm = \ + "push [edi]" \ + "popf" \ + "idiv bl" \ + "pushf" \ + "pop [edi]" \ + "mov [esi],al" \ + "mov [ecx],ah" \ + parm [edi] [esi] [ecx] [ax] [bl]\ + modify exact [esi edi ax bl]; + +void idiv_word_asm(u32 * flags, u16 * ax, u16 * dx, u16 dlo, u16 dhi, u16 s); +#pragma aux idiv_word_asm = \ + "push [edi]" \ + "popf" \ + "idiv bx" \ + "pushf" \ + "pop [edi]" \ + "mov [esi],ax" \ + "mov [ecx],dx" \ + parm [edi] [esi] [ecx] [ax] [dx] [bx]\ + modify exact [esi edi ax dx bx]; + +void idiv_long_asm(u32 * flags, u32 * eax, u32 * edx, u32 dlo, u32 dhi, u32 s); +#pragma aux idiv_long_asm = \ + "push [edi]" \ + "popf" \ + "idiv ebx" \ + "pushf" \ + "pop [edi]" \ + "mov [esi],eax" \ + "mov [ecx],edx" \ + parm [edi] [esi] [ecx] [eax] [edx] [ebx]\ + modify exact [esi edi eax edx ebx]; + +void div_byte_asm(u32 * flags, u8 * al, u8 * ah, u16 d, u8 s); +#pragma aux div_byte_asm = \ + "push [edi]" \ + "popf" \ + "div bl" \ + "pushf" \ + "pop [edi]" \ + "mov [esi],al" \ + "mov [ecx],ah" \ + parm [edi] [esi] [ecx] [ax] [bl]\ + modify exact [esi edi ax bl]; + +void div_word_asm(u32 * flags, u16 * ax, u16 * dx, u16 dlo, u16 dhi, u16 s); +#pragma aux div_word_asm = \ + "push [edi]" \ + "popf" \ + "div bx" \ + "pushf" \ + "pop [edi]" \ + "mov [esi],ax" \ + "mov [ecx],dx" \ + parm [edi] [esi] [ecx] [ax] [dx] [bx]\ + modify exact [esi edi ax dx bx]; + +void div_long_asm(u32 * flags, u32 * eax, u32 * edx, u32 dlo, u32 dhi, u32 s); +#pragma aux div_long_asm = \ + "push [edi]" \ + "popf" \ + "div ebx" \ + "pushf" \ + "pop [edi]" \ + "mov [esi],eax" \ + "mov [ecx],edx" \ + parm [edi] [esi] [ecx] [eax] [edx] [ebx]\ + modify exact [esi edi eax edx ebx]; + +#endif + +#endif /* __X86EMU_PRIM_ASM_H */ diff --git a/drivers/bios_emulator/include/x86emu/prim_ops.h b/drivers/bios_emulator/include/x86emu/prim_ops.h new file mode 100644 index 0000000..2291e84 --- /dev/null +++ b/drivers/bios_emulator/include/x86emu/prim_ops.h @@ -0,0 +1,141 @@ +/**************************************************************************** +* +* Realmode X86 Emulator Library +* +* Copyright (C) 1991-2004 SciTech Software, Inc. +* Copyright (C) David Mosberger-Tang +* Copyright (C) 1999 Egbert Eich +* +* ======================================================================== +* +* Permission to use, copy, modify, distribute, and sell this software and +* its documentation for any purpose is hereby granted without fee, +* provided that the above copyright notice appear in all copies and that +* both that copyright notice and this permission notice appear in +* supporting documentation, and that the name of the authors not be used +* in advertising or publicity pertaining to distribution of the software +* without specific, written prior permission. The authors makes no +* representations about the suitability of this software for any purpose. +* It is provided "as is" without express or implied warranty. +* +* THE AUTHORS DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, +* INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO +* EVENT SHALL THE AUTHORS BE LIABLE FOR ANY SPECIAL, INDIRECT OR +* CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF +* USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR +* OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR +* PERFORMANCE OF THIS SOFTWARE. +* +* ======================================================================== +* +* Language: ANSI C +* Environment: Any +* Developer: Kendall Bennett +* +* Description: Header file for primitive operation functions. +* +****************************************************************************/ + +#ifndef __X86EMU_PRIM_OPS_H +#define __X86EMU_PRIM_OPS_H + +#ifdef __cplusplus +extern "C" { /* Use "C" linkage when in C++ mode */ +#endif + +u16 aaa_word (u16 d); +u16 aas_word (u16 d); +u16 aad_word (u16 d); +u16 aam_word (u8 d); +u8 adc_byte (u8 d, u8 s); +u16 adc_word (u16 d, u16 s); +u32 adc_long (u32 d, u32 s); +u8 add_byte (u8 d, u8 s); +u16 add_word (u16 d, u16 s); +u32 add_long (u32 d, u32 s); +u8 and_byte (u8 d, u8 s); +u16 and_word (u16 d, u16 s); +u32 and_long (u32 d, u32 s); +u8 cmp_byte (u8 d, u8 s); +u16 cmp_word (u16 d, u16 s); +u32 cmp_long (u32 d, u32 s); +u8 daa_byte (u8 d); +u8 das_byte (u8 d); +u8 dec_byte (u8 d); +u16 dec_word (u16 d); +u32 dec_long (u32 d); +u8 inc_byte (u8 d); +u16 inc_word (u16 d); +u32 inc_long (u32 d); +u8 or_byte (u8 d, u8 s); +u16 or_word (u16 d, u16 s); +u32 or_long (u32 d, u32 s); +u8 neg_byte (u8 s); +u16 neg_word (u16 s); +u32 neg_long (u32 s); +u8 not_byte (u8 s); +u16 not_word (u16 s); +u32 not_long (u32 s); +u8 rcl_byte (u8 d, u8 s); +u16 rcl_word (u16 d, u8 s); +u32 rcl_long (u32 d, u8 s); +u8 rcr_byte (u8 d, u8 s); +u16 rcr_word (u16 d, u8 s); +u32 rcr_long (u32 d, u8 s); +u8 rol_byte (u8 d, u8 s); +u16 rol_word (u16 d, u8 s); +u32 rol_long (u32 d, u8 s); +u8 ror_byte (u8 d, u8 s); +u16 ror_word (u16 d, u8 s); +u32 ror_long (u32 d, u8 s); +u8 shl_byte (u8 d, u8 s); +u16 shl_word (u16 d, u8 s); +u32 shl_long (u32 d, u8 s); +u8 shr_byte (u8 d, u8 s); +u16 shr_word (u16 d, u8 s); +u32 shr_long (u32 d, u8 s); +u8 sar_byte (u8 d, u8 s); +u16 sar_word (u16 d, u8 s); +u32 sar_long (u32 d, u8 s); +u16 shld_word (u16 d, u16 fill, u8 s); +u32 shld_long (u32 d, u32 fill, u8 s); +u16 shrd_word (u16 d, u16 fill, u8 s); +u32 shrd_long (u32 d, u32 fill, u8 s); +u8 sbb_byte (u8 d, u8 s); +u16 sbb_word (u16 d, u16 s); +u32 sbb_long (u32 d, u32 s); +u8 sub_byte (u8 d, u8 s); +u16 sub_word (u16 d, u16 s); +u32 sub_long (u32 d, u32 s); +void test_byte (u8 d, u8 s); +void test_word (u16 d, u16 s); +void test_long (u32 d, u32 s); +u8 xor_byte (u8 d, u8 s); +u16 xor_word (u16 d, u16 s); +u32 xor_long (u32 d, u32 s); +void imul_byte (u8 s); +void imul_word (u16 s); +void imul_long (u32 s); +void imul_long_direct(u32 *res_lo, u32* res_hi,u32 d, u32 s); +void mul_byte (u8 s); +void mul_word (u16 s); +void mul_long (u32 s); +void idiv_byte (u8 s); +void idiv_word (u16 s); +void idiv_long (u32 s); +void div_byte (u8 s); +void div_word (u16 s); +void div_long (u32 s); +void ins (int size); +void outs (int size); +u16 mem_access_word (int addr); +void push_word (u16 w); +void push_long (u32 w); +u16 pop_word (void); +u32 pop_long (void); + +#ifdef __cplusplus +} /* End of "C" linkage for C++ */ +#endif + +#endif /* __X86EMU_PRIM_OPS_H */ diff --git a/drivers/bios_emulator/include/x86emu/regs.h b/drivers/bios_emulator/include/x86emu/regs.h new file mode 100644 index 0000000..a7fedd2 --- /dev/null +++ b/drivers/bios_emulator/include/x86emu/regs.h @@ -0,0 +1,340 @@ +/**************************************************************************** +* +* Realmode X86 Emulator Library +* +* Copyright (C) 1991-2004 SciTech Software, Inc. +* Copyright (C) David Mosberger-Tang +* Copyright (C) 1999 Egbert Eich +* +* ======================================================================== +* +* Permission to use, copy, modify, distribute, and sell this software and +* its documentation for any purpose is hereby granted without fee, +* provided that the above copyright notice appear in all copies and that +* both that copyright notice and this permission notice appear in +* supporting documentation, and that the name of the authors not be used +* in advertising or publicity pertaining to distribution of the software +* without specific, written prior permission. The authors makes no +* representations about the suitability of this software for any purpose. +* It is provided "as is" without express or implied warranty. +* +* THE AUTHORS DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, +* INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO +* EVENT SHALL THE AUTHORS BE LIABLE FOR ANY SPECIAL, INDIRECT OR +* CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF +* USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR +* OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR +* PERFORMANCE OF THIS SOFTWARE. +* +* ======================================================================== +* +* Language: ANSI C +* Environment: Any +* Developer: Kendall Bennett +* +* Description: Header file for x86 register definitions. +* +****************************************************************************/ + +#ifndef __X86EMU_REGS_H +#define __X86EMU_REGS_H + +/*---------------------- Macros and type definitions ----------------------*/ + +#pragma pack(1) + +/* + * General EAX, EBX, ECX, EDX type registers. Note that for + * portability, and speed, the issue of byte swapping is not addressed + * in the registers. All registers are stored in the default format + * available on the host machine. The only critical issue is that the + * registers should line up EXACTLY in the same manner as they do in + * the 386. That is: + * + * EAX & 0xff === AL + * EAX & 0xffff == AX + * + * etc. The result is that alot of the calculations can then be + * done using the native instruction set fully. + */ + +#ifdef __BIG_ENDIAN__ + +typedef struct { + u32 e_reg; +} I32_reg_t; + +typedef struct { + u16 filler0, x_reg; +} I16_reg_t; + +typedef struct { + u8 filler0, filler1, h_reg, l_reg; +} I8_reg_t; + +#else /* !__BIG_ENDIAN__ */ + +typedef struct { + u32 e_reg; +} I32_reg_t; + +typedef struct { + u16 x_reg; +} I16_reg_t; + +typedef struct { + u8 l_reg, h_reg; +} I8_reg_t; + +#endif /* BIG_ENDIAN */ + +typedef union { + I32_reg_t I32_reg; + I16_reg_t I16_reg; + I8_reg_t I8_reg; +} i386_general_register; + +struct i386_general_regs { + i386_general_register A, B, C, D; +}; + +typedef struct i386_general_regs Gen_reg_t; + +struct i386_special_regs { + i386_general_register SP, BP, SI, DI, IP; + u32 FLAGS; +}; + +/* + * Segment registers here represent the 16 bit quantities + * CS, DS, ES, SS. + */ + +#undef CS +#undef DS +#undef SS +#undef ES +#undef FS +#undef GS + +struct i386_segment_regs { + u16 CS, DS, SS, ES, FS, GS; +}; + +/* 8 bit registers */ +#define R_AH gen.A.I8_reg.h_reg +#define R_AL gen.A.I8_reg.l_reg +#define R_BH gen.B.I8_reg.h_reg +#define R_BL gen.B.I8_reg.l_reg +#define R_CH gen.C.I8_reg.h_reg +#define R_CL gen.C.I8_reg.l_reg +#define R_DH gen.D.I8_reg.h_reg +#define R_DL gen.D.I8_reg.l_reg + +/* 16 bit registers */ +#define R_AX gen.A.I16_reg.x_reg +#define R_BX gen.B.I16_reg.x_reg +#define R_CX gen.C.I16_reg.x_reg +#define R_DX gen.D.I16_reg.x_reg + +/* 32 bit extended registers */ +#define R_EAX gen.A.I32_reg.e_reg +#define R_EBX gen.B.I32_reg.e_reg +#define R_ECX gen.C.I32_reg.e_reg +#define R_EDX gen.D.I32_reg.e_reg + +/* special registers */ +#define R_SP spc.SP.I16_reg.x_reg +#define R_BP spc.BP.I16_reg.x_reg +#define R_SI spc.SI.I16_reg.x_reg +#define R_DI spc.DI.I16_reg.x_reg +#define R_IP spc.IP.I16_reg.x_reg +#define R_FLG spc.FLAGS + +/* special registers */ +#define R_SP spc.SP.I16_reg.x_reg +#define R_BP spc.BP.I16_reg.x_reg +#define R_SI spc.SI.I16_reg.x_reg +#define R_DI spc.DI.I16_reg.x_reg +#define R_IP spc.IP.I16_reg.x_reg +#define R_FLG spc.FLAGS + +/* special registers */ +#define R_ESP spc.SP.I32_reg.e_reg +#define R_EBP spc.BP.I32_reg.e_reg +#define R_ESI spc.SI.I32_reg.e_reg +#define R_EDI spc.DI.I32_reg.e_reg +#define R_EIP spc.IP.I32_reg.e_reg +#define R_EFLG spc.FLAGS + +/* segment registers */ +#define R_CS seg.CS +#define R_DS seg.DS +#define R_SS seg.SS +#define R_ES seg.ES +#define R_FS seg.FS +#define R_GS seg.GS + +/* flag conditions */ +#define FB_CF 0x0001 /* CARRY flag */ +#define FB_PF 0x0004 /* PARITY flag */ +#define FB_AF 0x0010 /* AUX flag */ +#define FB_ZF 0x0040 /* ZERO flag */ +#define FB_SF 0x0080 /* SIGN flag */ +#define FB_TF 0x0100 /* TRAP flag */ +#define FB_IF 0x0200 /* INTERRUPT ENABLE flag */ +#define FB_DF 0x0400 /* DIR flag */ +#define FB_OF 0x0800 /* OVERFLOW flag */ + +/* 80286 and above always have bit#1 set */ +#define F_ALWAYS_ON (0x0002) /* flag bits always on */ + +/* + * Define a mask for only those flag bits we will ever pass back + * (via PUSHF) + */ +#define F_MSK (FB_CF|FB_PF|FB_AF|FB_ZF|FB_SF|FB_TF|FB_IF|FB_DF|FB_OF) + +/* following bits masked in to a 16bit quantity */ + +#define F_CF 0x0001 /* CARRY flag */ +#define F_PF 0x0004 /* PARITY flag */ +#define F_AF 0x0010 /* AUX flag */ +#define F_ZF 0x0040 /* ZERO flag */ +#define F_SF 0x0080 /* SIGN flag */ +#define F_TF 0x0100 /* TRAP flag */ +#define F_IF 0x0200 /* INTERRUPT ENABLE flag */ +#define F_DF 0x0400 /* DIR flag */ +#define F_OF 0x0800 /* OVERFLOW flag */ + +#define TOGGLE_FLAG(flag) (M.x86.R_FLG ^= (flag)) +#define SET_FLAG(flag) (M.x86.R_FLG |= (flag)) +#define CLEAR_FLAG(flag) (M.x86.R_FLG &= ~(flag)) +#define ACCESS_FLAG(flag) (M.x86.R_FLG & (flag)) +#define CLEARALL_FLAG(m) (M.x86.R_FLG = 0) + +#define CONDITIONAL_SET_FLAG(COND,FLAG) \ + if (COND) SET_FLAG(FLAG); else CLEAR_FLAG(FLAG) + +#define F_PF_CALC 0x010000 /* PARITY flag has been calced */ +#define F_ZF_CALC 0x020000 /* ZERO flag has been calced */ +#define F_SF_CALC 0x040000 /* SIGN flag has been calced */ + +#define F_ALL_CALC 0xff0000 /* All have been calced */ + +/* + * Emulator machine state. + * Segment usage control. + */ +#define SYSMODE_SEG_DS_SS 0x00000001 +#define SYSMODE_SEGOVR_CS 0x00000002 +#define SYSMODE_SEGOVR_DS 0x00000004 +#define SYSMODE_SEGOVR_ES 0x00000008 +#define SYSMODE_SEGOVR_FS 0x00000010 +#define SYSMODE_SEGOVR_GS 0x00000020 +#define SYSMODE_SEGOVR_SS 0x00000040 +#define SYSMODE_PREFIX_REPE 0x00000080 +#define SYSMODE_PREFIX_REPNE 0x00000100 +#define SYSMODE_PREFIX_DATA 0x00000200 +#define SYSMODE_PREFIX_ADDR 0x00000400 +#define SYSMODE_INTR_PENDING 0x10000000 +#define SYSMODE_EXTRN_INTR 0x20000000 +#define SYSMODE_HALTED 0x40000000 + +#define SYSMODE_SEGMASK (SYSMODE_SEG_DS_SS | \ + SYSMODE_SEGOVR_CS | \ + SYSMODE_SEGOVR_DS | \ + SYSMODE_SEGOVR_ES | \ + SYSMODE_SEGOVR_FS | \ + SYSMODE_SEGOVR_GS | \ + SYSMODE_SEGOVR_SS) +#define SYSMODE_CLRMASK (SYSMODE_SEG_DS_SS | \ + SYSMODE_SEGOVR_CS | \ + SYSMODE_SEGOVR_DS | \ + SYSMODE_SEGOVR_ES | \ + SYSMODE_SEGOVR_FS | \ + SYSMODE_SEGOVR_GS | \ + SYSMODE_SEGOVR_SS | \ + SYSMODE_PREFIX_DATA | \ + SYSMODE_PREFIX_ADDR) + +#define INTR_SYNCH 0x1 +#define INTR_ASYNCH 0x2 +#define INTR_HALTED 0x4 + +typedef struct { + struct i386_general_regs gen; + struct i386_special_regs spc; + struct i386_segment_regs seg; + /* + * MODE contains information on: + * REPE prefix 2 bits repe,repne + * SEGMENT overrides 5 bits normal,DS,SS,CS,ES + * Delayed flag set 3 bits (zero, signed, parity) + * reserved 6 bits + * interrupt # 8 bits instruction raised interrupt + * BIOS video segregs 4 bits + * Interrupt Pending 1 bits + * Extern interrupt 1 bits + * Halted 1 bits + */ + long mode; + u8 intno; + volatile int intr; /* mask of pending interrupts */ + int debug; +#ifdef DEBUG + int check; + u16 saved_ip; + u16 saved_cs; + int enc_pos; + int enc_str_pos; + char decode_buf[32]; /* encoded byte stream */ + char decoded_buf[256]; /* disassembled strings */ +#endif +} X86EMU_regs; + +/**************************************************************************** +REMARKS: +Structure maintaining the emulator machine state. + +MEMBERS: +x86 - X86 registers +mem_base - Base real mode memory for the emulator +mem_size - Size of the real mode memory block for the emulator +****************************************************************************/ +#undef x86 +typedef struct { + X86EMU_regs x86; + u8 *mem_base; + u32 mem_size; + void *private; +} X86EMU_sysEnv; + +#pragma pack() + +/*----------------------------- Global Variables --------------------------*/ + +#ifdef __cplusplus +extern "C" { /* Use "C" linkage when in C++ mode */ +#endif + +/* Global emulator machine state. + * + * We keep it global to avoid pointer dereferences in the code for speed. + */ + + extern X86EMU_sysEnv _X86EMU_env; +#define M _X86EMU_env + +/*-------------------------- Function Prototypes --------------------------*/ + +/* Function to log information at runtime */ + +#ifndef __KERNEL__ + void printk(const char *fmt, ...); +#endif + +#ifdef __cplusplus +} /* End of "C" linkage for C++ */ +#endif +#endif /* __X86EMU_REGS_H */ diff --git a/drivers/bios_emulator/include/x86emu/x86emui.h b/drivers/bios_emulator/include/x86emu/x86emui.h new file mode 100644 index 0000000..a74957d --- /dev/null +++ b/drivers/bios_emulator/include/x86emu/x86emui.h @@ -0,0 +1,101 @@ +/**************************************************************************** +* +* Realmode X86 Emulator Library +* +* Copyright (C) 1991-2004 SciTech Software, Inc. +* Copyright (C) David Mosberger-Tang +* Copyright (C) 1999 Egbert Eich +* +* ======================================================================== +* +* Permission to use, copy, modify, distribute, and sell this software and +* its documentation for any purpose is hereby granted without fee, +* provided that the above copyright notice appear in all copies and that +* both that copyright notice and this permission notice appear in +* supporting documentation, and that the name of the authors not be used +* in advertising or publicity pertaining to distribution of the software +* without specific, written prior permission. The authors makes no +* representations about the suitability of this software for any purpose. +* It is provided "as is" without express or implied warranty. +* +* THE AUTHORS DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, +* INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO +* EVENT SHALL THE AUTHORS BE LIABLE FOR ANY SPECIAL, INDIRECT OR +* CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF +* USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR +* OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR +* PERFORMANCE OF THIS SOFTWARE. +* +* ======================================================================== +* +* Language: ANSI C +* Environment: Any +* Developer: Kendall Bennett +* +* Description: Header file for system specific functions. These functions +* are always compiled and linked in the OS depedent libraries, +* and never in a binary portable driver. +* +****************************************************************************/ + +#ifndef __X86EMU_X86EMUI_H +#define __X86EMU_X86EMUI_H + +/* If we are compiling in C++ mode, we can compile some functions as + * inline to increase performance (however the code size increases quite + * dramatically in this case). + */ + +#if defined(__cplusplus) && !defined(_NO_INLINE) +#define _INLINE inline +#else +#define _INLINE static +#endif + +/* Get rid of unused parameters in C++ compilation mode */ + +#ifdef __cplusplus +#define X86EMU_UNUSED(v) +#else +#define X86EMU_UNUSED(v) v +#endif + +#include "x86emu.h" +#include "x86emu/regs.h" +#include "x86emu/debug.h" +#include "x86emu/decode.h" +#include "x86emu/ops.h" +#include "x86emu/prim_ops.h" +#ifndef __KERNEL__ +#include <stdio.h> +#include <stdlib.h> +#include <string.h> +#endif + +#define printk printf + + +/*--------------------------- Inline Functions ----------------------------*/ + +#ifdef __cplusplus +extern "C" { /* Use "C" linkage when in C++ mode */ +#endif + + extern u8(X86APIP sys_rdb) (u32 addr); + extern u16(X86APIP sys_rdw) (u32 addr); + extern u32(X86APIP sys_rdl) (u32 addr); + extern void (X86APIP sys_wrb) (u32 addr, u8 val); + extern void (X86APIP sys_wrw) (u32 addr, u16 val); + extern void (X86APIP sys_wrl) (u32 addr, u32 val); + + extern u8(X86APIP sys_inb) (X86EMU_pioAddr addr); + extern u16(X86APIP sys_inw) (X86EMU_pioAddr addr); + extern u32(X86APIP sys_inl) (X86EMU_pioAddr addr); + extern void (X86APIP sys_outb) (X86EMU_pioAddr addr, u8 val); + extern void (X86APIP sys_outw) (X86EMU_pioAddr addr, u16 val); + extern void (X86APIP sys_outl) (X86EMU_pioAddr addr, u32 val); + +#ifdef __cplusplus +} /* End of "C" linkage for C++ */ +#endif +#endif /* __X86EMU_X86EMUI_H */ diff --git a/drivers/bios_emulator/x86emu/debug.c b/drivers/bios_emulator/x86emu/debug.c new file mode 100644 index 0000000..915739c --- /dev/null +++ b/drivers/bios_emulator/x86emu/debug.c @@ -0,0 +1,465 @@ +/**************************************************************************** +* +* Realmode X86 Emulator Library +* +* Copyright (C) 1991-2004 SciTech Software, Inc. +* Copyright (C) David Mosberger-Tang +* Copyright (C) 1999 Egbert Eich +* +* ======================================================================== +* +* Permission to use, copy, modify, distribute, and sell this software and +* its documentation for any purpose is hereby granted without fee, +* provided that the above copyright notice appear in all copies and that +* both that copyright notice and this permission notice appear in +* supporting documentation, and that the name of the authors not be used +* in advertising or publicity pertaining to distribution of the software +* without specific, written prior permission. The authors makes no +* representations about the suitability of this software for any purpose. +* It is provided "as is" without express or implied warranty. +* +* THE AUTHORS DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, +* INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO +* EVENT SHALL THE AUTHORS BE LIABLE FOR ANY SPECIAL, INDIRECT OR +* CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF +* USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR +* OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR +* PERFORMANCE OF THIS SOFTWARE. +* +* ======================================================================== +* +* Language: ANSI C +* Environment: Any +* Developer: Kendall Bennett +* +* Description: This file contains the code to handle debugging of the +* emulator. +* +****************************************************************************/ + +#include "x86emu/x86emui.h" +#include <stdarg.h> + +#if defined(CONFIG_BIOSEMU) + +/*----------------------------- Implementation ----------------------------*/ + +#ifdef DEBUG + +static void print_encoded_bytes(u16 s, u16 o); +static void print_decoded_instruction(void); +static int parse_line(char *s, int *ps, int *n); + +/* should look something like debug's output. */ +void X86EMU_trace_regs(void) +{ + if (DEBUG_TRACE()) { + x86emu_dump_regs(); + } + if (DEBUG_DECODE() && !DEBUG_DECODE_NOPRINT()) { + printk("%04x:%04x ", M.x86.saved_cs, M.x86.saved_ip); + print_encoded_bytes(M.x86.saved_cs, M.x86.saved_ip); + print_decoded_instruction(); + } +} + +void X86EMU_trace_xregs(void) +{ + if (DEBUG_TRACE()) { + x86emu_dump_xregs(); + } +} + +void x86emu_just_disassemble(void) +{ + /* + * This routine called if the flag DEBUG_DISASSEMBLE is set kind + * of a hack! + */ + printk("%04x:%04x ", M.x86.saved_cs, M.x86.saved_ip); + print_encoded_bytes(M.x86.saved_cs, M.x86.saved_ip); + print_decoded_instruction(); +} + +static void disassemble_forward(u16 seg, u16 off, int n) +{ + X86EMU_sysEnv tregs; + int i; + u8 op1; + /* + * hack, hack, hack. What we do is use the exact machinery set up + * for execution, except that now there is an additional state + * flag associated with the "execution", and we are using a copy + * of the register struct. All the major opcodes, once fully + * decoded, have the following two steps: TRACE_REGS(r,m); + * SINGLE_STEP(r,m); which disappear if DEBUG is not defined to + * the preprocessor. The TRACE_REGS macro expands to: + * + * if (debug&DEBUG_DISASSEMBLE) + * {just_disassemble(); goto EndOfInstruction;} + * if (debug&DEBUG_TRACE) trace_regs(r,m); + * + * ...... and at the last line of the routine. + * + * EndOfInstruction: end_instr(); + * + * Up to the point where TRACE_REG is expanded, NO modifications + * are done to any register EXCEPT the IP register, for fetch and + * decoding purposes. + * + * This was done for an entirely different reason, but makes a + * nice way to get the system to help debug codes. + */ + tregs = M; + tregs.x86.R_IP = off; + tregs.x86.R_CS = seg; + + /* reset the decoding buffers */ + tregs.x86.enc_str_pos = 0; + tregs.x86.enc_pos = 0; + + /* turn on the "disassemble only, no execute" flag */ + tregs.x86.debug |= DEBUG_DISASSEMBLE_F; + + /* DUMP NEXT n instructions to screen in straight_line fashion */ + /* + * This looks like the regular instruction fetch stream, except + * that when this occurs, each fetched opcode, upon seeing the + * DEBUG_DISASSEMBLE flag set, exits immediately after decoding + * the instruction. XXX --- CHECK THAT MEM IS NOT AFFECTED!!! + * Note the use of a copy of the register structure... + */ + for (i = 0; i < n; i++) { + op1 = (*sys_rdb) (((u32) M.x86.R_CS << 4) + (M.x86.R_IP++)); + (x86emu_optab[op1]) (op1); + } + /* end major hack mode. */ +} + +void x86emu_check_ip_access(void) +{ + /* NULL as of now */ +} + +void x86emu_check_sp_access(void) +{ +} + +void x86emu_check_mem_access(u32 dummy) +{ + /* check bounds, etc */ +} + +void x86emu_check_data_access(uint dummy1, uint dummy2) +{ + /* check bounds, etc */ +} + +void x86emu_inc_decoded_inst_len(int x) +{ + M.x86.enc_pos += x; +} + +void x86emu_decode_printf(char *x) +{ + sprintf(M.x86.decoded_buf + M.x86.enc_str_pos, "%s", x); + M.x86.enc_str_pos += strlen(x); +} + +void x86emu_decode_printf2(char *x, int y) +{ + char temp[100]; + sprintf(temp, x, y); + sprintf(M.x86.decoded_buf + M.x86.enc_str_pos, "%s", temp); + M.x86.enc_str_pos += strlen(temp); +} + +void x86emu_end_instr(void) +{ + M.x86.enc_str_pos = 0; + M.x86.enc_pos = 0; +} + +static void print_encoded_bytes(u16 s, u16 o) +{ + int i; + char buf1[64]; + for (i = 0; i < M.x86.enc_pos; i++) { + sprintf(buf1 + 2 * i, "%02x", fetch_data_byte_abs(s, o + i)); + } + printk("%-20s", buf1); +} + +static void print_decoded_instruction(void) +{ + printk("%s", M.x86.decoded_buf); +} + +void x86emu_print_int_vect(u16 iv) +{ + u16 seg, off; + + if (iv > 256) + return; + seg = fetch_data_word_abs(0, iv * 4); + off = fetch_data_word_abs(0, iv * 4 + 2); + printk("%04x:%04x ", seg, off); +} + +void X86EMU_dump_memory(u16 seg, u16 off, u32 amt) +{ + u32 start = off & 0xfffffff0; + u32 end = (off + 16) & 0xfffffff0; + u32 i; + u32 current; + + current = start; + while (end <= off + amt) { + printk("%04x:%04x ", seg, start); + for (i = start; i < off; i++) + printk(" "); + for (; i < end; i++) + printk("%02x ", fetch_data_byte_abs(seg, i)); + printk("\n"); + start = end; + end = start + 16; + } +} + +void x86emu_single_step(void) +{ + char s[1024]; + int ps[10]; + int ntok; + int cmd; + int done; + int segment; + int offset; + static int breakpoint; + static int noDecode = 1; + + char *p; + + if (DEBUG_BREAK()) { + if (M.x86.saved_ip != breakpoint) { + return; + } else { + M.x86.debug &= ~DEBUG_DECODE_NOPRINT_F; + M.x86.debug |= DEBUG_TRACE_F; + M.x86.debug &= ~DEBUG_BREAK_F; + print_decoded_instruction(); + X86EMU_trace_regs(); + } + } + done = 0; + offset = M.x86.saved_ip; + while (!done) { + printk("-"); + cmd = parse_line(s, ps, &ntok); + switch (cmd) { + case 'u': + disassemble_forward(M.x86.saved_cs, (u16) offset, 10); + break; + case 'd': + if (ntok == 2) { + segment = M.x86.saved_cs; + offset = ps[1]; + X86EMU_dump_memory(segment, (u16) offset, 16); + offset += 16; + } else if (ntok == 3) { + segment = ps[1]; + offset = ps[2]; + X86EMU_dump_memory(segment, (u16) offset, 16); + offset += 16; + } else { + segment = M.x86.saved_cs; + X86EMU_dump_memory(segment, (u16) offset, 16); + offset += 16; + } + break; + case 'c': + M.x86.debug ^= DEBUG_TRACECALL_F; + break; + case 's': + M.x86.debug ^= + DEBUG_SVC_F | DEBUG_SYS_F | DEBUG_SYSINT_F; + break; + case 'r': + X86EMU_trace_regs(); + break; + case 'x': + X86EMU_trace_xregs(); + break; + case 'g': + if (ntok == 2) { + breakpoint = ps[1]; + if (noDecode) { + M.x86.debug |= DEBUG_DECODE_NOPRINT_F; + } else { + M.x86.debug &= ~DEBUG_DECODE_NOPRINT_F; + } + M.x86.debug &= ~DEBUG_TRACE_F; + M.x86.debug |= DEBUG_BREAK_F; + done = 1; + } + break; + case 'q': + M.x86.debug |= DEBUG_EXIT; + return; + case 'P': + noDecode = (noDecode) ? 0 : 1; + printk("Toggled decoding to %s\n", + (noDecode) ? "FALSE" : "TRUE"); + break; + case 't': + case 0: + done = 1; + break; + } + } +} + +int X86EMU_trace_on(void) +{ + return M.x86.debug |= DEBUG_STEP_F | DEBUG_DECODE_F | DEBUG_TRACE_F; +} + +int X86EMU_trace_off(void) +{ + return M.x86.debug &= ~(DEBUG_STEP_F | DEBUG_DECODE_F | DEBUG_TRACE_F); +} + +static int parse_line(char *s, int *ps, int *n) +{ + int cmd; + + *n = 0; + while (*s == ' ' || *s == '\t') + s++; + ps[*n] = *s; + switch (*s) { + case '\n': + *n += 1; + return 0; + default: + cmd = *s; + *n += 1; + } + + while (1) { + while (*s != ' ' && *s != '\t' && *s != '\n') + s++; + + if (*s == '\n') + return cmd; + + while (*s == ' ' || *s == '\t') + s++; + + *n += 1; + } +} + +#endif /* DEBUG */ + +void x86emu_dump_regs(void) +{ + printk("\tAX=%04x ", M.x86.R_AX); + printk("BX=%04x ", M.x86.R_BX); + printk("CX=%04x ", M.x86.R_CX); + printk("DX=%04x ", M.x86.R_DX); + printk("SP=%04x ", M.x86.R_SP); + printk("BP=%04x ", M.x86.R_BP); + printk("SI=%04x ", M.x86.R_SI); + printk("DI=%04x\n", M.x86.R_DI); + printk("\tDS=%04x ", M.x86.R_DS); + printk("ES=%04x ", M.x86.R_ES); + printk("SS=%04x ", M.x86.R_SS); + printk("CS=%04x ", M.x86.R_CS); + printk("IP=%04x ", M.x86.R_IP); + if (ACCESS_FLAG(F_OF)) + printk("OV "); /* CHECKED... */ + else + printk("NV "); + if (ACCESS_FLAG(F_DF)) + printk("DN "); + else + printk("UP "); + if (ACCESS_FLAG(F_IF)) + printk("EI "); + else + printk("DI "); + if (ACCESS_FLAG(F_SF)) + printk("NG "); + else + printk("PL "); + if (ACCESS_FLAG(F_ZF)) + printk("ZR "); + else + printk("NZ "); + if (ACCESS_FLAG(F_AF)) + printk("AC "); + else + printk("NA "); + if (ACCESS_FLAG(F_PF)) + printk("PE "); + else + printk("PO "); + if (ACCESS_FLAG(F_CF)) + printk("CY "); + else + printk("NC "); + printk("\n"); +} + +void x86emu_dump_xregs(void) +{ + printk("\tEAX=%08x ", M.x86.R_EAX); + printk("EBX=%08x ", M.x86.R_EBX); + printk("ECX=%08x ", M.x86.R_ECX); + printk("EDX=%08x \n", M.x86.R_EDX); + printk("\tESP=%08x ", M.x86.R_ESP); + printk("EBP=%08x ", M.x86.R_EBP); + printk("ESI=%08x ", M.x86.R_ESI); + printk("EDI=%08x\n", M.x86.R_EDI); + printk("\tDS=%04x ", M.x86.R_DS); + printk("ES=%04x ", M.x86.R_ES); + printk("SS=%04x ", M.x86.R_SS); + printk("CS=%04x ", M.x86.R_CS); + printk("EIP=%08x\n\t", M.x86.R_EIP); + if (ACCESS_FLAG(F_OF)) + printk("OV "); /* CHECKED... */ + else + printk("NV "); + if (ACCESS_FLAG(F_DF)) + printk("DN "); + else + printk("UP "); + if (ACCESS_FLAG(F_IF)) + printk("EI "); + else + printk("DI "); + if (ACCESS_FLAG(F_SF)) + printk("NG "); + else + printk("PL "); + if (ACCESS_FLAG(F_ZF)) + printk("ZR "); + else + printk("NZ "); + if (ACCESS_FLAG(F_AF)) + printk("AC "); + else + printk("NA "); + if (ACCESS_FLAG(F_PF)) + printk("PE "); + else + printk("PO "); + if (ACCESS_FLAG(F_CF)) + printk("CY "); + else + printk("NC "); + printk("\n"); +} + +#endif diff --git a/drivers/bios_emulator/x86emu/decode.c b/drivers/bios_emulator/x86emu/decode.c new file mode 100644 index 0000000..879f0a0 --- /dev/null +++ b/drivers/bios_emulator/x86emu/decode.c @@ -0,0 +1,1148 @@ +/**************************************************************************** +* +* Realmode X86 Emulator Library +* +* Copyright (C) 1991-2004 SciTech Software, Inc. +* Copyright (C) David Mosberger-Tang +* Copyright (C) 1999 Egbert Eich +* +* ======================================================================== +* +* Permission to use, copy, modify, distribute, and sell this software and +* its documentation for any purpose is hereby granted without fee, +* provided that the above copyright notice appear in all copies and that +* both that copyright notice and this permission notice appear in +* supporting documentation, and that the name of the authors not be used +* in advertising or publicity pertaining to distribution of the software +* without specific, written prior permission. The authors makes no +* representations about the suitability of this software for any purpose. +* It is provided "as is" without express or implied warranty. +* +* THE AUTHORS DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, +* INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO +* EVENT SHALL THE AUTHORS BE LIABLE FOR ANY SPECIAL, INDIRECT OR +* CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF +* USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR +* OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR +* PERFORMANCE OF THIS SOFTWARE. +* +* ======================================================================== +* +* Language: ANSI C +* Environment: Any +* Developer: Kendall Bennett +* +* Description: This file includes subroutines which are related to +* instruction decoding and accessess of immediate data via IP. etc. +* +****************************************************************************/ + +#include "x86emu/x86emui.h" + +#if defined(CONFIG_BIOSEMU) + +/*----------------------------- Implementation ----------------------------*/ + +/**************************************************************************** +REMARKS: +Handles any pending asychronous interrupts. +****************************************************************************/ +static void x86emu_intr_handle(void) +{ + u8 intno; + + if (M.x86.intr & INTR_SYNCH) { + intno = M.x86.intno; + if (_X86EMU_intrTab[intno]) { + (*_X86EMU_intrTab[intno])(intno); + } else { + push_word((u16)M.x86.R_FLG); + CLEAR_FLAG(F_IF); + CLEAR_FLAG(F_TF); + push_word(M.x86.R_CS); + M.x86.R_CS = mem_access_word(intno * 4 + 2); + push_word(M.x86.R_IP); + M.x86.R_IP = mem_access_word(intno * 4); + M.x86.intr = 0; + } + } +} + +/**************************************************************************** +PARAMETERS: +intrnum - Interrupt number to raise + +REMARKS: +Raise the specified interrupt to be handled before the execution of the +next instruction. +****************************************************************************/ +void x86emu_intr_raise( + u8 intrnum) +{ + M.x86.intno = intrnum; + M.x86.intr |= INTR_SYNCH; +} + +/**************************************************************************** +REMARKS: +Main execution loop for the emulator. We return from here when the system +halts, which is normally caused by a stack fault when we return from the +original real mode call. +****************************************************************************/ +void X86EMU_exec(void) +{ + u8 op1; + + M.x86.intr = 0; + DB(x86emu_end_instr();) + + for (;;) { +DB( if (CHECK_IP_FETCH()) + x86emu_check_ip_access();) + /* If debugging, save the IP and CS values. */ + SAVE_IP_CS(M.x86.R_CS, M.x86.R_IP); + INC_DECODED_INST_LEN(1); + if (M.x86.intr) { + if (M.x86.intr & INTR_HALTED) { +DB( if (M.x86.R_SP != 0) { + printk("halted\n"); + X86EMU_trace_regs(); + } + else { + if (M.x86.debug) + printk("Service completed successfully\n"); + }) + return; + } + if (((M.x86.intr & INTR_SYNCH) && (M.x86.intno == 0 || M.x86.intno == 2)) || + !ACCESS_FLAG(F_IF)) { + x86emu_intr_handle(); + } + } + op1 = (*sys_rdb)(((u32)M.x86.R_CS << 4) + (M.x86.R_IP++)); + (*x86emu_optab[op1])(op1); + if (M.x86.debug & DEBUG_EXIT) { + M.x86.debug &= ~DEBUG_EXIT; + return; + } + } +} + +/**************************************************************************** +REMARKS: +Halts the system by setting the halted system flag. +****************************************************************************/ +void X86EMU_halt_sys(void) +{ + M.x86.intr |= INTR_HALTED; +} + +/**************************************************************************** +PARAMETERS: +mod - Mod value from decoded byte +regh - Reg h value from decoded byte +regl - Reg l value from decoded byte + +REMARKS: +Raise the specified interrupt to be handled before the execution of the +next instruction. + +NOTE: Do not inline this function, as (*sys_rdb) is already inline! +****************************************************************************/ +void fetch_decode_modrm( + int *mod, + int *regh, + int *regl) +{ + int fetched; + +DB( if (CHECK_IP_FETCH()) + x86emu_check_ip_access();) + fetched = (*sys_rdb)(((u32)M.x86.R_CS << 4) + (M.x86.R_IP++)); + INC_DECODED_INST_LEN(1); + *mod = (fetched >> 6) & 0x03; + *regh = (fetched >> 3) & 0x07; + *regl = (fetched >> 0) & 0x07; +} + +/**************************************************************************** +RETURNS: +Immediate byte value read from instruction queue + +REMARKS: +This function returns the immediate byte from the instruction queue, and +moves the instruction pointer to the next value. + +NOTE: Do not inline this function, as (*sys_rdb) is already inline! +****************************************************************************/ +u8 fetch_byte_imm(void) +{ + u8 fetched; + +DB( if (CHECK_IP_FETCH()) + x86emu_check_ip_access();) + fetched = (*sys_rdb)(((u32)M.x86.R_CS << 4) + (M.x86.R_IP++)); + INC_DECODED_INST_LEN(1); + return fetched; +} + +/**************************************************************************** +RETURNS: +Immediate word value read from instruction queue + +REMARKS: +This function returns the immediate byte from the instruction queue, and +moves the instruction pointer to the next value. + +NOTE: Do not inline this function, as (*sys_rdw) is already inline! +****************************************************************************/ +u16 fetch_word_imm(void) +{ + u16 fetched; + +DB( if (CHECK_IP_FETCH()) + x86emu_check_ip_access();) + fetched = (*sys_rdw)(((u32)M.x86.R_CS << 4) + (M.x86.R_IP)); + M.x86.R_IP += 2; + INC_DECODED_INST_LEN(2); + return fetched; +} + +/**************************************************************************** +RETURNS: +Immediate lone value read from instruction queue + +REMARKS: +This function returns the immediate byte from the instruction queue, and +moves the instruction pointer to the next value. + +NOTE: Do not inline this function, as (*sys_rdw) is already inline! +****************************************************************************/ +u32 fetch_long_imm(void) +{ + u32 fetched; + +DB( if (CHECK_IP_FETCH()) + x86emu_check_ip_access();) + fetched = (*sys_rdl)(((u32)M.x86.R_CS << 4) + (M.x86.R_IP)); + M.x86.R_IP += 4; + INC_DECODED_INST_LEN(4); + return fetched; +} + +/**************************************************************************** +RETURNS: +Value of the default data segment + +REMARKS: +Inline function that returns the default data segment for the current +instruction. + +On the x86 processor, the default segment is not always DS if there is +no segment override. Address modes such as -3[BP] or 10[BP+SI] all refer to +addresses relative to SS (ie: on the stack). So, at the minimum, all +decodings of addressing modes would have to set/clear a bit describing +whether the access is relative to DS or SS. That is the function of the +cpu-state-varible M.x86.mode. There are several potential states: + + repe prefix seen (handled elsewhere) + repne prefix seen (ditto) + + cs segment override + ds segment override + es segment override + fs segment override + gs segment override + ss segment override + + ds/ss select (in absense of override) + +Each of the above 7 items are handled with a bit in the mode field. +****************************************************************************/ +_INLINE u32 get_data_segment(void) +{ +#define GET_SEGMENT(segment) + switch (M.x86.mode & SYSMODE_SEGMASK) { + case 0: /* default case: use ds register */ + case SYSMODE_SEGOVR_DS: + case SYSMODE_SEGOVR_DS | SYSMODE_SEG_DS_SS: + return M.x86.R_DS; + case SYSMODE_SEG_DS_SS: /* non-overridden, use ss register */ + return M.x86.R_SS; + case SYSMODE_SEGOVR_CS: + case SYSMODE_SEGOVR_CS | SYSMODE_SEG_DS_SS: + return M.x86.R_CS; + case SYSMODE_SEGOVR_ES: + case SYSMODE_SEGOVR_ES | SYSMODE_SEG_DS_SS: + return M.x86.R_ES; + case SYSMODE_SEGOVR_FS: + case SYSMODE_SEGOVR_FS | SYSMODE_SEG_DS_SS: + return M.x86.R_FS; + case SYSMODE_SEGOVR_GS: + case SYSMODE_SEGOVR_GS | SYSMODE_SEG_DS_SS: + return M.x86.R_GS; + case SYSMODE_SEGOVR_SS: + case SYSMODE_SEGOVR_SS | SYSMODE_SEG_DS_SS: + return M.x86.R_SS; + default: +#ifdef DEBUG + printk("error: should not happen: multiple overrides.\n"); +#endif + HALT_SYS(); + return 0; + } +} + +/**************************************************************************** +PARAMETERS: +offset - Offset to load data from + +RETURNS: +Byte value read from the absolute memory location. + +NOTE: Do not inline this function as (*sys_rdX) is already inline! +****************************************************************************/ +u8 fetch_data_byte( + uint offset) +{ +#ifdef DEBUG + if (CHECK_DATA_ACCESS()) + x86emu_check_data_access((u16)get_data_segment(), offset); +#endif + return (*sys_rdb)((get_data_segment() << 4) + offset); +} + +/**************************************************************************** +PARAMETERS: +offset - Offset to load data from + +RETURNS: +Word value read from the absolute memory location. + +NOTE: Do not inline this function as (*sys_rdX) is already inline! +****************************************************************************/ +u16 fetch_data_word( + uint offset) +{ +#ifdef DEBUG + if (CHECK_DATA_ACCESS()) + x86emu_check_data_access((u16)get_data_segment(), offset); +#endif + return (*sys_rdw)((get_data_segment() << 4) + offset); +} + +/**************************************************************************** +PARAMETERS: +offset - Offset to load data from + +RETURNS: +Long value read from the absolute memory location. + +NOTE: Do not inline this function as (*sys_rdX) is already inline! +****************************************************************************/ +u32 fetch_data_long( + uint offset) +{ +#ifdef DEBUG + if (CHECK_DATA_ACCESS()) + x86emu_check_data_access((u16)get_data_segment(), offset); +#endif + return (*sys_rdl)((get_data_segment() << 4) + offset); +} + +/**************************************************************************** +PARAMETERS: +segment - Segment to load data from +offset - Offset to load data from + +RETURNS: +Byte value read from the absolute memory location. + +NOTE: Do not inline this function as (*sys_rdX) is already inline! +****************************************************************************/ +u8 fetch_data_byte_abs( + uint segment, + uint offset) +{ +#ifdef DEBUG + if (CHECK_DATA_ACCESS()) + x86emu_check_data_access(segment, offset); +#endif + return (*sys_rdb)(((u32)segment << 4) + offset); +} + +/**************************************************************************** +PARAMETERS: +segment - Segment to load data from +offset - Offset to load data from + +RETURNS: +Word value read from the absolute memory location. + +NOTE: Do not inline this function as (*sys_rdX) is already inline! +****************************************************************************/ +u16 fetch_data_word_abs( + uint segment, + uint offset) +{ +#ifdef DEBUG + if (CHECK_DATA_ACCESS()) + x86emu_check_data_access(segment, offset); +#endif + return (*sys_rdw)(((u32)segment << 4) + offset); +} + +/**************************************************************************** +PARAMETERS: +segment - Segment to load data from +offset - Offset to load data from + +RETURNS: +Long value read from the absolute memory location. + +NOTE: Do not inline this function as (*sys_rdX) is already inline! +****************************************************************************/ +u32 fetch_data_long_abs( + uint segment, + uint offset) +{ +#ifdef DEBUG + if (CHECK_DATA_ACCESS()) + x86emu_check_data_access(segment, offset); +#endif + return (*sys_rdl)(((u32)segment << 4) + offset); +} + +/**************************************************************************** +PARAMETERS: +offset - Offset to store data at +val - Value to store + +REMARKS: +Writes a word value to an segmented memory location. The segment used is +the current 'default' segment, which may have been overridden. + +NOTE: Do not inline this function as (*sys_wrX) is already inline! +****************************************************************************/ +void store_data_byte( + uint offset, + u8 val) +{ +#ifdef DEBUG + if (CHECK_DATA_ACCESS()) + x86emu_check_data_access((u16)get_data_segment(), offset); +#endif + (*sys_wrb)((get_data_segment() << 4) + offset, val); +} + +/**************************************************************************** +PARAMETERS: +offset - Offset to store data at +val - Value to store + +REMARKS: +Writes a word value to an segmented memory location. The segment used is +the current 'default' segment, which may have been overridden. + +NOTE: Do not inline this function as (*sys_wrX) is already inline! +****************************************************************************/ +void store_data_word( + uint offset, + u16 val) +{ +#ifdef DEBUG + if (CHECK_DATA_ACCESS()) + x86emu_check_data_access((u16)get_data_segment(), offset); +#endif + (*sys_wrw)((get_data_segment() << 4) + offset, val); +} + +/**************************************************************************** +PARAMETERS: +offset - Offset to store data at +val - Value to store + +REMARKS: +Writes a long value to an segmented memory location. The segment used is +the current 'default' segment, which may have been overridden. + +NOTE: Do not inline this function as (*sys_wrX) is already inline! +****************************************************************************/ +void store_data_long( + uint offset, + u32 val) +{ +#ifdef DEBUG + if (CHECK_DATA_ACCESS()) + x86emu_check_data_access((u16)get_data_segment(), offset); +#endif + (*sys_wrl)((get_data_segment() << 4) + offset, val); +} + +/**************************************************************************** +PARAMETERS: +segment - Segment to store data at +offset - Offset to store data at +val - Value to store + +REMARKS: +Writes a byte value to an absolute memory location. + +NOTE: Do not inline this function as (*sys_wrX) is already inline! +****************************************************************************/ +void store_data_byte_abs( + uint segment, + uint offset, + u8 val) +{ +#ifdef DEBUG + if (CHECK_DATA_ACCESS()) + x86emu_check_data_access(segment, offset); +#endif + (*sys_wrb)(((u32)segment << 4) + offset, val); +} + +/**************************************************************************** +PARAMETERS: +segment - Segment to store data at +offset - Offset to store data at +val - Value to store + +REMARKS: +Writes a word value to an absolute memory location. + +NOTE: Do not inline this function as (*sys_wrX) is already inline! +****************************************************************************/ +void store_data_word_abs( + uint segment, + uint offset, + u16 val) +{ +#ifdef DEBUG + if (CHECK_DATA_ACCESS()) + x86emu_check_data_access(segment, offset); +#endif + (*sys_wrw)(((u32)segment << 4) + offset, val); +} + +/**************************************************************************** +PARAMETERS: +segment - Segment to store data at +offset - Offset to store data at +val - Value to store + +REMARKS: +Writes a long value to an absolute memory location. + +NOTE: Do not inline this function as (*sys_wrX) is already inline! +****************************************************************************/ +void store_data_long_abs( + uint segment, + uint offset, + u32 val) +{ +#ifdef DEBUG + if (CHECK_DATA_ACCESS()) + x86emu_check_data_access(segment, offset); +#endif + (*sys_wrl)(((u32)segment << 4) + offset, val); +} + +/**************************************************************************** +PARAMETERS: +reg - Register to decode + +RETURNS: +Pointer to the appropriate register + +REMARKS: +Return a pointer to the register given by the R/RM field of the +modrm byte, for byte operands. Also enables the decoding of instructions. +****************************************************************************/ +u8* decode_rm_byte_register( + int reg) +{ + switch (reg) { + case 0: + DECODE_PRINTF("AL"); + return &M.x86.R_AL; + case 1: + DECODE_PRINTF("CL"); + return &M.x86.R_CL; + case 2: + DECODE_PRINTF("DL"); + return &M.x86.R_DL; + case 3: + DECODE_PRINTF("BL"); + return &M.x86.R_BL; + case 4: + DECODE_PRINTF("AH"); + return &M.x86.R_AH; + case 5: + DECODE_PRINTF("CH"); + return &M.x86.R_CH; + case 6: + DECODE_PRINTF("DH"); + return &M.x86.R_DH; + case 7: + DECODE_PRINTF("BH"); + return &M.x86.R_BH; + } + HALT_SYS(); + return NULL; /* NOT REACHED OR REACHED ON ERROR */ +} + +/**************************************************************************** +PARAMETERS: +reg - Register to decode + +RETURNS: +Pointer to the appropriate register + +REMARKS: +Return a pointer to the register given by the R/RM field of the +modrm byte, for word operands. Also enables the decoding of instructions. +****************************************************************************/ +u16* decode_rm_word_register( + int reg) +{ + switch (reg) { + case 0: + DECODE_PRINTF("AX"); + return &M.x86.R_AX; + case 1: + DECODE_PRINTF("CX"); + return &M.x86.R_CX; + case 2: + DECODE_PRINTF("DX"); + return &M.x86.R_DX; + case 3: + DECODE_PRINTF("BX"); + return &M.x86.R_BX; + case 4: + DECODE_PRINTF("SP"); + return &M.x86.R_SP; + case 5: + DECODE_PRINTF("BP"); + return &M.x86.R_BP; + case 6: + DECODE_PRINTF("SI"); + return &M.x86.R_SI; + case 7: + DECODE_PRINTF("DI"); + return &M.x86.R_DI; + } + HALT_SYS(); + return NULL; /* NOTREACHED OR REACHED ON ERROR */ +} + +/**************************************************************************** +PARAMETERS: +reg - Register to decode + +RETURNS: +Pointer to the appropriate register + +REMARKS: +Return a pointer to the register given by the R/RM field of the +modrm byte, for dword operands. Also enables the decoding of instructions. +****************************************************************************/ +u32* decode_rm_long_register( + int reg) +{ + switch (reg) { + case 0: + DECODE_PRINTF("EAX"); + return &M.x86.R_EAX; + case 1: + DECODE_PRINTF("ECX"); + return &M.x86.R_ECX; + case 2: + DECODE_PRINTF("EDX"); + return &M.x86.R_EDX; + case 3: + DECODE_PRINTF("EBX"); + return &M.x86.R_EBX; + case 4: + DECODE_PRINTF("ESP"); + return &M.x86.R_ESP; + case 5: + DECODE_PRINTF("EBP"); + return &M.x86.R_EBP; + case 6: + DECODE_PRINTF("ESI"); + return &M.x86.R_ESI; + case 7: + DECODE_PRINTF("EDI"); + return &M.x86.R_EDI; + } + HALT_SYS(); + return NULL; /* NOTREACHED OR REACHED ON ERROR */ +} + +/**************************************************************************** +PARAMETERS: +reg - Register to decode + +RETURNS: +Pointer to the appropriate register + +REMARKS: +Return a pointer to the register given by the R/RM field of the +modrm byte, for word operands, modified from above for the weirdo +special case of segreg operands. Also enables the decoding of instructions. +****************************************************************************/ +u16* decode_rm_seg_register( + int reg) +{ + switch (reg) { + case 0: + DECODE_PRINTF("ES"); + return &M.x86.R_ES; + case 1: + DECODE_PRINTF("CS"); + return &M.x86.R_CS; + case 2: + DECODE_PRINTF("SS"); + return &M.x86.R_SS; + case 3: + DECODE_PRINTF("DS"); + return &M.x86.R_DS; + case 4: + DECODE_PRINTF("FS"); + return &M.x86.R_FS; + case 5: + DECODE_PRINTF("GS"); + return &M.x86.R_GS; + case 6: + case 7: + DECODE_PRINTF("ILLEGAL SEGREG"); + break; + } + HALT_SYS(); + return NULL; /* NOT REACHED OR REACHED ON ERROR */ +} + +/**************************************************************************** +PARAMETERS: +scale - scale value of SIB byte +index - index value of SIB byte + +RETURNS: +Value of scale * index + +REMARKS: +Decodes scale/index of SIB byte and returns relevant offset part of +effective address. +****************************************************************************/ +unsigned decode_sib_si( + int scale, + int index) +{ + scale = 1 << scale; + if (scale > 1) { + DECODE_PRINTF2("[%d*", scale); + } else { + DECODE_PRINTF("["); + } + switch (index) { + case 0: + DECODE_PRINTF("EAX]"); + return M.x86.R_EAX * index; + case 1: + DECODE_PRINTF("ECX]"); + return M.x86.R_ECX * index; + case 2: + DECODE_PRINTF("EDX]"); + return M.x86.R_EDX * index; + case 3: + DECODE_PRINTF("EBX]"); + return M.x86.R_EBX * index; + case 4: + DECODE_PRINTF("0]"); + return 0; + case 5: + DECODE_PRINTF("EBP]"); + return M.x86.R_EBP * index; + case 6: + DECODE_PRINTF("ESI]"); + return M.x86.R_ESI * index; + case 7: + DECODE_PRINTF("EDI]"); + return M.x86.R_EDI * index; + } + HALT_SYS(); + return 0; /* NOT REACHED OR REACHED ON ERROR */ +} + +/**************************************************************************** +PARAMETERS: +mod - MOD value of preceding ModR/M byte + +RETURNS: +Offset in memory for the address decoding + +REMARKS: +Decodes SIB addressing byte and returns calculated effective address. +****************************************************************************/ +unsigned decode_sib_address( + int mod) +{ + int sib = fetch_byte_imm(); + int ss = (sib >> 6) & 0x03; + int index = (sib >> 3) & 0x07; + int base = sib & 0x07; + int offset = 0; + int displacement; + + switch (base) { + case 0: + DECODE_PRINTF("[EAX]"); + offset = M.x86.R_EAX; + break; + case 1: + DECODE_PRINTF("[ECX]"); + offset = M.x86.R_ECX; + break; + case 2: + DECODE_PRINTF("[EDX]"); + offset = M.x86.R_EDX; + break; + case 3: + DECODE_PRINTF("[EBX]"); + offset = M.x86.R_EBX; + break; + case 4: + DECODE_PRINTF("[ESP]"); + offset = M.x86.R_ESP; + break; + case 5: + switch (mod) { + case 0: + displacement = (s32)fetch_long_imm(); + DECODE_PRINTF2("[%d]", displacement); + offset = displacement; + break; + case 1: + displacement = (s8)fetch_byte_imm(); + DECODE_PRINTF2("[%d][EBP]", displacement); + offset = M.x86.R_EBP + displacement; + break; + case 2: + displacement = (s32)fetch_long_imm(); + DECODE_PRINTF2("[%d][EBP]", displacement); + offset = M.x86.R_EBP + displacement; + break; + default: + HALT_SYS(); + } + DECODE_PRINTF("[EAX]"); + offset = M.x86.R_EAX; + break; + case 6: + DECODE_PRINTF("[ESI]"); + offset = M.x86.R_ESI; + break; + case 7: + DECODE_PRINTF("[EDI]"); + offset = M.x86.R_EDI; + break; + default: + HALT_SYS(); + } + offset += decode_sib_si(ss, index); + return offset; + +} + +/**************************************************************************** +PARAMETERS: +rm - RM value to decode + +RETURNS: +Offset in memory for the address decoding + +REMARKS: +Return the offset given by mod=00 addressing. Also enables the +decoding of instructions. + +NOTE: The code which specifies the corresponding segment (ds vs ss) + below in the case of [BP+..]. The assumption here is that at the + point that this subroutine is called, the bit corresponding to + SYSMODE_SEG_DS_SS will be zero. After every instruction + except the segment override instructions, this bit (as well + as any bits indicating segment overrides) will be clear. So + if a SS access is needed, set this bit. Otherwise, DS access + occurs (unless any of the segment override bits are set). +****************************************************************************/ +unsigned decode_rm00_address( + int rm) +{ + unsigned offset; + + if (M.x86.mode & SYSMODE_PREFIX_ADDR) { + /* 32-bit addressing */ + switch (rm) { + case 0: + DECODE_PRINTF("[EAX]"); + return M.x86.R_EAX; + case 1: + DECODE_PRINTF("[ECX]"); + return M.x86.R_ECX; + case 2: + DECODE_PRINTF("[EDX]"); + return M.x86.R_EDX; + case 3: + DECODE_PRINTF("[EBX]"); + return M.x86.R_EBX; + case 4: + return decode_sib_address(0); + case 5: + offset = fetch_long_imm(); + DECODE_PRINTF2("[%08x]", offset); + return offset; + case 6: + DECODE_PRINTF("[ESI]"); + return M.x86.R_ESI; + case 7: + DECODE_PRINTF("[EDI]"); + return M.x86.R_EDI; + } + } else { + /* 16-bit addressing */ + switch (rm) { + case 0: + DECODE_PRINTF("[BX+SI]"); + return (M.x86.R_BX + M.x86.R_SI) & 0xffff; + case 1: + DECODE_PRINTF("[BX+DI]"); + return (M.x86.R_BX + M.x86.R_DI) & 0xffff; + case 2: + DECODE_PRINTF("[BP+SI]"); + M.x86.mode |= SYSMODE_SEG_DS_SS; + return (M.x86.R_BP + M.x86.R_SI) & 0xffff; + case 3: + DECODE_PRINTF("[BP+DI]"); + M.x86.mode |= SYSMODE_SEG_DS_SS; + return (M.x86.R_BP + M.x86.R_DI) & 0xffff; + case 4: + DECODE_PRINTF("[SI]"); + return M.x86.R_SI; + case 5: + DECODE_PRINTF("[DI]"); + return M.x86.R_DI; + case 6: + offset = fetch_word_imm(); + DECODE_PRINTF2("[%04x]", offset); + return offset; + case 7: + DECODE_PRINTF("[BX]"); + return M.x86.R_BX; + } + } + HALT_SYS(); + return 0; +} + +/**************************************************************************** +PARAMETERS: +rm - RM value to decode + +RETURNS: +Offset in memory for the address decoding + +REMARKS: +Return the offset given by mod=01 addressing. Also enables the +decoding of instructions. +****************************************************************************/ +unsigned decode_rm01_address( + int rm) +{ + int displacement; + + if (M.x86.mode & SYSMODE_PREFIX_ADDR) { + /* 32-bit addressing */ + if (rm != 4) + displacement = (s8)fetch_byte_imm(); + else + displacement = 0; + + switch (rm) { + case 0: + DECODE_PRINTF2("%d[EAX]", displacement); + return M.x86.R_EAX + displacement; + case 1: + DECODE_PRINTF2("%d[ECX]", displacement); + return M.x86.R_ECX + displacement; + case 2: + DECODE_PRINTF2("%d[EDX]", displacement); + return M.x86.R_EDX + displacement; + case 3: + DECODE_PRINTF2("%d[EBX]", displacement); + return M.x86.R_EBX + displacement; + case 4: { + int offset = decode_sib_address(1); + displacement = (s8)fetch_byte_imm(); + DECODE_PRINTF2("[%d]", displacement); + return offset + displacement; + } + case 5: + DECODE_PRINTF2("%d[EBP]", displacement); + return M.x86.R_EBP + displacement; + case 6: + DECODE_PRINTF2("%d[ESI]", displacement); + return M.x86.R_ESI + displacement; + case 7: + DECODE_PRINTF2("%d[EDI]", displacement); + return M.x86.R_EDI + displacement; + } + } else { + /* 16-bit addressing */ + displacement = (s8)fetch_byte_imm(); + switch (rm) { + case 0: + DECODE_PRINTF2("%d[BX+SI]", displacement); + return (M.x86.R_BX + M.x86.R_SI + displacement) & 0xffff; + case 1: + DECODE_PRINTF2("%d[BX+DI]", displacement); + return (M.x86.R_BX + M.x86.R_DI + displacement) & 0xffff; + case 2: + DECODE_PRINTF2("%d[BP+SI]", displacement); + M.x86.mode |= SYSMODE_SEG_DS_SS; + return (M.x86.R_BP + M.x86.R_SI + displacement) & 0xffff; + case 3: + DECODE_PRINTF2("%d[BP+DI]", displacement); + M.x86.mode |= SYSMODE_SEG_DS_SS; + return (M.x86.R_BP + M.x86.R_DI + displacement) & 0xffff; + case 4: + DECODE_PRINTF2("%d[SI]", displacement); + return (M.x86.R_SI + displacement) & 0xffff; + case 5: + DECODE_PRINTF2("%d[DI]", displacement); + return (M.x86.R_DI + displacement) & 0xffff; + case 6: + DECODE_PRINTF2("%d[BP]", displacement); + M.x86.mode |= SYSMODE_SEG_DS_SS; + return (M.x86.R_BP + displacement) & 0xffff; + case 7: + DECODE_PRINTF2("%d[BX]", displacement); + return (M.x86.R_BX + displacement) & 0xffff; + } + } + HALT_SYS(); + return 0; /* SHOULD NOT HAPPEN */ +} + +/**************************************************************************** +PARAMETERS: +rm - RM value to decode + +RETURNS: +Offset in memory for the address decoding + +REMARKS: +Return the offset given by mod=10 addressing. Also enables the +decoding of instructions. +****************************************************************************/ +unsigned decode_rm10_address( + int rm) +{ + if (M.x86.mode & SYSMODE_PREFIX_ADDR) { + int displacement; + + /* 32-bit addressing */ + if (rm != 4) + displacement = (s32)fetch_long_imm(); + else + displacement = 0; + + switch (rm) { + case 0: + DECODE_PRINTF2("%d[EAX]", displacement); + return M.x86.R_EAX + displacement; + case 1: + DECODE_PRINTF2("%d[ECX]", displacement); + return M.x86.R_ECX + displacement; + case 2: + DECODE_PRINTF2("%d[EDX]", displacement); + return M.x86.R_EDX + displacement; + case 3: + DECODE_PRINTF2("%d[EBX]", displacement); + return M.x86.R_EBX + displacement; + case 4: { + int offset = decode_sib_address(2); + displacement = (s32)fetch_long_imm(); + DECODE_PRINTF2("[%d]", displacement); + return offset + displacement; + } + case 5: + DECODE_PRINTF2("%d[EBP]", displacement); + return M.x86.R_EBP + displacement; + case 6: + DECODE_PRINTF2("%d[ESI]", displacement); + return M.x86.R_ESI + displacement; + case 7: + DECODE_PRINTF2("%d[EDI]", displacement); + return M.x86.R_EDI + displacement; + } + } else { + int displacement = (s16)fetch_word_imm(); + + /* 16-bit addressing */ + switch (rm) { + case 0: + DECODE_PRINTF2("%d[BX+SI]", displacement); + return (M.x86.R_BX + M.x86.R_SI + displacement) & 0xffff; + case 1: + DECODE_PRINTF2("%d[BX+DI]", displacement); + return (M.x86.R_BX + M.x86.R_DI + displacement) & 0xffff; + case 2: + DECODE_PRINTF2("%d[BP+SI]", displacement); + M.x86.mode |= SYSMODE_SEG_DS_SS; + return (M.x86.R_BP + M.x86.R_SI + displacement) & 0xffff; + case 3: + DECODE_PRINTF2("%d[BP+DI]", displacement); + M.x86.mode |= SYSMODE_SEG_DS_SS; + return (M.x86.R_BP + M.x86.R_DI + displacement) & 0xffff; + case 4: + DECODE_PRINTF2("%d[SI]", displacement); + return (M.x86.R_SI + displacement) & 0xffff; + case 5: + DECODE_PRINTF2("%d[DI]", displacement); + return (M.x86.R_DI + displacement) & 0xffff; + case 6: + DECODE_PRINTF2("%d[BP]", displacement); + M.x86.mode |= SYSMODE_SEG_DS_SS; + return (M.x86.R_BP + displacement) & 0xffff; + case 7: + DECODE_PRINTF2("%d[BX]", displacement); + return (M.x86.R_BX + displacement) & 0xffff; + } + } + HALT_SYS(); + return 0; /* SHOULD NOT HAPPEN */ +} + +/**************************************************************************** +PARAMETERS: +mod - modifier +rm - RM value to decode + +RETURNS: +Offset in memory for the address decoding, multiplexing calls to +the decode_rmXX_address functions + +REMARKS: +Return the offset given by "mod" addressing. +****************************************************************************/ + +unsigned decode_rmXX_address(int mod, int rm) +{ + if(mod == 0) + return decode_rm00_address(rm); + if(mod == 1) + return decode_rm01_address(rm); + return decode_rm10_address(rm); +} + +#endif diff --git a/drivers/bios_emulator/x86emu/ops.c b/drivers/bios_emulator/x86emu/ops.c new file mode 100644 index 0000000..d334fb5 --- /dev/null +++ b/drivers/bios_emulator/x86emu/ops.c @@ -0,0 +1,5436 @@ +/**************************************************************************** +* Realmode X86 Emulator Library +* +* Copyright (C) 2007 Freescale Semiconductor, Inc. All rights reserved. +* Jason Jin <Jason.jin@freescale.com> +* +* Copyright (C) 1991-2004 SciTech Software, Inc. +* Copyright (C) David Mosberger-Tang +* Copyright (C) 1999 Egbert Eich +* +* ======================================================================== +* +* Permission to use, copy, modify, distribute, and sell this software and +* its documentation for any purpose is hereby granted without fee, +* provided that the above copyright notice appear in all copies and that +* both that copyright notice and this permission notice appear in +* supporting documentation, and that the name of the authors not be used +* in advertising or publicity pertaining to distribution of the software +* without specific, written prior permission. The authors makes no +* representations about the suitability of this software for any purpose. +* It is provided "as is" without express or implied warranty. +* +* THE AUTHORS DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, +* INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO +* EVENT SHALL THE AUTHORS BE LIABLE FOR ANY SPECIAL, INDIRECT OR +* CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF +* USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR +* OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR +* PERFORMANCE OF THIS SOFTWARE. +* +* ======================================================================== +* +* Language: ANSI C +* Environment: Any +* Developer: Kendall Bennett +* +* Description: This file includes subroutines to implement the decoding +* and emulation of all the x86 processor instructions. +* +* There are approximately 250 subroutines in here, which correspond +* to the 256 byte-"opcodes" found on the 8086. The table which +* dispatches this is found in the files optab.[ch]. +* +* Each opcode proc has a comment preceeding it which gives it's table +* address. Several opcodes are missing (undefined) in the table. +* +* Each proc includes information for decoding (DECODE_PRINTF and +* DECODE_PRINTF2), debugging (TRACE_REGS, SINGLE_STEP), and misc +* functions (START_OF_INSTR, END_OF_INSTR). +* +* Many of the procedures are *VERY* similar in coding. This has +* allowed for a very large amount of code to be generated in a fairly +* short amount of time (i.e. cut, paste, and modify). The result is +* that much of the code below could have been folded into subroutines +* for a large reduction in size of this file. The downside would be +* that there would be a penalty in execution speed. The file could +* also have been *MUCH* larger by inlining certain functions which +* were called. This could have resulted even faster execution. The +* prime directive I used to decide whether to inline the code or to +* modularize it, was basically: 1) no unnecessary subroutine calls, +* 2) no routines more than about 200 lines in size, and 3) modularize +* any code that I might not get right the first time. The fetch_* +* subroutines fall into the latter category. The The decode_* fall +* into the second category. The coding of the "switch(mod){ .... }" +* in many of the subroutines below falls into the first category. +* Especially, the coding of {add,and,or,sub,...}_{byte,word} +* subroutines are an especially glaring case of the third guideline. +* Since so much of the code is cloned from other modules (compare +* opcode #00 to opcode #01), making the basic operations subroutine +* calls is especially important; otherwise mistakes in coding an +* "add" would represent a nightmare in maintenance. +* +* Jason ported this file to u-boot. place all the function pointer in +* the got2 sector. Removed some opcode. +* +****************************************************************************/ + +#include "x86emu/x86emui.h" + +#if defined(CONFIG_BIOSEMU) + +/*----------------------------- Implementation ----------------------------*/ + +/* constant arrays to do several instructions in just one function */ + +#ifdef DEBUG +static char *x86emu_GenOpName[8] = { + "ADD", "OR", "ADC", "SBB", "AND", "SUB", "XOR", "CMP"}; +#endif + +/* used by several opcodes */ +static u8 (*genop_byte_operation[])(u8 d, u8 s) __attribute__ ((section(".got2"))) = +{ + add_byte, /* 00 */ + or_byte, /* 01 */ + adc_byte, /* 02 */ + sbb_byte, /* 03 */ + and_byte, /* 04 */ + sub_byte, /* 05 */ + xor_byte, /* 06 */ + cmp_byte, /* 07 */ +}; + +static u16 (*genop_word_operation[])(u16 d, u16 s) __attribute__ ((section(".got2"))) = +{ + add_word, /*00 */ + or_word, /*01 */ + adc_word, /*02 */ + sbb_word, /*03 */ + and_word, /*04 */ + sub_word, /*05 */ + xor_word, /*06 */ + cmp_word, /*07 */ +}; + +static u32 (*genop_long_operation[])(u32 d, u32 s) __attribute__ ((section(".got2"))) = +{ + add_long, /*00 */ + or_long, /*01 */ + adc_long, /*02 */ + sbb_long, /*03 */ + and_long, /*04 */ + sub_long, /*05 */ + xor_long, /*06 */ + cmp_long, /*07 */ +}; + +/* used by opcodes 80, c0, d0, and d2. */ +static u8(*opcD0_byte_operation[])(u8 d, u8 s) __attribute__ ((section(".got2"))) = +{ + rol_byte, + ror_byte, + rcl_byte, + rcr_byte, + shl_byte, + shr_byte, + shl_byte, /* sal_byte === shl_byte by definition */ + sar_byte, +}; + +/* used by opcodes c1, d1, and d3. */ +static u16(*opcD1_word_operation[])(u16 s, u8 d) __attribute__ ((section(".got2"))) = +{ + rol_word, + ror_word, + rcl_word, + rcr_word, + shl_word, + shr_word, + shl_word, /* sal_byte === shl_byte by definition */ + sar_word, +}; + +/* used by opcodes c1, d1, and d3. */ +static u32 (*opcD1_long_operation[])(u32 s, u8 d) __attribute__ ((section(".got2"))) = +{ + rol_long, + ror_long, + rcl_long, + rcr_long, + shl_long, + shr_long, + shl_long, /* sal_byte === shl_byte by definition */ + sar_long, +}; + +#ifdef DEBUG + +static char *opF6_names[8] = + { "TEST\t", "", "NOT\t", "NEG\t", "MUL\t", "IMUL\t", "DIV\t", "IDIV\t" }; + +#endif + +/**************************************************************************** +PARAMETERS: +op1 - Instruction op code + +REMARKS: +Handles illegal opcodes. +****************************************************************************/ +void x86emuOp_illegal_op( + u8 op1) +{ + START_OF_INSTR(); + if (M.x86.R_SP != 0) { + DECODE_PRINTF("ILLEGAL X86 OPCODE\n"); + TRACE_REGS(); + DB( printk("%04x:%04x: %02X ILLEGAL X86 OPCODE!\n", + M.x86.R_CS, M.x86.R_IP-1,op1)); + HALT_SYS(); + } + else { + /* If we get here, it means the stack pointer is back to zero + * so we are just returning from an emulator service call + * so therte is no need to display an error message. We trap + * the emulator with an 0xF1 opcode to finish the service + * call. + */ + X86EMU_halt_sys(); + } + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcodes 0x00, 0x08, 0x10, 0x18, 0x20, 0x28, 0x30, 0x38 +****************************************************************************/ +void x86emuOp_genop_byte_RM_R(u8 op1) +{ + int mod, rl, rh; + uint destoffset; + u8 *destreg, *srcreg; + u8 destval; + + op1 = (op1 >> 3) & 0x7; + + START_OF_INSTR(); + DECODE_PRINTF(x86emu_GenOpName[op1]); + DECODE_PRINTF("\t"); + FETCH_DECODE_MODRM(mod, rh, rl); + if(mod<3) + { destoffset = decode_rmXX_address(mod,rl); + DECODE_PRINTF(","); + destval = fetch_data_byte(destoffset); + srcreg = DECODE_RM_BYTE_REGISTER(rh); + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + destval = genop_byte_operation[op1](destval, *srcreg); + store_data_byte(destoffset, destval); + } + else + { /* register to register */ + destreg = DECODE_RM_BYTE_REGISTER(rl); + DECODE_PRINTF(","); + srcreg = DECODE_RM_BYTE_REGISTER(rh); + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + *destreg = genop_byte_operation[op1](*destreg, *srcreg); + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcodes 0x01, 0x09, 0x11, 0x19, 0x21, 0x29, 0x31, 0x39 +****************************************************************************/ +void x86emuOp_genop_word_RM_R(u8 op1) +{ + int mod, rl, rh; + uint destoffset; + + op1 = (op1 >> 3) & 0x7; + + START_OF_INSTR(); + DECODE_PRINTF(x86emu_GenOpName[op1]); + DECODE_PRINTF("\t"); + FETCH_DECODE_MODRM(mod, rh, rl); + + if(mod<3) { + destoffset = decode_rmXX_address(mod,rl); + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + u32 destval; + u32 *srcreg; + + DECODE_PRINTF(","); + destval = fetch_data_long(destoffset); + srcreg = DECODE_RM_LONG_REGISTER(rh); + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + destval = genop_long_operation[op1](destval, *srcreg); + store_data_long(destoffset, destval); + } else { + u16 destval; + u16 *srcreg; + + DECODE_PRINTF(","); + destval = fetch_data_word(destoffset); + srcreg = DECODE_RM_WORD_REGISTER(rh); + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + destval = genop_word_operation[op1](destval, *srcreg); + store_data_word(destoffset, destval); + } + } else { /* register to register */ + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + u32 *destreg,*srcreg; + + destreg = DECODE_RM_LONG_REGISTER(rl); + DECODE_PRINTF(","); + srcreg = DECODE_RM_LONG_REGISTER(rh); + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + *destreg = genop_long_operation[op1](*destreg, *srcreg); + } else { + u16 *destreg,*srcreg; + + destreg = DECODE_RM_WORD_REGISTER(rl); + DECODE_PRINTF(","); + srcreg = DECODE_RM_WORD_REGISTER(rh); + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + *destreg = genop_word_operation[op1](*destreg, *srcreg); + } + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcodes 0x02, 0x0a, 0x12, 0x1a, 0x22, 0x2a, 0x32, 0x3a +****************************************************************************/ +void x86emuOp_genop_byte_R_RM(u8 op1) +{ + int mod, rl, rh; + u8 *destreg, *srcreg; + uint srcoffset; + u8 srcval; + + op1 = (op1 >> 3) & 0x7; + + START_OF_INSTR(); + DECODE_PRINTF(x86emu_GenOpName[op1]); + DECODE_PRINTF("\t"); + FETCH_DECODE_MODRM(mod, rh, rl); + if (mod < 3) { + destreg = DECODE_RM_BYTE_REGISTER(rh); + DECODE_PRINTF(","); + srcoffset = decode_rmXX_address(mod,rl); + srcval = fetch_data_byte(srcoffset); + } else { /* register to register */ + destreg = DECODE_RM_BYTE_REGISTER(rh); + DECODE_PRINTF(","); + srcreg = DECODE_RM_BYTE_REGISTER(rl); + srcval = *srcreg; + } + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + *destreg = genop_byte_operation[op1](*destreg, srcval); + + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcodes 0x03, 0x0b, 0x13, 0x1b, 0x23, 0x2b, 0x33, 0x3b +****************************************************************************/ +void x86emuOp_genop_word_R_RM(u8 op1) +{ + int mod, rl, rh; + uint srcoffset; + u32 *destreg32, srcval; + u16 *destreg; + + op1 = (op1 >> 3) & 0x7; + + START_OF_INSTR(); + DECODE_PRINTF(x86emu_GenOpName[op1]); + DECODE_PRINTF("\t"); + FETCH_DECODE_MODRM(mod, rh, rl); + if (mod < 3) { + srcoffset = decode_rmXX_address(mod,rl); + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + destreg32 = DECODE_RM_LONG_REGISTER(rh); + DECODE_PRINTF(","); + srcval = fetch_data_long(srcoffset); + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + *destreg32 = genop_long_operation[op1](*destreg32, srcval); + } else { + destreg = DECODE_RM_WORD_REGISTER(rh); + DECODE_PRINTF(","); + srcval = fetch_data_word(srcoffset); + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + *destreg = genop_word_operation[op1](*destreg, srcval); + } + } else { /* register to register */ + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + u32 *srcreg; + destreg32 = DECODE_RM_LONG_REGISTER(rh); + DECODE_PRINTF(","); + srcreg = DECODE_RM_LONG_REGISTER(rl); + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + *destreg32 = genop_long_operation[op1](*destreg32, *srcreg); + } else { + u16 *srcreg; + destreg = DECODE_RM_WORD_REGISTER(rh); + DECODE_PRINTF(","); + srcreg = DECODE_RM_WORD_REGISTER(rl); + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + *destreg = genop_word_operation[op1](*destreg, *srcreg); + } + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcodes 0x04, 0x0c, 0x14, 0x1c, 0x24, 0x2c, 0x34, 0x3c +****************************************************************************/ +void x86emuOp_genop_byte_AL_IMM(u8 op1) +{ + u8 srcval; + + op1 = (op1 >> 3) & 0x7; + + START_OF_INSTR(); + DECODE_PRINTF(x86emu_GenOpName[op1]); + DECODE_PRINTF("\tAL,"); + srcval = fetch_byte_imm(); + DECODE_PRINTF2("%x\n", srcval); + TRACE_AND_STEP(); + M.x86.R_AL = genop_byte_operation[op1](M.x86.R_AL, srcval); + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcodes 0x05, 0x0d, 0x15, 0x1d, 0x25, 0x2d, 0x35, 0x3d +****************************************************************************/ +void x86emuOp_genop_word_AX_IMM(u8 op1) +{ + u32 srcval; + + op1 = (op1 >> 3) & 0x7; + + START_OF_INSTR(); + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + DECODE_PRINTF(x86emu_GenOpName[op1]); + DECODE_PRINTF("\tEAX,"); + srcval = fetch_long_imm(); + } else { + DECODE_PRINTF(x86emu_GenOpName[op1]); + DECODE_PRINTF("\tAX,"); + srcval = fetch_word_imm(); + } + DECODE_PRINTF2("%x\n", srcval); + TRACE_AND_STEP(); + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + M.x86.R_EAX = genop_long_operation[op1](M.x86.R_EAX, srcval); + } else { + M.x86.R_AX = genop_word_operation[op1](M.x86.R_AX, (u16)srcval); + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x06 +****************************************************************************/ +void x86emuOp_push_ES(u8 X86EMU_UNUSED(op1)) +{ + START_OF_INSTR(); + DECODE_PRINTF("PUSH\tES\n"); + TRACE_AND_STEP(); + push_word(M.x86.R_ES); + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x07 +****************************************************************************/ +void x86emuOp_pop_ES(u8 X86EMU_UNUSED(op1)) +{ + START_OF_INSTR(); + DECODE_PRINTF("POP\tES\n"); + TRACE_AND_STEP(); + M.x86.R_ES = pop_word(); + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x0e +****************************************************************************/ +void x86emuOp_push_CS(u8 X86EMU_UNUSED(op1)) +{ + START_OF_INSTR(); + DECODE_PRINTF("PUSH\tCS\n"); + TRACE_AND_STEP(); + push_word(M.x86.R_CS); + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x0f. Escape for two-byte opcode (286 or better) +****************************************************************************/ +void x86emuOp_two_byte(u8 X86EMU_UNUSED(op1)) +{ + u8 op2 = (*sys_rdb)(((u32)M.x86.R_CS << 4) + (M.x86.R_IP++)); + INC_DECODED_INST_LEN(1); + (*x86emu_optab2[op2])(op2); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x16 +****************************************************************************/ +void x86emuOp_push_SS(u8 X86EMU_UNUSED(op1)) +{ + START_OF_INSTR(); + DECODE_PRINTF("PUSH\tSS\n"); + TRACE_AND_STEP(); + push_word(M.x86.R_SS); + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x17 +****************************************************************************/ +void x86emuOp_pop_SS(u8 X86EMU_UNUSED(op1)) +{ + START_OF_INSTR(); + DECODE_PRINTF("POP\tSS\n"); + TRACE_AND_STEP(); + M.x86.R_SS = pop_word(); + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x1e +****************************************************************************/ +void x86emuOp_push_DS(u8 X86EMU_UNUSED(op1)) +{ + START_OF_INSTR(); + DECODE_PRINTF("PUSH\tDS\n"); + TRACE_AND_STEP(); + push_word(M.x86.R_DS); + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x1f +****************************************************************************/ +void x86emuOp_pop_DS(u8 X86EMU_UNUSED(op1)) +{ + START_OF_INSTR(); + DECODE_PRINTF("POP\tDS\n"); + TRACE_AND_STEP(); + M.x86.R_DS = pop_word(); + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x26 +****************************************************************************/ +void x86emuOp_segovr_ES(u8 X86EMU_UNUSED(op1)) +{ + START_OF_INSTR(); + DECODE_PRINTF("ES:\n"); + TRACE_AND_STEP(); + M.x86.mode |= SYSMODE_SEGOVR_ES; + /* + * note the lack of DECODE_CLEAR_SEGOVR(r) since, here is one of 4 + * opcode subroutines we do not want to do this. + */ + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x27 +****************************************************************************/ +void x86emuOp_daa(u8 X86EMU_UNUSED(op1)) +{ + START_OF_INSTR(); + DECODE_PRINTF("DAA\n"); + TRACE_AND_STEP(); + M.x86.R_AL = daa_byte(M.x86.R_AL); + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x2e +****************************************************************************/ +void x86emuOp_segovr_CS(u8 X86EMU_UNUSED(op1)) +{ + START_OF_INSTR(); + DECODE_PRINTF("CS:\n"); + TRACE_AND_STEP(); + M.x86.mode |= SYSMODE_SEGOVR_CS; + /* note no DECODE_CLEAR_SEGOVR here. */ + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x2f +****************************************************************************/ +void x86emuOp_das(u8 X86EMU_UNUSED(op1)) +{ + START_OF_INSTR(); + DECODE_PRINTF("DAS\n"); + TRACE_AND_STEP(); + M.x86.R_AL = das_byte(M.x86.R_AL); + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x36 +****************************************************************************/ +void x86emuOp_segovr_SS(u8 X86EMU_UNUSED(op1)) +{ + START_OF_INSTR(); + DECODE_PRINTF("SS:\n"); + TRACE_AND_STEP(); + M.x86.mode |= SYSMODE_SEGOVR_SS; + /* no DECODE_CLEAR_SEGOVR ! */ + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x37 +****************************************************************************/ +void x86emuOp_aaa(u8 X86EMU_UNUSED(op1)) +{ + START_OF_INSTR(); + DECODE_PRINTF("AAA\n"); + TRACE_AND_STEP(); + M.x86.R_AX = aaa_word(M.x86.R_AX); + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x3e +****************************************************************************/ +void x86emuOp_segovr_DS(u8 X86EMU_UNUSED(op1)) +{ + START_OF_INSTR(); + DECODE_PRINTF("DS:\n"); + TRACE_AND_STEP(); + M.x86.mode |= SYSMODE_SEGOVR_DS; + /* NO DECODE_CLEAR_SEGOVR! */ + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x3f +****************************************************************************/ +void x86emuOp_aas(u8 X86EMU_UNUSED(op1)) +{ + START_OF_INSTR(); + DECODE_PRINTF("AAS\n"); + TRACE_AND_STEP(); + M.x86.R_AX = aas_word(M.x86.R_AX); + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x40 - 0x47 +****************************************************************************/ +void x86emuOp_inc_register(u8 op1) +{ + START_OF_INSTR(); + op1 &= 0x7; + DECODE_PRINTF("INC\t"); + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + u32 *reg; + reg = DECODE_RM_LONG_REGISTER(op1); + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + *reg = inc_long(*reg); + } else { + u16 *reg; + reg = DECODE_RM_WORD_REGISTER(op1); + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + *reg = inc_word(*reg); + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x48 - 0x4F +****************************************************************************/ +void x86emuOp_dec_register(u8 op1) +{ + START_OF_INSTR(); + op1 &= 0x7; + DECODE_PRINTF("DEC\t"); + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + u32 *reg; + reg = DECODE_RM_LONG_REGISTER(op1); + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + *reg = dec_long(*reg); + } else { + u16 *reg; + reg = DECODE_RM_WORD_REGISTER(op1); + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + *reg = dec_word(*reg); + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x50 - 0x57 +****************************************************************************/ +void x86emuOp_push_register(u8 op1) +{ + START_OF_INSTR(); + op1 &= 0x7; + DECODE_PRINTF("PUSH\t"); + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + u32 *reg; + reg = DECODE_RM_LONG_REGISTER(op1); + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + push_long(*reg); + } else { + u16 *reg; + reg = DECODE_RM_WORD_REGISTER(op1); + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + push_word(*reg); + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x58 - 0x5F +****************************************************************************/ +void x86emuOp_pop_register(u8 op1) +{ + START_OF_INSTR(); + op1 &= 0x7; + DECODE_PRINTF("POP\t"); + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + u32 *reg; + reg = DECODE_RM_LONG_REGISTER(op1); + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + *reg = pop_long(); + } else { + u16 *reg; + reg = DECODE_RM_WORD_REGISTER(op1); + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + *reg = pop_word(); + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x60 +****************************************************************************/ +void x86emuOp_push_all(u8 X86EMU_UNUSED(op1)) +{ + START_OF_INSTR(); + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + DECODE_PRINTF("PUSHAD\n"); + } else { + DECODE_PRINTF("PUSHA\n"); + } + TRACE_AND_STEP(); + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + u32 old_sp = M.x86.R_ESP; + + push_long(M.x86.R_EAX); + push_long(M.x86.R_ECX); + push_long(M.x86.R_EDX); + push_long(M.x86.R_EBX); + push_long(old_sp); + push_long(M.x86.R_EBP); + push_long(M.x86.R_ESI); + push_long(M.x86.R_EDI); + } else { + u16 old_sp = M.x86.R_SP; + + push_word(M.x86.R_AX); + push_word(M.x86.R_CX); + push_word(M.x86.R_DX); + push_word(M.x86.R_BX); + push_word(old_sp); + push_word(M.x86.R_BP); + push_word(M.x86.R_SI); + push_word(M.x86.R_DI); + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x61 +****************************************************************************/ +void x86emuOp_pop_all(u8 X86EMU_UNUSED(op1)) +{ + START_OF_INSTR(); + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + DECODE_PRINTF("POPAD\n"); + } else { + DECODE_PRINTF("POPA\n"); + } + TRACE_AND_STEP(); + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + M.x86.R_EDI = pop_long(); + M.x86.R_ESI = pop_long(); + M.x86.R_EBP = pop_long(); + M.x86.R_ESP += 4; /* skip ESP */ + M.x86.R_EBX = pop_long(); + M.x86.R_EDX = pop_long(); + M.x86.R_ECX = pop_long(); + M.x86.R_EAX = pop_long(); + } else { + M.x86.R_DI = pop_word(); + M.x86.R_SI = pop_word(); + M.x86.R_BP = pop_word(); + M.x86.R_SP += 2; /* skip SP */ + M.x86.R_BX = pop_word(); + M.x86.R_DX = pop_word(); + M.x86.R_CX = pop_word(); + M.x86.R_AX = pop_word(); + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/*opcode 0x62 ILLEGAL OP, calls x86emuOp_illegal_op() */ +/*opcode 0x63 ILLEGAL OP, calls x86emuOp_illegal_op() */ + +/**************************************************************************** +REMARKS: +Handles opcode 0x64 +****************************************************************************/ +void x86emuOp_segovr_FS(u8 X86EMU_UNUSED(op1)) +{ + START_OF_INSTR(); + DECODE_PRINTF("FS:\n"); + TRACE_AND_STEP(); + M.x86.mode |= SYSMODE_SEGOVR_FS; + /* + * note the lack of DECODE_CLEAR_SEGOVR(r) since, here is one of 4 + * opcode subroutines we do not want to do this. + */ + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x65 +****************************************************************************/ +void x86emuOp_segovr_GS(u8 X86EMU_UNUSED(op1)) +{ + START_OF_INSTR(); + DECODE_PRINTF("GS:\n"); + TRACE_AND_STEP(); + M.x86.mode |= SYSMODE_SEGOVR_GS; + /* + * note the lack of DECODE_CLEAR_SEGOVR(r) since, here is one of 4 + * opcode subroutines we do not want to do this. + */ + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x66 - prefix for 32-bit register +****************************************************************************/ +void x86emuOp_prefix_data(u8 X86EMU_UNUSED(op1)) +{ + START_OF_INSTR(); + DECODE_PRINTF("DATA:\n"); + TRACE_AND_STEP(); + M.x86.mode |= SYSMODE_PREFIX_DATA; + /* note no DECODE_CLEAR_SEGOVR here. */ + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x67 - prefix for 32-bit address +****************************************************************************/ +void x86emuOp_prefix_addr(u8 X86EMU_UNUSED(op1)) +{ + START_OF_INSTR(); + DECODE_PRINTF("ADDR:\n"); + TRACE_AND_STEP(); + M.x86.mode |= SYSMODE_PREFIX_ADDR; + /* note no DECODE_CLEAR_SEGOVR here. */ + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x68 +****************************************************************************/ +void x86emuOp_push_word_IMM(u8 X86EMU_UNUSED(op1)) +{ + u32 imm; + + START_OF_INSTR(); + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + imm = fetch_long_imm(); + } else { + imm = fetch_word_imm(); + } + DECODE_PRINTF2("PUSH\t%x\n", imm); + TRACE_AND_STEP(); + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + push_long(imm); + } else { + push_word((u16)imm); + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x69 +****************************************************************************/ +void x86emuOp_imul_word_IMM(u8 X86EMU_UNUSED(op1)) +{ + int mod, rl, rh; + uint srcoffset; + + START_OF_INSTR(); + DECODE_PRINTF("IMUL\t"); + FETCH_DECODE_MODRM(mod, rh, rl); + if (mod < 3) { + srcoffset = decode_rmXX_address(mod, rl); + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + u32 *destreg; + u32 srcval; + u32 res_lo,res_hi; + s32 imm; + + destreg = DECODE_RM_LONG_REGISTER(rh); + DECODE_PRINTF(","); + srcval = fetch_data_long(srcoffset); + imm = fetch_long_imm(); + DECODE_PRINTF2(",%d\n", (s32)imm); + TRACE_AND_STEP(); + imul_long_direct(&res_lo,&res_hi,(s32)srcval,(s32)imm); + if ((((res_lo & 0x80000000) == 0) && (res_hi == 0x00000000)) || + (((res_lo & 0x80000000) != 0) && (res_hi == 0xFFFFFFFF))) { + CLEAR_FLAG(F_CF); + CLEAR_FLAG(F_OF); + } else { + SET_FLAG(F_CF); + SET_FLAG(F_OF); + } + *destreg = (u32)res_lo; + } else { + u16 *destreg; + u16 srcval; + u32 res; + s16 imm; + + destreg = DECODE_RM_WORD_REGISTER(rh); + DECODE_PRINTF(","); + srcval = fetch_data_word(srcoffset); + imm = fetch_word_imm(); + DECODE_PRINTF2(",%d\n", (s32)imm); + TRACE_AND_STEP(); + res = (s16)srcval * (s16)imm; + if ((((res & 0x8000) == 0) && ((res >> 16) == 0x0000)) || + (((res & 0x8000) != 0) && ((res >> 16) == 0xFFFF))) { + CLEAR_FLAG(F_CF); + CLEAR_FLAG(F_OF); + } else { + SET_FLAG(F_CF); + SET_FLAG(F_OF); + } + *destreg = (u16)res; + } + } else { /* register to register */ + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + u32 *destreg,*srcreg; + u32 res_lo,res_hi; + s32 imm; + + destreg = DECODE_RM_LONG_REGISTER(rh); + DECODE_PRINTF(","); + srcreg = DECODE_RM_LONG_REGISTER(rl); + imm = fetch_long_imm(); + DECODE_PRINTF2(",%d\n", (s32)imm); + TRACE_AND_STEP(); + imul_long_direct(&res_lo,&res_hi,(s32)*srcreg,(s32)imm); + if ((((res_lo & 0x80000000) == 0) && (res_hi == 0x00000000)) || + (((res_lo & 0x80000000) != 0) && (res_hi == 0xFFFFFFFF))) { + CLEAR_FLAG(F_CF); + CLEAR_FLAG(F_OF); + } else { + SET_FLAG(F_CF); + SET_FLAG(F_OF); + } + *destreg = (u32)res_lo; + } else { + u16 *destreg,*srcreg; + u32 res; + s16 imm; + + destreg = DECODE_RM_WORD_REGISTER(rh); + DECODE_PRINTF(","); + srcreg = DECODE_RM_WORD_REGISTER(rl); + imm = fetch_word_imm(); + DECODE_PRINTF2(",%d\n", (s32)imm); + res = (s16)*srcreg * (s16)imm; + if ((((res & 0x8000) == 0) && ((res >> 16) == 0x0000)) || + (((res & 0x8000) != 0) && ((res >> 16) == 0xFFFF))) { + CLEAR_FLAG(F_CF); + CLEAR_FLAG(F_OF); + } else { + SET_FLAG(F_CF); + SET_FLAG(F_OF); + } + *destreg = (u16)res; + } + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x6a +****************************************************************************/ +void x86emuOp_push_byte_IMM(u8 X86EMU_UNUSED(op1)) +{ + s16 imm; + + START_OF_INSTR(); + imm = (s8)fetch_byte_imm(); + DECODE_PRINTF2("PUSH\t%d\n", imm); + TRACE_AND_STEP(); + push_word(imm); + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x6b +****************************************************************************/ +void x86emuOp_imul_byte_IMM(u8 X86EMU_UNUSED(op1)) +{ + int mod, rl, rh; + uint srcoffset; + s8 imm; + + START_OF_INSTR(); + DECODE_PRINTF("IMUL\t"); + FETCH_DECODE_MODRM(mod, rh, rl); + if (mod < 3) { + srcoffset = decode_rmXX_address(mod, rl); + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + u32 *destreg; + u32 srcval; + u32 res_lo,res_hi; + + destreg = DECODE_RM_LONG_REGISTER(rh); + DECODE_PRINTF(","); + srcval = fetch_data_long(srcoffset); + imm = fetch_byte_imm(); + DECODE_PRINTF2(",%d\n", (s32)imm); + TRACE_AND_STEP(); + imul_long_direct(&res_lo,&res_hi,(s32)srcval,(s32)imm); + if ((((res_lo & 0x80000000) == 0) && (res_hi == 0x00000000)) || + (((res_lo & 0x80000000) != 0) && (res_hi == 0xFFFFFFFF))) { + CLEAR_FLAG(F_CF); + CLEAR_FLAG(F_OF); + } else { + SET_FLAG(F_CF); + SET_FLAG(F_OF); + } + *destreg = (u32)res_lo; + } else { + u16 *destreg; + u16 srcval; + u32 res; + + destreg = DECODE_RM_WORD_REGISTER(rh); + DECODE_PRINTF(","); + srcval = fetch_data_word(srcoffset); + imm = fetch_byte_imm(); + DECODE_PRINTF2(",%d\n", (s32)imm); + TRACE_AND_STEP(); + res = (s16)srcval * (s16)imm; + if ((((res & 0x8000) == 0) && ((res >> 16) == 0x0000)) || + (((res & 0x8000) != 0) && ((res >> 16) == 0xFFFF))) { + CLEAR_FLAG(F_CF); + CLEAR_FLAG(F_OF); + } else { + SET_FLAG(F_CF); + SET_FLAG(F_OF); + } + *destreg = (u16)res; + } + } else { /* register to register */ + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + u32 *destreg,*srcreg; + u32 res_lo,res_hi; + + destreg = DECODE_RM_LONG_REGISTER(rh); + DECODE_PRINTF(","); + srcreg = DECODE_RM_LONG_REGISTER(rl); + imm = fetch_byte_imm(); + DECODE_PRINTF2(",%d\n", (s32)imm); + TRACE_AND_STEP(); + imul_long_direct(&res_lo,&res_hi,(s32)*srcreg,(s32)imm); + if ((((res_lo & 0x80000000) == 0) && (res_hi == 0x00000000)) || + (((res_lo & 0x80000000) != 0) && (res_hi == 0xFFFFFFFF))) { + CLEAR_FLAG(F_CF); + CLEAR_FLAG(F_OF); + } else { + SET_FLAG(F_CF); + SET_FLAG(F_OF); + } + *destreg = (u32)res_lo; + } else { + u16 *destreg,*srcreg; + u32 res; + + destreg = DECODE_RM_WORD_REGISTER(rh); + DECODE_PRINTF(","); + srcreg = DECODE_RM_WORD_REGISTER(rl); + imm = fetch_byte_imm(); + DECODE_PRINTF2(",%d\n", (s32)imm); + TRACE_AND_STEP(); + res = (s16)*srcreg * (s16)imm; + if ((((res & 0x8000) == 0) && ((res >> 16) == 0x0000)) || + (((res & 0x8000) != 0) && ((res >> 16) == 0xFFFF))) { + CLEAR_FLAG(F_CF); + CLEAR_FLAG(F_OF); + } else { + SET_FLAG(F_CF); + SET_FLAG(F_OF); + } + *destreg = (u16)res; + } + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x6c +****************************************************************************/ +void x86emuOp_ins_byte(u8 X86EMU_UNUSED(op1)) +{ + START_OF_INSTR(); + DECODE_PRINTF("INSB\n"); + ins(1); + TRACE_AND_STEP(); + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x6d +****************************************************************************/ +void x86emuOp_ins_word(u8 X86EMU_UNUSED(op1)) +{ + START_OF_INSTR(); + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + DECODE_PRINTF("INSD\n"); + ins(4); + } else { + DECODE_PRINTF("INSW\n"); + ins(2); + } + TRACE_AND_STEP(); + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x6e +****************************************************************************/ +void x86emuOp_outs_byte(u8 X86EMU_UNUSED(op1)) +{ + START_OF_INSTR(); + DECODE_PRINTF("OUTSB\n"); + outs(1); + TRACE_AND_STEP(); + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x6f +****************************************************************************/ +void x86emuOp_outs_word(u8 X86EMU_UNUSED(op1)) +{ + START_OF_INSTR(); + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + DECODE_PRINTF("OUTSD\n"); + outs(4); + } else { + DECODE_PRINTF("OUTSW\n"); + outs(2); + } + TRACE_AND_STEP(); + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x70 - 0x7F +****************************************************************************/ +int x86emu_check_jump_condition(u8 op); + +void x86emuOp_jump_near_cond(u8 op1) +{ + s8 offset; + u16 target; + int cond; + + /* jump to byte offset if overflow flag is set */ + START_OF_INSTR(); + cond = x86emu_check_jump_condition(op1 & 0xF); + offset = (s8)fetch_byte_imm(); + target = (u16)(M.x86.R_IP + (s16)offset); + DECODE_PRINTF2("%x\n", target); + TRACE_AND_STEP(); + if (cond) + M.x86.R_IP = target; + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x80 +****************************************************************************/ +void x86emuOp_opc80_byte_RM_IMM(u8 X86EMU_UNUSED(op1)) +{ + int mod, rl, rh; + u8 *destreg; + uint destoffset; + u8 imm; + u8 destval; + + /* + * Weirdo special case instruction format. Part of the opcode + * held below in "RH". Doubly nested case would result, except + * that the decoded instruction + */ + START_OF_INSTR(); + FETCH_DECODE_MODRM(mod, rh, rl); +#ifdef DEBUG + if (DEBUG_DECODE()) { + /* XXX DECODE_PRINTF may be changed to something more + general, so that it is important to leave the strings + in the same format, even though the result is that the + above test is done twice. */ + + switch (rh) { + case 0: + DECODE_PRINTF("ADD\t"); + break; + case 1: + DECODE_PRINTF("OR\t"); + break; + case 2: + DECODE_PRINTF("ADC\t"); + break; + case 3: + DECODE_PRINTF("SBB\t"); + break; + case 4: + DECODE_PRINTF("AND\t"); + break; + case 5: + DECODE_PRINTF("SUB\t"); + break; + case 6: + DECODE_PRINTF("XOR\t"); + break; + case 7: + DECODE_PRINTF("CMP\t"); + break; + } + } +#endif + /* know operation, decode the mod byte to find the addressing + mode. */ + if (mod < 3) { + DECODE_PRINTF("BYTE PTR "); + destoffset = decode_rmXX_address(mod, rl); + DECODE_PRINTF(","); + destval = fetch_data_byte(destoffset); + imm = fetch_byte_imm(); + DECODE_PRINTF2("%x\n", imm); + TRACE_AND_STEP(); + destval = (*genop_byte_operation[rh]) (destval, imm); + if (rh != 7) + store_data_byte(destoffset, destval); + } else { /* register to register */ + destreg = DECODE_RM_BYTE_REGISTER(rl); + DECODE_PRINTF(","); + imm = fetch_byte_imm(); + DECODE_PRINTF2("%x\n", imm); + TRACE_AND_STEP(); + destval = (*genop_byte_operation[rh]) (*destreg, imm); + if (rh != 7) + *destreg = destval; + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x81 +****************************************************************************/ +void x86emuOp_opc81_word_RM_IMM(u8 X86EMU_UNUSED(op1)) +{ + int mod, rl, rh; + uint destoffset; + + /* + * Weirdo special case instruction format. Part of the opcode + * held below in "RH". Doubly nested case would result, except + * that the decoded instruction + */ + START_OF_INSTR(); + FETCH_DECODE_MODRM(mod, rh, rl); +#ifdef DEBUG + if (DEBUG_DECODE()) { + /* XXX DECODE_PRINTF may be changed to something more + general, so that it is important to leave the strings + in the same format, even though the result is that the + above test is done twice. */ + + switch (rh) { + case 0: + DECODE_PRINTF("ADD\t"); + break; + case 1: + DECODE_PRINTF("OR\t"); + break; + case 2: + DECODE_PRINTF("ADC\t"); + break; + case 3: + DECODE_PRINTF("SBB\t"); + break; + case 4: + DECODE_PRINTF("AND\t"); + break; + case 5: + DECODE_PRINTF("SUB\t"); + break; + case 6: + DECODE_PRINTF("XOR\t"); + break; + case 7: + DECODE_PRINTF("CMP\t"); + break; + } + } +#endif + /* + * Know operation, decode the mod byte to find the addressing + * mode. + */ + if (mod < 3) { + DECODE_PRINTF("DWORD PTR "); + destoffset = decode_rmXX_address(mod, rl); + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + u32 destval,imm; + + DECODE_PRINTF(","); + destval = fetch_data_long(destoffset); + imm = fetch_long_imm(); + DECODE_PRINTF2("%x\n", imm); + TRACE_AND_STEP(); + destval = (*genop_long_operation[rh]) (destval, imm); + if (rh != 7) + store_data_long(destoffset, destval); + } else { + u16 destval,imm; + + DECODE_PRINTF(","); + destval = fetch_data_word(destoffset); + imm = fetch_word_imm(); + DECODE_PRINTF2("%x\n", imm); + TRACE_AND_STEP(); + destval = (*genop_word_operation[rh]) (destval, imm); + if (rh != 7) + store_data_word(destoffset, destval); + } + } else { /* register to register */ + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + u32 *destreg; + u32 destval,imm; + + destreg = DECODE_RM_LONG_REGISTER(rl); + DECODE_PRINTF(","); + imm = fetch_long_imm(); + DECODE_PRINTF2("%x\n", imm); + TRACE_AND_STEP(); + destval = (*genop_long_operation[rh]) (*destreg, imm); + if (rh != 7) + *destreg = destval; + } else { + u16 *destreg; + u16 destval,imm; + + destreg = DECODE_RM_WORD_REGISTER(rl); + DECODE_PRINTF(","); + imm = fetch_word_imm(); + DECODE_PRINTF2("%x\n", imm); + TRACE_AND_STEP(); + destval = (*genop_word_operation[rh]) (*destreg, imm); + if (rh != 7) + *destreg = destval; + } + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x82 +****************************************************************************/ +void x86emuOp_opc82_byte_RM_IMM(u8 X86EMU_UNUSED(op1)) +{ + int mod, rl, rh; + u8 *destreg; + uint destoffset; + u8 imm; + u8 destval; + + /* + * Weirdo special case instruction format. Part of the opcode + * held below in "RH". Doubly nested case would result, except + * that the decoded instruction Similar to opcode 81, except that + * the immediate byte is sign extended to a word length. + */ + START_OF_INSTR(); + FETCH_DECODE_MODRM(mod, rh, rl); +#ifdef DEBUG + if (DEBUG_DECODE()) { + /* XXX DECODE_PRINTF may be changed to something more + general, so that it is important to leave the strings + in the same format, even though the result is that the + above test is done twice. */ + switch (rh) { + case 0: + DECODE_PRINTF("ADD\t"); + break; + case 1: + DECODE_PRINTF("OR\t"); + break; + case 2: + DECODE_PRINTF("ADC\t"); + break; + case 3: + DECODE_PRINTF("SBB\t"); + break; + case 4: + DECODE_PRINTF("AND\t"); + break; + case 5: + DECODE_PRINTF("SUB\t"); + break; + case 6: + DECODE_PRINTF("XOR\t"); + break; + case 7: + DECODE_PRINTF("CMP\t"); + break; + } + } +#endif + /* know operation, decode the mod byte to find the addressing + mode. */ + if (mod < 3) { + DECODE_PRINTF("BYTE PTR "); + destoffset = decode_rmXX_address(mod, rl); + destval = fetch_data_byte(destoffset); + imm = fetch_byte_imm(); + DECODE_PRINTF2(",%x\n", imm); + TRACE_AND_STEP(); + destval = (*genop_byte_operation[rh]) (destval, imm); + if (rh != 7) + store_data_byte(destoffset, destval); + } else { /* register to register */ + destreg = DECODE_RM_BYTE_REGISTER(rl); + imm = fetch_byte_imm(); + DECODE_PRINTF2(",%x\n", imm); + TRACE_AND_STEP(); + destval = (*genop_byte_operation[rh]) (*destreg, imm); + if (rh != 7) + *destreg = destval; + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x83 +****************************************************************************/ +void x86emuOp_opc83_word_RM_IMM(u8 X86EMU_UNUSED(op1)) +{ + int mod, rl, rh; + uint destoffset; + + /* + * Weirdo special case instruction format. Part of the opcode + * held below in "RH". Doubly nested case would result, except + * that the decoded instruction Similar to opcode 81, except that + * the immediate byte is sign extended to a word length. + */ + START_OF_INSTR(); + FETCH_DECODE_MODRM(mod, rh, rl); +#ifdef DEBUG + if (DEBUG_DECODE()) { + /* XXX DECODE_PRINTF may be changed to something more + general, so that it is important to leave the strings + in the same format, even though the result is that the + above test is done twice. */ + switch (rh) { + case 0: + DECODE_PRINTF("ADD\t"); + break; + case 1: + DECODE_PRINTF("OR\t"); + break; + case 2: + DECODE_PRINTF("ADC\t"); + break; + case 3: + DECODE_PRINTF("SBB\t"); + break; + case 4: + DECODE_PRINTF("AND\t"); + break; + case 5: + DECODE_PRINTF("SUB\t"); + break; + case 6: + DECODE_PRINTF("XOR\t"); + break; + case 7: + DECODE_PRINTF("CMP\t"); + break; + } + } +#endif + /* know operation, decode the mod byte to find the addressing + mode. */ + if (mod < 3) { + DECODE_PRINTF("DWORD PTR "); + destoffset = decode_rmXX_address(mod,rl); + + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + u32 destval,imm; + + destval = fetch_data_long(destoffset); + imm = (s8) fetch_byte_imm(); + DECODE_PRINTF2(",%x\n", imm); + TRACE_AND_STEP(); + destval = (*genop_long_operation[rh]) (destval, imm); + if (rh != 7) + store_data_long(destoffset, destval); + } else { + u16 destval,imm; + + destval = fetch_data_word(destoffset); + imm = (s8) fetch_byte_imm(); + DECODE_PRINTF2(",%x\n", imm); + TRACE_AND_STEP(); + destval = (*genop_word_operation[rh]) (destval, imm); + if (rh != 7) + store_data_word(destoffset, destval); + } + } else { /* register to register */ + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + u32 *destreg; + u32 destval,imm; + + destreg = DECODE_RM_LONG_REGISTER(rl); + imm = (s8) fetch_byte_imm(); + DECODE_PRINTF2(",%x\n", imm); + TRACE_AND_STEP(); + destval = (*genop_long_operation[rh]) (*destreg, imm); + if (rh != 7) + *destreg = destval; + } else { + u16 *destreg; + u16 destval,imm; + + destreg = DECODE_RM_WORD_REGISTER(rl); + imm = (s8) fetch_byte_imm(); + DECODE_PRINTF2(",%x\n", imm); + TRACE_AND_STEP(); + destval = (*genop_word_operation[rh]) (*destreg, imm); + if (rh != 7) + *destreg = destval; + } + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x84 +****************************************************************************/ +void x86emuOp_test_byte_RM_R(u8 X86EMU_UNUSED(op1)) +{ + int mod, rl, rh; + u8 *destreg, *srcreg; + uint destoffset; + u8 destval; + + START_OF_INSTR(); + DECODE_PRINTF("TEST\t"); + FETCH_DECODE_MODRM(mod, rh, rl); + if (mod < 3) { + destoffset = decode_rmXX_address(mod, rl); + DECODE_PRINTF(","); + destval = fetch_data_byte(destoffset); + srcreg = DECODE_RM_BYTE_REGISTER(rh); + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + test_byte(destval, *srcreg); + } else { /* register to register */ + destreg = DECODE_RM_BYTE_REGISTER(rl); + DECODE_PRINTF(","); + srcreg = DECODE_RM_BYTE_REGISTER(rh); + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + test_byte(*destreg, *srcreg); + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x85 +****************************************************************************/ +void x86emuOp_test_word_RM_R(u8 X86EMU_UNUSED(op1)) +{ + int mod, rl, rh; + uint destoffset; + + START_OF_INSTR(); + DECODE_PRINTF("TEST\t"); + FETCH_DECODE_MODRM(mod, rh, rl); + if (mod < 3) { + destoffset = decode_rmXX_address(mod, rl); + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + u32 destval; + u32 *srcreg; + + DECODE_PRINTF(","); + destval = fetch_data_long(destoffset); + srcreg = DECODE_RM_LONG_REGISTER(rh); + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + test_long(destval, *srcreg); + } else { + u16 destval; + u16 *srcreg; + + DECODE_PRINTF(","); + destval = fetch_data_word(destoffset); + srcreg = DECODE_RM_WORD_REGISTER(rh); + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + test_word(destval, *srcreg); + } + } else { /* register to register */ + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + u32 *destreg,*srcreg; + + destreg = DECODE_RM_LONG_REGISTER(rl); + DECODE_PRINTF(","); + srcreg = DECODE_RM_LONG_REGISTER(rh); + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + test_long(*destreg, *srcreg); + } else { + u16 *destreg,*srcreg; + + destreg = DECODE_RM_WORD_REGISTER(rl); + DECODE_PRINTF(","); + srcreg = DECODE_RM_WORD_REGISTER(rh); + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + test_word(*destreg, *srcreg); + } + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x86 +****************************************************************************/ +void x86emuOp_xchg_byte_RM_R(u8 X86EMU_UNUSED(op1)) +{ + int mod, rl, rh; + u8 *destreg, *srcreg; + uint destoffset; + u8 destval; + u8 tmp; + + START_OF_INSTR(); + DECODE_PRINTF("XCHG\t"); + FETCH_DECODE_MODRM(mod, rh, rl); + if (mod < 3) { + destoffset = decode_rmXX_address(mod, rl); + DECODE_PRINTF(","); + destval = fetch_data_byte(destoffset); + srcreg = DECODE_RM_BYTE_REGISTER(rh); + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + tmp = *srcreg; + *srcreg = destval; + destval = tmp; + store_data_byte(destoffset, destval); + } else { /* register to register */ + destreg = DECODE_RM_BYTE_REGISTER(rl); + DECODE_PRINTF(","); + srcreg = DECODE_RM_BYTE_REGISTER(rh); + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + tmp = *srcreg; + *srcreg = *destreg; + *destreg = tmp; + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x87 +****************************************************************************/ +void x86emuOp_xchg_word_RM_R(u8 X86EMU_UNUSED(op1)) +{ + int mod, rl, rh; + uint destoffset; + + START_OF_INSTR(); + DECODE_PRINTF("XCHG\t"); + FETCH_DECODE_MODRM(mod, rh, rl); + if (mod < 3) { + destoffset = decode_rmXX_address(mod, rl); + DECODE_PRINTF(","); + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + u32 *srcreg; + u32 destval,tmp; + + destval = fetch_data_long(destoffset); + srcreg = DECODE_RM_LONG_REGISTER(rh); + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + tmp = *srcreg; + *srcreg = destval; + destval = tmp; + store_data_long(destoffset, destval); + } else { + u16 *srcreg; + u16 destval,tmp; + + destval = fetch_data_word(destoffset); + srcreg = DECODE_RM_WORD_REGISTER(rh); + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + tmp = *srcreg; + *srcreg = destval; + destval = tmp; + store_data_word(destoffset, destval); + } + } else { /* register to register */ + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + u32 *destreg,*srcreg; + u32 tmp; + + destreg = DECODE_RM_LONG_REGISTER(rl); + DECODE_PRINTF(","); + srcreg = DECODE_RM_LONG_REGISTER(rh); + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + tmp = *srcreg; + *srcreg = *destreg; + *destreg = tmp; + } else { + u16 *destreg,*srcreg; + u16 tmp; + + destreg = DECODE_RM_WORD_REGISTER(rl); + DECODE_PRINTF(","); + srcreg = DECODE_RM_WORD_REGISTER(rh); + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + tmp = *srcreg; + *srcreg = *destreg; + *destreg = tmp; + } + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x88 +****************************************************************************/ +void x86emuOp_mov_byte_RM_R(u8 X86EMU_UNUSED(op1)) +{ + int mod, rl, rh; + u8 *destreg, *srcreg; + uint destoffset; + + START_OF_INSTR(); + DECODE_PRINTF("MOV\t"); + FETCH_DECODE_MODRM(mod, rh, rl); + if (mod < 3) { + destoffset = decode_rmXX_address(mod, rl); + DECODE_PRINTF(","); + srcreg = DECODE_RM_BYTE_REGISTER(rh); + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + store_data_byte(destoffset, *srcreg); + } else { /* register to register */ + destreg = DECODE_RM_BYTE_REGISTER(rl); + DECODE_PRINTF(","); + srcreg = DECODE_RM_BYTE_REGISTER(rh); + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + *destreg = *srcreg; + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x89 +****************************************************************************/ +void x86emuOp_mov_word_RM_R(u8 X86EMU_UNUSED(op1)) +{ + int mod, rl, rh; + uint destoffset; + + START_OF_INSTR(); + DECODE_PRINTF("MOV\t"); + FETCH_DECODE_MODRM(mod, rh, rl); + if (mod < 3) { + destoffset = decode_rmXX_address(mod, rl); + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + u32 *srcreg; + + DECODE_PRINTF(","); + srcreg = DECODE_RM_LONG_REGISTER(rh); + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + store_data_long(destoffset, *srcreg); + } else { + u16 *srcreg; + + DECODE_PRINTF(","); + srcreg = DECODE_RM_WORD_REGISTER(rh); + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + store_data_word(destoffset, *srcreg); + } + } else { /* register to register */ + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + u32 *destreg,*srcreg; + + destreg = DECODE_RM_LONG_REGISTER(rl); + DECODE_PRINTF(","); + srcreg = DECODE_RM_LONG_REGISTER(rh); + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + *destreg = *srcreg; + } else { + u16 *destreg,*srcreg; + + destreg = DECODE_RM_WORD_REGISTER(rl); + DECODE_PRINTF(","); + srcreg = DECODE_RM_WORD_REGISTER(rh); + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + *destreg = *srcreg; + } + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x8a +****************************************************************************/ +void x86emuOp_mov_byte_R_RM(u8 X86EMU_UNUSED(op1)) +{ + int mod, rl, rh; + u8 *destreg, *srcreg; + uint srcoffset; + u8 srcval; + + START_OF_INSTR(); + DECODE_PRINTF("MOV\t"); + FETCH_DECODE_MODRM(mod, rh, rl); + if (mod < 3) { + destreg = DECODE_RM_BYTE_REGISTER(rh); + DECODE_PRINTF(","); + srcoffset = decode_rmXX_address(mod, rl); + srcval = fetch_data_byte(srcoffset); + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + *destreg = srcval; + } else { /* register to register */ + destreg = DECODE_RM_BYTE_REGISTER(rh); + DECODE_PRINTF(","); + srcreg = DECODE_RM_BYTE_REGISTER(rl); + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + *destreg = *srcreg; + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x8b +****************************************************************************/ +void x86emuOp_mov_word_R_RM(u8 X86EMU_UNUSED(op1)) +{ + int mod, rl, rh; + uint srcoffset; + + START_OF_INSTR(); + DECODE_PRINTF("MOV\t"); + FETCH_DECODE_MODRM(mod, rh, rl); + if (mod < 3) { + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + u32 *destreg; + u32 srcval; + + destreg = DECODE_RM_LONG_REGISTER(rh); + DECODE_PRINTF(","); + srcoffset = decode_rmXX_address(mod, rl); + srcval = fetch_data_long(srcoffset); + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + *destreg = srcval; + } else { + u16 *destreg; + u16 srcval; + + destreg = DECODE_RM_WORD_REGISTER(rh); + DECODE_PRINTF(","); + srcoffset = decode_rmXX_address(mod, rl); + srcval = fetch_data_word(srcoffset); + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + *destreg = srcval; + } + } else { /* register to register */ + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + u32 *destreg, *srcreg; + + destreg = DECODE_RM_LONG_REGISTER(rh); + DECODE_PRINTF(","); + srcreg = DECODE_RM_LONG_REGISTER(rl); + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + *destreg = *srcreg; + } else { + u16 *destreg, *srcreg; + + destreg = DECODE_RM_WORD_REGISTER(rh); + DECODE_PRINTF(","); + srcreg = DECODE_RM_WORD_REGISTER(rl); + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + *destreg = *srcreg; + } + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x8c +****************************************************************************/ +void x86emuOp_mov_word_RM_SR(u8 X86EMU_UNUSED(op1)) +{ + int mod, rl, rh; + u16 *destreg, *srcreg; + uint destoffset; + u16 destval; + + START_OF_INSTR(); + DECODE_PRINTF("MOV\t"); + FETCH_DECODE_MODRM(mod, rh, rl); + if (mod < 3) { + destoffset = decode_rmXX_address(mod, rl); + DECODE_PRINTF(","); + srcreg = decode_rm_seg_register(rh); + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + destval = *srcreg; + store_data_word(destoffset, destval); + } else { /* register to register */ + destreg = DECODE_RM_WORD_REGISTER(rl); + DECODE_PRINTF(","); + srcreg = decode_rm_seg_register(rh); + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + *destreg = *srcreg; + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x8d +****************************************************************************/ +void x86emuOp_lea_word_R_M(u8 X86EMU_UNUSED(op1)) +{ + int mod, rl, rh; + u16 *srcreg; + uint destoffset; + +/* + * TODO: Need to handle address size prefix! + * + * lea eax,[eax+ebx*2] ?? + */ + + START_OF_INSTR(); + DECODE_PRINTF("LEA\t"); + FETCH_DECODE_MODRM(mod, rh, rl); + if (mod < 3) { + srcreg = DECODE_RM_WORD_REGISTER(rh); + DECODE_PRINTF(","); + destoffset = decode_rmXX_address(mod, rl); + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + *srcreg = (u16)destoffset; + } + /* } else { undefined. Do nothing. } */ + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x8e +****************************************************************************/ +void x86emuOp_mov_word_SR_RM(u8 X86EMU_UNUSED(op1)) +{ + int mod, rl, rh; + u16 *destreg, *srcreg; + uint srcoffset; + u16 srcval; + + START_OF_INSTR(); + DECODE_PRINTF("MOV\t"); + FETCH_DECODE_MODRM(mod, rh, rl); + if (mod < 3) { + destreg = decode_rm_seg_register(rh); + DECODE_PRINTF(","); + srcoffset = decode_rmXX_address(mod, rl); + srcval = fetch_data_word(srcoffset); + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + *destreg = srcval; + } else { /* register to register */ + destreg = decode_rm_seg_register(rh); + DECODE_PRINTF(","); + srcreg = DECODE_RM_WORD_REGISTER(rl); + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + *destreg = *srcreg; + } + /* + * Clean up, and reset all the R_xSP pointers to the correct + * locations. This is about 3x too much overhead (doing all the + * segreg ptrs when only one is needed, but this instruction + * *cannot* be that common, and this isn't too much work anyway. + */ + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x8f +****************************************************************************/ +void x86emuOp_pop_RM(u8 X86EMU_UNUSED(op1)) +{ + int mod, rl, rh; + uint destoffset; + + START_OF_INSTR(); + DECODE_PRINTF("POP\t"); + FETCH_DECODE_MODRM(mod, rh, rl); + if (rh != 0) { + DECODE_PRINTF("ILLEGAL DECODE OF OPCODE 8F\n"); + HALT_SYS(); + } + if (mod < 3) { + destoffset = decode_rmXX_address(mod, rl); + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + u32 destval; + + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + destval = pop_long(); + store_data_long(destoffset, destval); + } else { + u16 destval; + + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + destval = pop_word(); + store_data_word(destoffset, destval); + } + } else { /* register to register */ + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + u32 *destreg; + + destreg = DECODE_RM_LONG_REGISTER(rl); + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + *destreg = pop_long(); + } else { + u16 *destreg; + + destreg = DECODE_RM_WORD_REGISTER(rl); + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + *destreg = pop_word(); + } + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x90 +****************************************************************************/ +void x86emuOp_nop(u8 X86EMU_UNUSED(op1)) +{ + START_OF_INSTR(); + DECODE_PRINTF("NOP\n"); + TRACE_AND_STEP(); + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x91-0x97 +****************************************************************************/ +void x86emuOp_xchg_word_AX_register(u8 X86EMU_UNUSED(op1)) +{ + u32 tmp; + + op1 &= 0x7; + + START_OF_INSTR(); + + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + u32 *reg32; + DECODE_PRINTF("XCHG\tEAX,"); + reg32 = DECODE_RM_LONG_REGISTER(op1); + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + tmp = M.x86.R_EAX; + M.x86.R_EAX = *reg32; + *reg32 = tmp; + } else { + u16 *reg16; + DECODE_PRINTF("XCHG\tAX,"); + reg16 = DECODE_RM_WORD_REGISTER(op1); + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + tmp = M.x86.R_AX; + M.x86.R_EAX = *reg16; + *reg16 = (u16)tmp; + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x98 +****************************************************************************/ +void x86emuOp_cbw(u8 X86EMU_UNUSED(op1)) +{ + START_OF_INSTR(); + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + DECODE_PRINTF("CWDE\n"); + } else { + DECODE_PRINTF("CBW\n"); + } + TRACE_AND_STEP(); + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + if (M.x86.R_AX & 0x8000) { + M.x86.R_EAX |= 0xffff0000; + } else { + M.x86.R_EAX &= 0x0000ffff; + } + } else { + if (M.x86.R_AL & 0x80) { + M.x86.R_AH = 0xff; + } else { + M.x86.R_AH = 0x0; + } + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x99 +****************************************************************************/ +void x86emuOp_cwd(u8 X86EMU_UNUSED(op1)) +{ + START_OF_INSTR(); + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + DECODE_PRINTF("CDQ\n"); + } else { + DECODE_PRINTF("CWD\n"); + } + DECODE_PRINTF("CWD\n"); + TRACE_AND_STEP(); + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + if (M.x86.R_EAX & 0x80000000) { + M.x86.R_EDX = 0xffffffff; + } else { + M.x86.R_EDX = 0x0; + } + } else { + if (M.x86.R_AX & 0x8000) { + M.x86.R_DX = 0xffff; + } else { + M.x86.R_DX = 0x0; + } + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x9a +****************************************************************************/ +void x86emuOp_call_far_IMM(u8 X86EMU_UNUSED(op1)) +{ + u16 farseg, faroff; + + START_OF_INSTR(); + DECODE_PRINTF("CALL\t"); + faroff = fetch_word_imm(); + farseg = fetch_word_imm(); + DECODE_PRINTF2("%04x:", farseg); + DECODE_PRINTF2("%04x\n", faroff); + CALL_TRACE(M.x86.saved_cs, M.x86.saved_ip, farseg, faroff, "FAR "); + + /* XXX + * + * Hooked interrupt vectors calling into our "BIOS" will cause + * problems unless all intersegment stuff is checked for BIOS + * access. Check needed here. For moment, let it alone. + */ + TRACE_AND_STEP(); + push_word(M.x86.R_CS); + M.x86.R_CS = farseg; + push_word(M.x86.R_IP); + M.x86.R_IP = faroff; + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x9b +****************************************************************************/ +void x86emuOp_wait(u8 X86EMU_UNUSED(op1)) +{ + START_OF_INSTR(); + DECODE_PRINTF("WAIT"); + TRACE_AND_STEP(); + /* NADA. */ + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x9c +****************************************************************************/ +void x86emuOp_pushf_word(u8 X86EMU_UNUSED(op1)) +{ + u32 flags; + + START_OF_INSTR(); + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + DECODE_PRINTF("PUSHFD\n"); + } else { + DECODE_PRINTF("PUSHF\n"); + } + TRACE_AND_STEP(); + + /* clear out *all* bits not representing flags, and turn on real bits */ + flags = (M.x86.R_EFLG & F_MSK) | F_ALWAYS_ON; + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + push_long(flags); + } else { + push_word((u16)flags); + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x9d +****************************************************************************/ +void x86emuOp_popf_word(u8 X86EMU_UNUSED(op1)) +{ + START_OF_INSTR(); + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + DECODE_PRINTF("POPFD\n"); + } else { + DECODE_PRINTF("POPF\n"); + } + TRACE_AND_STEP(); + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + M.x86.R_EFLG = pop_long(); + } else { + M.x86.R_FLG = pop_word(); + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x9e +****************************************************************************/ +void x86emuOp_sahf(u8 X86EMU_UNUSED(op1)) +{ + START_OF_INSTR(); + DECODE_PRINTF("SAHF\n"); + TRACE_AND_STEP(); + /* clear the lower bits of the flag register */ + M.x86.R_FLG &= 0xffffff00; + /* or in the AH register into the flags register */ + M.x86.R_FLG |= M.x86.R_AH; + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x9f +****************************************************************************/ +void x86emuOp_lahf(u8 X86EMU_UNUSED(op1)) +{ + START_OF_INSTR(); + DECODE_PRINTF("LAHF\n"); + TRACE_AND_STEP(); + M.x86.R_AH = (u8)(M.x86.R_FLG & 0xff); + /*undocumented TC++ behavior??? Nope. It's documented, but + you have too look real hard to notice it. */ + M.x86.R_AH |= 0x2; + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0xa0 +****************************************************************************/ +void x86emuOp_mov_AL_M_IMM(u8 X86EMU_UNUSED(op1)) +{ + u16 offset; + + START_OF_INSTR(); + DECODE_PRINTF("MOV\tAL,"); + offset = fetch_word_imm(); + DECODE_PRINTF2("[%04x]\n", offset); + TRACE_AND_STEP(); + M.x86.R_AL = fetch_data_byte(offset); + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0xa1 +****************************************************************************/ +void x86emuOp_mov_AX_M_IMM(u8 X86EMU_UNUSED(op1)) +{ + u16 offset; + + START_OF_INSTR(); + offset = fetch_word_imm(); + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + DECODE_PRINTF2("MOV\tEAX,[%04x]\n", offset); + } else { + DECODE_PRINTF2("MOV\tAX,[%04x]\n", offset); + } + TRACE_AND_STEP(); + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + M.x86.R_EAX = fetch_data_long(offset); + } else { + M.x86.R_AX = fetch_data_word(offset); + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0xa2 +****************************************************************************/ +void x86emuOp_mov_M_AL_IMM(u8 X86EMU_UNUSED(op1)) +{ + u16 offset; + + START_OF_INSTR(); + DECODE_PRINTF("MOV\t"); + offset = fetch_word_imm(); + DECODE_PRINTF2("[%04x],AL\n", offset); + TRACE_AND_STEP(); + store_data_byte(offset, M.x86.R_AL); + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0xa3 +****************************************************************************/ +void x86emuOp_mov_M_AX_IMM(u8 X86EMU_UNUSED(op1)) +{ + u16 offset; + + START_OF_INSTR(); + offset = fetch_word_imm(); + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + DECODE_PRINTF2("MOV\t[%04x],EAX\n", offset); + } else { + DECODE_PRINTF2("MOV\t[%04x],AX\n", offset); + } + TRACE_AND_STEP(); + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + store_data_long(offset, M.x86.R_EAX); + } else { + store_data_word(offset, M.x86.R_AX); + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0xa4 +****************************************************************************/ +void x86emuOp_movs_byte(u8 X86EMU_UNUSED(op1)) +{ + u8 val; + u32 count; + int inc; + + START_OF_INSTR(); + DECODE_PRINTF("MOVS\tBYTE\n"); + if (ACCESS_FLAG(F_DF)) /* down */ + inc = -1; + else + inc = 1; + TRACE_AND_STEP(); + count = 1; + if (M.x86.mode & (SYSMODE_PREFIX_REPE | SYSMODE_PREFIX_REPNE)) { + /* dont care whether REPE or REPNE */ + /* move them until CX is ZERO. */ + count = M.x86.R_CX; + M.x86.R_CX = 0; + M.x86.mode &= ~(SYSMODE_PREFIX_REPE | SYSMODE_PREFIX_REPNE); + } + while (count--) { + val = fetch_data_byte(M.x86.R_SI); + store_data_byte_abs(M.x86.R_ES, M.x86.R_DI, val); + M.x86.R_SI += inc; + M.x86.R_DI += inc; + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0xa5 +****************************************************************************/ +void x86emuOp_movs_word(u8 X86EMU_UNUSED(op1)) +{ + u32 val; + int inc; + u32 count; + + START_OF_INSTR(); + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + DECODE_PRINTF("MOVS\tDWORD\n"); + if (ACCESS_FLAG(F_DF)) /* down */ + inc = -4; + else + inc = 4; + } else { + DECODE_PRINTF("MOVS\tWORD\n"); + if (ACCESS_FLAG(F_DF)) /* down */ + inc = -2; + else + inc = 2; + } + TRACE_AND_STEP(); + count = 1; + if (M.x86.mode & (SYSMODE_PREFIX_REPE | SYSMODE_PREFIX_REPNE)) { + /* dont care whether REPE or REPNE */ + /* move them until CX is ZERO. */ + count = M.x86.R_CX; + M.x86.R_CX = 0; + M.x86.mode &= ~(SYSMODE_PREFIX_REPE | SYSMODE_PREFIX_REPNE); + } + while (count--) { + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + val = fetch_data_long(M.x86.R_SI); + store_data_long_abs(M.x86.R_ES, M.x86.R_DI, val); + } else { + val = fetch_data_word(M.x86.R_SI); + store_data_word_abs(M.x86.R_ES, M.x86.R_DI, (u16)val); + } + M.x86.R_SI += inc; + M.x86.R_DI += inc; + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0xa6 +****************************************************************************/ +void x86emuOp_cmps_byte(u8 X86EMU_UNUSED(op1)) +{ + s8 val1, val2; + int inc; + + START_OF_INSTR(); + DECODE_PRINTF("CMPS\tBYTE\n"); + TRACE_AND_STEP(); + if (ACCESS_FLAG(F_DF)) /* down */ + inc = -1; + else + inc = 1; + + if (M.x86.mode & (SYSMODE_PREFIX_REPE | SYSMODE_PREFIX_REPNE)) { + /* REPE */ + /* move them until CX is ZERO. */ + while (M.x86.R_CX != 0) { + val1 = fetch_data_byte(M.x86.R_SI); + val2 = fetch_data_byte_abs(M.x86.R_ES, M.x86.R_DI); + cmp_byte(val1, val2); + M.x86.R_CX -= 1; + M.x86.R_SI += inc; + M.x86.R_DI += inc; + if ( (M.x86.mode & SYSMODE_PREFIX_REPE) && (ACCESS_FLAG(F_ZF) == 0) ) break; + if ( (M.x86.mode & SYSMODE_PREFIX_REPNE) && ACCESS_FLAG(F_ZF) ) break; + } + M.x86.mode &= ~(SYSMODE_PREFIX_REPE | SYSMODE_PREFIX_REPNE); + } else { + val1 = fetch_data_byte(M.x86.R_SI); + val2 = fetch_data_byte_abs(M.x86.R_ES, M.x86.R_DI); + cmp_byte(val1, val2); + M.x86.R_SI += inc; + M.x86.R_DI += inc; + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0xa7 +****************************************************************************/ +void x86emuOp_cmps_word(u8 X86EMU_UNUSED(op1)) +{ + u32 val1,val2; + int inc; + + START_OF_INSTR(); + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + DECODE_PRINTF("CMPS\tDWORD\n"); + inc = 4; + } else { + DECODE_PRINTF("CMPS\tWORD\n"); + inc = 2; + } + if (ACCESS_FLAG(F_DF)) /* down */ + inc = -inc; + + TRACE_AND_STEP(); + if (M.x86.mode & (SYSMODE_PREFIX_REPE | SYSMODE_PREFIX_REPNE)) { + /* REPE */ + /* move them until CX is ZERO. */ + while (M.x86.R_CX != 0) { + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + val1 = fetch_data_long(M.x86.R_SI); + val2 = fetch_data_long_abs(M.x86.R_ES, M.x86.R_DI); + cmp_long(val1, val2); + } else { + val1 = fetch_data_word(M.x86.R_SI); + val2 = fetch_data_word_abs(M.x86.R_ES, M.x86.R_DI); + cmp_word((u16)val1, (u16)val2); + } + M.x86.R_CX -= 1; + M.x86.R_SI += inc; + M.x86.R_DI += inc; + if ( (M.x86.mode & SYSMODE_PREFIX_REPE) && ACCESS_FLAG(F_ZF) == 0 ) break; + if ( (M.x86.mode & SYSMODE_PREFIX_REPNE) && ACCESS_FLAG(F_ZF) ) break; + } + M.x86.mode &= ~(SYSMODE_PREFIX_REPE | SYSMODE_PREFIX_REPNE); + } else { + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + val1 = fetch_data_long(M.x86.R_SI); + val2 = fetch_data_long_abs(M.x86.R_ES, M.x86.R_DI); + cmp_long(val1, val2); + } else { + val1 = fetch_data_word(M.x86.R_SI); + val2 = fetch_data_word_abs(M.x86.R_ES, M.x86.R_DI); + cmp_word((u16)val1, (u16)val2); + } + M.x86.R_SI += inc; + M.x86.R_DI += inc; + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0xa8 +****************************************************************************/ +void x86emuOp_test_AL_IMM(u8 X86EMU_UNUSED(op1)) +{ + int imm; + + START_OF_INSTR(); + DECODE_PRINTF("TEST\tAL,"); + imm = fetch_byte_imm(); + DECODE_PRINTF2("%04x\n", imm); + TRACE_AND_STEP(); + test_byte(M.x86.R_AL, (u8)imm); + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0xa9 +****************************************************************************/ +void x86emuOp_test_AX_IMM(u8 X86EMU_UNUSED(op1)) +{ + u32 srcval; + + START_OF_INSTR(); + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + DECODE_PRINTF("TEST\tEAX,"); + srcval = fetch_long_imm(); + } else { + DECODE_PRINTF("TEST\tAX,"); + srcval = fetch_word_imm(); + } + DECODE_PRINTF2("%x\n", srcval); + TRACE_AND_STEP(); + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + test_long(M.x86.R_EAX, srcval); + } else { + test_word(M.x86.R_AX, (u16)srcval); + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0xaa +****************************************************************************/ +void x86emuOp_stos_byte(u8 X86EMU_UNUSED(op1)) +{ + int inc; + + START_OF_INSTR(); + DECODE_PRINTF("STOS\tBYTE\n"); + if (ACCESS_FLAG(F_DF)) /* down */ + inc = -1; + else + inc = 1; + TRACE_AND_STEP(); + if (M.x86.mode & (SYSMODE_PREFIX_REPE | SYSMODE_PREFIX_REPNE)) { + /* dont care whether REPE or REPNE */ + /* move them until CX is ZERO. */ + while (M.x86.R_CX != 0) { + store_data_byte_abs(M.x86.R_ES, M.x86.R_DI, M.x86.R_AL); + M.x86.R_CX -= 1; + M.x86.R_DI += inc; + } + M.x86.mode &= ~(SYSMODE_PREFIX_REPE | SYSMODE_PREFIX_REPNE); + } else { + store_data_byte_abs(M.x86.R_ES, M.x86.R_DI, M.x86.R_AL); + M.x86.R_DI += inc; + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0xab +****************************************************************************/ +void x86emuOp_stos_word(u8 X86EMU_UNUSED(op1)) +{ + int inc; + u32 count; + + START_OF_INSTR(); + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + DECODE_PRINTF("STOS\tDWORD\n"); + if (ACCESS_FLAG(F_DF)) /* down */ + inc = -4; + else + inc = 4; + } else { + DECODE_PRINTF("STOS\tWORD\n"); + if (ACCESS_FLAG(F_DF)) /* down */ + inc = -2; + else + inc = 2; + } + TRACE_AND_STEP(); + count = 1; + if (M.x86.mode & (SYSMODE_PREFIX_REPE | SYSMODE_PREFIX_REPNE)) { + /* dont care whether REPE or REPNE */ + /* move them until CX is ZERO. */ + count = M.x86.R_CX; + M.x86.R_CX = 0; + M.x86.mode &= ~(SYSMODE_PREFIX_REPE | SYSMODE_PREFIX_REPNE); + } + while (count--) { + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + store_data_long_abs(M.x86.R_ES, M.x86.R_DI, M.x86.R_EAX); + } else { + store_data_word_abs(M.x86.R_ES, M.x86.R_DI, M.x86.R_AX); + } + M.x86.R_DI += inc; + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0xac +****************************************************************************/ +void x86emuOp_lods_byte(u8 X86EMU_UNUSED(op1)) +{ + int inc; + + START_OF_INSTR(); + DECODE_PRINTF("LODS\tBYTE\n"); + TRACE_AND_STEP(); + if (ACCESS_FLAG(F_DF)) /* down */ + inc = -1; + else + inc = 1; + if (M.x86.mode & (SYSMODE_PREFIX_REPE | SYSMODE_PREFIX_REPNE)) { + /* dont care whether REPE or REPNE */ + /* move them until CX is ZERO. */ + while (M.x86.R_CX != 0) { + M.x86.R_AL = fetch_data_byte(M.x86.R_SI); + M.x86.R_CX -= 1; + M.x86.R_SI += inc; + } + M.x86.mode &= ~(SYSMODE_PREFIX_REPE | SYSMODE_PREFIX_REPNE); + } else { + M.x86.R_AL = fetch_data_byte(M.x86.R_SI); + M.x86.R_SI += inc; + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0xad +****************************************************************************/ +void x86emuOp_lods_word(u8 X86EMU_UNUSED(op1)) +{ + int inc; + u32 count; + + START_OF_INSTR(); + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + DECODE_PRINTF("LODS\tDWORD\n"); + if (ACCESS_FLAG(F_DF)) /* down */ + inc = -4; + else + inc = 4; + } else { + DECODE_PRINTF("LODS\tWORD\n"); + if (ACCESS_FLAG(F_DF)) /* down */ + inc = -2; + else + inc = 2; + } + TRACE_AND_STEP(); + count = 1; + if (M.x86.mode & (SYSMODE_PREFIX_REPE | SYSMODE_PREFIX_REPNE)) { + /* dont care whether REPE or REPNE */ + /* move them until CX is ZERO. */ + count = M.x86.R_CX; + M.x86.R_CX = 0; + M.x86.mode &= ~(SYSMODE_PREFIX_REPE | SYSMODE_PREFIX_REPNE); + } + while (count--) { + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + M.x86.R_EAX = fetch_data_long(M.x86.R_SI); + } else { + M.x86.R_AX = fetch_data_word(M.x86.R_SI); + } + M.x86.R_SI += inc; + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0xae +****************************************************************************/ +void x86emuOp_scas_byte(u8 X86EMU_UNUSED(op1)) +{ + s8 val2; + int inc; + + START_OF_INSTR(); + DECODE_PRINTF("SCAS\tBYTE\n"); + TRACE_AND_STEP(); + if (ACCESS_FLAG(F_DF)) /* down */ + inc = -1; + else + inc = 1; + if (M.x86.mode & SYSMODE_PREFIX_REPE) { + /* REPE */ + /* move them until CX is ZERO. */ + while (M.x86.R_CX != 0) { + val2 = fetch_data_byte_abs(M.x86.R_ES, M.x86.R_DI); + cmp_byte(M.x86.R_AL, val2); + M.x86.R_CX -= 1; + M.x86.R_DI += inc; + if (ACCESS_FLAG(F_ZF) == 0) + break; + } + M.x86.mode &= ~SYSMODE_PREFIX_REPE; + } else if (M.x86.mode & SYSMODE_PREFIX_REPNE) { + /* REPNE */ + /* move them until CX is ZERO. */ + while (M.x86.R_CX != 0) { + val2 = fetch_data_byte_abs(M.x86.R_ES, M.x86.R_DI); + cmp_byte(M.x86.R_AL, val2); + M.x86.R_CX -= 1; + M.x86.R_DI += inc; + if (ACCESS_FLAG(F_ZF)) + break; /* zero flag set means equal */ + } + M.x86.mode &= ~SYSMODE_PREFIX_REPNE; + } else { + val2 = fetch_data_byte_abs(M.x86.R_ES, M.x86.R_DI); + cmp_byte(M.x86.R_AL, val2); + M.x86.R_DI += inc; + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0xaf +****************************************************************************/ +void x86emuOp_scas_word(u8 X86EMU_UNUSED(op1)) +{ + int inc; + u32 val; + + START_OF_INSTR(); + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + DECODE_PRINTF("SCAS\tDWORD\n"); + if (ACCESS_FLAG(F_DF)) /* down */ + inc = -4; + else + inc = 4; + } else { + DECODE_PRINTF("SCAS\tWORD\n"); + if (ACCESS_FLAG(F_DF)) /* down */ + inc = -2; + else + inc = 2; + } + TRACE_AND_STEP(); + if (M.x86.mode & SYSMODE_PREFIX_REPE) { + /* REPE */ + /* move them until CX is ZERO. */ + while (M.x86.R_CX != 0) { + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + val = fetch_data_long_abs(M.x86.R_ES, M.x86.R_DI); + cmp_long(M.x86.R_EAX, val); + } else { + val = fetch_data_word_abs(M.x86.R_ES, M.x86.R_DI); + cmp_word(M.x86.R_AX, (u16)val); + } + M.x86.R_CX -= 1; + M.x86.R_DI += inc; + if (ACCESS_FLAG(F_ZF) == 0) + break; + } + M.x86.mode &= ~SYSMODE_PREFIX_REPE; + } else if (M.x86.mode & SYSMODE_PREFIX_REPNE) { + /* REPNE */ + /* move them until CX is ZERO. */ + while (M.x86.R_CX != 0) { + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + val = fetch_data_long_abs(M.x86.R_ES, M.x86.R_DI); + cmp_long(M.x86.R_EAX, val); + } else { + val = fetch_data_word_abs(M.x86.R_ES, M.x86.R_DI); + cmp_word(M.x86.R_AX, (u16)val); + } + M.x86.R_CX -= 1; + M.x86.R_DI += inc; + if (ACCESS_FLAG(F_ZF)) + break; /* zero flag set means equal */ + } + M.x86.mode &= ~SYSMODE_PREFIX_REPNE; + } else { + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + val = fetch_data_long_abs(M.x86.R_ES, M.x86.R_DI); + cmp_long(M.x86.R_EAX, val); + } else { + val = fetch_data_word_abs(M.x86.R_ES, M.x86.R_DI); + cmp_word(M.x86.R_AX, (u16)val); + } + M.x86.R_DI += inc; + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0xb0 - 0xb7 +****************************************************************************/ +void x86emuOp_mov_byte_register_IMM(u8 op1) +{ + u8 imm, *ptr; + + START_OF_INSTR(); + DECODE_PRINTF("MOV\t"); + ptr = DECODE_RM_BYTE_REGISTER(op1 & 0x7); + DECODE_PRINTF(","); + imm = fetch_byte_imm(); + DECODE_PRINTF2("%x\n", imm); + TRACE_AND_STEP(); + *ptr = imm; + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0xb8 - 0xbf +****************************************************************************/ +void x86emuOp_mov_word_register_IMM(u8 X86EMU_UNUSED(op1)) +{ + u32 srcval; + + op1 &= 0x7; + + START_OF_INSTR(); + DECODE_PRINTF("MOV\t"); + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + u32 *reg32; + reg32 = DECODE_RM_LONG_REGISTER(op1); + srcval = fetch_long_imm(); + DECODE_PRINTF2(",%x\n", srcval); + TRACE_AND_STEP(); + *reg32 = srcval; + } else { + u16 *reg16; + reg16 = DECODE_RM_WORD_REGISTER(op1); + srcval = fetch_word_imm(); + DECODE_PRINTF2(",%x\n", srcval); + TRACE_AND_STEP(); + *reg16 = (u16)srcval; + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0xc0 +****************************************************************************/ +void x86emuOp_opcC0_byte_RM_MEM(u8 X86EMU_UNUSED(op1)) +{ + int mod, rl, rh; + u8 *destreg; + uint destoffset; + u8 destval; + u8 amt; + + /* + * Yet another weirdo special case instruction format. Part of + * the opcode held below in "RH". Doubly nested case would + * result, except that the decoded instruction + */ + START_OF_INSTR(); + FETCH_DECODE_MODRM(mod, rh, rl); +#ifdef DEBUG + if (DEBUG_DECODE()) { + /* XXX DECODE_PRINTF may be changed to something more + general, so that it is important to leave the strings + in the same format, even though the result is that the + above test is done twice. */ + + switch (rh) { + case 0: + DECODE_PRINTF("ROL\t"); + break; + case 1: + DECODE_PRINTF("ROR\t"); + break; + case 2: + DECODE_PRINTF("RCL\t"); + break; + case 3: + DECODE_PRINTF("RCR\t"); + break; + case 4: + DECODE_PRINTF("SHL\t"); + break; + case 5: + DECODE_PRINTF("SHR\t"); + break; + case 6: + DECODE_PRINTF("SAL\t"); + break; + case 7: + DECODE_PRINTF("SAR\t"); + break; + } + } +#endif + /* know operation, decode the mod byte to find the addressing + mode. */ + if (mod < 3) { + DECODE_PRINTF("BYTE PTR "); + destoffset = decode_rmXX_address(mod, rl); + amt = fetch_byte_imm(); + DECODE_PRINTF2(",%x\n", amt); + destval = fetch_data_byte(destoffset); + TRACE_AND_STEP(); + destval = (*opcD0_byte_operation[rh]) (destval, amt); + store_data_byte(destoffset, destval); + } else { /* register to register */ + destreg = DECODE_RM_BYTE_REGISTER(rl); + amt = fetch_byte_imm(); + DECODE_PRINTF2(",%x\n", amt); + TRACE_AND_STEP(); + destval = (*opcD0_byte_operation[rh]) (*destreg, amt); + *destreg = destval; + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0xc1 +****************************************************************************/ +void x86emuOp_opcC1_word_RM_MEM(u8 X86EMU_UNUSED(op1)) +{ + int mod, rl, rh; + uint destoffset; + u8 amt; + + /* + * Yet another weirdo special case instruction format. Part of + * the opcode held below in "RH". Doubly nested case would + * result, except that the decoded instruction + */ + START_OF_INSTR(); + FETCH_DECODE_MODRM(mod, rh, rl); +#ifdef DEBUG + if (DEBUG_DECODE()) { + /* XXX DECODE_PRINTF may be changed to something more + general, so that it is important to leave the strings + in the same format, even though the result is that the + above test is done twice. */ + + switch (rh) { + case 0: + DECODE_PRINTF("ROL\t"); + break; + case 1: + DECODE_PRINTF("ROR\t"); + break; + case 2: + DECODE_PRINTF("RCL\t"); + break; + case 3: + DECODE_PRINTF("RCR\t"); + break; + case 4: + DECODE_PRINTF("SHL\t"); + break; + case 5: + DECODE_PRINTF("SHR\t"); + break; + case 6: + DECODE_PRINTF("SAL\t"); + break; + case 7: + DECODE_PRINTF("SAR\t"); + break; + } + } +#endif + /* know operation, decode the mod byte to find the addressing + mode. */ + if (mod < 3) { + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + u32 destval; + + DECODE_PRINTF("DWORD PTR "); + destoffset = decode_rmXX_address(mod, rl); + amt = fetch_byte_imm(); + DECODE_PRINTF2(",%x\n", amt); + destval = fetch_data_long(destoffset); + TRACE_AND_STEP(); + destval = (*opcD1_long_operation[rh]) (destval, amt); + store_data_long(destoffset, destval); + } else { + u16 destval; + + DECODE_PRINTF("WORD PTR "); + destoffset = decode_rmXX_address(mod, rl); + amt = fetch_byte_imm(); + DECODE_PRINTF2(",%x\n", amt); + destval = fetch_data_word(destoffset); + TRACE_AND_STEP(); + destval = (*opcD1_word_operation[rh]) (destval, amt); + store_data_word(destoffset, destval); + } + } else { /* register to register */ + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + u32 *destreg; + + destreg = DECODE_RM_LONG_REGISTER(rl); + amt = fetch_byte_imm(); + DECODE_PRINTF2(",%x\n", amt); + TRACE_AND_STEP(); + *destreg = (*opcD1_long_operation[rh]) (*destreg, amt); + } else { + u16 *destreg; + + destreg = DECODE_RM_WORD_REGISTER(rl); + amt = fetch_byte_imm(); + DECODE_PRINTF2(",%x\n", amt); + TRACE_AND_STEP(); + *destreg = (*opcD1_word_operation[rh]) (*destreg, amt); + } + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0xc2 +****************************************************************************/ +void x86emuOp_ret_near_IMM(u8 X86EMU_UNUSED(op1)) +{ + u16 imm; + + START_OF_INSTR(); + DECODE_PRINTF("RET\t"); + imm = fetch_word_imm(); + DECODE_PRINTF2("%x\n", imm); + RETURN_TRACE("RET",M.x86.saved_cs,M.x86.saved_ip); + TRACE_AND_STEP(); + M.x86.R_IP = pop_word(); + M.x86.R_SP += imm; + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0xc3 +****************************************************************************/ +void x86emuOp_ret_near(u8 X86EMU_UNUSED(op1)) +{ + START_OF_INSTR(); + DECODE_PRINTF("RET\n"); + RETURN_TRACE("RET",M.x86.saved_cs,M.x86.saved_ip); + TRACE_AND_STEP(); + M.x86.R_IP = pop_word(); + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0xc4 +****************************************************************************/ +void x86emuOp_les_R_IMM(u8 X86EMU_UNUSED(op1)) +{ + int mod, rh, rl; + u16 *dstreg; + uint srcoffset; + + START_OF_INSTR(); + DECODE_PRINTF("LES\t"); + FETCH_DECODE_MODRM(mod, rh, rl); + if (mod < 3) { + dstreg = DECODE_RM_WORD_REGISTER(rh); + DECODE_PRINTF(","); + srcoffset = decode_rmXX_address(mod, rl); + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + *dstreg = fetch_data_word(srcoffset); + M.x86.R_ES = fetch_data_word(srcoffset + 2); + } + /* else UNDEFINED! register to register */ + + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0xc5 +****************************************************************************/ +void x86emuOp_lds_R_IMM(u8 X86EMU_UNUSED(op1)) +{ + int mod, rh, rl; + u16 *dstreg; + uint srcoffset; + + START_OF_INSTR(); + DECODE_PRINTF("LDS\t"); + FETCH_DECODE_MODRM(mod, rh, rl); + if (mod < 3) { + dstreg = DECODE_RM_WORD_REGISTER(rh); + DECODE_PRINTF(","); + srcoffset = decode_rmXX_address(mod, rl); + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + *dstreg = fetch_data_word(srcoffset); + M.x86.R_DS = fetch_data_word(srcoffset + 2); + } + /* else UNDEFINED! */ + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0xc6 +****************************************************************************/ +void x86emuOp_mov_byte_RM_IMM(u8 X86EMU_UNUSED(op1)) +{ + int mod, rl, rh; + u8 *destreg; + uint destoffset; + u8 imm; + + START_OF_INSTR(); + DECODE_PRINTF("MOV\t"); + FETCH_DECODE_MODRM(mod, rh, rl); + if (rh != 0) { + DECODE_PRINTF("ILLEGAL DECODE OF OPCODE c6\n"); + HALT_SYS(); + } + if (mod < 3) { + DECODE_PRINTF("BYTE PTR "); + destoffset = decode_rmXX_address(mod, rl); + imm = fetch_byte_imm(); + DECODE_PRINTF2(",%2x\n", imm); + TRACE_AND_STEP(); + store_data_byte(destoffset, imm); + } else { /* register to register */ + destreg = DECODE_RM_BYTE_REGISTER(rl); + imm = fetch_byte_imm(); + DECODE_PRINTF2(",%2x\n", imm); + TRACE_AND_STEP(); + *destreg = imm; + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0xc7 +****************************************************************************/ +void x86emuOp_mov_word_RM_IMM(u8 X86EMU_UNUSED(op1)) +{ + int mod, rl, rh; + uint destoffset; + + START_OF_INSTR(); + DECODE_PRINTF("MOV\t"); + FETCH_DECODE_MODRM(mod, rh, rl); + if (rh != 0) { + DECODE_PRINTF("ILLEGAL DECODE OF OPCODE 8F\n"); + HALT_SYS(); + } + if (mod < 3) { + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + u32 imm; + + DECODE_PRINTF("DWORD PTR "); + destoffset = decode_rmXX_address(mod, rl); + imm = fetch_long_imm(); + DECODE_PRINTF2(",%x\n", imm); + TRACE_AND_STEP(); + store_data_long(destoffset, imm); + } else { + u16 imm; + + DECODE_PRINTF("WORD PTR "); + destoffset = decode_rmXX_address(mod, rl); + imm = fetch_word_imm(); + DECODE_PRINTF2(",%x\n", imm); + TRACE_AND_STEP(); + store_data_word(destoffset, imm); + } + } else { /* register to register */ + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + u32 *destreg; + u32 imm; + + destreg = DECODE_RM_LONG_REGISTER(rl); + imm = fetch_long_imm(); + DECODE_PRINTF2(",%x\n", imm); + TRACE_AND_STEP(); + *destreg = imm; + } else { + u16 *destreg; + u16 imm; + + destreg = DECODE_RM_WORD_REGISTER(rl); + imm = fetch_word_imm(); + DECODE_PRINTF2(",%x\n", imm); + TRACE_AND_STEP(); + *destreg = imm; + } + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0xc8 +****************************************************************************/ +void x86emuOp_enter(u8 X86EMU_UNUSED(op1)) +{ + u16 local,frame_pointer; + u8 nesting; + int i; + + START_OF_INSTR(); + local = fetch_word_imm(); + nesting = fetch_byte_imm(); + DECODE_PRINTF2("ENTER %x\n", local); + DECODE_PRINTF2(",%x\n", nesting); + TRACE_AND_STEP(); + push_word(M.x86.R_BP); + frame_pointer = M.x86.R_SP; + if (nesting > 0) { + for (i = 1; i < nesting; i++) { + M.x86.R_BP -= 2; + push_word(fetch_data_word_abs(M.x86.R_SS, M.x86.R_BP)); + } + push_word(frame_pointer); + } + M.x86.R_BP = frame_pointer; + M.x86.R_SP = (u16)(M.x86.R_SP - local); + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0xc9 +****************************************************************************/ +void x86emuOp_leave(u8 X86EMU_UNUSED(op1)) +{ + START_OF_INSTR(); + DECODE_PRINTF("LEAVE\n"); + TRACE_AND_STEP(); + M.x86.R_SP = M.x86.R_BP; + M.x86.R_BP = pop_word(); + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0xca +****************************************************************************/ +void x86emuOp_ret_far_IMM(u8 X86EMU_UNUSED(op1)) +{ + u16 imm; + + START_OF_INSTR(); + DECODE_PRINTF("RETF\t"); + imm = fetch_word_imm(); + DECODE_PRINTF2("%x\n", imm); + RETURN_TRACE("RETF",M.x86.saved_cs,M.x86.saved_ip); + TRACE_AND_STEP(); + M.x86.R_IP = pop_word(); + M.x86.R_CS = pop_word(); + M.x86.R_SP += imm; + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0xcb +****************************************************************************/ +void x86emuOp_ret_far(u8 X86EMU_UNUSED(op1)) +{ + START_OF_INSTR(); + DECODE_PRINTF("RETF\n"); + RETURN_TRACE("RETF",M.x86.saved_cs,M.x86.saved_ip); + TRACE_AND_STEP(); + M.x86.R_IP = pop_word(); + M.x86.R_CS = pop_word(); + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0xcc +****************************************************************************/ +void x86emuOp_int3(u8 X86EMU_UNUSED(op1)) +{ + u16 tmp; + + START_OF_INSTR(); + DECODE_PRINTF("INT 3\n"); + tmp = (u16) mem_access_word(3 * 4 + 2); + /* access the segment register */ + TRACE_AND_STEP(); + if (_X86EMU_intrTab[3]) { + (*_X86EMU_intrTab[3])(3); + } else { + push_word((u16)M.x86.R_FLG); + CLEAR_FLAG(F_IF); + CLEAR_FLAG(F_TF); + push_word(M.x86.R_CS); + M.x86.R_CS = mem_access_word(3 * 4 + 2); + push_word(M.x86.R_IP); + M.x86.R_IP = mem_access_word(3 * 4); + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0xcd +****************************************************************************/ +void x86emuOp_int_IMM(u8 X86EMU_UNUSED(op1)) +{ + u16 tmp; + u8 intnum; + + START_OF_INSTR(); + DECODE_PRINTF("INT\t"); + intnum = fetch_byte_imm(); + DECODE_PRINTF2("%x\n", intnum); + tmp = mem_access_word(intnum * 4 + 2); + TRACE_AND_STEP(); + if (_X86EMU_intrTab[intnum]) { + (*_X86EMU_intrTab[intnum])(intnum); + } else { + push_word((u16)M.x86.R_FLG); + CLEAR_FLAG(F_IF); + CLEAR_FLAG(F_TF); + push_word(M.x86.R_CS); + M.x86.R_CS = mem_access_word(intnum * 4 + 2); + push_word(M.x86.R_IP); + M.x86.R_IP = mem_access_word(intnum * 4); + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0xce +****************************************************************************/ +void x86emuOp_into(u8 X86EMU_UNUSED(op1)) +{ + u16 tmp; + + START_OF_INSTR(); + DECODE_PRINTF("INTO\n"); + TRACE_AND_STEP(); + if (ACCESS_FLAG(F_OF)) { + tmp = mem_access_word(4 * 4 + 2); + if (_X86EMU_intrTab[4]) { + (*_X86EMU_intrTab[4])(4); + } else { + push_word((u16)M.x86.R_FLG); + CLEAR_FLAG(F_IF); + CLEAR_FLAG(F_TF); + push_word(M.x86.R_CS); + M.x86.R_CS = mem_access_word(4 * 4 + 2); + push_word(M.x86.R_IP); + M.x86.R_IP = mem_access_word(4 * 4); + } + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0xcf +****************************************************************************/ +void x86emuOp_iret(u8 X86EMU_UNUSED(op1)) +{ + START_OF_INSTR(); + DECODE_PRINTF("IRET\n"); + + TRACE_AND_STEP(); + + M.x86.R_IP = pop_word(); + M.x86.R_CS = pop_word(); + M.x86.R_FLG = pop_word(); + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0xd0 +****************************************************************************/ +void x86emuOp_opcD0_byte_RM_1(u8 X86EMU_UNUSED(op1)) +{ + int mod, rl, rh; + u8 *destreg; + uint destoffset; + u8 destval; + + /* + * Yet another weirdo special case instruction format. Part of + * the opcode held below in "RH". Doubly nested case would + * result, except that the decoded instruction + */ + START_OF_INSTR(); + FETCH_DECODE_MODRM(mod, rh, rl); +#ifdef DEBUG + if (DEBUG_DECODE()) { + /* XXX DECODE_PRINTF may be changed to something more + general, so that it is important to leave the strings + in the same format, even though the result is that the + above test is done twice. */ + switch (rh) { + case 0: + DECODE_PRINTF("ROL\t"); + break; + case 1: + DECODE_PRINTF("ROR\t"); + break; + case 2: + DECODE_PRINTF("RCL\t"); + break; + case 3: + DECODE_PRINTF("RCR\t"); + break; + case 4: + DECODE_PRINTF("SHL\t"); + break; + case 5: + DECODE_PRINTF("SHR\t"); + break; + case 6: + DECODE_PRINTF("SAL\t"); + break; + case 7: + DECODE_PRINTF("SAR\t"); + break; + } + } +#endif + /* know operation, decode the mod byte to find the addressing + mode. */ + if (mod < 3) { + DECODE_PRINTF("BYTE PTR "); + destoffset = decode_rmXX_address(mod, rl); + DECODE_PRINTF(",1\n"); + destval = fetch_data_byte(destoffset); + TRACE_AND_STEP(); + destval = (*opcD0_byte_operation[rh]) (destval, 1); + store_data_byte(destoffset, destval); + } else { /* register to register */ + destreg = DECODE_RM_BYTE_REGISTER(rl); + DECODE_PRINTF(",1\n"); + TRACE_AND_STEP(); + destval = (*opcD0_byte_operation[rh]) (*destreg, 1); + *destreg = destval; + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0xd1 +****************************************************************************/ +void x86emuOp_opcD1_word_RM_1(u8 X86EMU_UNUSED(op1)) +{ + int mod, rl, rh; + uint destoffset; + + /* + * Yet another weirdo special case instruction format. Part of + * the opcode held below in "RH". Doubly nested case would + * result, except that the decoded instruction + */ + START_OF_INSTR(); + FETCH_DECODE_MODRM(mod, rh, rl); +#ifdef DEBUG + if (DEBUG_DECODE()) { + /* XXX DECODE_PRINTF may be changed to something more + general, so that it is important to leave the strings + in the same format, even though the result is that the + above test is done twice. */ + switch (rh) { + case 0: + DECODE_PRINTF("ROL\t"); + break; + case 1: + DECODE_PRINTF("ROR\t"); + break; + case 2: + DECODE_PRINTF("RCL\t"); + break; + case 3: + DECODE_PRINTF("RCR\t"); + break; + case 4: + DECODE_PRINTF("SHL\t"); + break; + case 5: + DECODE_PRINTF("SHR\t"); + break; + case 6: + DECODE_PRINTF("SAL\t"); + break; + case 7: + DECODE_PRINTF("SAR\t"); + break; + } + } +#endif + /* know operation, decode the mod byte to find the addressing + mode. */ + if (mod < 3) { + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + u32 destval; + + DECODE_PRINTF("DWORD PTR "); + destoffset = decode_rmXX_address(mod, rl); + DECODE_PRINTF(",1\n"); + destval = fetch_data_long(destoffset); + TRACE_AND_STEP(); + destval = (*opcD1_long_operation[rh]) (destval, 1); + store_data_long(destoffset, destval); + } else { + u16 destval; + + DECODE_PRINTF("WORD PTR "); + destoffset = decode_rmXX_address(mod, rl); + DECODE_PRINTF(",1\n"); + destval = fetch_data_word(destoffset); + TRACE_AND_STEP(); + destval = (*opcD1_word_operation[rh]) (destval, 1); + store_data_word(destoffset, destval); + } + } else { /* register to register */ + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + u32 destval; + u32 *destreg; + + destreg = DECODE_RM_LONG_REGISTER(rl); + DECODE_PRINTF(",1\n"); + TRACE_AND_STEP(); + destval = (*opcD1_long_operation[rh]) (*destreg, 1); + *destreg = destval; + } else { + u16 destval; + u16 *destreg; + + destreg = DECODE_RM_WORD_REGISTER(rl); + DECODE_PRINTF(",1\n"); + TRACE_AND_STEP(); + destval = (*opcD1_word_operation[rh]) (*destreg, 1); + *destreg = destval; + } + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0xd2 +****************************************************************************/ +void x86emuOp_opcD2_byte_RM_CL(u8 X86EMU_UNUSED(op1)) +{ + int mod, rl, rh; + u8 *destreg; + uint destoffset; + u8 destval; + u8 amt; + + /* + * Yet another weirdo special case instruction format. Part of + * the opcode held below in "RH". Doubly nested case would + * result, except that the decoded instruction + */ + START_OF_INSTR(); + FETCH_DECODE_MODRM(mod, rh, rl); +#ifdef DEBUG + if (DEBUG_DECODE()) { + /* XXX DECODE_PRINTF may be changed to something more + general, so that it is important to leave the strings + in the same format, even though the result is that the + above test is done twice. */ + switch (rh) { + case 0: + DECODE_PRINTF("ROL\t"); + break; + case 1: + DECODE_PRINTF("ROR\t"); + break; + case 2: + DECODE_PRINTF("RCL\t"); + break; + case 3: + DECODE_PRINTF("RCR\t"); + break; + case 4: + DECODE_PRINTF("SHL\t"); + break; + case 5: + DECODE_PRINTF("SHR\t"); + break; + case 6: + DECODE_PRINTF("SAL\t"); + break; + case 7: + DECODE_PRINTF("SAR\t"); + break; + } + } +#endif + /* know operation, decode the mod byte to find the addressing + mode. */ + amt = M.x86.R_CL; + if (mod < 3) { + DECODE_PRINTF("BYTE PTR "); + destoffset = decode_rmXX_address(mod, rl); + DECODE_PRINTF(",CL\n"); + destval = fetch_data_byte(destoffset); + TRACE_AND_STEP(); + destval = (*opcD0_byte_operation[rh]) (destval, amt); + store_data_byte(destoffset, destval); + } else { /* register to register */ + destreg = DECODE_RM_BYTE_REGISTER(rl); + DECODE_PRINTF(",CL\n"); + TRACE_AND_STEP(); + destval = (*opcD0_byte_operation[rh]) (*destreg, amt); + *destreg = destval; + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0xd3 +****************************************************************************/ +void x86emuOp_opcD3_word_RM_CL(u8 X86EMU_UNUSED(op1)) +{ + int mod, rl, rh; + uint destoffset; + u8 amt; + + /* + * Yet another weirdo special case instruction format. Part of + * the opcode held below in "RH". Doubly nested case would + * result, except that the decoded instruction + */ + START_OF_INSTR(); + FETCH_DECODE_MODRM(mod, rh, rl); +#ifdef DEBUG + if (DEBUG_DECODE()) { + /* XXX DECODE_PRINTF may be changed to something more + general, so that it is important to leave the strings + in the same format, even though the result is that the + above test is done twice. */ + switch (rh) { + case 0: + DECODE_PRINTF("ROL\t"); + break; + case 1: + DECODE_PRINTF("ROR\t"); + break; + case 2: + DECODE_PRINTF("RCL\t"); + break; + case 3: + DECODE_PRINTF("RCR\t"); + break; + case 4: + DECODE_PRINTF("SHL\t"); + break; + case 5: + DECODE_PRINTF("SHR\t"); + break; + case 6: + DECODE_PRINTF("SAL\t"); + break; + case 7: + DECODE_PRINTF("SAR\t"); + break; + } + } +#endif + /* know operation, decode the mod byte to find the addressing + mode. */ + amt = M.x86.R_CL; + if (mod < 3) { + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + u32 destval; + + DECODE_PRINTF("DWORD PTR "); + destoffset = decode_rmXX_address(mod, rl); + DECODE_PRINTF(",CL\n"); + destval = fetch_data_long(destoffset); + TRACE_AND_STEP(); + destval = (*opcD1_long_operation[rh]) (destval, amt); + store_data_long(destoffset, destval); + } else { + u16 destval; + + DECODE_PRINTF("WORD PTR "); + destoffset = decode_rmXX_address(mod, rl); + DECODE_PRINTF(",CL\n"); + destval = fetch_data_word(destoffset); + TRACE_AND_STEP(); + destval = (*opcD1_word_operation[rh]) (destval, amt); + store_data_word(destoffset, destval); + } + } else { /* register to register */ + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + u32 *destreg; + + destreg = DECODE_RM_LONG_REGISTER(rl); + DECODE_PRINTF(",CL\n"); + TRACE_AND_STEP(); + *destreg = (*opcD1_long_operation[rh]) (*destreg, amt); + } else { + u16 *destreg; + + destreg = DECODE_RM_WORD_REGISTER(rl); + DECODE_PRINTF(",CL\n"); + TRACE_AND_STEP(); + *destreg = (*opcD1_word_operation[rh]) (*destreg, amt); + } + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0xd4 +****************************************************************************/ +void x86emuOp_aam(u8 X86EMU_UNUSED(op1)) +{ + u8 a; + + START_OF_INSTR(); + DECODE_PRINTF("AAM\n"); + a = fetch_byte_imm(); /* this is a stupid encoding. */ + if (a != 10) { + DECODE_PRINTF("ERROR DECODING AAM\n"); + TRACE_REGS(); + HALT_SYS(); + } + TRACE_AND_STEP(); + /* note the type change here --- returning AL and AH in AX. */ + M.x86.R_AX = aam_word(M.x86.R_AL); + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0xd5 +****************************************************************************/ +void x86emuOp_aad(u8 X86EMU_UNUSED(op1)) +{ + u8 a; + + START_OF_INSTR(); + DECODE_PRINTF("AAD\n"); + a = fetch_byte_imm(); + TRACE_AND_STEP(); + M.x86.R_AX = aad_word(M.x86.R_AX); + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/* opcode 0xd6 ILLEGAL OPCODE */ + +/**************************************************************************** +REMARKS: +Handles opcode 0xd7 +****************************************************************************/ +void x86emuOp_xlat(u8 X86EMU_UNUSED(op1)) +{ + u16 addr; + + START_OF_INSTR(); + DECODE_PRINTF("XLAT\n"); + TRACE_AND_STEP(); + addr = (u16)(M.x86.R_BX + (u8)M.x86.R_AL); + M.x86.R_AL = fetch_data_byte(addr); + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/* instuctions D8 .. DF are in i87_ops.c */ + +/**************************************************************************** +REMARKS: +Handles opcode 0xe0 +****************************************************************************/ +void x86emuOp_loopne(u8 X86EMU_UNUSED(op1)) +{ + s16 ip; + + START_OF_INSTR(); + DECODE_PRINTF("LOOPNE\t"); + ip = (s8) fetch_byte_imm(); + ip += (s16) M.x86.R_IP; + DECODE_PRINTF2("%04x\n", ip); + TRACE_AND_STEP(); + M.x86.R_CX -= 1; + if (M.x86.R_CX != 0 && !ACCESS_FLAG(F_ZF)) /* CX != 0 and !ZF */ + M.x86.R_IP = ip; + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0xe1 +****************************************************************************/ +void x86emuOp_loope(u8 X86EMU_UNUSED(op1)) +{ + s16 ip; + + START_OF_INSTR(); + DECODE_PRINTF("LOOPE\t"); + ip = (s8) fetch_byte_imm(); + ip += (s16) M.x86.R_IP; + DECODE_PRINTF2("%04x\n", ip); + TRACE_AND_STEP(); + M.x86.R_CX -= 1; + if (M.x86.R_CX != 0 && ACCESS_FLAG(F_ZF)) /* CX != 0 and ZF */ + M.x86.R_IP = ip; + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0xe2 +****************************************************************************/ +void x86emuOp_loop(u8 X86EMU_UNUSED(op1)) +{ + s16 ip; + + START_OF_INSTR(); + DECODE_PRINTF("LOOP\t"); + ip = (s8) fetch_byte_imm(); + ip += (s16) M.x86.R_IP; + DECODE_PRINTF2("%04x\n", ip); + TRACE_AND_STEP(); + M.x86.R_CX -= 1; + if (M.x86.R_CX != 0) + M.x86.R_IP = ip; + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0xe3 +****************************************************************************/ +void x86emuOp_jcxz(u8 X86EMU_UNUSED(op1)) +{ + u16 target; + s8 offset; + + /* jump to byte offset if overflow flag is set */ + START_OF_INSTR(); + DECODE_PRINTF("JCXZ\t"); + offset = (s8)fetch_byte_imm(); + target = (u16)(M.x86.R_IP + offset); + DECODE_PRINTF2("%x\n", target); + TRACE_AND_STEP(); + if (M.x86.R_CX == 0) + M.x86.R_IP = target; + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0xe4 +****************************************************************************/ +void x86emuOp_in_byte_AL_IMM(u8 X86EMU_UNUSED(op1)) +{ + u8 port; + + START_OF_INSTR(); + DECODE_PRINTF("IN\t"); + port = (u8) fetch_byte_imm(); + DECODE_PRINTF2("%x,AL\n", port); + TRACE_AND_STEP(); + M.x86.R_AL = (*sys_inb)(port); + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0xe5 +****************************************************************************/ +void x86emuOp_in_word_AX_IMM(u8 X86EMU_UNUSED(op1)) +{ + u8 port; + + START_OF_INSTR(); + DECODE_PRINTF("IN\t"); + port = (u8) fetch_byte_imm(); + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + DECODE_PRINTF2("EAX,%x\n", port); + } else { + DECODE_PRINTF2("AX,%x\n", port); + } + TRACE_AND_STEP(); + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + M.x86.R_EAX = (*sys_inl)(port); + } else { + M.x86.R_AX = (*sys_inw)(port); + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0xe6 +****************************************************************************/ +void x86emuOp_out_byte_IMM_AL(u8 X86EMU_UNUSED(op1)) +{ + u8 port; + + START_OF_INSTR(); + DECODE_PRINTF("OUT\t"); + port = (u8) fetch_byte_imm(); + DECODE_PRINTF2("%x,AL\n", port); + TRACE_AND_STEP(); + (*sys_outb)(port, M.x86.R_AL); + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0xe7 +****************************************************************************/ +void x86emuOp_out_word_IMM_AX(u8 X86EMU_UNUSED(op1)) +{ + u8 port; + + START_OF_INSTR(); + DECODE_PRINTF("OUT\t"); + port = (u8) fetch_byte_imm(); + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + DECODE_PRINTF2("%x,EAX\n", port); + } else { + DECODE_PRINTF2("%x,AX\n", port); + } + TRACE_AND_STEP(); + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + (*sys_outl)(port, M.x86.R_EAX); + } else { + (*sys_outw)(port, M.x86.R_AX); + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0xe8 +****************************************************************************/ +void x86emuOp_call_near_IMM(u8 X86EMU_UNUSED(op1)) +{ + s16 ip; + + START_OF_INSTR(); + DECODE_PRINTF("CALL\t"); + ip = (s16) fetch_word_imm(); + ip += (s16) M.x86.R_IP; /* CHECK SIGN */ + DECODE_PRINTF2("%04x\n", ip); + CALL_TRACE(M.x86.saved_cs, M.x86.saved_ip, M.x86.R_CS, ip, ""); + TRACE_AND_STEP(); + push_word(M.x86.R_IP); + M.x86.R_IP = ip; + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0xe9 +****************************************************************************/ +void x86emuOp_jump_near_IMM(u8 X86EMU_UNUSED(op1)) +{ + int ip; + + START_OF_INSTR(); + DECODE_PRINTF("JMP\t"); + ip = (s16)fetch_word_imm(); + ip += (s16)M.x86.R_IP; + DECODE_PRINTF2("%04x\n", ip); + TRACE_AND_STEP(); + M.x86.R_IP = (u16)ip; + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0xea +****************************************************************************/ +void x86emuOp_jump_far_IMM(u8 X86EMU_UNUSED(op1)) +{ + u16 cs, ip; + + START_OF_INSTR(); + DECODE_PRINTF("JMP\tFAR "); + ip = fetch_word_imm(); + cs = fetch_word_imm(); + DECODE_PRINTF2("%04x:", cs); + DECODE_PRINTF2("%04x\n", ip); + TRACE_AND_STEP(); + M.x86.R_IP = ip; + M.x86.R_CS = cs; + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0xeb +****************************************************************************/ +void x86emuOp_jump_byte_IMM(u8 X86EMU_UNUSED(op1)) +{ + u16 target; + s8 offset; + + START_OF_INSTR(); + DECODE_PRINTF("JMP\t"); + offset = (s8)fetch_byte_imm(); + target = (u16)(M.x86.R_IP + offset); + DECODE_PRINTF2("%x\n", target); + TRACE_AND_STEP(); + M.x86.R_IP = target; + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0xec +****************************************************************************/ +void x86emuOp_in_byte_AL_DX(u8 X86EMU_UNUSED(op1)) +{ + START_OF_INSTR(); + DECODE_PRINTF("IN\tAL,DX\n"); + TRACE_AND_STEP(); + M.x86.R_AL = (*sys_inb)(M.x86.R_DX); + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0xed +****************************************************************************/ +void x86emuOp_in_word_AX_DX(u8 X86EMU_UNUSED(op1)) +{ + START_OF_INSTR(); + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + DECODE_PRINTF("IN\tEAX,DX\n"); + } else { + DECODE_PRINTF("IN\tAX,DX\n"); + } + TRACE_AND_STEP(); + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + M.x86.R_EAX = (*sys_inl)(M.x86.R_DX); + } else { + M.x86.R_AX = (*sys_inw)(M.x86.R_DX); + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0xee +****************************************************************************/ +void x86emuOp_out_byte_DX_AL(u8 X86EMU_UNUSED(op1)) +{ + START_OF_INSTR(); + DECODE_PRINTF("OUT\tDX,AL\n"); + TRACE_AND_STEP(); + (*sys_outb)(M.x86.R_DX, M.x86.R_AL); + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0xef +****************************************************************************/ +void x86emuOp_out_word_DX_AX(u8 X86EMU_UNUSED(op1)) +{ + START_OF_INSTR(); + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + DECODE_PRINTF("OUT\tDX,EAX\n"); + } else { + DECODE_PRINTF("OUT\tDX,AX\n"); + } + TRACE_AND_STEP(); + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + (*sys_outl)(M.x86.R_DX, M.x86.R_EAX); + } else { + (*sys_outw)(M.x86.R_DX, M.x86.R_AX); + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0xf0 +****************************************************************************/ +void x86emuOp_lock(u8 X86EMU_UNUSED(op1)) +{ + START_OF_INSTR(); + DECODE_PRINTF("LOCK:\n"); + TRACE_AND_STEP(); + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/*opcode 0xf1 ILLEGAL OPERATION */ + +/**************************************************************************** +REMARKS: +Handles opcode 0xf2 +****************************************************************************/ +void x86emuOp_repne(u8 X86EMU_UNUSED(op1)) +{ + START_OF_INSTR(); + DECODE_PRINTF("REPNE\n"); + TRACE_AND_STEP(); + M.x86.mode |= SYSMODE_PREFIX_REPNE; + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0xf3 +****************************************************************************/ +void x86emuOp_repe(u8 X86EMU_UNUSED(op1)) +{ + START_OF_INSTR(); + DECODE_PRINTF("REPE\n"); + TRACE_AND_STEP(); + M.x86.mode |= SYSMODE_PREFIX_REPE; + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0xf4 +****************************************************************************/ +void x86emuOp_halt(u8 X86EMU_UNUSED(op1)) +{ + START_OF_INSTR(); + DECODE_PRINTF("HALT\n"); + TRACE_AND_STEP(); + HALT_SYS(); + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0xf5 +****************************************************************************/ +void x86emuOp_cmc(u8 X86EMU_UNUSED(op1)) +{ + /* complement the carry flag. */ + START_OF_INSTR(); + DECODE_PRINTF("CMC\n"); + TRACE_AND_STEP(); + TOGGLE_FLAG(F_CF); + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0xf6 +****************************************************************************/ +void x86emuOp_opcF6_byte_RM(u8 X86EMU_UNUSED(op1)) +{ + int mod, rl, rh; + u8 *destreg; + uint destoffset; + u8 destval, srcval; + + /* long, drawn out code follows. Double switch for a total + of 32 cases. */ + START_OF_INSTR(); + FETCH_DECODE_MODRM(mod, rh, rl); + DECODE_PRINTF(opF6_names[rh]); + if (mod < 3) { + DECODE_PRINTF("BYTE PTR "); + destoffset = decode_rmXX_address(mod, rl); + destval = fetch_data_byte(destoffset); + + switch (rh) { + case 0: /* test byte imm */ + DECODE_PRINTF(","); + srcval = fetch_byte_imm(); + DECODE_PRINTF2("%02x\n", srcval); + TRACE_AND_STEP(); + test_byte(destval, srcval); + break; + case 1: + DECODE_PRINTF("ILLEGAL OP MOD=00 RH=01 OP=F6\n"); + HALT_SYS(); + break; + case 2: + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + destval = not_byte(destval); + store_data_byte(destoffset, destval); + break; + case 3: + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + destval = neg_byte(destval); + store_data_byte(destoffset, destval); + break; + case 4: + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + mul_byte(destval); + break; + case 5: + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + imul_byte(destval); + break; + case 6: + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + div_byte(destval); + break; + default: + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + idiv_byte(destval); + break; + } + } else { /* mod=11 */ + destreg = DECODE_RM_BYTE_REGISTER(rl); + switch (rh) { + case 0: /* test byte imm */ + DECODE_PRINTF(","); + srcval = fetch_byte_imm(); + DECODE_PRINTF2("%02x\n", srcval); + TRACE_AND_STEP(); + test_byte(*destreg, srcval); + break; + case 1: + DECODE_PRINTF("ILLEGAL OP MOD=00 RH=01 OP=F6\n"); + HALT_SYS(); + break; + case 2: + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + *destreg = not_byte(*destreg); + break; + case 3: + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + *destreg = neg_byte(*destreg); + break; + case 4: + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + mul_byte(*destreg); /*!!! */ + break; + case 5: + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + imul_byte(*destreg); + break; + case 6: + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + div_byte(*destreg); + break; + default: + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + idiv_byte(*destreg); + break; + } + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0xf7 +****************************************************************************/ +void x86emuOp_opcF7_word_RM(u8 X86EMU_UNUSED(op1)) +{ + int mod, rl, rh; + uint destoffset; + + START_OF_INSTR(); + FETCH_DECODE_MODRM(mod, rh, rl); + DECODE_PRINTF(opF6_names[rh]); + if (mod < 3) { + + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + u32 destval, srcval; + + DECODE_PRINTF("DWORD PTR "); + destoffset = decode_rmXX_address(mod, rl); + destval = fetch_data_long(destoffset); + + switch (rh) { + case 0: + DECODE_PRINTF(","); + srcval = fetch_long_imm(); + DECODE_PRINTF2("%x\n", srcval); + TRACE_AND_STEP(); + test_long(destval, srcval); + break; + case 1: + DECODE_PRINTF("ILLEGAL OP MOD=00 RH=01 OP=F7\n"); + HALT_SYS(); + break; + case 2: + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + destval = not_long(destval); + store_data_long(destoffset, destval); + break; + case 3: + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + destval = neg_long(destval); + store_data_long(destoffset, destval); + break; + case 4: + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + mul_long(destval); + break; + case 5: + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + imul_long(destval); + break; + case 6: + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + div_long(destval); + break; + case 7: + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + idiv_long(destval); + break; + } + } else { + u16 destval, srcval; + + DECODE_PRINTF("WORD PTR "); + destoffset = decode_rmXX_address(mod, rl); + destval = fetch_data_word(destoffset); + + switch (rh) { + case 0: /* test word imm */ + DECODE_PRINTF(","); + srcval = fetch_word_imm(); + DECODE_PRINTF2("%x\n", srcval); + TRACE_AND_STEP(); + test_word(destval, srcval); + break; + case 1: + DECODE_PRINTF("ILLEGAL OP MOD=00 RH=01 OP=F7\n"); + HALT_SYS(); + break; + case 2: + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + destval = not_word(destval); + store_data_word(destoffset, destval); + break; + case 3: + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + destval = neg_word(destval); + store_data_word(destoffset, destval); + break; + case 4: + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + mul_word(destval); + break; + case 5: + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + imul_word(destval); + break; + case 6: + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + div_word(destval); + break; + case 7: + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + idiv_word(destval); + break; + } + } + + } else { /* mod=11 */ + + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + u32 *destreg; + u32 srcval; + + destreg = DECODE_RM_LONG_REGISTER(rl); + + switch (rh) { + case 0: /* test word imm */ + DECODE_PRINTF(","); + srcval = fetch_long_imm(); + DECODE_PRINTF2("%x\n", srcval); + TRACE_AND_STEP(); + test_long(*destreg, srcval); + break; + case 1: + DECODE_PRINTF("ILLEGAL OP MOD=00 RH=01 OP=F6\n"); + HALT_SYS(); + break; + case 2: + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + *destreg = not_long(*destreg); + break; + case 3: + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + *destreg = neg_long(*destreg); + break; + case 4: + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + mul_long(*destreg); /*!!! */ + break; + case 5: + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + imul_long(*destreg); + break; + case 6: + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + div_long(*destreg); + break; + case 7: + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + idiv_long(*destreg); + break; + } + } else { + u16 *destreg; + u16 srcval; + + destreg = DECODE_RM_WORD_REGISTER(rl); + + switch (rh) { + case 0: /* test word imm */ + DECODE_PRINTF(","); + srcval = fetch_word_imm(); + DECODE_PRINTF2("%x\n", srcval); + TRACE_AND_STEP(); + test_word(*destreg, srcval); + break; + case 1: + DECODE_PRINTF("ILLEGAL OP MOD=00 RH=01 OP=F6\n"); + HALT_SYS(); + break; + case 2: + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + *destreg = not_word(*destreg); + break; + case 3: + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + *destreg = neg_word(*destreg); + break; + case 4: + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + mul_word(*destreg); /*!!! */ + break; + case 5: + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + imul_word(*destreg); + break; + case 6: + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + div_word(*destreg); + break; + case 7: + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + idiv_word(*destreg); + break; + } + } + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0xf8 +****************************************************************************/ +void x86emuOp_clc(u8 X86EMU_UNUSED(op1)) +{ + /* clear the carry flag. */ + START_OF_INSTR(); + DECODE_PRINTF("CLC\n"); + TRACE_AND_STEP(); + CLEAR_FLAG(F_CF); + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0xf9 +****************************************************************************/ +void x86emuOp_stc(u8 X86EMU_UNUSED(op1)) +{ + /* set the carry flag. */ + START_OF_INSTR(); + DECODE_PRINTF("STC\n"); + TRACE_AND_STEP(); + SET_FLAG(F_CF); + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0xfa +****************************************************************************/ +void x86emuOp_cli(u8 X86EMU_UNUSED(op1)) +{ + /* clear interrupts. */ + START_OF_INSTR(); + DECODE_PRINTF("CLI\n"); + TRACE_AND_STEP(); + CLEAR_FLAG(F_IF); + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0xfb +****************************************************************************/ +void x86emuOp_sti(u8 X86EMU_UNUSED(op1)) +{ + /* enable interrupts. */ + START_OF_INSTR(); + DECODE_PRINTF("STI\n"); + TRACE_AND_STEP(); + SET_FLAG(F_IF); + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0xfc +****************************************************************************/ +void x86emuOp_cld(u8 X86EMU_UNUSED(op1)) +{ + /* clear interrupts. */ + START_OF_INSTR(); + DECODE_PRINTF("CLD\n"); + TRACE_AND_STEP(); + CLEAR_FLAG(F_DF); + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0xfd +****************************************************************************/ +void x86emuOp_std(u8 X86EMU_UNUSED(op1)) +{ + /* clear interrupts. */ + START_OF_INSTR(); + DECODE_PRINTF("STD\n"); + TRACE_AND_STEP(); + SET_FLAG(F_DF); + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0xfe +****************************************************************************/ +void x86emuOp_opcFE_byte_RM(u8 X86EMU_UNUSED(op1)) +{ + int mod, rh, rl; + u8 destval; + uint destoffset; + u8 *destreg; + + /* Yet another special case instruction. */ + START_OF_INSTR(); + FETCH_DECODE_MODRM(mod, rh, rl); +#ifdef DEBUG + if (DEBUG_DECODE()) { + /* XXX DECODE_PRINTF may be changed to something more + general, so that it is important to leave the strings + in the same format, even though the result is that the + above test is done twice. */ + + switch (rh) { + case 0: + DECODE_PRINTF("INC\t"); + break; + case 1: + DECODE_PRINTF("DEC\t"); + break; + case 2: + case 3: + case 4: + case 5: + case 6: + case 7: + DECODE_PRINTF2("ILLEGAL OP MAJOR OP 0xFE MINOR OP %x \n", mod); + HALT_SYS(); + break; + } + } +#endif + if (mod < 3) { + DECODE_PRINTF("BYTE PTR "); + destoffset = decode_rmXX_address(mod, rl); + DECODE_PRINTF("\n"); + destval = fetch_data_byte(destoffset); + TRACE_AND_STEP(); + if (rh == 0) + destval = inc_byte(destval); + else + destval = dec_byte(destval); + store_data_byte(destoffset, destval); + } else { + destreg = DECODE_RM_BYTE_REGISTER(rl); + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + if (rh == 0) + *destreg = inc_byte(*destreg); + else + *destreg = dec_byte(*destreg); + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0xff +****************************************************************************/ +void x86emuOp_opcFF_word_RM(u8 X86EMU_UNUSED(op1)) +{ + int mod, rh, rl; + uint destoffset = 0; + u16 *destreg; + u16 destval,destval2; + + /* Yet another special case instruction. */ + START_OF_INSTR(); + FETCH_DECODE_MODRM(mod, rh, rl); +#ifdef DEBUG + if (DEBUG_DECODE()) { + /* XXX DECODE_PRINTF may be changed to something more + general, so that it is important to leave the strings + in the same format, even though the result is that the + above test is done twice. */ + + switch (rh) { + case 0: + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + DECODE_PRINTF("INC\tDWORD PTR "); + } else { + DECODE_PRINTF("INC\tWORD PTR "); + } + break; + case 1: + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + DECODE_PRINTF("DEC\tDWORD PTR "); + } else { + DECODE_PRINTF("DEC\tWORD PTR "); + } + break; + case 2: + DECODE_PRINTF("CALL\t "); + break; + case 3: + DECODE_PRINTF("CALL\tFAR "); + break; + case 4: + DECODE_PRINTF("JMP\t"); + break; + case 5: + DECODE_PRINTF("JMP\tFAR "); + break; + case 6: + DECODE_PRINTF("PUSH\t"); + break; + case 7: + DECODE_PRINTF("ILLEGAL DECODING OF OPCODE FF\t"); + HALT_SYS(); + break; + } + } +#endif + if (mod < 3) { + destoffset = decode_rmXX_address(mod, rl); + DECODE_PRINTF("\n"); + switch (rh) { + case 0: /* inc word ptr ... */ + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + u32 destval; + + destval = fetch_data_long(destoffset); + TRACE_AND_STEP(); + destval = inc_long(destval); + store_data_long(destoffset, destval); + } else { + u16 destval; + + destval = fetch_data_word(destoffset); + TRACE_AND_STEP(); + destval = inc_word(destval); + store_data_word(destoffset, destval); + } + break; + case 1: /* dec word ptr ... */ + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + u32 destval; + + destval = fetch_data_long(destoffset); + TRACE_AND_STEP(); + destval = dec_long(destval); + store_data_long(destoffset, destval); + } else { + u16 destval; + + destval = fetch_data_word(destoffset); + TRACE_AND_STEP(); + destval = dec_word(destval); + store_data_word(destoffset, destval); + } + break; + case 2: /* call word ptr ... */ + destval = fetch_data_word(destoffset); + TRACE_AND_STEP(); + push_word(M.x86.R_IP); + M.x86.R_IP = destval; + break; + case 3: /* call far ptr ... */ + destval = fetch_data_word(destoffset); + destval2 = fetch_data_word(destoffset + 2); + TRACE_AND_STEP(); + push_word(M.x86.R_CS); + M.x86.R_CS = destval2; + push_word(M.x86.R_IP); + M.x86.R_IP = destval; + break; + case 4: /* jmp word ptr ... */ + destval = fetch_data_word(destoffset); + TRACE_AND_STEP(); + M.x86.R_IP = destval; + break; + case 5: /* jmp far ptr ... */ + destval = fetch_data_word(destoffset); + destval2 = fetch_data_word(destoffset + 2); + TRACE_AND_STEP(); + M.x86.R_IP = destval; + M.x86.R_CS = destval2; + break; + case 6: /* push word ptr ... */ + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + u32 destval; + + destval = fetch_data_long(destoffset); + TRACE_AND_STEP(); + push_long(destval); + } else { + u16 destval; + + destval = fetch_data_word(destoffset); + TRACE_AND_STEP(); + push_word(destval); + } + break; + } + } else { + switch (rh) { + case 0: + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + u32 *destreg; + + destreg = DECODE_RM_LONG_REGISTER(rl); + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + *destreg = inc_long(*destreg); + } else { + u16 *destreg; + + destreg = DECODE_RM_WORD_REGISTER(rl); + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + *destreg = inc_word(*destreg); + } + break; + case 1: + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + u32 *destreg; + + destreg = DECODE_RM_LONG_REGISTER(rl); + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + *destreg = dec_long(*destreg); + } else { + u16 *destreg; + + destreg = DECODE_RM_WORD_REGISTER(rl); + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + *destreg = dec_word(*destreg); + } + break; + case 2: /* call word ptr ... */ + destreg = DECODE_RM_WORD_REGISTER(rl); + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + push_word(M.x86.R_IP); + M.x86.R_IP = *destreg; + break; + case 3: /* jmp far ptr ... */ + DECODE_PRINTF("OPERATION UNDEFINED 0XFF \n"); + TRACE_AND_STEP(); + HALT_SYS(); + break; + + case 4: /* jmp ... */ + destreg = DECODE_RM_WORD_REGISTER(rl); + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + M.x86.R_IP = (u16) (*destreg); + break; + case 5: /* jmp far ptr ... */ + DECODE_PRINTF("OPERATION UNDEFINED 0XFF \n"); + TRACE_AND_STEP(); + HALT_SYS(); + break; + case 6: + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + u32 *destreg; + + destreg = DECODE_RM_LONG_REGISTER(rl); + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + push_long(*destreg); + } else { + u16 *destreg; + + destreg = DECODE_RM_WORD_REGISTER(rl); + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + push_word(*destreg); + } + break; + } + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/*************************************************************************** + * Single byte operation code table: + **************************************************************************/ +void (*x86emu_optab[256])(u8) __attribute__ ((section(".got2"))) = +{ +/* 0x00 */ x86emuOp_genop_byte_RM_R, +/* 0x01 */ x86emuOp_genop_word_RM_R, +/* 0x02 */ x86emuOp_genop_byte_R_RM, +/* 0x03 */ x86emuOp_genop_word_R_RM, +/* 0x04 */ x86emuOp_genop_byte_AL_IMM, +/* 0x05 */ x86emuOp_genop_word_AX_IMM, +/* 0x06 */ x86emuOp_push_ES, +/* 0x07 */ x86emuOp_pop_ES, + +/* 0x08 */ x86emuOp_genop_byte_RM_R, +/* 0x09 */ x86emuOp_genop_word_RM_R, +/* 0x0a */ x86emuOp_genop_byte_R_RM, +/* 0x0b */ x86emuOp_genop_word_R_RM, +/* 0x0c */ x86emuOp_genop_byte_AL_IMM, +/* 0x0d */ x86emuOp_genop_word_AX_IMM, +/* 0x0e */ x86emuOp_push_CS, +/* 0x0f */ x86emuOp_two_byte, + +/* 0x10 */ x86emuOp_genop_byte_RM_R, +/* 0x11 */ x86emuOp_genop_word_RM_R, +/* 0x12 */ x86emuOp_genop_byte_R_RM, +/* 0x13 */ x86emuOp_genop_word_R_RM, +/* 0x14 */ x86emuOp_genop_byte_AL_IMM, +/* 0x15 */ x86emuOp_genop_word_AX_IMM, +/* 0x16 */ x86emuOp_push_SS, +/* 0x17 */ x86emuOp_pop_SS, + +/* 0x18 */ x86emuOp_genop_byte_RM_R, +/* 0x19 */ x86emuOp_genop_word_RM_R, +/* 0x1a */ x86emuOp_genop_byte_R_RM, +/* 0x1b */ x86emuOp_genop_word_R_RM, +/* 0x1c */ x86emuOp_genop_byte_AL_IMM, +/* 0x1d */ x86emuOp_genop_word_AX_IMM, +/* 0x1e */ x86emuOp_push_DS, +/* 0x1f */ x86emuOp_pop_DS, + +/* 0x20 */ x86emuOp_genop_byte_RM_R, +/* 0x21 */ x86emuOp_genop_word_RM_R, +/* 0x22 */ x86emuOp_genop_byte_R_RM, +/* 0x23 */ x86emuOp_genop_word_R_RM, +/* 0x24 */ x86emuOp_genop_byte_AL_IMM, +/* 0x25 */ x86emuOp_genop_word_AX_IMM, +/* 0x26 */ x86emuOp_segovr_ES, +/* 0x27 */ x86emuOp_daa, + +/* 0x28 */ x86emuOp_genop_byte_RM_R, +/* 0x29 */ x86emuOp_genop_word_RM_R, +/* 0x2a */ x86emuOp_genop_byte_R_RM, +/* 0x2b */ x86emuOp_genop_word_R_RM, +/* 0x2c */ x86emuOp_genop_byte_AL_IMM, +/* 0x2d */ x86emuOp_genop_word_AX_IMM, +/* 0x2e */ x86emuOp_segovr_CS, +/* 0x2f */ x86emuOp_das, + +/* 0x30 */ x86emuOp_genop_byte_RM_R, +/* 0x31 */ x86emuOp_genop_word_RM_R, +/* 0x32 */ x86emuOp_genop_byte_R_RM, +/* 0x33 */ x86emuOp_genop_word_R_RM, +/* 0x34 */ x86emuOp_genop_byte_AL_IMM, +/* 0x35 */ x86emuOp_genop_word_AX_IMM, +/* 0x36 */ x86emuOp_segovr_SS, +/* 0x37 */ x86emuOp_aaa, + +/* 0x38 */ x86emuOp_genop_byte_RM_R, +/* 0x39 */ x86emuOp_genop_word_RM_R, +/* 0x3a */ x86emuOp_genop_byte_R_RM, +/* 0x3b */ x86emuOp_genop_word_R_RM, +/* 0x3c */ x86emuOp_genop_byte_AL_IMM, +/* 0x3d */ x86emuOp_genop_word_AX_IMM, +/* 0x3e */ x86emuOp_segovr_DS, +/* 0x3f */ x86emuOp_aas, + +/* 0x40 */ x86emuOp_inc_register, +/* 0x41 */ x86emuOp_inc_register, +/* 0x42 */ x86emuOp_inc_register, +/* 0x43 */ x86emuOp_inc_register, +/* 0x44 */ x86emuOp_inc_register, +/* 0x45 */ x86emuOp_inc_register, +/* 0x46 */ x86emuOp_inc_register, +/* 0x47 */ x86emuOp_inc_register, + +/* 0x48 */ x86emuOp_dec_register, +/* 0x49 */ x86emuOp_dec_register, +/* 0x4a */ x86emuOp_dec_register, +/* 0x4b */ x86emuOp_dec_register, +/* 0x4c */ x86emuOp_dec_register, +/* 0x4d */ x86emuOp_dec_register, +/* 0x4e */ x86emuOp_dec_register, +/* 0x4f */ x86emuOp_dec_register, + +/* 0x50 */ x86emuOp_push_register, +/* 0x51 */ x86emuOp_push_register, +/* 0x52 */ x86emuOp_push_register, +/* 0x53 */ x86emuOp_push_register, +/* 0x54 */ x86emuOp_push_register, +/* 0x55 */ x86emuOp_push_register, +/* 0x56 */ x86emuOp_push_register, +/* 0x57 */ x86emuOp_push_register, + +/* 0x58 */ x86emuOp_pop_register, +/* 0x59 */ x86emuOp_pop_register, +/* 0x5a */ x86emuOp_pop_register, +/* 0x5b */ x86emuOp_pop_register, +/* 0x5c */ x86emuOp_pop_register, +/* 0x5d */ x86emuOp_pop_register, +/* 0x5e */ x86emuOp_pop_register, +/* 0x5f */ x86emuOp_pop_register, + +/* 0x60 */ x86emuOp_push_all, +/* 0x61 */ x86emuOp_pop_all, +/* 0x62 */ x86emuOp_illegal_op, /* bound */ +/* 0x63 */ x86emuOp_illegal_op, /* arpl */ +/* 0x64 */ x86emuOp_segovr_FS, +/* 0x65 */ x86emuOp_segovr_GS, +/* 0x66 */ x86emuOp_prefix_data, +/* 0x67 */ x86emuOp_prefix_addr, + +/* 0x68 */ x86emuOp_push_word_IMM, +/* 0x69 */ x86emuOp_imul_word_IMM, +/* 0x6a */ x86emuOp_push_byte_IMM, +/* 0x6b */ x86emuOp_imul_byte_IMM, +/* 0x6c */ x86emuOp_ins_byte, +/* 0x6d */ x86emuOp_ins_word, +/* 0x6e */ x86emuOp_outs_byte, +/* 0x6f */ x86emuOp_outs_word, + +/* 0x70 */ x86emuOp_jump_near_cond, +/* 0x71 */ x86emuOp_jump_near_cond, +/* 0x72 */ x86emuOp_jump_near_cond, +/* 0x73 */ x86emuOp_jump_near_cond, +/* 0x74 */ x86emuOp_jump_near_cond, +/* 0x75 */ x86emuOp_jump_near_cond, +/* 0x76 */ x86emuOp_jump_near_cond, +/* 0x77 */ x86emuOp_jump_near_cond, + +/* 0x78 */ x86emuOp_jump_near_cond, +/* 0x79 */ x86emuOp_jump_near_cond, +/* 0x7a */ x86emuOp_jump_near_cond, +/* 0x7b */ x86emuOp_jump_near_cond, +/* 0x7c */ x86emuOp_jump_near_cond, +/* 0x7d */ x86emuOp_jump_near_cond, +/* 0x7e */ x86emuOp_jump_near_cond, +/* 0x7f */ x86emuOp_jump_near_cond, + +/* 0x80 */ x86emuOp_opc80_byte_RM_IMM, +/* 0x81 */ x86emuOp_opc81_word_RM_IMM, +/* 0x82 */ x86emuOp_opc82_byte_RM_IMM, +/* 0x83 */ x86emuOp_opc83_word_RM_IMM, +/* 0x84 */ x86emuOp_test_byte_RM_R, +/* 0x85 */ x86emuOp_test_word_RM_R, +/* 0x86 */ x86emuOp_xchg_byte_RM_R, +/* 0x87 */ x86emuOp_xchg_word_RM_R, + +/* 0x88 */ x86emuOp_mov_byte_RM_R, +/* 0x89 */ x86emuOp_mov_word_RM_R, +/* 0x8a */ x86emuOp_mov_byte_R_RM, +/* 0x8b */ x86emuOp_mov_word_R_RM, +/* 0x8c */ x86emuOp_mov_word_RM_SR, +/* 0x8d */ x86emuOp_lea_word_R_M, +/* 0x8e */ x86emuOp_mov_word_SR_RM, +/* 0x8f */ x86emuOp_pop_RM, + +/* 0x90 */ x86emuOp_nop, +/* 0x91 */ x86emuOp_xchg_word_AX_register, +/* 0x92 */ x86emuOp_xchg_word_AX_register, +/* 0x93 */ x86emuOp_xchg_word_AX_register, +/* 0x94 */ x86emuOp_xchg_word_AX_register, +/* 0x95 */ x86emuOp_xchg_word_AX_register, +/* 0x96 */ x86emuOp_xchg_word_AX_register, +/* 0x97 */ x86emuOp_xchg_word_AX_register, + +/* 0x98 */ x86emuOp_cbw, +/* 0x99 */ x86emuOp_cwd, +/* 0x9a */ x86emuOp_call_far_IMM, +/* 0x9b */ x86emuOp_wait, +/* 0x9c */ x86emuOp_pushf_word, +/* 0x9d */ x86emuOp_popf_word, +/* 0x9e */ x86emuOp_sahf, +/* 0x9f */ x86emuOp_lahf, + +/* 0xa0 */ x86emuOp_mov_AL_M_IMM, +/* 0xa1 */ x86emuOp_mov_AX_M_IMM, +/* 0xa2 */ x86emuOp_mov_M_AL_IMM, +/* 0xa3 */ x86emuOp_mov_M_AX_IMM, +/* 0xa4 */ x86emuOp_movs_byte, +/* 0xa5 */ x86emuOp_movs_word, +/* 0xa6 */ x86emuOp_cmps_byte, +/* 0xa7 */ x86emuOp_cmps_word, +/* 0xa8 */ x86emuOp_test_AL_IMM, +/* 0xa9 */ x86emuOp_test_AX_IMM, +/* 0xaa */ x86emuOp_stos_byte, +/* 0xab */ x86emuOp_stos_word, +/* 0xac */ x86emuOp_lods_byte, +/* 0xad */ x86emuOp_lods_word, +/* 0xac */ x86emuOp_scas_byte, +/* 0xad */ x86emuOp_scas_word, + +/* 0xb0 */ x86emuOp_mov_byte_register_IMM, +/* 0xb1 */ x86emuOp_mov_byte_register_IMM, +/* 0xb2 */ x86emuOp_mov_byte_register_IMM, +/* 0xb3 */ x86emuOp_mov_byte_register_IMM, +/* 0xb4 */ x86emuOp_mov_byte_register_IMM, +/* 0xb5 */ x86emuOp_mov_byte_register_IMM, +/* 0xb6 */ x86emuOp_mov_byte_register_IMM, +/* 0xb7 */ x86emuOp_mov_byte_register_IMM, + +/* 0xb8 */ x86emuOp_mov_word_register_IMM, +/* 0xb9 */ x86emuOp_mov_word_register_IMM, +/* 0xba */ x86emuOp_mov_word_register_IMM, +/* 0xbb */ x86emuOp_mov_word_register_IMM, +/* 0xbc */ x86emuOp_mov_word_register_IMM, +/* 0xbd */ x86emuOp_mov_word_register_IMM, +/* 0xbe */ x86emuOp_mov_word_register_IMM, +/* 0xbf */ x86emuOp_mov_word_register_IMM, + +/* 0xc0 */ x86emuOp_opcC0_byte_RM_MEM, +/* 0xc1 */ x86emuOp_opcC1_word_RM_MEM, +/* 0xc2 */ x86emuOp_ret_near_IMM, +/* 0xc3 */ x86emuOp_ret_near, +/* 0xc4 */ x86emuOp_les_R_IMM, +/* 0xc5 */ x86emuOp_lds_R_IMM, +/* 0xc6 */ x86emuOp_mov_byte_RM_IMM, +/* 0xc7 */ x86emuOp_mov_word_RM_IMM, +/* 0xc8 */ x86emuOp_enter, +/* 0xc9 */ x86emuOp_leave, +/* 0xca */ x86emuOp_ret_far_IMM, +/* 0xcb */ x86emuOp_ret_far, +/* 0xcc */ x86emuOp_int3, +/* 0xcd */ x86emuOp_int_IMM, +/* 0xce */ x86emuOp_into, +/* 0xcf */ x86emuOp_iret, + +/* 0xd0 */ x86emuOp_opcD0_byte_RM_1, +/* 0xd1 */ x86emuOp_opcD1_word_RM_1, +/* 0xd2 */ x86emuOp_opcD2_byte_RM_CL, +/* 0xd3 */ x86emuOp_opcD3_word_RM_CL, +/* 0xd4 */ x86emuOp_aam, +/* 0xd5 */ x86emuOp_aad, +/* 0xd6 */ x86emuOp_illegal_op, /* Undocumented SETALC instruction */ +/* 0xd7 */ x86emuOp_xlat, +/* 0xd8 */ NULL, /*x86emuOp_esc_coprocess_d8,*/ +/* 0xd9 */ NULL, /*x86emuOp_esc_coprocess_d9,*/ +/* 0xda */ NULL, /*x86emuOp_esc_coprocess_da,*/ +/* 0xdb */ NULL, /*x86emuOp_esc_coprocess_db,*/ +/* 0xdc */ NULL, /*x86emuOp_esc_coprocess_dc,*/ +/* 0xdd */ NULL, /*x86emuOp_esc_coprocess_dd,*/ +/* 0xde */ NULL, /*x86emuOp_esc_coprocess_de,*/ +/* 0xdf */ NULL, /*x86emuOp_esc_coprocess_df,*/ + +/* 0xe0 */ x86emuOp_loopne, +/* 0xe1 */ x86emuOp_loope, +/* 0xe2 */ x86emuOp_loop, +/* 0xe3 */ x86emuOp_jcxz, +/* 0xe4 */ x86emuOp_in_byte_AL_IMM, +/* 0xe5 */ x86emuOp_in_word_AX_IMM, +/* 0xe6 */ x86emuOp_out_byte_IMM_AL, +/* 0xe7 */ x86emuOp_out_word_IMM_AX, + +/* 0xe8 */ x86emuOp_call_near_IMM, +/* 0xe9 */ x86emuOp_jump_near_IMM, +/* 0xea */ x86emuOp_jump_far_IMM, +/* 0xeb */ x86emuOp_jump_byte_IMM, +/* 0xec */ x86emuOp_in_byte_AL_DX, +/* 0xed */ x86emuOp_in_word_AX_DX, +/* 0xee */ x86emuOp_out_byte_DX_AL, +/* 0xef */ x86emuOp_out_word_DX_AX, + +/* 0xf0 */ x86emuOp_lock, +/* 0xf1 */ x86emuOp_illegal_op, +/* 0xf2 */ x86emuOp_repne, +/* 0xf3 */ x86emuOp_repe, +/* 0xf4 */ x86emuOp_halt, +/* 0xf5 */ x86emuOp_cmc, +/* 0xf6 */ x86emuOp_opcF6_byte_RM, +/* 0xf7 */ x86emuOp_opcF7_word_RM, + +/* 0xf8 */ x86emuOp_clc, +/* 0xf9 */ x86emuOp_stc, +/* 0xfa */ x86emuOp_cli, +/* 0xfb */ x86emuOp_sti, +/* 0xfc */ x86emuOp_cld, +/* 0xfd */ x86emuOp_std, +/* 0xfe */ x86emuOp_opcFE_byte_RM, +/* 0xff */ x86emuOp_opcFF_word_RM, +}; + +#endif diff --git a/drivers/bios_emulator/x86emu/ops2.c b/drivers/bios_emulator/x86emu/ops2.c new file mode 100644 index 0000000..81c0d49 --- /dev/null +++ b/drivers/bios_emulator/x86emu/ops2.c @@ -0,0 +1,1774 @@ +/**************************************************************************** +* +* Realmode X86 Emulator Library +* +* Copyright (C) 2007 Freescale Semiconductor, Inc. All rights reserved. +* Jason Jin <Jason.jin@freescale.com> +* +* Copyright (C) 1991-2004 SciTech Software, Inc. +* Copyright (C) David Mosberger-Tang +* Copyright (C) 1999 Egbert Eich +* +* ======================================================================== +* +* Permission to use, copy, modify, distribute, and sell this software and +* its documentation for any purpose is hereby granted without fee, +* provided that the above copyright notice appear in all copies and that +* both that copyright notice and this permission notice appear in +* supporting documentation, and that the name of the authors not be used +* in advertising or publicity pertaining to distribution of the software +* without specific, written prior permission. The authors makes no +* representations about the suitability of this software for any purpose. +* It is provided "as is" without express or implied warranty. +* +* THE AUTHORS DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, +* INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO +* EVENT SHALL THE AUTHORS BE LIABLE FOR ANY SPECIAL, INDIRECT OR +* CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF +* USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR +* OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR +* PERFORMANCE OF THIS SOFTWARE. +* +* ======================================================================== +* +* Language: ANSI C +* Environment: Any +* Developer: Kendall Bennett +* +* Description: This file includes subroutines to implement the decoding +* and emulation of all the x86 extended two-byte processor +* instructions. +* +* Jason port this file to u-boot. Put the function pointer into +* got2 sector. +* +****************************************************************************/ + +#include "x86emu/x86emui.h" + +#if defined(CONFIG_BIOSEMU) + +/*----------------------------- Implementation ----------------------------*/ + +/**************************************************************************** +PARAMETERS: +op1 - Instruction op code + +REMARKS: +Handles illegal opcodes. +****************************************************************************/ +void x86emuOp2_illegal_op( + u8 op2) +{ + START_OF_INSTR(); + DECODE_PRINTF("ILLEGAL EXTENDED X86 OPCODE\n"); + TRACE_REGS(); + printk("%04x:%04x: %02X ILLEGAL EXTENDED X86 OPCODE!\n", + M.x86.R_CS, M.x86.R_IP-2,op2); + HALT_SYS(); + END_OF_INSTR(); +} + +#define xorl(a,b) ((a) && !(b)) || (!(a) && (b)) + +/**************************************************************************** +REMARKS: +Handles opcode 0x0f,0x80-0x8F +****************************************************************************/ +int x86emu_check_jump_condition(u8 op) +{ + switch (op) { + case 0x0: + DECODE_PRINTF("JO\t"); + return ACCESS_FLAG(F_OF); + case 0x1: + DECODE_PRINTF("JNO\t"); + return !ACCESS_FLAG(F_OF); + break; + case 0x2: + DECODE_PRINTF("JB\t"); + return ACCESS_FLAG(F_CF); + break; + case 0x3: + DECODE_PRINTF("JNB\t"); + return !ACCESS_FLAG(F_CF); + break; + case 0x4: + DECODE_PRINTF("JZ\t"); + return ACCESS_FLAG(F_ZF); + break; + case 0x5: + DECODE_PRINTF("JNZ\t"); + return !ACCESS_FLAG(F_ZF); + break; + case 0x6: + DECODE_PRINTF("JBE\t"); + return ACCESS_FLAG(F_CF) || ACCESS_FLAG(F_ZF); + break; + case 0x7: + DECODE_PRINTF("JNBE\t"); + return !(ACCESS_FLAG(F_CF) || ACCESS_FLAG(F_ZF)); + break; + case 0x8: + DECODE_PRINTF("JS\t"); + return ACCESS_FLAG(F_SF); + break; + case 0x9: + DECODE_PRINTF("JNS\t"); + return !ACCESS_FLAG(F_SF); + break; + case 0xa: + DECODE_PRINTF("JP\t"); + return ACCESS_FLAG(F_PF); + break; + case 0xb: + DECODE_PRINTF("JNP\t"); + return !ACCESS_FLAG(F_PF); + break; + case 0xc: + DECODE_PRINTF("JL\t"); + return xorl(ACCESS_FLAG(F_SF), ACCESS_FLAG(F_OF)); + break; + case 0xd: + DECODE_PRINTF("JNL\t"); + return !xorl(ACCESS_FLAG(F_SF), ACCESS_FLAG(F_OF)); + break; + case 0xe: + DECODE_PRINTF("JLE\t"); + return (xorl(ACCESS_FLAG(F_SF), ACCESS_FLAG(F_OF)) || + ACCESS_FLAG(F_ZF)); + break; + default: + DECODE_PRINTF("JNLE\t"); + return !(xorl(ACCESS_FLAG(F_SF), ACCESS_FLAG(F_OF)) || + ACCESS_FLAG(F_ZF)); + } +} + +void x86emuOp2_long_jump(u8 op2) +{ + s32 target; + int cond; + + /* conditional jump to word offset. */ + START_OF_INSTR(); + cond = x86emu_check_jump_condition(op2 & 0xF); + target = (s16) fetch_word_imm(); + target += (s16) M.x86.R_IP; + DECODE_PRINTF2("%04x\n", target); + TRACE_AND_STEP(); + if (cond) + M.x86.R_IP = (u16)target; + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x0f,0x90-0x9F +****************************************************************************/ +void x86emuOp2_set_byte(u8 op2) +{ + int mod, rl, rh; + uint destoffset; + u8 *destreg; + char *name = 0; + int cond = 0; + + START_OF_INSTR(); + switch (op2) { + case 0x90: + name = "SETO\t"; + cond = ACCESS_FLAG(F_OF); + break; + case 0x91: + name = "SETNO\t"; + cond = !ACCESS_FLAG(F_OF); + break; + case 0x92: + name = "SETB\t"; + cond = ACCESS_FLAG(F_CF); + break; + case 0x93: + name = "SETNB\t"; + cond = !ACCESS_FLAG(F_CF); + break; + case 0x94: + name = "SETZ\t"; + cond = ACCESS_FLAG(F_ZF); + break; + case 0x95: + name = "SETNZ\t"; + cond = !ACCESS_FLAG(F_ZF); + break; + case 0x96: + name = "SETBE\t"; + cond = ACCESS_FLAG(F_CF) || ACCESS_FLAG(F_ZF); + break; + case 0x97: + name = "SETNBE\t"; + cond = !(ACCESS_FLAG(F_CF) || ACCESS_FLAG(F_ZF)); + break; + case 0x98: + name = "SETS\t"; + cond = ACCESS_FLAG(F_SF); + break; + case 0x99: + name = "SETNS\t"; + cond = !ACCESS_FLAG(F_SF); + break; + case 0x9a: + name = "SETP\t"; + cond = ACCESS_FLAG(F_PF); + break; + case 0x9b: + name = "SETNP\t"; + cond = !ACCESS_FLAG(F_PF); + break; + case 0x9c: + name = "SETL\t"; + cond = xorl(ACCESS_FLAG(F_SF), ACCESS_FLAG(F_OF)); + break; + case 0x9d: + name = "SETNL\t"; + cond = !xorl(ACCESS_FLAG(F_SF), ACCESS_FLAG(F_OF)); + break; + case 0x9e: + name = "SETLE\t"; + cond = (xorl(ACCESS_FLAG(F_SF), ACCESS_FLAG(F_OF)) || + ACCESS_FLAG(F_ZF)); + break; + case 0x9f: + name = "SETNLE\t"; + cond = !(xorl(ACCESS_FLAG(F_SF), ACCESS_FLAG(F_OF)) || + ACCESS_FLAG(F_ZF)); + break; + } + DECODE_PRINTF(name); + FETCH_DECODE_MODRM(mod, rh, rl); + if (mod < 3) { + destoffset = decode_rmXX_address(mod, rl); + TRACE_AND_STEP(); + store_data_byte(destoffset, cond ? 0x01 : 0x00); + } else { /* register to register */ + destreg = DECODE_RM_BYTE_REGISTER(rl); + TRACE_AND_STEP(); + *destreg = cond ? 0x01 : 0x00; + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x0f,0xa0 +****************************************************************************/ +void x86emuOp2_push_FS(u8 X86EMU_UNUSED(op2)) +{ + START_OF_INSTR(); + DECODE_PRINTF("PUSH\tFS\n"); + TRACE_AND_STEP(); + push_word(M.x86.R_FS); + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x0f,0xa1 +****************************************************************************/ +void x86emuOp2_pop_FS(u8 X86EMU_UNUSED(op2)) +{ + START_OF_INSTR(); + DECODE_PRINTF("POP\tFS\n"); + TRACE_AND_STEP(); + M.x86.R_FS = pop_word(); + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x0f,0xa3 +****************************************************************************/ +void x86emuOp2_bt_R(u8 X86EMU_UNUSED(op2)) +{ + int mod, rl, rh; + uint srcoffset; + int bit,disp; + + START_OF_INSTR(); + DECODE_PRINTF("BT\t"); + FETCH_DECODE_MODRM(mod, rh, rl); + if (mod < 3) { + srcoffset = decode_rmXX_address(mod, rl); + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + u32 srcval; + u32 *shiftreg; + + DECODE_PRINTF(","); + shiftreg = DECODE_RM_LONG_REGISTER(rh); + TRACE_AND_STEP(); + bit = *shiftreg & 0x1F; + disp = (s16)*shiftreg >> 5; + srcval = fetch_data_long(srcoffset+disp); + CONDITIONAL_SET_FLAG(srcval & (0x1 << bit),F_CF); + } else { + u16 srcval; + u16 *shiftreg; + + DECODE_PRINTF(","); + shiftreg = DECODE_RM_WORD_REGISTER(rh); + TRACE_AND_STEP(); + bit = *shiftreg & 0xF; + disp = (s16)*shiftreg >> 4; + srcval = fetch_data_word(srcoffset+disp); + CONDITIONAL_SET_FLAG(srcval & (0x1 << bit),F_CF); + } + } else { /* register to register */ + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + u32 *srcreg,*shiftreg; + + srcreg = DECODE_RM_LONG_REGISTER(rl); + DECODE_PRINTF(","); + shiftreg = DECODE_RM_LONG_REGISTER(rh); + TRACE_AND_STEP(); + bit = *shiftreg & 0x1F; + CONDITIONAL_SET_FLAG(*srcreg & (0x1 << bit),F_CF); + } else { + u16 *srcreg,*shiftreg; + + srcreg = DECODE_RM_WORD_REGISTER(rl); + DECODE_PRINTF(","); + shiftreg = DECODE_RM_WORD_REGISTER(rh); + TRACE_AND_STEP(); + bit = *shiftreg & 0xF; + CONDITIONAL_SET_FLAG(*srcreg & (0x1 << bit),F_CF); + } + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x0f,0xa4 +****************************************************************************/ +void x86emuOp2_shld_IMM(u8 X86EMU_UNUSED(op2)) +{ + int mod, rl, rh; + uint destoffset; + u8 shift; + + START_OF_INSTR(); + DECODE_PRINTF("SHLD\t"); + FETCH_DECODE_MODRM(mod, rh, rl); + if (mod < 3) { + destoffset = decode_rmXX_address(mod, rl); + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + u32 destval; + u32 *shiftreg; + + DECODE_PRINTF(","); + shiftreg = DECODE_RM_LONG_REGISTER(rh); + DECODE_PRINTF(","); + shift = fetch_byte_imm(); + DECODE_PRINTF2("%d\n", shift); + TRACE_AND_STEP(); + destval = fetch_data_long(destoffset); + destval = shld_long(destval,*shiftreg,shift); + store_data_long(destoffset, destval); + } else { + u16 destval; + u16 *shiftreg; + + DECODE_PRINTF(","); + shiftreg = DECODE_RM_WORD_REGISTER(rh); + DECODE_PRINTF(","); + shift = fetch_byte_imm(); + DECODE_PRINTF2("%d\n", shift); + TRACE_AND_STEP(); + destval = fetch_data_word(destoffset); + destval = shld_word(destval,*shiftreg,shift); + store_data_word(destoffset, destval); + } + } else { /* register to register */ + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + u32 *destreg,*shiftreg; + + destreg = DECODE_RM_LONG_REGISTER(rl); + DECODE_PRINTF(","); + shiftreg = DECODE_RM_LONG_REGISTER(rh); + DECODE_PRINTF(","); + shift = fetch_byte_imm(); + DECODE_PRINTF2("%d\n", shift); + TRACE_AND_STEP(); + *destreg = shld_long(*destreg,*shiftreg,shift); + } else { + u16 *destreg,*shiftreg; + + destreg = DECODE_RM_WORD_REGISTER(rl); + DECODE_PRINTF(","); + shiftreg = DECODE_RM_WORD_REGISTER(rh); + DECODE_PRINTF(","); + shift = fetch_byte_imm(); + DECODE_PRINTF2("%d\n", shift); + TRACE_AND_STEP(); + *destreg = shld_word(*destreg,*shiftreg,shift); + } + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x0f,0xa5 +****************************************************************************/ +void x86emuOp2_shld_CL(u8 X86EMU_UNUSED(op2)) +{ + int mod, rl, rh; + uint destoffset; + + START_OF_INSTR(); + DECODE_PRINTF("SHLD\t"); + FETCH_DECODE_MODRM(mod, rh, rl); + if (mod < 3) { + destoffset = decode_rmXX_address(mod, rl); + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + u32 destval; + u32 *shiftreg; + + DECODE_PRINTF(","); + shiftreg = DECODE_RM_LONG_REGISTER(rh); + DECODE_PRINTF(",CL\n"); + TRACE_AND_STEP(); + destval = fetch_data_long(destoffset); + destval = shld_long(destval,*shiftreg,M.x86.R_CL); + store_data_long(destoffset, destval); + } else { + u16 destval; + u16 *shiftreg; + + DECODE_PRINTF(","); + shiftreg = DECODE_RM_WORD_REGISTER(rh); + DECODE_PRINTF(",CL\n"); + TRACE_AND_STEP(); + destval = fetch_data_word(destoffset); + destval = shld_word(destval,*shiftreg,M.x86.R_CL); + store_data_word(destoffset, destval); + } + } else { /* register to register */ + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + u32 *destreg,*shiftreg; + + destreg = DECODE_RM_LONG_REGISTER(rl); + DECODE_PRINTF(","); + shiftreg = DECODE_RM_LONG_REGISTER(rh); + DECODE_PRINTF(",CL\n"); + TRACE_AND_STEP(); + *destreg = shld_long(*destreg,*shiftreg,M.x86.R_CL); + } else { + u16 *destreg,*shiftreg; + + destreg = DECODE_RM_WORD_REGISTER(rl); + DECODE_PRINTF(","); + shiftreg = DECODE_RM_WORD_REGISTER(rh); + DECODE_PRINTF(",CL\n"); + TRACE_AND_STEP(); + *destreg = shld_word(*destreg,*shiftreg,M.x86.R_CL); + } + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x0f,0xa8 +****************************************************************************/ +void x86emuOp2_push_GS(u8 X86EMU_UNUSED(op2)) +{ + START_OF_INSTR(); + DECODE_PRINTF("PUSH\tGS\n"); + TRACE_AND_STEP(); + push_word(M.x86.R_GS); + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x0f,0xa9 +****************************************************************************/ +void x86emuOp2_pop_GS(u8 X86EMU_UNUSED(op2)) +{ + START_OF_INSTR(); + DECODE_PRINTF("POP\tGS\n"); + TRACE_AND_STEP(); + M.x86.R_GS = pop_word(); + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x0f,0xaa +****************************************************************************/ +void x86emuOp2_bts_R(u8 X86EMU_UNUSED(op2)) +{ + int mod, rl, rh; + uint srcoffset; + int bit,disp; + + START_OF_INSTR(); + DECODE_PRINTF("BTS\t"); + FETCH_DECODE_MODRM(mod, rh, rl); + if (mod < 3) { + srcoffset = decode_rmXX_address(mod, rl); + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + u32 srcval,mask; + u32 *shiftreg; + + DECODE_PRINTF(","); + shiftreg = DECODE_RM_LONG_REGISTER(rh); + TRACE_AND_STEP(); + bit = *shiftreg & 0x1F; + disp = (s16)*shiftreg >> 5; + srcval = fetch_data_long(srcoffset+disp); + mask = (0x1 << bit); + CONDITIONAL_SET_FLAG(srcval & mask,F_CF); + store_data_long(srcoffset+disp, srcval | mask); + } else { + u16 srcval,mask; + u16 *shiftreg; + + DECODE_PRINTF(","); + shiftreg = DECODE_RM_WORD_REGISTER(rh); + TRACE_AND_STEP(); + bit = *shiftreg & 0xF; + disp = (s16)*shiftreg >> 4; + srcval = fetch_data_word(srcoffset+disp); + mask = (u16)(0x1 << bit); + CONDITIONAL_SET_FLAG(srcval & mask,F_CF); + store_data_word(srcoffset+disp, srcval | mask); + } + } else { /* register to register */ + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + u32 *srcreg,*shiftreg; + u32 mask; + + srcreg = DECODE_RM_LONG_REGISTER(rl); + DECODE_PRINTF(","); + shiftreg = DECODE_RM_LONG_REGISTER(rh); + TRACE_AND_STEP(); + bit = *shiftreg & 0x1F; + mask = (0x1 << bit); + CONDITIONAL_SET_FLAG(*srcreg & mask,F_CF); + *srcreg |= mask; + } else { + u16 *srcreg,*shiftreg; + u16 mask; + + srcreg = DECODE_RM_WORD_REGISTER(rl); + DECODE_PRINTF(","); + shiftreg = DECODE_RM_WORD_REGISTER(rh); + TRACE_AND_STEP(); + bit = *shiftreg & 0xF; + mask = (u16)(0x1 << bit); + CONDITIONAL_SET_FLAG(*srcreg & mask,F_CF); + *srcreg |= mask; + } + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x0f,0xac +****************************************************************************/ +void x86emuOp2_shrd_IMM(u8 X86EMU_UNUSED(op2)) +{ + int mod, rl, rh; + uint destoffset; + u8 shift; + + START_OF_INSTR(); + DECODE_PRINTF("SHLD\t"); + FETCH_DECODE_MODRM(mod, rh, rl); + if (mod < 3) { + destoffset = decode_rmXX_address(mod, rl); + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + u32 destval; + u32 *shiftreg; + + DECODE_PRINTF(","); + shiftreg = DECODE_RM_LONG_REGISTER(rh); + DECODE_PRINTF(","); + shift = fetch_byte_imm(); + DECODE_PRINTF2("%d\n", shift); + TRACE_AND_STEP(); + destval = fetch_data_long(destoffset); + destval = shrd_long(destval,*shiftreg,shift); + store_data_long(destoffset, destval); + } else { + u16 destval; + u16 *shiftreg; + + DECODE_PRINTF(","); + shiftreg = DECODE_RM_WORD_REGISTER(rh); + DECODE_PRINTF(","); + shift = fetch_byte_imm(); + DECODE_PRINTF2("%d\n", shift); + TRACE_AND_STEP(); + destval = fetch_data_word(destoffset); + destval = shrd_word(destval,*shiftreg,shift); + store_data_word(destoffset, destval); + } + } else { /* register to register */ + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + u32 *destreg,*shiftreg; + + destreg = DECODE_RM_LONG_REGISTER(rl); + DECODE_PRINTF(","); + shiftreg = DECODE_RM_LONG_REGISTER(rh); + DECODE_PRINTF(","); + shift = fetch_byte_imm(); + DECODE_PRINTF2("%d\n", shift); + TRACE_AND_STEP(); + *destreg = shrd_long(*destreg,*shiftreg,shift); + } else { + u16 *destreg,*shiftreg; + + destreg = DECODE_RM_WORD_REGISTER(rl); + DECODE_PRINTF(","); + shiftreg = DECODE_RM_WORD_REGISTER(rh); + DECODE_PRINTF(","); + shift = fetch_byte_imm(); + DECODE_PRINTF2("%d\n", shift); + TRACE_AND_STEP(); + *destreg = shrd_word(*destreg,*shiftreg,shift); + } + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x0f,0xad +****************************************************************************/ +void x86emuOp2_shrd_CL(u8 X86EMU_UNUSED(op2)) +{ + int mod, rl, rh; + uint destoffset; + + START_OF_INSTR(); + DECODE_PRINTF("SHLD\t"); + FETCH_DECODE_MODRM(mod, rh, rl); + if (mod < 3) { + destoffset = decode_rmXX_address(mod, rl); + DECODE_PRINTF(","); + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + u32 destval; + u32 *shiftreg; + + shiftreg = DECODE_RM_LONG_REGISTER(rh); + DECODE_PRINTF(",CL\n"); + TRACE_AND_STEP(); + destval = fetch_data_long(destoffset); + destval = shrd_long(destval,*shiftreg,M.x86.R_CL); + store_data_long(destoffset, destval); + } else { + u16 destval; + u16 *shiftreg; + + shiftreg = DECODE_RM_WORD_REGISTER(rh); + DECODE_PRINTF(",CL\n"); + TRACE_AND_STEP(); + destval = fetch_data_word(destoffset); + destval = shrd_word(destval,*shiftreg,M.x86.R_CL); + store_data_word(destoffset, destval); + } + } else { /* register to register */ + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + u32 *destreg,*shiftreg; + + destreg = DECODE_RM_LONG_REGISTER(rl); + DECODE_PRINTF(","); + shiftreg = DECODE_RM_LONG_REGISTER(rh); + DECODE_PRINTF(",CL\n"); + TRACE_AND_STEP(); + *destreg = shrd_long(*destreg,*shiftreg,M.x86.R_CL); + } else { + u16 *destreg,*shiftreg; + + destreg = DECODE_RM_WORD_REGISTER(rl); + DECODE_PRINTF(","); + shiftreg = DECODE_RM_WORD_REGISTER(rh); + DECODE_PRINTF(",CL\n"); + TRACE_AND_STEP(); + *destreg = shrd_word(*destreg,*shiftreg,M.x86.R_CL); + } + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x0f,0xaf +****************************************************************************/ +void x86emuOp2_imul_R_RM(u8 X86EMU_UNUSED(op2)) +{ + int mod, rl, rh; + uint srcoffset; + + START_OF_INSTR(); + DECODE_PRINTF("IMUL\t"); + FETCH_DECODE_MODRM(mod, rh, rl); + if (mod < 3) { + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + u32 *destreg; + u32 srcval; + u32 res_lo,res_hi; + + destreg = DECODE_RM_LONG_REGISTER(rh); + DECODE_PRINTF(","); + srcoffset = decode_rmXX_address(mod, rl); + srcval = fetch_data_long(srcoffset); + TRACE_AND_STEP(); + imul_long_direct(&res_lo,&res_hi,(s32)*destreg,(s32)srcval); + if (res_hi != 0) { + SET_FLAG(F_CF); + SET_FLAG(F_OF); + } else { + CLEAR_FLAG(F_CF); + CLEAR_FLAG(F_OF); + } + *destreg = (u32)res_lo; + } else { + u16 *destreg; + u16 srcval; + u32 res; + + destreg = DECODE_RM_WORD_REGISTER(rh); + DECODE_PRINTF(","); + srcoffset = decode_rmXX_address(mod, rl); + srcval = fetch_data_word(srcoffset); + TRACE_AND_STEP(); + res = (s16)*destreg * (s16)srcval; + if (res > 0xFFFF) { + SET_FLAG(F_CF); + SET_FLAG(F_OF); + } else { + CLEAR_FLAG(F_CF); + CLEAR_FLAG(F_OF); + } + *destreg = (u16)res; + } + } else { /* register to register */ + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + u32 *destreg,*srcreg; + u32 res_lo,res_hi; + + destreg = DECODE_RM_LONG_REGISTER(rh); + DECODE_PRINTF(","); + srcreg = DECODE_RM_LONG_REGISTER(rl); + TRACE_AND_STEP(); + imul_long_direct(&res_lo,&res_hi,(s32)*destreg,(s32)*srcreg); + if (res_hi != 0) { + SET_FLAG(F_CF); + SET_FLAG(F_OF); + } else { + CLEAR_FLAG(F_CF); + CLEAR_FLAG(F_OF); + } + *destreg = (u32)res_lo; + } else { + u16 *destreg,*srcreg; + u32 res; + + destreg = DECODE_RM_WORD_REGISTER(rh); + DECODE_PRINTF(","); + srcreg = DECODE_RM_WORD_REGISTER(rl); + res = (s16)*destreg * (s16)*srcreg; + if (res > 0xFFFF) { + SET_FLAG(F_CF); + SET_FLAG(F_OF); + } else { + CLEAR_FLAG(F_CF); + CLEAR_FLAG(F_OF); + } + *destreg = (u16)res; + } + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x0f,0xb2 +****************************************************************************/ +void x86emuOp2_lss_R_IMM(u8 X86EMU_UNUSED(op2)) +{ + int mod, rh, rl; + u16 *dstreg; + uint srcoffset; + + START_OF_INSTR(); + DECODE_PRINTF("LSS\t"); + FETCH_DECODE_MODRM(mod, rh, rl); + if (mod < 3) { + dstreg = DECODE_RM_WORD_REGISTER(rh); + DECODE_PRINTF(","); + srcoffset = decode_rmXX_address(mod, rl); + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + *dstreg = fetch_data_word(srcoffset); + M.x86.R_SS = fetch_data_word(srcoffset + 2); + } else { /* register to register */ + /* UNDEFINED! */ + TRACE_AND_STEP(); + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x0f,0xb3 +****************************************************************************/ +void x86emuOp2_btr_R(u8 X86EMU_UNUSED(op2)) +{ + int mod, rl, rh; + uint srcoffset; + int bit,disp; + + START_OF_INSTR(); + DECODE_PRINTF("BTR\t"); + FETCH_DECODE_MODRM(mod, rh, rl); + if (mod < 3) { + srcoffset = decode_rmXX_address(mod, rl); + DECODE_PRINTF(","); + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + u32 srcval,mask; + u32 *shiftreg; + + shiftreg = DECODE_RM_LONG_REGISTER(rh); + TRACE_AND_STEP(); + bit = *shiftreg & 0x1F; + disp = (s16)*shiftreg >> 5; + srcval = fetch_data_long(srcoffset+disp); + mask = (0x1 << bit); + CONDITIONAL_SET_FLAG(srcval & mask,F_CF); + store_data_long(srcoffset+disp, srcval & ~mask); + } else { + u16 srcval,mask; + u16 *shiftreg; + + shiftreg = DECODE_RM_WORD_REGISTER(rh); + TRACE_AND_STEP(); + bit = *shiftreg & 0xF; + disp = (s16)*shiftreg >> 4; + srcval = fetch_data_word(srcoffset+disp); + mask = (u16)(0x1 << bit); + CONDITIONAL_SET_FLAG(srcval & mask,F_CF); + store_data_word(srcoffset+disp, (u16)(srcval & ~mask)); + } + } else { /* register to register */ + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + u32 *srcreg,*shiftreg; + u32 mask; + + srcreg = DECODE_RM_LONG_REGISTER(rl); + DECODE_PRINTF(","); + shiftreg = DECODE_RM_LONG_REGISTER(rh); + TRACE_AND_STEP(); + bit = *shiftreg & 0x1F; + mask = (0x1 << bit); + CONDITIONAL_SET_FLAG(*srcreg & mask,F_CF); + *srcreg &= ~mask; + } else { + u16 *srcreg,*shiftreg; + u16 mask; + + srcreg = DECODE_RM_WORD_REGISTER(rl); + DECODE_PRINTF(","); + shiftreg = DECODE_RM_WORD_REGISTER(rh); + TRACE_AND_STEP(); + bit = *shiftreg & 0xF; + mask = (u16)(0x1 << bit); + CONDITIONAL_SET_FLAG(*srcreg & mask,F_CF); + *srcreg &= ~mask; + } + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x0f,0xb4 +****************************************************************************/ +void x86emuOp2_lfs_R_IMM(u8 X86EMU_UNUSED(op2)) +{ + int mod, rh, rl; + u16 *dstreg; + uint srcoffset; + + START_OF_INSTR(); + DECODE_PRINTF("LFS\t"); + FETCH_DECODE_MODRM(mod, rh, rl); + if (mod < 3) { + dstreg = DECODE_RM_WORD_REGISTER(rh); + DECODE_PRINTF(","); + srcoffset = decode_rmXX_address(mod, rl); + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + *dstreg = fetch_data_word(srcoffset); + M.x86.R_FS = fetch_data_word(srcoffset + 2); + } else { /* register to register */ + /* UNDEFINED! */ + TRACE_AND_STEP(); + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x0f,0xb5 +****************************************************************************/ +void x86emuOp2_lgs_R_IMM(u8 X86EMU_UNUSED(op2)) +{ + int mod, rh, rl; + u16 *dstreg; + uint srcoffset; + + START_OF_INSTR(); + DECODE_PRINTF("LGS\t"); + FETCH_DECODE_MODRM(mod, rh, rl); + if (mod < 3) { + dstreg = DECODE_RM_WORD_REGISTER(rh); + DECODE_PRINTF(","); + srcoffset = decode_rmXX_address(mod, rl); + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + *dstreg = fetch_data_word(srcoffset); + M.x86.R_GS = fetch_data_word(srcoffset + 2); + } else { /* register to register */ + /* UNDEFINED! */ + TRACE_AND_STEP(); + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x0f,0xb6 +****************************************************************************/ +void x86emuOp2_movzx_byte_R_RM(u8 X86EMU_UNUSED(op2)) +{ + int mod, rl, rh; + uint srcoffset; + + START_OF_INSTR(); + DECODE_PRINTF("MOVZX\t"); + FETCH_DECODE_MODRM(mod, rh, rl); + if (mod < 3) { + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + u32 *destreg; + u32 srcval; + + destreg = DECODE_RM_LONG_REGISTER(rh); + DECODE_PRINTF(","); + srcoffset = decode_rmXX_address(mod, rl); + srcval = fetch_data_byte(srcoffset); + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + *destreg = srcval; + } else { + u16 *destreg; + u16 srcval; + + destreg = DECODE_RM_WORD_REGISTER(rh); + DECODE_PRINTF(","); + srcoffset = decode_rmXX_address(mod, rl); + srcval = fetch_data_byte(srcoffset); + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + *destreg = srcval; + } + } else { /* register to register */ + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + u32 *destreg; + u8 *srcreg; + + destreg = DECODE_RM_LONG_REGISTER(rh); + DECODE_PRINTF(","); + srcreg = DECODE_RM_BYTE_REGISTER(rl); + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + *destreg = *srcreg; + } else { + u16 *destreg; + u8 *srcreg; + + destreg = DECODE_RM_WORD_REGISTER(rh); + DECODE_PRINTF(","); + srcreg = DECODE_RM_BYTE_REGISTER(rl); + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + *destreg = *srcreg; + } + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x0f,0xb7 +****************************************************************************/ +void x86emuOp2_movzx_word_R_RM(u8 X86EMU_UNUSED(op2)) +{ + int mod, rl, rh; + uint srcoffset; + u32 *destreg; + u32 srcval; + u16 *srcreg; + + START_OF_INSTR(); + DECODE_PRINTF("MOVZX\t"); + FETCH_DECODE_MODRM(mod, rh, rl); + if (mod < 3) { + destreg = DECODE_RM_LONG_REGISTER(rh); + DECODE_PRINTF(","); + srcoffset = decode_rmXX_address(mod, rl); + srcval = fetch_data_word(srcoffset); + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + *destreg = srcval; + } else { /* register to register */ + destreg = DECODE_RM_LONG_REGISTER(rh); + DECODE_PRINTF(","); + srcreg = DECODE_RM_WORD_REGISTER(rl); + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + *destreg = *srcreg; + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x0f,0xba +****************************************************************************/ +void x86emuOp2_btX_I(u8 X86EMU_UNUSED(op2)) +{ + int mod, rl, rh; + uint srcoffset; + u8 shift; + int bit; + + START_OF_INSTR(); + FETCH_DECODE_MODRM(mod, rh, rl); + switch (rh) { + case 4: + DECODE_PRINTF("BT\t"); + break; + case 5: + DECODE_PRINTF("BTS\t"); + break; + case 6: + DECODE_PRINTF("BTR\t"); + break; + case 7: + DECODE_PRINTF("BTC\t"); + break; + default: + DECODE_PRINTF("ILLEGAL EXTENDED X86 OPCODE\n"); + TRACE_REGS(); + printk("%04x:%04x: %02X%02X ILLEGAL EXTENDED X86 OPCODE EXTENSION!\n", + M.x86.R_CS, M.x86.R_IP-3,op2, (mod<<6)|(rh<<3)|rl); + HALT_SYS(); + } + if (mod < 3) { + + srcoffset = decode_rmXX_address(mod, rl); + shift = fetch_byte_imm(); + DECODE_PRINTF2(",%d\n", shift); + TRACE_AND_STEP(); + + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + u32 srcval, mask; + + bit = shift & 0x1F; + srcval = fetch_data_long(srcoffset); + mask = (0x1 << bit); + CONDITIONAL_SET_FLAG(srcval & mask,F_CF); + switch (rh) { + case 5: + store_data_long(srcoffset, srcval | mask); + break; + case 6: + store_data_long(srcoffset, srcval & ~mask); + break; + case 7: + store_data_long(srcoffset, srcval ^ mask); + break; + default: + break; + } + } else { + u16 srcval, mask; + + bit = shift & 0xF; + srcval = fetch_data_word(srcoffset); + mask = (0x1 << bit); + CONDITIONAL_SET_FLAG(srcval & mask,F_CF); + switch (rh) { + case 5: + store_data_word(srcoffset, srcval | mask); + break; + case 6: + store_data_word(srcoffset, srcval & ~mask); + break; + case 7: + store_data_word(srcoffset, srcval ^ mask); + break; + default: + break; + } + } + } else { /* register to register */ + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + u32 *srcreg; + u32 mask; + + srcreg = DECODE_RM_LONG_REGISTER(rl); + shift = fetch_byte_imm(); + DECODE_PRINTF2(",%d\n", shift); + TRACE_AND_STEP(); + bit = shift & 0x1F; + mask = (0x1 << bit); + CONDITIONAL_SET_FLAG(*srcreg & mask,F_CF); + switch (rh) { + case 5: + *srcreg |= mask; + break; + case 6: + *srcreg &= ~mask; + break; + case 7: + *srcreg ^= mask; + break; + default: + break; + } + } else { + u16 *srcreg; + u16 mask; + + srcreg = DECODE_RM_WORD_REGISTER(rl); + shift = fetch_byte_imm(); + DECODE_PRINTF2(",%d\n", shift); + TRACE_AND_STEP(); + bit = shift & 0xF; + mask = (0x1 << bit); + CONDITIONAL_SET_FLAG(*srcreg & mask,F_CF); + switch (rh) { + case 5: + *srcreg |= mask; + break; + case 6: + *srcreg &= ~mask; + break; + case 7: + *srcreg ^= mask; + break; + default: + break; + } + } + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x0f,0xbb +****************************************************************************/ +void x86emuOp2_btc_R(u8 X86EMU_UNUSED(op2)) +{ + int mod, rl, rh; + uint srcoffset; + int bit,disp; + + START_OF_INSTR(); + DECODE_PRINTF("BTC\t"); + FETCH_DECODE_MODRM(mod, rh, rl); + if (mod < 3) { + srcoffset = decode_rmXX_address(mod, rl); + DECODE_PRINTF(","); + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + u32 srcval,mask; + u32 *shiftreg; + + shiftreg = DECODE_RM_LONG_REGISTER(rh); + TRACE_AND_STEP(); + bit = *shiftreg & 0x1F; + disp = (s16)*shiftreg >> 5; + srcval = fetch_data_long(srcoffset+disp); + mask = (0x1 << bit); + CONDITIONAL_SET_FLAG(srcval & mask,F_CF); + store_data_long(srcoffset+disp, srcval ^ mask); + } else { + u16 srcval,mask; + u16 *shiftreg; + + shiftreg = DECODE_RM_WORD_REGISTER(rh); + TRACE_AND_STEP(); + bit = *shiftreg & 0xF; + disp = (s16)*shiftreg >> 4; + srcval = fetch_data_word(srcoffset+disp); + mask = (u16)(0x1 << bit); + CONDITIONAL_SET_FLAG(srcval & mask,F_CF); + store_data_word(srcoffset+disp, (u16)(srcval ^ mask)); + } + } else { /* register to register */ + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + u32 *srcreg,*shiftreg; + u32 mask; + + srcreg = DECODE_RM_LONG_REGISTER(rl); + DECODE_PRINTF(","); + shiftreg = DECODE_RM_LONG_REGISTER(rh); + TRACE_AND_STEP(); + bit = *shiftreg & 0x1F; + mask = (0x1 << bit); + CONDITIONAL_SET_FLAG(*srcreg & mask,F_CF); + *srcreg ^= mask; + } else { + u16 *srcreg,*shiftreg; + u16 mask; + + srcreg = DECODE_RM_WORD_REGISTER(rl); + DECODE_PRINTF(","); + shiftreg = DECODE_RM_WORD_REGISTER(rh); + TRACE_AND_STEP(); + bit = *shiftreg & 0xF; + mask = (u16)(0x1 << bit); + CONDITIONAL_SET_FLAG(*srcreg & mask,F_CF); + *srcreg ^= mask; + } + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x0f,0xbc +****************************************************************************/ +void x86emuOp2_bsf(u8 X86EMU_UNUSED(op2)) +{ + int mod, rl, rh; + uint srcoffset; + + START_OF_INSTR(); + DECODE_PRINTF("BSF\n"); + FETCH_DECODE_MODRM(mod, rh, rl); + if (mod < 3) { + srcoffset = decode_rmXX_address(mod, rl); + DECODE_PRINTF(","); + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + u32 srcval, *dstreg; + + dstreg = DECODE_RM_LONG_REGISTER(rh); + TRACE_AND_STEP(); + srcval = fetch_data_long(srcoffset); + CONDITIONAL_SET_FLAG(srcval == 0, F_ZF); + for(*dstreg = 0; *dstreg < 32; (*dstreg)++) + if ((srcval >> *dstreg) & 1) break; + } else { + u16 srcval, *dstreg; + + dstreg = DECODE_RM_WORD_REGISTER(rh); + TRACE_AND_STEP(); + srcval = fetch_data_word(srcoffset); + CONDITIONAL_SET_FLAG(srcval == 0, F_ZF); + for(*dstreg = 0; *dstreg < 16; (*dstreg)++) + if ((srcval >> *dstreg) & 1) break; + } + } else { /* register to register */ + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + u32 *srcreg, *dstreg; + + srcreg = DECODE_RM_LONG_REGISTER(rl); + DECODE_PRINTF(","); + dstreg = DECODE_RM_LONG_REGISTER(rh); + TRACE_AND_STEP(); + CONDITIONAL_SET_FLAG(*srcreg == 0, F_ZF); + for(*dstreg = 0; *dstreg < 32; (*dstreg)++) + if ((*srcreg >> *dstreg) & 1) break; + } else { + u16 *srcreg, *dstreg; + + srcreg = DECODE_RM_WORD_REGISTER(rl); + DECODE_PRINTF(","); + dstreg = DECODE_RM_WORD_REGISTER(rh); + TRACE_AND_STEP(); + CONDITIONAL_SET_FLAG(*srcreg == 0, F_ZF); + for(*dstreg = 0; *dstreg < 16; (*dstreg)++) + if ((*srcreg >> *dstreg) & 1) break; + } + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x0f,0xbd +****************************************************************************/ +void x86emuOp2_bsr(u8 X86EMU_UNUSED(op2)) +{ + int mod, rl, rh; + uint srcoffset; + + START_OF_INSTR(); + DECODE_PRINTF("BSF\n"); + FETCH_DECODE_MODRM(mod, rh, rl); + if (mod < 3) { + srcoffset = decode_rmXX_address(mod, rl); + DECODE_PRINTF(","); + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + u32 srcval, *dstreg; + + dstreg = DECODE_RM_LONG_REGISTER(rh); + TRACE_AND_STEP(); + srcval = fetch_data_long(srcoffset); + CONDITIONAL_SET_FLAG(srcval == 0, F_ZF); + for(*dstreg = 31; *dstreg > 0; (*dstreg)--) + if ((srcval >> *dstreg) & 1) break; + } else { + u16 srcval, *dstreg; + + dstreg = DECODE_RM_WORD_REGISTER(rh); + TRACE_AND_STEP(); + srcval = fetch_data_word(srcoffset); + CONDITIONAL_SET_FLAG(srcval == 0, F_ZF); + for(*dstreg = 15; *dstreg > 0; (*dstreg)--) + if ((srcval >> *dstreg) & 1) break; + } + } else { /* register to register */ + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + u32 *srcreg, *dstreg; + + srcreg = DECODE_RM_LONG_REGISTER(rl); + DECODE_PRINTF(","); + dstreg = DECODE_RM_LONG_REGISTER(rh); + TRACE_AND_STEP(); + CONDITIONAL_SET_FLAG(*srcreg == 0, F_ZF); + for(*dstreg = 31; *dstreg > 0; (*dstreg)--) + if ((*srcreg >> *dstreg) & 1) break; + } else { + u16 *srcreg, *dstreg; + + srcreg = DECODE_RM_WORD_REGISTER(rl); + DECODE_PRINTF(","); + dstreg = DECODE_RM_WORD_REGISTER(rh); + TRACE_AND_STEP(); + CONDITIONAL_SET_FLAG(*srcreg == 0, F_ZF); + for(*dstreg = 15; *dstreg > 0; (*dstreg)--) + if ((*srcreg >> *dstreg) & 1) break; + } + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x0f,0xbe +****************************************************************************/ +void x86emuOp2_movsx_byte_R_RM(u8 X86EMU_UNUSED(op2)) +{ + int mod, rl, rh; + uint srcoffset; + + START_OF_INSTR(); + DECODE_PRINTF("MOVSX\t"); + FETCH_DECODE_MODRM(mod, rh, rl); + if (mod < 3) { + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + u32 *destreg; + u32 srcval; + + destreg = DECODE_RM_LONG_REGISTER(rh); + DECODE_PRINTF(","); + srcoffset = decode_rmXX_address(mod, rl); + srcval = (s32)((s8)fetch_data_byte(srcoffset)); + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + *destreg = srcval; + } else { + u16 *destreg; + u16 srcval; + + destreg = DECODE_RM_WORD_REGISTER(rh); + DECODE_PRINTF(","); + srcoffset = decode_rmXX_address(mod, rl); + srcval = (s16)((s8)fetch_data_byte(srcoffset)); + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + *destreg = srcval; + } + } else { /* register to register */ + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + u32 *destreg; + u8 *srcreg; + + destreg = DECODE_RM_LONG_REGISTER(rh); + DECODE_PRINTF(","); + srcreg = DECODE_RM_BYTE_REGISTER(rl); + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + *destreg = (s32)((s8)*srcreg); + } else { + u16 *destreg; + u8 *srcreg; + + destreg = DECODE_RM_WORD_REGISTER(rh); + DECODE_PRINTF(","); + srcreg = DECODE_RM_BYTE_REGISTER(rl); + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + *destreg = (s16)((s8)*srcreg); + } + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/**************************************************************************** +REMARKS: +Handles opcode 0x0f,0xbf +****************************************************************************/ +void x86emuOp2_movsx_word_R_RM(u8 X86EMU_UNUSED(op2)) +{ + int mod, rl, rh; + uint srcoffset; + u32 *destreg; + u32 srcval; + u16 *srcreg; + + START_OF_INSTR(); + DECODE_PRINTF("MOVSX\t"); + FETCH_DECODE_MODRM(mod, rh, rl); + if (mod < 3) { + destreg = DECODE_RM_LONG_REGISTER(rh); + DECODE_PRINTF(","); + srcoffset = decode_rmXX_address(mod, rl); + srcval = (s32)((s16)fetch_data_word(srcoffset)); + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + *destreg = srcval; + } else { /* register to register */ + destreg = DECODE_RM_LONG_REGISTER(rh); + DECODE_PRINTF(","); + srcreg = DECODE_RM_WORD_REGISTER(rl); + DECODE_PRINTF("\n"); + TRACE_AND_STEP(); + *destreg = (s32)((s16)*srcreg); + } + DECODE_CLEAR_SEGOVR(); + END_OF_INSTR(); +} + +/*************************************************************************** + * Double byte operation code table: + **************************************************************************/ +void (*x86emu_optab2[256])(u8) __attribute__((section(".got2"))) = +{ +/* 0x00 */ x86emuOp2_illegal_op, /* Group F (ring 0 PM) */ +/* 0x01 */ x86emuOp2_illegal_op, /* Group G (ring 0 PM) */ +/* 0x02 */ x86emuOp2_illegal_op, /* lar (ring 0 PM) */ +/* 0x03 */ x86emuOp2_illegal_op, /* lsl (ring 0 PM) */ +/* 0x04 */ x86emuOp2_illegal_op, +/* 0x05 */ x86emuOp2_illegal_op, /* loadall (undocumented) */ +/* 0x06 */ x86emuOp2_illegal_op, /* clts (ring 0 PM) */ +/* 0x07 */ x86emuOp2_illegal_op, /* loadall (undocumented) */ +/* 0x08 */ x86emuOp2_illegal_op, /* invd (ring 0 PM) */ +/* 0x09 */ x86emuOp2_illegal_op, /* wbinvd (ring 0 PM) */ +/* 0x0a */ x86emuOp2_illegal_op, +/* 0x0b */ x86emuOp2_illegal_op, +/* 0x0c */ x86emuOp2_illegal_op, +/* 0x0d */ x86emuOp2_illegal_op, +/* 0x0e */ x86emuOp2_illegal_op, +/* 0x0f */ x86emuOp2_illegal_op, + +/* 0x10 */ x86emuOp2_illegal_op, +/* 0x11 */ x86emuOp2_illegal_op, +/* 0x12 */ x86emuOp2_illegal_op, +/* 0x13 */ x86emuOp2_illegal_op, +/* 0x14 */ x86emuOp2_illegal_op, +/* 0x15 */ x86emuOp2_illegal_op, +/* 0x16 */ x86emuOp2_illegal_op, +/* 0x17 */ x86emuOp2_illegal_op, +/* 0x18 */ x86emuOp2_illegal_op, +/* 0x19 */ x86emuOp2_illegal_op, +/* 0x1a */ x86emuOp2_illegal_op, +/* 0x1b */ x86emuOp2_illegal_op, +/* 0x1c */ x86emuOp2_illegal_op, +/* 0x1d */ x86emuOp2_illegal_op, +/* 0x1e */ x86emuOp2_illegal_op, +/* 0x1f */ x86emuOp2_illegal_op, + +/* 0x20 */ x86emuOp2_illegal_op, /* mov reg32,creg (ring 0 PM) */ +/* 0x21 */ x86emuOp2_illegal_op, /* mov reg32,dreg (ring 0 PM) */ +/* 0x22 */ x86emuOp2_illegal_op, /* mov creg,reg32 (ring 0 PM) */ +/* 0x23 */ x86emuOp2_illegal_op, /* mov dreg,reg32 (ring 0 PM) */ +/* 0x24 */ x86emuOp2_illegal_op, /* mov reg32,treg (ring 0 PM) */ +/* 0x25 */ x86emuOp2_illegal_op, +/* 0x26 */ x86emuOp2_illegal_op, /* mov treg,reg32 (ring 0 PM) */ +/* 0x27 */ x86emuOp2_illegal_op, +/* 0x28 */ x86emuOp2_illegal_op, +/* 0x29 */ x86emuOp2_illegal_op, +/* 0x2a */ x86emuOp2_illegal_op, +/* 0x2b */ x86emuOp2_illegal_op, +/* 0x2c */ x86emuOp2_illegal_op, +/* 0x2d */ x86emuOp2_illegal_op, +/* 0x2e */ x86emuOp2_illegal_op, +/* 0x2f */ x86emuOp2_illegal_op, + +/* 0x30 */ x86emuOp2_illegal_op, +/* 0x31 */ x86emuOp2_illegal_op, +/* 0x32 */ x86emuOp2_illegal_op, +/* 0x33 */ x86emuOp2_illegal_op, +/* 0x34 */ x86emuOp2_illegal_op, +/* 0x35 */ x86emuOp2_illegal_op, +/* 0x36 */ x86emuOp2_illegal_op, +/* 0x37 */ x86emuOp2_illegal_op, +/* 0x38 */ x86emuOp2_illegal_op, +/* 0x39 */ x86emuOp2_illegal_op, +/* 0x3a */ x86emuOp2_illegal_op, +/* 0x3b */ x86emuOp2_illegal_op, +/* 0x3c */ x86emuOp2_illegal_op, +/* 0x3d */ x86emuOp2_illegal_op, +/* 0x3e */ x86emuOp2_illegal_op, +/* 0x3f */ x86emuOp2_illegal_op, + +/* 0x40 */ x86emuOp2_illegal_op, +/* 0x41 */ x86emuOp2_illegal_op, +/* 0x42 */ x86emuOp2_illegal_op, +/* 0x43 */ x86emuOp2_illegal_op, +/* 0x44 */ x86emuOp2_illegal_op, +/* 0x45 */ x86emuOp2_illegal_op, +/* 0x46 */ x86emuOp2_illegal_op, +/* 0x47 */ x86emuOp2_illegal_op, +/* 0x48 */ x86emuOp2_illegal_op, +/* 0x49 */ x86emuOp2_illegal_op, +/* 0x4a */ x86emuOp2_illegal_op, +/* 0x4b */ x86emuOp2_illegal_op, +/* 0x4c */ x86emuOp2_illegal_op, +/* 0x4d */ x86emuOp2_illegal_op, +/* 0x4e */ x86emuOp2_illegal_op, +/* 0x4f */ x86emuOp2_illegal_op, + +/* 0x50 */ x86emuOp2_illegal_op, +/* 0x51 */ x86emuOp2_illegal_op, +/* 0x52 */ x86emuOp2_illegal_op, +/* 0x53 */ x86emuOp2_illegal_op, +/* 0x54 */ x86emuOp2_illegal_op, +/* 0x55 */ x86emuOp2_illegal_op, +/* 0x56 */ x86emuOp2_illegal_op, +/* 0x57 */ x86emuOp2_illegal_op, +/* 0x58 */ x86emuOp2_illegal_op, +/* 0x59 */ x86emuOp2_illegal_op, +/* 0x5a */ x86emuOp2_illegal_op, +/* 0x5b */ x86emuOp2_illegal_op, +/* 0x5c */ x86emuOp2_illegal_op, +/* 0x5d */ x86emuOp2_illegal_op, +/* 0x5e */ x86emuOp2_illegal_op, +/* 0x5f */ x86emuOp2_illegal_op, + +/* 0x60 */ x86emuOp2_illegal_op, +/* 0x61 */ x86emuOp2_illegal_op, +/* 0x62 */ x86emuOp2_illegal_op, +/* 0x63 */ x86emuOp2_illegal_op, +/* 0x64 */ x86emuOp2_illegal_op, +/* 0x65 */ x86emuOp2_illegal_op, +/* 0x66 */ x86emuOp2_illegal_op, +/* 0x67 */ x86emuOp2_illegal_op, +/* 0x68 */ x86emuOp2_illegal_op, +/* 0x69 */ x86emuOp2_illegal_op, +/* 0x6a */ x86emuOp2_illegal_op, +/* 0x6b */ x86emuOp2_illegal_op, +/* 0x6c */ x86emuOp2_illegal_op, +/* 0x6d */ x86emuOp2_illegal_op, +/* 0x6e */ x86emuOp2_illegal_op, +/* 0x6f */ x86emuOp2_illegal_op, + +/* 0x70 */ x86emuOp2_illegal_op, +/* 0x71 */ x86emuOp2_illegal_op, +/* 0x72 */ x86emuOp2_illegal_op, +/* 0x73 */ x86emuOp2_illegal_op, +/* 0x74 */ x86emuOp2_illegal_op, +/* 0x75 */ x86emuOp2_illegal_op, +/* 0x76 */ x86emuOp2_illegal_op, +/* 0x77 */ x86emuOp2_illegal_op, +/* 0x78 */ x86emuOp2_illegal_op, +/* 0x79 */ x86emuOp2_illegal_op, +/* 0x7a */ x86emuOp2_illegal_op, +/* 0x7b */ x86emuOp2_illegal_op, +/* 0x7c */ x86emuOp2_illegal_op, +/* 0x7d */ x86emuOp2_illegal_op, +/* 0x7e */ x86emuOp2_illegal_op, +/* 0x7f */ x86emuOp2_illegal_op, + +/* 0x80 */ x86emuOp2_long_jump, +/* 0x81 */ x86emuOp2_long_jump, +/* 0x82 */ x86emuOp2_long_jump, +/* 0x83 */ x86emuOp2_long_jump, +/* 0x84 */ x86emuOp2_long_jump, +/* 0x85 */ x86emuOp2_long_jump, +/* 0x86 */ x86emuOp2_long_jump, +/* 0x87 */ x86emuOp2_long_jump, +/* 0x88 */ x86emuOp2_long_jump, +/* 0x89 */ x86emuOp2_long_jump, +/* 0x8a */ x86emuOp2_long_jump, +/* 0x8b */ x86emuOp2_long_jump, +/* 0x8c */ x86emuOp2_long_jump, +/* 0x8d */ x86emuOp2_long_jump, +/* 0x8e */ x86emuOp2_long_jump, +/* 0x8f */ x86emuOp2_long_jump, + +/* 0x90 */ x86emuOp2_set_byte, +/* 0x91 */ x86emuOp2_set_byte, +/* 0x92 */ x86emuOp2_set_byte, +/* 0x93 */ x86emuOp2_set_byte, +/* 0x94 */ x86emuOp2_set_byte, +/* 0x95 */ x86emuOp2_set_byte, +/* 0x96 */ x86emuOp2_set_byte, +/* 0x97 */ x86emuOp2_set_byte, +/* 0x98 */ x86emuOp2_set_byte, +/* 0x99 */ x86emuOp2_set_byte, +/* 0x9a */ x86emuOp2_set_byte, +/* 0x9b */ x86emuOp2_set_byte, +/* 0x9c */ x86emuOp2_set_byte, +/* 0x9d */ x86emuOp2_set_byte, +/* 0x9e */ x86emuOp2_set_byte, +/* 0x9f */ x86emuOp2_set_byte, + +/* 0xa0 */ x86emuOp2_push_FS, +/* 0xa1 */ x86emuOp2_pop_FS, +/* 0xa2 */ x86emuOp2_illegal_op, +/* 0xa3 */ x86emuOp2_bt_R, +/* 0xa4 */ x86emuOp2_shld_IMM, +/* 0xa5 */ x86emuOp2_shld_CL, +/* 0xa6 */ x86emuOp2_illegal_op, +/* 0xa7 */ x86emuOp2_illegal_op, +/* 0xa8 */ x86emuOp2_push_GS, +/* 0xa9 */ x86emuOp2_pop_GS, +/* 0xaa */ x86emuOp2_illegal_op, +/* 0xab */ x86emuOp2_bt_R, +/* 0xac */ x86emuOp2_shrd_IMM, +/* 0xad */ x86emuOp2_shrd_CL, +/* 0xae */ x86emuOp2_illegal_op, +/* 0xaf */ x86emuOp2_imul_R_RM, + +/* 0xb0 */ x86emuOp2_illegal_op, /* TODO: cmpxchg */ +/* 0xb1 */ x86emuOp2_illegal_op, /* TODO: cmpxchg */ +/* 0xb2 */ x86emuOp2_lss_R_IMM, +/* 0xb3 */ x86emuOp2_btr_R, +/* 0xb4 */ x86emuOp2_lfs_R_IMM, +/* 0xb5 */ x86emuOp2_lgs_R_IMM, +/* 0xb6 */ x86emuOp2_movzx_byte_R_RM, +/* 0xb7 */ x86emuOp2_movzx_word_R_RM, +/* 0xb8 */ x86emuOp2_illegal_op, +/* 0xb9 */ x86emuOp2_illegal_op, +/* 0xba */ x86emuOp2_btX_I, +/* 0xbb */ x86emuOp2_btc_R, +/* 0xbc */ x86emuOp2_bsf, +/* 0xbd */ x86emuOp2_bsr, +/* 0xbe */ x86emuOp2_movsx_byte_R_RM, +/* 0xbf */ x86emuOp2_movsx_word_R_RM, + +/* 0xc0 */ x86emuOp2_illegal_op, /* TODO: xadd */ +/* 0xc1 */ x86emuOp2_illegal_op, /* TODO: xadd */ +/* 0xc2 */ x86emuOp2_illegal_op, +/* 0xc3 */ x86emuOp2_illegal_op, +/* 0xc4 */ x86emuOp2_illegal_op, +/* 0xc5 */ x86emuOp2_illegal_op, +/* 0xc6 */ x86emuOp2_illegal_op, +/* 0xc7 */ x86emuOp2_illegal_op, +/* 0xc8 */ x86emuOp2_illegal_op, /* TODO: bswap */ +/* 0xc9 */ x86emuOp2_illegal_op, /* TODO: bswap */ +/* 0xca */ x86emuOp2_illegal_op, /* TODO: bswap */ +/* 0xcb */ x86emuOp2_illegal_op, /* TODO: bswap */ +/* 0xcc */ x86emuOp2_illegal_op, /* TODO: bswap */ +/* 0xcd */ x86emuOp2_illegal_op, /* TODO: bswap */ +/* 0xce */ x86emuOp2_illegal_op, /* TODO: bswap */ +/* 0xcf */ x86emuOp2_illegal_op, /* TODO: bswap */ + +/* 0xd0 */ x86emuOp2_illegal_op, +/* 0xd1 */ x86emuOp2_illegal_op, +/* 0xd2 */ x86emuOp2_illegal_op, +/* 0xd3 */ x86emuOp2_illegal_op, +/* 0xd4 */ x86emuOp2_illegal_op, +/* 0xd5 */ x86emuOp2_illegal_op, +/* 0xd6 */ x86emuOp2_illegal_op, +/* 0xd7 */ x86emuOp2_illegal_op, +/* 0xd8 */ x86emuOp2_illegal_op, +/* 0xd9 */ x86emuOp2_illegal_op, +/* 0xda */ x86emuOp2_illegal_op, +/* 0xdb */ x86emuOp2_illegal_op, +/* 0xdc */ x86emuOp2_illegal_op, +/* 0xdd */ x86emuOp2_illegal_op, +/* 0xde */ x86emuOp2_illegal_op, +/* 0xdf */ x86emuOp2_illegal_op, + +/* 0xe0 */ x86emuOp2_illegal_op, +/* 0xe1 */ x86emuOp2_illegal_op, +/* 0xe2 */ x86emuOp2_illegal_op, +/* 0xe3 */ x86emuOp2_illegal_op, +/* 0xe4 */ x86emuOp2_illegal_op, +/* 0xe5 */ x86emuOp2_illegal_op, +/* 0xe6 */ x86emuOp2_illegal_op, +/* 0xe7 */ x86emuOp2_illegal_op, +/* 0xe8 */ x86emuOp2_illegal_op, +/* 0xe9 */ x86emuOp2_illegal_op, +/* 0xea */ x86emuOp2_illegal_op, +/* 0xeb */ x86emuOp2_illegal_op, +/* 0xec */ x86emuOp2_illegal_op, +/* 0xed */ x86emuOp2_illegal_op, +/* 0xee */ x86emuOp2_illegal_op, +/* 0xef */ x86emuOp2_illegal_op, + +/* 0xf0 */ x86emuOp2_illegal_op, +/* 0xf1 */ x86emuOp2_illegal_op, +/* 0xf2 */ x86emuOp2_illegal_op, +/* 0xf3 */ x86emuOp2_illegal_op, +/* 0xf4 */ x86emuOp2_illegal_op, +/* 0xf5 */ x86emuOp2_illegal_op, +/* 0xf6 */ x86emuOp2_illegal_op, +/* 0xf7 */ x86emuOp2_illegal_op, +/* 0xf8 */ x86emuOp2_illegal_op, +/* 0xf9 */ x86emuOp2_illegal_op, +/* 0xfa */ x86emuOp2_illegal_op, +/* 0xfb */ x86emuOp2_illegal_op, +/* 0xfc */ x86emuOp2_illegal_op, +/* 0xfd */ x86emuOp2_illegal_op, +/* 0xfe */ x86emuOp2_illegal_op, +/* 0xff */ x86emuOp2_illegal_op, +}; + +#endif diff --git a/drivers/bios_emulator/x86emu/prim_ops.c b/drivers/bios_emulator/x86emu/prim_ops.c new file mode 100644 index 0000000..c1152ea --- /dev/null +++ b/drivers/bios_emulator/x86emu/prim_ops.c @@ -0,0 +1,2449 @@ +/**************************************************************************** +* +* Realmode X86 Emulator Library +* +* Copyright (C) 1991-2004 SciTech Software, Inc. +* Copyright (C) David Mosberger-Tang +* Copyright (C) 1999 Egbert Eich +* +* ======================================================================== +* +* Permission to use, copy, modify, distribute, and sell this software and +* its documentation for any purpose is hereby granted without fee, +* provided that the above copyright notice appear in all copies and that +* both that copyright notice and this permission notice appear in +* supporting documentation, and that the name of the authors not be used +* in advertising or publicity pertaining to distribution of the software +* without specific, written prior permission. The authors makes no +* representations about the suitability of this software for any purpose. +* It is provided "as is" without express or implied warranty. +* +* THE AUTHORS DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, +* INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO +* EVENT SHALL THE AUTHORS BE LIABLE FOR ANY SPECIAL, INDIRECT OR +* CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF +* USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR +* OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR +* PERFORMANCE OF THIS SOFTWARE. +* +* ======================================================================== +* +* Language: ANSI C +* Environment: Any +* Developer: Kendall Bennett +* +* Description: This file contains the code to implement the primitive +* machine operations used by the emulation code in ops.c +* +* Carry Chain Calculation +* +* This represents a somewhat expensive calculation which is +* apparently required to emulate the setting of the OF343364 and AF flag. +* The latter is not so important, but the former is. The overflow +* flag is the XOR of the top two bits of the carry chain for an +* addition (similar for subtraction). Since we do not want to +* simulate the addition in a bitwise manner, we try to calculate the +* carry chain given the two operands and the result. +* +* So, given the following table, which represents the addition of two +* bits, we can derive a formula for the carry chain. +* +* a b cin r cout +* 0 0 0 0 0 +* 0 0 1 1 0 +* 0 1 0 1 0 +* 0 1 1 0 1 +* 1 0 0 1 0 +* 1 0 1 0 1 +* 1 1 0 0 1 +* 1 1 1 1 1 +* +* Construction of table for cout: +* +* ab +* r \ 00 01 11 10 +* |------------------ +* 0 | 0 1 1 1 +* 1 | 0 0 1 0 +* +* By inspection, one gets: cc = ab + r'(a + b) +* +* That represents alot of operations, but NO CHOICE.... +* +* Borrow Chain Calculation. +* +* The following table represents the subtraction of two bits, from +* which we can derive a formula for the borrow chain. +* +* a b bin r bout +* 0 0 0 0 0 +* 0 0 1 1 1 +* 0 1 0 1 1 +* 0 1 1 0 1 +* 1 0 0 1 0 +* 1 0 1 0 0 +* 1 1 0 0 0 +* 1 1 1 1 1 +* +* Construction of table for cout: +* +* ab +* r \ 00 01 11 10 +* |------------------ +* 0 | 0 1 0 0 +* 1 | 1 1 1 0 +* +* By inspection, one gets: bc = a'b + r(a' + b) +* +****************************************************************************/ + +#define PRIM_OPS_NO_REDEFINE_ASM +#include "x86emu/x86emui.h" + +#if defined(CONFIG_BIOSEMU) + +/*------------------------- Global Variables ------------------------------*/ + +static u32 x86emu_parity_tab[8] = +{ + 0x96696996, + 0x69969669, + 0x69969669, + 0x96696996, + 0x69969669, + 0x96696996, + 0x96696996, + 0x69969669, +}; + +#define PARITY(x) (((x86emu_parity_tab[(x) / 32] >> ((x) % 32)) & 1) == 0) +#define XOR2(x) (((x) ^ ((x)>>1)) & 0x1) +/*----------------------------- Implementation ----------------------------*/ +int abs(int v) +{ + return (v>0)?v:-v; +} + +/*----------------------------- Implementation ----------------------------*/ + + +/*--------- Side effects helper functions -------*/ + +/**************************************************************************** +REMARKS: +implements side efects for byte operations that don't overflow +****************************************************************************/ + +static void set_parity_flag(u32 res) +{ + CONDITIONAL_SET_FLAG(PARITY(res & 0xFF), F_PF); +} + +static void set_szp_flags_8(u8 res) +{ + CONDITIONAL_SET_FLAG(res & 0x80, F_SF); + CONDITIONAL_SET_FLAG(res == 0, F_ZF); + set_parity_flag(res); +} + +static void set_szp_flags_16(u16 res) +{ + CONDITIONAL_SET_FLAG(res & 0x8000, F_SF); + CONDITIONAL_SET_FLAG(res == 0, F_ZF); + set_parity_flag(res); +} + +static void set_szp_flags_32(u32 res) +{ + CONDITIONAL_SET_FLAG(res & 0x80000000, F_SF); + CONDITIONAL_SET_FLAG(res == 0, F_ZF); + set_parity_flag(res); +} + +static void no_carry_byte_side_eff(u8 res) +{ + CLEAR_FLAG(F_OF); + CLEAR_FLAG(F_CF); + CLEAR_FLAG(F_AF); + set_szp_flags_8(res); +} + +static void no_carry_word_side_eff(u16 res) +{ + CLEAR_FLAG(F_OF); + CLEAR_FLAG(F_CF); + CLEAR_FLAG(F_AF); + set_szp_flags_16(res); +} + +static void no_carry_long_side_eff(u32 res) +{ + CLEAR_FLAG(F_OF); + CLEAR_FLAG(F_CF); + CLEAR_FLAG(F_AF); + set_szp_flags_32(res); +} + +static void calc_carry_chain(int bits, u32 d, u32 s, u32 res, int set_carry) +{ + u32 cc; + + cc = (s & d) | ((~res) & (s | d)); + CONDITIONAL_SET_FLAG(XOR2(cc >> (bits - 2)), F_OF); + CONDITIONAL_SET_FLAG(cc & 0x8, F_AF); + if (set_carry) { + CONDITIONAL_SET_FLAG(res & (1 << bits), F_CF); + } +} + +static void calc_borrow_chain(int bits, u32 d, u32 s, u32 res, int set_carry) +{ + u32 bc; + + bc = (res & (~d | s)) | (~d & s); + CONDITIONAL_SET_FLAG(XOR2(bc >> (bits - 2)), F_OF); + CONDITIONAL_SET_FLAG(bc & 0x8, F_AF); + if (set_carry) { + CONDITIONAL_SET_FLAG(bc & (1 << (bits - 1)), F_CF); + } +} + +/**************************************************************************** +REMARKS: +Implements the AAA instruction and side effects. +****************************************************************************/ +u16 aaa_word(u16 d) +{ + u16 res; + if ((d & 0xf) > 0x9 || ACCESS_FLAG(F_AF)) { + d += 0x6; + d += 0x100; + SET_FLAG(F_AF); + SET_FLAG(F_CF); + } else { + CLEAR_FLAG(F_CF); + CLEAR_FLAG(F_AF); + } + res = (u16)(d & 0xFF0F); + set_szp_flags_16(res); + return res; +} + +/**************************************************************************** +REMARKS: +Implements the AAA instruction and side effects. +****************************************************************************/ +u16 aas_word(u16 d) +{ + u16 res; + if ((d & 0xf) > 0x9 || ACCESS_FLAG(F_AF)) { + d -= 0x6; + d -= 0x100; + SET_FLAG(F_AF); + SET_FLAG(F_CF); + } else { + CLEAR_FLAG(F_CF); + CLEAR_FLAG(F_AF); + } + res = (u16)(d & 0xFF0F); + set_szp_flags_16(res); + return res; +} + +/**************************************************************************** +REMARKS: +Implements the AAD instruction and side effects. +****************************************************************************/ +u16 aad_word(u16 d) +{ + u16 l; + u8 hb, lb; + + hb = (u8)((d >> 8) & 0xff); + lb = (u8)((d & 0xff)); + l = (u16)((lb + 10 * hb) & 0xFF); + + no_carry_byte_side_eff(l & 0xFF); + return l; +} + +/**************************************************************************** +REMARKS: +Implements the AAM instruction and side effects. +****************************************************************************/ +u16 aam_word(u8 d) +{ + u16 h, l; + + h = (u16)(d / 10); + l = (u16)(d % 10); + l |= (u16)(h << 8); + + no_carry_byte_side_eff(l & 0xFF); + return l; +} + +/**************************************************************************** +REMARKS: +Implements the ADC instruction and side effects. +****************************************************************************/ +u8 adc_byte(u8 d, u8 s) +{ + u32 res; /* all operands in native machine order */ + + res = d + s; + if (ACCESS_FLAG(F_CF)) res++; + + set_szp_flags_8(res); + calc_carry_chain(8,s,d,res,1); + + return (u8)res; +} + +/**************************************************************************** +REMARKS: +Implements the ADC instruction and side effects. +****************************************************************************/ +u16 adc_word(u16 d, u16 s) +{ + u32 res; /* all operands in native machine order */ + + res = d + s; + if (ACCESS_FLAG(F_CF)) + res++; + + set_szp_flags_16((u16)res); + calc_carry_chain(16,s,d,res,1); + + return (u16)res; +} + +/**************************************************************************** +REMARKS: +Implements the ADC instruction and side effects. +****************************************************************************/ +u32 adc_long(u32 d, u32 s) +{ + u32 lo; /* all operands in native machine order */ + u32 hi; + u32 res; + + lo = (d & 0xFFFF) + (s & 0xFFFF); + res = d + s; + + if (ACCESS_FLAG(F_CF)) { + lo++; + res++; + } + + hi = (lo >> 16) + (d >> 16) + (s >> 16); + + set_szp_flags_32(res); + calc_carry_chain(32,s,d,res,0); + + CONDITIONAL_SET_FLAG(hi & 0x10000, F_CF); + + return res; +} + +/**************************************************************************** +REMARKS: +Implements the ADD instruction and side effects. +****************************************************************************/ +u8 add_byte(u8 d, u8 s) +{ + u32 res; /* all operands in native machine order */ + + res = d + s; + set_szp_flags_8((u8)res); + calc_carry_chain(8,s,d,res,1); + + return (u8)res; +} + +/**************************************************************************** +REMARKS: +Implements the ADD instruction and side effects. +****************************************************************************/ +u16 add_word(u16 d, u16 s) +{ + u32 res; /* all operands in native machine order */ + + res = d + s; + set_szp_flags_16((u16)res); + calc_carry_chain(16,s,d,res,1); + + return (u16)res; +} + +/**************************************************************************** +REMARKS: +Implements the ADD instruction and side effects. +****************************************************************************/ +u32 add_long(u32 d, u32 s) +{ + u32 res; + + res = d + s; + set_szp_flags_32(res); + calc_carry_chain(32,s,d,res,0); + + CONDITIONAL_SET_FLAG(res < d || res < s, F_CF); + + return res; +} + +/**************************************************************************** +REMARKS: +Implements the AND instruction and side effects. +****************************************************************************/ +u8 and_byte(u8 d, u8 s) +{ + u8 res; /* all operands in native machine order */ + + res = d & s; + + no_carry_byte_side_eff(res); + return res; +} + +/**************************************************************************** +REMARKS: +Implements the AND instruction and side effects. +****************************************************************************/ +u16 and_word(u16 d, u16 s) +{ + u16 res; /* all operands in native machine order */ + + res = d & s; + + no_carry_word_side_eff(res); + return res; +} + +/**************************************************************************** +REMARKS: +Implements the AND instruction and side effects. +****************************************************************************/ +u32 and_long(u32 d, u32 s) +{ + u32 res; /* all operands in native machine order */ + + res = d & s; + no_carry_long_side_eff(res); + return res; +} + +/**************************************************************************** +REMARKS: +Implements the CMP instruction and side effects. +****************************************************************************/ +u8 cmp_byte(u8 d, u8 s) +{ + u32 res; /* all operands in native machine order */ + + res = d - s; + set_szp_flags_8((u8)res); + calc_borrow_chain(8, d, s, res, 1); + + return d; +} + +/**************************************************************************** +REMARKS: +Implements the CMP instruction and side effects. +****************************************************************************/ +u16 cmp_word(u16 d, u16 s) +{ + u32 res; /* all operands in native machine order */ + + res = d - s; + set_szp_flags_16((u16)res); + calc_borrow_chain(16, d, s, res, 1); + + return d; +} + +/**************************************************************************** +REMARKS: +Implements the CMP instruction and side effects. +****************************************************************************/ +u32 cmp_long(u32 d, u32 s) +{ + u32 res; /* all operands in native machine order */ + + res = d - s; + set_szp_flags_32(res); + calc_borrow_chain(32, d, s, res, 1); + + return d; +} + +/**************************************************************************** +REMARKS: +Implements the DAA instruction and side effects. +****************************************************************************/ +u8 daa_byte(u8 d) +{ + u32 res = d; + if ((d & 0xf) > 9 || ACCESS_FLAG(F_AF)) { + res += 6; + SET_FLAG(F_AF); + } + if (res > 0x9F || ACCESS_FLAG(F_CF)) { + res += 0x60; + SET_FLAG(F_CF); + } + set_szp_flags_8((u8)res); + return (u8)res; +} + +/**************************************************************************** +REMARKS: +Implements the DAS instruction and side effects. +****************************************************************************/ +u8 das_byte(u8 d) +{ + if ((d & 0xf) > 9 || ACCESS_FLAG(F_AF)) { + d -= 6; + SET_FLAG(F_AF); + } + if (d > 0x9F || ACCESS_FLAG(F_CF)) { + d -= 0x60; + SET_FLAG(F_CF); + } + set_szp_flags_8(d); + return d; +} + +/**************************************************************************** +REMARKS: +Implements the DEC instruction and side effects. +****************************************************************************/ +u8 dec_byte(u8 d) +{ + u32 res; /* all operands in native machine order */ + + res = d - 1; + set_szp_flags_8((u8)res); + calc_borrow_chain(8, d, 1, res, 0); + + return (u8)res; +} + +/**************************************************************************** +REMARKS: +Implements the DEC instruction and side effects. +****************************************************************************/ +u16 dec_word(u16 d) +{ + u32 res; /* all operands in native machine order */ + + res = d - 1; + set_szp_flags_16((u16)res); + calc_borrow_chain(16, d, 1, res, 0); + + return (u16)res; +} + +/**************************************************************************** +REMARKS: +Implements the DEC instruction and side effects. +****************************************************************************/ +u32 dec_long(u32 d) +{ + u32 res; /* all operands in native machine order */ + + res = d - 1; + + set_szp_flags_32(res); + calc_borrow_chain(32, d, 1, res, 0); + + return res; +} + +/**************************************************************************** +REMARKS: +Implements the INC instruction and side effects. +****************************************************************************/ +u8 inc_byte(u8 d) +{ + u32 res; /* all operands in native machine order */ + + res = d + 1; + set_szp_flags_8((u8)res); + calc_carry_chain(8, d, 1, res, 0); + + return (u8)res; +} + +/**************************************************************************** +REMARKS: +Implements the INC instruction and side effects. +****************************************************************************/ +u16 inc_word(u16 d) +{ + u32 res; /* all operands in native machine order */ + + res = d + 1; + set_szp_flags_16((u16)res); + calc_carry_chain(16, d, 1, res, 0); + + return (u16)res; +} + +/**************************************************************************** +REMARKS: +Implements the INC instruction and side effects. +****************************************************************************/ +u32 inc_long(u32 d) +{ + u32 res; /* all operands in native machine order */ + + res = d + 1; + set_szp_flags_32(res); + calc_carry_chain(32, d, 1, res, 0); + + return res; +} + +/**************************************************************************** +REMARKS: +Implements the OR instruction and side effects. +****************************************************************************/ +u8 or_byte(u8 d, u8 s) +{ + u8 res; /* all operands in native machine order */ + + res = d | s; + no_carry_byte_side_eff(res); + + return res; +} + +/**************************************************************************** +REMARKS: +Implements the OR instruction and side effects. +****************************************************************************/ +u16 or_word(u16 d, u16 s) +{ + u16 res; /* all operands in native machine order */ + + res = d | s; + no_carry_word_side_eff(res); + return res; +} + +/**************************************************************************** +REMARKS: +Implements the OR instruction and side effects. +****************************************************************************/ +u32 or_long(u32 d, u32 s) +{ + u32 res; /* all operands in native machine order */ + + res = d | s; + no_carry_long_side_eff(res); + return res; +} + +/**************************************************************************** +REMARKS: +Implements the OR instruction and side effects. +****************************************************************************/ +u8 neg_byte(u8 s) +{ + u8 res; + + CONDITIONAL_SET_FLAG(s != 0, F_CF); + res = (u8)-s; + set_szp_flags_8(res); + calc_borrow_chain(8, 0, s, res, 0); + + return res; +} + +/**************************************************************************** +REMARKS: +Implements the OR instruction and side effects. +****************************************************************************/ +u16 neg_word(u16 s) +{ + u16 res; + + CONDITIONAL_SET_FLAG(s != 0, F_CF); + res = (u16)-s; + set_szp_flags_16((u16)res); + calc_borrow_chain(16, 0, s, res, 0); + + return res; +} + +/**************************************************************************** +REMARKS: +Implements the OR instruction and side effects. +****************************************************************************/ +u32 neg_long(u32 s) +{ + u32 res; + + CONDITIONAL_SET_FLAG(s != 0, F_CF); + res = (u32)-s; + set_szp_flags_32(res); + calc_borrow_chain(32, 0, s, res, 0); + + return res; +} + +/**************************************************************************** +REMARKS: +Implements the NOT instruction and side effects. +****************************************************************************/ +u8 not_byte(u8 s) +{ + return ~s; +} + +/**************************************************************************** +REMARKS: +Implements the NOT instruction and side effects. +****************************************************************************/ +u16 not_word(u16 s) +{ + return ~s; +} + +/**************************************************************************** +REMARKS: +Implements the NOT instruction and side effects. +****************************************************************************/ +u32 not_long(u32 s) +{ + return ~s; +} + +/**************************************************************************** +REMARKS: +Implements the RCL instruction and side effects. +****************************************************************************/ +u8 rcl_byte(u8 d, u8 s) +{ + unsigned int res, cnt, mask, cf; + + /* s is the rotate distance. It varies from 0 - 8. */ + /* have + + CF B_7 B_6 B_5 B_4 B_3 B_2 B_1 B_0 + + want to rotate through the carry by "s" bits. We could + loop, but that's inefficient. So the width is 9, + and we split into three parts: + + The new carry flag (was B_n) + the stuff in B_n-1 .. B_0 + the stuff in B_7 .. B_n+1 + + The new rotate is done mod 9, and given this, + for a rotation of n bits (mod 9) the new carry flag is + then located n bits from the MSB. The low part is + then shifted up cnt bits, and the high part is or'd + in. Using CAPS for new values, and lowercase for the + original values, this can be expressed as: + + IF n > 0 + 1) CF <- b_(8-n) + 2) B_(7) .. B_(n) <- b_(8-(n+1)) .. b_0 + 3) B_(n-1) <- cf + 4) B_(n-2) .. B_0 <- b_7 .. b_(8-(n-1)) + */ + res = d; + if ((cnt = s % 9) != 0) { + /* extract the new CARRY FLAG. */ + /* CF <- b_(8-n) */ + cf = (d >> (8 - cnt)) & 0x1; + + /* get the low stuff which rotated + into the range B_7 .. B_cnt */ + /* B_(7) .. B_(n) <- b_(8-(n+1)) .. b_0 */ + /* note that the right hand side done by the mask */ + res = (d << cnt) & 0xff; + + /* now the high stuff which rotated around + into the positions B_cnt-2 .. B_0 */ + /* B_(n-2) .. B_0 <- b_7 .. b_(8-(n-1)) */ + /* shift it downward, 7-(n-2) = 9-n positions. + and mask off the result before or'ing in. + */ + mask = (1 << (cnt - 1)) - 1; + res |= (d >> (9 - cnt)) & mask; + + /* if the carry flag was set, or it in. */ + if (ACCESS_FLAG(F_CF)) { /* carry flag is set */ + /* B_(n-1) <- cf */ + res |= 1 << (cnt - 1); + } + /* set the new carry flag, based on the variable "cf" */ + CONDITIONAL_SET_FLAG(cf, F_CF); + /* OVERFLOW is set *IFF* cnt==1, then it is the + xor of CF and the most significant bit. Blecck. */ + /* parenthesized this expression since it appears to + be causing OF to be misset */ + CONDITIONAL_SET_FLAG(cnt == 1 && XOR2(cf + ((res >> 6) & 0x2)), + F_OF); + + } + return (u8)res; +} + +/**************************************************************************** +REMARKS: +Implements the RCL instruction and side effects. +****************************************************************************/ +u16 rcl_word(u16 d, u8 s) +{ + unsigned int res, cnt, mask, cf; + + res = d; + if ((cnt = s % 17) != 0) { + cf = (d >> (16 - cnt)) & 0x1; + res = (d << cnt) & 0xffff; + mask = (1 << (cnt - 1)) - 1; + res |= (d >> (17 - cnt)) & mask; + if (ACCESS_FLAG(F_CF)) { + res |= 1 << (cnt - 1); + } + CONDITIONAL_SET_FLAG(cf, F_CF); + CONDITIONAL_SET_FLAG(cnt == 1 && XOR2(cf + ((res >> 14) & 0x2)), + F_OF); + } + return (u16)res; +} + +/**************************************************************************** +REMARKS: +Implements the RCL instruction and side effects. +****************************************************************************/ +u32 rcl_long(u32 d, u8 s) +{ + u32 res, cnt, mask, cf; + + res = d; + if ((cnt = s % 33) != 0) { + cf = (d >> (32 - cnt)) & 0x1; + res = (d << cnt) & 0xffffffff; + mask = (1 << (cnt - 1)) - 1; + res |= (d >> (33 - cnt)) & mask; + if (ACCESS_FLAG(F_CF)) { /* carry flag is set */ + res |= 1 << (cnt - 1); + } + CONDITIONAL_SET_FLAG(cf, F_CF); + CONDITIONAL_SET_FLAG(cnt == 1 && XOR2(cf + ((res >> 30) & 0x2)), + F_OF); + } + return res; +} + +/**************************************************************************** +REMARKS: +Implements the RCR instruction and side effects. +****************************************************************************/ +u8 rcr_byte(u8 d, u8 s) +{ + u32 res, cnt; + u32 mask, cf, ocf = 0; + + /* rotate right through carry */ + /* + s is the rotate distance. It varies from 0 - 8. + d is the byte object rotated. + + have + + CF B_7 B_6 B_5 B_4 B_3 B_2 B_1 B_0 + + The new rotate is done mod 9, and given this, + for a rotation of n bits (mod 9) the new carry flag is + then located n bits from the LSB. The low part is + then shifted up cnt bits, and the high part is or'd + in. Using CAPS for new values, and lowercase for the + original values, this can be expressed as: + + IF n > 0 + 1) CF <- b_(n-1) + 2) B_(8-(n+1)) .. B_(0) <- b_(7) .. b_(n) + 3) B_(8-n) <- cf + 4) B_(7) .. B_(8-(n-1)) <- b_(n-2) .. b_(0) + */ + res = d; + if ((cnt = s % 9) != 0) { + /* extract the new CARRY FLAG. */ + /* CF <- b_(n-1) */ + if (cnt == 1) { + cf = d & 0x1; + /* note hackery here. Access_flag(..) evaluates to either + 0 if flag not set + non-zero if flag is set. + doing access_flag(..) != 0 casts that into either + 0..1 in any representation of the flags register + (i.e. packed bit array or unpacked.) + */ + ocf = ACCESS_FLAG(F_CF) != 0; + } else + cf = (d >> (cnt - 1)) & 0x1; + + /* B_(8-(n+1)) .. B_(0) <- b_(7) .. b_n */ + /* note that the right hand side done by the mask + This is effectively done by shifting the + object to the right. The result must be masked, + in case the object came in and was treated + as a negative number. Needed??? */ + + mask = (1 << (8 - cnt)) - 1; + res = (d >> cnt) & mask; + + /* now the high stuff which rotated around + into the positions B_cnt-2 .. B_0 */ + /* B_(7) .. B_(8-(n-1)) <- b_(n-2) .. b_(0) */ + /* shift it downward, 7-(n-2) = 9-n positions. + and mask off the result before or'ing in. + */ + res |= (d << (9 - cnt)); + + /* if the carry flag was set, or it in. */ + if (ACCESS_FLAG(F_CF)) { /* carry flag is set */ + /* B_(8-n) <- cf */ + res |= 1 << (8 - cnt); + } + /* set the new carry flag, based on the variable "cf" */ + CONDITIONAL_SET_FLAG(cf, F_CF); + /* OVERFLOW is set *IFF* cnt==1, then it is the + xor of CF and the most significant bit. Blecck. */ + /* parenthesized... */ + if (cnt == 1) { + CONDITIONAL_SET_FLAG(XOR2(ocf + ((d >> 6) & 0x2)), + F_OF); + } + } + return (u8)res; +} + +/**************************************************************************** +REMARKS: +Implements the RCR instruction and side effects. +****************************************************************************/ +u16 rcr_word(u16 d, u8 s) +{ + u32 res, cnt; + u32 mask, cf, ocf = 0; + + /* rotate right through carry */ + res = d; + if ((cnt = s % 17) != 0) { + if (cnt == 1) { + cf = d & 0x1; + ocf = ACCESS_FLAG(F_CF) != 0; + } else + cf = (d >> (cnt - 1)) & 0x1; + mask = (1 << (16 - cnt)) - 1; + res = (d >> cnt) & mask; + res |= (d << (17 - cnt)); + if (ACCESS_FLAG(F_CF)) { + res |= 1 << (16 - cnt); + } + CONDITIONAL_SET_FLAG(cf, F_CF); + if (cnt == 1) { + CONDITIONAL_SET_FLAG(XOR2(ocf + ((d >> 14) & 0x2)), + F_OF); + } + } + return (u16)res; +} + +/**************************************************************************** +REMARKS: +Implements the RCR instruction and side effects. +****************************************************************************/ +u32 rcr_long(u32 d, u8 s) +{ + u32 res, cnt; + u32 mask, cf, ocf = 0; + + /* rotate right through carry */ + res = d; + if ((cnt = s % 33) != 0) { + if (cnt == 1) { + cf = d & 0x1; + ocf = ACCESS_FLAG(F_CF) != 0; + } else + cf = (d >> (cnt - 1)) & 0x1; + mask = (1 << (32 - cnt)) - 1; + res = (d >> cnt) & mask; + if (cnt != 1) + res |= (d << (33 - cnt)); + if (ACCESS_FLAG(F_CF)) { /* carry flag is set */ + res |= 1 << (32 - cnt); + } + CONDITIONAL_SET_FLAG(cf, F_CF); + if (cnt == 1) { + CONDITIONAL_SET_FLAG(XOR2(ocf + ((d >> 30) & 0x2)), + F_OF); + } + } + return res; +} + +/**************************************************************************** +REMARKS: +Implements the ROL instruction and side effects. +****************************************************************************/ +u8 rol_byte(u8 d, u8 s) +{ + unsigned int res, cnt, mask; + + /* rotate left */ + /* + s is the rotate distance. It varies from 0 - 8. + d is the byte object rotated. + + have + + CF B_7 ... B_0 + + The new rotate is done mod 8. + Much simpler than the "rcl" or "rcr" operations. + + IF n > 0 + 1) B_(7) .. B_(n) <- b_(8-(n+1)) .. b_(0) + 2) B_(n-1) .. B_(0) <- b_(7) .. b_(8-n) + */ + res = d; + if ((cnt = s % 8) != 0) { + /* B_(7) .. B_(n) <- b_(8-(n+1)) .. b_(0) */ + res = (d << cnt); + + /* B_(n-1) .. B_(0) <- b_(7) .. b_(8-n) */ + mask = (1 << cnt) - 1; + res |= (d >> (8 - cnt)) & mask; + + /* set the new carry flag, Note that it is the low order + bit of the result!!! */ + CONDITIONAL_SET_FLAG(res & 0x1, F_CF); + /* OVERFLOW is set *IFF* s==1, then it is the + xor of CF and the most significant bit. Blecck. */ + CONDITIONAL_SET_FLAG(s == 1 && + XOR2((res & 0x1) + ((res >> 6) & 0x2)), + F_OF); + } if (s != 0) { + /* set the new carry flag, Note that it is the low order + bit of the result!!! */ + CONDITIONAL_SET_FLAG(res & 0x1, F_CF); + } + return (u8)res; +} + +/**************************************************************************** +REMARKS: +Implements the ROL instruction and side effects. +****************************************************************************/ +u16 rol_word(u16 d, u8 s) +{ + unsigned int res, cnt, mask; + + res = d; + if ((cnt = s % 16) != 0) { + res = (d << cnt); + mask = (1 << cnt) - 1; + res |= (d >> (16 - cnt)) & mask; + CONDITIONAL_SET_FLAG(res & 0x1, F_CF); + CONDITIONAL_SET_FLAG(s == 1 && + XOR2((res & 0x1) + ((res >> 14) & 0x2)), + F_OF); + } if (s != 0) { + /* set the new carry flag, Note that it is the low order + bit of the result!!! */ + CONDITIONAL_SET_FLAG(res & 0x1, F_CF); + } + return (u16)res; +} + +/**************************************************************************** +REMARKS: +Implements the ROL instruction and side effects. +****************************************************************************/ +u32 rol_long(u32 d, u8 s) +{ + u32 res, cnt, mask; + + res = d; + if ((cnt = s % 32) != 0) { + res = (d << cnt); + mask = (1 << cnt) - 1; + res |= (d >> (32 - cnt)) & mask; + CONDITIONAL_SET_FLAG(res & 0x1, F_CF); + CONDITIONAL_SET_FLAG(s == 1 && + XOR2((res & 0x1) + ((res >> 30) & 0x2)), + F_OF); + } if (s != 0) { + /* set the new carry flag, Note that it is the low order + bit of the result!!! */ + CONDITIONAL_SET_FLAG(res & 0x1, F_CF); + } + return res; +} + +/**************************************************************************** +REMARKS: +Implements the ROR instruction and side effects. +****************************************************************************/ +u8 ror_byte(u8 d, u8 s) +{ + unsigned int res, cnt, mask; + + /* rotate right */ + /* + s is the rotate distance. It varies from 0 - 8. + d is the byte object rotated. + + have + + B_7 ... B_0 + + The rotate is done mod 8. + + IF n > 0 + 1) B_(8-(n+1)) .. B_(0) <- b_(7) .. b_(n) + 2) B_(7) .. B_(8-n) <- b_(n-1) .. b_(0) + */ + res = d; + if ((cnt = s % 8) != 0) { /* not a typo, do nada if cnt==0 */ + /* B_(7) .. B_(8-n) <- b_(n-1) .. b_(0) */ + res = (d << (8 - cnt)); + + /* B_(8-(n+1)) .. B_(0) <- b_(7) .. b_(n) */ + mask = (1 << (8 - cnt)) - 1; + res |= (d >> (cnt)) & mask; + + /* set the new carry flag, Note that it is the low order + bit of the result!!! */ + CONDITIONAL_SET_FLAG(res & 0x80, F_CF); + /* OVERFLOW is set *IFF* s==1, then it is the + xor of the two most significant bits. Blecck. */ + CONDITIONAL_SET_FLAG(s == 1 && XOR2(res >> 6), F_OF); + } else if (s != 0) { + /* set the new carry flag, Note that it is the low order + bit of the result!!! */ + CONDITIONAL_SET_FLAG(res & 0x80, F_CF); + } + return (u8)res; +} + +/**************************************************************************** +REMARKS: +Implements the ROR instruction and side effects. +****************************************************************************/ +u16 ror_word(u16 d, u8 s) +{ + unsigned int res, cnt, mask; + + res = d; + if ((cnt = s % 16) != 0) { + res = (d << (16 - cnt)); + mask = (1 << (16 - cnt)) - 1; + res |= (d >> (cnt)) & mask; + CONDITIONAL_SET_FLAG(res & 0x8000, F_CF); + CONDITIONAL_SET_FLAG(s == 1 && XOR2(res >> 14), F_OF); + } else if (s != 0) { + /* set the new carry flag, Note that it is the low order + bit of the result!!! */ + CONDITIONAL_SET_FLAG(res & 0x8000, F_CF); + } + return (u16)res; +} + +/**************************************************************************** +REMARKS: +Implements the ROR instruction and side effects. +****************************************************************************/ +u32 ror_long(u32 d, u8 s) +{ + u32 res, cnt, mask; + + res = d; + if ((cnt = s % 32) != 0) { + res = (d << (32 - cnt)); + mask = (1 << (32 - cnt)) - 1; + res |= (d >> (cnt)) & mask; + CONDITIONAL_SET_FLAG(res & 0x80000000, F_CF); + CONDITIONAL_SET_FLAG(s == 1 && XOR2(res >> 30), F_OF); + } else if (s != 0) { + /* set the new carry flag, Note that it is the low order + bit of the result!!! */ + CONDITIONAL_SET_FLAG(res & 0x80000000, F_CF); + } + return res; +} + +/**************************************************************************** +REMARKS: +Implements the SHL instruction and side effects. +****************************************************************************/ +u8 shl_byte(u8 d, u8 s) +{ + unsigned int cnt, res, cf; + + if (s < 8) { + cnt = s % 8; + + /* last bit shifted out goes into carry flag */ + if (cnt > 0) { + res = d << cnt; + cf = d & (1 << (8 - cnt)); + CONDITIONAL_SET_FLAG(cf, F_CF); + set_szp_flags_8((u8)res); + } else { + res = (u8) d; + } + + if (cnt == 1) { + /* Needs simplification. */ + CONDITIONAL_SET_FLAG( + (((res & 0x80) == 0x80) ^ + (ACCESS_FLAG(F_CF) != 0)), + /* was (M.x86.R_FLG&F_CF)==F_CF)), */ + F_OF); + } else { + CLEAR_FLAG(F_OF); + } + } else { + res = 0; + CONDITIONAL_SET_FLAG((d << (s-1)) & 0x80, F_CF); + CLEAR_FLAG(F_OF); + CLEAR_FLAG(F_SF); + SET_FLAG(F_PF); + SET_FLAG(F_ZF); + } + return (u8)res; +} + +/**************************************************************************** +REMARKS: +Implements the SHL instruction and side effects. +****************************************************************************/ +u16 shl_word(u16 d, u8 s) +{ + unsigned int cnt, res, cf; + + if (s < 16) { + cnt = s % 16; + if (cnt > 0) { + res = d << cnt; + cf = d & (1 << (16 - cnt)); + CONDITIONAL_SET_FLAG(cf, F_CF); + set_szp_flags_16((u16)res); + } else { + res = (u16) d; + } + + if (cnt == 1) { + CONDITIONAL_SET_FLAG( + (((res & 0x8000) == 0x8000) ^ + (ACCESS_FLAG(F_CF) != 0)), + F_OF); + } else { + CLEAR_FLAG(F_OF); + } + } else { + res = 0; + CONDITIONAL_SET_FLAG((d << (s-1)) & 0x8000, F_CF); + CLEAR_FLAG(F_OF); + CLEAR_FLAG(F_SF); + SET_FLAG(F_PF); + SET_FLAG(F_ZF); + } + return (u16)res; +} + +/**************************************************************************** +REMARKS: +Implements the SHL instruction and side effects. +****************************************************************************/ +u32 shl_long(u32 d, u8 s) +{ + unsigned int cnt, res, cf; + + if (s < 32) { + cnt = s % 32; + if (cnt > 0) { + res = d << cnt; + cf = d & (1 << (32 - cnt)); + CONDITIONAL_SET_FLAG(cf, F_CF); + set_szp_flags_32((u32)res); + } else { + res = d; + } + if (cnt == 1) { + CONDITIONAL_SET_FLAG((((res & 0x80000000) == 0x80000000) ^ + (ACCESS_FLAG(F_CF) != 0)), F_OF); + } else { + CLEAR_FLAG(F_OF); + } + } else { + res = 0; + CONDITIONAL_SET_FLAG((d << (s-1)) & 0x80000000, F_CF); + CLEAR_FLAG(F_OF); + CLEAR_FLAG(F_SF); + SET_FLAG(F_PF); + SET_FLAG(F_ZF); + } + return res; +} + +/**************************************************************************** +REMARKS: +Implements the SHR instruction and side effects. +****************************************************************************/ +u8 shr_byte(u8 d, u8 s) +{ + unsigned int cnt, res, cf; + + if (s < 8) { + cnt = s % 8; + if (cnt > 0) { + cf = d & (1 << (cnt - 1)); + res = d >> cnt; + CONDITIONAL_SET_FLAG(cf, F_CF); + set_szp_flags_8((u8)res); + } else { + res = (u8) d; + } + + if (cnt == 1) { + CONDITIONAL_SET_FLAG(XOR2(res >> 6), F_OF); + } else { + CLEAR_FLAG(F_OF); + } + } else { + res = 0; + CONDITIONAL_SET_FLAG((d >> (s-1)) & 0x1, F_CF); + CLEAR_FLAG(F_OF); + CLEAR_FLAG(F_SF); + SET_FLAG(F_PF); + SET_FLAG(F_ZF); + } + return (u8)res; +} + +/**************************************************************************** +REMARKS: +Implements the SHR instruction and side effects. +****************************************************************************/ +u16 shr_word(u16 d, u8 s) +{ + unsigned int cnt, res, cf; + + if (s < 16) { + cnt = s % 16; + if (cnt > 0) { + cf = d & (1 << (cnt - 1)); + res = d >> cnt; + CONDITIONAL_SET_FLAG(cf, F_CF); + set_szp_flags_16((u16)res); + } else { + res = d; + } + + if (cnt == 1) { + CONDITIONAL_SET_FLAG(XOR2(res >> 14), F_OF); + } else { + CLEAR_FLAG(F_OF); + } + } else { + res = 0; + CLEAR_FLAG(F_CF); + CLEAR_FLAG(F_OF); + SET_FLAG(F_ZF); + CLEAR_FLAG(F_SF); + CLEAR_FLAG(F_PF); + } + return (u16)res; +} + +/**************************************************************************** +REMARKS: +Implements the SHR instruction and side effects. +****************************************************************************/ +u32 shr_long(u32 d, u8 s) +{ + unsigned int cnt, res, cf; + + if (s < 32) { + cnt = s % 32; + if (cnt > 0) { + cf = d & (1 << (cnt - 1)); + res = d >> cnt; + CONDITIONAL_SET_FLAG(cf, F_CF); + set_szp_flags_32((u32)res); + } else { + res = d; + } + if (cnt == 1) { + CONDITIONAL_SET_FLAG(XOR2(res >> 30), F_OF); + } else { + CLEAR_FLAG(F_OF); + } + } else { + res = 0; + CLEAR_FLAG(F_CF); + CLEAR_FLAG(F_OF); + SET_FLAG(F_ZF); + CLEAR_FLAG(F_SF); + CLEAR_FLAG(F_PF); + } + return res; +} + +/**************************************************************************** +REMARKS: +Implements the SAR instruction and side effects. +****************************************************************************/ +u8 sar_byte(u8 d, u8 s) +{ + unsigned int cnt, res, cf, mask, sf; + + res = d; + sf = d & 0x80; + cnt = s % 8; + if (cnt > 0 && cnt < 8) { + mask = (1 << (8 - cnt)) - 1; + cf = d & (1 << (cnt - 1)); + res = (d >> cnt) & mask; + CONDITIONAL_SET_FLAG(cf, F_CF); + if (sf) { + res |= ~mask; + } + set_szp_flags_8((u8)res); + } else if (cnt >= 8) { + if (sf) { + res = 0xff; + SET_FLAG(F_CF); + CLEAR_FLAG(F_ZF); + SET_FLAG(F_SF); + SET_FLAG(F_PF); + } else { + res = 0; + CLEAR_FLAG(F_CF); + SET_FLAG(F_ZF); + CLEAR_FLAG(F_SF); + CLEAR_FLAG(F_PF); + } + } + return (u8)res; +} + +/**************************************************************************** +REMARKS: +Implements the SAR instruction and side effects. +****************************************************************************/ +u16 sar_word(u16 d, u8 s) +{ + unsigned int cnt, res, cf, mask, sf; + + sf = d & 0x8000; + cnt = s % 16; + res = d; + if (cnt > 0 && cnt < 16) { + mask = (1 << (16 - cnt)) - 1; + cf = d & (1 << (cnt - 1)); + res = (d >> cnt) & mask; + CONDITIONAL_SET_FLAG(cf, F_CF); + if (sf) { + res |= ~mask; + } + set_szp_flags_16((u16)res); + } else if (cnt >= 16) { + if (sf) { + res = 0xffff; + SET_FLAG(F_CF); + CLEAR_FLAG(F_ZF); + SET_FLAG(F_SF); + SET_FLAG(F_PF); + } else { + res = 0; + CLEAR_FLAG(F_CF); + SET_FLAG(F_ZF); + CLEAR_FLAG(F_SF); + CLEAR_FLAG(F_PF); + } + } + return (u16)res; +} + +/**************************************************************************** +REMARKS: +Implements the SAR instruction and side effects. +****************************************************************************/ +u32 sar_long(u32 d, u8 s) +{ + u32 cnt, res, cf, mask, sf; + + sf = d & 0x80000000; + cnt = s % 32; + res = d; + if (cnt > 0 && cnt < 32) { + mask = (1 << (32 - cnt)) - 1; + cf = d & (1 << (cnt - 1)); + res = (d >> cnt) & mask; + CONDITIONAL_SET_FLAG(cf, F_CF); + if (sf) { + res |= ~mask; + } + set_szp_flags_32(res); + } else if (cnt >= 32) { + if (sf) { + res = 0xffffffff; + SET_FLAG(F_CF); + CLEAR_FLAG(F_ZF); + SET_FLAG(F_SF); + SET_FLAG(F_PF); + } else { + res = 0; + CLEAR_FLAG(F_CF); + SET_FLAG(F_ZF); + CLEAR_FLAG(F_SF); + CLEAR_FLAG(F_PF); + } + } + return res; +} + +/**************************************************************************** +REMARKS: +Implements the SHLD instruction and side effects. +****************************************************************************/ +u16 shld_word (u16 d, u16 fill, u8 s) +{ + unsigned int cnt, res, cf; + + if (s < 16) { + cnt = s % 16; + if (cnt > 0) { + res = (d << cnt) | (fill >> (16-cnt)); + cf = d & (1 << (16 - cnt)); + CONDITIONAL_SET_FLAG(cf, F_CF); + set_szp_flags_16((u16)res); + } else { + res = d; + } + if (cnt == 1) { + CONDITIONAL_SET_FLAG((((res & 0x8000) == 0x8000) ^ + (ACCESS_FLAG(F_CF) != 0)), F_OF); + } else { + CLEAR_FLAG(F_OF); + } + } else { + res = 0; + CONDITIONAL_SET_FLAG((d << (s-1)) & 0x8000, F_CF); + CLEAR_FLAG(F_OF); + CLEAR_FLAG(F_SF); + SET_FLAG(F_PF); + SET_FLAG(F_ZF); + } + return (u16)res; +} + +/**************************************************************************** +REMARKS: +Implements the SHLD instruction and side effects. +****************************************************************************/ +u32 shld_long (u32 d, u32 fill, u8 s) +{ + unsigned int cnt, res, cf; + + if (s < 32) { + cnt = s % 32; + if (cnt > 0) { + res = (d << cnt) | (fill >> (32-cnt)); + cf = d & (1 << (32 - cnt)); + CONDITIONAL_SET_FLAG(cf, F_CF); + set_szp_flags_32((u32)res); + } else { + res = d; + } + if (cnt == 1) { + CONDITIONAL_SET_FLAG((((res & 0x80000000) == 0x80000000) ^ + (ACCESS_FLAG(F_CF) != 0)), F_OF); + } else { + CLEAR_FLAG(F_OF); + } + } else { + res = 0; + CONDITIONAL_SET_FLAG((d << (s-1)) & 0x80000000, F_CF); + CLEAR_FLAG(F_OF); + CLEAR_FLAG(F_SF); + SET_FLAG(F_PF); + SET_FLAG(F_ZF); + } + return res; +} + +/**************************************************************************** +REMARKS: +Implements the SHRD instruction and side effects. +****************************************************************************/ +u16 shrd_word (u16 d, u16 fill, u8 s) +{ + unsigned int cnt, res, cf; + + if (s < 16) { + cnt = s % 16; + if (cnt > 0) { + cf = d & (1 << (cnt - 1)); + res = (d >> cnt) | (fill << (16 - cnt)); + CONDITIONAL_SET_FLAG(cf, F_CF); + set_szp_flags_16((u16)res); + } else { + res = d; + } + + if (cnt == 1) { + CONDITIONAL_SET_FLAG(XOR2(res >> 14), F_OF); + } else { + CLEAR_FLAG(F_OF); + } + } else { + res = 0; + CLEAR_FLAG(F_CF); + CLEAR_FLAG(F_OF); + SET_FLAG(F_ZF); + CLEAR_FLAG(F_SF); + CLEAR_FLAG(F_PF); + } + return (u16)res; +} + +/**************************************************************************** +REMARKS: +Implements the SHRD instruction and side effects. +****************************************************************************/ +u32 shrd_long (u32 d, u32 fill, u8 s) +{ + unsigned int cnt, res, cf; + + if (s < 32) { + cnt = s % 32; + if (cnt > 0) { + cf = d & (1 << (cnt - 1)); + res = (d >> cnt) | (fill << (32 - cnt)); + CONDITIONAL_SET_FLAG(cf, F_CF); + set_szp_flags_32((u32)res); + } else { + res = d; + } + if (cnt == 1) { + CONDITIONAL_SET_FLAG(XOR2(res >> 30), F_OF); + } else { + CLEAR_FLAG(F_OF); + } + } else { + res = 0; + CLEAR_FLAG(F_CF); + CLEAR_FLAG(F_OF); + SET_FLAG(F_ZF); + CLEAR_FLAG(F_SF); + CLEAR_FLAG(F_PF); + } + return res; +} + +/**************************************************************************** +REMARKS: +Implements the SBB instruction and side effects. +****************************************************************************/ +u8 sbb_byte(u8 d, u8 s) +{ + u32 res; /* all operands in native machine order */ + u32 bc; + + if (ACCESS_FLAG(F_CF)) + res = d - s - 1; + else + res = d - s; + set_szp_flags_8((u8)res); + + /* calculate the borrow chain. See note at top */ + bc = (res & (~d | s)) | (~d & s); + CONDITIONAL_SET_FLAG(bc & 0x80, F_CF); + CONDITIONAL_SET_FLAG(XOR2(bc >> 6), F_OF); + CONDITIONAL_SET_FLAG(bc & 0x8, F_AF); + return (u8)res; +} + +/**************************************************************************** +REMARKS: +Implements the SBB instruction and side effects. +****************************************************************************/ +u16 sbb_word(u16 d, u16 s) +{ + u32 res; /* all operands in native machine order */ + u32 bc; + + if (ACCESS_FLAG(F_CF)) + res = d - s - 1; + else + res = d - s; + set_szp_flags_16((u16)res); + + /* calculate the borrow chain. See note at top */ + bc = (res & (~d | s)) | (~d & s); + CONDITIONAL_SET_FLAG(bc & 0x8000, F_CF); + CONDITIONAL_SET_FLAG(XOR2(bc >> 14), F_OF); + CONDITIONAL_SET_FLAG(bc & 0x8, F_AF); + return (u16)res; +} + +/**************************************************************************** +REMARKS: +Implements the SBB instruction and side effects. +****************************************************************************/ +u32 sbb_long(u32 d, u32 s) +{ + u32 res; /* all operands in native machine order */ + u32 bc; + + if (ACCESS_FLAG(F_CF)) + res = d - s - 1; + else + res = d - s; + + set_szp_flags_32(res); + + /* calculate the borrow chain. See note at top */ + bc = (res & (~d | s)) | (~d & s); + CONDITIONAL_SET_FLAG(bc & 0x80000000, F_CF); + CONDITIONAL_SET_FLAG(XOR2(bc >> 30), F_OF); + CONDITIONAL_SET_FLAG(bc & 0x8, F_AF); + return res; +} + +/**************************************************************************** +REMARKS: +Implements the SUB instruction and side effects. +****************************************************************************/ +u8 sub_byte(u8 d, u8 s) +{ + u32 res; /* all operands in native machine order */ + u32 bc; + + res = d - s; + set_szp_flags_8((u8)res); + + /* calculate the borrow chain. See note at top */ + bc = (res & (~d | s)) | (~d & s); + CONDITIONAL_SET_FLAG(bc & 0x80, F_CF); + CONDITIONAL_SET_FLAG(XOR2(bc >> 6), F_OF); + CONDITIONAL_SET_FLAG(bc & 0x8, F_AF); + return (u8)res; +} + +/**************************************************************************** +REMARKS: +Implements the SUB instruction and side effects. +****************************************************************************/ +u16 sub_word(u16 d, u16 s) +{ + u32 res; /* all operands in native machine order */ + u32 bc; + + res = d - s; + set_szp_flags_16((u16)res); + + /* calculate the borrow chain. See note at top */ + bc = (res & (~d | s)) | (~d & s); + CONDITIONAL_SET_FLAG(bc & 0x8000, F_CF); + CONDITIONAL_SET_FLAG(XOR2(bc >> 14), F_OF); + CONDITIONAL_SET_FLAG(bc & 0x8, F_AF); + return (u16)res; +} + +/**************************************************************************** +REMARKS: +Implements the SUB instruction and side effects. +****************************************************************************/ +u32 sub_long(u32 d, u32 s) +{ + u32 res; /* all operands in native machine order */ + u32 bc; + + res = d - s; + set_szp_flags_32(res); + + /* calculate the borrow chain. See note at top */ + bc = (res & (~d | s)) | (~d & s); + CONDITIONAL_SET_FLAG(bc & 0x80000000, F_CF); + CONDITIONAL_SET_FLAG(XOR2(bc >> 30), F_OF); + CONDITIONAL_SET_FLAG(bc & 0x8, F_AF); + return res; +} + +/**************************************************************************** +REMARKS: +Implements the TEST instruction and side effects. +****************************************************************************/ +void test_byte(u8 d, u8 s) +{ + u32 res; /* all operands in native machine order */ + + res = d & s; + + CLEAR_FLAG(F_OF); + set_szp_flags_8((u8)res); + /* AF == dont care */ + CLEAR_FLAG(F_CF); +} + +/**************************************************************************** +REMARKS: +Implements the TEST instruction and side effects. +****************************************************************************/ +void test_word(u16 d, u16 s) +{ + u32 res; /* all operands in native machine order */ + + res = d & s; + + CLEAR_FLAG(F_OF); + set_szp_flags_16((u16)res); + /* AF == dont care */ + CLEAR_FLAG(F_CF); +} + +/**************************************************************************** +REMARKS: +Implements the TEST instruction and side effects. +****************************************************************************/ +void test_long(u32 d, u32 s) +{ + u32 res; /* all operands in native machine order */ + + res = d & s; + + CLEAR_FLAG(F_OF); + set_szp_flags_32(res); + /* AF == dont care */ + CLEAR_FLAG(F_CF); +} + +/**************************************************************************** +REMARKS: +Implements the XOR instruction and side effects. +****************************************************************************/ +u8 xor_byte(u8 d, u8 s) +{ + u8 res; /* all operands in native machine order */ + + res = d ^ s; + no_carry_byte_side_eff(res); + return res; +} + +/**************************************************************************** +REMARKS: +Implements the XOR instruction and side effects. +****************************************************************************/ +u16 xor_word(u16 d, u16 s) +{ + u16 res; /* all operands in native machine order */ + + res = d ^ s; + no_carry_word_side_eff(res); + return res; +} + +/**************************************************************************** +REMARKS: +Implements the XOR instruction and side effects. +****************************************************************************/ +u32 xor_long(u32 d, u32 s) +{ + u32 res; /* all operands in native machine order */ + + res = d ^ s; + no_carry_long_side_eff(res); + return res; +} + +/**************************************************************************** +REMARKS: +Implements the IMUL instruction and side effects. +****************************************************************************/ +void imul_byte(u8 s) +{ + s16 res = (s16)((s8)M.x86.R_AL * (s8)s); + + M.x86.R_AX = res; + if (((M.x86.R_AL & 0x80) == 0 && M.x86.R_AH == 0x00) || + ((M.x86.R_AL & 0x80) != 0 && M.x86.R_AH == 0xFF)) { + CLEAR_FLAG(F_CF); + CLEAR_FLAG(F_OF); + } else { + SET_FLAG(F_CF); + SET_FLAG(F_OF); + } +} + +/**************************************************************************** +REMARKS: +Implements the IMUL instruction and side effects. +****************************************************************************/ +void imul_word(u16 s) +{ + s32 res = (s16)M.x86.R_AX * (s16)s; + + M.x86.R_AX = (u16)res; + M.x86.R_DX = (u16)(res >> 16); + if (((M.x86.R_AX & 0x8000) == 0 && M.x86.R_DX == 0x0000) || + ((M.x86.R_AX & 0x8000) != 0 && M.x86.R_DX == 0xFFFF)) { + CLEAR_FLAG(F_CF); + CLEAR_FLAG(F_OF); + } else { + SET_FLAG(F_CF); + SET_FLAG(F_OF); + } +} + +/**************************************************************************** +REMARKS: +Implements the IMUL instruction and side effects. +****************************************************************************/ +void imul_long_direct(u32 *res_lo, u32* res_hi,u32 d, u32 s) +{ +#ifdef __HAS_LONG_LONG__ + s64 res = (s32)d * (s32)s; + + *res_lo = (u32)res; + *res_hi = (u32)(res >> 32); +#else + u32 d_lo,d_hi,d_sign; + u32 s_lo,s_hi,s_sign; + u32 rlo_lo,rlo_hi,rhi_lo; + + if ((d_sign = d & 0x80000000) != 0) + d = -d; + d_lo = d & 0xFFFF; + d_hi = d >> 16; + if ((s_sign = s & 0x80000000) != 0) + s = -s; + s_lo = s & 0xFFFF; + s_hi = s >> 16; + rlo_lo = d_lo * s_lo; + rlo_hi = (d_hi * s_lo + d_lo * s_hi) + (rlo_lo >> 16); + rhi_lo = d_hi * s_hi + (rlo_hi >> 16); + *res_lo = (rlo_hi << 16) | (rlo_lo & 0xFFFF); + *res_hi = rhi_lo; + if (d_sign != s_sign) { + d = ~*res_lo; + s = (((d & 0xFFFF) + 1) >> 16) + (d >> 16); + *res_lo = ~*res_lo+1; + *res_hi = ~*res_hi+(s >> 16); + } +#endif +} + +/**************************************************************************** +REMARKS: +Implements the IMUL instruction and side effects. +****************************************************************************/ +void imul_long(u32 s) +{ + imul_long_direct(&M.x86.R_EAX,&M.x86.R_EDX,M.x86.R_EAX,s); + if (((M.x86.R_EAX & 0x80000000) == 0 && M.x86.R_EDX == 0x00000000) || + ((M.x86.R_EAX & 0x80000000) != 0 && M.x86.R_EDX == 0xFFFFFFFF)) { + CLEAR_FLAG(F_CF); + CLEAR_FLAG(F_OF); + } else { + SET_FLAG(F_CF); + SET_FLAG(F_OF); + } +} + +/**************************************************************************** +REMARKS: +Implements the MUL instruction and side effects. +****************************************************************************/ +void mul_byte(u8 s) +{ + u16 res = (u16)(M.x86.R_AL * s); + + M.x86.R_AX = res; + if (M.x86.R_AH == 0) { + CLEAR_FLAG(F_CF); + CLEAR_FLAG(F_OF); + } else { + SET_FLAG(F_CF); + SET_FLAG(F_OF); + } +} + +/**************************************************************************** +REMARKS: +Implements the MUL instruction and side effects. +****************************************************************************/ +void mul_word(u16 s) +{ + u32 res = M.x86.R_AX * s; + + M.x86.R_AX = (u16)res; + M.x86.R_DX = (u16)(res >> 16); + if (M.x86.R_DX == 0) { + CLEAR_FLAG(F_CF); + CLEAR_FLAG(F_OF); + } else { + SET_FLAG(F_CF); + SET_FLAG(F_OF); + } +} + +/**************************************************************************** +REMARKS: +Implements the MUL instruction and side effects. +****************************************************************************/ +void mul_long(u32 s) +{ +#ifdef __HAS_LONG_LONG__ + u64 res = (u32)M.x86.R_EAX * (u32)s; + + M.x86.R_EAX = (u32)res; + M.x86.R_EDX = (u32)(res >> 32); +#else + u32 a,a_lo,a_hi; + u32 s_lo,s_hi; + u32 rlo_lo,rlo_hi,rhi_lo; + + a = M.x86.R_EAX; + a_lo = a & 0xFFFF; + a_hi = a >> 16; + s_lo = s & 0xFFFF; + s_hi = s >> 16; + rlo_lo = a_lo * s_lo; + rlo_hi = (a_hi * s_lo + a_lo * s_hi) + (rlo_lo >> 16); + rhi_lo = a_hi * s_hi + (rlo_hi >> 16); + M.x86.R_EAX = (rlo_hi << 16) | (rlo_lo & 0xFFFF); + M.x86.R_EDX = rhi_lo; +#endif + if (M.x86.R_EDX == 0) { + CLEAR_FLAG(F_CF); + CLEAR_FLAG(F_OF); + } else { + SET_FLAG(F_CF); + SET_FLAG(F_OF); + } +} + +/**************************************************************************** +REMARKS: +Implements the IDIV instruction and side effects. +****************************************************************************/ +void idiv_byte(u8 s) +{ + s32 dvd, div, mod; + + dvd = (s16)M.x86.R_AX; + if (s == 0) { + x86emu_intr_raise(0); + return; + } + div = dvd / (s8)s; + mod = dvd % (s8)s; + if (abs(div) > 0x7f) { + x86emu_intr_raise(0); + return; + } + M.x86.R_AL = (s8) div; + M.x86.R_AH = (s8) mod; +} + +/**************************************************************************** +REMARKS: +Implements the IDIV instruction and side effects. +****************************************************************************/ +void idiv_word(u16 s) +{ + s32 dvd, div, mod; + + dvd = (((s32)M.x86.R_DX) << 16) | M.x86.R_AX; + if (s == 0) { + x86emu_intr_raise(0); + return; + } + div = dvd / (s16)s; + mod = dvd % (s16)s; + if (abs(div) > 0x7fff) { + x86emu_intr_raise(0); + return; + } + CLEAR_FLAG(F_CF); + CLEAR_FLAG(F_SF); + CONDITIONAL_SET_FLAG(div == 0, F_ZF); + set_parity_flag(mod); + + M.x86.R_AX = (u16)div; + M.x86.R_DX = (u16)mod; +} + +/**************************************************************************** +REMARKS: +Implements the IDIV instruction and side effects. +****************************************************************************/ +void idiv_long(u32 s) +{ +#ifdef __HAS_LONG_LONG__ + s64 dvd, div, mod; + + dvd = (((s64)M.x86.R_EDX) << 32) | M.x86.R_EAX; + if (s == 0) { + x86emu_intr_raise(0); + return; + } + div = dvd / (s32)s; + mod = dvd % (s32)s; + if (abs(div) > 0x7fffffff) { + x86emu_intr_raise(0); + return; + } +#else + s32 div = 0, mod; + s32 h_dvd = M.x86.R_EDX; + u32 l_dvd = M.x86.R_EAX; + u32 abs_s = s & 0x7FFFFFFF; + u32 abs_h_dvd = h_dvd & 0x7FFFFFFF; + u32 h_s = abs_s >> 1; + u32 l_s = abs_s << 31; + int counter = 31; + int carry; + + if (s == 0) { + x86emu_intr_raise(0); + return; + } + do { + div <<= 1; + carry = (l_dvd >= l_s) ? 0 : 1; + + if (abs_h_dvd < (h_s + carry)) { + h_s >>= 1; + l_s = abs_s << (--counter); + continue; + } else { + abs_h_dvd -= (h_s + carry); + l_dvd = carry ? ((0xFFFFFFFF - l_s) + l_dvd + 1) + : (l_dvd - l_s); + h_s >>= 1; + l_s = abs_s << (--counter); + div |= 1; + continue; + } + + } while (counter > -1); + /* overflow */ + if (abs_h_dvd || (l_dvd > abs_s)) { + x86emu_intr_raise(0); + return; + } + /* sign */ + div |= ((h_dvd & 0x10000000) ^ (s & 0x10000000)); + mod = l_dvd; + +#endif + CLEAR_FLAG(F_CF); + CLEAR_FLAG(F_AF); + CLEAR_FLAG(F_SF); + SET_FLAG(F_ZF); + set_parity_flag(mod); + + M.x86.R_EAX = (u32)div; + M.x86.R_EDX = (u32)mod; +} + +/**************************************************************************** +REMARKS: +Implements the DIV instruction and side effects. +****************************************************************************/ +void div_byte(u8 s) +{ + u32 dvd, div, mod; + + dvd = M.x86.R_AX; + if (s == 0) { + x86emu_intr_raise(0); + return; + } + div = dvd / (u8)s; + mod = dvd % (u8)s; + if (abs(div) > 0xff) { + x86emu_intr_raise(0); + return; + } + M.x86.R_AL = (u8)div; + M.x86.R_AH = (u8)mod; +} + +/**************************************************************************** +REMARKS: +Implements the DIV instruction and side effects. +****************************************************************************/ +void div_word(u16 s) +{ + u32 dvd, div, mod; + + dvd = (((u32)M.x86.R_DX) << 16) | M.x86.R_AX; + if (s == 0) { + x86emu_intr_raise(0); + return; + } + div = dvd / (u16)s; + mod = dvd % (u16)s; + if (abs(div) > 0xffff) { + x86emu_intr_raise(0); + return; + } + CLEAR_FLAG(F_CF); + CLEAR_FLAG(F_SF); + CONDITIONAL_SET_FLAG(div == 0, F_ZF); + set_parity_flag(mod); + + M.x86.R_AX = (u16)div; + M.x86.R_DX = (u16)mod; +} + +/**************************************************************************** +REMARKS: +Implements the DIV instruction and side effects. +****************************************************************************/ +void div_long(u32 s) +{ +#ifdef __HAS_LONG_LONG__ + u64 dvd, div, mod; + + dvd = (((u64)M.x86.R_EDX) << 32) | M.x86.R_EAX; + if (s == 0) { + x86emu_intr_raise(0); + return; + } + div = dvd / (u32)s; + mod = dvd % (u32)s; + if (abs(div) > 0xffffffff) { + x86emu_intr_raise(0); + return; + } +#else + s32 div = 0, mod; + s32 h_dvd = M.x86.R_EDX; + u32 l_dvd = M.x86.R_EAX; + + u32 h_s = s; + u32 l_s = 0; + int counter = 32; + int carry; + + if (s == 0) { + x86emu_intr_raise(0); + return; + } + do { + div <<= 1; + carry = (l_dvd >= l_s) ? 0 : 1; + + if (h_dvd < (h_s + carry)) { + h_s >>= 1; + l_s = s << (--counter); + continue; + } else { + h_dvd -= (h_s + carry); + l_dvd = carry ? ((0xFFFFFFFF - l_s) + l_dvd + 1) + : (l_dvd - l_s); + h_s >>= 1; + l_s = s << (--counter); + div |= 1; + continue; + } + + } while (counter > -1); + /* overflow */ + if (h_dvd || (l_dvd > s)) { + x86emu_intr_raise(0); + return; + } + mod = l_dvd; +#endif + CLEAR_FLAG(F_CF); + CLEAR_FLAG(F_AF); + CLEAR_FLAG(F_SF); + SET_FLAG(F_ZF); + set_parity_flag(mod); + + M.x86.R_EAX = (u32)div; + M.x86.R_EDX = (u32)mod; +} + +/**************************************************************************** +REMARKS: +Implements the IN string instruction and side effects. +****************************************************************************/ + +static void single_in(int size) +{ + if(size == 1) + store_data_byte_abs(M.x86.R_ES, M.x86.R_DI,(*sys_inb)(M.x86.R_DX)); + else if (size == 2) + store_data_word_abs(M.x86.R_ES, M.x86.R_DI,(*sys_inw)(M.x86.R_DX)); + else + store_data_long_abs(M.x86.R_ES, M.x86.R_DI,(*sys_inl)(M.x86.R_DX)); +} + +void ins(int size) +{ + int inc = size; + + if (ACCESS_FLAG(F_DF)) { + inc = -size; + } + if (M.x86.mode & (SYSMODE_PREFIX_REPE | SYSMODE_PREFIX_REPNE)) { + /* dont care whether REPE or REPNE */ + /* in until CX is ZERO. */ + u32 count = ((M.x86.mode & SYSMODE_PREFIX_DATA) ? + M.x86.R_ECX : M.x86.R_CX); + + while (count--) { + single_in(size); + M.x86.R_DI += inc; + } + M.x86.R_CX = 0; + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + M.x86.R_ECX = 0; + } + M.x86.mode &= ~(SYSMODE_PREFIX_REPE | SYSMODE_PREFIX_REPNE); + } else { + single_in(size); + M.x86.R_DI += inc; + } +} + +/**************************************************************************** +REMARKS: +Implements the OUT string instruction and side effects. +****************************************************************************/ + +static void single_out(int size) +{ + if(size == 1) + (*sys_outb)(M.x86.R_DX,fetch_data_byte_abs(M.x86.R_ES, M.x86.R_SI)); + else if (size == 2) + (*sys_outw)(M.x86.R_DX,fetch_data_word_abs(M.x86.R_ES, M.x86.R_SI)); + else + (*sys_outl)(M.x86.R_DX,fetch_data_long_abs(M.x86.R_ES, M.x86.R_SI)); +} + +void outs(int size) +{ + int inc = size; + + if (ACCESS_FLAG(F_DF)) { + inc = -size; + } + if (M.x86.mode & (SYSMODE_PREFIX_REPE | SYSMODE_PREFIX_REPNE)) { + /* dont care whether REPE or REPNE */ + /* out until CX is ZERO. */ + u32 count = ((M.x86.mode & SYSMODE_PREFIX_DATA) ? + M.x86.R_ECX : M.x86.R_CX); + while (count--) { + single_out(size); + M.x86.R_SI += inc; + } + M.x86.R_CX = 0; + if (M.x86.mode & SYSMODE_PREFIX_DATA) { + M.x86.R_ECX = 0; + } + M.x86.mode &= ~(SYSMODE_PREFIX_REPE | SYSMODE_PREFIX_REPNE); + } else { + single_out(size); + M.x86.R_SI += inc; + } +} + +/**************************************************************************** +PARAMETERS: +addr - Address to fetch word from + +REMARKS: +Fetches a word from emulator memory using an absolute address. +****************************************************************************/ +u16 mem_access_word(int addr) +{ +DB( if (CHECK_MEM_ACCESS()) + x86emu_check_mem_access(addr);) + return (*sys_rdw)(addr); +} + +/**************************************************************************** +REMARKS: +Pushes a word onto the stack. + +NOTE: Do not inline this, as (*sys_wrX) is already inline! +****************************************************************************/ +void push_word(u16 w) +{ +DB( if (CHECK_SP_ACCESS()) + x86emu_check_sp_access();) + M.x86.R_SP -= 2; + (*sys_wrw)(((u32)M.x86.R_SS << 4) + M.x86.R_SP, w); +} + +/**************************************************************************** +REMARKS: +Pushes a long onto the stack. + +NOTE: Do not inline this, as (*sys_wrX) is already inline! +****************************************************************************/ +void push_long(u32 w) +{ +DB( if (CHECK_SP_ACCESS()) + x86emu_check_sp_access();) + M.x86.R_SP -= 4; + (*sys_wrl)(((u32)M.x86.R_SS << 4) + M.x86.R_SP, w); +} + +/**************************************************************************** +REMARKS: +Pops a word from the stack. + +NOTE: Do not inline this, as (*sys_rdX) is already inline! +****************************************************************************/ +u16 pop_word(void) +{ + u16 res; + +DB( if (CHECK_SP_ACCESS()) + x86emu_check_sp_access();) + res = (*sys_rdw)(((u32)M.x86.R_SS << 4) + M.x86.R_SP); + M.x86.R_SP += 2; + return res; +} + +/**************************************************************************** +REMARKS: +Pops a long from the stack. + +NOTE: Do not inline this, as (*sys_rdX) is already inline! +****************************************************************************/ +u32 pop_long(void) +{ + u32 res; + +DB( if (CHECK_SP_ACCESS()) + x86emu_check_sp_access();) + res = (*sys_rdl)(((u32)M.x86.R_SS << 4) + M.x86.R_SP); + M.x86.R_SP += 4; + return res; +} + +#endif diff --git a/drivers/bios_emulator/x86emu/sys.c b/drivers/bios_emulator/x86emu/sys.c new file mode 100644 index 0000000..566389f --- /dev/null +++ b/drivers/bios_emulator/x86emu/sys.c @@ -0,0 +1,326 @@ +/**************************************************************************** +* +* Realmode X86 Emulator Library +* +* Copyright (C) 1991-2004 SciTech Software, Inc. +* Copyright (C) David Mosberger-Tang +* Copyright (C) 1999 Egbert Eich +* +* ======================================================================== +* +* Permission to use, copy, modify, distribute, and sell this software and +* its documentation for any purpose is hereby granted without fee, +* provided that the above copyright notice appear in all copies and that +* both that copyright notice and this permission notice appear in +* supporting documentation, and that the name of the authors not be used +* in advertising or publicity pertaining to distribution of the software +* without specific, written prior permission. The authors makes no +* representations about the suitability of this software for any purpose. +* It is provided "as is" without express or implied warranty. +* +* THE AUTHORS DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, +* INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO +* EVENT SHALL THE AUTHORS BE LIABLE FOR ANY SPECIAL, INDIRECT OR +* CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF +* USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR +* OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR +* PERFORMANCE OF THIS SOFTWARE. +* +* ======================================================================== +* +* Language: ANSI C +* Environment: Any +* Developer: Kendall Bennett +* +* Description: This file includes subroutines which are related to +* programmed I/O and memory access. Included in this module +* are default functions that do nothing. For real uses these +* functions will have to be overriden by the user library. +* +****************************************************************************/ + +#include "x86emu/x86emui.h" + +#if defined(CONFIG_BIOSEMU) + +/*------------------------- Global Variables ------------------------------*/ + +X86EMU_sysEnv _X86EMU_env; /* Global emulator machine state */ +X86EMU_intrFuncs _X86EMU_intrTab[256]; + +int debug_intr; + +/*----------------------------- Implementation ----------------------------*/ + +/**************************************************************************** +PARAMETERS: +addr - Emulator memory address to read + +RETURNS: +Byte value read from emulator memory. + +REMARKS: +Reads a byte value from the emulator memory. +****************************************************************************/ +u8 X86API rdb(u32 addr) +{ + return 0; +} + +/**************************************************************************** +PARAMETERS: +addr - Emulator memory address to read + +RETURNS: +Word value read from emulator memory. + +REMARKS: +Reads a word value from the emulator memory. +****************************************************************************/ +u16 X86API rdw(u32 addr) +{ + return 0; +} + +/**************************************************************************** +PARAMETERS: +addr - Emulator memory address to read + +RETURNS: +Long value read from emulator memory. +REMARKS: +Reads a long value from the emulator memory. +****************************************************************************/ +u32 X86API rdl(u32 addr) +{ + return 0; +} + +/**************************************************************************** +PARAMETERS: +addr - Emulator memory address to read +val - Value to store + +REMARKS: +Writes a byte value to emulator memory. +****************************************************************************/ +void X86API wrb(u32 addr, u8 val) +{ +} + +/**************************************************************************** +PARAMETERS: +addr - Emulator memory address to read +val - Value to store + +REMARKS: +Writes a word value to emulator memory. +****************************************************************************/ +void X86API wrw(u32 addr, u16 val) +{ +} + +/**************************************************************************** +PARAMETERS: +addr - Emulator memory address to read +val - Value to store + +REMARKS: +Writes a long value to emulator memory. +****************************************************************************/ +void X86API wrl(u32 addr, u32 val) +{ +} + +/**************************************************************************** +PARAMETERS: +addr - PIO address to read +RETURN: +0 +REMARKS: +Default PIO byte read function. Doesn't perform real inb. +****************************************************************************/ +static u8 X86API p_inb(X86EMU_pioAddr addr) +{ + DB(if (DEBUG_IO_TRACE()) + printk("inb %#04x \n", addr);) + return 0; +} + +/**************************************************************************** +PARAMETERS: +addr - PIO address to read +RETURN: +0 +REMARKS: +Default PIO word read function. Doesn't perform real inw. +****************************************************************************/ +static u16 X86API p_inw(X86EMU_pioAddr addr) +{ + DB(if (DEBUG_IO_TRACE()) + printk("inw %#04x \n", addr);) + return 0; +} + +/**************************************************************************** +PARAMETERS: +addr - PIO address to read +RETURN: +0 +REMARKS: +Default PIO long read function. Doesn't perform real inl. +****************************************************************************/ +static u32 X86API p_inl(X86EMU_pioAddr addr) +{ + DB(if (DEBUG_IO_TRACE()) + printk("inl %#04x \n", addr);) + return 0; +} + +/**************************************************************************** +PARAMETERS: +addr - PIO address to write +val - Value to store +REMARKS: +Default PIO byte write function. Doesn't perform real outb. +****************************************************************************/ +static void X86API p_outb(X86EMU_pioAddr addr, u8 val) +{ + DB(if (DEBUG_IO_TRACE()) + printk("outb %#02x -> %#04x \n", val, addr);) + return; +} + +/**************************************************************************** +PARAMETERS: +addr - PIO address to write +val - Value to store +REMARKS: +Default PIO word write function. Doesn't perform real outw. +****************************************************************************/ +static void X86API p_outw(X86EMU_pioAddr addr, u16 val) +{ + DB(if (DEBUG_IO_TRACE()) + printk("outw %#04x -> %#04x \n", val, addr);) + return; +} + +/**************************************************************************** +PARAMETERS: +addr - PIO address to write +val - Value to store +REMARKS: +Default PIO ;ong write function. Doesn't perform real outl. +****************************************************************************/ +static void X86API p_outl(X86EMU_pioAddr addr, u32 val) +{ + DB(if (DEBUG_IO_TRACE()) + printk("outl %#08x -> %#04x \n", val, addr);) + return; +} + +/*------------------------- Global Variables ------------------------------*/ + +u8(X86APIP sys_rdb) (u32 addr) = rdb; +u16(X86APIP sys_rdw) (u32 addr) = rdw; +u32(X86APIP sys_rdl) (u32 addr) = rdl; +void (X86APIP sys_wrb) (u32 addr, u8 val) = wrb; +void (X86APIP sys_wrw) (u32 addr, u16 val) = wrw; +void (X86APIP sys_wrl) (u32 addr, u32 val) = wrl; +u8(X86APIP sys_inb) (X86EMU_pioAddr addr) = p_inb; +u16(X86APIP sys_inw) (X86EMU_pioAddr addr) = p_inw; +u32(X86APIP sys_inl) (X86EMU_pioAddr addr) = p_inl; +void (X86APIP sys_outb) (X86EMU_pioAddr addr, u8 val) = p_outb; +void (X86APIP sys_outw) (X86EMU_pioAddr addr, u16 val) = p_outw; +void (X86APIP sys_outl) (X86EMU_pioAddr addr, u32 val) = p_outl; + +/*----------------------------- Setup -------------------------------------*/ + +/**************************************************************************** +PARAMETERS: +funcs - New memory function pointers to make active + +REMARKS: +This function is used to set the pointers to functions which access +memory space, allowing the user application to override these functions +and hook them out as necessary for their application. +****************************************************************************/ +void X86EMU_setupMemFuncs(X86EMU_memFuncs * funcs) +{ + sys_rdb = funcs->rdb; + sys_rdw = funcs->rdw; + sys_rdl = funcs->rdl; + sys_wrb = funcs->wrb; + sys_wrw = funcs->wrw; + sys_wrl = funcs->wrl; +} + +/**************************************************************************** +PARAMETERS: +funcs - New programmed I/O function pointers to make active + +REMARKS: +This function is used to set the pointers to functions which access +I/O space, allowing the user application to override these functions +and hook them out as necessary for their application. +****************************************************************************/ +void X86EMU_setupPioFuncs(X86EMU_pioFuncs * funcs) +{ + sys_inb = funcs->inb; + sys_inw = funcs->inw; + sys_inl = funcs->inl; + sys_outb = funcs->outb; + sys_outw = funcs->outw; + sys_outl = funcs->outl; +} + +/**************************************************************************** +PARAMETERS: +funcs - New interrupt vector table to make active + +REMARKS: +This function is used to set the pointers to functions which handle +interrupt processing in the emulator, allowing the user application to +hook interrupts as necessary for their application. Any interrupts that +are not hooked by the user application, and reflected and handled internally +in the emulator via the interrupt vector table. This allows the application +to get control when the code being emulated executes specific software +interrupts. +****************************************************************************/ +void X86EMU_setupIntrFuncs(X86EMU_intrFuncs funcs[]) +{ + int i; + + for (i = 0; i < 256; i++) + _X86EMU_intrTab[i] = NULL; + if (funcs) { + for (i = 0; i < 256; i++) + _X86EMU_intrTab[i] = funcs[i]; + } +} + +/**************************************************************************** +PARAMETERS: +int - New software interrupt to prepare for + +REMARKS: +This function is used to set up the emulator state to exceute a software +interrupt. This can be used by the user application code to allow an +interrupt to be hooked, examined and then reflected back to the emulator +so that the code in the emulator will continue processing the software +interrupt as per normal. This essentially allows system code to actively +hook and handle certain software interrupts as necessary. +****************************************************************************/ +void X86EMU_prepareForInt(int num) +{ + push_word((u16) M.x86.R_FLG); + CLEAR_FLAG(F_IF); + CLEAR_FLAG(F_TF); + push_word(M.x86.R_CS); + M.x86.R_CS = mem_access_word(num * 4 + 2); + push_word(M.x86.R_IP); + M.x86.R_IP = mem_access_word(num * 4); + M.x86.intr = 0; +} + +#endif diff --git a/drivers/cfb_console.c b/drivers/cfb_console.c index 9727aeb..bcf8771 100644 --- a/drivers/cfb_console.c +++ b/drivers/cfb_console.c @@ -63,7 +63,7 @@ loop in VIDEO_TSTC_FCT (i8042) CFG_CONSOLE_BLINK_COUNT - value for delay loop - blink rate CONFIG_CONSOLE_TIME - display time/date in upper right corner, - needs CFG_CMD_DATE and CONFIG_CONSOLE_CURSOR + needs CONFIG_CMD_DATE and CONFIG_CONSOLE_CURSOR CONFIG_VIDEO_LOGO - display Linux Logo in upper left corner CONFIG_VIDEO_BMP_LOGO - use bmp_logo instead of linux_logo CONFIG_CONSOLE_EXTRA_INFO - display additional board information strings @@ -175,15 +175,15 @@ CONFIG_VIDEO_HW_CURSOR: - Uses the hardware cursor capability of the #include <linux/types.h> #include <devices.h> #include <video_font.h> -#ifdef CFG_CMD_DATE -#include <rtc.h> +#if defined(CONFIG_CMD_DATE) +#include <rtc.h> #endif -#if (CONFIG_COMMANDS & CFG_CMD_BMP) || defined(CONFIG_SPLASH_SCREEN) +#if defined(CONFIG_CMD_BMP) || defined(CONFIG_SPLASH_SCREEN) #include <watchdog.h> #include <bmp_layout.h> -#endif /* (CONFIG_COMMANDS & CFG_CMD_BMP) || CONFIG_SPLASH_SCREEN */ +#endif /*****************************************************************************/ /* Cursor definition: */ @@ -709,7 +709,7 @@ void video_puts (const char *s) /*****************************************************************************/ -#if (CONFIG_COMMANDS & CFG_CMD_BMP) || defined(CONFIG_SPLASH_SCREEN) +#if defined(CONFIG_CMD_BMP) || defined(CONFIG_SPLASH_SCREEN) #define FILL_8BIT_332RGB(r,g,b) { \ *fb = ((r>>5)<<5) | ((g>>5)<<2) | (b>>6); \ @@ -1004,7 +1004,7 @@ int video_display_bitmap (ulong bmp_image, int x, int y) return (0); } -#endif /* (CONFIG_COMMANDS & CFG_CMD_BMP) || CONFIG_SPLASH_SCREEN */ +#endif /*****************************************************************************/ diff --git a/drivers/cs8900.c b/drivers/cs8900.c index 082434c..80c4ba2 100644 --- a/drivers/cs8900.c +++ b/drivers/cs8900.c @@ -43,7 +43,7 @@ #ifdef CONFIG_DRIVER_CS8900 -#if (CONFIG_COMMANDS & CFG_CMD_NET) +#if defined(CONFIG_CMD_NET) #undef DEBUG diff --git a/drivers/dataflash.c b/drivers/dataflash.c index 17eb859..91903c8 100644 --- a/drivers/dataflash.c +++ b/drivers/dataflash.c @@ -26,18 +26,67 @@ AT91S_DATAFLASH_INFO dataflash_info[CFG_MAX_DATAFLASH_BANKS]; static AT91S_DataFlash DataFlashInst; +#ifdef CONFIG_AT91SAM9260EK +int cs[][CFG_MAX_DATAFLASH_BANKS] = { + {CFG_DATAFLASH_LOGIC_ADDR_CS0, 0}, /* Logical adress, CS */ + {CFG_DATAFLASH_LOGIC_ADDR_CS1, 1} +}; +#elif defined(CONFIG_AT91SAM9263EK) +int cs[][CFG_MAX_DATAFLASH_BANKS] = { + {CFG_DATAFLASH_LOGIC_ADDR_CS0, 0} /* Logical adress, CS */ +}; +#else int cs[][CFG_MAX_DATAFLASH_BANKS] = { {CFG_DATAFLASH_LOGIC_ADDR_CS0, 0}, /* Logical adress, CS */ {CFG_DATAFLASH_LOGIC_ADDR_CS3, 3} }; +#endif /*define the area offsets*/ +#if defined(CONFIG_AT91SAM9261EK) || defined(CONFIG_AT91SAM9260EK) || defined(CONFIG_AT91SAM9263EK) +#if defined(CONFIG_NEW_PARTITION) +dataflash_protect_t area_list[NB_DATAFLASH_AREA] = { + {0x00000000, 0x00003FFF, FLAG_PROTECT_SET, 0, "Bootstrap"}, /* ROM code */ + {0x00004200, 0x000083FF, FLAG_PROTECT_CLEAR, 0, "Environment"}, /* u-boot environment */ + {0x00008400, 0x0003DDFF, FLAG_PROTECT_SET, 0, "U-Boot"}, /* u-boot code */ + {0x0003DE00, 0x00041FFF, FLAG_PROTECT_CLEAR, FLAG_SETENV, "MON"}, /* Room for alternative boot monitor */ + {0x00042000, 0x0018BFFF, FLAG_PROTECT_CLEAR, FLAG_SETENV, "OS"}, /* data area size to tune */ + {0x0018C000, 0xFFFFFFFF, FLAG_PROTECT_CLEAR, FLAG_SETENV, "FS"}, /* data area size to tune */ +}; +#else +dataflash_protect_t area_list[NB_DATAFLASH_AREA] = { + {0, 0x3fff, FLAG_PROTECT_SET}, /* ROM code */ + {0x4000, 0x7fff, FLAG_PROTECT_CLEAR}, /* u-boot environment */ + {0x8000, 0x37fff, FLAG_PROTECT_SET}, /* u-boot code */ + {0x38000, 0x1fffff, FLAG_PROTECT_CLEAR}, /* data area size to tune */ +}; +#endif +#elif defined(CONFIG_NEW_PARTITION) +/*define the area offsets*/ +/* Invalid partitions should be defined with start > end */ +dataflash_protect_t area_list[NB_DATAFLASH_AREA*CFG_MAX_DATAFLASH_BANKS] = { + {0x00000000, 0x000083ff, FLAG_PROTECT_SET, 0, "Bootstrap"}, /* ROM code */ + {0x00008400, 0x00020fff, FLAG_PROTECT_SET, 0, "U-Boot"}, /* u-boot code */ + {0x00021000, 0x000293ff, FLAG_PROTECT_CLEAR, 0, "Environment"}, /* u-boot environment 8Kb */ + {0x00029400, 0x00041fff, FLAG_PROTECT_INVALID, 0, "<Unused>"}, /* Rest of Sector 1 */ + {0x00042000, 0x0018Bfff, FLAG_PROTECT_CLEAR, FLAG_SETENV, "OS"}, /* data area size to tune */ + {0x0018C000, 0xffffffff, FLAG_PROTECT_CLEAR, FLAG_SETENV, "FS"}, /* data area size to tune */ + + {0x00000000, 0xffffffff, FLAG_PROTECT_CLEAR, FLAG_SETENV, "Data"}, /* data area */ + {0xffffffff, 0x00000000, FLAG_PROTECT_INVALID, 0, "<Invalid>"}, /* Invalid */ + {0xffffffff, 0x00000000, FLAG_PROTECT_INVALID, 0, "<Invalid>"}, /* Invalid */ + {0xffffffff, 0x00000000, FLAG_PROTECT_INVALID, 0, "<Invalid>"}, /* Invalid */ + {0xffffffff, 0x00000000, FLAG_PROTECT_INVALID, 0, "<Invalid>"}, /* Invalid */ + {0xffffffff, 0x00000000, FLAG_PROTECT_INVALID, 0, "<Invalid>"}, /* Invalid */ +}; +#else dataflash_protect_t area_list[NB_DATAFLASH_AREA] = { {0, 0x7fff, FLAG_PROTECT_SET}, /* ROM code */ {0x8000, 0x1ffff, FLAG_PROTECT_SET}, /* u-boot code */ {0x20000, 0x27fff, FLAG_PROTECT_CLEAR}, /* u-boot environment */ {0x28000, 0x1fffff, FLAG_PROTECT_CLEAR}, /* data area size to tune */ }; +#endif extern void AT91F_SpiInit (void); extern int AT91F_DataflashProbe (int i, AT91PS_DataflashDesc pDesc); @@ -45,22 +94,28 @@ extern int AT91F_DataFlashRead (AT91PS_DataFlash pDataFlash, unsigned long addr, unsigned long size, char *buffer); extern int AT91F_DataFlashWrite( AT91PS_DataFlash pDataFlash, - unsigned char *src, - int dest, - int size ); + unsigned char *src, + int dest, + int size ); int AT91F_DataflashInit (void) { int i, j; int dfcode; + int part = 0; + int last_part; + int found[CFG_MAX_DATAFLASH_BANKS]; + unsigned char protected; AT91F_SpiInit (); for (i = 0; i < CFG_MAX_DATAFLASH_BANKS; i++) { + found[i] = 0; dataflash_info[i].Desc.state = IDLE; dataflash_info[i].id = 0; dataflash_info[i].Device.pages_number = 0; - dfcode = AT91F_DataflashProbe (cs[i][1], &dataflash_info[i].Desc); + dfcode = AT91F_DataflashProbe (cs[i][1], + &dataflash_info[i].Desc); switch (dfcode) { case AT45DB161: @@ -72,6 +127,7 @@ int AT91F_DataflashInit (void) dataflash_info[i].Desc.DataFlash_state = IDLE; dataflash_info[i].logical_address = cs[i][0]; dataflash_info[i].id = dfcode; + found[i] += dfcode;; break; case AT45DB321: @@ -83,6 +139,7 @@ int AT91F_DataflashInit (void) dataflash_info[i].Desc.DataFlash_state = IDLE; dataflash_info[i].logical_address = cs[i][0]; dataflash_info[i].id = dfcode; + found[i] += dfcode;; break; case AT45DB642: @@ -94,7 +151,9 @@ int AT91F_DataflashInit (void) dataflash_info[i].Desc.DataFlash_state = IDLE; dataflash_info[i].logical_address = cs[i][0]; dataflash_info[i].id = dfcode; + found[i] += dfcode;; break; + case AT45DB128: dataflash_info[i].Device.pages_number = 16384; dataflash_info[i].Device.pages_size = 1056; @@ -104,9 +163,11 @@ int AT91F_DataflashInit (void) dataflash_info[i].Desc.DataFlash_state = IDLE; dataflash_info[i].logical_address = cs[i][0]; dataflash_info[i].id = dfcode; + found[i] += dfcode;; break; default: + dfcode = 0; break; } /* set the last area end to the dataflash size*/ @@ -114,16 +175,64 @@ int AT91F_DataflashInit (void) (dataflash_info[i].Device.pages_number * dataflash_info[i].Device.pages_size)-1; + last_part=0; /* set the area addresses */ for(j = 0; j<NB_DATAFLASH_AREA; j++) { - dataflash_info[i].Device.area_list[j].start = area_list[j].start + dataflash_info[i].logical_address; - dataflash_info[i].Device.area_list[j].end = area_list[j].end + dataflash_info[i].logical_address; - dataflash_info[i].Device.area_list[j].protected = area_list[j].protected; + if(found[i]!=0) { + dataflash_info[i].Device.area_list[j].start = + area_list[part].start + + dataflash_info[i].logical_address; + if(area_list[part].end == 0xffffffff) { + dataflash_info[i].Device.area_list[j].end = + dataflash_info[i].end_address + + dataflash_info [i].logical_address; + last_part = 1; + } else { + dataflash_info[i].Device.area_list[j].end = + area_list[part].end + + dataflash_info[i].logical_address; + } + protected = area_list[part].protected; + /* Set the environment according to the label...*/ + if(protected == FLAG_PROTECT_INVALID) { + dataflash_info[i].Device.area_list[j].protected = + FLAG_PROTECT_INVALID; + } else { + dataflash_info[i].Device.area_list[j].protected = + protected; + } + strcpy((char*)(dataflash_info[i].Device.area_list[j].label), + (const char *)area_list[part].label); + } + part++; } } - return (1); + return found[0]; } +#ifdef CONFIG_NEW_DF_PARTITION +int AT91F_DataflashSetEnv (void) +{ + int i, j; + int part; + unsigned char env; + unsigned char s[32]; /* Will fit a long int in hex */ + unsigned long start; + for (i = 0, part= 0; i < CFG_MAX_DATAFLASH_BANKS; i++) { + for(j = 0; j<NB_DATAFLASH_AREA; j++) { + env = area_list[part].setenv; + /* Set the environment according to the label...*/ + if((env & FLAG_SETENV) == FLAG_SETENV) { + start = + dataflash_info[i].Device.area_list[j].start; + sprintf(s,"%X",start); + setenv(area_list[part].label,s); + } + part++; + } + } +} +#endif void dataflash_print_info (void) { @@ -131,25 +240,25 @@ void dataflash_print_info (void) for (i = 0; i < CFG_MAX_DATAFLASH_BANKS; i++) { if (dataflash_info[i].id != 0) { - printf ("DataFlash:"); + printf("DataFlash:"); switch (dataflash_info[i].id) { case AT45DB161: - printf ("AT45DB161\n"); + printf("AT45DB161\n"); break; case AT45DB321: - printf ("AT45DB321\n"); + printf("AT45DB321\n"); break; case AT45DB642: - printf ("AT45DB642\n"); + printf("AT45DB642\n"); break; case AT45DB128: - printf ("AT45DB128\n"); + printf("AT45DB128\n"); break; } - printf ("Nb pages: %6d\n" + printf("Nb pages: %6d\n" "Page Size: %6d\n" "Size=%8d bytes\n" "Logical address: 0x%08X\n", @@ -159,28 +268,44 @@ void dataflash_print_info (void) dataflash_info[i].Device.pages_size, (unsigned int) dataflash_info[i].logical_address); for (j=0; j< NB_DATAFLASH_AREA; j++) { - printf ("Area %i:\t%08lX to %08lX %s\n", j, - dataflash_info[i].Device.area_list[j].start, - dataflash_info[i].Device.area_list[j].end, - (dataflash_info[i].Device.area_list[j].protected == - FLAG_PROTECT_SET) ? "(RO)" : ""); + switch(dataflash_info[i].Device.area_list[j].protected) { + case FLAG_PROTECT_SET: + case FLAG_PROTECT_CLEAR: + printf("Area %i:\t%08lX to %08lX %s", j, + dataflash_info[i].Device.area_list[j].start, + dataflash_info[i].Device.area_list[j].end, + (dataflash_info[i].Device.area_list[j].protected==FLAG_PROTECT_SET) ? "(RO)" : " "); +#ifdef CONFIG_NEW_DF_PARTITION + printf(" %s\n", dataflash_info[i].Device.area_list[j].label); +#else + printf("\n"); +#endif + break; +#ifdef CONFIG_NEW_DF_PARTITION + case FLAG_PROTECT_INVALID: + break; +#endif + } } } } } -/*------------------------------------------------------------------------------*/ -/* Function Name : AT91F_DataflashSelect */ -/* Object : Select the correct device */ -/*------------------------------------------------------------------------------*/ -AT91PS_DataFlash AT91F_DataflashSelect (AT91PS_DataFlash pFlash, unsigned long *addr) +/*---------------------------------------------------------------------------*/ +/* Function Name : AT91F_DataflashSelect */ +/* Object : Select the correct device */ +/*---------------------------------------------------------------------------*/ +AT91PS_DataFlash AT91F_DataflashSelect (AT91PS_DataFlash pFlash, + unsigned long *addr) { char addr_valid = 0; int i; for (i = 0; i < CFG_MAX_DATAFLASH_BANKS; i++) - if ((*addr & 0xFF000000) == dataflash_info[i].logical_address) { + if ( dataflash_info[i].id + && ((((int) addr) & 0xFF000000) == + dataflash_info[i].logical_address)) { addr_valid = 1; break; } @@ -194,10 +319,10 @@ AT91PS_DataFlash AT91F_DataflashSelect (AT91PS_DataFlash pFlash, unsigned long * return (pFlash); } -/*------------------------------------------------------------------------------*/ -/* Function Name : addr_dataflash */ -/* Object : Test if address is valid */ -/*------------------------------------------------------------------------------*/ +/*---------------------------------------------------------------------------*/ +/* Function Name : addr_dataflash */ +/* Object : Test if address is valid */ +/*---------------------------------------------------------------------------*/ int addr_dataflash (unsigned long addr) { int addr_valid = 0; @@ -213,25 +338,27 @@ int addr_dataflash (unsigned long addr) return addr_valid; } -/*-----------------------------------------------------------------------------*/ -/* Function Name : size_dataflash */ -/* Object : Test if address is valid regarding the size */ -/*-----------------------------------------------------------------------------*/ -int size_dataflash (AT91PS_DataFlash pdataFlash, unsigned long addr, unsigned long size) +/*---------------------------------------------------------------------------*/ +/* Function Name : size_dataflash */ +/* Object : Test if address is valid regarding the size */ +/*---------------------------------------------------------------------------*/ +int size_dataflash (AT91PS_DataFlash pdataFlash, unsigned long addr, + unsigned long size) { /* is outside the dataflash */ if (((int)addr & 0x0FFFFFFF) > (pdataFlash->pDevice->pages_size * pdataFlash->pDevice->pages_number)) return 0; /* is too large for the dataflash */ if (size > ((pdataFlash->pDevice->pages_size * - pdataFlash->pDevice->pages_number) - ((int)addr & 0x0FFFFFFF))) return 0; + pdataFlash->pDevice->pages_number) - + ((int)addr & 0x0FFFFFFF))) return 0; return 1; } -/*-----------------------------------------------------------------------------*/ -/* Function Name : prot_dataflash */ -/* Object : Test if destination area is protected */ -/*-----------------------------------------------------------------------------*/ +/*---------------------------------------------------------------------------*/ +/* Function Name : prot_dataflash */ +/* Object : Test if destination area is protected */ +/*---------------------------------------------------------------------------*/ int prot_dataflash (AT91PS_DataFlash pdataFlash, unsigned long addr) { int area; @@ -241,17 +368,23 @@ int area; (addr < pdataFlash->pDevice->area_list[area].end)) break; } - if (area == NB_DATAFLASH_AREA) return -1; + if (area == NB_DATAFLASH_AREA) + return -1; + /*test protection value*/ - if (pdataFlash->pDevice->area_list[area].protected == FLAG_PROTECT_SET) return 0; + if (pdataFlash->pDevice->area_list[area].protected == FLAG_PROTECT_SET) + return 0; + if (pdataFlash->pDevice->area_list[area].protected == FLAG_PROTECT_INVALID) + return 0; return 1; } -/*-----------------------------------------------------------------------------*/ -/* Function Name : dataflash_real_protect */ -/* Object : protect/unprotect area */ -/*-----------------------------------------------------------------------------*/ -int dataflash_real_protect (int flag, unsigned long start_addr, unsigned long end_addr) +/*--------------------------------------------------------------------------*/ +/* Function Name : dataflash_real_protect */ +/* Object : protect/unprotect area */ +/*--------------------------------------------------------------------------*/ +int dataflash_real_protect (int flag, unsigned long start_addr, + unsigned long end_addr) { int i,j, area1, area2, addr_valid = 0; /* find dataflash */ @@ -267,27 +400,38 @@ int i,j, area1, area2, addr_valid = 0; } /* find start area */ for (area1=0; area1 < NB_DATAFLASH_AREA; area1++) { - if (start_addr == dataflash_info[i].Device.area_list[area1].start) break; + if (start_addr == dataflash_info[i].Device.area_list[area1].start) + break; } if (area1 == NB_DATAFLASH_AREA) return -1; /* find end area */ for (area2=0; area2 < NB_DATAFLASH_AREA; area2++) { - if (end_addr == dataflash_info[i].Device.area_list[area2].end) break; + if (end_addr == dataflash_info[i].Device.area_list[area2].end) + break; } - if (area2 == NB_DATAFLASH_AREA) return -1; + if (area2 == NB_DATAFLASH_AREA) + return -1; /*set protection value*/ for(j = area1; j < area2+1 ; j++) - if (flag == 0) dataflash_info[i].Device.area_list[j].protected = FLAG_PROTECT_CLEAR; - else dataflash_info[i].Device.area_list[j].protected = FLAG_PROTECT_SET; + if(dataflash_info[i].Device.area_list[j].protected + != FLAG_PROTECT_INVALID) { + if (flag == 0) { + dataflash_info[i].Device.area_list[j].protected + = FLAG_PROTECT_CLEAR; + } else { + dataflash_info[i].Device.area_list[j].protected + = FLAG_PROTECT_SET; + } + } return (area2-area1+1); } -/*------------------------------------------------------------------------------*/ -/* Function Name : read_dataflash */ -/* Object : dataflash memory read */ -/*------------------------------------------------------------------------------*/ +/*---------------------------------------------------------------------------*/ +/* Function Name : read_dataflash */ +/* Object : dataflash memory read */ +/*---------------------------------------------------------------------------*/ int read_dataflash (unsigned long addr, unsigned long size, char *result) { unsigned long AddrToRead = addr; @@ -305,12 +449,12 @@ int read_dataflash (unsigned long addr, unsigned long size, char *result) } -/*-----------------------------------------------------------------------------*/ -/* Function Name : write_dataflash */ -/* Object : write a block in dataflash */ -/*-----------------------------------------------------------------------------*/ +/*---------------------------------------------------------------------------*/ +/* Function Name : write_dataflash */ +/* Object : write a block in dataflash */ +/*---------------------------------------------------------------------------*/ int write_dataflash (unsigned long addr_dest, unsigned long addr_src, - unsigned long size) + unsigned long size) { unsigned long AddrToWrite = addr_dest; AT91PS_DataFlash pFlash = &DataFlashInst; @@ -329,7 +473,8 @@ int write_dataflash (unsigned long addr_dest, unsigned long addr_src, if (AddrToWrite == -1) return -1; - return AT91F_DataFlashWrite (pFlash, (uchar *)addr_src, AddrToWrite, size); + return AT91F_DataFlashWrite (pFlash, (uchar *)addr_src, + AddrToWrite, size); } @@ -339,22 +484,22 @@ void dataflash_perror (int err) case ERR_OK: break; case ERR_TIMOUT: - printf ("Timeout writing to DataFlash\n"); + printf("Timeout writing to DataFlash\n"); break; case ERR_PROTECTED: - printf ("Can't write to protected DataFlash sectors\n"); + printf("Can't write to protected/invalid DataFlash sectors\n"); break; case ERR_INVAL: - printf ("Outside available DataFlash\n"); + printf("Outside available DataFlash\n"); break; case ERR_UNKNOWN_FLASH_TYPE: - printf ("Unknown Type of DataFlash\n"); + printf("Unknown Type of DataFlash\n"); break; case ERR_PROG_ERROR: - printf ("General DataFlash Programming Error\n"); + printf("General DataFlash Programming Error\n"); break; default: - printf ("%s[%d] FIXME: rc=%d\n", __FILE__, __LINE__, err); + printf("%s[%d] FIXME: rc=%d\n", __FILE__, __LINE__, err); break; } } diff --git a/drivers/dc2114x.c b/drivers/dc2114x.c index c43cd5e..d5275dc 100644 --- a/drivers/dc2114x.c +++ b/drivers/dc2114x.c @@ -20,8 +20,8 @@ #include <common.h> -#if (CONFIG_COMMANDS & CFG_CMD_NET) && defined(CONFIG_NET_MULTI) \ - && defined(CONFIG_TULIP) +#if defined(CONFIG_CMD_NET) \ + && defined(CONFIG_NET_MULTI) && defined(CONFIG_TULIP) #include <malloc.h> #include <net.h> @@ -768,4 +768,4 @@ static void update_srom(struct eth_device *dev, bd_t *bis) } #endif /* UPDATE_SROM */ -#endif /* CFG_CMD_NET && CONFIG_NET_MULTI && CONFIG_TULIP */ +#endif diff --git a/drivers/dm9000x.c b/drivers/dm9000x.c index 6877076..78acb09 100644 --- a/drivers/dm9000x.c +++ b/drivers/dm9000x.c @@ -302,6 +302,21 @@ eth_init(bd_t * bd) /* Set Node address */ for (i = 0; i < 6; i++) ((u16 *) bd->bi_enetaddr)[i] = read_srom_word(i); + + if (!is_zero_ether_addr(bd->bi_enetaddr) && + !is_mutlicast_ether_addr(bd->bi_enetaddr)) { + /* try reading from environment */ + u8 i; + char *s, *e; + s = getenv ("ethaddr"); + for (i = 0; i < 6; ++i) { + bd->bi_enetaddr[i] = s ? + simple_strtoul (s, &e, 16) : 0; + if (s) + s = (*e) ? e + 1 : e; + } + } + printf("MAC: %02x:%02x:%02x:%02x:%02x:%02x\n", bd->bi_enetaddr[0], bd->bi_enetaddr[1], bd->bi_enetaddr[2], bd->bi_enetaddr[3], bd->bi_enetaddr[4], bd->bi_enetaddr[5]); diff --git a/drivers/e1000.c b/drivers/e1000.c index 927acbb..f0741da 100644 --- a/drivers/e1000.c +++ b/drivers/e1000.c @@ -44,8 +44,8 @@ tested on both gig copper and gig fiber boards #include "e1000.h" -#if (CONFIG_COMMANDS & CFG_CMD_NET) && defined(CONFIG_NET_MULTI) && \ - defined(CONFIG_E1000) +#if defined(CONFIG_CMD_NET) \ + && defined(CONFIG_NET_MULTI) && defined(CONFIG_E1000) #define TOUT_LOOP 100000 diff --git a/drivers/eepro100.c b/drivers/eepro100.c index 04c17f6..738146e 100644 --- a/drivers/eepro100.c +++ b/drivers/eepro100.c @@ -30,8 +30,8 @@ #undef DEBUG -#if (CONFIG_COMMANDS & CFG_CMD_NET) && defined(CONFIG_NET_MULTI) && \ - defined(CONFIG_EEPRO100) +#if defined(CONFIG_CMD_NET) \ + && defined(CONFIG_NET_MULTI) && defined(CONFIG_EEPRO100) /* Ethernet chip registers. */ @@ -272,7 +272,7 @@ static inline void OUTL (struct eth_device *dev, int command, u_long addr) *(volatile u32 *) ((addr + dev->iobase)) = cpu_to_le32 (command); } -#if defined(CONFIG_MII) || (CONFIG_COMMANDS & CFG_CMD_MII) +#if defined(CONFIG_MII) || defined(CONFIG_CMD_MII) static inline int INL (struct eth_device *dev, u_long addr) { return le32_to_cpu (*(volatile u32 *) (addr + dev->iobase)); @@ -386,7 +386,7 @@ static int eepro100_miiphy_write (char *devname, unsigned char addr, return 0; } -#endif /* defined(CONFIG_MII) || (CONFIG_COMMANDS & CFG_CMD_MII) */ +#endif /* Wait for the chip get the command. */ @@ -462,7 +462,7 @@ int eepro100_initialize (bd_t * bis) eth_register (dev); -#if defined (CONFIG_MII) || (CONFIG_COMMANDS & CFG_CMD_MII) +#if defined (CONFIG_MII) || defined(CONFIG_CMD_MII) /* register mii command access routines */ miiphy_register(dev->name, eepro100_miiphy_read, eepro100_miiphy_write); diff --git a/drivers/enc28j60.c b/drivers/enc28j60.c index 98303ac..98303ac 100755..100644 --- a/drivers/enc28j60.c +++ b/drivers/enc28j60.c diff --git a/drivers/fsl_i2c.c b/drivers/fsl_i2c.c index ebae5af..22485ea 100644 --- a/drivers/fsl_i2c.c +++ b/drivers/fsl_i2c.c @@ -69,9 +69,10 @@ i2c_init(int speed, int slaveadd) dev = (struct fsl_i2c *) (CFG_IMMR + CFG_I2C2_OFFSET); writeb(0, &dev->cr); /* stop I2C controller */ + udelay(5); /* let it shutdown in peace */ writeb(0x3F, &dev->fdr); /* set bus speed */ writeb(0x3F, &dev->dfsrr); /* set default filter */ - writeb(slaveadd, &dev->adr); /* write slave address */ + writeb(slaveadd << 1, &dev->adr); /* write slave address */ writeb(0x0, &dev->sr); /* clear status register */ writeb(I2C_CR_MEN, &dev->cr); /* start I2C controller */ #endif /* CFG_I2C2_OFFSET */ diff --git a/drivers/fsl_pci_init.c b/drivers/fsl_pci_init.c new file mode 100644 index 0000000..1084dc6 --- /dev/null +++ b/drivers/fsl_pci_init.c @@ -0,0 +1,164 @@ +/* + * Copyright 2007 Freescale Semiconductor, Inc. + * + * This program is free software; you can redistribute it and/or + * modify it under the terms of the GNU General Public License + * Version 2 as published by the Free Software Foundation. + * + * This program is distributed in the hope that it will be useful, + * but WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the + * GNU General Public License for more details. + * + * You should have received a copy of the GNU General Public License + * along with this program; if not, write to the Free Software + * Foundation, Inc., 59 Temple Place, Suite 330, Boston, + * MA 02111-1307 USA + */ + +#include <common.h> + +#ifdef CONFIG_FSL_PCI_INIT + +/* + * PCI/PCIE Controller initialization for mpc85xx/mpc86xx soc's + * + * Initialize controller and call the common driver/pci pci_hose_scan to + * scan for bridges and devices. + * + * Hose fields which need to be pre-initialized by board specific code: + * regions[] + * first_busno + * + * Fields updated: + * last_busno + */ + +#include <pci.h> +#include <asm/immap_fsl_pci.h> + +void pciauto_prescan_setup_bridge(struct pci_controller *hose, + pci_dev_t dev, int sub_bus); +void pciauto_postscan_setup_bridge(struct pci_controller *hose, + pci_dev_t dev, int sub_bus); + +void pciauto_config_init(struct pci_controller *hose); +void +fsl_pci_init(struct pci_controller *hose) +{ + u16 temp16; + u32 temp32; + int busno = hose->first_busno; + int enabled; + u16 ltssm; + u8 temp8; + int r; + int bridge; + volatile ccsr_fsl_pci_t *pci = (ccsr_fsl_pci_t *) hose->cfg_addr; + pci_dev_t dev = PCI_BDF(busno,0,0); + + /* Initialize ATMU registers based on hose regions and flags */ + volatile pot_t *po=&pci->pot[1]; /* skip 0 */ + volatile pit_t *pi=&pci->pit[0]; /* ranges from: 3 to 1 */ + +#ifdef DEBUG + int neg_link_w; +#endif + + for (r=0; r<hose->region_count; r++) { + if (hose->regions[r].flags & PCI_REGION_MEMORY) { /* inbound */ + pi->pitar = (hose->regions[r].bus_start >> 12) & 0x000fffff; + pi->piwbar = (hose->regions[r].phys_start >> 12) & 0x000fffff; + pi->piwbear = 0; + pi->piwar = PIWAR_EN | PIWAR_PF | PIWAR_LOCAL | + PIWAR_READ_SNOOP | PIWAR_WRITE_SNOOP | + (__ilog2(hose->regions[r].size) - 1); + pi++; + } else { /* Outbound */ + po->powbar = (hose->regions[r].phys_start >> 12) & 0x000fffff; + po->potar = (hose->regions[r].bus_start >> 12) & 0x000fffff; + po->potear = 0; + if (hose->regions[r].flags & PCI_REGION_IO) + po->powar = POWAR_EN | POWAR_IO_READ | POWAR_IO_WRITE | + (__ilog2(hose->regions[r].size) - 1); + else + po->powar = POWAR_EN | POWAR_MEM_READ | POWAR_MEM_WRITE | + (__ilog2(hose->regions[r].size) - 1); + po++; + } + } + + pci_register_hose(hose); + pciauto_config_init(hose); /* grab pci_{mem,prefetch,io} */ + hose->current_busno = hose->first_busno; + + pci->pedr = 0xffffffff; /* Clear any errors */ + pci->peer = ~0x20140; /* Enable All Error Interupts except + * - Master abort (pci) + * - Master PERR (pci) + * - ICCA (PCIe) + */ + pci_hose_read_config_dword (hose, dev, PCI_DCR, &temp32); + temp32 |= 0xf000e; /* set URR, FER, NFER (but not CER) */ + pci_hose_write_config_dword(hose, dev, PCI_DCR, temp32); + + pci_hose_read_config_byte (hose, dev, PCI_HEADER_TYPE, &temp8); + bridge = temp8 & PCI_HEADER_TYPE_BRIDGE; /* Bridge, such as pcie */ + + if ( bridge ) { + + pci_hose_read_config_word(hose, dev, PCI_LTSSM, <ssm); + enabled = ltssm >= PCI_LTSSM_L0; + + if (!enabled) { + debug("....PCIE link error. Skipping scan." + "LTSSM=0x%02x\n", ltssm); + hose->last_busno = hose->first_busno; + return; + } + + pci->pme_msg_det = 0xffffffff; + pci->pme_msg_int_en = 0xffffffff; +#ifdef DEBUG + pci_hose_read_config_word(hose, dev, PCI_LSR, &temp16); + neg_link_w = (temp16 & 0x3f0 ) >> 4; + printf("...PCIE LTSSM=0x%x, Negotiated link width=%d\n", + ltssm, neg_link_w); +#endif + hose->current_busno++; /* Start scan with secondary */ + pciauto_prescan_setup_bridge(hose, dev, hose->current_busno); + + } + + /* Call setup to allocate PCSRBAR window */ + pciauto_setup_device(hose, dev, 1, hose->pci_mem, + hose->pci_prefetch, hose->pci_io); +#ifndef CONFIG_PCI_NOSCAN + printf (" Scanning PCI bus %02x\n", hose->current_busno); + hose->last_busno = pci_hose_scan_bus(hose,hose->current_busno); + + if ( bridge ) { /* update limit regs and subordinate busno */ + pciauto_postscan_setup_bridge(hose, dev, hose->last_busno); + } +#else + hose->last_busno = hose->current_busno; +#endif + + /* Clear all error indications */ + + pci->pme_msg_det = 0xffffffff; + pci->pedr = 0xffffffff; + + pci_hose_read_config_word (hose, dev, PCI_DSR, &temp16); + if (temp16) { + pci_hose_write_config_word(hose, dev, + PCI_DSR, 0xffff); + } + + pci_hose_read_config_word (hose, dev, PCI_SEC_STATUS, &temp16); + if (temp16) { + pci_hose_write_config_word(hose, dev, PCI_SEC_STATUS, 0xffff); + } +} + +#endif /* CONFIG_FSL_PCI */ diff --git a/drivers/inca-ip_sw.c b/drivers/inca-ip_sw.c index ab22b4d..e4aaed6 100644 --- a/drivers/inca-ip_sw.c +++ b/drivers/inca-ip_sw.c @@ -26,8 +26,8 @@ #include <common.h> -#if (CONFIG_COMMANDS & CFG_CMD_NET) && defined(CONFIG_NET_MULTI) \ - && defined(CONFIG_INCA_IP_SWITCH) +#if defined(CONFIG_CMD_NET) \ + && defined(CONFIG_NET_MULTI) && defined(CONFIG_INCA_IP_SWITCH) #include <malloc.h> #include <net.h> diff --git a/drivers/isp116x-hcd.c b/drivers/isp116x-hcd.c new file mode 100644 index 0000000..8e2bc7a --- /dev/null +++ b/drivers/isp116x-hcd.c @@ -0,0 +1,1413 @@ +/* + * ISP116x HCD (Host Controller Driver) for u-boot. + * + * Copyright (C) 2006-2007 Rodolfo Giometti <giometti@linux.it> + * Copyright (C) 2006-2007 Eurotech S.p.A. <info@eurotech.it> + * + * This program is free software; you can redistribute it and/or + * modify it under the terms of the GNU General Public License as + * published by the Free Software Foundation; either version 2 of + * the License, or (at your option) any later version. + * + * This program is distributed in the hope that it will be useful, + * but WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the + * GNU General Public License for more details. + * + * You should have received a copy of the GNU General Public License + * along with this program; if not, write to the Free Software + * Foundation, Inc., 59 Temple Place, Suite 330, Boston, + * MA 02111-1307 USA + * + * + * Derived in part from the SL811 HCD driver "u-boot/drivers/sl811_usb.c" + * (original copyright message follows): + * + * (C) Copyright 2004 + * Wolfgang Denk, DENX Software Engineering, wd@denx.de. + * + * This code is based on linux driver for sl811hs chip, source at + * drivers/usb/host/sl811.c: + * + * SL811 Host Controller Interface driver for USB. + * + * Copyright (c) 2003/06, Courage Co., Ltd. + * + * Based on: + * 1.uhci.c by Linus Torvalds, Johannes Erdfelt, Randy Dunlap, + * Georg Acher, Deti Fliegl, Thomas Sailer, Roman Weissgaerber, + * Adam Richter, Gregory P. Smith; + * 2.Original SL811 driver (hc_sl811.o) by Pei Liu <pbl@cypress.com> + * 3.Rewrited as sl811.o by Yin Aihua <yinah:couragetech.com.cn> + * + * [[GNU/GPL disclaimer]] + * + * and in part from AU1x00 OHCI HCD driver "u-boot/cpu/mips/au1x00_usb_ohci.c" + * (original copyright message follows): + * + * URB OHCI HCD (Host Controller Driver) for USB on the AU1x00. + * + * (C) Copyright 2003 + * Gary Jennejohn, DENX Software Engineering <gj@denx.de> + * + * [[GNU/GPL disclaimer]] + * + * Note: Part of this code has been derived from linux + */ + +#include <common.h> + +#ifdef CONFIG_USB_ISP116X_HCD +#include <asm/io.h> +#include <usb.h> +#include <malloc.h> +#include <linux/list.h> + +/* + * ISP116x chips require certain delays between accesses to its + * registers. The following timing options exist. + * + * 1. Configure your memory controller (the best) + * 2. Use ndelay (easiest, poorest). For that, enable the following macro. + * + * Value is in microseconds. + */ +#ifdef ISP116X_HCD_USE_UDELAY +#define UDELAY 1 +#endif + +/* + * On some (slowly?) machines an extra delay after data packing into + * controller's FIFOs is required, * otherwise you may get the following + * error: + * + * uboot> usb start + * (Re)start USB... + * USB: scanning bus for devices... isp116x: isp116x_submit_job: CTL:TIMEOUT + * isp116x: isp116x_submit_job: ****** FIFO not ready! ****** + * + * USB device not responding, giving up (status=4) + * isp116x: isp116x_submit_job: ****** FIFO not empty! ****** + * isp116x: isp116x_submit_job: ****** FIFO not empty! ****** + * isp116x: isp116x_submit_job: ****** FIFO not empty! ****** + * 3 USB Device(s) found + * scanning bus for storage devices... 0 Storage Device(s) found + * + * Value is in milliseconds. + */ +#ifdef ISP116X_HCD_USE_EXTRA_DELAY +#define EXTRA_DELAY 2 +#endif + +/* + * Enable the following defines if you wish enable debugging messages. + */ +#undef DEBUG /* enable debugging messages */ +#undef TRACE /* enable tracing code */ +#undef VERBOSE /* verbose debugging messages */ + +#include "isp116x.h" + +#define DRIVER_VERSION "08 Jan 2007" +static const char hcd_name[] = "isp116x-hcd"; + +struct isp116x isp116x_dev; +struct isp116x_platform_data isp116x_board; +int got_rhsc = 0; /* root hub status change */ +struct usb_device *devgone; /* device which was disconnected */ +int rh_devnum = 0; /* address of Root Hub endpoint */ + +/* ------------------------------------------------------------------------- */ + +#define ALIGN(x,a) (((x)+(a)-1UL)&~((a)-1UL)) +#define min_t(type,x,y) \ + ({ type __x = (x); type __y = (y); __x < __y ? __x : __y; }) + +/* ------------------------------------------------------------------------- */ + +static int isp116x_reset(struct isp116x *isp116x); + +/* --- Debugging functions ------------------------------------------------- */ + +#define isp116x_show_reg(d, r) { \ + if ((r) < 0x20) { \ + DBG("%-12s[%02x]: %08x", #r, \ + r, isp116x_read_reg32(d, r)); \ + } else { \ + DBG("%-12s[%02x]: %04x", #r, \ + r, isp116x_read_reg16(d, r)); \ + } \ +} + +#define isp116x_show_regs(d) { \ + isp116x_show_reg(d, HCREVISION); \ + isp116x_show_reg(d, HCCONTROL); \ + isp116x_show_reg(d, HCCMDSTAT); \ + isp116x_show_reg(d, HCINTSTAT); \ + isp116x_show_reg(d, HCINTENB); \ + isp116x_show_reg(d, HCFMINTVL); \ + isp116x_show_reg(d, HCFMREM); \ + isp116x_show_reg(d, HCFMNUM); \ + isp116x_show_reg(d, HCLSTHRESH); \ + isp116x_show_reg(d, HCRHDESCA); \ + isp116x_show_reg(d, HCRHDESCB); \ + isp116x_show_reg(d, HCRHSTATUS); \ + isp116x_show_reg(d, HCRHPORT1); \ + isp116x_show_reg(d, HCRHPORT2); \ + isp116x_show_reg(d, HCHWCFG); \ + isp116x_show_reg(d, HCDMACFG); \ + isp116x_show_reg(d, HCXFERCTR); \ + isp116x_show_reg(d, HCuPINT); \ + isp116x_show_reg(d, HCuPINTENB); \ + isp116x_show_reg(d, HCCHIPID); \ + isp116x_show_reg(d, HCSCRATCH); \ + isp116x_show_reg(d, HCITLBUFLEN); \ + isp116x_show_reg(d, HCATLBUFLEN); \ + isp116x_show_reg(d, HCBUFSTAT); \ + isp116x_show_reg(d, HCRDITL0LEN); \ + isp116x_show_reg(d, HCRDITL1LEN); \ +} + +#if defined(TRACE) + +static int isp116x_get_current_frame_number(struct usb_device *usb_dev) +{ + struct isp116x *isp116x = &isp116x_dev; + + return isp116x_read_reg32(isp116x, HCFMNUM); +} + +static void dump_msg(struct usb_device *dev, unsigned long pipe, void *buffer, + int len, char *str) +{ +#if defined(VERBOSE) + int i; +#endif + + DBG("%s URB:[%4x] dev:%2d,ep:%2d-%c,type:%s,len:%d stat:%#lx", + str, + isp116x_get_current_frame_number(dev), + usb_pipedevice(pipe), + usb_pipeendpoint(pipe), + usb_pipeout(pipe) ? 'O' : 'I', + usb_pipetype(pipe) < 2 ? + (usb_pipeint(pipe) ? + "INTR" : "ISOC") : + (usb_pipecontrol(pipe) ? "CTRL" : "BULK"), len, dev->status); +#if defined(VERBOSE) + if (len > 0 && buffer) { + printf(__FILE__ ": data(%d):", len); + for (i = 0; i < 16 && i < len; i++) + printf(" %02x", ((__u8 *) buffer)[i]); + printf("%s\n", i < len ? "..." : ""); + } +#endif +} + +#define PTD_DIR_STR(ptd) ({char __c; \ + switch(PTD_GET_DIR(ptd)){ \ + case 0: __c = 's'; break; \ + case 1: __c = 'o'; break; \ + default: __c = 'i'; break; \ + }; __c;}) + +/* + Dump PTD info. The code documents the format + perfectly, right :) +*/ +static inline void dump_ptd(struct ptd *ptd) +{ +#if defined(VERBOSE) + int k; +#endif + + DBG("PTD(ext) : cc:%x %d%c%d %d,%d,%d t:%x %x%x%x", + PTD_GET_CC(ptd), + PTD_GET_FA(ptd), PTD_DIR_STR(ptd), PTD_GET_EP(ptd), + PTD_GET_COUNT(ptd), PTD_GET_LEN(ptd), PTD_GET_MPS(ptd), + PTD_GET_TOGGLE(ptd), + PTD_GET_ACTIVE(ptd), PTD_GET_SPD(ptd), PTD_GET_LAST(ptd)); +#if defined(VERBOSE) + printf("isp116x: %s: PTD(byte): ", __FUNCTION__); + for (k = 0; k < sizeof(struct ptd); ++k) + printf("%02x ", ((u8 *) ptd)[k]); + printf("\n"); +#endif +} + +static inline void dump_ptd_data(struct ptd *ptd, u8 * buf, int type) +{ +#if defined(VERBOSE) + int k; + + if (type == 0 /* 0ut data */ ) { + printf("isp116x: %s: out data: ", __FUNCTION__); + for (k = 0; k < PTD_GET_LEN(ptd); ++k) + printf("%02x ", ((u8 *) buf)[k]); + printf("\n"); + } + if (type == 1 /* 1n data */ ) { + printf("isp116x: %s: in data: ", __FUNCTION__); + for (k = 0; k < PTD_GET_COUNT(ptd); ++k) + printf("%02x ", ((u8 *) buf)[k]); + printf("\n"); + } + + if (PTD_GET_LAST(ptd)) + DBG("--- last PTD ---"); +#endif +} + +#else + +#define dump_msg(dev, pipe, buffer, len, str) do { } while (0) +#define dump_pkt(dev, pipe, buffer, len, setup, str, small) do {} while (0) + +#define dump_ptd(ptd) do {} while (0) +#define dump_ptd_data(ptd, buf, type) do {} while (0) + +#endif + +/* --- Virtual Root Hub ---------------------------------------------------- */ + +/* Device descriptor */ +static __u8 root_hub_dev_des[] = { + 0x12, /* __u8 bLength; */ + 0x01, /* __u8 bDescriptorType; Device */ + 0x10, /* __u16 bcdUSB; v1.1 */ + 0x01, + 0x09, /* __u8 bDeviceClass; HUB_CLASSCODE */ + 0x00, /* __u8 bDeviceSubClass; */ + 0x00, /* __u8 bDeviceProtocol; */ + 0x08, /* __u8 bMaxPacketSize0; 8 Bytes */ + 0x00, /* __u16 idVendor; */ + 0x00, + 0x00, /* __u16 idProduct; */ + 0x00, + 0x00, /* __u16 bcdDevice; */ + 0x00, + 0x00, /* __u8 iManufacturer; */ + 0x01, /* __u8 iProduct; */ + 0x00, /* __u8 iSerialNumber; */ + 0x01 /* __u8 bNumConfigurations; */ +}; + +/* Configuration descriptor */ +static __u8 root_hub_config_des[] = { + 0x09, /* __u8 bLength; */ + 0x02, /* __u8 bDescriptorType; Configuration */ + 0x19, /* __u16 wTotalLength; */ + 0x00, + 0x01, /* __u8 bNumInterfaces; */ + 0x01, /* __u8 bConfigurationValue; */ + 0x00, /* __u8 iConfiguration; */ + 0x40, /* __u8 bmAttributes; + Bit 7: Bus-powered, 6: Self-powered, 5 Remote-wakwup, 4..0: resvd */ + 0x00, /* __u8 MaxPower; */ + + /* interface */ + 0x09, /* __u8 if_bLength; */ + 0x04, /* __u8 if_bDescriptorType; Interface */ + 0x00, /* __u8 if_bInterfaceNumber; */ + 0x00, /* __u8 if_bAlternateSetting; */ + 0x01, /* __u8 if_bNumEndpoints; */ + 0x09, /* __u8 if_bInterfaceClass; HUB_CLASSCODE */ + 0x00, /* __u8 if_bInterfaceSubClass; */ + 0x00, /* __u8 if_bInterfaceProtocol; */ + 0x00, /* __u8 if_iInterface; */ + + /* endpoint */ + 0x07, /* __u8 ep_bLength; */ + 0x05, /* __u8 ep_bDescriptorType; Endpoint */ + 0x81, /* __u8 ep_bEndpointAddress; IN Endpoint 1 */ + 0x03, /* __u8 ep_bmAttributes; Interrupt */ + 0x00, /* __u16 ep_wMaxPacketSize; ((MAX_ROOT_PORTS + 1) / 8 */ + 0x02, + 0xff /* __u8 ep_bInterval; 255 ms */ +}; + +static unsigned char root_hub_str_index0[] = { + 0x04, /* __u8 bLength; */ + 0x03, /* __u8 bDescriptorType; String-descriptor */ + 0x09, /* __u8 lang ID */ + 0x04, /* __u8 lang ID */ +}; + +static unsigned char root_hub_str_index1[] = { + 0x22, /* __u8 bLength; */ + 0x03, /* __u8 bDescriptorType; String-descriptor */ + 'I', /* __u8 Unicode */ + 0, /* __u8 Unicode */ + 'S', /* __u8 Unicode */ + 0, /* __u8 Unicode */ + 'P', /* __u8 Unicode */ + 0, /* __u8 Unicode */ + '1', /* __u8 Unicode */ + 0, /* __u8 Unicode */ + '1', /* __u8 Unicode */ + 0, /* __u8 Unicode */ + '6', /* __u8 Unicode */ + 0, /* __u8 Unicode */ + 'x', /* __u8 Unicode */ + 0, /* __u8 Unicode */ + ' ', /* __u8 Unicode */ + 0, /* __u8 Unicode */ + 'R', /* __u8 Unicode */ + 0, /* __u8 Unicode */ + 'o', /* __u8 Unicode */ + 0, /* __u8 Unicode */ + 'o', /* __u8 Unicode */ + 0, /* __u8 Unicode */ + 't', /* __u8 Unicode */ + 0, /* __u8 Unicode */ + ' ', /* __u8 Unicode */ + 0, /* __u8 Unicode */ + 'H', /* __u8 Unicode */ + 0, /* __u8 Unicode */ + 'u', /* __u8 Unicode */ + 0, /* __u8 Unicode */ + 'b', /* __u8 Unicode */ + 0, /* __u8 Unicode */ +}; + +/* + * Hub class-specific descriptor is constructed dynamically + */ + +/* --- Virtual root hub management functions ------------------------------- */ + +static int rh_check_port_status(struct isp116x *isp116x) +{ + u32 temp, ndp, i; + int res; + + res = -1; + temp = isp116x_read_reg32(isp116x, HCRHSTATUS); + ndp = (temp & RH_A_NDP); + for (i = 0; i < ndp; i++) { + temp = isp116x_read_reg32(isp116x, HCRHPORT1 + i); + /* check for a device disconnect */ + if (((temp & (RH_PS_PESC | RH_PS_CSC)) == + (RH_PS_PESC | RH_PS_CSC)) && ((temp & RH_PS_CCS) == 0)) { + res = i; + break; + } + } + return res; +} + +/* --- HC management functions --------------------------------------------- */ + +/* Write len bytes to fifo, pad till 32-bit boundary + */ +static void write_ptddata_to_fifo(struct isp116x *isp116x, void *buf, int len) +{ + u8 *dp = (u8 *) buf; + u16 *dp2 = (u16 *) buf; + u16 w; + int quot = len % 4; + + if ((unsigned long)dp2 & 1) { + /* not aligned */ + for (; len > 1; len -= 2) { + w = *dp++; + w |= *dp++ << 8; + isp116x_raw_write_data16(isp116x, w); + } + if (len) + isp116x_write_data16(isp116x, (u16) * dp); + } else { + /* aligned */ + for (; len > 1; len -= 2) + isp116x_raw_write_data16(isp116x, *dp2++); + if (len) + isp116x_write_data16(isp116x, 0xff & *((u8 *) dp2)); + } + if (quot == 1 || quot == 2) + isp116x_raw_write_data16(isp116x, 0); +} + +/* Read len bytes from fifo and then read till 32-bit boundary + */ +static void read_ptddata_from_fifo(struct isp116x *isp116x, void *buf, int len) +{ + u8 *dp = (u8 *) buf; + u16 *dp2 = (u16 *) buf; + u16 w; + int quot = len % 4; + + if ((unsigned long)dp2 & 1) { + /* not aligned */ + for (; len > 1; len -= 2) { + w = isp116x_raw_read_data16(isp116x); + *dp++ = w & 0xff; + *dp++ = (w >> 8) & 0xff; + } + if (len) + *dp = 0xff & isp116x_read_data16(isp116x); + } else { + /* aligned */ + for (; len > 1; len -= 2) + *dp2++ = isp116x_raw_read_data16(isp116x); + if (len) + *(u8 *) dp2 = 0xff & isp116x_read_data16(isp116x); + } + if (quot == 1 || quot == 2) + isp116x_raw_read_data16(isp116x); +} + +/* Write PTD's and data for scheduled transfers into the fifo ram. + * Fifo must be empty and ready */ +static void pack_fifo(struct isp116x *isp116x, struct usb_device *dev, + unsigned long pipe, struct ptd *ptd, int n, void *data, + int len) +{ + int buflen = n * sizeof(struct ptd) + len; + int i, done; + + DBG("--- pack buffer %p - %d bytes (fifo %d) ---", data, len, buflen); + + isp116x_write_reg16(isp116x, HCuPINT, HCuPINT_AIIEOT); + isp116x_write_reg16(isp116x, HCXFERCTR, buflen); + isp116x_write_addr(isp116x, HCATLPORT | ISP116x_WRITE_OFFSET); + + done = 0; + for (i = 0; i < n; i++) { + DBG("i=%d - done=%d - len=%d", i, done, PTD_GET_LEN(&ptd[i])); + + dump_ptd(&ptd[i]); + isp116x_write_data16(isp116x, ptd[i].count); + isp116x_write_data16(isp116x, ptd[i].mps); + isp116x_write_data16(isp116x, ptd[i].len); + isp116x_write_data16(isp116x, ptd[i].faddr); + + dump_ptd_data(&ptd[i], (__u8 *) data + done, 0); + write_ptddata_to_fifo(isp116x, + (__u8 *) data + done, + PTD_GET_LEN(&ptd[i])); + + done += PTD_GET_LEN(&ptd[i]); + } +} + +/* Read the processed PTD's and data from fifo ram back to URBs' buffers. + * Fifo must be full and done */ +static int unpack_fifo(struct isp116x *isp116x, struct usb_device *dev, + unsigned long pipe, struct ptd *ptd, int n, void *data, + int len) +{ + int buflen = n * sizeof(struct ptd) + len; + int i, done, cc, ret; + + isp116x_write_reg16(isp116x, HCuPINT, HCuPINT_AIIEOT); + isp116x_write_reg16(isp116x, HCXFERCTR, buflen); + isp116x_write_addr(isp116x, HCATLPORT); + + ret = TD_CC_NOERROR; + done = 0; + for (i = 0; i < n; i++) { + DBG("i=%d - done=%d - len=%d", i, done, PTD_GET_LEN(&ptd[i])); + + ptd[i].count = isp116x_read_data16(isp116x); + ptd[i].mps = isp116x_read_data16(isp116x); + ptd[i].len = isp116x_read_data16(isp116x); + ptd[i].faddr = isp116x_read_data16(isp116x); + dump_ptd(&ptd[i]); + + read_ptddata_from_fifo(isp116x, + (__u8 *) data + done, + PTD_GET_LEN(&ptd[i])); + dump_ptd_data(&ptd[i], (__u8 *) data + done, 1); + + done += PTD_GET_LEN(&ptd[i]); + + cc = PTD_GET_CC(&ptd[i]); + if (cc == TD_DATAUNDERRUN) { /* underrun is no error... */ + DBG("allowed data underrun"); + cc = TD_CC_NOERROR; + } + if (cc != TD_CC_NOERROR && ret == TD_CC_NOERROR) + ret = cc; + } + + DBG("--- unpack buffer %p - %d bytes (fifo %d) ---", data, len, buflen); + + return ret; +} + +/* Interrupt handling + */ +static int isp116x_interrupt(struct isp116x *isp116x) +{ + u16 irqstat; + u32 intstat; + int ret = 0; + + isp116x_write_reg16(isp116x, HCuPINTENB, 0); + irqstat = isp116x_read_reg16(isp116x, HCuPINT); + isp116x_write_reg16(isp116x, HCuPINT, irqstat); + DBG(">>>>>> irqstat %x <<<<<<", irqstat); + + if (irqstat & HCuPINT_ATL) { + DBG(">>>>>> HCuPINT_ATL <<<<<<"); + udelay(500); + ret = 1; + } + + if (irqstat & HCuPINT_OPR) { + intstat = isp116x_read_reg32(isp116x, HCINTSTAT); + isp116x_write_reg32(isp116x, HCINTSTAT, intstat); + DBG(">>>>>> HCuPINT_OPR %x <<<<<<", intstat); + + if (intstat & HCINT_UE) { + ERR("unrecoverable error, controller disabled"); + + /* FIXME: be optimistic, hope that bug won't repeat + * often. Make some non-interrupt context restart the + * controller. Count and limit the retries though; + * either hardware or software errors can go forever... + */ + isp116x_reset(isp116x); + ret = -1; + return -1; + } + + if (intstat & HCINT_RHSC) { + got_rhsc = 1; + ret = 1; + /* When root hub or any of its ports is going + to come out of suspend, it may take more + than 10ms for status bits to stabilize. */ + wait_ms(20); + } + + if (intstat & HCINT_SO) { + ERR("schedule overrun"); + ret = -1; + } + + irqstat &= ~HCuPINT_OPR; + } + + return ret; +} + +#define PTD_NUM 64 /* it should be enougth... */ +struct ptd ptd[PTD_NUM]; +static inline int max_transfer_len(struct usb_device *dev, unsigned long pipe) +{ + return min(PTD_NUM * usb_maxpacket(dev, pipe), PTD_NUM * 16); +} + +/* Do an USB transfer + */ +static int isp116x_submit_job(struct usb_device *dev, unsigned long pipe, + int dir, void *buffer, int len) +{ + struct isp116x *isp116x = &isp116x_dev; + int type = usb_pipetype(pipe); + int epnum = usb_pipeendpoint(pipe); + int max = usb_maxpacket(dev, pipe); + int dir_out = usb_pipeout(pipe); + int speed_low = usb_pipeslow(pipe); + int i, done, stat, timeout, cc; + int retries = 10; + + DBG("------------------------------------------------"); + dump_msg(dev, pipe, buffer, len, "SUBMIT"); + DBG("------------------------------------------------"); + + if (isp116x->disabled) { + ERR("EPIPE"); + dev->status = USB_ST_CRC_ERR; + return -1; + } + + /* device pulled? Shortcut the action. */ + if (devgone == dev) { + ERR("ENODEV"); + dev->status = USB_ST_CRC_ERR; + return USB_ST_CRC_ERR; + } + + if (!max) { + ERR("pipesize for pipe %lx is zero", pipe); + dev->status = USB_ST_CRC_ERR; + return -1; + } + + if (type == PIPE_ISOCHRONOUS) { + ERR("isochronous transfers not supported"); + dev->status = USB_ST_CRC_ERR; + return -1; + } + + /* FIFO not empty? */ + if (isp116x_read_reg16(isp116x, HCBUFSTAT) & HCBUFSTAT_ATL_FULL) { + ERR("****** FIFO not empty! ******"); + dev->status = USB_ST_BUF_ERR; + return -1; + } + + retry: + isp116x_write_reg32(isp116x, HCINTSTAT, 0xff); + + /* Prepare the PTD data */ + done = 0; + i = 0; + do { + ptd[i].count = PTD_CC_MSK | PTD_ACTIVE_MSK | + PTD_TOGGLE(usb_gettoggle(dev, epnum, dir_out)); + ptd[i].mps = PTD_MPS(max) | PTD_SPD(speed_low) | PTD_EP(epnum); + ptd[i].len = PTD_LEN(max > len - done ? len - done : max) | + PTD_DIR(dir); + ptd[i].faddr = PTD_FA(usb_pipedevice(pipe)); + + usb_dotoggle(dev, epnum, dir_out); + done += PTD_GET_LEN(&ptd[i]); + i++; + if (i >= PTD_NUM) { + ERR("****** Cannot pack buffer! ******"); + dev->status = USB_ST_BUF_ERR; + return -1; + } + } while (done < len); + ptd[i - 1].mps |= PTD_LAST_MSK; + + /* Pack data into FIFO ram */ + pack_fifo(isp116x, dev, pipe, ptd, i, buffer, len); +#ifdef EXTRA_DELAY + wait_ms(EXTRA_DELAY); +#endif + + /* Start the data transfer */ + + /* Allow more time for a BULK device to react - some are slow */ + if (usb_pipetype(pipe) == PIPE_BULK) + timeout = 5000; + else + timeout = 100; + + /* Wait for it to complete */ + for (;;) { + /* Check whether the controller is done */ + stat = isp116x_interrupt(isp116x); + + if (stat < 0) { + dev->status = USB_ST_CRC_ERR; + break; + } + if (stat > 0) + break; + + /* Check the timeout */ + if (--timeout) + udelay(1); + else { + ERR("CTL:TIMEOUT "); + stat = USB_ST_CRC_ERR; + break; + } + } + + /* We got an Root Hub Status Change interrupt */ + if (got_rhsc) { + isp116x_show_regs(isp116x); + + got_rhsc = 0; + + /* Abuse timeout */ + timeout = rh_check_port_status(isp116x); + if (timeout >= 0) { + /* + * FIXME! NOTE! AAAARGH! + * This is potentially dangerous because it assumes + * that only one device is ever plugged in! + */ + devgone = dev; + } + } + + /* Ok, now we can read transfer status */ + + /* FIFO not ready? */ + if (!(isp116x_read_reg16(isp116x, HCBUFSTAT) & HCBUFSTAT_ATL_DONE)) { + ERR("****** FIFO not ready! ******"); + dev->status = USB_ST_BUF_ERR; + return -1; + } + + /* Unpack data from FIFO ram */ + cc = unpack_fifo(isp116x, dev, pipe, ptd, i, buffer, len); + + /* Mmm... sometime we get 0x0f as cc which is a non sense! + * Just retry the transfer... + */ + if (cc == 0x0f && retries-- > 0) { + usb_dotoggle(dev, epnum, dir_out); + goto retry; + } + + if (cc != TD_CC_NOERROR) { + DBG("****** completition code error %x ******", cc); + switch (cc) { + case TD_CC_BITSTUFFING: + dev->status = USB_ST_BIT_ERR; + break; + case TD_CC_STALL: + dev->status = USB_ST_STALLED; + break; + case TD_BUFFEROVERRUN: + case TD_BUFFERUNDERRUN: + dev->status = USB_ST_BUF_ERR; + break; + default: + dev->status = USB_ST_CRC_ERR; + } + return -cc; + } + + dump_msg(dev, pipe, buffer, len, "SUBMIT(ret)"); + + dev->status = 0; + return done; +} + +/* Adapted from au1x00_usb_ohci.c + */ +static int isp116x_submit_rh_msg(struct usb_device *dev, unsigned long pipe, + void *buffer, int transfer_len, + struct devrequest *cmd) +{ + struct isp116x *isp116x = &isp116x_dev; + u32 tmp = 0; + + int leni = transfer_len; + int len = 0; + int stat = 0; + u32 datab[4]; + u8 *data_buf = (u8 *) datab; + u16 bmRType_bReq; + u16 wValue; + u16 wIndex; + u16 wLength; + + if ((pipe & PIPE_INTERRUPT) == PIPE_INTERRUPT) { + INFO("Root-Hub submit IRQ: NOT implemented"); + return 0; + } + + bmRType_bReq = cmd->requesttype | (cmd->request << 8); + wValue = swap_16(cmd->value); + wIndex = swap_16(cmd->index); + wLength = swap_16(cmd->length); + + DBG("--- HUB ----------------------------------------"); + DBG("submit rh urb, req=%x val=%#x index=%#x len=%d", + bmRType_bReq, wValue, wIndex, wLength); + dump_msg(dev, pipe, buffer, transfer_len, "RH"); + DBG("------------------------------------------------"); + + switch (bmRType_bReq) { + case RH_GET_STATUS: + DBG("RH_GET_STATUS"); + + *(__u16 *) data_buf = swap_16(1); + len = 2; + break; + + case RH_GET_STATUS | RH_INTERFACE: + DBG("RH_GET_STATUS | RH_INTERFACE"); + + *(__u16 *) data_buf = swap_16(0); + len = 2; + break; + + case RH_GET_STATUS | RH_ENDPOINT: + DBG("RH_GET_STATUS | RH_ENDPOINT"); + + *(__u16 *) data_buf = swap_16(0); + len = 2; + break; + + case RH_GET_STATUS | RH_CLASS: + DBG("RH_GET_STATUS | RH_CLASS"); + + tmp = isp116x_read_reg32(isp116x, HCRHSTATUS); + + *(__u32 *) data_buf = swap_32(tmp & ~(RH_HS_CRWE | RH_HS_DRWE)); + len = 4; + break; + + case RH_GET_STATUS | RH_OTHER | RH_CLASS: + DBG("RH_GET_STATUS | RH_OTHER | RH_CLASS"); + + tmp = isp116x_read_reg32(isp116x, HCRHPORT1 + wIndex - 1); + *(__u32 *) data_buf = swap_32(tmp); + isp116x_show_regs(isp116x); + len = 4; + break; + + case RH_CLEAR_FEATURE | RH_ENDPOINT: + DBG("RH_CLEAR_FEATURE | RH_ENDPOINT"); + + switch (wValue) { + case RH_ENDPOINT_STALL: + DBG("C_HUB_ENDPOINT_STALL"); + len = 0; + break; + } + break; + + case RH_CLEAR_FEATURE | RH_CLASS: + DBG("RH_CLEAR_FEATURE | RH_CLASS"); + + switch (wValue) { + case RH_C_HUB_LOCAL_POWER: + DBG("C_HUB_LOCAL_POWER"); + len = 0; + break; + + case RH_C_HUB_OVER_CURRENT: + DBG("C_HUB_OVER_CURRENT"); + isp116x_write_reg32(isp116x, HCRHSTATUS, RH_HS_OCIC); + len = 0; + break; + } + break; + + case RH_CLEAR_FEATURE | RH_OTHER | RH_CLASS: + DBG("RH_CLEAR_FEATURE | RH_OTHER | RH_CLASS"); + + switch (wValue) { + case RH_PORT_ENABLE: + isp116x_write_reg32(isp116x, HCRHPORT1 + wIndex - 1, + RH_PS_CCS); + len = 0; + break; + + case RH_PORT_SUSPEND: + isp116x_write_reg32(isp116x, HCRHPORT1 + wIndex - 1, + RH_PS_POCI); + len = 0; + break; + + case RH_PORT_POWER: + isp116x_write_reg32(isp116x, HCRHPORT1 + wIndex - 1, + RH_PS_LSDA); + len = 0; + break; + + case RH_C_PORT_CONNECTION: + isp116x_write_reg32(isp116x, HCRHPORT1 + wIndex - 1, + RH_PS_CSC); + len = 0; + break; + + case RH_C_PORT_ENABLE: + isp116x_write_reg32(isp116x, HCRHPORT1 + wIndex - 1, + RH_PS_PESC); + len = 0; + break; + + case RH_C_PORT_SUSPEND: + isp116x_write_reg32(isp116x, HCRHPORT1 + wIndex - 1, + RH_PS_PSSC); + len = 0; + break; + + case RH_C_PORT_OVER_CURRENT: + isp116x_write_reg32(isp116x, HCRHPORT1 + wIndex - 1, + RH_PS_POCI); + len = 0; + break; + + case RH_C_PORT_RESET: + isp116x_write_reg32(isp116x, HCRHPORT1 + wIndex - 1, + RH_PS_PRSC); + len = 0; + break; + + default: + ERR("invalid wValue"); + stat = USB_ST_STALLED; + } + + isp116x_show_regs(isp116x); + + break; + + case RH_SET_FEATURE | RH_OTHER | RH_CLASS: + DBG("RH_SET_FEATURE | RH_OTHER | RH_CLASS"); + + switch (wValue) { + case RH_PORT_SUSPEND: + isp116x_write_reg32(isp116x, HCRHPORT1 + wIndex - 1, + RH_PS_PSS); + len = 0; + break; + + case RH_PORT_RESET: + /* Spin until any current reset finishes */ + while (1) { + tmp = + isp116x_read_reg32(isp116x, + HCRHPORT1 + wIndex - 1); + if (!(tmp & RH_PS_PRS)) + break; + wait_ms(1); + } + isp116x_write_reg32(isp116x, HCRHPORT1 + wIndex - 1, + RH_PS_PRS); + wait_ms(10); + + len = 0; + break; + + case RH_PORT_POWER: + isp116x_write_reg32(isp116x, HCRHPORT1 + wIndex - 1, + RH_PS_PPS); + len = 0; + break; + + case RH_PORT_ENABLE: + isp116x_write_reg32(isp116x, HCRHPORT1 + wIndex - 1, + RH_PS_PES); + len = 0; + break; + + default: + ERR("invalid wValue"); + stat = USB_ST_STALLED; + } + + isp116x_show_regs(isp116x); + + break; + + case RH_SET_ADDRESS: + DBG("RH_SET_ADDRESS"); + + rh_devnum = wValue; + len = 0; + break; + + case RH_GET_DESCRIPTOR: + DBG("RH_GET_DESCRIPTOR: %x, %d", wValue, wLength); + + switch (wValue) { + case (USB_DT_DEVICE << 8): /* device descriptor */ + len = min_t(unsigned int, + leni, min_t(unsigned int, + sizeof(root_hub_dev_des), + wLength)); + data_buf = root_hub_dev_des; + break; + + case (USB_DT_CONFIG << 8): /* configuration descriptor */ + len = min_t(unsigned int, + leni, min_t(unsigned int, + sizeof(root_hub_config_des), + wLength)); + data_buf = root_hub_config_des; + break; + + case ((USB_DT_STRING << 8) | 0x00): /* string 0 descriptors */ + len = min_t(unsigned int, + leni, min_t(unsigned int, + sizeof(root_hub_str_index0), + wLength)); + data_buf = root_hub_str_index0; + break; + + case ((USB_DT_STRING << 8) | 0x01): /* string 1 descriptors */ + len = min_t(unsigned int, + leni, min_t(unsigned int, + sizeof(root_hub_str_index1), + wLength)); + data_buf = root_hub_str_index1; + break; + + default: + ERR("invalid wValue"); + stat = USB_ST_STALLED; + } + + break; + + case RH_GET_DESCRIPTOR | RH_CLASS: + DBG("RH_GET_DESCRIPTOR | RH_CLASS"); + + tmp = isp116x_read_reg32(isp116x, HCRHDESCA); + + data_buf[0] = 0x09; /* min length; */ + data_buf[1] = 0x29; + data_buf[2] = tmp & RH_A_NDP; + data_buf[3] = 0; + if (tmp & RH_A_PSM) /* per-port power switching? */ + data_buf[3] |= 0x01; + if (tmp & RH_A_NOCP) /* no overcurrent reporting? */ + data_buf[3] |= 0x10; + else if (tmp & RH_A_OCPM) /* per-port overcurrent rep? */ + data_buf[3] |= 0x08; + + /* Corresponds to data_buf[4-7] */ + datab[1] = 0; + data_buf[5] = (tmp & RH_A_POTPGT) >> 24; + + tmp = isp116x_read_reg32(isp116x, HCRHDESCB); + + data_buf[7] = tmp & RH_B_DR; + if (data_buf[2] < 7) + data_buf[8] = 0xff; + else { + data_buf[0] += 2; + data_buf[8] = (tmp & RH_B_DR) >> 8; + data_buf[10] = data_buf[9] = 0xff; + } + + len = min_t(unsigned int, leni, + min_t(unsigned int, data_buf[0], wLength)); + break; + + case RH_GET_CONFIGURATION: + DBG("RH_GET_CONFIGURATION"); + + *(__u8 *) data_buf = 0x01; + len = 1; + break; + + case RH_SET_CONFIGURATION: + DBG("RH_SET_CONFIGURATION"); + + isp116x_write_reg32(isp116x, HCRHSTATUS, RH_HS_LPSC); + len = 0; + break; + + default: + ERR("*** *** *** unsupported root hub command *** *** ***"); + stat = USB_ST_STALLED; + } + + len = min_t(int, len, leni); + if (buffer != data_buf) + memcpy(buffer, data_buf, len); + + dev->act_len = len; + dev->status = stat; + DBG("dev act_len %d, status %d", dev->act_len, dev->status); + + dump_msg(dev, pipe, buffer, transfer_len, "RH(ret)"); + + return stat; +} + +/* --- Transfer functions -------------------------------------------------- */ + +int submit_int_msg(struct usb_device *dev, unsigned long pipe, void *buffer, + int len, int interval) +{ + DBG("dev=%p pipe=%#lx buf=%p size=%d int=%d", + dev, pipe, buffer, len, interval); + + return -1; +} + +int submit_control_msg(struct usb_device *dev, unsigned long pipe, void *buffer, + int len, struct devrequest *setup) +{ + int devnum = usb_pipedevice(pipe); + int epnum = usb_pipeendpoint(pipe); + int max = max_transfer_len(dev, pipe); + int dir_in = usb_pipein(pipe); + int done, ret; + + /* Control message is for the HUB? */ + if (devnum == rh_devnum) + return isp116x_submit_rh_msg(dev, pipe, buffer, len, setup); + + /* Ok, no HUB message so send the message to the device */ + + /* Setup phase */ + DBG("--- SETUP PHASE --------------------------------"); + usb_settoggle(dev, epnum, 1, 0); + ret = isp116x_submit_job(dev, pipe, + PTD_DIR_SETUP, + setup, sizeof(struct devrequest)); + if (ret < 0) { + DBG("control setup phase error (ret = %d", ret); + return -1; + } + + /* Data phase */ + DBG("--- DATA PHASE ---------------------------------"); + done = 0; + usb_settoggle(dev, epnum, !dir_in, 1); + while (done < len) { + ret = isp116x_submit_job(dev, pipe, + dir_in ? PTD_DIR_IN : PTD_DIR_OUT, + (__u8 *) buffer + done, + max > len - done ? len - done : max); + if (ret < 0) { + DBG("control data phase error (ret = %d)", ret); + return -1; + } + done += ret; + + if (dir_in && ret < max) /* short packet */ + break; + } + + /* Status phase */ + DBG("--- STATUS PHASE -------------------------------"); + usb_settoggle(dev, epnum, !dir_in, 1); + ret = isp116x_submit_job(dev, pipe, + !dir_in ? PTD_DIR_IN : PTD_DIR_OUT, NULL, 0); + if (ret < 0) { + DBG("control status phase error (ret = %d", ret); + return -1; + } + + dev->act_len = done; + + dump_msg(dev, pipe, buffer, len, "DEV(ret)"); + + return done; +} + +int submit_bulk_msg(struct usb_device *dev, unsigned long pipe, void *buffer, + int len) +{ + int dir_out = usb_pipeout(pipe); + int max = max_transfer_len(dev, pipe); + int done, ret; + + DBG("--- BULK ---------------------------------------"); + DBG("dev=%ld pipe=%ld buf=%p size=%d dir_out=%d", + usb_pipedevice(pipe), usb_pipeendpoint(pipe), buffer, len, dir_out); + + done = 0; + while (done < len) { + ret = isp116x_submit_job(dev, pipe, + !dir_out ? PTD_DIR_IN : PTD_DIR_OUT, + (__u8 *) buffer + done, + max > len - done ? len - done : max); + if (ret < 0) { + DBG("error on bulk message (ret = %d)", ret); + return -1; + } + + done += ret; + + if (!dir_out && ret < max) /* short packet */ + break; + } + + dev->act_len = done; + + return 0; +} + +/* --- Basic functions ----------------------------------------------------- */ + +static int isp116x_sw_reset(struct isp116x *isp116x) +{ + int retries = 15; + int ret = 0; + + DBG(""); + + isp116x->disabled = 1; + + isp116x_write_reg16(isp116x, HCSWRES, HCSWRES_MAGIC); + isp116x_write_reg32(isp116x, HCCMDSTAT, HCCMDSTAT_HCR); + while (--retries) { + /* It usually resets within 1 ms */ + wait_ms(1); + if (!(isp116x_read_reg32(isp116x, HCCMDSTAT) & HCCMDSTAT_HCR)) + break; + } + if (!retries) { + ERR("software reset timeout"); + ret = -1; + } + return ret; +} + +static int isp116x_reset(struct isp116x *isp116x) +{ + unsigned long t; + u16 clkrdy = 0; + int ret, timeout = 15 /* ms */ ; + + DBG(""); + + ret = isp116x_sw_reset(isp116x); + if (ret) + return ret; + + for (t = 0; t < timeout; t++) { + clkrdy = isp116x_read_reg16(isp116x, HCuPINT) & HCuPINT_CLKRDY; + if (clkrdy) + break; + wait_ms(1); + } + if (!clkrdy) { + ERR("clock not ready after %dms", timeout); + /* After sw_reset the clock won't report to be ready, if + H_WAKEUP pin is high. */ + ERR("please make sure that the H_WAKEUP pin is pulled low!"); + ret = -1; + } + return ret; +} + +static void isp116x_stop(struct isp116x *isp116x) +{ + u32 val; + + DBG(""); + + isp116x_write_reg16(isp116x, HCuPINTENB, 0); + + /* Switch off ports' power, some devices don't come up + after next 'start' without this */ + val = isp116x_read_reg32(isp116x, HCRHDESCA); + val &= ~(RH_A_NPS | RH_A_PSM); + isp116x_write_reg32(isp116x, HCRHDESCA, val); + isp116x_write_reg32(isp116x, HCRHSTATUS, RH_HS_LPS); + + isp116x_sw_reset(isp116x); +} + +/* + * Configure the chip. The chip must be successfully reset by now. + */ +static int isp116x_start(struct isp116x *isp116x) +{ + struct isp116x_platform_data *board = isp116x->board; + u32 val; + + DBG(""); + + /* Clear interrupt status and disable all interrupt sources */ + isp116x_write_reg16(isp116x, HCuPINT, 0xff); + isp116x_write_reg16(isp116x, HCuPINTENB, 0); + + isp116x_write_reg16(isp116x, HCITLBUFLEN, ISP116x_ITL_BUFSIZE); + isp116x_write_reg16(isp116x, HCATLBUFLEN, ISP116x_ATL_BUFSIZE); + + /* Hardware configuration */ + val = HCHWCFG_DBWIDTH(1); + if (board->sel15Kres) + val |= HCHWCFG_15KRSEL; + /* Remote wakeup won't work without working clock */ + if (board->remote_wakeup_enable) + val |= HCHWCFG_CLKNOTSTOP; + if (board->oc_enable) + val |= HCHWCFG_ANALOG_OC; + isp116x_write_reg16(isp116x, HCHWCFG, val); + + /* --- Root hub configuration */ + val = (25 << 24) & RH_A_POTPGT; + /* AN10003_1.pdf recommends RH_A_NPS (no power switching) to + be always set. Yet, instead, we request individual port + power switching. */ + val |= RH_A_PSM; + /* Report overcurrent per port */ + val |= RH_A_OCPM; + isp116x_write_reg32(isp116x, HCRHDESCA, val); + isp116x->rhdesca = isp116x_read_reg32(isp116x, HCRHDESCA); + + val = RH_B_PPCM; + isp116x_write_reg32(isp116x, HCRHDESCB, val); + isp116x->rhdescb = isp116x_read_reg32(isp116x, HCRHDESCB); + + val = 0; + if (board->remote_wakeup_enable) + val |= RH_HS_DRWE; + isp116x_write_reg32(isp116x, HCRHSTATUS, val); + isp116x->rhstatus = isp116x_read_reg32(isp116x, HCRHSTATUS); + + isp116x_write_reg32(isp116x, HCFMINTVL, 0x27782edf); + + /* Go operational */ + val = HCCONTROL_USB_OPER; + if (board->remote_wakeup_enable) + val |= HCCONTROL_RWE; + isp116x_write_reg32(isp116x, HCCONTROL, val); + + /* Disable ports to avoid race in device enumeration */ + isp116x_write_reg32(isp116x, HCRHPORT1, RH_PS_CCS); + isp116x_write_reg32(isp116x, HCRHPORT2, RH_PS_CCS); + + isp116x_show_regs(isp116x); + + isp116x->disabled = 0; + + return 0; +} + +/* --- Init functions ------------------------------------------------------ */ + +int isp116x_check_id(struct isp116x *isp116x) +{ + int val; + + val = isp116x_read_reg16(isp116x, HCCHIPID); + if ((val & HCCHIPID_MASK) != HCCHIPID_MAGIC) { + ERR("invalid chip ID %04x", val); + return -1; + } + + return 0; +} + +int usb_lowlevel_init(void) +{ + struct isp116x *isp116x = &isp116x_dev; + + DBG(""); + + /* Init device registers addr */ + isp116x->addr_reg = (u16 *) ISP116X_HCD_ADDR; + isp116x->data_reg = (u16 *) ISP116X_HCD_DATA; + + /* Setup specific board settings */ +#ifdef ISP116X_HCD_SEL15kRES + isp116x_board.sel15Kres = 1; +#endif +#ifdef ISP116X_HCD_OC_ENABLE + isp116x_board.oc_enable = 1; +#endif +#ifdef ISP116X_HCD_REMOTE_WAKEUP_ENABLE + isp116x_board.remote_wakeup_enable = 1; +#endif + isp116x->board = &isp116x_board; + + /* Try to get ISP116x silicon chip ID */ + if (isp116x_check_id(isp116x) < 0) + return -1; + + isp116x->disabled = 1; + isp116x->sleeping = 0; + + isp116x_reset(isp116x); + isp116x_start(isp116x); + + return 0; +} + +int usb_lowlevel_stop(void) +{ + struct isp116x *isp116x = &isp116x_dev; + + DBG(""); + + if (!isp116x->disabled) + isp116x_stop(isp116x); + + return 0; +} + +#endif /* CONFIG_USB_ISP116X_HCD */ diff --git a/drivers/isp116x.h b/drivers/isp116x.h new file mode 100644 index 0000000..a3ce3b5 --- /dev/null +++ b/drivers/isp116x.h @@ -0,0 +1,489 @@ +/* + * ISP116x register declarations and HCD data structures + * + * Copyright (C) 2007 Rodolfo Giometti <giometti@linux.it> + * Copyright (C) 2007 Eurotech S.p.A. <info@eurotech.it> + * Copyright (C) 2005 Olav Kongas <ok@artecdesign.ee> + * Portions: + * Copyright (C) 2004 Lothar Wassmann + * Copyright (C) 2004 Psion Teklogix + * Copyright (C) 2004 David Brownell + * + * This program is free software; you can redistribute it and/or + * modify it under the terms of the GNU General Public License as + * published by the Free Software Foundation; either version 2 of + * the License, or (at your option) any later version. + * + * This program is distributed in the hope that it will be useful, + * but WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the + * GNU General Public License for more details. + * + * You should have received a copy of the GNU General Public License + * along with this program; if not, write to the Free Software + * Foundation, Inc., 59 Temple Place, Suite 330, Boston, + * MA 02111-1307 USA + */ + +#ifdef DEBUG +#define DBG(fmt, args...) \ + printf("isp116x: %s: " fmt "\n" , __FUNCTION__ , ## args) +#else +#define DBG(fmt, args...) do {} while (0) +#endif + +#ifdef VERBOSE +# define VDBG DBG +#else +# define VDBG(fmt, args...) do {} while (0) +#endif + +#define ERR(fmt, args...) \ + printf("isp116x: %s: " fmt "\n" , __FUNCTION__ , ## args) +#define WARN(fmt, args...) \ + printf("isp116x: %s: " fmt "\n" , __FUNCTION__ , ## args) +#define INFO(fmt, args...) \ + printf("isp116x: " fmt "\n" , ## args) + +/* ------------------------------------------------------------------------- */ + +/* us of 1ms frame */ +#define MAX_LOAD_LIMIT 850 + +/* Full speed: max # of bytes to transfer for a single urb + at a time must be < 1024 && must be multiple of 64. + 832 allows transfering 4kiB within 5 frames. */ +#define MAX_TRANSFER_SIZE_FULLSPEED 832 + +/* Low speed: there is no reason to schedule in very big + chunks; often the requested long transfers are for + string descriptors containing short strings. */ +#define MAX_TRANSFER_SIZE_LOWSPEED 64 + +/* Bytetime (us), a rough indication of how much time it + would take to transfer a byte of useful data over USB */ +#define BYTE_TIME_FULLSPEED 1 +#define BYTE_TIME_LOWSPEED 20 + +/* Buffer sizes */ +#define ISP116x_BUF_SIZE 4096 +#define ISP116x_ITL_BUFSIZE 0 +#define ISP116x_ATL_BUFSIZE ((ISP116x_BUF_SIZE) - 2*(ISP116x_ITL_BUFSIZE)) + +#define ISP116x_WRITE_OFFSET 0x80 + +/* --- ISP116x registers/bits ---------------------------------------------- */ + +#define HCREVISION 0x00 +#define HCCONTROL 0x01 +#define HCCONTROL_HCFS (3 << 6) /* host controller + functional state */ +#define HCCONTROL_USB_RESET (0 << 6) +#define HCCONTROL_USB_RESUME (1 << 6) +#define HCCONTROL_USB_OPER (2 << 6) +#define HCCONTROL_USB_SUSPEND (3 << 6) +#define HCCONTROL_RWC (1 << 9) /* remote wakeup connected */ +#define HCCONTROL_RWE (1 << 10) /* remote wakeup enable */ +#define HCCMDSTAT 0x02 +#define HCCMDSTAT_HCR (1 << 0) /* host controller reset */ +#define HCCMDSTAT_SOC (3 << 16) /* scheduling overrun count */ +#define HCINTSTAT 0x03 +#define HCINT_SO (1 << 0) /* scheduling overrun */ +#define HCINT_WDH (1 << 1) /* writeback of done_head */ +#define HCINT_SF (1 << 2) /* start frame */ +#define HCINT_RD (1 << 3) /* resume detect */ +#define HCINT_UE (1 << 4) /* unrecoverable error */ +#define HCINT_FNO (1 << 5) /* frame number overflow */ +#define HCINT_RHSC (1 << 6) /* root hub status change */ +#define HCINT_OC (1 << 30) /* ownership change */ +#define HCINT_MIE (1 << 31) /* master interrupt enable */ +#define HCINTENB 0x04 +#define HCINTDIS 0x05 +#define HCFMINTVL 0x0d +#define HCFMREM 0x0e +#define HCFMNUM 0x0f +#define HCLSTHRESH 0x11 +#define HCRHDESCA 0x12 +#define RH_A_NDP (0x3 << 0) /* # downstream ports */ +#define RH_A_PSM (1 << 8) /* power switching mode */ +#define RH_A_NPS (1 << 9) /* no power switching */ +#define RH_A_DT (1 << 10) /* device type (mbz) */ +#define RH_A_OCPM (1 << 11) /* overcurrent protection + mode */ +#define RH_A_NOCP (1 << 12) /* no overcurrent protection */ +#define RH_A_POTPGT (0xff << 24) /* power on -> power good + time */ +#define HCRHDESCB 0x13 +#define RH_B_DR (0xffff << 0) /* device removable flags */ +#define RH_B_PPCM (0xffff << 16) /* port power control mask */ +#define HCRHSTATUS 0x14 +#define RH_HS_LPS (1 << 0) /* local power status */ +#define RH_HS_OCI (1 << 1) /* over current indicator */ +#define RH_HS_DRWE (1 << 15) /* device remote wakeup + enable */ +#define RH_HS_LPSC (1 << 16) /* local power status change */ +#define RH_HS_OCIC (1 << 17) /* over current indicator + change */ +#define RH_HS_CRWE (1 << 31) /* clear remote wakeup + enable */ +#define HCRHPORT1 0x15 +#define RH_PS_CCS (1 << 0) /* current connect status */ +#define RH_PS_PES (1 << 1) /* port enable status */ +#define RH_PS_PSS (1 << 2) /* port suspend status */ +#define RH_PS_POCI (1 << 3) /* port over current + indicator */ +#define RH_PS_PRS (1 << 4) /* port reset status */ +#define RH_PS_PPS (1 << 8) /* port power status */ +#define RH_PS_LSDA (1 << 9) /* low speed device attached */ +#define RH_PS_CSC (1 << 16) /* connect status change */ +#define RH_PS_PESC (1 << 17) /* port enable status change */ +#define RH_PS_PSSC (1 << 18) /* port suspend status + change */ +#define RH_PS_OCIC (1 << 19) /* over current indicator + change */ +#define RH_PS_PRSC (1 << 20) /* port reset status change */ +#define HCRHPORT_CLRMASK (0x1f << 16) +#define HCRHPORT2 0x16 +#define HCHWCFG 0x20 +#define HCHWCFG_15KRSEL (1 << 12) +#define HCHWCFG_CLKNOTSTOP (1 << 11) +#define HCHWCFG_ANALOG_OC (1 << 10) +#define HCHWCFG_DACK_MODE (1 << 8) +#define HCHWCFG_EOT_POL (1 << 7) +#define HCHWCFG_DACK_POL (1 << 6) +#define HCHWCFG_DREQ_POL (1 << 5) +#define HCHWCFG_DBWIDTH_MASK (0x03 << 3) +#define HCHWCFG_DBWIDTH(n) (((n) << 3) & HCHWCFG_DBWIDTH_MASK) +#define HCHWCFG_INT_POL (1 << 2) +#define HCHWCFG_INT_TRIGGER (1 << 1) +#define HCHWCFG_INT_ENABLE (1 << 0) +#define HCDMACFG 0x21 +#define HCDMACFG_BURST_LEN_MASK (0x03 << 5) +#define HCDMACFG_BURST_LEN(n) (((n) << 5) & HCDMACFG_BURST_LEN_MASK) +#define HCDMACFG_BURST_LEN_1 HCDMACFG_BURST_LEN(0) +#define HCDMACFG_BURST_LEN_4 HCDMACFG_BURST_LEN(1) +#define HCDMACFG_BURST_LEN_8 HCDMACFG_BURST_LEN(2) +#define HCDMACFG_DMA_ENABLE (1 << 4) +#define HCDMACFG_BUF_TYPE_MASK (0x07 << 1) +#define HCDMACFG_CTR_SEL (1 << 2) +#define HCDMACFG_ITLATL_SEL (1 << 1) +#define HCDMACFG_DMA_RW_SELECT (1 << 0) +#define HCXFERCTR 0x22 +#define HCuPINT 0x24 +#define HCuPINT_SOF (1 << 0) +#define HCuPINT_ATL (1 << 1) +#define HCuPINT_AIIEOT (1 << 2) +#define HCuPINT_OPR (1 << 4) +#define HCuPINT_SUSP (1 << 5) +#define HCuPINT_CLKRDY (1 << 6) +#define HCuPINTENB 0x25 +#define HCCHIPID 0x27 +#define HCCHIPID_MASK 0xff00 +#define HCCHIPID_MAGIC 0x6100 +#define HCSCRATCH 0x28 +#define HCSWRES 0x29 +#define HCSWRES_MAGIC 0x00f6 +#define HCITLBUFLEN 0x2a +#define HCATLBUFLEN 0x2b +#define HCBUFSTAT 0x2c +#define HCBUFSTAT_ITL0_FULL (1 << 0) +#define HCBUFSTAT_ITL1_FULL (1 << 1) +#define HCBUFSTAT_ATL_FULL (1 << 2) +#define HCBUFSTAT_ITL0_DONE (1 << 3) +#define HCBUFSTAT_ITL1_DONE (1 << 4) +#define HCBUFSTAT_ATL_DONE (1 << 5) +#define HCRDITL0LEN 0x2d +#define HCRDITL1LEN 0x2e +#define HCITLPORT 0x40 +#define HCATLPORT 0x41 + +/* PTD accessor macros. */ +#define PTD_GET_COUNT(p) (((p)->count & PTD_COUNT_MSK) >> 0) +#define PTD_COUNT(v) (((v) << 0) & PTD_COUNT_MSK) +#define PTD_GET_TOGGLE(p) (((p)->count & PTD_TOGGLE_MSK) >> 10) +#define PTD_TOGGLE(v) (((v) << 10) & PTD_TOGGLE_MSK) +#define PTD_GET_ACTIVE(p) (((p)->count & PTD_ACTIVE_MSK) >> 11) +#define PTD_ACTIVE(v) (((v) << 11) & PTD_ACTIVE_MSK) +#define PTD_GET_CC(p) (((p)->count & PTD_CC_MSK) >> 12) +#define PTD_CC(v) (((v) << 12) & PTD_CC_MSK) +#define PTD_GET_MPS(p) (((p)->mps & PTD_MPS_MSK) >> 0) +#define PTD_MPS(v) (((v) << 0) & PTD_MPS_MSK) +#define PTD_GET_SPD(p) (((p)->mps & PTD_SPD_MSK) >> 10) +#define PTD_SPD(v) (((v) << 10) & PTD_SPD_MSK) +#define PTD_GET_LAST(p) (((p)->mps & PTD_LAST_MSK) >> 11) +#define PTD_LAST(v) (((v) << 11) & PTD_LAST_MSK) +#define PTD_GET_EP(p) (((p)->mps & PTD_EP_MSK) >> 12) +#define PTD_EP(v) (((v) << 12) & PTD_EP_MSK) +#define PTD_GET_LEN(p) (((p)->len & PTD_LEN_MSK) >> 0) +#define PTD_LEN(v) (((v) << 0) & PTD_LEN_MSK) +#define PTD_GET_DIR(p) (((p)->len & PTD_DIR_MSK) >> 10) +#define PTD_DIR(v) (((v) << 10) & PTD_DIR_MSK) +#define PTD_GET_B5_5(p) (((p)->len & PTD_B5_5_MSK) >> 13) +#define PTD_B5_5(v) (((v) << 13) & PTD_B5_5_MSK) +#define PTD_GET_FA(p) (((p)->faddr & PTD_FA_MSK) >> 0) +#define PTD_FA(v) (((v) << 0) & PTD_FA_MSK) +#define PTD_GET_FMT(p) (((p)->faddr & PTD_FMT_MSK) >> 7) +#define PTD_FMT(v) (((v) << 7) & PTD_FMT_MSK) + +/* Hardware transfer status codes -- CC from ptd->count */ +#define TD_CC_NOERROR 0x00 +#define TD_CC_CRC 0x01 +#define TD_CC_BITSTUFFING 0x02 +#define TD_CC_DATATOGGLEM 0x03 +#define TD_CC_STALL 0x04 +#define TD_DEVNOTRESP 0x05 +#define TD_PIDCHECKFAIL 0x06 +#define TD_UNEXPECTEDPID 0x07 +#define TD_DATAOVERRUN 0x08 +#define TD_DATAUNDERRUN 0x09 + /* 0x0A, 0x0B reserved for hardware */ +#define TD_BUFFEROVERRUN 0x0C +#define TD_BUFFERUNDERRUN 0x0D + /* 0x0E, 0x0F reserved for HCD */ +#define TD_NOTACCESSED 0x0F + +/* ------------------------------------------------------------------------- */ + +#define LOG2_PERIODIC_SIZE 5 /* arbitrary; this matches OHCI */ +#define PERIODIC_SIZE (1 << LOG2_PERIODIC_SIZE) + +/* Philips transfer descriptor */ +struct ptd { + u16 count; +#define PTD_COUNT_MSK (0x3ff << 0) +#define PTD_TOGGLE_MSK (1 << 10) +#define PTD_ACTIVE_MSK (1 << 11) +#define PTD_CC_MSK (0xf << 12) + u16 mps; +#define PTD_MPS_MSK (0x3ff << 0) +#define PTD_SPD_MSK (1 << 10) +#define PTD_LAST_MSK (1 << 11) +#define PTD_EP_MSK (0xf << 12) + u16 len; +#define PTD_LEN_MSK (0x3ff << 0) +#define PTD_DIR_MSK (3 << 10) +#define PTD_DIR_SETUP (0) +#define PTD_DIR_OUT (1) +#define PTD_DIR_IN (2) +#define PTD_B5_5_MSK (1 << 13) + u16 faddr; +#define PTD_FA_MSK (0x7f << 0) +#define PTD_FMT_MSK (1 << 7) +} __attribute__ ((packed, aligned(2))); + +struct isp116x_ep { + struct usb_device *udev; + struct ptd ptd; + + u8 maxpacket; + u8 epnum; + u8 nextpid; + + u16 length; /* of current packet */ + unsigned char *data; /* to databuf */ + + u16 error_count; +}; + +/* URB struct */ +#define N_URB_TD 48 +#define URB_DEL 1 +typedef struct { + struct isp116x_ep *ed; + void *transfer_buffer; /* (in) associated data buffer */ + int actual_length; /* (return) actual transfer length */ + unsigned long pipe; /* (in) pipe information */ +#if 0 + int state; +#endif +} urb_priv_t; + +struct isp116x_platform_data { + /* Enable internal resistors on downstream ports */ + unsigned sel15Kres:1; + /* On-chip overcurrent detection */ + unsigned oc_enable:1; + /* Enable wakeup by devices on usb bus (e.g. wakeup + by attachment/detachment or by device activity + such as moving a mouse). When chosen, this option + prevents stopping internal clock, increasing + thereby power consumption in suspended state. */ + unsigned remote_wakeup_enable:1; +}; + +struct isp116x { + u16 *addr_reg; + u16 *data_reg; + + struct isp116x_platform_data *board; + + struct dentry *dentry; + unsigned long stat1, stat2, stat4, stat8, stat16; + + /* Status flags */ + unsigned disabled:1; + unsigned sleeping:1; + + /* Root hub registers */ + u32 rhdesca; + u32 rhdescb; + u32 rhstatus; + u32 rhport[2]; + + /* Schedule for the current frame */ + struct isp116x_ep *atl_active; + int atl_buflen; + int atl_bufshrt; + int atl_last_dir; + int atl_finishing; +}; + +/* ------------------------------------------------- */ + +/* Inter-io delay (ns). The chip is picky about access timings; it + * expects at least: + * 150ns delay between consecutive accesses to DATA_REG, + * 300ns delay between access to ADDR_REG and DATA_REG + * OE, WE MUST NOT be changed during these intervals + */ +#if defined(UDELAY) +#define isp116x_delay(h,d) udelay(d) +#else +#define isp116x_delay(h,d) do {} while (0) +#endif + +static inline void isp116x_write_addr(struct isp116x *isp116x, unsigned reg) +{ + writew(reg & 0xff, isp116x->addr_reg); + isp116x_delay(isp116x, UDELAY); +} + +static inline void isp116x_write_data16(struct isp116x *isp116x, u16 val) +{ + writew(val, isp116x->data_reg); + isp116x_delay(isp116x, UDELAY); +} + +static inline void isp116x_raw_write_data16(struct isp116x *isp116x, u16 val) +{ + __raw_writew(val, isp116x->data_reg); + isp116x_delay(isp116x, UDELAY); +} + +static inline u16 isp116x_read_data16(struct isp116x *isp116x) +{ + u16 val; + + val = readw(isp116x->data_reg); + isp116x_delay(isp116x, UDELAY); + return val; +} + +static inline u16 isp116x_raw_read_data16(struct isp116x *isp116x) +{ + u16 val; + + val = __raw_readw(isp116x->data_reg); + isp116x_delay(isp116x, UDELAY); + return val; +} + +static inline void isp116x_write_data32(struct isp116x *isp116x, u32 val) +{ + writew(val & 0xffff, isp116x->data_reg); + isp116x_delay(isp116x, UDELAY); + writew(val >> 16, isp116x->data_reg); + isp116x_delay(isp116x, UDELAY); +} + +static inline u32 isp116x_read_data32(struct isp116x *isp116x) +{ + u32 val; + + val = (u32) readw(isp116x->data_reg); + isp116x_delay(isp116x, UDELAY); + val |= ((u32) readw(isp116x->data_reg)) << 16; + isp116x_delay(isp116x, UDELAY); + return val; +} + +/* Let's keep register access functions out of line. Hint: + we wait at least 150 ns at every access. +*/ +static u16 isp116x_read_reg16(struct isp116x *isp116x, unsigned reg) +{ + isp116x_write_addr(isp116x, reg); + return isp116x_read_data16(isp116x); +} + +static u32 isp116x_read_reg32(struct isp116x *isp116x, unsigned reg) +{ + isp116x_write_addr(isp116x, reg); + return isp116x_read_data32(isp116x); +} + +static void isp116x_write_reg16(struct isp116x *isp116x, unsigned reg, + unsigned val) +{ + isp116x_write_addr(isp116x, reg | ISP116x_WRITE_OFFSET); + isp116x_write_data16(isp116x, (u16) (val & 0xffff)); +} + +static void isp116x_write_reg32(struct isp116x *isp116x, unsigned reg, + unsigned val) +{ + isp116x_write_addr(isp116x, reg | ISP116x_WRITE_OFFSET); + isp116x_write_data32(isp116x, (u32) val); +} + +/* --- USB HUB constants (not OHCI-specific; see hub.h) -------------------- */ + +/* destination of request */ +#define RH_INTERFACE 0x01 +#define RH_ENDPOINT 0x02 +#define RH_OTHER 0x03 + +#define RH_CLASS 0x20 +#define RH_VENDOR 0x40 + +/* Requests: bRequest << 8 | bmRequestType */ +#define RH_GET_STATUS 0x0080 +#define RH_CLEAR_FEATURE 0x0100 +#define RH_SET_FEATURE 0x0300 +#define RH_SET_ADDRESS 0x0500 +#define RH_GET_DESCRIPTOR 0x0680 +#define RH_SET_DESCRIPTOR 0x0700 +#define RH_GET_CONFIGURATION 0x0880 +#define RH_SET_CONFIGURATION 0x0900 +#define RH_GET_STATE 0x0280 +#define RH_GET_INTERFACE 0x0A80 +#define RH_SET_INTERFACE 0x0B00 +#define RH_SYNC_FRAME 0x0C80 +/* Our Vendor Specific Request */ +#define RH_SET_EP 0x2000 + +/* Hub port features */ +#define RH_PORT_CONNECTION 0x00 +#define RH_PORT_ENABLE 0x01 +#define RH_PORT_SUSPEND 0x02 +#define RH_PORT_OVER_CURRENT 0x03 +#define RH_PORT_RESET 0x04 +#define RH_PORT_POWER 0x08 +#define RH_PORT_LOW_SPEED 0x09 + +#define RH_C_PORT_CONNECTION 0x10 +#define RH_C_PORT_ENABLE 0x11 +#define RH_C_PORT_SUSPEND 0x12 +#define RH_C_PORT_OVER_CURRENT 0x13 +#define RH_C_PORT_RESET 0x14 + +/* Hub features */ +#define RH_C_HUB_LOCAL_POWER 0x00 +#define RH_C_HUB_OVER_CURRENT 0x01 + +#define RH_DEVICE_REMOTE_WAKEUP 0x00 +#define RH_ENDPOINT_STALL 0x01 + +#define RH_ACK 0x01 +#define RH_REQ_ERR -1 +#define RH_NACK 0x00 diff --git a/drivers/lan91c96.c b/drivers/lan91c96.c index a50c5f0..ecdcbd9 100644 --- a/drivers/lan91c96.c +++ b/drivers/lan91c96.c @@ -65,7 +65,7 @@ #ifdef CONFIG_DRIVER_LAN91C96 -#if (CONFIG_COMMANDS & CFG_CMD_NET) +#if defined(CONFIG_CMD_NET) /*------------------------------------------------------------------------ * diff --git a/drivers/macb.c b/drivers/macb.c index 186ab19..95cdc49 100644 --- a/drivers/macb.c +++ b/drivers/macb.c @@ -17,7 +17,8 @@ */ #include <common.h> -#if defined(CONFIG_MACB) && (CONFIG_COMMANDS & (CFG_CMD_NET | CFG_CMD_MII)) +#if defined(CONFIG_MACB) \ + && (defined(CONFIG_CMD_NET) || defined(CONFIG_CMD_MII)) /* * The u-boot networking stack is a little weird. It seems like the @@ -51,6 +52,8 @@ #include "macb.h" +#define barrier() asm volatile("" ::: "memory") + #define CFG_MACB_RX_BUFFER_SIZE 4096 #define CFG_MACB_RX_RING_SIZE (CFG_MACB_RX_BUFFER_SIZE / 128) #define CFG_MACB_TX_RING_SIZE 16 @@ -163,7 +166,7 @@ static u16 macb_mdio_read(struct macb_device *macb, u8 reg) return MACB_BFEXT(DATA, frame); } -#if (CONFIG_COMMANDS & CFG_CMD_NET) +#if defined(CONFIG_CMD_NET) static int macb_send(struct eth_device *netdev, volatile void *packet, int length) @@ -185,31 +188,31 @@ static int macb_send(struct eth_device *netdev, volatile void *packet, macb->tx_ring[tx_head].ctrl = ctrl; macb->tx_ring[tx_head].addr = paddr; + barrier(); macb_writel(macb, NCR, MACB_BIT(TE) | MACB_BIT(RE) | MACB_BIT(TSTART)); /* * I guess this is necessary because the networking core may * re-use the transmit buffer as soon as we return... */ - i = 0; - while (!(macb->tx_ring[tx_head].ctrl & TXBUF_USED)) { - if (i > CFG_MACB_TX_TIMEOUT) { - printf("%s: TX timeout\n", netdev->name); + for (i = 0; i <= CFG_MACB_TX_TIMEOUT; i++) { + barrier(); + ctrl = macb->tx_ring[tx_head].ctrl; + if (ctrl & TXBUF_USED) break; - } udelay(1); - i++; } dma_unmap_single(packet, length, paddr); if (i <= CFG_MACB_TX_TIMEOUT) { - ctrl = macb->tx_ring[tx_head].ctrl; if (ctrl & TXBUF_UNDERRUN) printf("%s: TX underrun\n", netdev->name); if (ctrl & TXBUF_EXHAUSTED) printf("%s: TX buffers exhausted in mid frame\n", netdev->name); + } else { + printf("%s: TX timeout\n", netdev->name); } /* No one cares anyway */ @@ -234,6 +237,7 @@ static void reclaim_rx_buffers(struct macb_device *macb, i++; } + barrier(); macb->rx_tail = new_tail; } @@ -283,25 +287,17 @@ static int macb_recv(struct eth_device *netdev) rx_tail = 0; } } + barrier(); } return 0; } -static int macb_phy_init(struct macb_device *macb) +static void macb_phy_reset(struct macb_device *macb) { struct eth_device *netdev = &macb->netdev; - u32 ncfgr; - u16 phy_id, status, adv, lpa; - int media, speed, duplex; int i; - - /* Check if the PHY is up to snuff... */ - phy_id = macb_mdio_read(macb, MII_PHYSID1); - if (phy_id == 0xffff) { - printf("%s: No PHY present\n", netdev->name); - return 0; - } + u16 status, adv; adv = ADVERTISE_CSMA | ADVERTISE_ALL; macb_mdio_write(macb, MII_ADVERTISE, adv); @@ -309,11 +305,6 @@ static int macb_phy_init(struct macb_device *macb) macb_mdio_write(macb, MII_BMCR, (BMCR_ANENABLE | BMCR_ANRESTART)); -#if 0 - for (i = 0; i < 9; i++) - printf("mii%d: 0x%04x\n", i, macb_mdio_read(macb, i)); -#endif - for (i = 0; i < CFG_MACB_AUTONEG_TIMEOUT / 100; i++) { status = macb_mdio_read(macb, MII_BMSR); if (status & BMSR_ANEGCOMPLETE) @@ -326,13 +317,33 @@ static int macb_phy_init(struct macb_device *macb) else printf("%s: Autonegotiation timed out (status=0x%04x)\n", netdev->name, status); +} +static int macb_phy_init(struct macb_device *macb) +{ + struct eth_device *netdev = &macb->netdev; + u32 ncfgr; + u16 phy_id, status, adv, lpa; + int media, speed, duplex; + int i; + + /* Check if the PHY is up to snuff... */ + phy_id = macb_mdio_read(macb, MII_PHYSID1); + if (phy_id == 0xffff) { + printf("%s: No PHY present\n", netdev->name); + return 0; + } + + status = macb_mdio_read(macb, MII_BMSR); if (!(status & BMSR_LSTATUS)) { + /* Try to re-negotiate if we don't have link already. */ + macb_phy_reset(macb); + for (i = 0; i < CFG_MACB_AUTONEG_TIMEOUT / 100; i++) { - udelay(100); status = macb_mdio_read(macb, MII_BMSR); if (status & BMSR_LSTATUS) break; + udelay(100); } } @@ -341,6 +352,7 @@ static int macb_phy_init(struct macb_device *macb) netdev->name, status); return 0; } else { + adv = macb_mdio_read(macb, MII_ADVERTISE); lpa = macb_mdio_read(macb, MII_LPA); media = mii_nway_result(lpa & adv); speed = (media & (ADVERTISE_100FULL | ADVERTISE_100HALF) @@ -492,9 +504,9 @@ int macb_eth_initialize(int id, void *regs, unsigned int phy_addr) return 0; } -#endif /* (CONFIG_COMMANDS & CFG_CMD_NET) */ +#endif -#if (CONFIG_COMMANDS & CFG_CMD_MII) +#if defined(CONFIG_CMD_MII) int miiphy_read(unsigned char addr, unsigned char reg, unsigned short *value) { @@ -570,6 +582,6 @@ int miiphy_write(unsigned char addr, unsigned char reg, unsigned short value) return 0; } -#endif /* (CONFIG_COMMANDS & CFG_CMD_MII) */ +#endif #endif /* CONFIG_MACB */ diff --git a/drivers/mpc8xx_pcmcia.c b/drivers/mpc8xx_pcmcia.c index 399a719..8a34cd3 100644 --- a/drivers/mpc8xx_pcmcia.c +++ b/drivers/mpc8xx_pcmcia.c @@ -6,11 +6,11 @@ #undef CONFIG_PCMCIA -#if (CONFIG_COMMANDS & CFG_CMD_PCMCIA) +#if defined(CONFIG_CMD_PCMCIA) #define CONFIG_PCMCIA #endif -#if (CONFIG_COMMANDS & CFG_CMD_IDE) && defined(CONFIG_IDE_8xx_PCCARD) +#if defined(CONFIG_CMD_IDE) && defined(CONFIG_IDE_8xx_PCCARD) #define CONFIG_PCMCIA #endif @@ -23,7 +23,7 @@ extern int check_ide_device (int slot); extern int pcmcia_hardware_enable (int slot); extern int pcmcia_voltage_set(int slot, int vcc, int vpp); -#if (CONFIG_COMMANDS & CFG_CMD_PCMCIA) +#if defined(CONFIG_CMD_PCMCIA) extern int pcmcia_hardware_disable(int slot); #endif @@ -189,7 +189,7 @@ int pcmcia_on (void) return rc; } -#if (CONFIG_COMMANDS & CFG_CMD_PCMCIA) +#if defined(CONFIG_CMD_PCMCIA) int pcmcia_off (void) { int i; @@ -221,7 +221,7 @@ int pcmcia_off (void) pcmcia_hardware_disable(_slot_); return 0; } -#endif /* CFG_CMD_PCMCIA */ +#endif static u_int m8xx_get_graycode(u_int size) diff --git a/drivers/nand/nand.c b/drivers/nand/nand.c index 9fef71d..27b5792 100644 --- a/drivers/nand/nand.c +++ b/drivers/nand/nand.c @@ -23,7 +23,7 @@ #include <common.h> -#if (CONFIG_COMMANDS & CFG_CMD_NAND) && !defined(CFG_NAND_LEGACY) +#if defined(CONFIG_CMD_NAND) && !defined(CFG_NAND_LEGACY) #include <nand.h> diff --git a/drivers/nand/nand_base.c b/drivers/nand/nand_base.c index c6fee18..151f535 100644 --- a/drivers/nand/nand_base.c +++ b/drivers/nand/nand_base.c @@ -72,7 +72,7 @@ #include <common.h> -#if (CONFIG_COMMANDS & CFG_CMD_NAND) && !defined(CFG_NAND_LEGACY) +#if defined(CONFIG_CMD_NAND) && !defined(CFG_NAND_LEGACY) #include <malloc.h> #include <watchdog.h> diff --git a/drivers/nand/nand_bbt.c b/drivers/nand/nand_bbt.c index aaa9400..19a9bc2 100644 --- a/drivers/nand/nand_bbt.c +++ b/drivers/nand/nand_bbt.c @@ -54,7 +54,7 @@ #include <common.h> -#if (CONFIG_COMMANDS & CFG_CMD_NAND) && !defined(CFG_NAND_LEGACY) +#if defined(CONFIG_CMD_NAND) && !defined(CFG_NAND_LEGACY) #include <malloc.h> #include <linux/mtd/compat.h> diff --git a/drivers/nand/nand_ecc.c b/drivers/nand/nand_ecc.c index 90274e6..4c532b0 100644 --- a/drivers/nand/nand_ecc.c +++ b/drivers/nand/nand_ecc.c @@ -37,7 +37,7 @@ #include <common.h> -#if (CONFIG_COMMANDS & CFG_CMD_NAND) && !defined(CFG_NAND_LEGACY) +#if defined(CONFIG_CMD_NAND) && !defined(CFG_NAND_LEGACY) #include<linux/mtd/mtd.h> @@ -197,4 +197,4 @@ int nand_correct_data(struct mtd_info *mtd, u_char *dat, return -1; } -#endif /* CONFIG_COMMANDS & CFG_CMD_NAND */ +#endif diff --git a/drivers/nand/nand_ids.c b/drivers/nand/nand_ids.c index 8b58736..075cae6 100644 --- a/drivers/nand/nand_ids.c +++ b/drivers/nand/nand_ids.c @@ -13,7 +13,7 @@ #include <common.h> -#if (CONFIG_COMMANDS & CFG_CMD_NAND) && !defined(CFG_NAND_LEGACY) +#if defined(CONFIG_CMD_NAND) && !defined(CFG_NAND_LEGACY) #include <linux/mtd/nand.h> diff --git a/drivers/nand/nand_util.c b/drivers/nand/nand_util.c index 10bf036..cf05043 100644 --- a/drivers/nand/nand_util.c +++ b/drivers/nand/nand_util.c @@ -32,11 +32,12 @@ #include <common.h> -#if (CONFIG_COMMANDS & CFG_CMD_NAND) && !defined(CFG_NAND_LEGACY) +#if defined(CONFIG_CMD_NAND) && !defined(CFG_NAND_LEGACY) #include <command.h> #include <watchdog.h> #include <malloc.h> +#include <div64.h> #include <nand.h> #include <jffs2/jffs2.h> @@ -208,10 +209,10 @@ int nand_erase_opts(nand_info_t *meminfo, const nand_erase_options_t *opts) } if (!opts->quiet) { - int percent = (int) - ((unsigned long long) + unsigned long long n =(unsigned long long) (erase.addr+meminfo->erasesize-opts->offset) - * 100 / erase_length); + * 100; + int percent = (int)do_div(n, erase_length); /* output progress message only at whole percent * steps to reduce the number of messages printed @@ -475,10 +476,9 @@ int nand_write_opts(nand_info_t *meminfo, const nand_write_options_t *opts) imglen -= readlen; if (!opts->quiet) { - int percent = (int) - ((unsigned long long) - (opts->length-imglen) * 100 - / opts->length); + unsigned long long n = (unsigned long long) + (opts->length-imglen) * 100; + int percent = (int)do_div(n, opts->length); /* output progress message only at whole percent * steps to reduce the number of messages printed * on (slow) serial consoles @@ -651,10 +651,9 @@ int nand_read_opts(nand_info_t *meminfo, const nand_read_options_t *opts) } if (!opts->quiet) { - int percent = (int) - ((unsigned long long) - (opts->length-imglen) * 100 - / opts->length); + unsigned long long n = (unsigned long long) + (opts->length-imglen) * 100; + int percent = (int)do_div(n ,opts->length); /* output progress message only at whole percent * steps to reduce the number of messages printed * on (slow) serial consoles @@ -859,4 +858,4 @@ int nand_unlock(nand_info_t *meminfo, ulong start, ulong length) return ret; } -#endif /* (CONFIG_COMMANDS & CFG_CMD_NAND) && !defined(CFG_NAND_LEGACY) */ +#endif diff --git a/drivers/nand_legacy/nand_legacy.c b/drivers/nand_legacy/nand_legacy.c index 753f541..49d2ebb 100644 --- a/drivers/nand_legacy/nand_legacy.c +++ b/drivers/nand_legacy/nand_legacy.c @@ -15,7 +15,7 @@ #include <asm/io.h> #include <watchdog.h> -#if (CONFIG_COMMANDS & CFG_CMD_NAND) && defined(CFG_NAND_LEGACY) +#if defined(CONFIG_CMD_NAND) && defined(CFG_NAND_LEGACY) #include <linux/mtd/nand_legacy.h> #include <linux/mtd/nand_ids.h> @@ -1609,4 +1609,4 @@ int read_jffs2_nand(size_t start, size_t len, } #endif /* CONFIG_JFFS2_NAND */ -#endif /* (CONFIG_COMMANDS & CFG_CMD_NAND) && defined(CFG_NAND_LEGACY) */ +#endif diff --git a/drivers/natsemi.c b/drivers/natsemi.c index b009db6..075d6c5 100644 --- a/drivers/natsemi.c +++ b/drivers/natsemi.c @@ -56,8 +56,8 @@ #include <asm/io.h> #include <pci.h> -#if (CONFIG_COMMANDS & CFG_CMD_NET) && defined(CONFIG_NET_MULTI) && \ - defined(CONFIG_NATSEMI) +#if defined(CONFIG_CMD_NET) \ + && defined(CONFIG_NET_MULTI) && defined(CONFIG_NATSEMI) /* defines */ #define EEPROM_SIZE 0xb /*12 16-bit chunks, or 24 bytes*/ diff --git a/drivers/netarm_eth.c b/drivers/netarm_eth.c index 89b3a83..a99ee5d 100644 --- a/drivers/netarm_eth.c +++ b/drivers/netarm_eth.c @@ -30,7 +30,7 @@ #include <asm/arch/netarm_registers.h> -#if (CONFIG_COMMANDS & CFG_CMD_NET) +#if defined(CONFIG_CMD_NET) static int na_mii_poll_busy (void); diff --git a/drivers/ns8382x.c b/drivers/ns8382x.c index 976f86a..f8b143a 100644 --- a/drivers/ns8382x.c +++ b/drivers/ns8382x.c @@ -56,8 +56,8 @@ #include <asm/io.h> #include <pci.h> -#if (CONFIG_COMMANDS & CFG_CMD_NET) && defined(CONFIG_NET_MULTI) && \ - defined(CONFIG_NS8382X) +#if defined(CONFIG_CMD_NET) \ + && defined(CONFIG_NET_MULTI) && defined(CONFIG_NS8382X) /* defines */ #define DSIZE 0x00000FFF diff --git a/drivers/pci.c b/drivers/pci.c index 050582f..4158919 100644 --- a/drivers/pci.c +++ b/drivers/pci.c @@ -490,10 +490,16 @@ int pci_hose_scan_bus(struct pci_controller *hose, int bus) int pci_hose_scan(struct pci_controller *hose) { + /* Start scan at current_busno. + * PCIe will start scan at first_busno+1. + */ + /* For legacy support, ensure current>=first */ + if (hose->first_busno > hose->current_busno) + hose->current_busno = hose->first_busno; #ifdef CONFIG_PCI_PNP pciauto_config_init(hose); #endif - return pci_hose_scan_bus(hose, hose->first_busno); + return pci_hose_scan_bus(hose, hose->current_busno); } void pci_init(void) diff --git a/drivers/pci_auto.c b/drivers/pci_auto.c index f170c2d..2378553 100644 --- a/drivers/pci_auto.c +++ b/drivers/pci_auto.c @@ -65,7 +65,7 @@ int pciauto_region_allocate(struct pci_region* res, unsigned int size, unsigned res->bus_lower = addr + size; - DEBUGF("address=0x%lx", addr); + DEBUGF("address=0x%lx bus_lower=%x", addr, res->bus_lower); *bar = addr; return 0; @@ -94,7 +94,7 @@ void pciauto_setup_device(struct pci_controller *hose, pci_hose_read_config_dword(hose, dev, PCI_COMMAND, &cmdstat); cmdstat = (cmdstat & ~(PCI_COMMAND_IO | PCI_COMMAND_MEMORY)) | PCI_COMMAND_MASTER; - for (bar = PCI_BASE_ADDRESS_0; bar <= PCI_BASE_ADDRESS_0 + (bars_num*4); bar += 4) { + for (bar = PCI_BASE_ADDRESS_0; bar < PCI_BASE_ADDRESS_0 + (bars_num*4); bar += 4) { /* Tickle the BAR and get the response */ pci_hose_write_config_dword(hose, dev, bar, 0xffffffff); pci_hose_read_config_dword(hose, dev, bar, &bar_response); @@ -154,7 +154,7 @@ void pciauto_setup_device(struct pci_controller *hose, pci_hose_write_config_byte(hose, dev, PCI_LATENCY_TIMER, 0x80); } -static void pciauto_prescan_setup_bridge(struct pci_controller *hose, +void pciauto_prescan_setup_bridge(struct pci_controller *hose, pci_dev_t dev, int sub_bus) { struct pci_region *pci_mem = hose->pci_mem; @@ -165,8 +165,10 @@ static void pciauto_prescan_setup_bridge(struct pci_controller *hose, pci_hose_read_config_dword(hose, dev, PCI_COMMAND, &cmdstat); /* Configure bus number registers */ - pci_hose_write_config_byte(hose, dev, PCI_PRIMARY_BUS, PCI_BUS(dev)); - pci_hose_write_config_byte(hose, dev, PCI_SECONDARY_BUS, sub_bus); + pci_hose_write_config_byte(hose, dev, PCI_PRIMARY_BUS, + PCI_BUS(dev) - hose->first_busno); + pci_hose_write_config_byte(hose, dev, PCI_SECONDARY_BUS, + sub_bus - hose->first_busno); pci_hose_write_config_byte(hose, dev, PCI_SUBORDINATE_BUS, 0xff); if (pci_mem) { @@ -211,7 +213,7 @@ static void pciauto_prescan_setup_bridge(struct pci_controller *hose, pci_hose_write_config_dword(hose, dev, PCI_COMMAND, cmdstat | PCI_COMMAND_MASTER); } -static void pciauto_postscan_setup_bridge(struct pci_controller *hose, +void pciauto_postscan_setup_bridge(struct pci_controller *hose, pci_dev_t dev, int sub_bus) { struct pci_region *pci_mem = hose->pci_mem; @@ -219,7 +221,8 @@ static void pciauto_postscan_setup_bridge(struct pci_controller *hose, struct pci_region *pci_io = hose->pci_io; /* Configure bus number registers */ - pci_hose_write_config_byte(hose, dev, PCI_SUBORDINATE_BUS, sub_bus); + pci_hose_write_config_byte(hose, dev, PCI_SUBORDINATE_BUS, + sub_bus - hose->first_busno); if (pci_mem) { /* Round memory allocator to 1MB boundary */ @@ -282,25 +285,36 @@ void pciauto_config_init(struct pci_controller *hose) if (hose->pci_mem) { pciauto_region_init(hose->pci_mem); - DEBUGF("PCI Autoconfig: Memory region: [%lx-%lx]\n", + DEBUGF("PCI Autoconfig: Bus Memory region: [%lx-%lx],\n" + "\t\tPhysical Memory [%x-%x]\n", hose->pci_mem->bus_start, - hose->pci_mem->bus_start + hose->pci_mem->size - 1); + hose->pci_mem->bus_start + hose->pci_mem->size - 1, + hose->pci_mem->phys_start, + hose->pci_mem->phys_start + hose->pci_mem->size - 1); } if (hose->pci_prefetch) { pciauto_region_init(hose->pci_prefetch); - DEBUGF("PCI Autoconfig: Prefetchable Memory region: [%lx-%lx]\n", + DEBUGF("PCI Autoconfig: Bus Prefetchable Mem: [%lx-%lx],\n" + "\t\tPhysical Memory [%x-%x]\n", hose->pci_prefetch->bus_start, - hose->pci_prefetch->bus_start + hose->pci_prefetch->size - 1); + hose->pci_prefetch->bus_start + hose->pci_prefetch->size - 1, + hose->pci_prefetch->phys_start, + hose->pci_prefetch->phys_start + + hose->pci_prefetch->size - 1); } if (hose->pci_io) { pciauto_region_init(hose->pci_io); - DEBUGF("PCI Autoconfig: I/O region: [%lx-%lx]\n", + DEBUGF("PCI Autoconfig: Bus I/O region: [%lx-%lx],\n" + "\t\tPhysical Memory: [%x-%x]\n", hose->pci_io->bus_start, - hose->pci_io->bus_start + hose->pci_io->size - 1); + hose->pci_io->bus_start + hose->pci_io->size - 1, + hose->pci_io->phys_start, + hose->pci_io->phys_start + hose->pci_io->size - 1); + } } @@ -317,6 +331,12 @@ int pciauto_config_device(struct pci_controller *hose, pci_dev_t dev) pci_hose_read_config_word(hose, dev, PCI_CLASS_DEVICE, &class); switch(class) { + case PCI_CLASS_PROCESSOR_POWERPC: /* an agent or end-point */ + DEBUGF("PCI AutoConfig: Found PowerPC device\n"); + pciauto_setup_device(hose, dev, 6, hose->pci_mem, + hose->pci_prefetch, hose->pci_io); + break; + case PCI_CLASS_BRIDGE_PCI: hose->current_busno++; pciauto_setup_device(hose, dev, 2, hose->pci_mem, hose->pci_prefetch, hose->pci_io); diff --git a/drivers/pci_indirect.c b/drivers/pci_indirect.c index d7be081..a8220fb 100644 --- a/drivers/pci_indirect.c +++ b/drivers/pci_indirect.c @@ -45,7 +45,7 @@ indirect_##rw##_config_##size(struct pci_controller *hose, \ cfg_##rw(val, hose->cfg_data + (offset & mask), type, op); \ return 0; \ } -#elif defined(CONFIG_E500) +#elif defined(CONFIG_E500) || defined(CONFIG_MPC86xx) #define INDIRECT_PCI_OP(rw, size, type, op, mask) \ static int \ indirect_##rw##_config_##size(struct pci_controller *hose, \ @@ -55,7 +55,7 @@ indirect_##rw##_config_##size(struct pci_controller *hose, \ b = PCI_BUS(dev); d = PCI_DEV(dev); f = PCI_FUNC(dev); \ b = b - hose->first_busno; \ dev = PCI_BDF(b, d, f); \ - *(hose->cfg_addr) = dev | (offset & 0xfc) | 0x80000000; \ + *(hose->cfg_addr) = dev | (offset & 0xfc) | ((offset & 0xf00) << 16) | 0x80000000; \ sync(); \ cfg_##rw(val, hose->cfg_data + (offset & mask), type, op); \ return 0; \ diff --git a/drivers/pcnet.c b/drivers/pcnet.c index da9ac7f..2af0e8f 100644 --- a/drivers/pcnet.c +++ b/drivers/pcnet.c @@ -45,8 +45,8 @@ #define PCNET_DEBUG2(fmt,args...) #endif -#if (CONFIG_COMMANDS & CFG_CMD_NET) && defined(CONFIG_NET_MULTI) \ - && defined(CONFIG_PCNET) +#if defined(CONFIG_CMD_NET) \ + && defined(CONFIG_NET_MULTI) && defined(CONFIG_PCNET) #if !defined(CONF_PCNET_79C973) && defined(CONF_PCNET_79C975) #error "Macro for PCnet chip version is not defined!" diff --git a/drivers/plb2800_eth.c b/drivers/plb2800_eth.c index 4c683d7..0ae5d80 100644 --- a/drivers/plb2800_eth.c +++ b/drivers/plb2800_eth.c @@ -25,8 +25,8 @@ #include <common.h> -#if (CONFIG_COMMANDS & CFG_CMD_NET) && defined(CONFIG_NET_MULTI) \ - && defined(CONFIG_PLB2800_ETHER) +#if defined(CONFIG_CMD_NET) \ + && defined(CONFIG_NET_MULTI) && defined(CONFIG_PLB2800_ETHER) #include <malloc.h> #include <net.h> diff --git a/drivers/pxa_pcmcia.c b/drivers/pxa_pcmcia.c index d9d38bb..6020e46 100644 --- a/drivers/pxa_pcmcia.c +++ b/drivers/pxa_pcmcia.c @@ -85,7 +85,7 @@ int pcmcia_on (void) return rc; } -#if (CONFIG_COMMANDS & CFG_CMD_PCMCIA) +#if defined(CONFIG_CMD_PCMCIA) int pcmcia_off (void) { return 0; diff --git a/drivers/qe/qe.c b/drivers/qe/qe.c index 5f20962..0f5232a 100644 --- a/drivers/qe/qe.c +++ b/drivers/qe/qe.c @@ -98,7 +98,7 @@ static void qe_sdma_init(void) out_be32(&p->sdaqmr, 0); /* Allocate 2KB temporary buffer for sdma */ - sdma_buffer_base = qe_muram_alloc(2048, 64); + sdma_buffer_base = qe_muram_alloc(2048, 4096); out_be32(&p->sdwbcr, sdma_buffer_base & QE_SDEBCR_BA_MASK); /* Clear sdma status */ diff --git a/drivers/qe/qe.h b/drivers/qe/qe.h index 0bcd0a9..400b1a6 100644 --- a/drivers/qe/qe.h +++ b/drivers/qe/qe.h @@ -29,7 +29,7 @@ #define QE_NUM_OF_BRGS 16 #define UCC_MAX_NUM 8 -#define QE_DATAONLY_BASE (uint)(128) +#define QE_DATAONLY_BASE 0 #define QE_DATAONLY_SIZE (QE_MURAM_SIZE - QE_DATAONLY_BASE) /* QE threads SNUM diff --git a/drivers/qe/uec.c b/drivers/qe/uec.c index c416a67..89a7279 100644 --- a/drivers/qe/uec.c +++ b/drivers/qe/uec.c @@ -391,17 +391,17 @@ static int uec_set_mac_if_mode(uec_private_t *uec, enet_interface_e if_mode) return 0; } -static int init_mii_management_configuration(uec_t *uec_regs) +static int init_mii_management_configuration(uec_mii_t *uec_mii_regs) { uint timeout = 0x1000; u32 miimcfg = 0; - miimcfg = in_be32(&uec_regs->miimcfg); + miimcfg = in_be32(&uec_mii_regs->miimcfg); miimcfg |= MIIMCFG_MNGMNT_CLC_DIV_INIT_VALUE; - out_be32(&uec_regs->miimcfg, miimcfg); + out_be32(&uec_mii_regs->miimcfg, miimcfg); /* Wait until the bus is free */ - while ((in_be32(&uec_regs->miimcfg) & MIIMIND_BUSY) && timeout--); + while ((in_be32(&uec_mii_regs->miimcfg) & MIIMIND_BUSY) && timeout--); if (timeout <= 0) { printf("%s: The MII Bus is stuck!", __FUNCTION__); return -ETIMEDOUT; @@ -413,13 +413,13 @@ static int init_mii_management_configuration(uec_t *uec_regs) static int init_phy(struct eth_device *dev) { uec_private_t *uec; - uec_t *uec_regs; + uec_mii_t *umii_regs; struct uec_mii_info *mii_info; struct phy_info *curphy; int err; uec = (uec_private_t *)dev->priv; - uec_regs = uec->uec_regs; + umii_regs = uec->uec_mii_regs; uec->oldlink = 0; uec->oldspeed = 0; @@ -451,19 +451,19 @@ static int init_phy(struct eth_device *dev) mii_info->mii_id = uec->uec_info->phy_address; mii_info->dev = dev; - mii_info->mdio_read = &read_phy_reg; - mii_info->mdio_write = &write_phy_reg; + mii_info->mdio_read = &uec_read_phy_reg; + mii_info->mdio_write = &uec_write_phy_reg; uec->mii_info = mii_info; - if (init_mii_management_configuration(uec_regs)) { + if (init_mii_management_configuration(umii_regs)) { printf("%s: The MII Bus is stuck!", dev->name); err = -1; goto bus_fail; } /* get info for this PHY */ - curphy = get_phy_info(uec->mii_info); + curphy = uec_get_phy_info(uec->mii_info); if (!curphy) { printf("%s: No PHY found", dev->name); err = -1; @@ -989,6 +989,13 @@ static int uec_startup(uec_private_t *uec) /* Setup MAC interface mode */ uec_set_mac_if_mode(uec, uec_info->enet_interface); + /* Setup MII management base */ +#ifndef CONFIG_eTSEC_MDIO_BUS + uec->uec_mii_regs = (uec_mii_t *)(&uec_regs->miimcfg); +#else + uec->uec_mii_regs = (uec_mii_t *) CONFIG_MIIM_ADDRESS; +#endif + /* Setup MII master clock source */ qe_set_mii_clk_src(uec_info->uf_info.ucc_num); diff --git a/drivers/qe/uec.h b/drivers/qe/uec.h index 0495026..c384055 100644 --- a/drivers/qe/uec.h +++ b/drivers/qe/uec.h @@ -675,6 +675,7 @@ typedef struct uec_private { ucc_fast_private_t *uccf; struct eth_device *dev; uec_t *uec_regs; + uec_mii_t *uec_mii_regs; /* enet init command parameter */ uec_init_cmd_pram_t *p_init_enet_param; u32 init_enet_param_offset; diff --git a/drivers/qe/uec_phy.c b/drivers/qe/uec_phy.c index 76fd388..ca6faa6 100644 --- a/drivers/qe/uec_phy.c +++ b/drivers/qe/uec_phy.c @@ -60,14 +60,14 @@ void phy_write (struct uec_mii_info *mii_info, u16 regnum, u16 val); /* Write value to the PHY for this device to the register at regnum, */ /* waiting until the write is done before it returns. All PHY */ /* configuration has to be done through the TSEC1 MIIM regs */ -void write_phy_reg (struct eth_device *dev, int mii_id, int regnum, int value) +void uec_write_phy_reg (struct eth_device *dev, int mii_id, int regnum, int value) { uec_private_t *ugeth = (uec_private_t *) dev->priv; - uec_t *ug_regs; + uec_mii_t *ug_regs; enet_tbi_mii_reg_e mii_reg = (enet_tbi_mii_reg_e) regnum; u32 tmp_reg; - ug_regs = ugeth->uec_regs; + ug_regs = ugeth->uec_mii_regs; /* Stop the MII management read cycle */ out_be32 (&ug_regs->miimcom, 0); @@ -87,15 +87,15 @@ void write_phy_reg (struct eth_device *dev, int mii_id, int regnum, int value) /* Reads from register regnum in the PHY for device dev, */ /* returning the value. Clears miimcom first. All PHY */ /* configuration has to be done through the TSEC1 MIIM regs */ -int read_phy_reg (struct eth_device *dev, int mii_id, int regnum) +int uec_read_phy_reg (struct eth_device *dev, int mii_id, int regnum) { uec_private_t *ugeth = (uec_private_t *) dev->priv; - uec_t *ug_regs; + uec_mii_t *ug_regs; enet_tbi_mii_reg_e mii_reg = (enet_tbi_mii_reg_e) regnum; u32 tmp_reg; u16 value; - ug_regs = ugeth->uec_regs; + ug_regs = ugeth->uec_mii_regs; /* Setting up the MII Mangement Address Register */ tmp_reg = ((u32) mii_id << MIIMADD_PHY_ADDRESS_SHIFT) | mii_reg; @@ -521,7 +521,7 @@ void phy_write (struct uec_mii_info *mii_info, u16 regnum, u16 val) /* Use the PHY ID registers to determine what type of PHY is attached * to device dev. return a struct phy_info structure describing that PHY */ -struct phy_info *get_phy_info (struct uec_mii_info *mii_info) +struct phy_info *uec_get_phy_info (struct uec_mii_info *mii_info) { u16 phy_reg; u32 phy_ID; diff --git a/drivers/qe/uec_phy.h b/drivers/qe/uec_phy.h index 9bd926d..e59a940 100644 --- a/drivers/qe/uec_phy.h +++ b/drivers/qe/uec_phy.h @@ -249,10 +249,10 @@ struct phy_info { void (*close) (struct uec_mii_info * mii_info); }; -struct phy_info *get_phy_info (struct uec_mii_info *mii_info); -void write_phy_reg (struct eth_device *dev, int mii_id, int regnum, +struct phy_info *uec_get_phy_info (struct uec_mii_info *mii_info); +void uec_write_phy_reg (struct eth_device *dev, int mii_id, int regnum, int value); -int read_phy_reg (struct eth_device *dev, int mii_id, int regnum); +int uec_read_phy_reg (struct eth_device *dev, int mii_id, int regnum); void mii_clear_phy_interrupt (struct uec_mii_info *mii_info); void mii_configure_phy_interrupt (struct uec_mii_info *mii_info, u32 interrupts); diff --git a/drivers/rpx_pcmcia.c b/drivers/rpx_pcmcia.c index 2a0a9e0..c7c425b 100644 --- a/drivers/rpx_pcmcia.c +++ b/drivers/rpx_pcmcia.c @@ -9,11 +9,11 @@ #undef CONFIG_PCMCIA -#if CONFIG_COMMANDS & CFG_CMD_PCMCIA +#if defined(CONFIG_CMD_PCMCIA) #define CONFIG_PCMCIA #endif -#if (CONFIG_COMMANDS & CFG_CMD_IDE) && defined(CONFIG_IDE_8xx_PCCARD) +#if defined(CONFIG_CMD_IDE) && defined(CONFIG_IDE_8xx_PCCARD) #define CONFIG_PCMCIA #endif @@ -62,12 +62,12 @@ int pcmcia_hardware_enable (int slot) return 0; /* No hardware to enable */ } -#if (CONFIG_COMMANDS & CFG_CMD_PCMCIA) +#if defined(CONFIG_CMD_PCMCIA) static int pcmcia_hardware_disable(int slot) { return 0; /* No hardware to disable */ } -#endif /* CONFIG_COMMANDS & CFG_CMD_PCMCIA */ +#endif #endif /* CONFIG_PCMCIA && (CONFIG_RPXCLASSIC || CONFIG_RPXLITE) */ diff --git a/drivers/rtl8019.c b/drivers/rtl8019.c index 62b9245..409a69f 100644 --- a/drivers/rtl8019.c +++ b/drivers/rtl8019.c @@ -34,7 +34,7 @@ #ifdef CONFIG_DRIVER_RTL8019 -#if (CONFIG_COMMANDS & CFG_CMD_NET) +#if defined(CONFIG_CMD_NET) /* packet page register access functions */ diff --git a/drivers/rtl8139.c b/drivers/rtl8139.c index afe1a4f..2367180 100644 --- a/drivers/rtl8139.c +++ b/drivers/rtl8139.c @@ -77,7 +77,7 @@ #include <asm/io.h> #include <pci.h> -#if (CONFIG_COMMANDS & CFG_CMD_NET) && defined(CONFIG_NET_MULTI) && \ +#if defined(CONFIG_CMD_NET) && defined(CONFIG_NET_MULTI) && \ defined(CONFIG_RTL8139) #define TICKS_PER_SEC CFG_HZ @@ -193,6 +193,12 @@ static void rtl_reset(struct eth_device *dev); static int rtl_transmit(struct eth_device *dev, volatile void *packet, int length); static int rtl_poll(struct eth_device *dev); static void rtl_disable(struct eth_device *dev); +#ifdef CONFIG_MCAST_TFTP/* This driver already accepts all b/mcast */ +static int rtl_bcast_addr (struct eth_device *dev, u8 bcast_mac, u8 set) +{ + return (0); +} +#endif static struct pci_device_id supported[] = { {PCI_VENDOR_ID_REALTEK, PCI_DEVICE_ID_REALTEK_8139}, @@ -228,6 +234,9 @@ int rtl8139_initialize(bd_t *bis) dev->halt = rtl_disable; dev->send = rtl_transmit; dev->recv = rtl_poll; +#ifdef CONFIG_MCAST_TFTP + dev->mcast = rtl_bcast_addr; +#endif eth_register (dev); @@ -535,4 +544,4 @@ static void rtl_disable(struct eth_device *dev) udelay (100); /* wait 100us */ } } -#endif /* CFG_CMD_NET && CONFIG_NET_MULTI && CONFIG_RTL8139 */ +#endif diff --git a/drivers/rtl8169.c b/drivers/rtl8169.c index 3393ba8..63ea2cc 100644 --- a/drivers/rtl8169.c +++ b/drivers/rtl8169.c @@ -55,7 +55,7 @@ #include <asm/io.h> #include <pci.h> -#if (CONFIG_COMMANDS & CFG_CMD_NET) && defined(CONFIG_NET_MULTI) && \ +#if defined(CONFIG_CMD_NET) && defined(CONFIG_NET_MULTI) && \ defined(CONFIG_RTL8169) #undef DEBUG_RTL8169 diff --git a/drivers/sk98lin/uboot_drv.c b/drivers/sk98lin/uboot_drv.c index 263dac8..d02cd1b 100644 --- a/drivers/sk98lin/uboot_drv.c +++ b/drivers/sk98lin/uboot_drv.c @@ -25,7 +25,7 @@ #include <common.h> -#if (CONFIG_COMMANDS & CFG_CMD_NET) && defined(CONFIG_NET_MULTI) && \ +#if defined(CONFIG_CMD_NET) && defined(CONFIG_NET_MULTI) && \ defined(CONFIG_SK98) #include "h/skdrv1st.h" diff --git a/drivers/sym53c8xx.c b/drivers/sym53c8xx.c index ae10f80..29eeccd 100644 --- a/drivers/sym53c8xx.c +++ b/drivers/sym53c8xx.c @@ -51,7 +51,7 @@ #define PRINTF(fmt,args...) #endif -#if (CONFIG_COMMANDS & CFG_CMD_SCSI) && defined(CONFIG_SCSI_SYM53C8XX) +#if defined(CONFIG_CMD_SCSI) && defined(CONFIG_SCSI_SYM53C8XX) #undef SCSI_SINGLE_STEP /* @@ -787,7 +787,7 @@ void scsi_chip_init(void) scsi_write_byte(DMODE,0x00); #endif } -#endif /* (CONFIG_COMMANDS & CFG_CMD_SCSI) */ +#endif #endif /* CONFIG_SCSI_SYM53C8XX */ diff --git a/drivers/ti_pci1410a.c b/drivers/ti_pci1410a.c index d5297b5..208ca50 100644 --- a/drivers/ti_pci1410a.c +++ b/drivers/ti_pci1410a.c @@ -64,7 +64,7 @@ #include <pcmcia.h> -#if (CONFIG_COMMANDS & CFG_CMD_PCMCIA) && defined(CONFIG_IDE_TI_CARDBUS) +#if defined(CONFIG_CMD_PCMCIA) && defined(CONFIG_IDE_TI_CARDBUS) int pcmcia_on(int ide_base_bus); diff --git a/drivers/tigon3.c b/drivers/tigon3.c index ec2cd2a..5f6a4ec 100644 --- a/drivers/tigon3.c +++ b/drivers/tigon3.c @@ -12,7 +12,7 @@ /******************************************************************************/ #include <common.h> #include <asm/types.h> -#if (CONFIG_COMMANDS & CFG_CMD_NET) && !defined(CONFIG_NET_MULTI) && \ +#if defined(CONFIG_CMD_NET) && !defined(CONFIG_NET_MULTI) && \ defined(CONFIG_TIGON3) #ifdef CONFIG_BMW #include <mpc824x.h> @@ -26,69 +26,70 @@ /* Local functions. */ /******************************************************************************/ -LM_STATUS LM_Abort(PLM_DEVICE_BLOCK pDevice); -LM_STATUS LM_QueueRxPackets(PLM_DEVICE_BLOCK pDevice); - -static LM_STATUS LM_TranslateRequestedMediaType( - LM_REQUESTED_MEDIA_TYPE RequestedMediaType, - PLM_MEDIA_TYPE pMediaType, PLM_LINE_SPEED pLineSpeed, - PLM_DUPLEX_MODE pDuplexMode); - -static LM_STATUS LM_InitBcm540xPhy(PLM_DEVICE_BLOCK pDevice); - -__inline static LM_VOID LM_ServiceRxInterrupt(PLM_DEVICE_BLOCK pDevice); -__inline static LM_VOID LM_ServiceTxInterrupt(PLM_DEVICE_BLOCK pDevice); - -static LM_STATUS LM_ForceAutoNegBcm540xPhy(PLM_DEVICE_BLOCK pDevice, - LM_REQUESTED_MEDIA_TYPE RequestedMediaType); -static LM_STATUS LM_ForceAutoNeg(PLM_DEVICE_BLOCK pDevice, - LM_REQUESTED_MEDIA_TYPE RequestedMediaType); -static LM_UINT32 GetPhyAdFlowCntrlSettings(PLM_DEVICE_BLOCK pDevice); -STATIC LM_STATUS LM_SetFlowControl(PLM_DEVICE_BLOCK pDevice, - LM_UINT32 LocalPhyAd, LM_UINT32 RemotePhyAd); +LM_STATUS LM_Abort (PLM_DEVICE_BLOCK pDevice); +LM_STATUS LM_QueueRxPackets (PLM_DEVICE_BLOCK pDevice); + +static LM_STATUS LM_TranslateRequestedMediaType (LM_REQUESTED_MEDIA_TYPE + RequestedMediaType, + PLM_MEDIA_TYPE pMediaType, + PLM_LINE_SPEED pLineSpeed, + PLM_DUPLEX_MODE pDuplexMode); + +static LM_STATUS LM_InitBcm540xPhy (PLM_DEVICE_BLOCK pDevice); + +__inline static LM_VOID LM_ServiceRxInterrupt (PLM_DEVICE_BLOCK pDevice); +__inline static LM_VOID LM_ServiceTxInterrupt (PLM_DEVICE_BLOCK pDevice); + +static LM_STATUS LM_ForceAutoNegBcm540xPhy (PLM_DEVICE_BLOCK pDevice, + LM_REQUESTED_MEDIA_TYPE + RequestedMediaType); +static LM_STATUS LM_ForceAutoNeg (PLM_DEVICE_BLOCK pDevice, + LM_REQUESTED_MEDIA_TYPE RequestedMediaType); +static LM_UINT32 GetPhyAdFlowCntrlSettings (PLM_DEVICE_BLOCK pDevice); +STATIC LM_STATUS LM_SetFlowControl (PLM_DEVICE_BLOCK pDevice, + LM_UINT32 LocalPhyAd, + LM_UINT32 RemotePhyAd); #if INCLUDE_TBI_SUPPORT -STATIC LM_STATUS LM_SetupFiberPhy(PLM_DEVICE_BLOCK pDevice); -STATIC LM_STATUS LM_InitBcm800xPhy(PLM_DEVICE_BLOCK pDevice); +STATIC LM_STATUS LM_SetupFiberPhy (PLM_DEVICE_BLOCK pDevice); +STATIC LM_STATUS LM_InitBcm800xPhy (PLM_DEVICE_BLOCK pDevice); #endif -STATIC LM_STATUS LM_SetupCopperPhy(PLM_DEVICE_BLOCK pDevice); -STATIC PLM_ADAPTER_INFO LM_GetAdapterInfoBySsid(LM_UINT16 Svid, LM_UINT16 Ssid); -STATIC LM_STATUS LM_DmaTest(PLM_DEVICE_BLOCK pDevice, PLM_UINT8 pBufferVirt, - LM_PHYSICAL_ADDRESS BufferPhy, LM_UINT32 BufferSize); -STATIC LM_STATUS LM_HaltCpu(PLM_DEVICE_BLOCK pDevice,LM_UINT32 cpu_number); -STATIC LM_STATUS LM_ResetChip(PLM_DEVICE_BLOCK pDevice); -STATIC LM_STATUS LM_Test4GBoundary(PLM_DEVICE_BLOCK pDevice, PLM_PACKET pPacket, - PT3_SND_BD pSendBd); +STATIC LM_STATUS LM_SetupCopperPhy (PLM_DEVICE_BLOCK pDevice); +STATIC PLM_ADAPTER_INFO LM_GetAdapterInfoBySsid (LM_UINT16 Svid, + LM_UINT16 Ssid); +STATIC LM_STATUS LM_DmaTest (PLM_DEVICE_BLOCK pDevice, PLM_UINT8 pBufferVirt, + LM_PHYSICAL_ADDRESS BufferPhy, + LM_UINT32 BufferSize); +STATIC LM_STATUS LM_HaltCpu (PLM_DEVICE_BLOCK pDevice, LM_UINT32 cpu_number); +STATIC LM_STATUS LM_ResetChip (PLM_DEVICE_BLOCK pDevice); +STATIC LM_STATUS LM_Test4GBoundary (PLM_DEVICE_BLOCK pDevice, + PLM_PACKET pPacket, PT3_SND_BD pSendBd); /******************************************************************************/ /* External functions. */ /******************************************************************************/ -LM_STATUS LM_LoadRlsFirmware(PLM_DEVICE_BLOCK pDevice); - +LM_STATUS LM_LoadRlsFirmware (PLM_DEVICE_BLOCK pDevice); /******************************************************************************/ /* Description: */ /* */ /* Return: */ /******************************************************************************/ -LM_UINT32 -LM_RegRdInd( -PLM_DEVICE_BLOCK pDevice, -LM_UINT32 Register) { - LM_UINT32 Value32; +LM_UINT32 LM_RegRdInd (PLM_DEVICE_BLOCK pDevice, LM_UINT32 Register) +{ + LM_UINT32 Value32; #if PCIX_TARGET_WORKAROUND - MM_ACQUIRE_UNDI_LOCK(pDevice); + MM_ACQUIRE_UNDI_LOCK (pDevice); #endif - MM_WriteConfig32(pDevice, T3_PCI_REG_ADDR_REG, Register); - MM_ReadConfig32(pDevice, T3_PCI_REG_DATA_REG, &Value32); + MM_WriteConfig32 (pDevice, T3_PCI_REG_ADDR_REG, Register); + MM_ReadConfig32 (pDevice, T3_PCI_REG_DATA_REG, &Value32); #if PCIX_TARGET_WORKAROUND - MM_RELEASE_UNDI_LOCK(pDevice); + MM_RELEASE_UNDI_LOCK (pDevice); #endif - return Value32; -} /* LM_RegRdInd */ - + return Value32; +} /* LM_RegRdInd */ /******************************************************************************/ /* Description: */ @@ -96,47 +97,41 @@ LM_UINT32 Register) { /* Return: */ /******************************************************************************/ LM_VOID -LM_RegWrInd( -PLM_DEVICE_BLOCK pDevice, -LM_UINT32 Register, -LM_UINT32 Value32) { +LM_RegWrInd (PLM_DEVICE_BLOCK pDevice, LM_UINT32 Register, LM_UINT32 Value32) +{ #if PCIX_TARGET_WORKAROUND - MM_ACQUIRE_UNDI_LOCK(pDevice); + MM_ACQUIRE_UNDI_LOCK (pDevice); #endif - MM_WriteConfig32(pDevice, T3_PCI_REG_ADDR_REG, Register); - MM_WriteConfig32(pDevice, T3_PCI_REG_DATA_REG, Value32); + MM_WriteConfig32 (pDevice, T3_PCI_REG_ADDR_REG, Register); + MM_WriteConfig32 (pDevice, T3_PCI_REG_DATA_REG, Value32); #if PCIX_TARGET_WORKAROUND - MM_RELEASE_UNDI_LOCK(pDevice); + MM_RELEASE_UNDI_LOCK (pDevice); #endif -} /* LM_RegWrInd */ - +} /* LM_RegWrInd */ /******************************************************************************/ /* Description: */ /* */ /* Return: */ /******************************************************************************/ -LM_UINT32 -LM_MemRdInd( -PLM_DEVICE_BLOCK pDevice, -LM_UINT32 MemAddr) { - LM_UINT32 Value32; +LM_UINT32 LM_MemRdInd (PLM_DEVICE_BLOCK pDevice, LM_UINT32 MemAddr) +{ + LM_UINT32 Value32; - MM_ACQUIRE_UNDI_LOCK(pDevice); + MM_ACQUIRE_UNDI_LOCK (pDevice); #ifdef BIG_ENDIAN_HOST - MM_WriteConfig32(pDevice, T3_PCI_MEM_WIN_ADDR_REG, MemAddr); - Value32 = REG_RD(pDevice, PciCfg.MemWindowData); - /* Value32 = REG_RD(pDevice,uIntMem.Mbuf[(MemAddr & 0x7fff)/4]); */ + MM_WriteConfig32 (pDevice, T3_PCI_MEM_WIN_ADDR_REG, MemAddr); + Value32 = REG_RD (pDevice, PciCfg.MemWindowData); + /* Value32 = REG_RD(pDevice,uIntMem.Mbuf[(MemAddr & 0x7fff)/4]); */ #else - MM_WriteConfig32(pDevice, T3_PCI_MEM_WIN_ADDR_REG, MemAddr); - MM_ReadConfig32(pDevice, T3_PCI_MEM_WIN_DATA_REG, &Value32); + MM_WriteConfig32 (pDevice, T3_PCI_MEM_WIN_ADDR_REG, MemAddr); + MM_ReadConfig32 (pDevice, T3_PCI_MEM_WIN_DATA_REG, &Value32); #endif - MM_RELEASE_UNDI_LOCK(pDevice); - - return Value32; -} /* LM_MemRdInd */ + MM_RELEASE_UNDI_LOCK (pDevice); + return Value32; +} /* LM_MemRdInd */ /******************************************************************************/ /* Description: */ @@ -144,168 +139,161 @@ LM_UINT32 MemAddr) { /* Return: */ /******************************************************************************/ LM_VOID -LM_MemWrInd( -PLM_DEVICE_BLOCK pDevice, -LM_UINT32 MemAddr, -LM_UINT32 Value32) { - MM_ACQUIRE_UNDI_LOCK(pDevice); +LM_MemWrInd (PLM_DEVICE_BLOCK pDevice, LM_UINT32 MemAddr, LM_UINT32 Value32) +{ + MM_ACQUIRE_UNDI_LOCK (pDevice); #ifdef BIG_ENDIAN_HOST - REG_WR(pDevice,PciCfg.MemWindowBaseAddr,MemAddr); - REG_WR(pDevice,uIntMem.Mbuf[(MemAddr & 0x7fff)/4],Value32); + REG_WR (pDevice, PciCfg.MemWindowBaseAddr, MemAddr); + REG_WR (pDevice, uIntMem.Mbuf[(MemAddr & 0x7fff) / 4], Value32); #else - MM_WriteConfig32(pDevice, T3_PCI_MEM_WIN_ADDR_REG, MemAddr); - MM_WriteConfig32(pDevice, T3_PCI_MEM_WIN_DATA_REG, Value32); + MM_WriteConfig32 (pDevice, T3_PCI_MEM_WIN_ADDR_REG, MemAddr); + MM_WriteConfig32 (pDevice, T3_PCI_MEM_WIN_DATA_REG, Value32); #endif - MM_RELEASE_UNDI_LOCK(pDevice); -} /* LM_MemWrInd */ - + MM_RELEASE_UNDI_LOCK (pDevice); +} /* LM_MemWrInd */ /******************************************************************************/ /* Description: */ /* */ /* Return: */ /******************************************************************************/ -LM_STATUS -LM_QueueRxPackets( -PLM_DEVICE_BLOCK pDevice) { - LM_STATUS Lmstatus; - PLM_PACKET pPacket; - PT3_RCV_BD pRcvBd; - LM_UINT32 StdBdAdded = 0; +LM_STATUS LM_QueueRxPackets (PLM_DEVICE_BLOCK pDevice) +{ + LM_STATUS Lmstatus; + PLM_PACKET pPacket; + PT3_RCV_BD pRcvBd; + LM_UINT32 StdBdAdded = 0; #if T3_JUMBO_RCV_RCB_ENTRY_COUNT - LM_UINT32 JumboBdAdded = 0; -#endif /* T3_JUMBO_RCV_RCB_ENTRY_COUNT */ + LM_UINT32 JumboBdAdded = 0; +#endif /* T3_JUMBO_RCV_RCB_ENTRY_COUNT */ - Lmstatus = LM_STATUS_SUCCESS; + Lmstatus = LM_STATUS_SUCCESS; - pPacket = (PLM_PACKET) QQ_PopHead(&pDevice->RxPacketFreeQ.Container); - while(pPacket) { - switch(pPacket->u.Rx.RcvProdRing) { + pPacket = (PLM_PACKET) QQ_PopHead (&pDevice->RxPacketFreeQ.Container); + while (pPacket) { + switch (pPacket->u.Rx.RcvProdRing) { #if T3_JUMBO_RCV_RCB_ENTRY_COUNT - case T3_JUMBO_RCV_PROD_RING: /* Jumbo Receive Ring. */ - /* Initialize the buffer descriptor. */ - pRcvBd = - &pDevice->pRxJumboBdVirt[pDevice->RxJumboProdIdx]; - pRcvBd->Flags = RCV_BD_FLAG_END | RCV_BD_FLAG_JUMBO_RING; - pRcvBd->Len = (LM_UINT16) pDevice->RxJumboBufferSize; - - /* Initialize the receive buffer pointer */ -#if 0 /* Jimmy, deleted in new */ - pRcvBd->HostAddr.Low = pPacket->u.Rx.RxBufferPhy.Low; - pRcvBd->HostAddr.High = pPacket->u.Rx.RxBufferPhy.High; + case T3_JUMBO_RCV_PROD_RING: /* Jumbo Receive Ring. */ + /* Initialize the buffer descriptor. */ + pRcvBd = + &pDevice->pRxJumboBdVirt[pDevice->RxJumboProdIdx]; + pRcvBd->Flags = + RCV_BD_FLAG_END | RCV_BD_FLAG_JUMBO_RING; + pRcvBd->Len = (LM_UINT16) pDevice->RxJumboBufferSize; + + /* Initialize the receive buffer pointer */ +#if 0 /* Jimmy, deleted in new */ + pRcvBd->HostAddr.Low = pPacket->u.Rx.RxBufferPhy.Low; + pRcvBd->HostAddr.High = pPacket->u.Rx.RxBufferPhy.High; #endif - MM_MapRxDma(pDevice, pPacket, &pRcvBd->HostAddr); + MM_MapRxDma (pDevice, pPacket, &pRcvBd->HostAddr); - /* The opaque field may point to an offset from a fix addr. */ - pRcvBd->Opaque = (LM_UINT32) (MM_UINT_PTR(pPacket) - - MM_UINT_PTR(pDevice->pPacketDescBase)); + /* The opaque field may point to an offset from a fix addr. */ + pRcvBd->Opaque = (LM_UINT32) (MM_UINT_PTR (pPacket) - + MM_UINT_PTR (pDevice-> + pPacketDescBase)); - /* Update the producer index. */ - pDevice->RxJumboProdIdx = (pDevice->RxJumboProdIdx + 1) & - T3_JUMBO_RCV_RCB_ENTRY_COUNT_MASK; + /* Update the producer index. */ + pDevice->RxJumboProdIdx = + (pDevice->RxJumboProdIdx + + 1) & T3_JUMBO_RCV_RCB_ENTRY_COUNT_MASK; - JumboBdAdded++; - break; -#endif /* T3_JUMBO_RCV_RCB_ENTRY_COUNT */ - - case T3_STD_RCV_PROD_RING: /* Standard Receive Ring. */ - /* Initialize the buffer descriptor. */ - pRcvBd = &pDevice->pRxStdBdVirt[pDevice->RxStdProdIdx]; - pRcvBd->Flags = RCV_BD_FLAG_END; - pRcvBd->Len = MAX_STD_RCV_BUFFER_SIZE; - - /* Initialize the receive buffer pointer */ -#if 0 /* Jimmy, deleted in new replaced with MM_MapRxDma */ - pRcvBd->HostAddr.Low = pPacket->u.Rx.RxBufferPhy.Low; - pRcvBd->HostAddr.High = pPacket->u.Rx.RxBufferPhy.High; + JumboBdAdded++; + break; +#endif /* T3_JUMBO_RCV_RCB_ENTRY_COUNT */ + + case T3_STD_RCV_PROD_RING: /* Standard Receive Ring. */ + /* Initialize the buffer descriptor. */ + pRcvBd = &pDevice->pRxStdBdVirt[pDevice->RxStdProdIdx]; + pRcvBd->Flags = RCV_BD_FLAG_END; + pRcvBd->Len = MAX_STD_RCV_BUFFER_SIZE; + + /* Initialize the receive buffer pointer */ +#if 0 /* Jimmy, deleted in new replaced with MM_MapRxDma */ + pRcvBd->HostAddr.Low = pPacket->u.Rx.RxBufferPhy.Low; + pRcvBd->HostAddr.High = pPacket->u.Rx.RxBufferPhy.High; #endif - MM_MapRxDma(pDevice, pPacket, &pRcvBd->HostAddr); + MM_MapRxDma (pDevice, pPacket, &pRcvBd->HostAddr); - /* The opaque field may point to an offset from a fix addr. */ - pRcvBd->Opaque = (LM_UINT32) (MM_UINT_PTR(pPacket) - - MM_UINT_PTR(pDevice->pPacketDescBase)); + /* The opaque field may point to an offset from a fix addr. */ + pRcvBd->Opaque = (LM_UINT32) (MM_UINT_PTR (pPacket) - + MM_UINT_PTR (pDevice-> + pPacketDescBase)); - /* Update the producer index. */ - pDevice->RxStdProdIdx = (pDevice->RxStdProdIdx + 1) & - T3_STD_RCV_RCB_ENTRY_COUNT_MASK; + /* Update the producer index. */ + pDevice->RxStdProdIdx = (pDevice->RxStdProdIdx + 1) & + T3_STD_RCV_RCB_ENTRY_COUNT_MASK; - StdBdAdded++; - break; + StdBdAdded++; + break; - case T3_UNKNOWN_RCV_PROD_RING: - default: - Lmstatus = LM_STATUS_FAILURE; - break; - } /* switch */ + case T3_UNKNOWN_RCV_PROD_RING: + default: + Lmstatus = LM_STATUS_FAILURE; + break; + } /* switch */ - /* Bail out if there is any error. */ - if(Lmstatus != LM_STATUS_SUCCESS) - { - break; - } + /* Bail out if there is any error. */ + if (Lmstatus != LM_STATUS_SUCCESS) { + break; + } - pPacket = (PLM_PACKET) QQ_PopHead(&pDevice->RxPacketFreeQ.Container); - } /* while */ + pPacket = + (PLM_PACKET) QQ_PopHead (&pDevice->RxPacketFreeQ.Container); + } /* while */ - wmb(); - /* Update the procedure index. */ - if(StdBdAdded) - { - MB_REG_WR(pDevice, Mailbox.RcvStdProdIdx.Low, pDevice->RxStdProdIdx); - } + wmb (); + /* Update the procedure index. */ + if (StdBdAdded) { + MB_REG_WR (pDevice, Mailbox.RcvStdProdIdx.Low, + pDevice->RxStdProdIdx); + } #if T3_JUMBO_RCV_RCB_ENTRY_COUNT - if(JumboBdAdded) - { - MB_REG_WR(pDevice, Mailbox.RcvJumboProdIdx.Low, - pDevice->RxJumboProdIdx); - } -#endif /* T3_JUMBO_RCV_RCB_ENTRY_COUNT */ - - return Lmstatus; -} /* LM_QueueRxPackets */ + if (JumboBdAdded) { + MB_REG_WR (pDevice, Mailbox.RcvJumboProdIdx.Low, + pDevice->RxJumboProdIdx); + } +#endif /* T3_JUMBO_RCV_RCB_ENTRY_COUNT */ + return Lmstatus; +} /* LM_QueueRxPackets */ /******************************************************************************/ /* Description: */ /* */ /* Return: */ /******************************************************************************/ -STATIC LM_VOID -LM_NvramInit( - PLM_DEVICE_BLOCK pDevice) +STATIC LM_VOID LM_NvramInit (PLM_DEVICE_BLOCK pDevice) { - LM_UINT32 Value32; - LM_UINT32 j; - - /* Intialize clock period and state machine. */ - Value32 = SEEPROM_ADDR_CLK_PERD(SEEPROM_CLOCK_PERIOD) | - SEEPROM_ADDR_FSM_RESET; - REG_WR(pDevice, Grc.EepromAddr, Value32); - - for(j = 0; j < 100; j++) - { - MM_Wait(10); - } - - /* Serial eeprom access using the Grc.EepromAddr/EepromData registers. */ - Value32 = REG_RD(pDevice, Grc.LocalCtrl); - REG_WR(pDevice, Grc.LocalCtrl, Value32 | GRC_MISC_LOCAL_CTRL_AUTO_SEEPROM); - - /* Set the 5701 compatibility mode if we are using EEPROM. */ - if(T3_ASIC_REV(pDevice->ChipRevId) != T3_ASIC_REV_5700 && - T3_ASIC_REV(pDevice->ChipRevId) != T3_ASIC_REV_5701) - { - Value32 = REG_RD(pDevice, Nvram.Config1); - if((Value32 & FLASH_INTERFACE_ENABLE) == 0) - { - /* Use the new interface to read EEPROM. */ - Value32 &= ~FLASH_COMPAT_BYPASS; + LM_UINT32 Value32; + LM_UINT32 j; + + /* Intialize clock period and state machine. */ + Value32 = SEEPROM_ADDR_CLK_PERD (SEEPROM_CLOCK_PERIOD) | + SEEPROM_ADDR_FSM_RESET; + REG_WR (pDevice, Grc.EepromAddr, Value32); - REG_WR(pDevice, Nvram.Config1, Value32); + for (j = 0; j < 100; j++) { + MM_Wait (10); } - } -} /* LM_NvRamInit */ + /* Serial eeprom access using the Grc.EepromAddr/EepromData registers. */ + Value32 = REG_RD (pDevice, Grc.LocalCtrl); + REG_WR (pDevice, Grc.LocalCtrl, + Value32 | GRC_MISC_LOCAL_CTRL_AUTO_SEEPROM); + + /* Set the 5701 compatibility mode if we are using EEPROM. */ + if (T3_ASIC_REV (pDevice->ChipRevId) != T3_ASIC_REV_5700 && + T3_ASIC_REV (pDevice->ChipRevId) != T3_ASIC_REV_5701) { + Value32 = REG_RD (pDevice, Nvram.Config1); + if ((Value32 & FLASH_INTERFACE_ENABLE) == 0) { + /* Use the new interface to read EEPROM. */ + Value32 &= ~FLASH_COMPAT_BYPASS; + + REG_WR (pDevice, Nvram.Config1, Value32); + } + } +} /* LM_NvRamInit */ /******************************************************************************/ /* Description: */ @@ -313,51 +301,44 @@ LM_NvramInit( /* Return: */ /******************************************************************************/ STATIC LM_STATUS -LM_EepromRead( - PLM_DEVICE_BLOCK pDevice, - LM_UINT32 Offset, - LM_UINT32 *pData) +LM_EepromRead (PLM_DEVICE_BLOCK pDevice, LM_UINT32 Offset, LM_UINT32 * pData) { - LM_UINT32 Value32; - LM_UINT32 Addr; - LM_UINT32 Dev; - LM_UINT32 j; + LM_UINT32 Value32; + LM_UINT32 Addr; + LM_UINT32 Dev; + LM_UINT32 j; - if(Offset > SEEPROM_CHIP_SIZE) - { - return LM_STATUS_FAILURE; - } + if (Offset > SEEPROM_CHIP_SIZE) { + return LM_STATUS_FAILURE; + } - Dev = Offset / SEEPROM_CHIP_SIZE; - Addr = Offset % SEEPROM_CHIP_SIZE; + Dev = Offset / SEEPROM_CHIP_SIZE; + Addr = Offset % SEEPROM_CHIP_SIZE; - Value32 = REG_RD(pDevice, Grc.EepromAddr); - Value32 &= ~(SEEPROM_ADDR_ADDRESS_MASK | SEEPROM_ADDR_DEV_ID_MASK | - SEEPROM_ADDR_RW_MASK); - REG_WR(pDevice, Grc.EepromAddr, Value32 | SEEPROM_ADDR_DEV_ID(Dev) | - SEEPROM_ADDR_ADDRESS(Addr) | SEEPROM_ADDR_START | SEEPROM_ADDR_READ); + Value32 = REG_RD (pDevice, Grc.EepromAddr); + Value32 &= ~(SEEPROM_ADDR_ADDRESS_MASK | SEEPROM_ADDR_DEV_ID_MASK | + SEEPROM_ADDR_RW_MASK); + REG_WR (pDevice, Grc.EepromAddr, Value32 | SEEPROM_ADDR_DEV_ID (Dev) | + SEEPROM_ADDR_ADDRESS (Addr) | SEEPROM_ADDR_START | + SEEPROM_ADDR_READ); - for(j = 0; j < 1000; j++) - { - Value32 = REG_RD(pDevice, Grc.EepromAddr); - if(Value32 & SEEPROM_ADDR_COMPLETE) - { - break; + for (j = 0; j < 1000; j++) { + Value32 = REG_RD (pDevice, Grc.EepromAddr); + if (Value32 & SEEPROM_ADDR_COMPLETE) { + break; + } + MM_Wait (10); } - MM_Wait(10); - } - if(Value32 & SEEPROM_ADDR_COMPLETE) - { - Value32 = REG_RD(pDevice, Grc.EepromData); - *pData = Value32; + if (Value32 & SEEPROM_ADDR_COMPLETE) { + Value32 = REG_RD (pDevice, Grc.EepromData); + *pData = Value32; - return LM_STATUS_SUCCESS; - } - - return LM_STATUS_FAILURE; -} /* LM_EepromRead */ + return LM_STATUS_SUCCESS; + } + return LM_STATUS_FAILURE; +} /* LM_EepromRead */ /******************************************************************************/ /* Description: */ @@ -365,291 +346,248 @@ LM_EepromRead( /* Return: */ /******************************************************************************/ STATIC LM_STATUS -LM_NvramRead( - PLM_DEVICE_BLOCK pDevice, - LM_UINT32 Offset, - LM_UINT32 *pData) +LM_NvramRead (PLM_DEVICE_BLOCK pDevice, LM_UINT32 Offset, LM_UINT32 * pData) { - LM_UINT32 Value32; - LM_STATUS Status; - LM_UINT32 j; - - if(T3_ASIC_REV(pDevice->ChipRevId) == T3_ASIC_REV_5700 || - T3_ASIC_REV(pDevice->ChipRevId) == T3_ASIC_REV_5701) - { - Status = LM_EepromRead(pDevice, Offset, pData); - } - else - { - /* Determine if we have flash or EEPROM. */ - Value32 = REG_RD(pDevice, Nvram.Config1); - if(Value32 & FLASH_INTERFACE_ENABLE) - { - if(Value32 & FLASH_SSRAM_BUFFERRED_MODE) - { - Offset = ((Offset/BUFFERED_FLASH_PAGE_SIZE) << - BUFFERED_FLASH_PAGE_POS) + - (Offset % BUFFERED_FLASH_PAGE_SIZE); - } - } + LM_UINT32 Value32; + LM_STATUS Status; + LM_UINT32 j; + + if (T3_ASIC_REV (pDevice->ChipRevId) == T3_ASIC_REV_5700 || + T3_ASIC_REV (pDevice->ChipRevId) == T3_ASIC_REV_5701) { + Status = LM_EepromRead (pDevice, Offset, pData); + } else { + /* Determine if we have flash or EEPROM. */ + Value32 = REG_RD (pDevice, Nvram.Config1); + if (Value32 & FLASH_INTERFACE_ENABLE) { + if (Value32 & FLASH_SSRAM_BUFFERRED_MODE) { + Offset = ((Offset / BUFFERED_FLASH_PAGE_SIZE) << + BUFFERED_FLASH_PAGE_POS) + + (Offset % BUFFERED_FLASH_PAGE_SIZE); + } + } - REG_WR(pDevice, Nvram.SwArb, SW_ARB_REQ_SET1); - for (j = 0; j < 1000; j++) - { - if (REG_RD(pDevice, Nvram.SwArb) & SW_ARB_GNT1) - { - break; - } - MM_Wait(20); - } - if (j == 1000) - { - return LM_STATUS_FAILURE; - } + REG_WR (pDevice, Nvram.SwArb, SW_ARB_REQ_SET1); + for (j = 0; j < 1000; j++) { + if (REG_RD (pDevice, Nvram.SwArb) & SW_ARB_GNT1) { + break; + } + MM_Wait (20); + } + if (j == 1000) { + return LM_STATUS_FAILURE; + } - /* Read from flash or EEPROM with the new 5703/02 interface. */ - REG_WR(pDevice, Nvram.Addr, Offset & NVRAM_ADDRESS_MASK); + /* Read from flash or EEPROM with the new 5703/02 interface. */ + REG_WR (pDevice, Nvram.Addr, Offset & NVRAM_ADDRESS_MASK); - REG_WR(pDevice, Nvram.Cmd, NVRAM_CMD_RD | NVRAM_CMD_DO_IT | - NVRAM_CMD_FIRST | NVRAM_CMD_LAST | NVRAM_CMD_DONE); + REG_WR (pDevice, Nvram.Cmd, NVRAM_CMD_RD | NVRAM_CMD_DO_IT | + NVRAM_CMD_FIRST | NVRAM_CMD_LAST | NVRAM_CMD_DONE); - /* Wait for the done bit to clear. */ - for(j = 0; j < 500; j++) - { - MM_Wait(10); + /* Wait for the done bit to clear. */ + for (j = 0; j < 500; j++) { + MM_Wait (10); - Value32 = REG_RD(pDevice, Nvram.Cmd); - if(!(Value32 & NVRAM_CMD_DONE)) - { - break; - } - } + Value32 = REG_RD (pDevice, Nvram.Cmd); + if (!(Value32 & NVRAM_CMD_DONE)) { + break; + } + } - /* Wait for the done bit. */ - if(!(Value32 & NVRAM_CMD_DONE)) - { - for(j = 0; j < 500; j++) - { - MM_Wait(10); + /* Wait for the done bit. */ + if (!(Value32 & NVRAM_CMD_DONE)) { + for (j = 0; j < 500; j++) { + MM_Wait (10); - Value32 = REG_RD(pDevice, Nvram.Cmd); - if(Value32 & NVRAM_CMD_DONE) - { - MM_Wait(10); + Value32 = REG_RD (pDevice, Nvram.Cmd); + if (Value32 & NVRAM_CMD_DONE) { + MM_Wait (10); - *pData = REG_RD(pDevice, Nvram.ReadData); + *pData = + REG_RD (pDevice, Nvram.ReadData); - /* Change the endianess. */ - *pData = ((*pData & 0xff) << 24)| ((*pData & 0xff00) << 8)| - ((*pData & 0xff0000) >> 8) | ((*pData >> 24) & 0xff); + /* Change the endianess. */ + *pData = + ((*pData & 0xff) << 24) | + ((*pData & 0xff00) << 8) | + ((*pData & 0xff0000) >> 8) | + ((*pData >> 24) & 0xff); - break; + break; + } + } } - } - } - REG_WR(pDevice, Nvram.SwArb, SW_ARB_REQ_CLR1); - if(Value32 & NVRAM_CMD_DONE) - { - Status = LM_STATUS_SUCCESS; - } - else - { - Status = LM_STATUS_FAILURE; + REG_WR (pDevice, Nvram.SwArb, SW_ARB_REQ_CLR1); + if (Value32 & NVRAM_CMD_DONE) { + Status = LM_STATUS_SUCCESS; + } else { + Status = LM_STATUS_FAILURE; + } } - } - - return Status; -} /* LM_NvramRead */ + return Status; +} /* LM_NvramRead */ -STATIC void -LM_ReadVPD(PLM_DEVICE_BLOCK pDevice) +STATIC void LM_ReadVPD (PLM_DEVICE_BLOCK pDevice) { - LM_UINT32 Vpd_arr[256/4]; - LM_UINT8 *Vpd = (LM_UINT8 *) &Vpd_arr[0]; - LM_UINT32 *Vpd_dptr = &Vpd_arr[0]; - LM_UINT32 Value32; - unsigned int j; - - /* Read PN from VPD */ - for (j = 0; j < 256; j += 4, Vpd_dptr++ ) - { - if (LM_NvramRead(pDevice, 0x100 + j, &Value32) != LM_STATUS_SUCCESS) { - printf("BCM570x: LM_ReadVPD: VPD read failed" - " (no EEPROM onboard)\n"); - return; - } - *Vpd_dptr = cpu_to_le32(Value32); - } - for (j = 0; j < 256; ) - { - unsigned int Vpd_r_len; - unsigned int Vpd_r_end; - - if ((Vpd[j] == 0x82) || (Vpd[j] == 0x91)) - { - j = j + 3 + Vpd[j + 1] + (Vpd[j + 2] << 8); - } - else if (Vpd[j] == 0x90) - { - Vpd_r_len = Vpd[j + 1] + (Vpd[j + 2] << 8); - j += 3; - Vpd_r_end = Vpd_r_len + j; - while (j < Vpd_r_end) - { - if ((Vpd[j] == 'P') && (Vpd[j + 1] == 'N')) - { - unsigned int len = Vpd[j + 2]; - - if (len <= 24) - { - memcpy(pDevice->PartNo, &Vpd[j + 3], len); - } - break; + LM_UINT32 Vpd_arr[256 / 4]; + LM_UINT8 *Vpd = (LM_UINT8 *) & Vpd_arr[0]; + LM_UINT32 *Vpd_dptr = &Vpd_arr[0]; + LM_UINT32 Value32; + unsigned int j; + + /* Read PN from VPD */ + for (j = 0; j < 256; j += 4, Vpd_dptr++) { + if (LM_NvramRead (pDevice, 0x100 + j, &Value32) != + LM_STATUS_SUCCESS) { + printf ("BCM570x: LM_ReadVPD: VPD read failed" + " (no EEPROM onboard)\n"); + return; } - else - { - if (Vpd[j + 2] == 0) - { + *Vpd_dptr = cpu_to_le32 (Value32); + } + for (j = 0; j < 256;) { + unsigned int Vpd_r_len; + unsigned int Vpd_r_end; + + if ((Vpd[j] == 0x82) || (Vpd[j] == 0x91)) { + j = j + 3 + Vpd[j + 1] + (Vpd[j + 2] << 8); + } else if (Vpd[j] == 0x90) { + Vpd_r_len = Vpd[j + 1] + (Vpd[j + 2] << 8); + j += 3; + Vpd_r_end = Vpd_r_len + j; + while (j < Vpd_r_end) { + if ((Vpd[j] == 'P') && (Vpd[j + 1] == 'N')) { + unsigned int len = Vpd[j + 2]; + + if (len <= 24) { + memcpy (pDevice->PartNo, + &Vpd[j + 3], len); + } + break; + } else { + if (Vpd[j + 2] == 0) { + break; + } + j = j + Vpd[j + 2]; + } + } + break; + } else { break; - } - j = j + Vpd[j + 2]; } - } - break; } - else { - break; - } - } } -STATIC void -LM_ReadBootCodeVersion(PLM_DEVICE_BLOCK pDevice) +STATIC void LM_ReadBootCodeVersion (PLM_DEVICE_BLOCK pDevice) { - LM_UINT32 Value32, offset, ver_offset; - int i; - - if (LM_NvramRead(pDevice, 0x0, &Value32) != LM_STATUS_SUCCESS) - return; - if (Value32 != 0xaa559966) - return; - if (LM_NvramRead(pDevice, 0xc, &offset) != LM_STATUS_SUCCESS) - return; - - offset = ((offset & 0xff) << 24)| ((offset & 0xff00) << 8)| - ((offset & 0xff0000) >> 8) | ((offset >> 24) & 0xff); - if (LM_NvramRead(pDevice, offset, &Value32) != LM_STATUS_SUCCESS) - return; - if ((Value32 == 0x0300000e) && - (LM_NvramRead(pDevice, offset + 4, &Value32) == LM_STATUS_SUCCESS) && - (Value32 == 0)) { - - if (LM_NvramRead(pDevice, offset + 8, &ver_offset) != LM_STATUS_SUCCESS) - return; - ver_offset = ((ver_offset & 0xff0000) >> 8) | - ((ver_offset >> 24) & 0xff); - for (i = 0; i < 16; i += 4) { - if (LM_NvramRead(pDevice, offset + ver_offset + i, &Value32) != - LM_STATUS_SUCCESS) - { + LM_UINT32 Value32, offset, ver_offset; + int i; + + if (LM_NvramRead (pDevice, 0x0, &Value32) != LM_STATUS_SUCCESS) + return; + if (Value32 != 0xaa559966) + return; + if (LM_NvramRead (pDevice, 0xc, &offset) != LM_STATUS_SUCCESS) return; - } - *((LM_UINT32 *) &pDevice->BootCodeVer[i]) = cpu_to_le32(Value32); - } - } - else { - char c; - if (LM_NvramRead(pDevice, 0x94, &Value32) != LM_STATUS_SUCCESS) - return; + offset = ((offset & 0xff) << 24) | ((offset & 0xff00) << 8) | + ((offset & 0xff0000) >> 8) | ((offset >> 24) & 0xff); + if (LM_NvramRead (pDevice, offset, &Value32) != LM_STATUS_SUCCESS) + return; + if ((Value32 == 0x0300000e) && + (LM_NvramRead (pDevice, offset + 4, &Value32) == LM_STATUS_SUCCESS) + && (Value32 == 0)) { + + if (LM_NvramRead (pDevice, offset + 8, &ver_offset) != + LM_STATUS_SUCCESS) + return; + ver_offset = ((ver_offset & 0xff0000) >> 8) | + ((ver_offset >> 24) & 0xff); + for (i = 0; i < 16; i += 4) { + if (LM_NvramRead + (pDevice, offset + ver_offset + i, + &Value32) != LM_STATUS_SUCCESS) { + return; + } + *((LM_UINT32 *) & pDevice->BootCodeVer[i]) = + cpu_to_le32 (Value32); + } + } else { + char c; - i = 0; - c = ((Value32 & 0xff0000) >> 16); + if (LM_NvramRead (pDevice, 0x94, &Value32) != LM_STATUS_SUCCESS) + return; - if (c < 10) { - pDevice->BootCodeVer[i++] = c + '0'; - } - else { - pDevice->BootCodeVer[i++] = (c / 10) + '0'; - pDevice->BootCodeVer[i++] = (c % 10) + '0'; - } - pDevice->BootCodeVer[i++] = '.'; - c = (Value32 & 0xff000000) >> 24; - if (c < 10) { - pDevice->BootCodeVer[i++] = c + '0'; - } - else { - pDevice->BootCodeVer[i++] = (c / 10) + '0'; - pDevice->BootCodeVer[i++] = (c % 10) + '0'; + i = 0; + c = ((Value32 & 0xff0000) >> 16); + + if (c < 10) { + pDevice->BootCodeVer[i++] = c + '0'; + } else { + pDevice->BootCodeVer[i++] = (c / 10) + '0'; + pDevice->BootCodeVer[i++] = (c % 10) + '0'; + } + pDevice->BootCodeVer[i++] = '.'; + c = (Value32 & 0xff000000) >> 24; + if (c < 10) { + pDevice->BootCodeVer[i++] = c + '0'; + } else { + pDevice->BootCodeVer[i++] = (c / 10) + '0'; + pDevice->BootCodeVer[i++] = (c % 10) + '0'; + } + pDevice->BootCodeVer[i] = 0; } - pDevice->BootCodeVer[i] = 0; - } } -STATIC void -LM_GetBusSpeed(PLM_DEVICE_BLOCK pDevice) +STATIC void LM_GetBusSpeed (PLM_DEVICE_BLOCK pDevice) { - LM_UINT32 PciState = pDevice->PciState; - LM_UINT32 ClockCtrl; - char *SpeedStr = ""; - - if (PciState & T3_PCI_STATE_32BIT_PCI_BUS) - { - strcpy(pDevice->BusSpeedStr, "32-bit "); - } - else - { - strcpy(pDevice->BusSpeedStr, "64-bit "); - } - if (PciState & T3_PCI_STATE_CONVENTIONAL_PCI_MODE) - { - strcat(pDevice->BusSpeedStr, "PCI "); - if (PciState & T3_PCI_STATE_HIGH_BUS_SPEED) - { - SpeedStr = "66MHz"; - } - else - { - SpeedStr = "33MHz"; - } - } - else - { - strcat(pDevice->BusSpeedStr, "PCIX "); - if (pDevice->BondId == GRC_MISC_BD_ID_5704CIOBE) - { - SpeedStr = "133MHz"; - } - else - { - ClockCtrl = REG_RD(pDevice, PciCfg.ClockCtrl) & 0x1f; - switch (ClockCtrl) - { - case 0: - SpeedStr = "33MHz"; - break; - - case 2: - SpeedStr = "50MHz"; - break; - - case 4: - SpeedStr = "66MHz"; - break; - - case 6: - SpeedStr = "100MHz"; - break; - - case 7: - SpeedStr = "133MHz"; - break; - } + LM_UINT32 PciState = pDevice->PciState; + LM_UINT32 ClockCtrl; + char *SpeedStr = ""; + + if (PciState & T3_PCI_STATE_32BIT_PCI_BUS) { + strcpy (pDevice->BusSpeedStr, "32-bit "); + } else { + strcpy (pDevice->BusSpeedStr, "64-bit "); + } + if (PciState & T3_PCI_STATE_CONVENTIONAL_PCI_MODE) { + strcat (pDevice->BusSpeedStr, "PCI "); + if (PciState & T3_PCI_STATE_HIGH_BUS_SPEED) { + SpeedStr = "66MHz"; + } else { + SpeedStr = "33MHz"; + } + } else { + strcat (pDevice->BusSpeedStr, "PCIX "); + if (pDevice->BondId == GRC_MISC_BD_ID_5704CIOBE) { + SpeedStr = "133MHz"; + } else { + ClockCtrl = REG_RD (pDevice, PciCfg.ClockCtrl) & 0x1f; + switch (ClockCtrl) { + case 0: + SpeedStr = "33MHz"; + break; + + case 2: + SpeedStr = "50MHz"; + break; + + case 4: + SpeedStr = "66MHz"; + break; + + case 6: + SpeedStr = "100MHz"; + break; + + case 7: + SpeedStr = "133MHz"; + break; + } + } } - } - strcat(pDevice->BusSpeedStr, SpeedStr); + strcat (pDevice->BusSpeedStr, SpeedStr); } /******************************************************************************/ @@ -660,977 +598,890 @@ LM_GetBusSpeed(PLM_DEVICE_BLOCK pDevice) /* Return: */ /* LM_STATUS_SUCCESS */ /******************************************************************************/ -LM_STATUS -LM_GetAdapterInfo( -PLM_DEVICE_BLOCK pDevice) +LM_STATUS LM_GetAdapterInfo (PLM_DEVICE_BLOCK pDevice) { - PLM_ADAPTER_INFO pAdapterInfo; - LM_UINT32 Value32; - LM_STATUS Status; - LM_UINT32 j; - LM_UINT32 EeSigFound; - LM_UINT32 EePhyTypeSerdes = 0; - LM_UINT32 EePhyLedMode = 0; - LM_UINT32 EePhyId = 0; - - /* Get Device Id and Vendor Id */ - Status = MM_ReadConfig32(pDevice, PCI_VENDOR_ID_REG, &Value32); - if(Status != LM_STATUS_SUCCESS) - { - return Status; - } - pDevice->PciVendorId = (LM_UINT16) Value32; - pDevice->PciDeviceId = (LM_UINT16) (Value32 >> 16); - - /* If we are not getting the write adapter, exit. */ - if((Value32 != T3_PCI_ID_BCM5700) && - (Value32 != T3_PCI_ID_BCM5701) && - (Value32 != T3_PCI_ID_BCM5702) && - (Value32 != T3_PCI_ID_BCM5702x) && - (Value32 != T3_PCI_ID_BCM5702FE) && - (Value32 != T3_PCI_ID_BCM5703) && - (Value32 != T3_PCI_ID_BCM5703x) && - (Value32 != T3_PCI_ID_BCM5704)) - { - return LM_STATUS_FAILURE; - } + PLM_ADAPTER_INFO pAdapterInfo; + LM_UINT32 Value32; + LM_STATUS Status; + LM_UINT32 j; + LM_UINT32 EeSigFound; + LM_UINT32 EePhyTypeSerdes = 0; + LM_UINT32 EePhyLedMode = 0; + LM_UINT32 EePhyId = 0; + + /* Get Device Id and Vendor Id */ + Status = MM_ReadConfig32 (pDevice, PCI_VENDOR_ID_REG, &Value32); + if (Status != LM_STATUS_SUCCESS) { + return Status; + } + pDevice->PciVendorId = (LM_UINT16) Value32; + pDevice->PciDeviceId = (LM_UINT16) (Value32 >> 16); + + /* If we are not getting the write adapter, exit. */ + if ((Value32 != T3_PCI_ID_BCM5700) && + (Value32 != T3_PCI_ID_BCM5701) && + (Value32 != T3_PCI_ID_BCM5702) && + (Value32 != T3_PCI_ID_BCM5702x) && + (Value32 != T3_PCI_ID_BCM5702FE) && + (Value32 != T3_PCI_ID_BCM5703) && + (Value32 != T3_PCI_ID_BCM5703x) && (Value32 != T3_PCI_ID_BCM5704)) { + return LM_STATUS_FAILURE; + } - Status = MM_ReadConfig32(pDevice, PCI_REV_ID_REG, &Value32); - if(Status != LM_STATUS_SUCCESS) - { - return Status; - } - pDevice->PciRevId = (LM_UINT8) Value32; + Status = MM_ReadConfig32 (pDevice, PCI_REV_ID_REG, &Value32); + if (Status != LM_STATUS_SUCCESS) { + return Status; + } + pDevice->PciRevId = (LM_UINT8) Value32; - /* Get IRQ. */ - Status = MM_ReadConfig32(pDevice, PCI_INT_LINE_REG, &Value32); - if(Status != LM_STATUS_SUCCESS) - { - return Status; - } - pDevice->Irq = (LM_UINT8) Value32; + /* Get IRQ. */ + Status = MM_ReadConfig32 (pDevice, PCI_INT_LINE_REG, &Value32); + if (Status != LM_STATUS_SUCCESS) { + return Status; + } + pDevice->Irq = (LM_UINT8) Value32; - /* Get interrupt pin. */ - pDevice->IntPin = (LM_UINT8) (Value32 >> 8); + /* Get interrupt pin. */ + pDevice->IntPin = (LM_UINT8) (Value32 >> 8); - /* Get chip revision id. */ - Status = MM_ReadConfig32(pDevice, T3_PCI_MISC_HOST_CTRL_REG, &Value32); - pDevice->ChipRevId = Value32 >> 16; + /* Get chip revision id. */ + Status = MM_ReadConfig32 (pDevice, T3_PCI_MISC_HOST_CTRL_REG, &Value32); + pDevice->ChipRevId = Value32 >> 16; - /* Get subsystem vendor. */ - Status = MM_ReadConfig32(pDevice, PCI_SUBSYSTEM_VENDOR_ID_REG, &Value32); - if(Status != LM_STATUS_SUCCESS) - { - return Status; - } - pDevice->SubsystemVendorId = (LM_UINT16) Value32; + /* Get subsystem vendor. */ + Status = + MM_ReadConfig32 (pDevice, PCI_SUBSYSTEM_VENDOR_ID_REG, &Value32); + if (Status != LM_STATUS_SUCCESS) { + return Status; + } + pDevice->SubsystemVendorId = (LM_UINT16) Value32; - /* Get PCI subsystem id. */ - pDevice->SubsystemId = (LM_UINT16) (Value32 >> 16); + /* Get PCI subsystem id. */ + pDevice->SubsystemId = (LM_UINT16) (Value32 >> 16); - /* Get the cache line size. */ - MM_ReadConfig32(pDevice, PCI_CACHE_LINE_SIZE_REG, &Value32); - pDevice->CacheLineSize = (LM_UINT8) Value32; - pDevice->SavedCacheLineReg = Value32; + /* Get the cache line size. */ + MM_ReadConfig32 (pDevice, PCI_CACHE_LINE_SIZE_REG, &Value32); + pDevice->CacheLineSize = (LM_UINT8) Value32; + pDevice->SavedCacheLineReg = Value32; - if(pDevice->ChipRevId != T3_CHIP_ID_5703_A1 && - pDevice->ChipRevId != T3_CHIP_ID_5703_A2 && - pDevice->ChipRevId != T3_CHIP_ID_5704_A0) - { - pDevice->UndiFix = FALSE; - } + if (pDevice->ChipRevId != T3_CHIP_ID_5703_A1 && + pDevice->ChipRevId != T3_CHIP_ID_5703_A2 && + pDevice->ChipRevId != T3_CHIP_ID_5704_A0) { + pDevice->UndiFix = FALSE; + } #if !PCIX_TARGET_WORKAROUND - pDevice->UndiFix = FALSE; + pDevice->UndiFix = FALSE; #endif - /* Map the memory base to system address space. */ - if (!pDevice->UndiFix) - { - Status = MM_MapMemBase(pDevice); - if(Status != LM_STATUS_SUCCESS) - { - return Status; + /* Map the memory base to system address space. */ + if (!pDevice->UndiFix) { + Status = MM_MapMemBase (pDevice); + if (Status != LM_STATUS_SUCCESS) { + return Status; + } + /* Initialize the memory view pointer. */ + pDevice->pMemView = (PT3_STD_MEM_MAP) pDevice->pMappedMemBase; } - /* Initialize the memory view pointer. */ - pDevice->pMemView = (PT3_STD_MEM_MAP) pDevice->pMappedMemBase; - } - #if PCIX_TARGET_WORKAROUND - /* store whether we are in PCI are PCI-X mode */ - pDevice->EnablePciXFix = FALSE; - - MM_ReadConfig32(pDevice, T3_PCI_STATE_REG, &Value32); - if((Value32 & T3_PCI_STATE_CONVENTIONAL_PCI_MODE) == 0) - { - /* Enable PCI-X workaround only if we are running on 5700 BX. */ - if(T3_CHIP_REV(pDevice->ChipRevId) == T3_CHIP_REV_5700_BX) - { - pDevice->EnablePciXFix = TRUE; + /* store whether we are in PCI are PCI-X mode */ + pDevice->EnablePciXFix = FALSE; + + MM_ReadConfig32 (pDevice, T3_PCI_STATE_REG, &Value32); + if ((Value32 & T3_PCI_STATE_CONVENTIONAL_PCI_MODE) == 0) { + /* Enable PCI-X workaround only if we are running on 5700 BX. */ + if (T3_CHIP_REV (pDevice->ChipRevId) == T3_CHIP_REV_5700_BX) { + pDevice->EnablePciXFix = TRUE; + } + } + if (pDevice->UndiFix) { + pDevice->EnablePciXFix = TRUE; } - } - if (pDevice->UndiFix) - { - pDevice->EnablePciXFix = TRUE; - } #endif - /* Bx bug: due to the "byte_enable bug" in PCI-X mode, the power */ - /* management register may be clobbered which may cause the */ - /* BCM5700 to go into D3 state. While in this state, we will */ - /* not have memory mapped register access. As a workaround, we */ - /* need to restore the device to D0 state. */ - MM_ReadConfig32(pDevice, T3_PCI_PM_STATUS_CTRL_REG, &Value32); - Value32 |= T3_PM_PME_ASSERTED; - Value32 &= ~T3_PM_POWER_STATE_MASK; - Value32 |= T3_PM_POWER_STATE_D0; - MM_WriteConfig32(pDevice, T3_PCI_PM_STATUS_CTRL_REG, Value32); - - /* read the current PCI command word */ - MM_ReadConfig32(pDevice, PCI_COMMAND_REG, &Value32); - - /* Make sure bus-mastering is enabled. */ - Value32 |= PCI_BUSMASTER_ENABLE; + /* Bx bug: due to the "byte_enable bug" in PCI-X mode, the power */ + /* management register may be clobbered which may cause the */ + /* BCM5700 to go into D3 state. While in this state, we will */ + /* not have memory mapped register access. As a workaround, we */ + /* need to restore the device to D0 state. */ + MM_ReadConfig32 (pDevice, T3_PCI_PM_STATUS_CTRL_REG, &Value32); + Value32 |= T3_PM_PME_ASSERTED; + Value32 &= ~T3_PM_POWER_STATE_MASK; + Value32 |= T3_PM_POWER_STATE_D0; + MM_WriteConfig32 (pDevice, T3_PCI_PM_STATUS_CTRL_REG, Value32); + + /* read the current PCI command word */ + MM_ReadConfig32 (pDevice, PCI_COMMAND_REG, &Value32); + + /* Make sure bus-mastering is enabled. */ + Value32 |= PCI_BUSMASTER_ENABLE; #if PCIX_TARGET_WORKAROUND - /* if we are in PCI-X mode, also make sure mem-mapping and SERR#/PERR# - are enabled */ - if (pDevice->EnablePciXFix == TRUE) { - Value32 |= (PCI_MEM_SPACE_ENABLE | PCI_SYSTEM_ERROR_ENABLE | - PCI_PARITY_ERROR_ENABLE); - } - if (pDevice->UndiFix) - { - Value32 &= ~PCI_MEM_SPACE_ENABLE; - } - + /* if we are in PCI-X mode, also make sure mem-mapping and SERR#/PERR# + are enabled */ + if (pDevice->EnablePciXFix == TRUE) { + Value32 |= (PCI_MEM_SPACE_ENABLE | PCI_SYSTEM_ERROR_ENABLE | + PCI_PARITY_ERROR_ENABLE); + } + if (pDevice->UndiFix) { + Value32 &= ~PCI_MEM_SPACE_ENABLE; + } #endif - if(pDevice->EnableMWI) - { - Value32 |= PCI_MEMORY_WRITE_INVALIDATE; - } - else { - Value32 &= (~PCI_MEMORY_WRITE_INVALIDATE); - } - - /* Error out if mem-mapping is NOT enabled for PCI systems */ - if (!(Value32 | PCI_MEM_SPACE_ENABLE)) - { - return LM_STATUS_FAILURE; - } + if (pDevice->EnableMWI) { + Value32 |= PCI_MEMORY_WRITE_INVALIDATE; + } else { + Value32 &= (~PCI_MEMORY_WRITE_INVALIDATE); + } - /* save the value we are going to write into the PCI command word */ - pDevice->PciCommandStatusWords = Value32; + /* Error out if mem-mapping is NOT enabled for PCI systems */ + if (!(Value32 | PCI_MEM_SPACE_ENABLE)) { + return LM_STATUS_FAILURE; + } - Status = MM_WriteConfig32(pDevice, PCI_COMMAND_REG, Value32); - if(Status != LM_STATUS_SUCCESS) - { - return Status; - } + /* save the value we are going to write into the PCI command word */ + pDevice->PciCommandStatusWords = Value32; + + Status = MM_WriteConfig32 (pDevice, PCI_COMMAND_REG, Value32); + if (Status != LM_STATUS_SUCCESS) { + return Status; + } - /* Set power state to D0. */ - LM_SetPowerState(pDevice, LM_POWER_STATE_D0); + /* Set power state to D0. */ + LM_SetPowerState (pDevice, LM_POWER_STATE_D0); #ifdef BIG_ENDIAN_PCI - pDevice->MiscHostCtrl = - MISC_HOST_CTRL_MASK_PCI_INT | - MISC_HOST_CTRL_ENABLE_INDIRECT_ACCESS | - MISC_HOST_CTRL_ENABLE_ENDIAN_WORD_SWAP | - MISC_HOST_CTRL_ENABLE_PCI_STATE_REG_RW; -#else /* No CPU Swap modes for PCI IO */ - - /* Setup the mode registers. */ - pDevice->MiscHostCtrl = - MISC_HOST_CTRL_MASK_PCI_INT | - MISC_HOST_CTRL_ENABLE_ENDIAN_WORD_SWAP | + pDevice->MiscHostCtrl = + MISC_HOST_CTRL_MASK_PCI_INT | + MISC_HOST_CTRL_ENABLE_INDIRECT_ACCESS | + MISC_HOST_CTRL_ENABLE_ENDIAN_WORD_SWAP | + MISC_HOST_CTRL_ENABLE_PCI_STATE_REG_RW; +#else /* No CPU Swap modes for PCI IO */ + + /* Setup the mode registers. */ + pDevice->MiscHostCtrl = + MISC_HOST_CTRL_MASK_PCI_INT | + MISC_HOST_CTRL_ENABLE_ENDIAN_WORD_SWAP | #ifdef BIG_ENDIAN_HOST - MISC_HOST_CTRL_ENABLE_ENDIAN_BYTE_SWAP | -#endif /* BIG_ENDIAN_HOST */ - MISC_HOST_CTRL_ENABLE_INDIRECT_ACCESS | - MISC_HOST_CTRL_ENABLE_PCI_STATE_REG_RW; -#endif /* !BIG_ENDIAN_PCI */ + MISC_HOST_CTRL_ENABLE_ENDIAN_BYTE_SWAP | +#endif /* BIG_ENDIAN_HOST */ + MISC_HOST_CTRL_ENABLE_INDIRECT_ACCESS | + MISC_HOST_CTRL_ENABLE_PCI_STATE_REG_RW; +#endif /* !BIG_ENDIAN_PCI */ - /* write to PCI misc host ctr first in order to enable indirect accesses */ - MM_WriteConfig32(pDevice, T3_PCI_MISC_HOST_CTRL_REG, pDevice->MiscHostCtrl); + /* write to PCI misc host ctr first in order to enable indirect accesses */ + MM_WriteConfig32 (pDevice, T3_PCI_MISC_HOST_CTRL_REG, + pDevice->MiscHostCtrl); - REG_WR(pDevice, PciCfg.MiscHostCtrl, pDevice->MiscHostCtrl); + REG_WR (pDevice, PciCfg.MiscHostCtrl, pDevice->MiscHostCtrl); #ifdef BIG_ENDIAN_PCI - Value32 = GRC_MODE_WORD_SWAP_DATA| - GRC_MODE_WORD_SWAP_NON_FRAME_DATA; + Value32 = GRC_MODE_WORD_SWAP_DATA | GRC_MODE_WORD_SWAP_NON_FRAME_DATA; #else /* No CPU Swap modes for PCI IO */ #ifdef BIG_ENDIAN_HOST - Value32 = GRC_MODE_BYTE_SWAP_NON_FRAME_DATA | - GRC_MODE_WORD_SWAP_NON_FRAME_DATA; + Value32 = GRC_MODE_BYTE_SWAP_NON_FRAME_DATA | + GRC_MODE_WORD_SWAP_NON_FRAME_DATA; #else - Value32 = GRC_MODE_BYTE_SWAP_NON_FRAME_DATA | GRC_MODE_BYTE_SWAP_DATA; + Value32 = GRC_MODE_BYTE_SWAP_NON_FRAME_DATA | GRC_MODE_BYTE_SWAP_DATA; #endif -#endif /* !BIG_ENDIAN_PCI */ - - REG_WR(pDevice, Grc.Mode, Value32); - - if(T3_ASIC_REV(pDevice->ChipRevId) == T3_ASIC_REV_5700) - { - REG_WR(pDevice, Grc.LocalCtrl, GRC_MISC_LOCAL_CTRL_GPIO_OUTPUT1 | - GRC_MISC_LOCAL_CTRL_GPIO_OE1); - } - MM_Wait(40); - - /* Enable indirect memory access */ - REG_WR(pDevice, MemArbiter.Mode, T3_MEM_ARBITER_MODE_ENABLE); - - if (REG_RD(pDevice, PciCfg.ClockCtrl) & T3_PCI_44MHZ_CORE_CLOCK) - { - REG_WR(pDevice, PciCfg.ClockCtrl, T3_PCI_44MHZ_CORE_CLOCK | - T3_PCI_SELECT_ALTERNATE_CLOCK); - REG_WR(pDevice, PciCfg.ClockCtrl, T3_PCI_SELECT_ALTERNATE_CLOCK); - MM_Wait(40); /* required delay is 27usec */ - } - REG_WR(pDevice, PciCfg.ClockCtrl, 0); - REG_WR(pDevice, PciCfg.MemWindowBaseAddr, 0); +#endif /* !BIG_ENDIAN_PCI */ + + REG_WR (pDevice, Grc.Mode, Value32); + + if (T3_ASIC_REV (pDevice->ChipRevId) == T3_ASIC_REV_5700) { + REG_WR (pDevice, Grc.LocalCtrl, + GRC_MISC_LOCAL_CTRL_GPIO_OUTPUT1 | + GRC_MISC_LOCAL_CTRL_GPIO_OE1); + } + MM_Wait (40); + + /* Enable indirect memory access */ + REG_WR (pDevice, MemArbiter.Mode, T3_MEM_ARBITER_MODE_ENABLE); + + if (REG_RD (pDevice, PciCfg.ClockCtrl) & T3_PCI_44MHZ_CORE_CLOCK) { + REG_WR (pDevice, PciCfg.ClockCtrl, T3_PCI_44MHZ_CORE_CLOCK | + T3_PCI_SELECT_ALTERNATE_CLOCK); + REG_WR (pDevice, PciCfg.ClockCtrl, + T3_PCI_SELECT_ALTERNATE_CLOCK); + MM_Wait (40); /* required delay is 27usec */ + } + REG_WR (pDevice, PciCfg.ClockCtrl, 0); + REG_WR (pDevice, PciCfg.MemWindowBaseAddr, 0); #if PCIX_TARGET_WORKAROUND - MM_ReadConfig32(pDevice, T3_PCI_STATE_REG, &Value32); - if ((pDevice->EnablePciXFix == FALSE) && - ((Value32 & T3_PCI_STATE_CONVENTIONAL_PCI_MODE) == 0)) - { - if (pDevice->ChipRevId == T3_CHIP_ID_5701_A0 || - pDevice->ChipRevId == T3_CHIP_ID_5701_B0 || - pDevice->ChipRevId == T3_CHIP_ID_5701_B2 || - pDevice->ChipRevId == T3_CHIP_ID_5701_B5) - { - __raw_writel(0, &(pDevice->pMemView->uIntMem.MemBlock32K[0x300])); - __raw_writel(0, &(pDevice->pMemView->uIntMem.MemBlock32K[0x301])); - __raw_writel(0xffffffff, &(pDevice->pMemView->uIntMem.MemBlock32K[0x301])); - if (__raw_readl(&(pDevice->pMemView->uIntMem.MemBlock32K[0x300]))) - { - pDevice->EnablePciXFix = TRUE; - } + MM_ReadConfig32 (pDevice, T3_PCI_STATE_REG, &Value32); + if ((pDevice->EnablePciXFix == FALSE) && + ((Value32 & T3_PCI_STATE_CONVENTIONAL_PCI_MODE) == 0)) { + if (pDevice->ChipRevId == T3_CHIP_ID_5701_A0 || + pDevice->ChipRevId == T3_CHIP_ID_5701_B0 || + pDevice->ChipRevId == T3_CHIP_ID_5701_B2 || + pDevice->ChipRevId == T3_CHIP_ID_5701_B5) { + __raw_writel (0, + &(pDevice->pMemView->uIntMem. + MemBlock32K[0x300])); + __raw_writel (0, + &(pDevice->pMemView->uIntMem. + MemBlock32K[0x301])); + __raw_writel (0xffffffff, + &(pDevice->pMemView->uIntMem. + MemBlock32K[0x301])); + if (__raw_readl + (&(pDevice->pMemView->uIntMem.MemBlock32K[0x300]))) + { + pDevice->EnablePciXFix = TRUE; + } + } } - } #endif #if 1 - /* - * This code was at the beginning of else block below, but that's - * a bug if node address in shared memory. - */ - MM_Wait(50); - LM_NvramInit(pDevice); + /* + * This code was at the beginning of else block below, but that's + * a bug if node address in shared memory. + */ + MM_Wait (50); + LM_NvramInit (pDevice); #endif - /* Get the node address. First try to get in from the shared memory. */ - /* If the signature is not present, then get it from the NVRAM. */ - Value32 = MEM_RD_OFFSET(pDevice, T3_MAC_ADDR_HIGH_MAILBOX); - if((Value32 >> 16) == 0x484b) - { - - pDevice->NodeAddress[0] = (LM_UINT8) (Value32 >> 8); - pDevice->NodeAddress[1] = (LM_UINT8) Value32; - - Value32 = MEM_RD_OFFSET(pDevice, T3_MAC_ADDR_LOW_MAILBOX); - - pDevice->NodeAddress[2] = (LM_UINT8) (Value32 >> 24); - pDevice->NodeAddress[3] = (LM_UINT8) (Value32 >> 16); - pDevice->NodeAddress[4] = (LM_UINT8) (Value32 >> 8); - pDevice->NodeAddress[5] = (LM_UINT8) Value32; - - Status = LM_STATUS_SUCCESS; - } - else - { - Status = LM_NvramRead(pDevice, 0x7c, &Value32); - if(Status == LM_STATUS_SUCCESS) - { - pDevice->NodeAddress[0] = (LM_UINT8) (Value32 >> 16); - pDevice->NodeAddress[1] = (LM_UINT8) (Value32 >> 24); - - Status = LM_NvramRead(pDevice, 0x80, &Value32); - - pDevice->NodeAddress[2] = (LM_UINT8) Value32; - pDevice->NodeAddress[3] = (LM_UINT8) (Value32 >> 8); - pDevice->NodeAddress[4] = (LM_UINT8) (Value32 >> 16); - pDevice->NodeAddress[5] = (LM_UINT8) (Value32 >> 24); + /* Get the node address. First try to get in from the shared memory. */ + /* If the signature is not present, then get it from the NVRAM. */ + Value32 = MEM_RD_OFFSET (pDevice, T3_MAC_ADDR_HIGH_MAILBOX); + if ((Value32 >> 16) == 0x484b) { + + pDevice->NodeAddress[0] = (LM_UINT8) (Value32 >> 8); + pDevice->NodeAddress[1] = (LM_UINT8) Value32; + + Value32 = MEM_RD_OFFSET (pDevice, T3_MAC_ADDR_LOW_MAILBOX); + + pDevice->NodeAddress[2] = (LM_UINT8) (Value32 >> 24); + pDevice->NodeAddress[3] = (LM_UINT8) (Value32 >> 16); + pDevice->NodeAddress[4] = (LM_UINT8) (Value32 >> 8); + pDevice->NodeAddress[5] = (LM_UINT8) Value32; + + Status = LM_STATUS_SUCCESS; + } else { + Status = LM_NvramRead (pDevice, 0x7c, &Value32); + if (Status == LM_STATUS_SUCCESS) { + pDevice->NodeAddress[0] = (LM_UINT8) (Value32 >> 16); + pDevice->NodeAddress[1] = (LM_UINT8) (Value32 >> 24); + + Status = LM_NvramRead (pDevice, 0x80, &Value32); + + pDevice->NodeAddress[2] = (LM_UINT8) Value32; + pDevice->NodeAddress[3] = (LM_UINT8) (Value32 >> 8); + pDevice->NodeAddress[4] = (LM_UINT8) (Value32 >> 16); + pDevice->NodeAddress[5] = (LM_UINT8) (Value32 >> 24); + } } - } - /* Assign a default address. */ - if(Status != LM_STATUS_SUCCESS) - { + /* Assign a default address. */ + if (Status != LM_STATUS_SUCCESS) { #ifndef EMBEDDED - printk(KERN_ERR "Cannot get MAC addr from NVRAM. Using default.\n"); -#endif - pDevice->NodeAddress[0] = 0x00; pDevice->NodeAddress[1] = 0x10; - pDevice->NodeAddress[2] = 0x18; pDevice->NodeAddress[3] = 0x68; - pDevice->NodeAddress[4] = 0x61; pDevice->NodeAddress[5] = 0x76; - } - - pDevice->PermanentNodeAddress[0] = pDevice->NodeAddress[0]; - pDevice->PermanentNodeAddress[1] = pDevice->NodeAddress[1]; - pDevice->PermanentNodeAddress[2] = pDevice->NodeAddress[2]; - pDevice->PermanentNodeAddress[3] = pDevice->NodeAddress[3]; - pDevice->PermanentNodeAddress[4] = pDevice->NodeAddress[4]; - pDevice->PermanentNodeAddress[5] = pDevice->NodeAddress[5]; - - /* Initialize the default values. */ - pDevice->NoTxPseudoHdrChksum = FALSE; - pDevice->NoRxPseudoHdrChksum = FALSE; - pDevice->NicSendBd = FALSE; - pDevice->TxPacketDescCnt = DEFAULT_TX_PACKET_DESC_COUNT; - pDevice->RxStdDescCnt = DEFAULT_STD_RCV_DESC_COUNT; - pDevice->RxCoalescingTicks = DEFAULT_RX_COALESCING_TICKS; - pDevice->TxCoalescingTicks = DEFAULT_TX_COALESCING_TICKS; - pDevice->RxMaxCoalescedFrames = DEFAULT_RX_MAX_COALESCED_FRAMES; - pDevice->TxMaxCoalescedFrames = DEFAULT_TX_MAX_COALESCED_FRAMES; - pDevice->RxCoalescingTicksDuringInt = BAD_DEFAULT_VALUE; - pDevice->TxCoalescingTicksDuringInt = BAD_DEFAULT_VALUE; - pDevice->RxMaxCoalescedFramesDuringInt = BAD_DEFAULT_VALUE; - pDevice->TxMaxCoalescedFramesDuringInt = BAD_DEFAULT_VALUE; - pDevice->StatsCoalescingTicks = DEFAULT_STATS_COALESCING_TICKS; - pDevice->EnableMWI = FALSE; - pDevice->TxMtu = MAX_ETHERNET_PACKET_SIZE_NO_CRC; - pDevice->RxMtu = MAX_ETHERNET_PACKET_SIZE_NO_CRC; - pDevice->DisableAutoNeg = FALSE; - pDevice->PhyIntMode = T3_PHY_INT_MODE_AUTO; - pDevice->LinkChngMode = T3_LINK_CHNG_MODE_AUTO; - pDevice->LedMode = LED_MODE_AUTO; - pDevice->ResetPhyOnInit = TRUE; - pDevice->DelayPciGrant = TRUE; - pDevice->UseTaggedStatus = FALSE; - pDevice->OneDmaAtOnce = BAD_DEFAULT_VALUE; - - pDevice->DmaMbufLowMark = T3_DEF_DMA_MBUF_LOW_WMARK_JUMBO; - pDevice->RxMacMbufLowMark = T3_DEF_RX_MAC_MBUF_LOW_WMARK_JUMBO; - pDevice->MbufHighMark = T3_DEF_MBUF_HIGH_WMARK_JUMBO; - - pDevice->RequestedMediaType = LM_REQUESTED_MEDIA_TYPE_AUTO; - pDevice->TaskOffloadCap = LM_TASK_OFFLOAD_NONE; - pDevice->FlowControlCap = LM_FLOW_CONTROL_AUTO_PAUSE; - pDevice->EnableTbi = FALSE; -#if INCLUDE_TBI_SUPPORT - pDevice->PollTbiLink = BAD_DEFAULT_VALUE; + printk (KERN_ERR + "Cannot get MAC addr from NVRAM. Using default.\n"); #endif + pDevice->NodeAddress[0] = 0x00; + pDevice->NodeAddress[1] = 0x10; + pDevice->NodeAddress[2] = 0x18; + pDevice->NodeAddress[3] = 0x68; + pDevice->NodeAddress[4] = 0x61; + pDevice->NodeAddress[5] = 0x76; + } + + pDevice->PermanentNodeAddress[0] = pDevice->NodeAddress[0]; + pDevice->PermanentNodeAddress[1] = pDevice->NodeAddress[1]; + pDevice->PermanentNodeAddress[2] = pDevice->NodeAddress[2]; + pDevice->PermanentNodeAddress[3] = pDevice->NodeAddress[3]; + pDevice->PermanentNodeAddress[4] = pDevice->NodeAddress[4]; + pDevice->PermanentNodeAddress[5] = pDevice->NodeAddress[5]; + + /* Initialize the default values. */ + pDevice->NoTxPseudoHdrChksum = FALSE; + pDevice->NoRxPseudoHdrChksum = FALSE; + pDevice->NicSendBd = FALSE; + pDevice->TxPacketDescCnt = DEFAULT_TX_PACKET_DESC_COUNT; + pDevice->RxStdDescCnt = DEFAULT_STD_RCV_DESC_COUNT; + pDevice->RxCoalescingTicks = DEFAULT_RX_COALESCING_TICKS; + pDevice->TxCoalescingTicks = DEFAULT_TX_COALESCING_TICKS; + pDevice->RxMaxCoalescedFrames = DEFAULT_RX_MAX_COALESCED_FRAMES; + pDevice->TxMaxCoalescedFrames = DEFAULT_TX_MAX_COALESCED_FRAMES; + pDevice->RxCoalescingTicksDuringInt = BAD_DEFAULT_VALUE; + pDevice->TxCoalescingTicksDuringInt = BAD_DEFAULT_VALUE; + pDevice->RxMaxCoalescedFramesDuringInt = BAD_DEFAULT_VALUE; + pDevice->TxMaxCoalescedFramesDuringInt = BAD_DEFAULT_VALUE; + pDevice->StatsCoalescingTicks = DEFAULT_STATS_COALESCING_TICKS; + pDevice->EnableMWI = FALSE; + pDevice->TxMtu = MAX_ETHERNET_PACKET_SIZE_NO_CRC; + pDevice->RxMtu = MAX_ETHERNET_PACKET_SIZE_NO_CRC; + pDevice->DisableAutoNeg = FALSE; + pDevice->PhyIntMode = T3_PHY_INT_MODE_AUTO; + pDevice->LinkChngMode = T3_LINK_CHNG_MODE_AUTO; + pDevice->LedMode = LED_MODE_AUTO; + pDevice->ResetPhyOnInit = TRUE; + pDevice->DelayPciGrant = TRUE; + pDevice->UseTaggedStatus = FALSE; + pDevice->OneDmaAtOnce = BAD_DEFAULT_VALUE; - switch (T3_ASIC_REV(pDevice->ChipRevId)) - { - case T3_ASIC_REV_5704: - pDevice->MbufBase = T3_NIC_MBUF_POOL_ADDR; - pDevice->MbufSize = T3_NIC_MBUF_POOL_SIZE64; - break; - default: - pDevice->MbufBase = T3_NIC_MBUF_POOL_ADDR; - pDevice->MbufSize = T3_NIC_MBUF_POOL_SIZE96; - break; - } - - pDevice->LinkStatus = LM_STATUS_LINK_DOWN; - pDevice->QueueRxPackets = TRUE; - - pDevice->EnableWireSpeed = TRUE; + pDevice->DmaMbufLowMark = T3_DEF_DMA_MBUF_LOW_WMARK_JUMBO; + pDevice->RxMacMbufLowMark = T3_DEF_RX_MAC_MBUF_LOW_WMARK_JUMBO; + pDevice->MbufHighMark = T3_DEF_MBUF_HIGH_WMARK_JUMBO; -#if T3_JUMBO_RCV_RCB_ENTRY_COUNT - pDevice->RxJumboDescCnt = DEFAULT_JUMBO_RCV_DESC_COUNT; -#endif /* T3_JUMBO_RCV_RCB_ENTRY_COUNT */ - - /* Make this is a known adapter. */ - pAdapterInfo = LM_GetAdapterInfoBySsid(pDevice->SubsystemVendorId, - pDevice->SubsystemId); - - pDevice->BondId = REG_RD(pDevice, Grc.MiscCfg) & GRC_MISC_BD_ID_MASK; - if (pDevice->BondId != GRC_MISC_BD_ID_5700 && - pDevice->BondId != GRC_MISC_BD_ID_5701 && - pDevice->BondId != GRC_MISC_BD_ID_5702FE && - pDevice->BondId != GRC_MISC_BD_ID_5703 && - pDevice->BondId != GRC_MISC_BD_ID_5703S && - pDevice->BondId != GRC_MISC_BD_ID_5704 && - pDevice->BondId != GRC_MISC_BD_ID_5704CIOBE) - { - return LM_STATUS_UNKNOWN_ADAPTER; - } - - pDevice->SplitModeEnable = SPLIT_MODE_DISABLE; - if ((pDevice->ChipRevId == T3_CHIP_ID_5704_A0) && - (pDevice->BondId == GRC_MISC_BD_ID_5704CIOBE)) - { - pDevice->SplitModeEnable = SPLIT_MODE_ENABLE; - pDevice->SplitModeMaxReq = SPLIT_MODE_5704_MAX_REQ; - } - - /* Get Eeprom info. */ - Value32 = MEM_RD_OFFSET(pDevice, T3_NIC_DATA_SIG_ADDR); - if (Value32 == T3_NIC_DATA_SIG) - { - EeSigFound = TRUE; - Value32 = MEM_RD_OFFSET(pDevice, T3_NIC_DATA_NIC_CFG_ADDR); - - /* Determine PHY type. */ - switch (Value32 & T3_NIC_CFG_PHY_TYPE_MASK) - { - case T3_NIC_CFG_PHY_TYPE_COPPER: - EePhyTypeSerdes = FALSE; - break; + pDevice->RequestedMediaType = LM_REQUESTED_MEDIA_TYPE_AUTO; + pDevice->TaskOffloadCap = LM_TASK_OFFLOAD_NONE; + pDevice->FlowControlCap = LM_FLOW_CONTROL_AUTO_PAUSE; + pDevice->EnableTbi = FALSE; +#if INCLUDE_TBI_SUPPORT + pDevice->PollTbiLink = BAD_DEFAULT_VALUE; +#endif - case T3_NIC_CFG_PHY_TYPE_FIBER: - EePhyTypeSerdes = TRUE; + switch (T3_ASIC_REV (pDevice->ChipRevId)) { + case T3_ASIC_REV_5704: + pDevice->MbufBase = T3_NIC_MBUF_POOL_ADDR; + pDevice->MbufSize = T3_NIC_MBUF_POOL_SIZE64; break; - - default: - EePhyTypeSerdes = FALSE; + default: + pDevice->MbufBase = T3_NIC_MBUF_POOL_ADDR; + pDevice->MbufSize = T3_NIC_MBUF_POOL_SIZE96; break; } - /* Determine PHY led mode. */ - if(T3_ASIC_REV(pDevice->ChipRevId) == T3_ASIC_REV_5700 || - T3_ASIC_REV(pDevice->ChipRevId) == T3_ASIC_REV_5701) - { - switch(Value32 & T3_NIC_CFG_LED_MODE_MASK) - { - case T3_NIC_CFG_LED_MODE_TRIPLE_SPEED: - EePhyLedMode = LED_MODE_THREE_LINK; - break; + pDevice->LinkStatus = LM_STATUS_LINK_DOWN; + pDevice->QueueRxPackets = TRUE; - case T3_NIC_CFG_LED_MODE_LINK_SPEED: - EePhyLedMode = LED_MODE_LINK10; - break; + pDevice->EnableWireSpeed = TRUE; - default: - EePhyLedMode = LED_MODE_AUTO; - break; - } - } - else - { - switch(Value32 & T3_NIC_CFG_LED_MODE_MASK) - { - case T3_NIC_CFG_LED_MODE_OPEN_DRAIN: - EePhyLedMode = LED_MODE_OPEN_DRAIN; - break; +#if T3_JUMBO_RCV_RCB_ENTRY_COUNT + pDevice->RxJumboDescCnt = DEFAULT_JUMBO_RCV_DESC_COUNT; +#endif /* T3_JUMBO_RCV_RCB_ENTRY_COUNT */ + + /* Make this is a known adapter. */ + pAdapterInfo = LM_GetAdapterInfoBySsid (pDevice->SubsystemVendorId, + pDevice->SubsystemId); + + pDevice->BondId = REG_RD (pDevice, Grc.MiscCfg) & GRC_MISC_BD_ID_MASK; + if (pDevice->BondId != GRC_MISC_BD_ID_5700 && + pDevice->BondId != GRC_MISC_BD_ID_5701 && + pDevice->BondId != GRC_MISC_BD_ID_5702FE && + pDevice->BondId != GRC_MISC_BD_ID_5703 && + pDevice->BondId != GRC_MISC_BD_ID_5703S && + pDevice->BondId != GRC_MISC_BD_ID_5704 && + pDevice->BondId != GRC_MISC_BD_ID_5704CIOBE) { + return LM_STATUS_UNKNOWN_ADAPTER; + } + + pDevice->SplitModeEnable = SPLIT_MODE_DISABLE; + if ((pDevice->ChipRevId == T3_CHIP_ID_5704_A0) && + (pDevice->BondId == GRC_MISC_BD_ID_5704CIOBE)) { + pDevice->SplitModeEnable = SPLIT_MODE_ENABLE; + pDevice->SplitModeMaxReq = SPLIT_MODE_5704_MAX_REQ; + } + + /* Get Eeprom info. */ + Value32 = MEM_RD_OFFSET (pDevice, T3_NIC_DATA_SIG_ADDR); + if (Value32 == T3_NIC_DATA_SIG) { + EeSigFound = TRUE; + Value32 = MEM_RD_OFFSET (pDevice, T3_NIC_DATA_NIC_CFG_ADDR); + + /* Determine PHY type. */ + switch (Value32 & T3_NIC_CFG_PHY_TYPE_MASK) { + case T3_NIC_CFG_PHY_TYPE_COPPER: + EePhyTypeSerdes = FALSE; + break; - case T3_NIC_CFG_LED_MODE_OUTPUT: - EePhyLedMode = LED_MODE_OUTPUT; - break; + case T3_NIC_CFG_PHY_TYPE_FIBER: + EePhyTypeSerdes = TRUE; + break; default: - EePhyLedMode = LED_MODE_AUTO; - break; - } - } - if(pDevice->ChipRevId == T3_CHIP_ID_5703_A1 || - pDevice->ChipRevId == T3_CHIP_ID_5703_A2) - { - /* Enable EEPROM write protection. */ - if(Value32 & T3_NIC_EEPROM_WP) - { - pDevice->EepromWp = TRUE; - } - } + EePhyTypeSerdes = FALSE; + break; + } - /* Get the PHY Id. */ - Value32 = MEM_RD_OFFSET(pDevice, T3_NIC_DATA_PHY_ID_ADDR); - if (Value32) - { - EePhyId = (((Value32 & T3_NIC_PHY_ID1_MASK) >> 16) & - PHY_ID1_OUI_MASK) << 10; + /* Determine PHY led mode. */ + if (T3_ASIC_REV (pDevice->ChipRevId) == T3_ASIC_REV_5700 || + T3_ASIC_REV (pDevice->ChipRevId) == T3_ASIC_REV_5701) { + switch (Value32 & T3_NIC_CFG_LED_MODE_MASK) { + case T3_NIC_CFG_LED_MODE_TRIPLE_SPEED: + EePhyLedMode = LED_MODE_THREE_LINK; + break; + + case T3_NIC_CFG_LED_MODE_LINK_SPEED: + EePhyLedMode = LED_MODE_LINK10; + break; + + default: + EePhyLedMode = LED_MODE_AUTO; + break; + } + } else { + switch (Value32 & T3_NIC_CFG_LED_MODE_MASK) { + case T3_NIC_CFG_LED_MODE_OPEN_DRAIN: + EePhyLedMode = LED_MODE_OPEN_DRAIN; + break; + + case T3_NIC_CFG_LED_MODE_OUTPUT: + EePhyLedMode = LED_MODE_OUTPUT; + break; + + default: + EePhyLedMode = LED_MODE_AUTO; + break; + } + } + if (pDevice->ChipRevId == T3_CHIP_ID_5703_A1 || + pDevice->ChipRevId == T3_CHIP_ID_5703_A2) { + /* Enable EEPROM write protection. */ + if (Value32 & T3_NIC_EEPROM_WP) { + pDevice->EepromWp = TRUE; + } + } - Value32 = Value32 & T3_NIC_PHY_ID2_MASK; + /* Get the PHY Id. */ + Value32 = MEM_RD_OFFSET (pDevice, T3_NIC_DATA_PHY_ID_ADDR); + if (Value32) { + EePhyId = (((Value32 & T3_NIC_PHY_ID1_MASK) >> 16) & + PHY_ID1_OUI_MASK) << 10; - EePhyId |= ((Value32 & PHY_ID2_OUI_MASK) << 16) | - (Value32 & PHY_ID2_MODEL_MASK) | (Value32 & PHY_ID2_REV_MASK); - } - else - { - EePhyId = 0; + Value32 = Value32 & T3_NIC_PHY_ID2_MASK; + + EePhyId |= ((Value32 & PHY_ID2_OUI_MASK) << 16) | + (Value32 & PHY_ID2_MODEL_MASK) | (Value32 & + PHY_ID2_REV_MASK); + } else { + EePhyId = 0; + } + } else { + EeSigFound = FALSE; } - } - else - { - EeSigFound = FALSE; - } - /* Set the PHY address. */ - pDevice->PhyAddr = PHY_DEVICE_ID; + /* Set the PHY address. */ + pDevice->PhyAddr = PHY_DEVICE_ID; - /* Disable auto polling. */ - pDevice->MiMode = 0xc0000; - REG_WR(pDevice, MacCtrl.MiMode, pDevice->MiMode); - MM_Wait(40); + /* Disable auto polling. */ + pDevice->MiMode = 0xc0000; + REG_WR (pDevice, MacCtrl.MiMode, pDevice->MiMode); + MM_Wait (40); - /* Get the PHY id. */ - LM_ReadPhy(pDevice, PHY_ID1_REG, &Value32); - pDevice->PhyId = (Value32 & PHY_ID1_OUI_MASK) << 10; + /* Get the PHY id. */ + LM_ReadPhy (pDevice, PHY_ID1_REG, &Value32); + pDevice->PhyId = (Value32 & PHY_ID1_OUI_MASK) << 10; - LM_ReadPhy(pDevice, PHY_ID2_REG, &Value32); - pDevice->PhyId |= ((Value32 & PHY_ID2_OUI_MASK) << 16) | - (Value32 & PHY_ID2_MODEL_MASK) | (Value32 & PHY_ID2_REV_MASK); + LM_ReadPhy (pDevice, PHY_ID2_REG, &Value32); + pDevice->PhyId |= ((Value32 & PHY_ID2_OUI_MASK) << 16) | + (Value32 & PHY_ID2_MODEL_MASK) | (Value32 & PHY_ID2_REV_MASK); - /* Set the EnableTbi flag to false if we have a copper PHY. */ - switch(pDevice->PhyId & PHY_ID_MASK) - { + /* Set the EnableTbi flag to false if we have a copper PHY. */ + switch (pDevice->PhyId & PHY_ID_MASK) { case PHY_BCM5400_PHY_ID: - pDevice->EnableTbi = FALSE; - break; + pDevice->EnableTbi = FALSE; + break; case PHY_BCM5401_PHY_ID: - pDevice->EnableTbi = FALSE; - break; + pDevice->EnableTbi = FALSE; + break; case PHY_BCM5411_PHY_ID: - pDevice->EnableTbi = FALSE; - break; + pDevice->EnableTbi = FALSE; + break; case PHY_BCM5701_PHY_ID: - pDevice->EnableTbi = FALSE; - break; + pDevice->EnableTbi = FALSE; + break; case PHY_BCM5703_PHY_ID: - pDevice->EnableTbi = FALSE; - break; + pDevice->EnableTbi = FALSE; + break; case PHY_BCM5704_PHY_ID: - pDevice->EnableTbi = FALSE; - break; + pDevice->EnableTbi = FALSE; + break; case PHY_BCM8002_PHY_ID: - pDevice->EnableTbi = TRUE; - break; + pDevice->EnableTbi = TRUE; + break; default: - if (pAdapterInfo) - { - pDevice->PhyId = pAdapterInfo->PhyId; - pDevice->EnableTbi = pAdapterInfo->Serdes; - } - else if (EeSigFound) - { - pDevice->PhyId = EePhyId; - pDevice->EnableTbi = EePhyTypeSerdes; - } - break; - } - - /* Bail out if we don't know the copper PHY id. */ - if(UNKNOWN_PHY_ID(pDevice->PhyId) && !pDevice->EnableTbi) - { - return LM_STATUS_FAILURE; - } + if (pAdapterInfo) { + pDevice->PhyId = pAdapterInfo->PhyId; + pDevice->EnableTbi = pAdapterInfo->Serdes; + } else if (EeSigFound) { + pDevice->PhyId = EePhyId; + pDevice->EnableTbi = EePhyTypeSerdes; + } + break; + } - if(T3_ASIC_REV(pDevice->ChipRevId) == T3_ASIC_REV_5703) - { - if((pDevice->SavedCacheLineReg & 0xff00) < 0x4000) - { - pDevice->SavedCacheLineReg &= 0xffff00ff; - pDevice->SavedCacheLineReg |= 0x4000; - } - } - /* Change driver parameters. */ - Status = MM_GetConfig(pDevice); - if(Status != LM_STATUS_SUCCESS) - { - return Status; - } + /* Bail out if we don't know the copper PHY id. */ + if (UNKNOWN_PHY_ID (pDevice->PhyId) && !pDevice->EnableTbi) { + return LM_STATUS_FAILURE; + } + if (T3_ASIC_REV (pDevice->ChipRevId) == T3_ASIC_REV_5703) { + if ((pDevice->SavedCacheLineReg & 0xff00) < 0x4000) { + pDevice->SavedCacheLineReg &= 0xffff00ff; + pDevice->SavedCacheLineReg |= 0x4000; + } + } + /* Change driver parameters. */ + Status = MM_GetConfig (pDevice); + if (Status != LM_STATUS_SUCCESS) { + return Status; + } #if INCLUDE_5701_AX_FIX - if (pDevice->ChipRevId == T3_CHIP_ID_5701_A0 || - pDevice->ChipRevId == T3_CHIP_ID_5701_B0) - { - pDevice->ResetPhyOnInit = TRUE; - } + if (pDevice->ChipRevId == T3_CHIP_ID_5701_A0 || + pDevice->ChipRevId == T3_CHIP_ID_5701_B0) { + pDevice->ResetPhyOnInit = TRUE; + } #endif - /* Save the current phy link status. */ - if(!pDevice->EnableTbi) - { - LM_ReadPhy(pDevice, PHY_STATUS_REG, &Value32); - LM_ReadPhy(pDevice, PHY_STATUS_REG, &Value32); + /* Save the current phy link status. */ + if (!pDevice->EnableTbi) { + LM_ReadPhy (pDevice, PHY_STATUS_REG, &Value32); + LM_ReadPhy (pDevice, PHY_STATUS_REG, &Value32); - /* If we don't have link reset the PHY. */ - if(!(Value32 & PHY_STATUS_LINK_PASS) || pDevice->ResetPhyOnInit) - { - - LM_WritePhy(pDevice, PHY_CTRL_REG, PHY_CTRL_PHY_RESET); + /* If we don't have link reset the PHY. */ + if (!(Value32 & PHY_STATUS_LINK_PASS) + || pDevice->ResetPhyOnInit) { - for(j = 0; j < 100; j++) - { - MM_Wait(10); + LM_WritePhy (pDevice, PHY_CTRL_REG, PHY_CTRL_PHY_RESET); - LM_ReadPhy(pDevice, PHY_CTRL_REG, &Value32); - if(Value32 && !(Value32 & PHY_CTRL_PHY_RESET)) - { - MM_Wait(40); - break; - } - } + for (j = 0; j < 100; j++) { + MM_Wait (10); + LM_ReadPhy (pDevice, PHY_CTRL_REG, &Value32); + if (Value32 && !(Value32 & PHY_CTRL_PHY_RESET)) { + MM_Wait (40); + break; + } + } #if INCLUDE_5701_AX_FIX - /* 5701_AX_BX bug: only advertises 10mb speed. */ - if(pDevice->ChipRevId == T3_CHIP_ID_5701_A0 || - pDevice->ChipRevId == T3_CHIP_ID_5701_B0) - { - - Value32 = PHY_AN_AD_PROTOCOL_802_3_CSMA_CD | - PHY_AN_AD_10BASET_HALF | PHY_AN_AD_10BASET_FULL | - PHY_AN_AD_100BASETX_FULL | PHY_AN_AD_100BASETX_HALF; - Value32 |= GetPhyAdFlowCntrlSettings(pDevice); - LM_WritePhy(pDevice, PHY_AN_AD_REG, Value32); - pDevice->advertising = Value32; - - Value32 = BCM540X_AN_AD_1000BASET_HALF | - BCM540X_AN_AD_1000BASET_FULL | BCM540X_CONFIG_AS_MASTER | - BCM540X_ENABLE_CONFIG_AS_MASTER; - LM_WritePhy(pDevice, BCM540X_1000BASET_CTRL_REG, Value32); - pDevice->advertising1000 = Value32; - - LM_WritePhy(pDevice, PHY_CTRL_REG, PHY_CTRL_AUTO_NEG_ENABLE | - PHY_CTRL_RESTART_AUTO_NEG); - } + /* 5701_AX_BX bug: only advertises 10mb speed. */ + if (pDevice->ChipRevId == T3_CHIP_ID_5701_A0 || + pDevice->ChipRevId == T3_CHIP_ID_5701_B0) { + + Value32 = PHY_AN_AD_PROTOCOL_802_3_CSMA_CD | + PHY_AN_AD_10BASET_HALF | + PHY_AN_AD_10BASET_FULL | + PHY_AN_AD_100BASETX_FULL | + PHY_AN_AD_100BASETX_HALF; + Value32 |= GetPhyAdFlowCntrlSettings (pDevice); + LM_WritePhy (pDevice, PHY_AN_AD_REG, Value32); + pDevice->advertising = Value32; + + Value32 = BCM540X_AN_AD_1000BASET_HALF | + BCM540X_AN_AD_1000BASET_FULL | + BCM540X_CONFIG_AS_MASTER | + BCM540X_ENABLE_CONFIG_AS_MASTER; + LM_WritePhy (pDevice, + BCM540X_1000BASET_CTRL_REG, + Value32); + pDevice->advertising1000 = Value32; + + LM_WritePhy (pDevice, PHY_CTRL_REG, + PHY_CTRL_AUTO_NEG_ENABLE | + PHY_CTRL_RESTART_AUTO_NEG); + } #endif - if(T3_ASIC_REV(pDevice->ChipRevId) == T3_ASIC_REV_5703) - { - LM_WritePhy(pDevice, 0x18, 0x0c00); - LM_WritePhy(pDevice, 0x17, 0x201f); - LM_WritePhy(pDevice, 0x15, 0x2aaa); - } - if(pDevice->ChipRevId == T3_CHIP_ID_5704_A0) - { - LM_WritePhy(pDevice, 0x1c, 0x8d68); - LM_WritePhy(pDevice, 0x1c, 0x8d68); - } - /* Enable Ethernet@WireSpeed. */ - if(pDevice->EnableWireSpeed) - { - LM_WritePhy(pDevice, 0x18, 0x7007); - LM_ReadPhy(pDevice, 0x18, &Value32); - LM_WritePhy(pDevice, 0x18, Value32 | BIT_15 | BIT_4); - } - } - } - - /* Turn off tap power management. */ - if((pDevice->PhyId & PHY_ID_MASK) == PHY_BCM5401_PHY_ID) - { - LM_WritePhy(pDevice, BCM5401_AUX_CTRL, 0x0c20); - LM_WritePhy(pDevice, BCM540X_DSP_ADDRESS_REG, 0x0012); - LM_WritePhy(pDevice, BCM540X_DSP_RW_PORT, 0x1804); - LM_WritePhy(pDevice, BCM540X_DSP_ADDRESS_REG, 0x0013); - LM_WritePhy(pDevice, BCM540X_DSP_RW_PORT, 0x1204); - LM_WritePhy(pDevice, BCM540X_DSP_ADDRESS_REG, 0x8006); - LM_WritePhy(pDevice, BCM540X_DSP_RW_PORT, 0x0132); - LM_WritePhy(pDevice, BCM540X_DSP_ADDRESS_REG, 0x8006); - LM_WritePhy(pDevice, BCM540X_DSP_RW_PORT, 0x0232); - LM_WritePhy(pDevice, BCM540X_DSP_ADDRESS_REG, 0x201f); - LM_WritePhy(pDevice, BCM540X_DSP_RW_PORT, 0x0a20); - - MM_Wait(40); - } + if (T3_ASIC_REV (pDevice->ChipRevId) == + T3_ASIC_REV_5703) { + LM_WritePhy (pDevice, 0x18, 0x0c00); + LM_WritePhy (pDevice, 0x17, 0x201f); + LM_WritePhy (pDevice, 0x15, 0x2aaa); + } + if (pDevice->ChipRevId == T3_CHIP_ID_5704_A0) { + LM_WritePhy (pDevice, 0x1c, 0x8d68); + LM_WritePhy (pDevice, 0x1c, 0x8d68); + } + /* Enable Ethernet@WireSpeed. */ + if (pDevice->EnableWireSpeed) { + LM_WritePhy (pDevice, 0x18, 0x7007); + LM_ReadPhy (pDevice, 0x18, &Value32); + LM_WritePhy (pDevice, 0x18, + Value32 | BIT_15 | BIT_4); + } + } + } -#if INCLUDE_TBI_SUPPORT - pDevice->IgnoreTbiLinkChange = FALSE; - - if(pDevice->EnableTbi) - { - pDevice->WakeUpModeCap = LM_WAKE_UP_MODE_NONE; - pDevice->PhyIntMode = T3_PHY_INT_MODE_LINK_READY; - if ((pDevice->PollTbiLink == BAD_DEFAULT_VALUE) || - pDevice->DisableAutoNeg) - { - pDevice->PollTbiLink = FALSE; - } - } - else - { - pDevice->PollTbiLink = FALSE; - } -#endif /* INCLUDE_TBI_SUPPORT */ - - /* UseTaggedStatus is only valid for 5701 and later. */ - if (T3_ASIC_REV(pDevice->ChipRevId) == T3_ASIC_REV_5700) - { - pDevice->UseTaggedStatus = FALSE; + /* Turn off tap power management. */ + if ((pDevice->PhyId & PHY_ID_MASK) == PHY_BCM5401_PHY_ID) { + LM_WritePhy (pDevice, BCM5401_AUX_CTRL, 0x0c20); + LM_WritePhy (pDevice, BCM540X_DSP_ADDRESS_REG, 0x0012); + LM_WritePhy (pDevice, BCM540X_DSP_RW_PORT, 0x1804); + LM_WritePhy (pDevice, BCM540X_DSP_ADDRESS_REG, 0x0013); + LM_WritePhy (pDevice, BCM540X_DSP_RW_PORT, 0x1204); + LM_WritePhy (pDevice, BCM540X_DSP_ADDRESS_REG, 0x8006); + LM_WritePhy (pDevice, BCM540X_DSP_RW_PORT, 0x0132); + LM_WritePhy (pDevice, BCM540X_DSP_ADDRESS_REG, 0x8006); + LM_WritePhy (pDevice, BCM540X_DSP_RW_PORT, 0x0232); + LM_WritePhy (pDevice, BCM540X_DSP_ADDRESS_REG, 0x201f); + LM_WritePhy (pDevice, BCM540X_DSP_RW_PORT, 0x0a20); - pDevice->CoalesceMode = 0; - } - else - { - pDevice->CoalesceMode = HOST_COALESCE_CLEAR_TICKS_ON_RX_BD_EVENT | - HOST_COALESCE_CLEAR_TICKS_ON_TX_BD_EVENT; - } - - /* Set the status block size. */ - if(T3_CHIP_REV(pDevice->ChipRevId) != T3_CHIP_REV_5700_AX && - T3_CHIP_REV(pDevice->ChipRevId) != T3_CHIP_REV_5700_BX) - { - pDevice->CoalesceMode |= HOST_COALESCE_32_BYTE_STATUS_MODE; - } - - /* Check the DURING_INT coalescing ticks parameters. */ - if(pDevice->UseTaggedStatus) - { - if(pDevice->RxCoalescingTicksDuringInt == BAD_DEFAULT_VALUE) - { - pDevice->RxCoalescingTicksDuringInt = - DEFAULT_RX_COALESCING_TICKS_DURING_INT; + MM_Wait (40); } - - if(pDevice->TxCoalescingTicksDuringInt == BAD_DEFAULT_VALUE) - { - pDevice->TxCoalescingTicksDuringInt = - DEFAULT_TX_COALESCING_TICKS_DURING_INT; +#if INCLUDE_TBI_SUPPORT + pDevice->IgnoreTbiLinkChange = FALSE; + + if (pDevice->EnableTbi) { + pDevice->WakeUpModeCap = LM_WAKE_UP_MODE_NONE; + pDevice->PhyIntMode = T3_PHY_INT_MODE_LINK_READY; + if ((pDevice->PollTbiLink == BAD_DEFAULT_VALUE) || + pDevice->DisableAutoNeg) { + pDevice->PollTbiLink = FALSE; + } + } else { + pDevice->PollTbiLink = FALSE; } +#endif /* INCLUDE_TBI_SUPPORT */ - if(pDevice->RxMaxCoalescedFramesDuringInt == BAD_DEFAULT_VALUE) - { - pDevice->RxMaxCoalescedFramesDuringInt = - DEFAULT_RX_MAX_COALESCED_FRAMES_DURING_INT; - } + /* UseTaggedStatus is only valid for 5701 and later. */ + if (T3_ASIC_REV (pDevice->ChipRevId) == T3_ASIC_REV_5700) { + pDevice->UseTaggedStatus = FALSE; - if(pDevice->TxMaxCoalescedFramesDuringInt == BAD_DEFAULT_VALUE) - { - pDevice->TxMaxCoalescedFramesDuringInt = - DEFAULT_TX_MAX_COALESCED_FRAMES_DURING_INT; - } - } - else - { - if(pDevice->RxCoalescingTicksDuringInt == BAD_DEFAULT_VALUE) - { - pDevice->RxCoalescingTicksDuringInt = 0; + pDevice->CoalesceMode = 0; + } else { + pDevice->CoalesceMode = + HOST_COALESCE_CLEAR_TICKS_ON_RX_BD_EVENT | + HOST_COALESCE_CLEAR_TICKS_ON_TX_BD_EVENT; } - if(pDevice->TxCoalescingTicksDuringInt == BAD_DEFAULT_VALUE) - { - pDevice->TxCoalescingTicksDuringInt = 0; + /* Set the status block size. */ + if (T3_CHIP_REV (pDevice->ChipRevId) != T3_CHIP_REV_5700_AX && + T3_CHIP_REV (pDevice->ChipRevId) != T3_CHIP_REV_5700_BX) { + pDevice->CoalesceMode |= HOST_COALESCE_32_BYTE_STATUS_MODE; } - if(pDevice->RxMaxCoalescedFramesDuringInt == BAD_DEFAULT_VALUE) - { - pDevice->RxMaxCoalescedFramesDuringInt = 0; - } + /* Check the DURING_INT coalescing ticks parameters. */ + if (pDevice->UseTaggedStatus) { + if (pDevice->RxCoalescingTicksDuringInt == BAD_DEFAULT_VALUE) { + pDevice->RxCoalescingTicksDuringInt = + DEFAULT_RX_COALESCING_TICKS_DURING_INT; + } - if(pDevice->TxMaxCoalescedFramesDuringInt == BAD_DEFAULT_VALUE) - { - pDevice->TxMaxCoalescedFramesDuringInt = 0; + if (pDevice->TxCoalescingTicksDuringInt == BAD_DEFAULT_VALUE) { + pDevice->TxCoalescingTicksDuringInt = + DEFAULT_TX_COALESCING_TICKS_DURING_INT; + } + + if (pDevice->RxMaxCoalescedFramesDuringInt == BAD_DEFAULT_VALUE) { + pDevice->RxMaxCoalescedFramesDuringInt = + DEFAULT_RX_MAX_COALESCED_FRAMES_DURING_INT; + } + + if (pDevice->TxMaxCoalescedFramesDuringInt == BAD_DEFAULT_VALUE) { + pDevice->TxMaxCoalescedFramesDuringInt = + DEFAULT_TX_MAX_COALESCED_FRAMES_DURING_INT; + } + } else { + if (pDevice->RxCoalescingTicksDuringInt == BAD_DEFAULT_VALUE) { + pDevice->RxCoalescingTicksDuringInt = 0; + } + + if (pDevice->TxCoalescingTicksDuringInt == BAD_DEFAULT_VALUE) { + pDevice->TxCoalescingTicksDuringInt = 0; + } + + if (pDevice->RxMaxCoalescedFramesDuringInt == BAD_DEFAULT_VALUE) { + pDevice->RxMaxCoalescedFramesDuringInt = 0; + } + + if (pDevice->TxMaxCoalescedFramesDuringInt == BAD_DEFAULT_VALUE) { + pDevice->TxMaxCoalescedFramesDuringInt = 0; + } } - } #if T3_JUMBO_RCV_RCB_ENTRY_COUNT - if(pDevice->RxMtu <= (MAX_STD_RCV_BUFFER_SIZE - 8 /* CRC */)) - { - pDevice->RxJumboDescCnt = 0; - if(pDevice->RxMtu <= MAX_ETHERNET_PACKET_SIZE_NO_CRC) - { - pDevice->RxMtu = MAX_ETHERNET_PACKET_SIZE_NO_CRC; - } - } - else - { - pDevice->RxJumboBufferSize = (pDevice->RxMtu + 8 /* CRC + VLAN */ + - COMMON_CACHE_LINE_SIZE-1) & ~COMMON_CACHE_LINE_MASK; + if (pDevice->RxMtu <= (MAX_STD_RCV_BUFFER_SIZE - 8 /* CRC */ )) { + pDevice->RxJumboDescCnt = 0; + if (pDevice->RxMtu <= MAX_ETHERNET_PACKET_SIZE_NO_CRC) { + pDevice->RxMtu = MAX_ETHERNET_PACKET_SIZE_NO_CRC; + } + } else { + pDevice->RxJumboBufferSize = + (pDevice->RxMtu + 8 /* CRC + VLAN */ + + COMMON_CACHE_LINE_SIZE - 1) & ~COMMON_CACHE_LINE_MASK; + + if (pDevice->RxJumboBufferSize > MAX_JUMBO_RCV_BUFFER_SIZE) { + pDevice->RxJumboBufferSize = + DEFAULT_JUMBO_RCV_BUFFER_SIZE; + pDevice->RxMtu = + pDevice->RxJumboBufferSize - 8 /* CRC + VLAN */ ; + } + pDevice->TxMtu = pDevice->RxMtu; - if(pDevice->RxJumboBufferSize > MAX_JUMBO_RCV_BUFFER_SIZE) - { - pDevice->RxJumboBufferSize = DEFAULT_JUMBO_RCV_BUFFER_SIZE; - pDevice->RxMtu = pDevice->RxJumboBufferSize - 8 /* CRC + VLAN */; } - pDevice->TxMtu = pDevice->RxMtu; - - } #else - pDevice->RxMtu = MAX_ETHERNET_PACKET_SIZE_NO_CRC; -#endif /* T3_JUMBO_RCV_RCB_ENTRY_COUNT */ + pDevice->RxMtu = MAX_ETHERNET_PACKET_SIZE_NO_CRC; +#endif /* T3_JUMBO_RCV_RCB_ENTRY_COUNT */ - pDevice->RxPacketDescCnt = + pDevice->RxPacketDescCnt = #if T3_JUMBO_RCV_RCB_ENTRY_COUNT - pDevice->RxJumboDescCnt + -#endif /* T3_JUMBO_RCV_RCB_ENTRY_COUNT */ - pDevice->RxStdDescCnt; + pDevice->RxJumboDescCnt + +#endif /* T3_JUMBO_RCV_RCB_ENTRY_COUNT */ + pDevice->RxStdDescCnt; - if(pDevice->TxMtu < MAX_ETHERNET_PACKET_SIZE_NO_CRC) - { - pDevice->TxMtu = MAX_ETHERNET_PACKET_SIZE_NO_CRC; - } - - if(pDevice->TxMtu > MAX_JUMBO_TX_BUFFER_SIZE) - { - pDevice->TxMtu = MAX_JUMBO_TX_BUFFER_SIZE; - } - - /* Configure the proper ways to get link change interrupt. */ - if(pDevice->PhyIntMode == T3_PHY_INT_MODE_AUTO) - { - if(T3_ASIC_REV(pDevice->ChipRevId) == T3_ASIC_REV_5700) - { - pDevice->PhyIntMode = T3_PHY_INT_MODE_MI_INTERRUPT; + if (pDevice->TxMtu < MAX_ETHERNET_PACKET_SIZE_NO_CRC) { + pDevice->TxMtu = MAX_ETHERNET_PACKET_SIZE_NO_CRC; } - else - { - pDevice->PhyIntMode = T3_PHY_INT_MODE_LINK_READY; + + if (pDevice->TxMtu > MAX_JUMBO_TX_BUFFER_SIZE) { + pDevice->TxMtu = MAX_JUMBO_TX_BUFFER_SIZE; } - } - else if(pDevice->PhyIntMode == T3_PHY_INT_MODE_AUTO_POLLING) - { - /* Auto-polling does not work on 5700_AX and 5700_BX. */ - if(T3_ASIC_REV(pDevice->ChipRevId) == T3_ASIC_REV_5700) - { - pDevice->PhyIntMode = T3_PHY_INT_MODE_MI_INTERRUPT; + + /* Configure the proper ways to get link change interrupt. */ + if (pDevice->PhyIntMode == T3_PHY_INT_MODE_AUTO) { + if (T3_ASIC_REV (pDevice->ChipRevId) == T3_ASIC_REV_5700) { + pDevice->PhyIntMode = T3_PHY_INT_MODE_MI_INTERRUPT; + } else { + pDevice->PhyIntMode = T3_PHY_INT_MODE_LINK_READY; + } + } else if (pDevice->PhyIntMode == T3_PHY_INT_MODE_AUTO_POLLING) { + /* Auto-polling does not work on 5700_AX and 5700_BX. */ + if (T3_ASIC_REV (pDevice->ChipRevId) == T3_ASIC_REV_5700) { + pDevice->PhyIntMode = T3_PHY_INT_MODE_MI_INTERRUPT; + } } - } - /* Determine the method to get link change status. */ - if(pDevice->LinkChngMode == T3_LINK_CHNG_MODE_AUTO) - { - /* The link status bit in the status block does not work on 5700_AX */ - /* and 5700_BX chips. */ - if(T3_ASIC_REV(pDevice->ChipRevId) == T3_ASIC_REV_5700) - { - pDevice->LinkChngMode = T3_LINK_CHNG_MODE_USE_STATUS_REG; + /* Determine the method to get link change status. */ + if (pDevice->LinkChngMode == T3_LINK_CHNG_MODE_AUTO) { + /* The link status bit in the status block does not work on 5700_AX */ + /* and 5700_BX chips. */ + if (T3_ASIC_REV (pDevice->ChipRevId) == T3_ASIC_REV_5700) { + pDevice->LinkChngMode = + T3_LINK_CHNG_MODE_USE_STATUS_REG; + } else { + pDevice->LinkChngMode = + T3_LINK_CHNG_MODE_USE_STATUS_BLOCK; + } } - else - { - pDevice->LinkChngMode = T3_LINK_CHNG_MODE_USE_STATUS_BLOCK; + + if (pDevice->PhyIntMode == T3_PHY_INT_MODE_MI_INTERRUPT || + T3_ASIC_REV (pDevice->ChipRevId) == T3_ASIC_REV_5700) { + pDevice->LinkChngMode = T3_LINK_CHNG_MODE_USE_STATUS_REG; } - } - if(pDevice->PhyIntMode == T3_PHY_INT_MODE_MI_INTERRUPT || - T3_ASIC_REV(pDevice->ChipRevId) == T3_ASIC_REV_5700) - { - pDevice->LinkChngMode = T3_LINK_CHNG_MODE_USE_STATUS_REG; - } + /* Configure PHY led mode. */ + if (pDevice->LedMode == LED_MODE_AUTO) { + if (T3_ASIC_REV (pDevice->ChipRevId) == T3_ASIC_REV_5700 || + T3_ASIC_REV (pDevice->ChipRevId) == T3_ASIC_REV_5701) { + if (pDevice->SubsystemVendorId == T3_SVID_DELL) { + pDevice->LedMode = LED_MODE_LINK10; + } else { + pDevice->LedMode = LED_MODE_THREE_LINK; - /* Configure PHY led mode. */ - if(pDevice->LedMode == LED_MODE_AUTO) - { - if(T3_ASIC_REV(pDevice->ChipRevId) == T3_ASIC_REV_5700 || - T3_ASIC_REV(pDevice->ChipRevId) == T3_ASIC_REV_5701) - { - if(pDevice->SubsystemVendorId == T3_SVID_DELL) - { - pDevice->LedMode = LED_MODE_LINK10; - } - else - { - pDevice->LedMode = LED_MODE_THREE_LINK; - - if(EeSigFound && EePhyLedMode != LED_MODE_AUTO) - { - pDevice->LedMode = EePhyLedMode; - } - } - - /* bug? 5701 in LINK10 mode does not seem to work when */ - /* PhyIntMode is LINK_READY. */ - if(T3_ASIC_REV(pDevice->ChipRevId) != T3_ASIC_REV_5700 && + if (EeSigFound && EePhyLedMode != LED_MODE_AUTO) { + pDevice->LedMode = EePhyLedMode; + } + } + + /* bug? 5701 in LINK10 mode does not seem to work when */ + /* PhyIntMode is LINK_READY. */ + if (T3_ASIC_REV (pDevice->ChipRevId) != T3_ASIC_REV_5700 + && #if INCLUDE_TBI_SUPPORT - pDevice->EnableTbi == FALSE && + pDevice->EnableTbi == FALSE && #endif - pDevice->LedMode == LED_MODE_LINK10) - { - pDevice->PhyIntMode = T3_PHY_INT_MODE_MI_INTERRUPT; - pDevice->LinkChngMode = T3_LINK_CHNG_MODE_USE_STATUS_REG; - } + pDevice->LedMode == LED_MODE_LINK10) { + pDevice->PhyIntMode = + T3_PHY_INT_MODE_MI_INTERRUPT; + pDevice->LinkChngMode = + T3_LINK_CHNG_MODE_USE_STATUS_REG; + } - if(pDevice->EnableTbi) - { - pDevice->LedMode = LED_MODE_THREE_LINK; - } + if (pDevice->EnableTbi) { + pDevice->LedMode = LED_MODE_THREE_LINK; + } + } else { + if (EeSigFound && EePhyLedMode != LED_MODE_AUTO) { + pDevice->LedMode = EePhyLedMode; + } else { + pDevice->LedMode = LED_MODE_OPEN_DRAIN; + } + } } - else - { - if(EeSigFound && EePhyLedMode != LED_MODE_AUTO) - { - pDevice->LedMode = EePhyLedMode; - } - else - { - pDevice->LedMode = LED_MODE_OPEN_DRAIN; - } - } - } - - /* Enable OneDmaAtOnce. */ - if(pDevice->OneDmaAtOnce == BAD_DEFAULT_VALUE) - { - pDevice->OneDmaAtOnce = FALSE; - } - - if (T3_ASIC_REV(pDevice->ChipRevId) == T3_ASIC_REV_5700 || - pDevice->ChipRevId == T3_CHIP_ID_5701_A0 || - pDevice->ChipRevId == T3_CHIP_ID_5701_B0 || - pDevice->ChipRevId == T3_CHIP_ID_5701_B2) - { - pDevice->WolSpeed = WOL_SPEED_10MB; - } - else - { - pDevice->WolSpeed = WOL_SPEED_100MB; - } - - /* Offloadings. */ - pDevice->TaskToOffload = LM_TASK_OFFLOAD_NONE; - - /* Turn off task offloading on Ax. */ - if(pDevice->ChipRevId == T3_CHIP_ID_5700_B0) - { - pDevice->TaskOffloadCap &= ~(LM_TASK_OFFLOAD_TX_TCP_CHECKSUM | - LM_TASK_OFFLOAD_TX_UDP_CHECKSUM); - } - pDevice->PciState = REG_RD(pDevice, PciCfg.PciState); - LM_ReadVPD(pDevice); - LM_ReadBootCodeVersion(pDevice); - LM_GetBusSpeed(pDevice); - - return LM_STATUS_SUCCESS; -} /* LM_GetAdapterInfo */ - -STATIC PLM_ADAPTER_INFO -LM_GetAdapterInfoBySsid( - LM_UINT16 Svid, - LM_UINT16 Ssid) + + /* Enable OneDmaAtOnce. */ + if (pDevice->OneDmaAtOnce == BAD_DEFAULT_VALUE) { + pDevice->OneDmaAtOnce = FALSE; + } + + if (T3_ASIC_REV (pDevice->ChipRevId) == T3_ASIC_REV_5700 || + pDevice->ChipRevId == T3_CHIP_ID_5701_A0 || + pDevice->ChipRevId == T3_CHIP_ID_5701_B0 || + pDevice->ChipRevId == T3_CHIP_ID_5701_B2) { + pDevice->WolSpeed = WOL_SPEED_10MB; + } else { + pDevice->WolSpeed = WOL_SPEED_100MB; + } + + /* Offloadings. */ + pDevice->TaskToOffload = LM_TASK_OFFLOAD_NONE; + + /* Turn off task offloading on Ax. */ + if (pDevice->ChipRevId == T3_CHIP_ID_5700_B0) { + pDevice->TaskOffloadCap &= ~(LM_TASK_OFFLOAD_TX_TCP_CHECKSUM | + LM_TASK_OFFLOAD_TX_UDP_CHECKSUM); + } + pDevice->PciState = REG_RD (pDevice, PciCfg.PciState); + LM_ReadVPD (pDevice); + LM_ReadBootCodeVersion (pDevice); + LM_GetBusSpeed (pDevice); + + return LM_STATUS_SUCCESS; +} /* LM_GetAdapterInfo */ + +STATIC PLM_ADAPTER_INFO LM_GetAdapterInfoBySsid (LM_UINT16 Svid, LM_UINT16 Ssid) { - static LM_ADAPTER_INFO AdapterArr[] = - { - { T3_SVID_BROADCOM, T3_SSID_BROADCOM_BCM95700A6, PHY_BCM5401_PHY_ID, 0}, - { T3_SVID_BROADCOM, T3_SSID_BROADCOM_BCM95701A5, PHY_BCM5701_PHY_ID, 0}, - { T3_SVID_BROADCOM, T3_SSID_BROADCOM_BCM95700T6, PHY_BCM8002_PHY_ID, 1}, - { T3_SVID_BROADCOM, T3_SSID_BROADCOM_BCM95700A9, 0, 1 }, - { T3_SVID_BROADCOM, T3_SSID_BROADCOM_BCM95701T1, PHY_BCM5701_PHY_ID, 0}, - { T3_SVID_BROADCOM, T3_SSID_BROADCOM_BCM95701T8, PHY_BCM5701_PHY_ID, 0}, - { T3_SVID_BROADCOM, T3_SSID_BROADCOM_BCM95701A7, 0, 1}, - { T3_SVID_BROADCOM, T3_SSID_BROADCOM_BCM95701A10, PHY_BCM5701_PHY_ID, 0}, - { T3_SVID_BROADCOM, T3_SSID_BROADCOM_BCM95701A12, PHY_BCM5701_PHY_ID, 0}, - { T3_SVID_BROADCOM, T3_SSID_BROADCOM_BCM95703Ax1, PHY_BCM5701_PHY_ID, 0}, - { T3_SVID_BROADCOM, T3_SSID_BROADCOM_BCM95703Ax2, PHY_BCM5701_PHY_ID, 0}, - - { T3_SVID_3COM, T3_SSID_3COM_3C996T, PHY_BCM5401_PHY_ID, 0 }, - { T3_SVID_3COM, T3_SSID_3COM_3C996BT, PHY_BCM5701_PHY_ID, 0 }, - { T3_SVID_3COM, T3_SSID_3COM_3C996SX, 0, 1 }, - { T3_SVID_3COM, T3_SSID_3COM_3C1000T, PHY_BCM5701_PHY_ID, 0 }, - { T3_SVID_3COM, T3_SSID_3COM_3C940BR01, PHY_BCM5701_PHY_ID, 0 }, - - { T3_SVID_DELL, T3_SSID_DELL_VIPER, PHY_BCM5401_PHY_ID, 0 }, - { T3_SVID_DELL, T3_SSID_DELL_JAGUAR, PHY_BCM5401_PHY_ID, 0 }, - { T3_SVID_DELL, T3_SSID_DELL_MERLOT, PHY_BCM5411_PHY_ID, 0 }, - { T3_SVID_DELL, T3_SSID_DELL_SLIM_MERLOT, PHY_BCM5411_PHY_ID, 0 }, - - { T3_SVID_COMPAQ, T3_SSID_COMPAQ_BANSHEE, PHY_BCM5701_PHY_ID, 0 }, - { T3_SVID_COMPAQ, T3_SSID_COMPAQ_BANSHEE_2, PHY_BCM5701_PHY_ID, 0 }, - { T3_SVID_COMPAQ, T3_SSID_COMPAQ_CHANGELING, 0, 1 }, - { T3_SVID_COMPAQ, T3_SSID_COMPAQ_NC7780, PHY_BCM5701_PHY_ID, 0 }, - { T3_SVID_COMPAQ, T3_SSID_COMPAQ_NC7780_2, PHY_BCM5701_PHY_ID, 0 }, - - }; - LM_UINT32 j; - - for(j = 0; j < sizeof(AdapterArr)/sizeof(LM_ADAPTER_INFO); j++) - { - if(AdapterArr[j].Svid == Svid && AdapterArr[j].Ssid == Ssid) - { - return &AdapterArr[j]; + static LM_ADAPTER_INFO AdapterArr[] = { + {T3_SVID_BROADCOM, T3_SSID_BROADCOM_BCM95700A6, + PHY_BCM5401_PHY_ID, 0}, + {T3_SVID_BROADCOM, T3_SSID_BROADCOM_BCM95701A5, + PHY_BCM5701_PHY_ID, 0}, + {T3_SVID_BROADCOM, T3_SSID_BROADCOM_BCM95700T6, + PHY_BCM8002_PHY_ID, 1}, + {T3_SVID_BROADCOM, T3_SSID_BROADCOM_BCM95700A9, 0, 1}, + {T3_SVID_BROADCOM, T3_SSID_BROADCOM_BCM95701T1, + PHY_BCM5701_PHY_ID, 0}, + {T3_SVID_BROADCOM, T3_SSID_BROADCOM_BCM95701T8, + PHY_BCM5701_PHY_ID, 0}, + {T3_SVID_BROADCOM, T3_SSID_BROADCOM_BCM95701A7, 0, 1}, + {T3_SVID_BROADCOM, T3_SSID_BROADCOM_BCM95701A10, + PHY_BCM5701_PHY_ID, 0}, + {T3_SVID_BROADCOM, T3_SSID_BROADCOM_BCM95701A12, + PHY_BCM5701_PHY_ID, 0}, + {T3_SVID_BROADCOM, T3_SSID_BROADCOM_BCM95703Ax1, + PHY_BCM5701_PHY_ID, 0}, + {T3_SVID_BROADCOM, T3_SSID_BROADCOM_BCM95703Ax2, + PHY_BCM5701_PHY_ID, 0}, + + {T3_SVID_3COM, T3_SSID_3COM_3C996T, PHY_BCM5401_PHY_ID, 0}, + {T3_SVID_3COM, T3_SSID_3COM_3C996BT, PHY_BCM5701_PHY_ID, 0}, + {T3_SVID_3COM, T3_SSID_3COM_3C996SX, 0, 1}, + {T3_SVID_3COM, T3_SSID_3COM_3C1000T, PHY_BCM5701_PHY_ID, 0}, + {T3_SVID_3COM, T3_SSID_3COM_3C940BR01, PHY_BCM5701_PHY_ID, 0}, + + {T3_SVID_DELL, T3_SSID_DELL_VIPER, PHY_BCM5401_PHY_ID, 0}, + {T3_SVID_DELL, T3_SSID_DELL_JAGUAR, PHY_BCM5401_PHY_ID, 0}, + {T3_SVID_DELL, T3_SSID_DELL_MERLOT, PHY_BCM5411_PHY_ID, 0}, + {T3_SVID_DELL, T3_SSID_DELL_SLIM_MERLOT, PHY_BCM5411_PHY_ID, 0}, + + {T3_SVID_COMPAQ, T3_SSID_COMPAQ_BANSHEE, PHY_BCM5701_PHY_ID, 0}, + {T3_SVID_COMPAQ, T3_SSID_COMPAQ_BANSHEE_2, PHY_BCM5701_PHY_ID, + 0}, + {T3_SVID_COMPAQ, T3_SSID_COMPAQ_CHANGELING, 0, 1}, + {T3_SVID_COMPAQ, T3_SSID_COMPAQ_NC7780, PHY_BCM5701_PHY_ID, 0}, + {T3_SVID_COMPAQ, T3_SSID_COMPAQ_NC7780_2, PHY_BCM5701_PHY_ID, + 0}, + + }; + LM_UINT32 j; + + for (j = 0; j < sizeof (AdapterArr) / sizeof (LM_ADAPTER_INFO); j++) { + if (AdapterArr[j].Svid == Svid && AdapterArr[j].Ssid == Ssid) { + return &AdapterArr[j]; + } } - } - return NULL; + return NULL; } - /******************************************************************************/ /* Description: */ /* This routine sets up receive/transmit buffer descriptions queues. */ @@ -1638,237 +1489,226 @@ LM_GetAdapterInfoBySsid( /* Return: */ /* LM_STATUS_SUCCESS */ /******************************************************************************/ -LM_STATUS -LM_InitializeAdapter( -PLM_DEVICE_BLOCK pDevice) +LM_STATUS LM_InitializeAdapter (PLM_DEVICE_BLOCK pDevice) { - LM_PHYSICAL_ADDRESS MemPhy; - PLM_UINT8 pMemVirt; - PLM_PACKET pPacket; - LM_STATUS Status; - LM_UINT32 Size; - LM_UINT32 j; - - /* Set power state to D0. */ - LM_SetPowerState(pDevice, LM_POWER_STATE_D0); - - /* Intialize the queues. */ - QQ_InitQueue(&pDevice->RxPacketReceivedQ.Container, - MAX_RX_PACKET_DESC_COUNT); - QQ_InitQueue(&pDevice->RxPacketFreeQ.Container, - MAX_RX_PACKET_DESC_COUNT); - - QQ_InitQueue(&pDevice->TxPacketFreeQ.Container,MAX_TX_PACKET_DESC_COUNT); - QQ_InitQueue(&pDevice->TxPacketActiveQ.Container,MAX_TX_PACKET_DESC_COUNT); - QQ_InitQueue(&pDevice->TxPacketXmittedQ.Container,MAX_TX_PACKET_DESC_COUNT); - - /* Allocate shared memory for: status block, the buffers for receive */ - /* rings -- standard, mini, jumbo, and return rings. */ - Size = T3_STATUS_BLOCK_SIZE + sizeof(T3_STATS_BLOCK) + - T3_STD_RCV_RCB_ENTRY_COUNT * sizeof(T3_RCV_BD) + + LM_PHYSICAL_ADDRESS MemPhy; + PLM_UINT8 pMemVirt; + PLM_PACKET pPacket; + LM_STATUS Status; + LM_UINT32 Size; + LM_UINT32 j; + + /* Set power state to D0. */ + LM_SetPowerState (pDevice, LM_POWER_STATE_D0); + + /* Intialize the queues. */ + QQ_InitQueue (&pDevice->RxPacketReceivedQ.Container, + MAX_RX_PACKET_DESC_COUNT); + QQ_InitQueue (&pDevice->RxPacketFreeQ.Container, + MAX_RX_PACKET_DESC_COUNT); + + QQ_InitQueue (&pDevice->TxPacketFreeQ.Container, + MAX_TX_PACKET_DESC_COUNT); + QQ_InitQueue (&pDevice->TxPacketActiveQ.Container, + MAX_TX_PACKET_DESC_COUNT); + QQ_InitQueue (&pDevice->TxPacketXmittedQ.Container, + MAX_TX_PACKET_DESC_COUNT); + + /* Allocate shared memory for: status block, the buffers for receive */ + /* rings -- standard, mini, jumbo, and return rings. */ + Size = T3_STATUS_BLOCK_SIZE + sizeof (T3_STATS_BLOCK) + + T3_STD_RCV_RCB_ENTRY_COUNT * sizeof (T3_RCV_BD) + #if T3_JUMBO_RCV_RCB_ENTRY_COUNT - T3_JUMBO_RCV_RCB_ENTRY_COUNT * sizeof(T3_RCV_BD) + -#endif /* T3_JUMBO_RCV_RCB_ENTRY_COUNT */ - T3_RCV_RETURN_RCB_ENTRY_COUNT * sizeof(T3_RCV_BD); - - /* Memory for host based Send BD. */ - if(pDevice->NicSendBd == FALSE) - { - Size += sizeof(T3_SND_BD) * T3_SEND_RCB_ENTRY_COUNT; - } - - /* Allocate the memory block. */ - Status = MM_AllocateSharedMemory(pDevice, Size, (PLM_VOID) &pMemVirt, &MemPhy, FALSE); - if(Status != LM_STATUS_SUCCESS) - { - return Status; - } - - /* Program DMA Read/Write */ - if (pDevice->PciState & T3_PCI_STATE_NOT_PCI_X_BUS) - { - pDevice->DmaReadWriteCtrl = 0x763f000f; - } - else - { - if(T3_ASIC_REV(pDevice->ChipRevId) == T3_ASIC_REV_5704) - { - pDevice->DmaReadWriteCtrl = 0x761f0000; + T3_JUMBO_RCV_RCB_ENTRY_COUNT * sizeof (T3_RCV_BD) + +#endif /* T3_JUMBO_RCV_RCB_ENTRY_COUNT */ + T3_RCV_RETURN_RCB_ENTRY_COUNT * sizeof (T3_RCV_BD); + + /* Memory for host based Send BD. */ + if (pDevice->NicSendBd == FALSE) { + Size += sizeof (T3_SND_BD) * T3_SEND_RCB_ENTRY_COUNT; + } + + /* Allocate the memory block. */ + Status = + MM_AllocateSharedMemory (pDevice, Size, (PLM_VOID) & pMemVirt, + &MemPhy, FALSE); + if (Status != LM_STATUS_SUCCESS) { + return Status; + } + + /* Program DMA Read/Write */ + if (pDevice->PciState & T3_PCI_STATE_NOT_PCI_X_BUS) { + pDevice->DmaReadWriteCtrl = 0x763f000f; + } else { + if (T3_ASIC_REV (pDevice->ChipRevId) == T3_ASIC_REV_5704) { + pDevice->DmaReadWriteCtrl = 0x761f0000; + } else { + pDevice->DmaReadWriteCtrl = 0x761b000f; + } + if (pDevice->ChipRevId == T3_CHIP_ID_5703_A1 || + pDevice->ChipRevId == T3_CHIP_ID_5703_A2) { + pDevice->OneDmaAtOnce = TRUE; + } } - else - { - pDevice->DmaReadWriteCtrl = 0x761b000f; + if (T3_ASIC_REV (pDevice->ChipRevId) == T3_ASIC_REV_5703) { + pDevice->DmaReadWriteCtrl &= 0xfffffff0; } - if(pDevice->ChipRevId == T3_CHIP_ID_5703_A1 || - pDevice->ChipRevId == T3_CHIP_ID_5703_A2) - { - pDevice->OneDmaAtOnce = TRUE; - } - } - if(T3_ASIC_REV(pDevice->ChipRevId) == T3_ASIC_REV_5703) - { - pDevice->DmaReadWriteCtrl &= 0xfffffff0; - } - - if(pDevice->OneDmaAtOnce) - { - pDevice->DmaReadWriteCtrl |= DMA_CTRL_WRITE_ONE_DMA_AT_ONCE; - } - REG_WR(pDevice, PciCfg.DmaReadWriteCtrl, pDevice->DmaReadWriteCtrl); - - if (LM_DmaTest(pDevice, pMemVirt, MemPhy, 0x400) != LM_STATUS_SUCCESS) - { - return LM_STATUS_FAILURE; - } - /* Status block. */ - pDevice->pStatusBlkVirt = (PT3_STATUS_BLOCK) pMemVirt; - pDevice->StatusBlkPhy = MemPhy; - pMemVirt += T3_STATUS_BLOCK_SIZE; - LM_INC_PHYSICAL_ADDRESS(&MemPhy, T3_STATUS_BLOCK_SIZE); + if (pDevice->OneDmaAtOnce) { + pDevice->DmaReadWriteCtrl |= DMA_CTRL_WRITE_ONE_DMA_AT_ONCE; + } + REG_WR (pDevice, PciCfg.DmaReadWriteCtrl, pDevice->DmaReadWriteCtrl); + + if (LM_DmaTest (pDevice, pMemVirt, MemPhy, 0x400) != LM_STATUS_SUCCESS) { + return LM_STATUS_FAILURE; + } - /* Statistics block. */ - pDevice->pStatsBlkVirt = (PT3_STATS_BLOCK) pMemVirt; - pDevice->StatsBlkPhy = MemPhy; - pMemVirt += sizeof(T3_STATS_BLOCK); - LM_INC_PHYSICAL_ADDRESS(&MemPhy, sizeof(T3_STATS_BLOCK)); + /* Status block. */ + pDevice->pStatusBlkVirt = (PT3_STATUS_BLOCK) pMemVirt; + pDevice->StatusBlkPhy = MemPhy; + pMemVirt += T3_STATUS_BLOCK_SIZE; + LM_INC_PHYSICAL_ADDRESS (&MemPhy, T3_STATUS_BLOCK_SIZE); - /* Receive standard BD buffer. */ - pDevice->pRxStdBdVirt = (PT3_RCV_BD) pMemVirt; - pDevice->RxStdBdPhy = MemPhy; + /* Statistics block. */ + pDevice->pStatsBlkVirt = (PT3_STATS_BLOCK) pMemVirt; + pDevice->StatsBlkPhy = MemPhy; + pMemVirt += sizeof (T3_STATS_BLOCK); + LM_INC_PHYSICAL_ADDRESS (&MemPhy, sizeof (T3_STATS_BLOCK)); - pMemVirt += T3_STD_RCV_RCB_ENTRY_COUNT * sizeof(T3_RCV_BD); - LM_INC_PHYSICAL_ADDRESS(&MemPhy, - T3_STD_RCV_RCB_ENTRY_COUNT * sizeof(T3_RCV_BD)); + /* Receive standard BD buffer. */ + pDevice->pRxStdBdVirt = (PT3_RCV_BD) pMemVirt; + pDevice->RxStdBdPhy = MemPhy; + + pMemVirt += T3_STD_RCV_RCB_ENTRY_COUNT * sizeof (T3_RCV_BD); + LM_INC_PHYSICAL_ADDRESS (&MemPhy, + T3_STD_RCV_RCB_ENTRY_COUNT * + sizeof (T3_RCV_BD)); #if T3_JUMBO_RCV_RCB_ENTRY_COUNT - /* Receive jumbo BD buffer. */ - pDevice->pRxJumboBdVirt = (PT3_RCV_BD) pMemVirt; - pDevice->RxJumboBdPhy = MemPhy; - - pMemVirt += T3_JUMBO_RCV_RCB_ENTRY_COUNT * sizeof(T3_RCV_BD); - LM_INC_PHYSICAL_ADDRESS(&MemPhy, - T3_JUMBO_RCV_RCB_ENTRY_COUNT * sizeof(T3_RCV_BD)); -#endif /* T3_JUMBO_RCV_RCB_ENTRY_COUNT */ - - /* Receive return BD buffer. */ - pDevice->pRcvRetBdVirt = (PT3_RCV_BD) pMemVirt; - pDevice->RcvRetBdPhy = MemPhy; - - pMemVirt += T3_RCV_RETURN_RCB_ENTRY_COUNT * sizeof(T3_RCV_BD); - LM_INC_PHYSICAL_ADDRESS(&MemPhy, - T3_RCV_RETURN_RCB_ENTRY_COUNT * sizeof(T3_RCV_BD)); - - /* Set up Send BD. */ - if(pDevice->NicSendBd == FALSE) - { - pDevice->pSendBdVirt = (PT3_SND_BD) pMemVirt; - pDevice->SendBdPhy = MemPhy; - - pMemVirt += sizeof(T3_SND_BD) * T3_SEND_RCB_ENTRY_COUNT; - LM_INC_PHYSICAL_ADDRESS(&MemPhy, - sizeof(T3_SND_BD) * T3_SEND_RCB_ENTRY_COUNT); - } - else - { - pDevice->pSendBdVirt = (PT3_SND_BD) - pDevice->pMemView->uIntMem.First32k.BufferDesc; - pDevice->SendBdPhy.High = 0; - pDevice->SendBdPhy.Low = T3_NIC_SND_BUFFER_DESC_ADDR; - } - - /* Allocate memory for packet descriptors. */ - Size = (pDevice->RxPacketDescCnt + - pDevice->TxPacketDescCnt) * MM_PACKET_DESC_SIZE; - Status = MM_AllocateMemory(pDevice, Size, (PLM_VOID *) &pPacket); - if(Status != LM_STATUS_SUCCESS) - { - return Status; - } - pDevice->pPacketDescBase = (PLM_VOID) pPacket; - - /* Create transmit packet descriptors from the memory block and add them */ - /* to the TxPacketFreeQ for each send ring. */ - for(j = 0; j < pDevice->TxPacketDescCnt; j++) - { - /* Ring index. */ - pPacket->Flags = 0; - - /* Queue the descriptor in the TxPacketFreeQ of the 'k' ring. */ - QQ_PushTail(&pDevice->TxPacketFreeQ.Container, pPacket); - - /* Get the pointer to the next descriptor. MM_PACKET_DESC_SIZE */ - /* is the total size of the packet descriptor including the */ - /* os-specific extensions in the UM_PACKET structure. */ - pPacket = (PLM_PACKET) ((PLM_UINT8) pPacket + MM_PACKET_DESC_SIZE); - } /* for(j.. */ - - /* Create receive packet descriptors from the memory block and add them */ - /* to the RxPacketFreeQ. Create the Standard packet descriptors. */ - for(j = 0; j < pDevice->RxStdDescCnt; j++) - { - /* Receive producer ring. */ - pPacket->u.Rx.RcvProdRing = T3_STD_RCV_PROD_RING; - - /* Receive buffer size. */ - pPacket->u.Rx.RxBufferSize = MAX_STD_RCV_BUFFER_SIZE; - - /* Add the descriptor to RxPacketFreeQ. */ - QQ_PushTail(&pDevice->RxPacketFreeQ.Container, pPacket); - - /* Get the pointer to the next descriptor. MM_PACKET_DESC_SIZE */ - /* is the total size of the packet descriptor including the */ - /* os-specific extensions in the UM_PACKET structure. */ - pPacket = (PLM_PACKET) ((PLM_UINT8) pPacket + MM_PACKET_DESC_SIZE); - } /* for */ + /* Receive jumbo BD buffer. */ + pDevice->pRxJumboBdVirt = (PT3_RCV_BD) pMemVirt; + pDevice->RxJumboBdPhy = MemPhy; + + pMemVirt += T3_JUMBO_RCV_RCB_ENTRY_COUNT * sizeof (T3_RCV_BD); + LM_INC_PHYSICAL_ADDRESS (&MemPhy, + T3_JUMBO_RCV_RCB_ENTRY_COUNT * + sizeof (T3_RCV_BD)); +#endif /* T3_JUMBO_RCV_RCB_ENTRY_COUNT */ + + /* Receive return BD buffer. */ + pDevice->pRcvRetBdVirt = (PT3_RCV_BD) pMemVirt; + pDevice->RcvRetBdPhy = MemPhy; + + pMemVirt += T3_RCV_RETURN_RCB_ENTRY_COUNT * sizeof (T3_RCV_BD); + LM_INC_PHYSICAL_ADDRESS (&MemPhy, + T3_RCV_RETURN_RCB_ENTRY_COUNT * + sizeof (T3_RCV_BD)); + + /* Set up Send BD. */ + if (pDevice->NicSendBd == FALSE) { + pDevice->pSendBdVirt = (PT3_SND_BD) pMemVirt; + pDevice->SendBdPhy = MemPhy; + + pMemVirt += sizeof (T3_SND_BD) * T3_SEND_RCB_ENTRY_COUNT; + LM_INC_PHYSICAL_ADDRESS (&MemPhy, + sizeof (T3_SND_BD) * + T3_SEND_RCB_ENTRY_COUNT); + } else { + pDevice->pSendBdVirt = (PT3_SND_BD) + pDevice->pMemView->uIntMem.First32k.BufferDesc; + pDevice->SendBdPhy.High = 0; + pDevice->SendBdPhy.Low = T3_NIC_SND_BUFFER_DESC_ADDR; + } + + /* Allocate memory for packet descriptors. */ + Size = (pDevice->RxPacketDescCnt + + pDevice->TxPacketDescCnt) * MM_PACKET_DESC_SIZE; + Status = MM_AllocateMemory (pDevice, Size, (PLM_VOID *) & pPacket); + if (Status != LM_STATUS_SUCCESS) { + return Status; + } + pDevice->pPacketDescBase = (PLM_VOID) pPacket; + + /* Create transmit packet descriptors from the memory block and add them */ + /* to the TxPacketFreeQ for each send ring. */ + for (j = 0; j < pDevice->TxPacketDescCnt; j++) { + /* Ring index. */ + pPacket->Flags = 0; + + /* Queue the descriptor in the TxPacketFreeQ of the 'k' ring. */ + QQ_PushTail (&pDevice->TxPacketFreeQ.Container, pPacket); + + /* Get the pointer to the next descriptor. MM_PACKET_DESC_SIZE */ + /* is the total size of the packet descriptor including the */ + /* os-specific extensions in the UM_PACKET structure. */ + pPacket = + (PLM_PACKET) ((PLM_UINT8) pPacket + MM_PACKET_DESC_SIZE); + } /* for(j.. */ + + /* Create receive packet descriptors from the memory block and add them */ + /* to the RxPacketFreeQ. Create the Standard packet descriptors. */ + for (j = 0; j < pDevice->RxStdDescCnt; j++) { + /* Receive producer ring. */ + pPacket->u.Rx.RcvProdRing = T3_STD_RCV_PROD_RING; + + /* Receive buffer size. */ + pPacket->u.Rx.RxBufferSize = MAX_STD_RCV_BUFFER_SIZE; + + /* Add the descriptor to RxPacketFreeQ. */ + QQ_PushTail (&pDevice->RxPacketFreeQ.Container, pPacket); + + /* Get the pointer to the next descriptor. MM_PACKET_DESC_SIZE */ + /* is the total size of the packet descriptor including the */ + /* os-specific extensions in the UM_PACKET structure. */ + pPacket = + (PLM_PACKET) ((PLM_UINT8) pPacket + MM_PACKET_DESC_SIZE); + } /* for */ #if T3_JUMBO_RCV_RCB_ENTRY_COUNT - /* Create the Jumbo packet descriptors. */ - for(j = 0; j < pDevice->RxJumboDescCnt; j++) - { - /* Receive producer ring. */ - pPacket->u.Rx.RcvProdRing = T3_JUMBO_RCV_PROD_RING; - - /* Receive buffer size. */ - pPacket->u.Rx.RxBufferSize = pDevice->RxJumboBufferSize; - - /* Add the descriptor to RxPacketFreeQ. */ - QQ_PushTail(&pDevice->RxPacketFreeQ.Container, pPacket); - - /* Get the pointer to the next descriptor. MM_PACKET_DESC_SIZE */ - /* is the total size of the packet descriptor including the */ - /* os-specific extensions in the UM_PACKET structure. */ - pPacket = (PLM_PACKET) ((PLM_UINT8) pPacket + MM_PACKET_DESC_SIZE); - } /* for */ -#endif /* T3_JUMBO_RCV_RCB_ENTRY_COUNT */ - - /* Initialize the rest of the packet descriptors. */ - Status = MM_InitializeUmPackets(pDevice); - if(Status != LM_STATUS_SUCCESS) - { - return Status; - } /* if */ + /* Create the Jumbo packet descriptors. */ + for (j = 0; j < pDevice->RxJumboDescCnt; j++) { + /* Receive producer ring. */ + pPacket->u.Rx.RcvProdRing = T3_JUMBO_RCV_PROD_RING; - /* Default receive mask. */ - pDevice->ReceiveMask = LM_ACCEPT_MULTICAST | LM_ACCEPT_BROADCAST | - LM_ACCEPT_UNICAST; + /* Receive buffer size. */ + pPacket->u.Rx.RxBufferSize = pDevice->RxJumboBufferSize; - /* Make sure we are in the first 32k memory window or NicSendBd. */ - REG_WR(pDevice, PciCfg.MemWindowBaseAddr, 0); + /* Add the descriptor to RxPacketFreeQ. */ + QQ_PushTail (&pDevice->RxPacketFreeQ.Container, pPacket); - /* Initialize the hardware. */ - Status = LM_ResetAdapter(pDevice); - if(Status != LM_STATUS_SUCCESS) - { - return Status; - } + /* Get the pointer to the next descriptor. MM_PACKET_DESC_SIZE */ + /* is the total size of the packet descriptor including the */ + /* os-specific extensions in the UM_PACKET structure. */ + pPacket = + (PLM_PACKET) ((PLM_UINT8) pPacket + MM_PACKET_DESC_SIZE); + } /* for */ +#endif /* T3_JUMBO_RCV_RCB_ENTRY_COUNT */ - /* We are done with initialization. */ - pDevice->InitDone = TRUE; + /* Initialize the rest of the packet descriptors. */ + Status = MM_InitializeUmPackets (pDevice); + if (Status != LM_STATUS_SUCCESS) { + return Status; + } + + /* if */ + /* Default receive mask. */ + pDevice->ReceiveMask = LM_ACCEPT_MULTICAST | LM_ACCEPT_BROADCAST | + LM_ACCEPT_UNICAST; - return LM_STATUS_SUCCESS; -} /* LM_InitializeAdapter */ + /* Make sure we are in the first 32k memory window or NicSendBd. */ + REG_WR (pDevice, PciCfg.MemWindowBaseAddr, 0); + /* Initialize the hardware. */ + Status = LM_ResetAdapter (pDevice); + if (Status != LM_STATUS_SUCCESS) { + return Status; + } + + /* We are done with initialization. */ + pDevice->InitDone = TRUE; + + return LM_STATUS_SUCCESS; +} /* LM_InitializeAdapter */ /******************************************************************************/ /* Description: */ @@ -1878,414 +1718,408 @@ PLM_DEVICE_BLOCK pDevice) /* LM_STATUS_SUCCESS */ /******************************************************************************/ LM_STATUS -LM_CntrlBlock( -PLM_DEVICE_BLOCK pDevice, -LM_UINT32 mask,LM_UINT32 cntrl) +LM_CntrlBlock (PLM_DEVICE_BLOCK pDevice, LM_UINT32 mask, LM_UINT32 cntrl) { - LM_UINT32 j,i,data; - LM_UINT32 MaxWaitCnt; - - MaxWaitCnt = 2; - j = 0; - - for(i = 0 ; i < 32; i++) - { - if(!(mask & (1 << i))) - continue; - - switch (1 << i) - { - case T3_BLOCK_DMA_RD: - data = REG_RD(pDevice, DmaRead.Mode); - if (cntrl == LM_DISABLE) - { - data &= ~DMA_READ_MODE_ENABLE; - REG_WR(pDevice, DmaRead.Mode, data); - for(j = 0; j < MaxWaitCnt; j++) - { - if(!(REG_RD(pDevice, DmaRead.Mode) & DMA_READ_MODE_ENABLE)) - break; - MM_Wait(10); - } - } - else - REG_WR(pDevice, DmaRead.Mode, data | DMA_READ_MODE_ENABLE); - break; - - case T3_BLOCK_DMA_COMP: - data = REG_RD(pDevice,DmaComp.Mode); - if (cntrl == LM_DISABLE) - { - data &= ~DMA_COMP_MODE_ENABLE; - REG_WR(pDevice, DmaComp.Mode, data); - for(j = 0; j < MaxWaitCnt; j++) - { - if(!(REG_RD(pDevice, DmaComp.Mode) & DMA_COMP_MODE_ENABLE)) - break; - MM_Wait(10); - } - } - else - REG_WR(pDevice, DmaComp.Mode, data | DMA_COMP_MODE_ENABLE); - break; + LM_UINT32 j, i, data; + LM_UINT32 MaxWaitCnt; + + MaxWaitCnt = 2; + j = 0; + + for (i = 0; i < 32; i++) { + if (!(mask & (1 << i))) + continue; + + switch (1 << i) { + case T3_BLOCK_DMA_RD: + data = REG_RD (pDevice, DmaRead.Mode); + if (cntrl == LM_DISABLE) { + data &= ~DMA_READ_MODE_ENABLE; + REG_WR (pDevice, DmaRead.Mode, data); + for (j = 0; j < MaxWaitCnt; j++) { + if (! + (REG_RD (pDevice, DmaRead.Mode) & + DMA_READ_MODE_ENABLE)) + break; + MM_Wait (10); + } + } else + REG_WR (pDevice, DmaRead.Mode, + data | DMA_READ_MODE_ENABLE); + break; - case T3_BLOCK_RX_BD_INITIATOR: - data = REG_RD(pDevice, RcvBdIn.Mode); - if (cntrl == LM_DISABLE) - { - data &= ~RCV_BD_IN_MODE_ENABLE; - REG_WR(pDevice, RcvBdIn.Mode,data); - for(j = 0; j < MaxWaitCnt; j++) - { - if(!(REG_RD(pDevice, RcvBdIn.Mode) & RCV_BD_IN_MODE_ENABLE)) - break; - MM_Wait(10); - } - } - else - REG_WR(pDevice, RcvBdIn.Mode,data | RCV_BD_IN_MODE_ENABLE); - break; + case T3_BLOCK_DMA_COMP: + data = REG_RD (pDevice, DmaComp.Mode); + if (cntrl == LM_DISABLE) { + data &= ~DMA_COMP_MODE_ENABLE; + REG_WR (pDevice, DmaComp.Mode, data); + for (j = 0; j < MaxWaitCnt; j++) { + if (! + (REG_RD (pDevice, DmaComp.Mode) & + DMA_COMP_MODE_ENABLE)) + break; + MM_Wait (10); + } + } else + REG_WR (pDevice, DmaComp.Mode, + data | DMA_COMP_MODE_ENABLE); + break; - case T3_BLOCK_RX_BD_COMP: - data = REG_RD(pDevice, RcvBdComp.Mode); - if (cntrl == LM_DISABLE) - { - data &= ~RCV_BD_COMP_MODE_ENABLE; - REG_WR(pDevice, RcvBdComp.Mode,data); - for(j = 0; j < MaxWaitCnt; j++) - { - if(!(REG_RD(pDevice, RcvBdComp.Mode) & RCV_BD_COMP_MODE_ENABLE)) - break; - MM_Wait(10); - } - } - else - REG_WR(pDevice, RcvBdComp.Mode,data | RCV_BD_COMP_MODE_ENABLE); - break; + case T3_BLOCK_RX_BD_INITIATOR: + data = REG_RD (pDevice, RcvBdIn.Mode); + if (cntrl == LM_DISABLE) { + data &= ~RCV_BD_IN_MODE_ENABLE; + REG_WR (pDevice, RcvBdIn.Mode, data); + for (j = 0; j < MaxWaitCnt; j++) { + if (! + (REG_RD (pDevice, RcvBdIn.Mode) & + RCV_BD_IN_MODE_ENABLE)) + break; + MM_Wait (10); + } + } else + REG_WR (pDevice, RcvBdIn.Mode, + data | RCV_BD_IN_MODE_ENABLE); + break; - case T3_BLOCK_DMA_WR: - data = REG_RD(pDevice, DmaWrite.Mode); - if (cntrl == LM_DISABLE) - { - data &= ~DMA_WRITE_MODE_ENABLE; - REG_WR(pDevice, DmaWrite.Mode,data); + case T3_BLOCK_RX_BD_COMP: + data = REG_RD (pDevice, RcvBdComp.Mode); + if (cntrl == LM_DISABLE) { + data &= ~RCV_BD_COMP_MODE_ENABLE; + REG_WR (pDevice, RcvBdComp.Mode, data); + for (j = 0; j < MaxWaitCnt; j++) { + if (! + (REG_RD (pDevice, RcvBdComp.Mode) & + RCV_BD_COMP_MODE_ENABLE)) + break; + MM_Wait (10); + } + } else + REG_WR (pDevice, RcvBdComp.Mode, + data | RCV_BD_COMP_MODE_ENABLE); + break; - for(j = 0; j < MaxWaitCnt; j++) - { - if(!(REG_RD(pDevice, DmaWrite.Mode) & DMA_WRITE_MODE_ENABLE)) - break; - MM_Wait(10); - } - } - else - REG_WR(pDevice, DmaWrite.Mode,data | DMA_WRITE_MODE_ENABLE); - break; + case T3_BLOCK_DMA_WR: + data = REG_RD (pDevice, DmaWrite.Mode); + if (cntrl == LM_DISABLE) { + data &= ~DMA_WRITE_MODE_ENABLE; + REG_WR (pDevice, DmaWrite.Mode, data); + + for (j = 0; j < MaxWaitCnt; j++) { + if (! + (REG_RD (pDevice, DmaWrite.Mode) & + DMA_WRITE_MODE_ENABLE)) + break; + MM_Wait (10); + } + } else + REG_WR (pDevice, DmaWrite.Mode, + data | DMA_WRITE_MODE_ENABLE); + break; - case T3_BLOCK_MSI_HANDLER: - data = REG_RD(pDevice, Msi.Mode); - if (cntrl == LM_DISABLE) - { - data &= ~MSI_MODE_ENABLE; - REG_WR(pDevice, Msi.Mode, data); - for(j = 0; j < MaxWaitCnt; j++) - { - if(!(REG_RD(pDevice, Msi.Mode) & MSI_MODE_ENABLE)) - break; - MM_Wait(10); - } - } - else - REG_WR(pDevice, Msi.Mode, data |MSI_MODE_ENABLE); - break; + case T3_BLOCK_MSI_HANDLER: + data = REG_RD (pDevice, Msi.Mode); + if (cntrl == LM_DISABLE) { + data &= ~MSI_MODE_ENABLE; + REG_WR (pDevice, Msi.Mode, data); + for (j = 0; j < MaxWaitCnt; j++) { + if (! + (REG_RD (pDevice, Msi.Mode) & + MSI_MODE_ENABLE)) + break; + MM_Wait (10); + } + } else + REG_WR (pDevice, Msi.Mode, + data | MSI_MODE_ENABLE); + break; - case T3_BLOCK_RX_LIST_PLMT: - data = REG_RD(pDevice, RcvListPlmt.Mode); - if (cntrl == LM_DISABLE) - { - data &= ~RCV_LIST_PLMT_MODE_ENABLE; - REG_WR(pDevice, RcvListPlmt.Mode,data); - for(j = 0; j < MaxWaitCnt; j++) - { - if(!(REG_RD(pDevice, RcvListPlmt.Mode) & RCV_LIST_PLMT_MODE_ENABLE)) - break; - MM_Wait(10); - } - } - else - REG_WR(pDevice, RcvListPlmt.Mode,data | RCV_LIST_PLMT_MODE_ENABLE); - break; + case T3_BLOCK_RX_LIST_PLMT: + data = REG_RD (pDevice, RcvListPlmt.Mode); + if (cntrl == LM_DISABLE) { + data &= ~RCV_LIST_PLMT_MODE_ENABLE; + REG_WR (pDevice, RcvListPlmt.Mode, data); + for (j = 0; j < MaxWaitCnt; j++) { + if (! + (REG_RD (pDevice, RcvListPlmt.Mode) + & RCV_LIST_PLMT_MODE_ENABLE)) + break; + MM_Wait (10); + } + } else + REG_WR (pDevice, RcvListPlmt.Mode, + data | RCV_LIST_PLMT_MODE_ENABLE); + break; - case T3_BLOCK_RX_LIST_SELECTOR: - data = REG_RD(pDevice, RcvListSel.Mode); - if (cntrl == LM_DISABLE) - { - data &= ~RCV_LIST_SEL_MODE_ENABLE; - REG_WR(pDevice, RcvListSel.Mode,data); - for(j = 0; j < MaxWaitCnt; j++) - { - if(!(REG_RD(pDevice, RcvListSel.Mode) & RCV_LIST_SEL_MODE_ENABLE)) - break; - MM_Wait(10); - } - } - else - REG_WR(pDevice, RcvListSel.Mode,data |RCV_LIST_SEL_MODE_ENABLE); - break; + case T3_BLOCK_RX_LIST_SELECTOR: + data = REG_RD (pDevice, RcvListSel.Mode); + if (cntrl == LM_DISABLE) { + data &= ~RCV_LIST_SEL_MODE_ENABLE; + REG_WR (pDevice, RcvListSel.Mode, data); + for (j = 0; j < MaxWaitCnt; j++) { + if (! + (REG_RD (pDevice, RcvListSel.Mode) & + RCV_LIST_SEL_MODE_ENABLE)) + break; + MM_Wait (10); + } + } else + REG_WR (pDevice, RcvListSel.Mode, + data | RCV_LIST_SEL_MODE_ENABLE); + break; - case T3_BLOCK_RX_DATA_INITIATOR: - data = REG_RD(pDevice, RcvDataBdIn.Mode); - if (cntrl == LM_DISABLE) - { - data &= ~RCV_DATA_BD_IN_MODE_ENABLE; - REG_WR(pDevice, RcvDataBdIn.Mode,data); - for(j = 0; j < MaxWaitCnt; j++) - { - if(!(REG_RD(pDevice, RcvDataBdIn.Mode) & RCV_DATA_BD_IN_MODE_ENABLE)) - break; - MM_Wait(10); - } - } - else - REG_WR(pDevice, RcvDataBdIn.Mode, data | RCV_DATA_BD_IN_MODE_ENABLE); - break; + case T3_BLOCK_RX_DATA_INITIATOR: + data = REG_RD (pDevice, RcvDataBdIn.Mode); + if (cntrl == LM_DISABLE) { + data &= ~RCV_DATA_BD_IN_MODE_ENABLE; + REG_WR (pDevice, RcvDataBdIn.Mode, data); + for (j = 0; j < MaxWaitCnt; j++) { + if (! + (REG_RD (pDevice, RcvDataBdIn.Mode) + & RCV_DATA_BD_IN_MODE_ENABLE)) + break; + MM_Wait (10); + } + } else + REG_WR (pDevice, RcvDataBdIn.Mode, + data | RCV_DATA_BD_IN_MODE_ENABLE); + break; - case T3_BLOCK_RX_DATA_COMP: - data = REG_RD(pDevice, RcvDataComp.Mode); - if (cntrl == LM_DISABLE) - { - data &= ~RCV_DATA_COMP_MODE_ENABLE; - REG_WR(pDevice, RcvDataComp.Mode,data); - for(j = 0; j < MaxWaitCnt; j++) - { - if(!(REG_RD(pDevice, RcvDataBdIn.Mode) & RCV_DATA_COMP_MODE_ENABLE)) - break; - MM_Wait(10); - } - } - else - REG_WR(pDevice, RcvDataComp.Mode,data | RCV_DATA_COMP_MODE_ENABLE); - break; + case T3_BLOCK_RX_DATA_COMP: + data = REG_RD (pDevice, RcvDataComp.Mode); + if (cntrl == LM_DISABLE) { + data &= ~RCV_DATA_COMP_MODE_ENABLE; + REG_WR (pDevice, RcvDataComp.Mode, data); + for (j = 0; j < MaxWaitCnt; j++) { + if (! + (REG_RD (pDevice, RcvDataBdIn.Mode) + & RCV_DATA_COMP_MODE_ENABLE)) + break; + MM_Wait (10); + } + } else + REG_WR (pDevice, RcvDataComp.Mode, + data | RCV_DATA_COMP_MODE_ENABLE); + break; - case T3_BLOCK_HOST_COALESING: - data = REG_RD(pDevice, HostCoalesce.Mode); - if (cntrl == LM_DISABLE) - { - data &= ~HOST_COALESCE_ENABLE; - REG_WR(pDevice, HostCoalesce.Mode, data); - for(j = 0; j < MaxWaitCnt; j++) - { - if(!(REG_RD(pDevice, SndBdIn.Mode) & HOST_COALESCE_ENABLE)) - break; - MM_Wait(10); - } - } - else - REG_WR(pDevice, HostCoalesce.Mode, data | HOST_COALESCE_ENABLE); - break; + case T3_BLOCK_HOST_COALESING: + data = REG_RD (pDevice, HostCoalesce.Mode); + if (cntrl == LM_DISABLE) { + data &= ~HOST_COALESCE_ENABLE; + REG_WR (pDevice, HostCoalesce.Mode, data); + for (j = 0; j < MaxWaitCnt; j++) { + if (! + (REG_RD (pDevice, SndBdIn.Mode) & + HOST_COALESCE_ENABLE)) + break; + MM_Wait (10); + } + } else + REG_WR (pDevice, HostCoalesce.Mode, + data | HOST_COALESCE_ENABLE); + break; - case T3_BLOCK_MAC_RX_ENGINE: - if(cntrl == LM_DISABLE) - { - pDevice->RxMode &= ~RX_MODE_ENABLE; - REG_WR(pDevice, MacCtrl.RxMode, pDevice->RxMode); - for(j = 0; j < MaxWaitCnt; j++) - { - if(!(REG_RD(pDevice, MacCtrl.RxMode) & RX_MODE_ENABLE)) - { - break; + case T3_BLOCK_MAC_RX_ENGINE: + if (cntrl == LM_DISABLE) { + pDevice->RxMode &= ~RX_MODE_ENABLE; + REG_WR (pDevice, MacCtrl.RxMode, + pDevice->RxMode); + for (j = 0; j < MaxWaitCnt; j++) { + if (! + (REG_RD (pDevice, MacCtrl.RxMode) & + RX_MODE_ENABLE)) { + break; + } + MM_Wait (10); + } + } else { + pDevice->RxMode |= RX_MODE_ENABLE; + REG_WR (pDevice, MacCtrl.RxMode, + pDevice->RxMode); } - MM_Wait(10); - } - } - else - { - pDevice->RxMode |= RX_MODE_ENABLE; - REG_WR(pDevice, MacCtrl.RxMode, pDevice->RxMode); - } - break; + break; - case T3_BLOCK_MBUF_CLUSTER_FREE: - data = REG_RD(pDevice, MbufClusterFree.Mode); - if (cntrl == LM_DISABLE) - { - data &= ~MBUF_CLUSTER_FREE_MODE_ENABLE; - REG_WR(pDevice, MbufClusterFree.Mode,data); - for(j = 0; j < MaxWaitCnt; j++) - { - if(!(REG_RD(pDevice, MbufClusterFree.Mode) & MBUF_CLUSTER_FREE_MODE_ENABLE)) - break; - MM_Wait(10); - } - } - else - REG_WR(pDevice, MbufClusterFree.Mode, data | MBUF_CLUSTER_FREE_MODE_ENABLE); - break; + case T3_BLOCK_MBUF_CLUSTER_FREE: + data = REG_RD (pDevice, MbufClusterFree.Mode); + if (cntrl == LM_DISABLE) { + data &= ~MBUF_CLUSTER_FREE_MODE_ENABLE; + REG_WR (pDevice, MbufClusterFree.Mode, data); + for (j = 0; j < MaxWaitCnt; j++) { + if (! + (REG_RD + (pDevice, + MbufClusterFree. + Mode) & + MBUF_CLUSTER_FREE_MODE_ENABLE)) + break; + MM_Wait (10); + } + } else + REG_WR (pDevice, MbufClusterFree.Mode, + data | MBUF_CLUSTER_FREE_MODE_ENABLE); + break; - case T3_BLOCK_SEND_BD_INITIATOR: - data = REG_RD(pDevice, SndBdIn.Mode); - if (cntrl == LM_DISABLE) - { - data &= ~SND_BD_IN_MODE_ENABLE; - REG_WR(pDevice, SndBdIn.Mode, data); - for(j = 0; j < MaxWaitCnt; j++) - { - if(!(REG_RD(pDevice, SndBdIn.Mode) & SND_BD_IN_MODE_ENABLE)) - break; - MM_Wait(10); - } - } - else - REG_WR(pDevice, SndBdIn.Mode, data | SND_BD_IN_MODE_ENABLE); - break; + case T3_BLOCK_SEND_BD_INITIATOR: + data = REG_RD (pDevice, SndBdIn.Mode); + if (cntrl == LM_DISABLE) { + data &= ~SND_BD_IN_MODE_ENABLE; + REG_WR (pDevice, SndBdIn.Mode, data); + for (j = 0; j < MaxWaitCnt; j++) { + if (! + (REG_RD (pDevice, SndBdIn.Mode) & + SND_BD_IN_MODE_ENABLE)) + break; + MM_Wait (10); + } + } else + REG_WR (pDevice, SndBdIn.Mode, + data | SND_BD_IN_MODE_ENABLE); + break; - case T3_BLOCK_SEND_BD_COMP: - data = REG_RD(pDevice, SndBdComp.Mode); - if (cntrl == LM_DISABLE) - { - data &= ~SND_BD_COMP_MODE_ENABLE; - REG_WR(pDevice, SndBdComp.Mode, data); - for(j = 0; j < MaxWaitCnt; j++) - { - if(!(REG_RD(pDevice, SndBdComp.Mode) & SND_BD_COMP_MODE_ENABLE)) - break; - MM_Wait(10); - } - } - else - REG_WR(pDevice, SndBdComp.Mode, data | SND_BD_COMP_MODE_ENABLE); - break; + case T3_BLOCK_SEND_BD_COMP: + data = REG_RD (pDevice, SndBdComp.Mode); + if (cntrl == LM_DISABLE) { + data &= ~SND_BD_COMP_MODE_ENABLE; + REG_WR (pDevice, SndBdComp.Mode, data); + for (j = 0; j < MaxWaitCnt; j++) { + if (! + (REG_RD (pDevice, SndBdComp.Mode) & + SND_BD_COMP_MODE_ENABLE)) + break; + MM_Wait (10); + } + } else + REG_WR (pDevice, SndBdComp.Mode, + data | SND_BD_COMP_MODE_ENABLE); + break; - case T3_BLOCK_SEND_BD_SELECTOR: - data = REG_RD(pDevice, SndBdSel.Mode); - if (cntrl == LM_DISABLE) - { - data &= ~SND_BD_SEL_MODE_ENABLE; - REG_WR(pDevice, SndBdSel.Mode, data); - for(j = 0; j < MaxWaitCnt; j++) - { - if(!(REG_RD(pDevice, SndBdSel.Mode) & SND_BD_SEL_MODE_ENABLE)) - break; - MM_Wait(10); - } - } - else - REG_WR(pDevice, SndBdSel.Mode, data | SND_BD_SEL_MODE_ENABLE); - break; + case T3_BLOCK_SEND_BD_SELECTOR: + data = REG_RD (pDevice, SndBdSel.Mode); + if (cntrl == LM_DISABLE) { + data &= ~SND_BD_SEL_MODE_ENABLE; + REG_WR (pDevice, SndBdSel.Mode, data); + for (j = 0; j < MaxWaitCnt; j++) { + if (! + (REG_RD (pDevice, SndBdSel.Mode) & + SND_BD_SEL_MODE_ENABLE)) + break; + MM_Wait (10); + } + } else + REG_WR (pDevice, SndBdSel.Mode, + data | SND_BD_SEL_MODE_ENABLE); + break; - case T3_BLOCK_SEND_DATA_INITIATOR: - data = REG_RD(pDevice, SndDataIn.Mode); - if (cntrl == LM_DISABLE) - { - data &= ~T3_SND_DATA_IN_MODE_ENABLE; - REG_WR(pDevice, SndDataIn.Mode,data); - for(j = 0; j < MaxWaitCnt; j++) - { - if(!(REG_RD(pDevice, SndDataIn.Mode) & T3_SND_DATA_IN_MODE_ENABLE)) - break; - MM_Wait(10); - } - } - else - REG_WR(pDevice, SndDataIn.Mode,data | T3_SND_DATA_IN_MODE_ENABLE); - break; + case T3_BLOCK_SEND_DATA_INITIATOR: + data = REG_RD (pDevice, SndDataIn.Mode); + if (cntrl == LM_DISABLE) { + data &= ~T3_SND_DATA_IN_MODE_ENABLE; + REG_WR (pDevice, SndDataIn.Mode, data); + for (j = 0; j < MaxWaitCnt; j++) { + if (! + (REG_RD (pDevice, SndDataIn.Mode) & + T3_SND_DATA_IN_MODE_ENABLE)) + break; + MM_Wait (10); + } + } else + REG_WR (pDevice, SndDataIn.Mode, + data | T3_SND_DATA_IN_MODE_ENABLE); + break; - case T3_BLOCK_SEND_DATA_COMP: - data = REG_RD(pDevice, SndDataComp.Mode); - if (cntrl == LM_DISABLE) - { - data &= ~SND_DATA_COMP_MODE_ENABLE; - REG_WR(pDevice, SndDataComp.Mode, data); - for(j = 0; j < MaxWaitCnt; j++) - { - if(!(REG_RD(pDevice, SndDataComp.Mode) & SND_DATA_COMP_MODE_ENABLE)) - break; - MM_Wait(10); - } - } - else - REG_WR(pDevice, SndDataComp.Mode,data | SND_DATA_COMP_MODE_ENABLE); - break; + case T3_BLOCK_SEND_DATA_COMP: + data = REG_RD (pDevice, SndDataComp.Mode); + if (cntrl == LM_DISABLE) { + data &= ~SND_DATA_COMP_MODE_ENABLE; + REG_WR (pDevice, SndDataComp.Mode, data); + for (j = 0; j < MaxWaitCnt; j++) { + if (! + (REG_RD (pDevice, SndDataComp.Mode) + & SND_DATA_COMP_MODE_ENABLE)) + break; + MM_Wait (10); + } + } else + REG_WR (pDevice, SndDataComp.Mode, + data | SND_DATA_COMP_MODE_ENABLE); + break; - case T3_BLOCK_MAC_TX_ENGINE: - if(cntrl == LM_DISABLE) - { - pDevice->TxMode &= ~TX_MODE_ENABLE; - REG_WR(pDevice, MacCtrl.TxMode, pDevice->TxMode); - for(j = 0; j < MaxWaitCnt; j++) - { - if(!(REG_RD(pDevice, MacCtrl.TxMode) & TX_MODE_ENABLE)) - break; - MM_Wait(10); - } - } - else - { - pDevice->TxMode |= TX_MODE_ENABLE; - REG_WR(pDevice, MacCtrl.TxMode, pDevice->TxMode); - } - break; + case T3_BLOCK_MAC_TX_ENGINE: + if (cntrl == LM_DISABLE) { + pDevice->TxMode &= ~TX_MODE_ENABLE; + REG_WR (pDevice, MacCtrl.TxMode, + pDevice->TxMode); + for (j = 0; j < MaxWaitCnt; j++) { + if (! + (REG_RD (pDevice, MacCtrl.TxMode) & + TX_MODE_ENABLE)) + break; + MM_Wait (10); + } + } else { + pDevice->TxMode |= TX_MODE_ENABLE; + REG_WR (pDevice, MacCtrl.TxMode, + pDevice->TxMode); + } + break; - case T3_BLOCK_MEM_ARBITOR: - data = REG_RD(pDevice, MemArbiter.Mode); - if (cntrl == LM_DISABLE) - { - data &= ~T3_MEM_ARBITER_MODE_ENABLE; - REG_WR(pDevice, MemArbiter.Mode, data); - for(j = 0; j < MaxWaitCnt; j++) - { - if(!(REG_RD(pDevice, MemArbiter.Mode) & T3_MEM_ARBITER_MODE_ENABLE)) - break; - MM_Wait(10); - } - } - else - REG_WR(pDevice, MemArbiter.Mode,data|T3_MEM_ARBITER_MODE_ENABLE); - break; + case T3_BLOCK_MEM_ARBITOR: + data = REG_RD (pDevice, MemArbiter.Mode); + if (cntrl == LM_DISABLE) { + data &= ~T3_MEM_ARBITER_MODE_ENABLE; + REG_WR (pDevice, MemArbiter.Mode, data); + for (j = 0; j < MaxWaitCnt; j++) { + if (! + (REG_RD (pDevice, MemArbiter.Mode) & + T3_MEM_ARBITER_MODE_ENABLE)) + break; + MM_Wait (10); + } + } else + REG_WR (pDevice, MemArbiter.Mode, + data | T3_MEM_ARBITER_MODE_ENABLE); + break; - case T3_BLOCK_MBUF_MANAGER: - data = REG_RD(pDevice, BufMgr.Mode); - if (cntrl == LM_DISABLE) - { - data &= ~BUFMGR_MODE_ENABLE; - REG_WR(pDevice, BufMgr.Mode,data); - for(j = 0; j < MaxWaitCnt; j++) - { - if(!(REG_RD(pDevice, BufMgr.Mode) & BUFMGR_MODE_ENABLE)) - break; - MM_Wait(10); - } - } - else - REG_WR(pDevice, BufMgr.Mode,data | BUFMGR_MODE_ENABLE); - break; + case T3_BLOCK_MBUF_MANAGER: + data = REG_RD (pDevice, BufMgr.Mode); + if (cntrl == LM_DISABLE) { + data &= ~BUFMGR_MODE_ENABLE; + REG_WR (pDevice, BufMgr.Mode, data); + for (j = 0; j < MaxWaitCnt; j++) { + if (! + (REG_RD (pDevice, BufMgr.Mode) & + BUFMGR_MODE_ENABLE)) + break; + MM_Wait (10); + } + } else + REG_WR (pDevice, BufMgr.Mode, + data | BUFMGR_MODE_ENABLE); + break; - case T3_BLOCK_MAC_GLOBAL: - if(cntrl == LM_DISABLE) - { - pDevice->MacMode &= ~(MAC_MODE_ENABLE_TDE | - MAC_MODE_ENABLE_RDE | - MAC_MODE_ENABLE_FHDE); - } - else - { - pDevice->MacMode |= (MAC_MODE_ENABLE_TDE | - MAC_MODE_ENABLE_RDE | - MAC_MODE_ENABLE_FHDE); - } - REG_WR(pDevice, MacCtrl.Mode, pDevice->MacMode); - break; + case T3_BLOCK_MAC_GLOBAL: + if (cntrl == LM_DISABLE) { + pDevice->MacMode &= ~(MAC_MODE_ENABLE_TDE | + MAC_MODE_ENABLE_RDE | + MAC_MODE_ENABLE_FHDE); + } else { + pDevice->MacMode |= (MAC_MODE_ENABLE_TDE | + MAC_MODE_ENABLE_RDE | + MAC_MODE_ENABLE_FHDE); + } + REG_WR (pDevice, MacCtrl.Mode, pDevice->MacMode); + break; - default: - return LM_STATUS_FAILURE; - } /* switch */ + default: + return LM_STATUS_FAILURE; + } /* switch */ - if(j >= MaxWaitCnt) - { - return LM_STATUS_FAILURE; + if (j >= MaxWaitCnt) { + return LM_STATUS_FAILURE; + } } - } - return LM_STATUS_SUCCESS; + return LM_STATUS_SUCCESS; } /******************************************************************************/ @@ -2295,682 +2129,631 @@ LM_UINT32 mask,LM_UINT32 cntrl) /* Return: */ /* LM_STATUS_SUCCESS */ /******************************************************************************/ -LM_STATUS -LM_ResetAdapter( -PLM_DEVICE_BLOCK pDevice) +LM_STATUS LM_ResetAdapter (PLM_DEVICE_BLOCK pDevice) { - LM_UINT32 Value32; - LM_UINT16 Value16; - LM_UINT32 j, k; + LM_UINT32 Value32; + LM_UINT16 Value16; + LM_UINT32 j, k; - /* Disable interrupt. */ - LM_DisableInterrupt(pDevice); + /* Disable interrupt. */ + LM_DisableInterrupt (pDevice); - /* May get a spurious interrupt */ - pDevice->pStatusBlkVirt->Status = STATUS_BLOCK_UPDATED; + /* May get a spurious interrupt */ + pDevice->pStatusBlkVirt->Status = STATUS_BLOCK_UPDATED; - /* Disable transmit and receive DMA engines. Abort all pending requests. */ - if(pDevice->InitDone) - { - LM_Abort(pDevice); - } + /* Disable transmit and receive DMA engines. Abort all pending requests. */ + if (pDevice->InitDone) { + LM_Abort (pDevice); + } - pDevice->ShuttingDown = FALSE; + pDevice->ShuttingDown = FALSE; - LM_ResetChip(pDevice); + LM_ResetChip (pDevice); - /* Bug: Athlon fix for B3 silicon only. This bit does not do anything */ - /* in other chip revisions. */ - if(pDevice->DelayPciGrant) - { - Value32 = REG_RD(pDevice, PciCfg.ClockCtrl); - REG_WR(pDevice, PciCfg.ClockCtrl, Value32 | BIT_31); - } + /* Bug: Athlon fix for B3 silicon only. This bit does not do anything */ + /* in other chip revisions. */ + if (pDevice->DelayPciGrant) { + Value32 = REG_RD (pDevice, PciCfg.ClockCtrl); + REG_WR (pDevice, PciCfg.ClockCtrl, Value32 | BIT_31); + } - if(pDevice->ChipRevId == T3_CHIP_ID_5704_A0) - { - if (!(pDevice->PciState & T3_PCI_STATE_CONVENTIONAL_PCI_MODE)) - { - Value32 = REG_RD(pDevice, PciCfg.PciState); - Value32 |= T3_PCI_STATE_RETRY_SAME_DMA; - REG_WR(pDevice, PciCfg.PciState, Value32); - } - } - - /* Enable TaggedStatus mode. */ - if(pDevice->UseTaggedStatus) - { - pDevice->MiscHostCtrl |= MISC_HOST_CTRL_ENABLE_TAGGED_STATUS_MODE; - } - - /* Restore PCI configuration registers. */ - MM_WriteConfig32(pDevice, PCI_CACHE_LINE_SIZE_REG, - pDevice->SavedCacheLineReg); - MM_WriteConfig32(pDevice, PCI_SUBSYSTEM_VENDOR_ID_REG, - (pDevice->SubsystemId << 16) | pDevice->SubsystemVendorId); - - /* Clear the statistics block. */ - for(j = 0x0300; j < 0x0b00; j++) - { - MEM_WR_OFFSET(pDevice, j, 0); - } - - /* Initialize the statistis Block */ - pDevice->pStatusBlkVirt->Status = 0; - pDevice->pStatusBlkVirt->RcvStdConIdx = 0; - pDevice->pStatusBlkVirt->RcvJumboConIdx = 0; - pDevice->pStatusBlkVirt->RcvMiniConIdx = 0; - - for(j = 0; j < 16; j++) - { - pDevice->pStatusBlkVirt->Idx[j].RcvProdIdx = 0; - pDevice->pStatusBlkVirt->Idx[j].SendConIdx = 0; - } - - for(k = 0; k < T3_STD_RCV_RCB_ENTRY_COUNT ;k++) - { - pDevice->pRxStdBdVirt[k].HostAddr.High = 0; - pDevice->pRxStdBdVirt[k].HostAddr.Low = 0; - } + if (pDevice->ChipRevId == T3_CHIP_ID_5704_A0) { + if (!(pDevice->PciState & T3_PCI_STATE_CONVENTIONAL_PCI_MODE)) { + Value32 = REG_RD (pDevice, PciCfg.PciState); + Value32 |= T3_PCI_STATE_RETRY_SAME_DMA; + REG_WR (pDevice, PciCfg.PciState, Value32); + } + } + + /* Enable TaggedStatus mode. */ + if (pDevice->UseTaggedStatus) { + pDevice->MiscHostCtrl |= + MISC_HOST_CTRL_ENABLE_TAGGED_STATUS_MODE; + } + + /* Restore PCI configuration registers. */ + MM_WriteConfig32 (pDevice, PCI_CACHE_LINE_SIZE_REG, + pDevice->SavedCacheLineReg); + MM_WriteConfig32 (pDevice, PCI_SUBSYSTEM_VENDOR_ID_REG, + (pDevice->SubsystemId << 16) | pDevice-> + SubsystemVendorId); + + /* Clear the statistics block. */ + for (j = 0x0300; j < 0x0b00; j++) { + MEM_WR_OFFSET (pDevice, j, 0); + } + + /* Initialize the statistis Block */ + pDevice->pStatusBlkVirt->Status = 0; + pDevice->pStatusBlkVirt->RcvStdConIdx = 0; + pDevice->pStatusBlkVirt->RcvJumboConIdx = 0; + pDevice->pStatusBlkVirt->RcvMiniConIdx = 0; + + for (j = 0; j < 16; j++) { + pDevice->pStatusBlkVirt->Idx[j].RcvProdIdx = 0; + pDevice->pStatusBlkVirt->Idx[j].SendConIdx = 0; + } + + for (k = 0; k < T3_STD_RCV_RCB_ENTRY_COUNT; k++) { + pDevice->pRxStdBdVirt[k].HostAddr.High = 0; + pDevice->pRxStdBdVirt[k].HostAddr.Low = 0; + } #if T3_JUMBO_RCV_RCB_ENTRY_COUNT - /* Receive jumbo BD buffer. */ - for(k = 0; k < T3_JUMBO_RCV_RCB_ENTRY_COUNT; k++) - { - pDevice->pRxJumboBdVirt[k].HostAddr.High = 0; - pDevice->pRxJumboBdVirt[k].HostAddr.Low = 0; - } + /* Receive jumbo BD buffer. */ + for (k = 0; k < T3_JUMBO_RCV_RCB_ENTRY_COUNT; k++) { + pDevice->pRxJumboBdVirt[k].HostAddr.High = 0; + pDevice->pRxJumboBdVirt[k].HostAddr.Low = 0; + } #endif - REG_WR(pDevice, PciCfg.DmaReadWriteCtrl, pDevice->DmaReadWriteCtrl); + REG_WR (pDevice, PciCfg.DmaReadWriteCtrl, pDevice->DmaReadWriteCtrl); - /* GRC mode control register. */ -#ifdef BIG_ENDIAN_PCI /* Jimmy, this ifdef block deleted in new code! */ - Value32 = - GRC_MODE_WORD_SWAP_DATA | - GRC_MODE_WORD_SWAP_NON_FRAME_DATA | - GRC_MODE_INT_ON_MAC_ATTN | - GRC_MODE_HOST_STACK_UP; + /* GRC mode control register. */ +#ifdef BIG_ENDIAN_PCI /* Jimmy, this ifdef block deleted in new code! */ + Value32 = + GRC_MODE_WORD_SWAP_DATA | + GRC_MODE_WORD_SWAP_NON_FRAME_DATA | + GRC_MODE_INT_ON_MAC_ATTN | GRC_MODE_HOST_STACK_UP; #else - /* No CPU Swap modes for PCI IO */ - Value32 = + /* No CPU Swap modes for PCI IO */ + Value32 = #ifdef BIG_ENDIAN_HOST - GRC_MODE_BYTE_SWAP_NON_FRAME_DATA | - GRC_MODE_WORD_SWAP_NON_FRAME_DATA | - GRC_MODE_BYTE_SWAP_DATA | - GRC_MODE_WORD_SWAP_DATA | + GRC_MODE_BYTE_SWAP_NON_FRAME_DATA | + GRC_MODE_WORD_SWAP_NON_FRAME_DATA | + GRC_MODE_BYTE_SWAP_DATA | GRC_MODE_WORD_SWAP_DATA | #else - GRC_MODE_WORD_SWAP_NON_FRAME_DATA | - GRC_MODE_BYTE_SWAP_DATA | - GRC_MODE_WORD_SWAP_DATA | + GRC_MODE_WORD_SWAP_NON_FRAME_DATA | + GRC_MODE_BYTE_SWAP_DATA | GRC_MODE_WORD_SWAP_DATA | #endif - GRC_MODE_INT_ON_MAC_ATTN | - GRC_MODE_HOST_STACK_UP; -#endif /* !BIG_ENDIAN_PCI */ - - /* Configure send BD mode. */ - if(pDevice->NicSendBd == FALSE) - { - Value32 |= GRC_MODE_HOST_SEND_BDS; - } - else - { - Value32 |= GRC_MODE_4X_NIC_BASED_SEND_RINGS; - } - - /* Configure pseudo checksum mode. */ - if(pDevice->NoTxPseudoHdrChksum) - { - Value32 |= GRC_MODE_TX_NO_PSEUDO_HEADER_CHKSUM; - } - - if(pDevice->NoRxPseudoHdrChksum) - { - Value32 |= GRC_MODE_RX_NO_PSEUDO_HEADER_CHKSUM; - } - - REG_WR(pDevice, Grc.Mode, Value32); - - /* Setup the timer prescalar register. */ - REG_WR(pDevice, Grc.MiscCfg, 65 << 1); /* Clock is alwasy 66Mhz. */ - - /* Set up the MBUF pool base address and size. */ - REG_WR(pDevice, BufMgr.MbufPoolAddr, pDevice->MbufBase); - REG_WR(pDevice, BufMgr.MbufPoolSize, pDevice->MbufSize); - - /* Set up the DMA descriptor pool base address and size. */ - REG_WR(pDevice, BufMgr.DmaDescPoolAddr, T3_NIC_DMA_DESC_POOL_ADDR); - REG_WR(pDevice, BufMgr.DmaDescPoolSize, T3_NIC_DMA_DESC_POOL_SIZE); - - /* Configure MBUF and Threshold watermarks */ - /* Configure the DMA read MBUF low water mark. */ - if(pDevice->DmaMbufLowMark) - { - REG_WR(pDevice, BufMgr.MbufReadDmaLowWaterMark, - pDevice->DmaMbufLowMark); - } - else - { - if(pDevice->TxMtu < MAX_ETHERNET_PACKET_BUFFER_SIZE) - { - REG_WR(pDevice, BufMgr.MbufReadDmaLowWaterMark, - T3_DEF_DMA_MBUF_LOW_WMARK); + GRC_MODE_INT_ON_MAC_ATTN | GRC_MODE_HOST_STACK_UP; +#endif /* !BIG_ENDIAN_PCI */ + + /* Configure send BD mode. */ + if (pDevice->NicSendBd == FALSE) { + Value32 |= GRC_MODE_HOST_SEND_BDS; + } else { + Value32 |= GRC_MODE_4X_NIC_BASED_SEND_RINGS; } - else - { - REG_WR(pDevice, BufMgr.MbufReadDmaLowWaterMark, - T3_DEF_DMA_MBUF_LOW_WMARK_JUMBO); - } - } - - /* Configure the MAC Rx MBUF low water mark. */ - if(pDevice->RxMacMbufLowMark) - { - REG_WR(pDevice, BufMgr.MbufMacRxLowWaterMark, - pDevice->RxMacMbufLowMark); - } - else - { - if(pDevice->TxMtu < MAX_ETHERNET_PACKET_BUFFER_SIZE) - { - REG_WR(pDevice, BufMgr.MbufMacRxLowWaterMark, - T3_DEF_RX_MAC_MBUF_LOW_WMARK); + + /* Configure pseudo checksum mode. */ + if (pDevice->NoTxPseudoHdrChksum) { + Value32 |= GRC_MODE_TX_NO_PSEUDO_HEADER_CHKSUM; } - else - { - REG_WR(pDevice, BufMgr.MbufMacRxLowWaterMark, - T3_DEF_RX_MAC_MBUF_LOW_WMARK_JUMBO); - } - } - - /* Configure the MBUF high water mark. */ - if(pDevice->MbufHighMark) - { - REG_WR(pDevice, BufMgr.MbufHighWaterMark, pDevice->MbufHighMark); - } - else - { - if(pDevice->TxMtu < MAX_ETHERNET_PACKET_BUFFER_SIZE) - { - REG_WR(pDevice, BufMgr.MbufHighWaterMark, - T3_DEF_MBUF_HIGH_WMARK); + + if (pDevice->NoRxPseudoHdrChksum) { + Value32 |= GRC_MODE_RX_NO_PSEUDO_HEADER_CHKSUM; } - else - { - REG_WR(pDevice, BufMgr.MbufHighWaterMark, - T3_DEF_MBUF_HIGH_WMARK_JUMBO); + + REG_WR (pDevice, Grc.Mode, Value32); + + /* Setup the timer prescalar register. */ + REG_WR (pDevice, Grc.MiscCfg, 65 << 1); /* Clock is alwasy 66Mhz. */ + + /* Set up the MBUF pool base address and size. */ + REG_WR (pDevice, BufMgr.MbufPoolAddr, pDevice->MbufBase); + REG_WR (pDevice, BufMgr.MbufPoolSize, pDevice->MbufSize); + + /* Set up the DMA descriptor pool base address and size. */ + REG_WR (pDevice, BufMgr.DmaDescPoolAddr, T3_NIC_DMA_DESC_POOL_ADDR); + REG_WR (pDevice, BufMgr.DmaDescPoolSize, T3_NIC_DMA_DESC_POOL_SIZE); + + /* Configure MBUF and Threshold watermarks */ + /* Configure the DMA read MBUF low water mark. */ + if (pDevice->DmaMbufLowMark) { + REG_WR (pDevice, BufMgr.MbufReadDmaLowWaterMark, + pDevice->DmaMbufLowMark); + } else { + if (pDevice->TxMtu < MAX_ETHERNET_PACKET_BUFFER_SIZE) { + REG_WR (pDevice, BufMgr.MbufReadDmaLowWaterMark, + T3_DEF_DMA_MBUF_LOW_WMARK); + } else { + REG_WR (pDevice, BufMgr.MbufReadDmaLowWaterMark, + T3_DEF_DMA_MBUF_LOW_WMARK_JUMBO); + } } - } - REG_WR(pDevice, BufMgr.DmaLowWaterMark, T3_DEF_DMA_DESC_LOW_WMARK); - REG_WR(pDevice, BufMgr.DmaHighWaterMark, T3_DEF_DMA_DESC_HIGH_WMARK); + /* Configure the MAC Rx MBUF low water mark. */ + if (pDevice->RxMacMbufLowMark) { + REG_WR (pDevice, BufMgr.MbufMacRxLowWaterMark, + pDevice->RxMacMbufLowMark); + } else { + if (pDevice->TxMtu < MAX_ETHERNET_PACKET_BUFFER_SIZE) { + REG_WR (pDevice, BufMgr.MbufMacRxLowWaterMark, + T3_DEF_RX_MAC_MBUF_LOW_WMARK); + } else { + REG_WR (pDevice, BufMgr.MbufMacRxLowWaterMark, + T3_DEF_RX_MAC_MBUF_LOW_WMARK_JUMBO); + } + } - /* Enable buffer manager. */ - REG_WR(pDevice, BufMgr.Mode, BUFMGR_MODE_ENABLE | BUFMGR_MODE_ATTN_ENABLE); + /* Configure the MBUF high water mark. */ + if (pDevice->MbufHighMark) { + REG_WR (pDevice, BufMgr.MbufHighWaterMark, + pDevice->MbufHighMark); + } else { + if (pDevice->TxMtu < MAX_ETHERNET_PACKET_BUFFER_SIZE) { + REG_WR (pDevice, BufMgr.MbufHighWaterMark, + T3_DEF_MBUF_HIGH_WMARK); + } else { + REG_WR (pDevice, BufMgr.MbufHighWaterMark, + T3_DEF_MBUF_HIGH_WMARK_JUMBO); + } + } - for(j = 0 ;j < 2000; j++) - { - if(REG_RD(pDevice, BufMgr.Mode) & BUFMGR_MODE_ENABLE) - break; - MM_Wait(10); - } + REG_WR (pDevice, BufMgr.DmaLowWaterMark, T3_DEF_DMA_DESC_LOW_WMARK); + REG_WR (pDevice, BufMgr.DmaHighWaterMark, T3_DEF_DMA_DESC_HIGH_WMARK); - if(j >= 2000) - { - return LM_STATUS_FAILURE; - } - - /* Enable the FTQs. */ - REG_WR(pDevice, Ftq.Reset, 0xffffffff); - REG_WR(pDevice, Ftq.Reset, 0); - - /* Wait until FTQ is ready */ - for(j = 0; j < 2000; j++) - { - if(REG_RD(pDevice, Ftq.Reset) == 0) - break; - MM_Wait(10); - } - - if(j >= 2000) - { - return LM_STATUS_FAILURE; - } - - /* Initialize the Standard Receive RCB. */ - REG_WR(pDevice, RcvDataBdIn.StdRcvRcb.HostRingAddr.High, - pDevice->RxStdBdPhy.High); - REG_WR(pDevice, RcvDataBdIn.StdRcvRcb.HostRingAddr.Low, - pDevice->RxStdBdPhy.Low); - REG_WR(pDevice, RcvDataBdIn.StdRcvRcb.u.MaxLen_Flags, - MAX_STD_RCV_BUFFER_SIZE << 16); - - /* Initialize the Jumbo Receive RCB. */ - REG_WR(pDevice, RcvDataBdIn.JumboRcvRcb.u.MaxLen_Flags, - T3_RCB_FLAG_RING_DISABLED); -#if T3_JUMBO_RCV_RCB_ENTRY_COUNT - REG_WR(pDevice, RcvDataBdIn.JumboRcvRcb.HostRingAddr.High, - pDevice->RxJumboBdPhy.High); - REG_WR(pDevice, RcvDataBdIn.JumboRcvRcb.HostRingAddr.Low, - pDevice->RxJumboBdPhy.Low); + /* Enable buffer manager. */ + REG_WR (pDevice, BufMgr.Mode, + BUFMGR_MODE_ENABLE | BUFMGR_MODE_ATTN_ENABLE); + + for (j = 0; j < 2000; j++) { + if (REG_RD (pDevice, BufMgr.Mode) & BUFMGR_MODE_ENABLE) + break; + MM_Wait (10); + } - REG_WR(pDevice, RcvDataBdIn.JumboRcvRcb.u.MaxLen_Flags, 0); + if (j >= 2000) { + return LM_STATUS_FAILURE; + } -#endif /* T3_JUMBO_RCV_RCB_ENTRY_COUNT */ + /* Enable the FTQs. */ + REG_WR (pDevice, Ftq.Reset, 0xffffffff); + REG_WR (pDevice, Ftq.Reset, 0); - /* Initialize the Mini Receive RCB. */ - REG_WR(pDevice, RcvDataBdIn.MiniRcvRcb.u.MaxLen_Flags, - T3_RCB_FLAG_RING_DISABLED); + /* Wait until FTQ is ready */ + for (j = 0; j < 2000; j++) { + if (REG_RD (pDevice, Ftq.Reset) == 0) + break; + MM_Wait (10); + } + + if (j >= 2000) { + return LM_STATUS_FAILURE; + } - { - REG_WR(pDevice, RcvDataBdIn.StdRcvRcb.NicRingAddr, - (LM_UINT32) T3_NIC_STD_RCV_BUFFER_DESC_ADDR); - REG_WR(pDevice, RcvDataBdIn.JumboRcvRcb.NicRingAddr, - (LM_UINT32) T3_NIC_JUMBO_RCV_BUFFER_DESC_ADDR); - } + /* Initialize the Standard Receive RCB. */ + REG_WR (pDevice, RcvDataBdIn.StdRcvRcb.HostRingAddr.High, + pDevice->RxStdBdPhy.High); + REG_WR (pDevice, RcvDataBdIn.StdRcvRcb.HostRingAddr.Low, + pDevice->RxStdBdPhy.Low); + REG_WR (pDevice, RcvDataBdIn.StdRcvRcb.u.MaxLen_Flags, + MAX_STD_RCV_BUFFER_SIZE << 16); - /* Receive BD Ring replenish threshold. */ - REG_WR(pDevice, RcvBdIn.StdRcvThreshold, pDevice->RxStdDescCnt/8); + /* Initialize the Jumbo Receive RCB. */ + REG_WR (pDevice, RcvDataBdIn.JumboRcvRcb.u.MaxLen_Flags, + T3_RCB_FLAG_RING_DISABLED); #if T3_JUMBO_RCV_RCB_ENTRY_COUNT - REG_WR(pDevice, RcvBdIn.JumboRcvThreshold, pDevice->RxJumboDescCnt/8); -#endif /* T3_JUMBO_RCV_RCB_ENTRY_COUNT */ + REG_WR (pDevice, RcvDataBdIn.JumboRcvRcb.HostRingAddr.High, + pDevice->RxJumboBdPhy.High); + REG_WR (pDevice, RcvDataBdIn.JumboRcvRcb.HostRingAddr.Low, + pDevice->RxJumboBdPhy.Low); - /* Disable all the unused rings. */ - for(j = 0; j < T3_MAX_SEND_RCB_COUNT; j++) { - MEM_WR(pDevice, SendRcb[j].u.MaxLen_Flags, T3_RCB_FLAG_RING_DISABLED); - } /* for */ + REG_WR (pDevice, RcvDataBdIn.JumboRcvRcb.u.MaxLen_Flags, 0); + +#endif /* T3_JUMBO_RCV_RCB_ENTRY_COUNT */ + + /* Initialize the Mini Receive RCB. */ + REG_WR (pDevice, RcvDataBdIn.MiniRcvRcb.u.MaxLen_Flags, + T3_RCB_FLAG_RING_DISABLED); + + { + REG_WR (pDevice, RcvDataBdIn.StdRcvRcb.NicRingAddr, + (LM_UINT32) T3_NIC_STD_RCV_BUFFER_DESC_ADDR); + REG_WR (pDevice, RcvDataBdIn.JumboRcvRcb.NicRingAddr, + (LM_UINT32) T3_NIC_JUMBO_RCV_BUFFER_DESC_ADDR); + } + + /* Receive BD Ring replenish threshold. */ + REG_WR (pDevice, RcvBdIn.StdRcvThreshold, pDevice->RxStdDescCnt / 8); +#if T3_JUMBO_RCV_RCB_ENTRY_COUNT + REG_WR (pDevice, RcvBdIn.JumboRcvThreshold, + pDevice->RxJumboDescCnt / 8); +#endif /* T3_JUMBO_RCV_RCB_ENTRY_COUNT */ + + /* Disable all the unused rings. */ + for (j = 0; j < T3_MAX_SEND_RCB_COUNT; j++) { + MEM_WR (pDevice, SendRcb[j].u.MaxLen_Flags, + T3_RCB_FLAG_RING_DISABLED); + } /* for */ + + /* Initialize the indices. */ + pDevice->SendProdIdx = 0; + pDevice->SendConIdx = 0; + + MB_REG_WR (pDevice, Mailbox.SendHostProdIdx[0].Low, 0); + MB_REG_WR (pDevice, Mailbox.SendNicProdIdx[0].Low, 0); + + /* Set up host or NIC based send RCB. */ + if (pDevice->NicSendBd == FALSE) { + MEM_WR (pDevice, SendRcb[0].HostRingAddr.High, + pDevice->SendBdPhy.High); + MEM_WR (pDevice, SendRcb[0].HostRingAddr.Low, + pDevice->SendBdPhy.Low); + + /* Set up the NIC ring address in the RCB. */ + MEM_WR (pDevice, SendRcb[0].NicRingAddr, + T3_NIC_SND_BUFFER_DESC_ADDR); + + /* Setup the RCB. */ + MEM_WR (pDevice, SendRcb[0].u.MaxLen_Flags, + T3_SEND_RCB_ENTRY_COUNT << 16); + + for (k = 0; k < T3_SEND_RCB_ENTRY_COUNT; k++) { + pDevice->pSendBdVirt[k].HostAddr.High = 0; + pDevice->pSendBdVirt[k].HostAddr.Low = 0; + } + } else { + MEM_WR (pDevice, SendRcb[0].HostRingAddr.High, 0); + MEM_WR (pDevice, SendRcb[0].HostRingAddr.Low, 0); + MEM_WR (pDevice, SendRcb[0].NicRingAddr, + pDevice->SendBdPhy.Low); + + for (k = 0; k < T3_SEND_RCB_ENTRY_COUNT; k++) { + __raw_writel (0, + &(pDevice->pSendBdVirt[k].HostAddr.High)); + __raw_writel (0, + &(pDevice->pSendBdVirt[k].HostAddr.Low)); + __raw_writel (0, + &(pDevice->pSendBdVirt[k].u1.Len_Flags)); + pDevice->ShadowSendBd[k].HostAddr.High = 0; + pDevice->ShadowSendBd[k].u1.Len_Flags = 0; + } + } + atomic_set (&pDevice->SendBdLeft, T3_SEND_RCB_ENTRY_COUNT - 1); - /* Initialize the indices. */ - pDevice->SendProdIdx = 0; - pDevice->SendConIdx = 0; + /* Configure the receive return rings. */ + for (j = 0; j < T3_MAX_RCV_RETURN_RCB_COUNT; j++) { + MEM_WR (pDevice, RcvRetRcb[j].u.MaxLen_Flags, + T3_RCB_FLAG_RING_DISABLED); + } - MB_REG_WR(pDevice, Mailbox.SendHostProdIdx[0].Low, 0); - MB_REG_WR(pDevice, Mailbox.SendNicProdIdx[0].Low, 0); + pDevice->RcvRetConIdx = 0; - /* Set up host or NIC based send RCB. */ - if(pDevice->NicSendBd == FALSE) - { - MEM_WR(pDevice, SendRcb[0].HostRingAddr.High, - pDevice->SendBdPhy.High); - MEM_WR(pDevice, SendRcb[0].HostRingAddr.Low, - pDevice->SendBdPhy.Low); + MEM_WR (pDevice, RcvRetRcb[0].HostRingAddr.High, + pDevice->RcvRetBdPhy.High); + MEM_WR (pDevice, RcvRetRcb[0].HostRingAddr.Low, + pDevice->RcvRetBdPhy.Low); /* Set up the NIC ring address in the RCB. */ - MEM_WR(pDevice, SendRcb[0].NicRingAddr,T3_NIC_SND_BUFFER_DESC_ADDR); + /* Not very clear from the spec. I am guessing that for Receive */ + /* Return Ring, NicRingAddr is not used. */ + MEM_WR (pDevice, RcvRetRcb[0].NicRingAddr, 0); /* Setup the RCB. */ - MEM_WR(pDevice, SendRcb[0].u.MaxLen_Flags, - T3_SEND_RCB_ENTRY_COUNT << 16); + MEM_WR (pDevice, RcvRetRcb[0].u.MaxLen_Flags, + T3_RCV_RETURN_RCB_ENTRY_COUNT << 16); - for(k = 0; k < T3_SEND_RCB_ENTRY_COUNT; k++) - { - pDevice->pSendBdVirt[k].HostAddr.High = 0; - pDevice->pSendBdVirt[k].HostAddr.Low = 0; - } - } - else - { - MEM_WR(pDevice, SendRcb[0].HostRingAddr.High, 0); - MEM_WR(pDevice, SendRcb[0].HostRingAddr.Low, 0); - MEM_WR(pDevice, SendRcb[0].NicRingAddr, - pDevice->SendBdPhy.Low); - - for(k = 0; k < T3_SEND_RCB_ENTRY_COUNT; k++) - { - __raw_writel(0, &(pDevice->pSendBdVirt[k].HostAddr.High)); - __raw_writel(0, &(pDevice->pSendBdVirt[k].HostAddr.Low)); - __raw_writel(0, &(pDevice->pSendBdVirt[k].u1.Len_Flags)); - pDevice->ShadowSendBd[k].HostAddr.High = 0; - pDevice->ShadowSendBd[k].u1.Len_Flags = 0; - } - } - atomic_set(&pDevice->SendBdLeft, T3_SEND_RCB_ENTRY_COUNT-1); - - /* Configure the receive return rings. */ - for(j = 0; j < T3_MAX_RCV_RETURN_RCB_COUNT; j++) - { - MEM_WR(pDevice, RcvRetRcb[j].u.MaxLen_Flags, T3_RCB_FLAG_RING_DISABLED); - } - - pDevice->RcvRetConIdx = 0; - - MEM_WR(pDevice, RcvRetRcb[0].HostRingAddr.High, - pDevice->RcvRetBdPhy.High); - MEM_WR(pDevice, RcvRetRcb[0].HostRingAddr.Low, - pDevice->RcvRetBdPhy.Low); - - /* Set up the NIC ring address in the RCB. */ - /* Not very clear from the spec. I am guessing that for Receive */ - /* Return Ring, NicRingAddr is not used. */ - MEM_WR(pDevice, RcvRetRcb[0].NicRingAddr, 0); - - /* Setup the RCB. */ - MEM_WR(pDevice, RcvRetRcb[0].u.MaxLen_Flags, - T3_RCV_RETURN_RCB_ENTRY_COUNT << 16); - - /* Reinitialize RX ring producer index */ - MB_REG_WR(pDevice, Mailbox.RcvStdProdIdx.Low, 0); - MB_REG_WR(pDevice, Mailbox.RcvJumboProdIdx.Low, 0); - MB_REG_WR(pDevice, Mailbox.RcvMiniProdIdx.Low, 0); + /* Reinitialize RX ring producer index */ + MB_REG_WR (pDevice, Mailbox.RcvStdProdIdx.Low, 0); + MB_REG_WR (pDevice, Mailbox.RcvJumboProdIdx.Low, 0); + MB_REG_WR (pDevice, Mailbox.RcvMiniProdIdx.Low, 0); #if T3_JUMBO_RCV_RCB_ENTRY_COUNT - pDevice->RxJumboProdIdx = 0; - pDevice->RxJumboQueuedCnt = 0; + pDevice->RxJumboProdIdx = 0; + pDevice->RxJumboQueuedCnt = 0; #endif - /* Reinitialize our copy of the indices. */ - pDevice->RxStdProdIdx = 0; - pDevice->RxStdQueuedCnt = 0; + /* Reinitialize our copy of the indices. */ + pDevice->RxStdProdIdx = 0; + pDevice->RxStdQueuedCnt = 0; #if T3_JUMBO_RCV_ENTRY_COUNT - pDevice->RxJumboProdIdx = 0; -#endif /* T3_JUMBO_RCV_ENTRY_COUNT */ - - /* Configure the MAC address. */ - LM_SetMacAddress(pDevice, pDevice->NodeAddress); - - /* Initialize the transmit random backoff seed. */ - Value32 = (pDevice->NodeAddress[0] + pDevice->NodeAddress[1] + - pDevice->NodeAddress[2] + pDevice->NodeAddress[3] + - pDevice->NodeAddress[4] + pDevice->NodeAddress[5]) & - MAC_TX_BACKOFF_SEED_MASK; - REG_WR(pDevice, MacCtrl.TxBackoffSeed, Value32); - - /* Receive MTU. Frames larger than the MTU is marked as oversized. */ - REG_WR(pDevice, MacCtrl.MtuSize, pDevice->RxMtu + 8); /* CRC + VLAN. */ - - /* Configure Time slot/IPG per 802.3 */ - REG_WR(pDevice, MacCtrl.TxLengths, 0x2620); - - /* - * Configure Receive Rules so that packets don't match - * Programmble rule will be queued to Return Ring 1 - */ - REG_WR(pDevice, MacCtrl.RcvRuleCfg, RX_RULE_DEFAULT_CLASS); - - /* - * Configure to have 16 Classes of Services (COS) and one - * queue per class. Bad frames are queued to RRR#1. - * And frames don't match rules are also queued to COS#1. - */ - REG_WR(pDevice, RcvListPlmt.Config, 0x181); - - /* Enable Receive Placement Statistics */ - REG_WR(pDevice, RcvListPlmt.StatsEnableMask,0xffffff); - REG_WR(pDevice, RcvListPlmt.StatsCtrl, RCV_LIST_STATS_ENABLE); - - /* Enable Send Data Initator Statistics */ - REG_WR(pDevice, SndDataIn.StatsEnableMask,0xffffff); - REG_WR(pDevice, SndDataIn.StatsCtrl, - T3_SND_DATA_IN_STATS_CTRL_ENABLE | \ - T3_SND_DATA_IN_STATS_CTRL_FASTER_UPDATE); - - /* Disable the host coalescing state machine before configuring it's */ - /* parameters. */ - REG_WR(pDevice, HostCoalesce.Mode, 0); - for(j = 0; j < 2000; j++) - { - Value32 = REG_RD(pDevice, HostCoalesce.Mode); - if(!(Value32 & HOST_COALESCE_ENABLE)) - { - break; - } - MM_Wait(10); - } - - /* Host coalescing configurations. */ - REG_WR(pDevice, HostCoalesce.RxCoalescingTicks, pDevice->RxCoalescingTicks); - REG_WR(pDevice, HostCoalesce.TxCoalescingTicks, pDevice->TxCoalescingTicks); - REG_WR(pDevice, HostCoalesce.RxMaxCoalescedFrames, - pDevice->RxMaxCoalescedFrames); - REG_WR(pDevice, HostCoalesce.TxMaxCoalescedFrames, - pDevice->TxMaxCoalescedFrames); - REG_WR(pDevice, HostCoalesce.RxCoalescedTickDuringInt, - pDevice->RxCoalescingTicksDuringInt); - REG_WR(pDevice, HostCoalesce.TxCoalescedTickDuringInt, - pDevice->TxCoalescingTicksDuringInt); - REG_WR(pDevice, HostCoalesce.RxMaxCoalescedFramesDuringInt, - pDevice->RxMaxCoalescedFramesDuringInt); - REG_WR(pDevice, HostCoalesce.TxMaxCoalescedFramesDuringInt, - pDevice->TxMaxCoalescedFramesDuringInt); - - /* Initialize the address of the status block. The NIC will DMA */ - /* the status block to this memory which resides on the host. */ - REG_WR(pDevice, HostCoalesce.StatusBlkHostAddr.High, - pDevice->StatusBlkPhy.High); - REG_WR(pDevice, HostCoalesce.StatusBlkHostAddr.Low, - pDevice->StatusBlkPhy.Low); - - /* Initialize the address of the statistics block. The NIC will DMA */ - /* the statistics to this block of memory. */ - REG_WR(pDevice, HostCoalesce.StatsBlkHostAddr.High, - pDevice->StatsBlkPhy.High); - REG_WR(pDevice, HostCoalesce.StatsBlkHostAddr.Low, - pDevice->StatsBlkPhy.Low); - - REG_WR(pDevice, HostCoalesce.StatsCoalescingTicks, - pDevice->StatsCoalescingTicks); - - REG_WR(pDevice, HostCoalesce.StatsBlkNicAddr, 0x300); - REG_WR(pDevice, HostCoalesce.StatusBlkNicAddr,0xb00); - - /* Enable Host Coalesing state machine */ - REG_WR(pDevice, HostCoalesce.Mode, HOST_COALESCE_ENABLE | - pDevice->CoalesceMode); - - /* Enable the Receive BD Completion state machine. */ - REG_WR(pDevice, RcvBdComp.Mode, RCV_BD_COMP_MODE_ENABLE | - RCV_BD_COMP_MODE_ATTN_ENABLE); - - /* Enable the Receive List Placement state machine. */ - REG_WR(pDevice, RcvListPlmt.Mode, RCV_LIST_PLMT_MODE_ENABLE); - - /* Enable the Receive List Selector state machine. */ - REG_WR(pDevice, RcvListSel.Mode, RCV_LIST_SEL_MODE_ENABLE | - RCV_LIST_SEL_MODE_ATTN_ENABLE); - - /* Enable transmit DMA, clear statistics. */ - pDevice->MacMode = MAC_MODE_ENABLE_TX_STATISTICS | - MAC_MODE_ENABLE_RX_STATISTICS | MAC_MODE_ENABLE_TDE | - MAC_MODE_ENABLE_RDE | MAC_MODE_ENABLE_FHDE; - REG_WR(pDevice, MacCtrl.Mode, pDevice->MacMode | - MAC_MODE_CLEAR_RX_STATISTICS | MAC_MODE_CLEAR_TX_STATISTICS); - - /* GRC miscellaneous local control register. */ - pDevice->GrcLocalCtrl = GRC_MISC_LOCAL_CTRL_INT_ON_ATTN | - GRC_MISC_LOCAL_CTRL_AUTO_SEEPROM; - - if(T3_ASIC_REV(pDevice->ChipRevId) == T3_ASIC_REV_5700) - { - pDevice->GrcLocalCtrl |= GRC_MISC_LOCAL_CTRL_GPIO_OE1 | - GRC_MISC_LOCAL_CTRL_GPIO_OUTPUT1; - } - - REG_WR(pDevice, Grc.LocalCtrl, pDevice->GrcLocalCtrl); - MM_Wait(40); - - /* Reset RX counters. */ - for(j = 0; j < sizeof(LM_RX_COUNTERS); j++) - { - ((PLM_UINT8) &pDevice->RxCounters)[j] = 0; - } - - /* Reset TX counters. */ - for(j = 0; j < sizeof(LM_TX_COUNTERS); j++) - { - ((PLM_UINT8) &pDevice->TxCounters)[j] = 0; - } - - MB_REG_WR(pDevice, Mailbox.Interrupt[0].Low, 0); - - /* Enable the DMA Completion state machine. */ - REG_WR(pDevice, DmaComp.Mode, DMA_COMP_MODE_ENABLE); - - /* Enable the DMA Write state machine. */ - Value32 = DMA_WRITE_MODE_ENABLE | - DMA_WRITE_MODE_TARGET_ABORT_ATTN_ENABLE | - DMA_WRITE_MODE_MASTER_ABORT_ATTN_ENABLE | - DMA_WRITE_MODE_PARITY_ERROR_ATTN_ENABLE | - DMA_WRITE_MODE_ADDR_OVERFLOW_ATTN_ENABLE | - DMA_WRITE_MODE_FIFO_OVERRUN_ATTN_ENABLE | - DMA_WRITE_MODE_FIFO_UNDERRUN_ATTN_ENABLE | - DMA_WRITE_MODE_FIFO_OVERREAD_ATTN_ENABLE | - DMA_WRITE_MODE_LONG_READ_ATTN_ENABLE; - REG_WR(pDevice, DmaWrite.Mode, Value32); - - if (!(pDevice->PciState & T3_PCI_STATE_CONVENTIONAL_PCI_MODE)) - { - if (pDevice->ChipRevId == T3_CHIP_ID_5704_A0) - { - Value16 = REG_RD(pDevice, PciCfg.PciXCommand); - Value16 &= ~(PCIX_CMD_MAX_SPLIT_MASK | PCIX_CMD_MAX_BURST_MASK); - Value16 |= ((PCIX_CMD_MAX_BURST_CPIOB << PCIX_CMD_MAX_BURST_SHL) & - PCIX_CMD_MAX_BURST_MASK); - if (pDevice->SplitModeEnable == SPLIT_MODE_ENABLE) - { - Value16 |= (pDevice->SplitModeMaxReq << PCIX_CMD_MAX_SPLIT_SHL) - & PCIX_CMD_MAX_SPLIT_MASK; - } - REG_WR(pDevice, PciCfg.PciXCommand, Value16); - } - } - - /* Enable the Read DMA state machine. */ - Value32 = DMA_READ_MODE_ENABLE | - DMA_READ_MODE_TARGET_ABORT_ATTN_ENABLE | - DMA_READ_MODE_MASTER_ABORT_ATTN_ENABLE | - DMA_READ_MODE_PARITY_ERROR_ATTN_ENABLE | - DMA_READ_MODE_ADDR_OVERFLOW_ATTN_ENABLE | - DMA_READ_MODE_FIFO_OVERRUN_ATTN_ENABLE | - DMA_READ_MODE_FIFO_UNDERRUN_ATTN_ENABLE | - DMA_READ_MODE_FIFO_OVERREAD_ATTN_ENABLE | - DMA_READ_MODE_LONG_READ_ATTN_ENABLE; - - if (pDevice->SplitModeEnable == SPLIT_MODE_ENABLE) - { - Value32 |= DMA_READ_MODE_SPLIT_ENABLE; - } - REG_WR(pDevice, DmaRead.Mode, Value32); - - /* Enable the Receive Data Completion state machine. */ - REG_WR(pDevice, RcvDataComp.Mode, RCV_DATA_COMP_MODE_ENABLE | - RCV_DATA_COMP_MODE_ATTN_ENABLE); - - /* Enable the Mbuf Cluster Free state machine. */ - REG_WR(pDevice, MbufClusterFree.Mode, MBUF_CLUSTER_FREE_MODE_ENABLE); - - /* Enable the Send Data Completion state machine. */ - REG_WR(pDevice, SndDataComp.Mode, SND_DATA_COMP_MODE_ENABLE); - - /* Enable the Send BD Completion state machine. */ - REG_WR(pDevice, SndBdComp.Mode, SND_BD_COMP_MODE_ENABLE | - SND_BD_COMP_MODE_ATTN_ENABLE); - - /* Enable the Receive BD Initiator state machine. */ - REG_WR(pDevice, RcvBdIn.Mode, RCV_BD_IN_MODE_ENABLE | - RCV_BD_IN_MODE_BD_IN_DIABLED_RCB_ATTN_ENABLE); - - /* Enable the Receive Data and Receive BD Initiator state machine. */ - REG_WR(pDevice, RcvDataBdIn.Mode, RCV_DATA_BD_IN_MODE_ENABLE | - RCV_DATA_BD_IN_MODE_INVALID_RING_SIZE); - - /* Enable the Send Data Initiator state machine. */ - REG_WR(pDevice, SndDataIn.Mode, T3_SND_DATA_IN_MODE_ENABLE); - - /* Enable the Send BD Initiator state machine. */ - REG_WR(pDevice, SndBdIn.Mode, SND_BD_IN_MODE_ENABLE | - SND_BD_IN_MODE_ATTN_ENABLE); - - /* Enable the Send BD Selector state machine. */ - REG_WR(pDevice, SndBdSel.Mode, SND_BD_SEL_MODE_ENABLE | - SND_BD_SEL_MODE_ATTN_ENABLE); + pDevice->RxJumboProdIdx = 0; +#endif /* T3_JUMBO_RCV_ENTRY_COUNT */ + + /* Configure the MAC address. */ + LM_SetMacAddress (pDevice, pDevice->NodeAddress); + + /* Initialize the transmit random backoff seed. */ + Value32 = (pDevice->NodeAddress[0] + pDevice->NodeAddress[1] + + pDevice->NodeAddress[2] + pDevice->NodeAddress[3] + + pDevice->NodeAddress[4] + pDevice->NodeAddress[5]) & + MAC_TX_BACKOFF_SEED_MASK; + REG_WR (pDevice, MacCtrl.TxBackoffSeed, Value32); + + /* Receive MTU. Frames larger than the MTU is marked as oversized. */ + REG_WR (pDevice, MacCtrl.MtuSize, pDevice->RxMtu + 8); /* CRC + VLAN. */ + + /* Configure Time slot/IPG per 802.3 */ + REG_WR (pDevice, MacCtrl.TxLengths, 0x2620); + + /* + * Configure Receive Rules so that packets don't match + * Programmble rule will be queued to Return Ring 1 + */ + REG_WR (pDevice, MacCtrl.RcvRuleCfg, RX_RULE_DEFAULT_CLASS); + + /* + * Configure to have 16 Classes of Services (COS) and one + * queue per class. Bad frames are queued to RRR#1. + * And frames don't match rules are also queued to COS#1. + */ + REG_WR (pDevice, RcvListPlmt.Config, 0x181); + + /* Enable Receive Placement Statistics */ + REG_WR (pDevice, RcvListPlmt.StatsEnableMask, 0xffffff); + REG_WR (pDevice, RcvListPlmt.StatsCtrl, RCV_LIST_STATS_ENABLE); + + /* Enable Send Data Initator Statistics */ + REG_WR (pDevice, SndDataIn.StatsEnableMask, 0xffffff); + REG_WR (pDevice, SndDataIn.StatsCtrl, + T3_SND_DATA_IN_STATS_CTRL_ENABLE | + T3_SND_DATA_IN_STATS_CTRL_FASTER_UPDATE); + + /* Disable the host coalescing state machine before configuring it's */ + /* parameters. */ + REG_WR (pDevice, HostCoalesce.Mode, 0); + for (j = 0; j < 2000; j++) { + Value32 = REG_RD (pDevice, HostCoalesce.Mode); + if (!(Value32 & HOST_COALESCE_ENABLE)) { + break; + } + MM_Wait (10); + } + + /* Host coalescing configurations. */ + REG_WR (pDevice, HostCoalesce.RxCoalescingTicks, + pDevice->RxCoalescingTicks); + REG_WR (pDevice, HostCoalesce.TxCoalescingTicks, + pDevice->TxCoalescingTicks); + REG_WR (pDevice, HostCoalesce.RxMaxCoalescedFrames, + pDevice->RxMaxCoalescedFrames); + REG_WR (pDevice, HostCoalesce.TxMaxCoalescedFrames, + pDevice->TxMaxCoalescedFrames); + REG_WR (pDevice, HostCoalesce.RxCoalescedTickDuringInt, + pDevice->RxCoalescingTicksDuringInt); + REG_WR (pDevice, HostCoalesce.TxCoalescedTickDuringInt, + pDevice->TxCoalescingTicksDuringInt); + REG_WR (pDevice, HostCoalesce.RxMaxCoalescedFramesDuringInt, + pDevice->RxMaxCoalescedFramesDuringInt); + REG_WR (pDevice, HostCoalesce.TxMaxCoalescedFramesDuringInt, + pDevice->TxMaxCoalescedFramesDuringInt); + + /* Initialize the address of the status block. The NIC will DMA */ + /* the status block to this memory which resides on the host. */ + REG_WR (pDevice, HostCoalesce.StatusBlkHostAddr.High, + pDevice->StatusBlkPhy.High); + REG_WR (pDevice, HostCoalesce.StatusBlkHostAddr.Low, + pDevice->StatusBlkPhy.Low); + + /* Initialize the address of the statistics block. The NIC will DMA */ + /* the statistics to this block of memory. */ + REG_WR (pDevice, HostCoalesce.StatsBlkHostAddr.High, + pDevice->StatsBlkPhy.High); + REG_WR (pDevice, HostCoalesce.StatsBlkHostAddr.Low, + pDevice->StatsBlkPhy.Low); + + REG_WR (pDevice, HostCoalesce.StatsCoalescingTicks, + pDevice->StatsCoalescingTicks); + + REG_WR (pDevice, HostCoalesce.StatsBlkNicAddr, 0x300); + REG_WR (pDevice, HostCoalesce.StatusBlkNicAddr, 0xb00); + + /* Enable Host Coalesing state machine */ + REG_WR (pDevice, HostCoalesce.Mode, HOST_COALESCE_ENABLE | + pDevice->CoalesceMode); + + /* Enable the Receive BD Completion state machine. */ + REG_WR (pDevice, RcvBdComp.Mode, RCV_BD_COMP_MODE_ENABLE | + RCV_BD_COMP_MODE_ATTN_ENABLE); + + /* Enable the Receive List Placement state machine. */ + REG_WR (pDevice, RcvListPlmt.Mode, RCV_LIST_PLMT_MODE_ENABLE); + + /* Enable the Receive List Selector state machine. */ + REG_WR (pDevice, RcvListSel.Mode, RCV_LIST_SEL_MODE_ENABLE | + RCV_LIST_SEL_MODE_ATTN_ENABLE); + + /* Enable transmit DMA, clear statistics. */ + pDevice->MacMode = MAC_MODE_ENABLE_TX_STATISTICS | + MAC_MODE_ENABLE_RX_STATISTICS | MAC_MODE_ENABLE_TDE | + MAC_MODE_ENABLE_RDE | MAC_MODE_ENABLE_FHDE; + REG_WR (pDevice, MacCtrl.Mode, pDevice->MacMode | + MAC_MODE_CLEAR_RX_STATISTICS | MAC_MODE_CLEAR_TX_STATISTICS); + + /* GRC miscellaneous local control register. */ + pDevice->GrcLocalCtrl = GRC_MISC_LOCAL_CTRL_INT_ON_ATTN | + GRC_MISC_LOCAL_CTRL_AUTO_SEEPROM; + + if (T3_ASIC_REV (pDevice->ChipRevId) == T3_ASIC_REV_5700) { + pDevice->GrcLocalCtrl |= GRC_MISC_LOCAL_CTRL_GPIO_OE1 | + GRC_MISC_LOCAL_CTRL_GPIO_OUTPUT1; + } + + REG_WR (pDevice, Grc.LocalCtrl, pDevice->GrcLocalCtrl); + MM_Wait (40); + + /* Reset RX counters. */ + for (j = 0; j < sizeof (LM_RX_COUNTERS); j++) { + ((PLM_UINT8) & pDevice->RxCounters)[j] = 0; + } + + /* Reset TX counters. */ + for (j = 0; j < sizeof (LM_TX_COUNTERS); j++) { + ((PLM_UINT8) & pDevice->TxCounters)[j] = 0; + } + + MB_REG_WR (pDevice, Mailbox.Interrupt[0].Low, 0); + + /* Enable the DMA Completion state machine. */ + REG_WR (pDevice, DmaComp.Mode, DMA_COMP_MODE_ENABLE); + + /* Enable the DMA Write state machine. */ + Value32 = DMA_WRITE_MODE_ENABLE | + DMA_WRITE_MODE_TARGET_ABORT_ATTN_ENABLE | + DMA_WRITE_MODE_MASTER_ABORT_ATTN_ENABLE | + DMA_WRITE_MODE_PARITY_ERROR_ATTN_ENABLE | + DMA_WRITE_MODE_ADDR_OVERFLOW_ATTN_ENABLE | + DMA_WRITE_MODE_FIFO_OVERRUN_ATTN_ENABLE | + DMA_WRITE_MODE_FIFO_UNDERRUN_ATTN_ENABLE | + DMA_WRITE_MODE_FIFO_OVERREAD_ATTN_ENABLE | + DMA_WRITE_MODE_LONG_READ_ATTN_ENABLE; + REG_WR (pDevice, DmaWrite.Mode, Value32); + + if (!(pDevice->PciState & T3_PCI_STATE_CONVENTIONAL_PCI_MODE)) { + if (pDevice->ChipRevId == T3_CHIP_ID_5704_A0) { + Value16 = REG_RD (pDevice, PciCfg.PciXCommand); + Value16 &= + ~(PCIX_CMD_MAX_SPLIT_MASK | + PCIX_CMD_MAX_BURST_MASK); + Value16 |= + ((PCIX_CMD_MAX_BURST_CPIOB << + PCIX_CMD_MAX_BURST_SHL) & + PCIX_CMD_MAX_BURST_MASK); + if (pDevice->SplitModeEnable == SPLIT_MODE_ENABLE) { + Value16 |= + (pDevice-> + SplitModeMaxReq << PCIX_CMD_MAX_SPLIT_SHL) + & PCIX_CMD_MAX_SPLIT_MASK; + } + REG_WR (pDevice, PciCfg.PciXCommand, Value16); + } + } + + /* Enable the Read DMA state machine. */ + Value32 = DMA_READ_MODE_ENABLE | + DMA_READ_MODE_TARGET_ABORT_ATTN_ENABLE | + DMA_READ_MODE_MASTER_ABORT_ATTN_ENABLE | + DMA_READ_MODE_PARITY_ERROR_ATTN_ENABLE | + DMA_READ_MODE_ADDR_OVERFLOW_ATTN_ENABLE | + DMA_READ_MODE_FIFO_OVERRUN_ATTN_ENABLE | + DMA_READ_MODE_FIFO_UNDERRUN_ATTN_ENABLE | + DMA_READ_MODE_FIFO_OVERREAD_ATTN_ENABLE | + DMA_READ_MODE_LONG_READ_ATTN_ENABLE; + + if (pDevice->SplitModeEnable == SPLIT_MODE_ENABLE) { + Value32 |= DMA_READ_MODE_SPLIT_ENABLE; + } + REG_WR (pDevice, DmaRead.Mode, Value32); + + /* Enable the Receive Data Completion state machine. */ + REG_WR (pDevice, RcvDataComp.Mode, RCV_DATA_COMP_MODE_ENABLE | + RCV_DATA_COMP_MODE_ATTN_ENABLE); + + /* Enable the Mbuf Cluster Free state machine. */ + REG_WR (pDevice, MbufClusterFree.Mode, MBUF_CLUSTER_FREE_MODE_ENABLE); + + /* Enable the Send Data Completion state machine. */ + REG_WR (pDevice, SndDataComp.Mode, SND_DATA_COMP_MODE_ENABLE); + + /* Enable the Send BD Completion state machine. */ + REG_WR (pDevice, SndBdComp.Mode, SND_BD_COMP_MODE_ENABLE | + SND_BD_COMP_MODE_ATTN_ENABLE); + + /* Enable the Receive BD Initiator state machine. */ + REG_WR (pDevice, RcvBdIn.Mode, RCV_BD_IN_MODE_ENABLE | + RCV_BD_IN_MODE_BD_IN_DIABLED_RCB_ATTN_ENABLE); + + /* Enable the Receive Data and Receive BD Initiator state machine. */ + REG_WR (pDevice, RcvDataBdIn.Mode, RCV_DATA_BD_IN_MODE_ENABLE | + RCV_DATA_BD_IN_MODE_INVALID_RING_SIZE); + + /* Enable the Send Data Initiator state machine. */ + REG_WR (pDevice, SndDataIn.Mode, T3_SND_DATA_IN_MODE_ENABLE); + + /* Enable the Send BD Initiator state machine. */ + REG_WR (pDevice, SndBdIn.Mode, SND_BD_IN_MODE_ENABLE | + SND_BD_IN_MODE_ATTN_ENABLE); + + /* Enable the Send BD Selector state machine. */ + REG_WR (pDevice, SndBdSel.Mode, SND_BD_SEL_MODE_ENABLE | + SND_BD_SEL_MODE_ATTN_ENABLE); #if INCLUDE_5701_AX_FIX - /* Load the firmware for the 5701_A0 workaround. */ - if(pDevice->ChipRevId == T3_CHIP_ID_5701_A0) - { - LM_LoadRlsFirmware(pDevice); - } + /* Load the firmware for the 5701_A0 workaround. */ + if (pDevice->ChipRevId == T3_CHIP_ID_5701_A0) { + LM_LoadRlsFirmware (pDevice); + } #endif - /* Enable the transmitter. */ - pDevice->TxMode = TX_MODE_ENABLE; - REG_WR(pDevice, MacCtrl.TxMode, pDevice->TxMode); - - /* Enable the receiver. */ - pDevice->RxMode = RX_MODE_ENABLE; - REG_WR(pDevice, MacCtrl.RxMode, pDevice->RxMode); - - if (pDevice->RestoreOnWakeUp) - { - pDevice->RestoreOnWakeUp = FALSE; - pDevice->DisableAutoNeg = pDevice->WakeUpDisableAutoNeg; - pDevice->RequestedMediaType = pDevice->WakeUpRequestedMediaType; - } - - /* Disable auto polling. */ - pDevice->MiMode = 0xc0000; - REG_WR(pDevice, MacCtrl.MiMode, pDevice->MiMode); - - if(T3_ASIC_REV(pDevice->ChipRevId) == T3_ASIC_REV_5700 || - T3_ASIC_REV(pDevice->ChipRevId) == T3_ASIC_REV_5701) - { - Value32 = LED_CTRL_PHY_MODE_1; - } - else - { - if(pDevice->LedMode == LED_MODE_OUTPUT) - { - Value32 = LED_CTRL_PHY_MODE_2; - } - else - { - Value32 = LED_CTRL_PHY_MODE_1; + /* Enable the transmitter. */ + pDevice->TxMode = TX_MODE_ENABLE; + REG_WR (pDevice, MacCtrl.TxMode, pDevice->TxMode); + + /* Enable the receiver. */ + pDevice->RxMode = RX_MODE_ENABLE; + REG_WR (pDevice, MacCtrl.RxMode, pDevice->RxMode); + + if (pDevice->RestoreOnWakeUp) { + pDevice->RestoreOnWakeUp = FALSE; + pDevice->DisableAutoNeg = pDevice->WakeUpDisableAutoNeg; + pDevice->RequestedMediaType = pDevice->WakeUpRequestedMediaType; } - } - REG_WR(pDevice, MacCtrl.LedCtrl, Value32); - /* Activate Link to enable MAC state machine */ - REG_WR(pDevice, MacCtrl.MiStatus, MI_STATUS_ENABLE_LINK_STATUS_ATTN); + /* Disable auto polling. */ + pDevice->MiMode = 0xc0000; + REG_WR (pDevice, MacCtrl.MiMode, pDevice->MiMode); - if (pDevice->EnableTbi) - { - REG_WR(pDevice, MacCtrl.RxMode, RX_MODE_RESET); - MM_Wait(10); - REG_WR(pDevice, MacCtrl.RxMode, pDevice->RxMode); - if (pDevice->ChipRevId == T3_CHIP_ID_5703_A1) - { - REG_WR(pDevice, MacCtrl.SerdesCfg, 0x616000); + if (T3_ASIC_REV (pDevice->ChipRevId) == T3_ASIC_REV_5700 || + T3_ASIC_REV (pDevice->ChipRevId) == T3_ASIC_REV_5701) { + Value32 = LED_CTRL_PHY_MODE_1; + } else { + if (pDevice->LedMode == LED_MODE_OUTPUT) { + Value32 = LED_CTRL_PHY_MODE_2; + } else { + Value32 = LED_CTRL_PHY_MODE_1; + } } - } - /* Setup the phy chip. */ - LM_SetupPhy(pDevice); + REG_WR (pDevice, MacCtrl.LedCtrl, Value32); - if (!pDevice->EnableTbi) { - /* Clear CRC stats */ - LM_ReadPhy(pDevice, 0x1e, &Value32); - LM_WritePhy(pDevice, 0x1e, Value32 | 0x8000); - LM_ReadPhy(pDevice, 0x14, &Value32); - } + /* Activate Link to enable MAC state machine */ + REG_WR (pDevice, MacCtrl.MiStatus, MI_STATUS_ENABLE_LINK_STATUS_ATTN); - /* Set up the receive mask. */ - LM_SetReceiveMask(pDevice, pDevice->ReceiveMask); + if (pDevice->EnableTbi) { + REG_WR (pDevice, MacCtrl.RxMode, RX_MODE_RESET); + MM_Wait (10); + REG_WR (pDevice, MacCtrl.RxMode, pDevice->RxMode); + if (pDevice->ChipRevId == T3_CHIP_ID_5703_A1) { + REG_WR (pDevice, MacCtrl.SerdesCfg, 0x616000); + } + } + /* Setup the phy chip. */ + LM_SetupPhy (pDevice); - /* Queue Rx packet buffers. */ - if(pDevice->QueueRxPackets) - { - LM_QueueRxPackets(pDevice); - } + if (!pDevice->EnableTbi) { + /* Clear CRC stats */ + LM_ReadPhy (pDevice, 0x1e, &Value32); + LM_WritePhy (pDevice, 0x1e, Value32 | 0x8000); + LM_ReadPhy (pDevice, 0x14, &Value32); + } - /* Enable interrupt to the host. */ - if(pDevice->InitDone) - { - LM_EnableInterrupt(pDevice); - } + /* Set up the receive mask. */ + LM_SetReceiveMask (pDevice, pDevice->ReceiveMask); - return LM_STATUS_SUCCESS; -} /* LM_ResetAdapter */ + /* Queue Rx packet buffers. */ + if (pDevice->QueueRxPackets) { + LM_QueueRxPackets (pDevice); + } + /* Enable interrupt to the host. */ + if (pDevice->InitDone) { + LM_EnableInterrupt (pDevice); + } + + return LM_STATUS_SUCCESS; +} /* LM_ResetAdapter */ /******************************************************************************/ /* Description: */ @@ -2979,18 +2762,15 @@ PLM_DEVICE_BLOCK pDevice) /* Return: */ /* LM_STATUS_SUCCESS */ /******************************************************************************/ -LM_STATUS -LM_DisableInterrupt( - PLM_DEVICE_BLOCK pDevice) +LM_STATUS LM_DisableInterrupt (PLM_DEVICE_BLOCK pDevice) { - REG_WR(pDevice, PciCfg.MiscHostCtrl, pDevice->MiscHostCtrl | - MISC_HOST_CTRL_MASK_PCI_INT); - MB_REG_WR(pDevice, Mailbox.Interrupt[0].Low, 1); + REG_WR (pDevice, PciCfg.MiscHostCtrl, pDevice->MiscHostCtrl | + MISC_HOST_CTRL_MASK_PCI_INT); + MB_REG_WR (pDevice, Mailbox.Interrupt[0].Low, 1); - return LM_STATUS_SUCCESS; + return LM_STATUS_SUCCESS; } - /******************************************************************************/ /* Description: */ /* This routine enables the adapter to generate interrupts. */ @@ -2998,24 +2778,20 @@ LM_DisableInterrupt( /* Return: */ /* LM_STATUS_SUCCESS */ /******************************************************************************/ -LM_STATUS -LM_EnableInterrupt( - PLM_DEVICE_BLOCK pDevice) +LM_STATUS LM_EnableInterrupt (PLM_DEVICE_BLOCK pDevice) { - REG_WR(pDevice, PciCfg.MiscHostCtrl, pDevice->MiscHostCtrl & - ~MISC_HOST_CTRL_MASK_PCI_INT); - MB_REG_WR(pDevice, Mailbox.Interrupt[0].Low, 0); + REG_WR (pDevice, PciCfg.MiscHostCtrl, pDevice->MiscHostCtrl & + ~MISC_HOST_CTRL_MASK_PCI_INT); + MB_REG_WR (pDevice, Mailbox.Interrupt[0].Low, 0); - if(pDevice->pStatusBlkVirt->Status & STATUS_BLOCK_UPDATED) - { - REG_WR(pDevice, Grc.LocalCtrl, pDevice->GrcLocalCtrl | - GRC_MISC_LOCAL_CTRL_SET_INT); - } + if (pDevice->pStatusBlkVirt->Status & STATUS_BLOCK_UPDATED) { + REG_WR (pDevice, Grc.LocalCtrl, pDevice->GrcLocalCtrl | + GRC_MISC_LOCAL_CTRL_SET_INT); + } - return LM_STATUS_SUCCESS; + return LM_STATUS_SUCCESS; } - /******************************************************************************/ /* Description: */ /* This routine puts a packet on the wire if there is a transmit DMA */ @@ -3027,306 +2803,279 @@ LM_EnableInterrupt( /* LM_STATUS_SUCCESS */ /******************************************************************************/ #if 0 -LM_STATUS -LM_SendPacket(PLM_DEVICE_BLOCK pDevice, PLM_PACKET pPacket) +LM_STATUS LM_SendPacket (PLM_DEVICE_BLOCK pDevice, PLM_PACKET pPacket) { - LM_UINT32 FragCount; - PT3_SND_BD pSendBd; - PT3_SND_BD pShadowSendBd; - LM_UINT32 Value32, Len; - LM_UINT32 Idx; + LM_UINT32 FragCount; + PT3_SND_BD pSendBd; + PT3_SND_BD pShadowSendBd; + LM_UINT32 Value32, Len; + LM_UINT32 Idx; - if (T3_ASIC_REV(pDevice->ChipRevId) == T3_ASIC_REV_5700) { - return LM_5700SendPacket(pDevice, pPacket); - } + if (T3_ASIC_REV (pDevice->ChipRevId) == T3_ASIC_REV_5700) { + return LM_5700SendPacket (pDevice, pPacket); + } - /* Update the SendBdLeft count. */ - atomic_sub(pPacket->u.Tx.FragCount, &pDevice->SendBdLeft); + /* Update the SendBdLeft count. */ + atomic_sub (pPacket->u.Tx.FragCount, &pDevice->SendBdLeft); - /* Initalize the send buffer descriptors. */ - Idx = pDevice->SendProdIdx; + /* Initalize the send buffer descriptors. */ + Idx = pDevice->SendProdIdx; - pSendBd = &pDevice->pSendBdVirt[Idx]; + pSendBd = &pDevice->pSendBdVirt[Idx]; - /* Next producer index. */ - if (pDevice->NicSendBd == TRUE) - { - T3_64BIT_HOST_ADDR paddr; + /* Next producer index. */ + if (pDevice->NicSendBd == TRUE) { + T3_64BIT_HOST_ADDR paddr; + + pShadowSendBd = &pDevice->ShadowSendBd[Idx]; + for (FragCount = 0;;) { + MM_MapTxDma (pDevice, pPacket, &paddr, &Len, FragCount); + /* Initialize the pointer to the send buffer fragment. */ + if (paddr.High != pShadowSendBd->HostAddr.High) { + __raw_writel (paddr.High, + &(pSendBd->HostAddr.High)); + pShadowSendBd->HostAddr.High = paddr.High; + } + __raw_writel (paddr.Low, &(pSendBd->HostAddr.Low)); + + /* Setup the control flags and send buffer size. */ + Value32 = (Len << 16) | pPacket->Flags; + + Idx = (Idx + 1) & T3_SEND_RCB_ENTRY_COUNT_MASK; + + FragCount++; + if (FragCount >= pPacket->u.Tx.FragCount) { + Value32 |= SND_BD_FLAG_END; + if (Value32 != pShadowSendBd->u1.Len_Flags) { + __raw_writel (Value32, + &(pSendBd->u1.Len_Flags)); + pShadowSendBd->u1.Len_Flags = Value32; + } + if (pPacket->Flags & SND_BD_FLAG_VLAN_TAG) { + __raw_writel (pPacket->VlanTag, + &(pSendBd->u2.VlanTag)); + } + break; + } else { + if (Value32 != pShadowSendBd->u1.Len_Flags) { + __raw_writel (Value32, + &(pSendBd->u1.Len_Flags)); + pShadowSendBd->u1.Len_Flags = Value32; + } + if (pPacket->Flags & SND_BD_FLAG_VLAN_TAG) { + __raw_writel (pPacket->VlanTag, + &(pSendBd->u2.VlanTag)); + } + } - pShadowSendBd = &pDevice->ShadowSendBd[Idx]; - for(FragCount = 0; ; ) - { - MM_MapTxDma(pDevice, pPacket, &paddr, &Len, FragCount); - /* Initialize the pointer to the send buffer fragment. */ - if (paddr.High != pShadowSendBd->HostAddr.High) - { - __raw_writel(paddr.High, &(pSendBd->HostAddr.High)); - pShadowSendBd->HostAddr.High = paddr.High; - } - __raw_writel(paddr.Low, &(pSendBd->HostAddr.Low)); - - /* Setup the control flags and send buffer size. */ - Value32 = (Len << 16) | pPacket->Flags; - - Idx = (Idx + 1) & T3_SEND_RCB_ENTRY_COUNT_MASK; - - FragCount++; - if (FragCount >= pPacket->u.Tx.FragCount) - { - Value32 |= SND_BD_FLAG_END; - if (Value32 != pShadowSendBd->u1.Len_Flags) - { - __raw_writel(Value32, &(pSendBd->u1.Len_Flags)); - pShadowSendBd->u1.Len_Flags = Value32; - } - if (pPacket->Flags & SND_BD_FLAG_VLAN_TAG) { - __raw_writel(pPacket->VlanTag, &(pSendBd->u2.VlanTag)); - } - break; - } - else - { - if (Value32 != pShadowSendBd->u1.Len_Flags) - { - __raw_writel(Value32, &(pSendBd->u1.Len_Flags)); - pShadowSendBd->u1.Len_Flags = Value32; - } - if (pPacket->Flags & SND_BD_FLAG_VLAN_TAG) { - __raw_writel(pPacket->VlanTag, &(pSendBd->u2.VlanTag)); - } - } - - pSendBd++; - pShadowSendBd++; - if (Idx == 0) - { - pSendBd = &pDevice->pSendBdVirt[0]; - pShadowSendBd = &pDevice->ShadowSendBd[0]; - } - } /* for */ + pSendBd++; + pShadowSendBd++; + if (Idx == 0) { + pSendBd = &pDevice->pSendBdVirt[0]; + pShadowSendBd = &pDevice->ShadowSendBd[0]; + } + } /* for */ - /* Put the packet descriptor in the ActiveQ. */ - QQ_PushTail(&pDevice->TxPacketActiveQ.Container, pPacket); + /* Put the packet descriptor in the ActiveQ. */ + QQ_PushTail (&pDevice->TxPacketActiveQ.Container, pPacket); - wmb(); - MB_REG_WR(pDevice, Mailbox.SendNicProdIdx[0].Low, Idx); + wmb (); + MB_REG_WR (pDevice, Mailbox.SendNicProdIdx[0].Low, Idx); - } - else - { - for(FragCount = 0; ; ) - { - /* Initialize the pointer to the send buffer fragment. */ - MM_MapTxDma(pDevice, pPacket, &pSendBd->HostAddr, &Len, FragCount); + } else { + for (FragCount = 0;;) { + /* Initialize the pointer to the send buffer fragment. */ + MM_MapTxDma (pDevice, pPacket, &pSendBd->HostAddr, &Len, + FragCount); - pSendBd->u2.VlanTag = pPacket->VlanTag; + pSendBd->u2.VlanTag = pPacket->VlanTag; - /* Setup the control flags and send buffer size. */ - Value32 = (Len << 16) | pPacket->Flags; + /* Setup the control flags and send buffer size. */ + Value32 = (Len << 16) | pPacket->Flags; - Idx = (Idx + 1) & T3_SEND_RCB_ENTRY_COUNT_MASK; + Idx = (Idx + 1) & T3_SEND_RCB_ENTRY_COUNT_MASK; - FragCount++; - if (FragCount >= pPacket->u.Tx.FragCount) - { - pSendBd->u1.Len_Flags = Value32 | SND_BD_FLAG_END; - break; - } - else - { - pSendBd->u1.Len_Flags = Value32; - } - pSendBd++; - if (Idx == 0) - { - pSendBd = &pDevice->pSendBdVirt[0]; - } - } /* for */ + FragCount++; + if (FragCount >= pPacket->u.Tx.FragCount) { + pSendBd->u1.Len_Flags = + Value32 | SND_BD_FLAG_END; + break; + } else { + pSendBd->u1.Len_Flags = Value32; + } + pSendBd++; + if (Idx == 0) { + pSendBd = &pDevice->pSendBdVirt[0]; + } + } /* for */ - /* Put the packet descriptor in the ActiveQ. */ - QQ_PushTail(&pDevice->TxPacketActiveQ.Container, pPacket); + /* Put the packet descriptor in the ActiveQ. */ + QQ_PushTail (&pDevice->TxPacketActiveQ.Container, pPacket); - wmb(); - MB_REG_WR(pDevice, Mailbox.SendHostProdIdx[0].Low, Idx); + wmb (); + MB_REG_WR (pDevice, Mailbox.SendHostProdIdx[0].Low, Idx); - } + } - /* Update the producer index. */ - pDevice->SendProdIdx = Idx; + /* Update the producer index. */ + pDevice->SendProdIdx = Idx; - return LM_STATUS_SUCCESS; + return LM_STATUS_SUCCESS; } #endif -LM_STATUS -LM_SendPacket(PLM_DEVICE_BLOCK pDevice, PLM_PACKET pPacket) +LM_STATUS LM_SendPacket (PLM_DEVICE_BLOCK pDevice, PLM_PACKET pPacket) { - LM_UINT32 FragCount; - PT3_SND_BD pSendBd, pTmpSendBd, pShadowSendBd; - T3_SND_BD NicSendBdArr[MAX_FRAGMENT_COUNT]; - LM_UINT32 StartIdx, Idx; + LM_UINT32 FragCount; + PT3_SND_BD pSendBd, pTmpSendBd, pShadowSendBd; + T3_SND_BD NicSendBdArr[MAX_FRAGMENT_COUNT]; + LM_UINT32 StartIdx, Idx; + + while (1) { + /* Initalize the send buffer descriptors. */ + StartIdx = Idx = pDevice->SendProdIdx; + + if (pDevice->NicSendBd) { + pTmpSendBd = pSendBd = &NicSendBdArr[0]; + } else { + pTmpSendBd = pSendBd = &pDevice->pSendBdVirt[Idx]; + } - while (1) - { - /* Initalize the send buffer descriptors. */ - StartIdx = Idx = pDevice->SendProdIdx; + /* Next producer index. */ + for (FragCount = 0;;) { + LM_UINT32 Value32, Len; - if (pDevice->NicSendBd) - { - pTmpSendBd = pSendBd = &NicSendBdArr[0]; - } - else - { - pTmpSendBd = pSendBd = &pDevice->pSendBdVirt[Idx]; + /* Initialize the pointer to the send buffer fragment. */ + MM_MapTxDma (pDevice, pPacket, &pSendBd->HostAddr, &Len, + FragCount); + + pSendBd->u2.VlanTag = pPacket->VlanTag; + + /* Setup the control flags and send buffer size. */ + Value32 = (Len << 16) | pPacket->Flags; + + Idx = (Idx + 1) & T3_SEND_RCB_ENTRY_COUNT_MASK; + + FragCount++; + if (FragCount >= pPacket->u.Tx.FragCount) { + pSendBd->u1.Len_Flags = + Value32 | SND_BD_FLAG_END; + break; + } else { + pSendBd->u1.Len_Flags = Value32; + } + pSendBd++; + if ((Idx == 0) && !pDevice->NicSendBd) { + pSendBd = &pDevice->pSendBdVirt[0]; + } + } /* for */ + if (T3_ASIC_REV (pDevice->ChipRevId) == T3_ASIC_REV_5700) { + if (LM_Test4GBoundary (pDevice, pPacket, pTmpSendBd) == + LM_STATUS_SUCCESS) { + if (MM_CoalesceTxBuffer (pDevice, pPacket) != + LM_STATUS_SUCCESS) { + QQ_PushHead (&pDevice->TxPacketFreeQ. + Container, pPacket); + return LM_STATUS_FAILURE; + } + continue; + } + } + break; } + /* Put the packet descriptor in the ActiveQ. */ + QQ_PushTail (&pDevice->TxPacketActiveQ.Container, pPacket); - /* Next producer index. */ - for(FragCount = 0; ; ) - { - LM_UINT32 Value32, Len; + if (pDevice->NicSendBd) { + pSendBd = &pDevice->pSendBdVirt[StartIdx]; + pShadowSendBd = &pDevice->ShadowSendBd[StartIdx]; - /* Initialize the pointer to the send buffer fragment. */ - MM_MapTxDma(pDevice, pPacket, &pSendBd->HostAddr, &Len, FragCount); + while (StartIdx != Idx) { + LM_UINT32 Value32; - pSendBd->u2.VlanTag = pPacket->VlanTag; + if ((Value32 = pTmpSendBd->HostAddr.High) != + pShadowSendBd->HostAddr.High) { + __raw_writel (Value32, + &(pSendBd->HostAddr.High)); + pShadowSendBd->HostAddr.High = Value32; + } - /* Setup the control flags and send buffer size. */ - Value32 = (Len << 16) | pPacket->Flags; + __raw_writel (pTmpSendBd->HostAddr.Low, + &(pSendBd->HostAddr.Low)); - Idx = (Idx + 1) & T3_SEND_RCB_ENTRY_COUNT_MASK; + if ((Value32 = pTmpSendBd->u1.Len_Flags) != + pShadowSendBd->u1.Len_Flags) { + __raw_writel (Value32, + &(pSendBd->u1.Len_Flags)); + pShadowSendBd->u1.Len_Flags = Value32; + } - FragCount++; - if (FragCount >= pPacket->u.Tx.FragCount) - { - pSendBd->u1.Len_Flags = Value32 | SND_BD_FLAG_END; - break; - } - else - { - pSendBd->u1.Len_Flags = Value32; - } - pSendBd++; - if ((Idx == 0) && !pDevice->NicSendBd) - { - pSendBd = &pDevice->pSendBdVirt[0]; - } - } /* for */ - if (T3_ASIC_REV(pDevice->ChipRevId) == T3_ASIC_REV_5700) - { - if (LM_Test4GBoundary(pDevice, pPacket, pTmpSendBd) == - LM_STATUS_SUCCESS) - { - if (MM_CoalesceTxBuffer(pDevice, pPacket) != LM_STATUS_SUCCESS) - { - QQ_PushHead(&pDevice->TxPacketFreeQ.Container, pPacket); - return LM_STATUS_FAILURE; - } - continue; - } - } - break; - } - /* Put the packet descriptor in the ActiveQ. */ - QQ_PushTail(&pDevice->TxPacketActiveQ.Container, pPacket); - - if (pDevice->NicSendBd) - { - pSendBd = &pDevice->pSendBdVirt[StartIdx]; - pShadowSendBd = &pDevice->ShadowSendBd[StartIdx]; - - while (StartIdx != Idx) - { - LM_UINT32 Value32; - - if ((Value32 = pTmpSendBd->HostAddr.High) != - pShadowSendBd->HostAddr.High) - { - __raw_writel(Value32, &(pSendBd->HostAddr.High)); - pShadowSendBd->HostAddr.High = Value32; - } - - __raw_writel(pTmpSendBd->HostAddr.Low, &(pSendBd->HostAddr.Low)); - - if ((Value32 = pTmpSendBd->u1.Len_Flags) != - pShadowSendBd->u1.Len_Flags) - { - __raw_writel(Value32, &(pSendBd->u1.Len_Flags)); - pShadowSendBd->u1.Len_Flags = Value32; - } - - if (pPacket->Flags & SND_BD_FLAG_VLAN_TAG) - { - __raw_writel(pTmpSendBd->u2.VlanTag, &(pSendBd->u2.VlanTag)); - } - - StartIdx = (StartIdx + 1) & T3_SEND_RCB_ENTRY_COUNT_MASK; - if (StartIdx == 0) - pSendBd = &pDevice->pSendBdVirt[0]; - else - pSendBd++; - pTmpSendBd++; - } - wmb(); - MB_REG_WR(pDevice, Mailbox.SendNicProdIdx[0].Low, Idx); + if (pPacket->Flags & SND_BD_FLAG_VLAN_TAG) { + __raw_writel (pTmpSendBd->u2.VlanTag, + &(pSendBd->u2.VlanTag)); + } - if(T3_CHIP_REV(pDevice->ChipRevId) == T3_CHIP_REV_5700_BX) - { - MB_REG_WR(pDevice, Mailbox.SendNicProdIdx[0].Low, Idx); - } - } - else - { - wmb(); - MB_REG_WR(pDevice, Mailbox.SendHostProdIdx[0].Low, Idx); + StartIdx = + (StartIdx + 1) & T3_SEND_RCB_ENTRY_COUNT_MASK; + if (StartIdx == 0) + pSendBd = &pDevice->pSendBdVirt[0]; + else + pSendBd++; + pTmpSendBd++; + } + wmb (); + MB_REG_WR (pDevice, Mailbox.SendNicProdIdx[0].Low, Idx); - if(T3_CHIP_REV(pDevice->ChipRevId) == T3_CHIP_REV_5700_BX) - { - MB_REG_WR(pDevice, Mailbox.SendHostProdIdx[0].Low, Idx); + if (T3_CHIP_REV (pDevice->ChipRevId) == T3_CHIP_REV_5700_BX) { + MB_REG_WR (pDevice, Mailbox.SendNicProdIdx[0].Low, Idx); + } + } else { + wmb (); + MB_REG_WR (pDevice, Mailbox.SendHostProdIdx[0].Low, Idx); + + if (T3_CHIP_REV (pDevice->ChipRevId) == T3_CHIP_REV_5700_BX) { + MB_REG_WR (pDevice, Mailbox.SendHostProdIdx[0].Low, + Idx); + } } - } - /* Update the SendBdLeft count. */ - atomic_sub(pPacket->u.Tx.FragCount, &pDevice->SendBdLeft); + /* Update the SendBdLeft count. */ + atomic_sub (pPacket->u.Tx.FragCount, &pDevice->SendBdLeft); - /* Update the producer index. */ - pDevice->SendProdIdx = Idx; + /* Update the producer index. */ + pDevice->SendProdIdx = Idx; - return LM_STATUS_SUCCESS; + return LM_STATUS_SUCCESS; } STATIC LM_STATUS -LM_Test4GBoundary(PLM_DEVICE_BLOCK pDevice, PLM_PACKET pPacket, - PT3_SND_BD pSendBd) +LM_Test4GBoundary (PLM_DEVICE_BLOCK pDevice, PLM_PACKET pPacket, + PT3_SND_BD pSendBd) { - int FragCount; - LM_UINT32 Idx, Base, Len; - - Idx = pDevice->SendProdIdx; - for(FragCount = 0; ; ) - { - Len = pSendBd->u1.Len_Flags >> 16; - if (((Base = pSendBd->HostAddr.Low) > 0xffffdcc0) && - (pSendBd->HostAddr.High == 0) && - ((Base + 8 + Len) < Base)) - { - return LM_STATUS_SUCCESS; - } - FragCount++; - if (FragCount >= pPacket->u.Tx.FragCount) - { - break; + int FragCount; + LM_UINT32 Idx, Base, Len; + + Idx = pDevice->SendProdIdx; + for (FragCount = 0;;) { + Len = pSendBd->u1.Len_Flags >> 16; + if (((Base = pSendBd->HostAddr.Low) > 0xffffdcc0) && + (pSendBd->HostAddr.High == 0) && + ((Base + 8 + Len) < Base)) { + return LM_STATUS_SUCCESS; + } + FragCount++; + if (FragCount >= pPacket->u.Tx.FragCount) { + break; + } + pSendBd++; + if (!pDevice->NicSendBd) { + Idx = (Idx + 1) & T3_SEND_RCB_ENTRY_COUNT_MASK; + if (Idx == 0) { + pSendBd = &pDevice->pSendBdVirt[0]; + } + } } - pSendBd++; - if (!pDevice->NicSendBd) - { - Idx = (Idx + 1) & T3_SEND_RCB_ENTRY_COUNT_MASK; - if (Idx == 0) - { - pSendBd = &pDevice->pSendBdVirt[0]; - } - } - } - return LM_STATUS_FAILURE; + return LM_STATUS_FAILURE; } /******************************************************************************/ @@ -3335,35 +3084,30 @@ LM_Test4GBoundary(PLM_DEVICE_BLOCK pDevice, PLM_PACKET pPacket, /* Return: */ /******************************************************************************/ __inline static unsigned long -ComputeCrc32( -unsigned char *pBuffer, -unsigned long BufferSize) { - unsigned long Reg; - unsigned long Tmp; - unsigned long j, k; +ComputeCrc32 (unsigned char *pBuffer, unsigned long BufferSize) +{ + unsigned long Reg; + unsigned long Tmp; + unsigned long j, k; - Reg = 0xffffffff; + Reg = 0xffffffff; - for(j = 0; j < BufferSize; j++) - { - Reg ^= pBuffer[j]; + for (j = 0; j < BufferSize; j++) { + Reg ^= pBuffer[j]; - for(k = 0; k < 8; k++) - { - Tmp = Reg & 0x01; + for (k = 0; k < 8; k++) { + Tmp = Reg & 0x01; - Reg >>= 1; + Reg >>= 1; - if(Tmp) - { - Reg ^= 0xedb88320; - } + if (Tmp) { + Reg ^= 0xedb88320; + } + } } - } - - return ~Reg; -} /* ComputeCrc32 */ + return ~Reg; +} /* ComputeCrc32 */ /******************************************************************************/ /* Description: */ @@ -3372,149 +3116,139 @@ unsigned long BufferSize) { /* Return: */ /* LM_STATUS_SUCCESS */ /******************************************************************************/ -LM_STATUS -LM_SetReceiveMask( -PLM_DEVICE_BLOCK pDevice, -LM_UINT32 Mask) { - LM_UINT32 ReceiveMask; - LM_UINT32 RxMode; - LM_UINT32 j, k; - - ReceiveMask = Mask; - - RxMode = pDevice->RxMode; - - if(Mask & LM_ACCEPT_UNICAST) - { - Mask &= ~LM_ACCEPT_UNICAST; - } - - if(Mask & LM_ACCEPT_MULTICAST) - { - Mask &= ~LM_ACCEPT_MULTICAST; - } - - if(Mask & LM_ACCEPT_ALL_MULTICAST) - { - Mask &= ~LM_ACCEPT_ALL_MULTICAST; - } - - if(Mask & LM_ACCEPT_BROADCAST) - { - Mask &= ~LM_ACCEPT_BROADCAST; - } - - RxMode &= ~RX_MODE_PROMISCUOUS_MODE; - if(Mask & LM_PROMISCUOUS_MODE) - { - RxMode |= RX_MODE_PROMISCUOUS_MODE; - Mask &= ~LM_PROMISCUOUS_MODE; - } - - RxMode &= ~(RX_MODE_ACCEPT_RUNTS | RX_MODE_ACCEPT_OVERSIZED); - if(Mask & LM_ACCEPT_ERROR_PACKET) - { - RxMode |= RX_MODE_ACCEPT_RUNTS | RX_MODE_ACCEPT_OVERSIZED; - Mask &= ~LM_ACCEPT_ERROR_PACKET; - } - - /* Make sure all the bits are valid before committing changes. */ - if(Mask) - { - return LM_STATUS_FAILURE; - } +LM_STATUS LM_SetReceiveMask (PLM_DEVICE_BLOCK pDevice, LM_UINT32 Mask) +{ + LM_UINT32 ReceiveMask; + LM_UINT32 RxMode; + LM_UINT32 j, k; - /* Commit the new filter. */ - pDevice->RxMode = RxMode; - REG_WR(pDevice, MacCtrl.RxMode, RxMode); + ReceiveMask = Mask; - pDevice->ReceiveMask = ReceiveMask; + RxMode = pDevice->RxMode; - /* Set up the MC hash table. */ - if(ReceiveMask & LM_ACCEPT_ALL_MULTICAST) - { - for(k = 0; k < 4; k++) - { - REG_WR(pDevice, MacCtrl.HashReg[k], 0xffffffff); + if (Mask & LM_ACCEPT_UNICAST) { + Mask &= ~LM_ACCEPT_UNICAST; } - } - else if(ReceiveMask & LM_ACCEPT_MULTICAST) - { - LM_UINT32 HashReg[4]; - HashReg[0] = 0; HashReg[1] = 0; HashReg[2] = 0; HashReg[3] = 0; - for(j = 0; j < pDevice->McEntryCount; j++) - { - LM_UINT32 RegIndex; - LM_UINT32 Bitpos; - LM_UINT32 Crc32; + if (Mask & LM_ACCEPT_MULTICAST) { + Mask &= ~LM_ACCEPT_MULTICAST; + } + + if (Mask & LM_ACCEPT_ALL_MULTICAST) { + Mask &= ~LM_ACCEPT_ALL_MULTICAST; + } + + if (Mask & LM_ACCEPT_BROADCAST) { + Mask &= ~LM_ACCEPT_BROADCAST; + } + + RxMode &= ~RX_MODE_PROMISCUOUS_MODE; + if (Mask & LM_PROMISCUOUS_MODE) { + RxMode |= RX_MODE_PROMISCUOUS_MODE; + Mask &= ~LM_PROMISCUOUS_MODE; + } - Crc32 = ComputeCrc32(pDevice->McTable[j], ETHERNET_ADDRESS_SIZE); + RxMode &= ~(RX_MODE_ACCEPT_RUNTS | RX_MODE_ACCEPT_OVERSIZED); + if (Mask & LM_ACCEPT_ERROR_PACKET) { + RxMode |= RX_MODE_ACCEPT_RUNTS | RX_MODE_ACCEPT_OVERSIZED; + Mask &= ~LM_ACCEPT_ERROR_PACKET; + } + + /* Make sure all the bits are valid before committing changes. */ + if (Mask) { + return LM_STATUS_FAILURE; + } - /* The most significant 7 bits of the CRC32 (no inversion), */ - /* are used to index into one of the possible 128 bit positions. */ - Bitpos = ~Crc32 & 0x7f; + /* Commit the new filter. */ + pDevice->RxMode = RxMode; + REG_WR (pDevice, MacCtrl.RxMode, RxMode); - /* Hash register index. */ - RegIndex = (Bitpos & 0x60) >> 5; + pDevice->ReceiveMask = ReceiveMask; - /* Bit to turn on within a hash register. */ - Bitpos &= 0x1f; + /* Set up the MC hash table. */ + if (ReceiveMask & LM_ACCEPT_ALL_MULTICAST) { + for (k = 0; k < 4; k++) { + REG_WR (pDevice, MacCtrl.HashReg[k], 0xffffffff); + } + } else if (ReceiveMask & LM_ACCEPT_MULTICAST) { + LM_UINT32 HashReg[4]; + + HashReg[0] = 0; + HashReg[1] = 0; + HashReg[2] = 0; + HashReg[3] = 0; + for (j = 0; j < pDevice->McEntryCount; j++) { + LM_UINT32 RegIndex; + LM_UINT32 Bitpos; + LM_UINT32 Crc32; + + Crc32 = + ComputeCrc32 (pDevice->McTable[j], + ETHERNET_ADDRESS_SIZE); + + /* The most significant 7 bits of the CRC32 (no inversion), */ + /* are used to index into one of the possible 128 bit positions. */ + Bitpos = ~Crc32 & 0x7f; + + /* Hash register index. */ + RegIndex = (Bitpos & 0x60) >> 5; + + /* Bit to turn on within a hash register. */ + Bitpos &= 0x1f; + + /* Enable the multicast bit. */ + HashReg[RegIndex] |= (1 << Bitpos); + } - /* Enable the multicast bit. */ - HashReg[RegIndex] |= (1 << Bitpos); + /* REV_AX has problem with multicast filtering where it uses both */ + /* DA and SA to perform hashing. */ + for (k = 0; k < 4; k++) { + REG_WR (pDevice, MacCtrl.HashReg[k], HashReg[k]); + } + } else { + /* Reject all multicast frames. */ + for (j = 0; j < 4; j++) { + REG_WR (pDevice, MacCtrl.HashReg[j], 0); + } } - /* REV_AX has problem with multicast filtering where it uses both */ - /* DA and SA to perform hashing. */ - for(k = 0; k < 4; k++) - { - REG_WR(pDevice, MacCtrl.HashReg[k], HashReg[k]); + /* By default, Tigon3 will accept broadcast frames. We need to setup */ + if (ReceiveMask & LM_ACCEPT_BROADCAST) { + REG_WR (pDevice, + MacCtrl.RcvRules[RCV_RULE1_REJECT_BROADCAST_IDX].Rule, + REJECT_BROADCAST_RULE1_RULE & RCV_DISABLE_RULE_MASK); + REG_WR (pDevice, + MacCtrl.RcvRules[RCV_RULE1_REJECT_BROADCAST_IDX].Value, + REJECT_BROADCAST_RULE1_VALUE & RCV_DISABLE_RULE_MASK); + REG_WR (pDevice, + MacCtrl.RcvRules[RCV_RULE2_REJECT_BROADCAST_IDX].Rule, + REJECT_BROADCAST_RULE1_RULE & RCV_DISABLE_RULE_MASK); + REG_WR (pDevice, + MacCtrl.RcvRules[RCV_RULE2_REJECT_BROADCAST_IDX].Value, + REJECT_BROADCAST_RULE1_VALUE & RCV_DISABLE_RULE_MASK); + } else { + REG_WR (pDevice, + MacCtrl.RcvRules[RCV_RULE1_REJECT_BROADCAST_IDX].Rule, + REJECT_BROADCAST_RULE1_RULE); + REG_WR (pDevice, + MacCtrl.RcvRules[RCV_RULE1_REJECT_BROADCAST_IDX].Value, + REJECT_BROADCAST_RULE1_VALUE); + REG_WR (pDevice, + MacCtrl.RcvRules[RCV_RULE2_REJECT_BROADCAST_IDX].Rule, + REJECT_BROADCAST_RULE2_RULE); + REG_WR (pDevice, + MacCtrl.RcvRules[RCV_RULE2_REJECT_BROADCAST_IDX].Value, + REJECT_BROADCAST_RULE2_VALUE); + } + + /* disable the rest of the rules. */ + for (j = RCV_LAST_RULE_IDX; j < 16; j++) { + REG_WR (pDevice, MacCtrl.RcvRules[j].Rule, 0); + REG_WR (pDevice, MacCtrl.RcvRules[j].Value, 0); } - } - else - { - /* Reject all multicast frames. */ - for(j = 0; j < 4; j++) - { - REG_WR(pDevice, MacCtrl.HashReg[j], 0); - } - } - - /* By default, Tigon3 will accept broadcast frames. We need to setup */ - if(ReceiveMask & LM_ACCEPT_BROADCAST) - { - REG_WR(pDevice, MacCtrl.RcvRules[RCV_RULE1_REJECT_BROADCAST_IDX].Rule, - REJECT_BROADCAST_RULE1_RULE & RCV_DISABLE_RULE_MASK); - REG_WR(pDevice, MacCtrl.RcvRules[RCV_RULE1_REJECT_BROADCAST_IDX].Value, - REJECT_BROADCAST_RULE1_VALUE & RCV_DISABLE_RULE_MASK); - REG_WR(pDevice, MacCtrl.RcvRules[RCV_RULE2_REJECT_BROADCAST_IDX].Rule, - REJECT_BROADCAST_RULE1_RULE & RCV_DISABLE_RULE_MASK); - REG_WR(pDevice, MacCtrl.RcvRules[RCV_RULE2_REJECT_BROADCAST_IDX].Value, - REJECT_BROADCAST_RULE1_VALUE & RCV_DISABLE_RULE_MASK); - } - else - { - REG_WR(pDevice, MacCtrl.RcvRules[RCV_RULE1_REJECT_BROADCAST_IDX].Rule, - REJECT_BROADCAST_RULE1_RULE); - REG_WR(pDevice, MacCtrl.RcvRules[RCV_RULE1_REJECT_BROADCAST_IDX].Value, - REJECT_BROADCAST_RULE1_VALUE); - REG_WR(pDevice, MacCtrl.RcvRules[RCV_RULE2_REJECT_BROADCAST_IDX].Rule, - REJECT_BROADCAST_RULE2_RULE); - REG_WR(pDevice, MacCtrl.RcvRules[RCV_RULE2_REJECT_BROADCAST_IDX].Value, - REJECT_BROADCAST_RULE2_VALUE); - } - - /* disable the rest of the rules. */ - for(j = RCV_LAST_RULE_IDX; j < 16; j++) - { - REG_WR(pDevice, MacCtrl.RcvRules[j].Rule, 0); - REG_WR(pDevice, MacCtrl.RcvRules[j].Value, 0); - } - - return LM_STATUS_SUCCESS; -} /* LM_SetReceiveMask */ + return LM_STATUS_SUCCESS; +} /* LM_SetReceiveMask */ /******************************************************************************/ /* Description: */ @@ -3525,138 +3259,135 @@ LM_UINT32 Mask) { /* Return: */ /* LM_STATUS_SUCCESS */ /******************************************************************************/ -LM_STATUS -LM_Abort( -PLM_DEVICE_BLOCK pDevice) +LM_STATUS LM_Abort (PLM_DEVICE_BLOCK pDevice) { - PLM_PACKET pPacket; - LM_UINT Idx; - - LM_DisableInterrupt(pDevice); - - /* Disable all the state machines. */ - LM_CntrlBlock(pDevice,T3_BLOCK_MAC_RX_ENGINE,LM_DISABLE); - LM_CntrlBlock(pDevice,T3_BLOCK_RX_BD_INITIATOR,LM_DISABLE); - LM_CntrlBlock(pDevice,T3_BLOCK_RX_LIST_PLMT,LM_DISABLE); - LM_CntrlBlock(pDevice,T3_BLOCK_RX_LIST_SELECTOR,LM_DISABLE); - LM_CntrlBlock(pDevice,T3_BLOCK_RX_DATA_INITIATOR,LM_DISABLE); - LM_CntrlBlock(pDevice,T3_BLOCK_RX_DATA_COMP,LM_DISABLE); - LM_CntrlBlock(pDevice,T3_BLOCK_RX_BD_COMP,LM_DISABLE); - - LM_CntrlBlock(pDevice,T3_BLOCK_SEND_BD_SELECTOR,LM_DISABLE); - LM_CntrlBlock(pDevice,T3_BLOCK_SEND_BD_INITIATOR,LM_DISABLE); - LM_CntrlBlock(pDevice,T3_BLOCK_SEND_DATA_INITIATOR,LM_DISABLE); - LM_CntrlBlock(pDevice,T3_BLOCK_DMA_RD,LM_DISABLE); - LM_CntrlBlock(pDevice,T3_BLOCK_SEND_DATA_COMP,LM_DISABLE); - LM_CntrlBlock(pDevice,T3_BLOCK_DMA_COMP,LM_DISABLE); - LM_CntrlBlock(pDevice,T3_BLOCK_SEND_BD_COMP,LM_DISABLE); - - /* Clear TDE bit */ - pDevice->MacMode &= ~MAC_MODE_ENABLE_TDE; - REG_WR(pDevice, MacCtrl.Mode, pDevice->MacMode); - - LM_CntrlBlock(pDevice,T3_BLOCK_MAC_TX_ENGINE,LM_DISABLE); - LM_CntrlBlock(pDevice,T3_BLOCK_HOST_COALESING,LM_DISABLE); - LM_CntrlBlock(pDevice,T3_BLOCK_DMA_WR,LM_DISABLE); - LM_CntrlBlock(pDevice,T3_BLOCK_MBUF_CLUSTER_FREE,LM_DISABLE); - - /* Reset all FTQs */ - REG_WR(pDevice, Ftq.Reset, 0xffffffff); - REG_WR(pDevice, Ftq.Reset, 0x0); - - LM_CntrlBlock(pDevice,T3_BLOCK_MBUF_MANAGER,LM_DISABLE); - LM_CntrlBlock(pDevice,T3_BLOCK_MEM_ARBITOR,LM_DISABLE); - - MM_ACQUIRE_INT_LOCK(pDevice); - - /* Abort packets that have already queued to go out. */ - pPacket = (PLM_PACKET) QQ_PopHead(&pDevice->TxPacketActiveQ.Container); - while(pPacket) - { - - pPacket->PacketStatus = LM_STATUS_TRANSMIT_ABORTED; - pDevice->TxCounters.TxPacketAbortedCnt++; - - atomic_add(pPacket->u.Tx.FragCount, &pDevice->SendBdLeft); - - QQ_PushTail(&pDevice->TxPacketXmittedQ.Container, pPacket); - - pPacket = (PLM_PACKET) - QQ_PopHead(&pDevice->TxPacketActiveQ.Container); - } - - /* Cleanup the receive return rings. */ - LM_ServiceRxInterrupt(pDevice); - - /* Don't want to indicate rx packets in Ndis miniport shutdown context. */ - /* Doing so may cause system crash. */ - if(!pDevice->ShuttingDown) - { - /* Indicate packets to the protocol. */ - MM_IndicateTxPackets(pDevice); - - /* Indicate received packets to the protocols. */ - MM_IndicateRxPackets(pDevice); - } - else - { - /* Move the receive packet descriptors in the ReceivedQ to the */ - /* free queue. */ - for(; ;) - { - pPacket = (PLM_PACKET) QQ_PopHead( - &pDevice->RxPacketReceivedQ.Container); - if(pPacket == NULL) - { - break; - } - QQ_PushTail(&pDevice->RxPacketFreeQ.Container, pPacket); + PLM_PACKET pPacket; + LM_UINT Idx; + + LM_DisableInterrupt (pDevice); + + /* Disable all the state machines. */ + LM_CntrlBlock (pDevice, T3_BLOCK_MAC_RX_ENGINE, LM_DISABLE); + LM_CntrlBlock (pDevice, T3_BLOCK_RX_BD_INITIATOR, LM_DISABLE); + LM_CntrlBlock (pDevice, T3_BLOCK_RX_LIST_PLMT, LM_DISABLE); + LM_CntrlBlock (pDevice, T3_BLOCK_RX_LIST_SELECTOR, LM_DISABLE); + LM_CntrlBlock (pDevice, T3_BLOCK_RX_DATA_INITIATOR, LM_DISABLE); + LM_CntrlBlock (pDevice, T3_BLOCK_RX_DATA_COMP, LM_DISABLE); + LM_CntrlBlock (pDevice, T3_BLOCK_RX_BD_COMP, LM_DISABLE); + + LM_CntrlBlock (pDevice, T3_BLOCK_SEND_BD_SELECTOR, LM_DISABLE); + LM_CntrlBlock (pDevice, T3_BLOCK_SEND_BD_INITIATOR, LM_DISABLE); + LM_CntrlBlock (pDevice, T3_BLOCK_SEND_DATA_INITIATOR, LM_DISABLE); + LM_CntrlBlock (pDevice, T3_BLOCK_DMA_RD, LM_DISABLE); + LM_CntrlBlock (pDevice, T3_BLOCK_SEND_DATA_COMP, LM_DISABLE); + LM_CntrlBlock (pDevice, T3_BLOCK_DMA_COMP, LM_DISABLE); + LM_CntrlBlock (pDevice, T3_BLOCK_SEND_BD_COMP, LM_DISABLE); + + /* Clear TDE bit */ + pDevice->MacMode &= ~MAC_MODE_ENABLE_TDE; + REG_WR (pDevice, MacCtrl.Mode, pDevice->MacMode); + + LM_CntrlBlock (pDevice, T3_BLOCK_MAC_TX_ENGINE, LM_DISABLE); + LM_CntrlBlock (pDevice, T3_BLOCK_HOST_COALESING, LM_DISABLE); + LM_CntrlBlock (pDevice, T3_BLOCK_DMA_WR, LM_DISABLE); + LM_CntrlBlock (pDevice, T3_BLOCK_MBUF_CLUSTER_FREE, LM_DISABLE); + + /* Reset all FTQs */ + REG_WR (pDevice, Ftq.Reset, 0xffffffff); + REG_WR (pDevice, Ftq.Reset, 0x0); + + LM_CntrlBlock (pDevice, T3_BLOCK_MBUF_MANAGER, LM_DISABLE); + LM_CntrlBlock (pDevice, T3_BLOCK_MEM_ARBITOR, LM_DISABLE); + + MM_ACQUIRE_INT_LOCK (pDevice); + + /* Abort packets that have already queued to go out. */ + pPacket = (PLM_PACKET) QQ_PopHead (&pDevice->TxPacketActiveQ.Container); + while (pPacket) { + + pPacket->PacketStatus = LM_STATUS_TRANSMIT_ABORTED; + pDevice->TxCounters.TxPacketAbortedCnt++; + + atomic_add (pPacket->u.Tx.FragCount, &pDevice->SendBdLeft); + + QQ_PushTail (&pDevice->TxPacketXmittedQ.Container, pPacket); + + pPacket = (PLM_PACKET) + QQ_PopHead (&pDevice->TxPacketActiveQ.Container); + } + + /* Cleanup the receive return rings. */ + LM_ServiceRxInterrupt (pDevice); + + /* Don't want to indicate rx packets in Ndis miniport shutdown context. */ + /* Doing so may cause system crash. */ + if (!pDevice->ShuttingDown) { + /* Indicate packets to the protocol. */ + MM_IndicateTxPackets (pDevice); + + /* Indicate received packets to the protocols. */ + MM_IndicateRxPackets (pDevice); + } else { + /* Move the receive packet descriptors in the ReceivedQ to the */ + /* free queue. */ + for (;;) { + pPacket = + (PLM_PACKET) QQ_PopHead (&pDevice-> + RxPacketReceivedQ. + Container); + if (pPacket == NULL) { + break; + } + QQ_PushTail (&pDevice->RxPacketFreeQ.Container, + pPacket); + } } - } - /* Clean up the Std Receive Producer ring. */ - Idx = pDevice->pStatusBlkVirt->RcvStdConIdx; + /* Clean up the Std Receive Producer ring. */ + Idx = pDevice->pStatusBlkVirt->RcvStdConIdx; - while(Idx != pDevice->RxStdProdIdx) { - pPacket = (PLM_PACKET) (MM_UINT_PTR(pDevice->pPacketDescBase) + - MM_UINT_PTR(pDevice->pRxStdBdVirt[Idx].Opaque)); + while (Idx != pDevice->RxStdProdIdx) { + pPacket = (PLM_PACKET) (MM_UINT_PTR (pDevice->pPacketDescBase) + + MM_UINT_PTR (pDevice->pRxStdBdVirt[Idx]. + Opaque)); - QQ_PushTail(&pDevice->RxPacketFreeQ.Container, pPacket); + QQ_PushTail (&pDevice->RxPacketFreeQ.Container, pPacket); - Idx = (Idx + 1) & T3_STD_RCV_RCB_ENTRY_COUNT_MASK; - } /* while */ + Idx = (Idx + 1) & T3_STD_RCV_RCB_ENTRY_COUNT_MASK; + } /* while */ - /* Reinitialize our copy of the indices. */ - pDevice->RxStdProdIdx = 0; + /* Reinitialize our copy of the indices. */ + pDevice->RxStdProdIdx = 0; #if T3_JUMBO_RCV_RCB_ENTRY_COUNT - /* Clean up the Jumbo Receive Producer ring. */ - Idx = pDevice->pStatusBlkVirt->RcvJumboConIdx; + /* Clean up the Jumbo Receive Producer ring. */ + Idx = pDevice->pStatusBlkVirt->RcvJumboConIdx; - while(Idx != pDevice->RxJumboProdIdx) { - pPacket = (PLM_PACKET) (MM_UINT_PTR(pDevice->pPacketDescBase) + - MM_UINT_PTR(pDevice->pRxJumboBdVirt[Idx].Opaque)); + while (Idx != pDevice->RxJumboProdIdx) { + pPacket = (PLM_PACKET) (MM_UINT_PTR (pDevice->pPacketDescBase) + + MM_UINT_PTR (pDevice-> + pRxJumboBdVirt[Idx]. + Opaque)); - QQ_PushTail(&pDevice->RxPacketFreeQ.Container, pPacket); + QQ_PushTail (&pDevice->RxPacketFreeQ.Container, pPacket); - Idx = (Idx + 1) & T3_JUMBO_RCV_RCB_ENTRY_COUNT_MASK; - } /* while */ + Idx = (Idx + 1) & T3_JUMBO_RCV_RCB_ENTRY_COUNT_MASK; + } /* while */ - /* Reinitialize our copy of the indices. */ - pDevice->RxJumboProdIdx = 0; -#endif /* T3_JUMBO_RCV_RCB_ENTRY_COUNT */ + /* Reinitialize our copy of the indices. */ + pDevice->RxJumboProdIdx = 0; +#endif /* T3_JUMBO_RCV_RCB_ENTRY_COUNT */ - MM_RELEASE_INT_LOCK(pDevice); + MM_RELEASE_INT_LOCK (pDevice); - /* Initialize the statistis Block */ - pDevice->pStatusBlkVirt->Status = 0; - pDevice->pStatusBlkVirt->RcvStdConIdx = 0; - pDevice->pStatusBlkVirt->RcvJumboConIdx = 0; - pDevice->pStatusBlkVirt->RcvMiniConIdx = 0; - - return LM_STATUS_SUCCESS; -} /* LM_Abort */ + /* Initialize the statistis Block */ + pDevice->pStatusBlkVirt->Status = 0; + pDevice->pStatusBlkVirt->RcvStdConIdx = 0; + pDevice->pStatusBlkVirt->RcvJumboConIdx = 0; + pDevice->pStatusBlkVirt->RcvMiniConIdx = 0; + return LM_STATUS_SUCCESS; +} /* LM_Abort */ /******************************************************************************/ /* Description: */ @@ -3667,140 +3398,130 @@ PLM_DEVICE_BLOCK pDevice) /* Return: */ /* LM_STATUS_SUCCESS */ /******************************************************************************/ -LM_STATUS -LM_Halt( -PLM_DEVICE_BLOCK pDevice) { - PLM_PACKET pPacket; - LM_UINT32 EntryCnt; - - LM_Abort(pDevice); +LM_STATUS LM_Halt (PLM_DEVICE_BLOCK pDevice) +{ + PLM_PACKET pPacket; + LM_UINT32 EntryCnt; - /* Get the number of entries in the queue. */ - EntryCnt = QQ_GetEntryCnt(&pDevice->RxPacketFreeQ.Container); + LM_Abort (pDevice); - /* Make sure all the packets have been accounted for. */ - for(EntryCnt = 0; EntryCnt < pDevice->RxPacketDescCnt; EntryCnt++) - { - pPacket = (PLM_PACKET) QQ_PopHead(&pDevice->RxPacketFreeQ.Container); - if (pPacket == 0) - break; + /* Get the number of entries in the queue. */ + EntryCnt = QQ_GetEntryCnt (&pDevice->RxPacketFreeQ.Container); - MM_FreeRxBuffer(pDevice, pPacket); + /* Make sure all the packets have been accounted for. */ + for (EntryCnt = 0; EntryCnt < pDevice->RxPacketDescCnt; EntryCnt++) { + pPacket = + (PLM_PACKET) QQ_PopHead (&pDevice->RxPacketFreeQ.Container); + if (pPacket == 0) + break; - QQ_PushTail(&pDevice->RxPacketFreeQ.Container, pPacket); - } + MM_FreeRxBuffer (pDevice, pPacket); - LM_ResetChip(pDevice); + QQ_PushTail (&pDevice->RxPacketFreeQ.Container, pPacket); + } - /* Restore PCI configuration registers. */ - MM_WriteConfig32(pDevice, PCI_CACHE_LINE_SIZE_REG, - pDevice->SavedCacheLineReg); - LM_RegWrInd(pDevice, PCI_SUBSYSTEM_VENDOR_ID_REG, - (pDevice->SubsystemId << 16) | pDevice->SubsystemVendorId); + LM_ResetChip (pDevice); - /* Reprogram the MAC address. */ - LM_SetMacAddress(pDevice, pDevice->NodeAddress); + /* Restore PCI configuration registers. */ + MM_WriteConfig32 (pDevice, PCI_CACHE_LINE_SIZE_REG, + pDevice->SavedCacheLineReg); + LM_RegWrInd (pDevice, PCI_SUBSYSTEM_VENDOR_ID_REG, + (pDevice->SubsystemId << 16) | pDevice->SubsystemVendorId); - return LM_STATUS_SUCCESS; -} /* LM_Halt */ + /* Reprogram the MAC address. */ + LM_SetMacAddress (pDevice, pDevice->NodeAddress); + return LM_STATUS_SUCCESS; +} /* LM_Halt */ -STATIC LM_STATUS -LM_ResetChip(PLM_DEVICE_BLOCK pDevice) +STATIC LM_STATUS LM_ResetChip (PLM_DEVICE_BLOCK pDevice) { - LM_UINT32 Value32; - LM_UINT32 j; - - /* Wait for access to the nvram interface before resetting. This is */ - /* a workaround to prevent EEPROM corruption. */ - if(T3_ASIC_REV(pDevice->ChipRevId) != T3_ASIC_REV_5700 && - T3_ASIC_REV(pDevice->ChipRevId) != T3_ASIC_REV_5701) - { - /* Request access to the flash interface. */ - REG_WR(pDevice, Nvram.SwArb, SW_ARB_REQ_SET1); - - for(j = 0; j < 100000; j++) - { - Value32 = REG_RD(pDevice, Nvram.SwArb); - if(Value32 & SW_ARB_GNT1) - { - break; - } - MM_Wait(10); + LM_UINT32 Value32; + LM_UINT32 j; + + /* Wait for access to the nvram interface before resetting. This is */ + /* a workaround to prevent EEPROM corruption. */ + if (T3_ASIC_REV (pDevice->ChipRevId) != T3_ASIC_REV_5700 && + T3_ASIC_REV (pDevice->ChipRevId) != T3_ASIC_REV_5701) { + /* Request access to the flash interface. */ + REG_WR (pDevice, Nvram.SwArb, SW_ARB_REQ_SET1); + + for (j = 0; j < 100000; j++) { + Value32 = REG_RD (pDevice, Nvram.SwArb); + if (Value32 & SW_ARB_GNT1) { + break; + } + MM_Wait (10); + } } - } - /* Global reset. */ - REG_WR(pDevice, Grc.MiscCfg, GRC_MISC_CFG_CORE_CLOCK_RESET); - MM_Wait(40); MM_Wait(40); MM_Wait(40); + /* Global reset. */ + REG_WR (pDevice, Grc.MiscCfg, GRC_MISC_CFG_CORE_CLOCK_RESET); + MM_Wait (40); + MM_Wait (40); + MM_Wait (40); - /* make sure we re-enable indirect accesses */ - MM_WriteConfig32(pDevice, T3_PCI_MISC_HOST_CTRL_REG, - pDevice->MiscHostCtrl); + /* make sure we re-enable indirect accesses */ + MM_WriteConfig32 (pDevice, T3_PCI_MISC_HOST_CTRL_REG, + pDevice->MiscHostCtrl); - /* Set MAX PCI retry to zero. */ - Value32 = T3_PCI_STATE_PCI_ROM_ENABLE | T3_PCI_STATE_PCI_ROM_RETRY_ENABLE; - if (pDevice->ChipRevId == T3_CHIP_ID_5704_A0) - { - if (!(pDevice->PciState & T3_PCI_STATE_CONVENTIONAL_PCI_MODE)) - { - Value32 |= T3_PCI_STATE_RETRY_SAME_DMA; + /* Set MAX PCI retry to zero. */ + Value32 = + T3_PCI_STATE_PCI_ROM_ENABLE | T3_PCI_STATE_PCI_ROM_RETRY_ENABLE; + if (pDevice->ChipRevId == T3_CHIP_ID_5704_A0) { + if (!(pDevice->PciState & T3_PCI_STATE_CONVENTIONAL_PCI_MODE)) { + Value32 |= T3_PCI_STATE_RETRY_SAME_DMA; + } } - } - MM_WriteConfig32(pDevice, T3_PCI_STATE_REG, Value32); + MM_WriteConfig32 (pDevice, T3_PCI_STATE_REG, Value32); - /* Restore PCI command register. */ - MM_WriteConfig32(pDevice, PCI_COMMAND_REG, - pDevice->PciCommandStatusWords); + /* Restore PCI command register. */ + MM_WriteConfig32 (pDevice, PCI_COMMAND_REG, + pDevice->PciCommandStatusWords); - /* Disable PCI-X relaxed ordering bit. */ - MM_ReadConfig32(pDevice, PCIX_CAP_REG, &Value32); - Value32 &= ~PCIX_ENABLE_RELAXED_ORDERING; - MM_WriteConfig32(pDevice, PCIX_CAP_REG, Value32); + /* Disable PCI-X relaxed ordering bit. */ + MM_ReadConfig32 (pDevice, PCIX_CAP_REG, &Value32); + Value32 &= ~PCIX_ENABLE_RELAXED_ORDERING; + MM_WriteConfig32 (pDevice, PCIX_CAP_REG, Value32); - /* Enable memory arbiter. */ - REG_WR(pDevice, MemArbiter.Mode, T3_MEM_ARBITER_MODE_ENABLE); + /* Enable memory arbiter. */ + REG_WR (pDevice, MemArbiter.Mode, T3_MEM_ARBITER_MODE_ENABLE); -#ifdef BIG_ENDIAN_PCI /* This from jfd */ - Value32 = GRC_MODE_WORD_SWAP_DATA| - GRC_MODE_WORD_SWAP_NON_FRAME_DATA; +#ifdef BIG_ENDIAN_PCI /* This from jfd */ + Value32 = GRC_MODE_WORD_SWAP_DATA | GRC_MODE_WORD_SWAP_NON_FRAME_DATA; #else #ifdef BIG_ENDIAN_HOST - /* Reconfigure the mode register. */ - Value32 = GRC_MODE_BYTE_SWAP_NON_FRAME_DATA | - GRC_MODE_WORD_SWAP_NON_FRAME_DATA | - GRC_MODE_BYTE_SWAP_DATA | - GRC_MODE_WORD_SWAP_DATA; + /* Reconfigure the mode register. */ + Value32 = GRC_MODE_BYTE_SWAP_NON_FRAME_DATA | + GRC_MODE_WORD_SWAP_NON_FRAME_DATA | + GRC_MODE_BYTE_SWAP_DATA | GRC_MODE_WORD_SWAP_DATA; #else - /* Reconfigure the mode register. */ - Value32 = GRC_MODE_BYTE_SWAP_NON_FRAME_DATA | GRC_MODE_BYTE_SWAP_DATA; + /* Reconfigure the mode register. */ + Value32 = GRC_MODE_BYTE_SWAP_NON_FRAME_DATA | GRC_MODE_BYTE_SWAP_DATA; #endif #endif - REG_WR(pDevice, Grc.Mode, Value32); - - /* Prevent PXE from restarting. */ - MEM_WR_OFFSET(pDevice, 0x0b50, T3_MAGIC_NUM); - - if(pDevice->EnableTbi) { - pDevice->MacMode = MAC_MODE_PORT_MODE_TBI; - REG_WR(pDevice, MacCtrl.Mode, MAC_MODE_PORT_MODE_TBI); - } - else { - REG_WR(pDevice, MacCtrl.Mode, 0); - } - - /* Wait for the firmware to finish initialization. */ - for(j = 0; j < 100000; j++) - { - MM_Wait(10); - - Value32 = MEM_RD_OFFSET(pDevice, 0x0b50); - if(Value32 == ~T3_MAGIC_NUM) - { - break; + REG_WR (pDevice, Grc.Mode, Value32); + + /* Prevent PXE from restarting. */ + MEM_WR_OFFSET (pDevice, 0x0b50, T3_MAGIC_NUM); + + if (pDevice->EnableTbi) { + pDevice->MacMode = MAC_MODE_PORT_MODE_TBI; + REG_WR (pDevice, MacCtrl.Mode, MAC_MODE_PORT_MODE_TBI); + } else { + REG_WR (pDevice, MacCtrl.Mode, 0); + } + + /* Wait for the firmware to finish initialization. */ + for (j = 0; j < 100000; j++) { + MM_Wait (10); + + Value32 = MEM_RD_OFFSET (pDevice, 0x0b50); + if (Value32 == ~T3_MAGIC_NUM) { + break; + } } - } - return LM_STATUS_SUCCESS; + return LM_STATUS_SUCCESS; } /******************************************************************************/ @@ -3808,161 +3529,143 @@ LM_ResetChip(PLM_DEVICE_BLOCK pDevice) /* */ /* Return: */ /******************************************************************************/ -__inline static void -LM_ServiceTxInterrupt( -PLM_DEVICE_BLOCK pDevice) { - PLM_PACKET pPacket; - LM_UINT32 HwConIdx; - LM_UINT32 SwConIdx; - - HwConIdx = pDevice->pStatusBlkVirt->Idx[0].SendConIdx; - - /* Get our copy of the consumer index. The buffer descriptors */ - /* that are in between the consumer indices are freed. */ - SwConIdx = pDevice->SendConIdx; - - /* Move the packets from the TxPacketActiveQ that are sent out to */ - /* the TxPacketXmittedQ. Packets that are sent use the */ - /* descriptors that are between SwConIdx and HwConIdx. */ - while(SwConIdx != HwConIdx) - { - /* Get the packet that was sent from the TxPacketActiveQ. */ - pPacket = (PLM_PACKET) QQ_PopHead( - &pDevice->TxPacketActiveQ.Container); - - /* Set the return status. */ - pPacket->PacketStatus = LM_STATUS_SUCCESS; - - /* Put the packet in the TxPacketXmittedQ for indication later. */ - QQ_PushTail(&pDevice->TxPacketXmittedQ.Container, pPacket); - - /* Move to the next packet's BD. */ - SwConIdx = (SwConIdx + pPacket->u.Tx.FragCount) & - T3_SEND_RCB_ENTRY_COUNT_MASK; - - /* Update the number of unused BDs. */ - atomic_add(pPacket->u.Tx.FragCount, &pDevice->SendBdLeft); - - /* Get the new updated HwConIdx. */ +__inline static void LM_ServiceTxInterrupt (PLM_DEVICE_BLOCK pDevice) +{ + PLM_PACKET pPacket; + LM_UINT32 HwConIdx; + LM_UINT32 SwConIdx; + HwConIdx = pDevice->pStatusBlkVirt->Idx[0].SendConIdx; - } /* while */ - /* Save the new SwConIdx. */ - pDevice->SendConIdx = SwConIdx; + /* Get our copy of the consumer index. The buffer descriptors */ + /* that are in between the consumer indices are freed. */ + SwConIdx = pDevice->SendConIdx; + + /* Move the packets from the TxPacketActiveQ that are sent out to */ + /* the TxPacketXmittedQ. Packets that are sent use the */ + /* descriptors that are between SwConIdx and HwConIdx. */ + while (SwConIdx != HwConIdx) { + /* Get the packet that was sent from the TxPacketActiveQ. */ + pPacket = + (PLM_PACKET) QQ_PopHead (&pDevice->TxPacketActiveQ. + Container); + + /* Set the return status. */ + pPacket->PacketStatus = LM_STATUS_SUCCESS; + + /* Put the packet in the TxPacketXmittedQ for indication later. */ + QQ_PushTail (&pDevice->TxPacketXmittedQ.Container, pPacket); + + /* Move to the next packet's BD. */ + SwConIdx = (SwConIdx + pPacket->u.Tx.FragCount) & + T3_SEND_RCB_ENTRY_COUNT_MASK; -} /* LM_ServiceTxInterrupt */ + /* Update the number of unused BDs. */ + atomic_add (pPacket->u.Tx.FragCount, &pDevice->SendBdLeft); + /* Get the new updated HwConIdx. */ + HwConIdx = pDevice->pStatusBlkVirt->Idx[0].SendConIdx; + } /* while */ + + /* Save the new SwConIdx. */ + pDevice->SendConIdx = SwConIdx; + +} /* LM_ServiceTxInterrupt */ /******************************************************************************/ /* Description: */ /* */ /* Return: */ /******************************************************************************/ -__inline static void -LM_ServiceRxInterrupt( -PLM_DEVICE_BLOCK pDevice) { - PLM_PACKET pPacket; - PT3_RCV_BD pRcvBd; - LM_UINT32 HwRcvRetProdIdx; - LM_UINT32 SwRcvRetConIdx; - - /* Loop thru the receive return rings for received packets. */ - HwRcvRetProdIdx = pDevice->pStatusBlkVirt->Idx[0].RcvProdIdx; - - SwRcvRetConIdx = pDevice->RcvRetConIdx; - while(SwRcvRetConIdx != HwRcvRetProdIdx) - { - pRcvBd = &pDevice->pRcvRetBdVirt[SwRcvRetConIdx]; - - /* Get the received packet descriptor. */ - pPacket = (PLM_PACKET) (MM_UINT_PTR(pDevice->pPacketDescBase) + - MM_UINT_PTR(pRcvBd->Opaque)); - - /* Check the error flag. */ - if(pRcvBd->ErrorFlag && - pRcvBd->ErrorFlag != RCV_BD_ERR_ODD_NIBBLED_RCVD_MII) - { - pPacket->PacketStatus = LM_STATUS_FAILURE; - - pDevice->RxCounters.RxPacketErrCnt++; - - if(pRcvBd->ErrorFlag & RCV_BD_ERR_BAD_CRC) - { - pDevice->RxCounters.RxErrCrcCnt++; - } - - if(pRcvBd->ErrorFlag & RCV_BD_ERR_COLL_DETECT) - { - pDevice->RxCounters.RxErrCollCnt++; - } - - if(pRcvBd->ErrorFlag & RCV_BD_ERR_LINK_LOST_DURING_PKT) - { - pDevice->RxCounters.RxErrLinkLostCnt++; - } - - if(pRcvBd->ErrorFlag & RCV_BD_ERR_PHY_DECODE_ERR) - { - pDevice->RxCounters.RxErrPhyDecodeCnt++; - } - - if(pRcvBd->ErrorFlag & RCV_BD_ERR_ODD_NIBBLED_RCVD_MII) - { - pDevice->RxCounters.RxErrOddNibbleCnt++; - } - - if(pRcvBd->ErrorFlag & RCV_BD_ERR_MAC_ABORT) - { - pDevice->RxCounters.RxErrMacAbortCnt++; - } - - if(pRcvBd->ErrorFlag & RCV_BD_ERR_LEN_LT_64) - { - pDevice->RxCounters.RxErrShortPacketCnt++; - } - - if(pRcvBd->ErrorFlag & RCV_BD_ERR_TRUNC_NO_RESOURCES) - { - pDevice->RxCounters.RxErrNoResourceCnt++; - } - - if(pRcvBd->ErrorFlag & RCV_BD_ERR_GIANT_FRAME_RCVD) - { - pDevice->RxCounters.RxErrLargePacketCnt++; - } - } - else - { - pPacket->PacketStatus = LM_STATUS_SUCCESS; - pPacket->PacketSize = pRcvBd->Len - 4; +__inline static void LM_ServiceRxInterrupt (PLM_DEVICE_BLOCK pDevice) +{ + PLM_PACKET pPacket; + PT3_RCV_BD pRcvBd; + LM_UINT32 HwRcvRetProdIdx; + LM_UINT32 SwRcvRetConIdx; - pPacket->Flags = pRcvBd->Flags; - if(pRcvBd->Flags & RCV_BD_FLAG_VLAN_TAG) - { - pPacket->VlanTag = pRcvBd->VlanTag; - } + /* Loop thru the receive return rings for received packets. */ + HwRcvRetProdIdx = pDevice->pStatusBlkVirt->Idx[0].RcvProdIdx; - pPacket->u.Rx.TcpUdpChecksum = pRcvBd->TcpUdpCksum; - } + SwRcvRetConIdx = pDevice->RcvRetConIdx; + while (SwRcvRetConIdx != HwRcvRetProdIdx) { + pRcvBd = &pDevice->pRcvRetBdVirt[SwRcvRetConIdx]; - /* Put the packet descriptor containing the received packet */ - /* buffer in the RxPacketReceivedQ for indication later. */ - QQ_PushTail(&pDevice->RxPacketReceivedQ.Container, pPacket); + /* Get the received packet descriptor. */ + pPacket = (PLM_PACKET) (MM_UINT_PTR (pDevice->pPacketDescBase) + + MM_UINT_PTR (pRcvBd->Opaque)); - /* Go to the next buffer descriptor. */ - SwRcvRetConIdx = (SwRcvRetConIdx + 1) & - T3_RCV_RETURN_RCB_ENTRY_COUNT_MASK; + /* Check the error flag. */ + if (pRcvBd->ErrorFlag && + pRcvBd->ErrorFlag != RCV_BD_ERR_ODD_NIBBLED_RCVD_MII) { + pPacket->PacketStatus = LM_STATUS_FAILURE; - /* Get the updated HwRcvRetProdIdx. */ - HwRcvRetProdIdx = pDevice->pStatusBlkVirt->Idx[0].RcvProdIdx; - } /* while */ + pDevice->RxCounters.RxPacketErrCnt++; + + if (pRcvBd->ErrorFlag & RCV_BD_ERR_BAD_CRC) { + pDevice->RxCounters.RxErrCrcCnt++; + } + + if (pRcvBd->ErrorFlag & RCV_BD_ERR_COLL_DETECT) { + pDevice->RxCounters.RxErrCollCnt++; + } + + if (pRcvBd->ErrorFlag & RCV_BD_ERR_LINK_LOST_DURING_PKT) { + pDevice->RxCounters.RxErrLinkLostCnt++; + } + + if (pRcvBd->ErrorFlag & RCV_BD_ERR_PHY_DECODE_ERR) { + pDevice->RxCounters.RxErrPhyDecodeCnt++; + } - pDevice->RcvRetConIdx = SwRcvRetConIdx; + if (pRcvBd->ErrorFlag & RCV_BD_ERR_ODD_NIBBLED_RCVD_MII) { + pDevice->RxCounters.RxErrOddNibbleCnt++; + } + + if (pRcvBd->ErrorFlag & RCV_BD_ERR_MAC_ABORT) { + pDevice->RxCounters.RxErrMacAbortCnt++; + } + + if (pRcvBd->ErrorFlag & RCV_BD_ERR_LEN_LT_64) { + pDevice->RxCounters.RxErrShortPacketCnt++; + } + + if (pRcvBd->ErrorFlag & RCV_BD_ERR_TRUNC_NO_RESOURCES) { + pDevice->RxCounters.RxErrNoResourceCnt++; + } + + if (pRcvBd->ErrorFlag & RCV_BD_ERR_GIANT_FRAME_RCVD) { + pDevice->RxCounters.RxErrLargePacketCnt++; + } + } else { + pPacket->PacketStatus = LM_STATUS_SUCCESS; + pPacket->PacketSize = pRcvBd->Len - 4; - /* Update the receive return ring consumer index. */ - MB_REG_WR(pDevice, Mailbox.RcvRetConIdx[0].Low, SwRcvRetConIdx); -} /* LM_ServiceRxInterrupt */ + pPacket->Flags = pRcvBd->Flags; + if (pRcvBd->Flags & RCV_BD_FLAG_VLAN_TAG) { + pPacket->VlanTag = pRcvBd->VlanTag; + } + + pPacket->u.Rx.TcpUdpChecksum = pRcvBd->TcpUdpCksum; + } + + /* Put the packet descriptor containing the received packet */ + /* buffer in the RxPacketReceivedQ for indication later. */ + QQ_PushTail (&pDevice->RxPacketReceivedQ.Container, pPacket); + + /* Go to the next buffer descriptor. */ + SwRcvRetConIdx = (SwRcvRetConIdx + 1) & + T3_RCV_RETURN_RCB_ENTRY_COUNT_MASK; + /* Get the updated HwRcvRetProdIdx. */ + HwRcvRetProdIdx = pDevice->pStatusBlkVirt->Idx[0].RcvProdIdx; + } /* while */ + + pDevice->RcvRetConIdx = SwRcvRetConIdx; + + /* Update the receive return ring consumer index. */ + MB_REG_WR (pDevice, Mailbox.RcvRetConIdx[0].Low, SwRcvRetConIdx); +} /* LM_ServiceRxInterrupt */ /******************************************************************************/ /* Description: */ @@ -3972,206 +3675,179 @@ PLM_DEVICE_BLOCK pDevice) { /* Return: */ /* LM_STATUS_SUCCESS */ /******************************************************************************/ -LM_STATUS -LM_ServiceInterrupts( - PLM_DEVICE_BLOCK pDevice) +LM_STATUS LM_ServiceInterrupts (PLM_DEVICE_BLOCK pDevice) { - LM_UINT32 Value32; - int ServicePhyInt = FALSE; - - /* Setup the phy chip whenever the link status changes. */ - if(pDevice->LinkChngMode == T3_LINK_CHNG_MODE_USE_STATUS_REG) - { - Value32 = REG_RD(pDevice, MacCtrl.Status); - if(pDevice->PhyIntMode == T3_PHY_INT_MODE_MI_INTERRUPT) - { - if (Value32 & MAC_STATUS_MI_INTERRUPT) - { - ServicePhyInt = TRUE; - } - } - else if(Value32 & MAC_STATUS_LINK_STATE_CHANGED) - { - ServicePhyInt = TRUE; - } - } - else - { - if(pDevice->pStatusBlkVirt->Status & STATUS_BLOCK_LINK_CHANGED_STATUS) - { - pDevice->pStatusBlkVirt->Status = STATUS_BLOCK_UPDATED | - (pDevice->pStatusBlkVirt->Status & ~STATUS_BLOCK_LINK_CHANGED_STATUS); - ServicePhyInt = TRUE; + LM_UINT32 Value32; + int ServicePhyInt = FALSE; + + /* Setup the phy chip whenever the link status changes. */ + if (pDevice->LinkChngMode == T3_LINK_CHNG_MODE_USE_STATUS_REG) { + Value32 = REG_RD (pDevice, MacCtrl.Status); + if (pDevice->PhyIntMode == T3_PHY_INT_MODE_MI_INTERRUPT) { + if (Value32 & MAC_STATUS_MI_INTERRUPT) { + ServicePhyInt = TRUE; + } + } else if (Value32 & MAC_STATUS_LINK_STATE_CHANGED) { + ServicePhyInt = TRUE; + } + } else { + if (pDevice->pStatusBlkVirt-> + Status & STATUS_BLOCK_LINK_CHANGED_STATUS) { + pDevice->pStatusBlkVirt->Status = + STATUS_BLOCK_UPDATED | (pDevice->pStatusBlkVirt-> + Status & + ~STATUS_BLOCK_LINK_CHANGED_STATUS); + ServicePhyInt = TRUE; + } } - } #if INCLUDE_TBI_SUPPORT - if (pDevice->IgnoreTbiLinkChange == TRUE) - { - ServicePhyInt = FALSE; - } + if (pDevice->IgnoreTbiLinkChange == TRUE) { + ServicePhyInt = FALSE; + } #endif - if (ServicePhyInt == TRUE) - { - LM_SetupPhy(pDevice); - } - - /* Service receive and transmit interrupts. */ - LM_ServiceRxInterrupt(pDevice); - LM_ServiceTxInterrupt(pDevice); + if (ServicePhyInt == TRUE) { + LM_SetupPhy (pDevice); + } - /* No spinlock for this queue since this routine is serialized. */ - if(!QQ_Empty(&pDevice->RxPacketReceivedQ.Container)) - { - /* Indicate receive packets. */ - MM_IndicateRxPackets(pDevice); - /* LM_QueueRxPackets(pDevice); */ - } + /* Service receive and transmit interrupts. */ + LM_ServiceRxInterrupt (pDevice); + LM_ServiceTxInterrupt (pDevice); - /* No spinlock for this queue since this routine is serialized. */ - if(!QQ_Empty(&pDevice->TxPacketXmittedQ.Container)) - { - MM_IndicateTxPackets(pDevice); - } + /* No spinlock for this queue since this routine is serialized. */ + if (!QQ_Empty (&pDevice->RxPacketReceivedQ.Container)) { + /* Indicate receive packets. */ + MM_IndicateRxPackets (pDevice); + /* LM_QueueRxPackets(pDevice); */ + } - return LM_STATUS_SUCCESS; -} /* LM_ServiceInterrupts */ + /* No spinlock for this queue since this routine is serialized. */ + if (!QQ_Empty (&pDevice->TxPacketXmittedQ.Container)) { + MM_IndicateTxPackets (pDevice); + } + return LM_STATUS_SUCCESS; +} /* LM_ServiceInterrupts */ /******************************************************************************/ /* Description: */ /* */ /* Return: */ /******************************************************************************/ -LM_STATUS -LM_MulticastAdd( -PLM_DEVICE_BLOCK pDevice, -PLM_UINT8 pMcAddress) { - PLM_UINT8 pEntry; - LM_UINT32 j; - - pEntry = pDevice->McTable[0]; - for(j = 0; j < pDevice->McEntryCount; j++) - { - if(IS_ETH_ADDRESS_EQUAL(pEntry, pMcAddress)) - { - /* Found a match, increment the instance count. */ - pEntry[LM_MC_INSTANCE_COUNT_INDEX] += 1; +LM_STATUS LM_MulticastAdd (PLM_DEVICE_BLOCK pDevice, PLM_UINT8 pMcAddress) +{ + PLM_UINT8 pEntry; + LM_UINT32 j; - return LM_STATUS_SUCCESS; - } + pEntry = pDevice->McTable[0]; + for (j = 0; j < pDevice->McEntryCount; j++) { + if (IS_ETH_ADDRESS_EQUAL (pEntry, pMcAddress)) { + /* Found a match, increment the instance count. */ + pEntry[LM_MC_INSTANCE_COUNT_INDEX] += 1; - pEntry += LM_MC_ENTRY_SIZE; - } + return LM_STATUS_SUCCESS; + } - if(pDevice->McEntryCount >= LM_MAX_MC_TABLE_SIZE) - { - return LM_STATUS_FAILURE; - } + pEntry += LM_MC_ENTRY_SIZE; + } - pEntry = pDevice->McTable[pDevice->McEntryCount]; + if (pDevice->McEntryCount >= LM_MAX_MC_TABLE_SIZE) { + return LM_STATUS_FAILURE; + } - COPY_ETH_ADDRESS(pMcAddress, pEntry); - pEntry[LM_MC_INSTANCE_COUNT_INDEX] = 1; + pEntry = pDevice->McTable[pDevice->McEntryCount]; - pDevice->McEntryCount++; + COPY_ETH_ADDRESS (pMcAddress, pEntry); + pEntry[LM_MC_INSTANCE_COUNT_INDEX] = 1; - LM_SetReceiveMask(pDevice, pDevice->ReceiveMask | LM_ACCEPT_MULTICAST); + pDevice->McEntryCount++; - return LM_STATUS_SUCCESS; -} /* LM_MulticastAdd */ + LM_SetReceiveMask (pDevice, pDevice->ReceiveMask | LM_ACCEPT_MULTICAST); + return LM_STATUS_SUCCESS; +} /* LM_MulticastAdd */ /******************************************************************************/ /* Description: */ /* */ /* Return: */ /******************************************************************************/ -LM_STATUS -LM_MulticastDel( -PLM_DEVICE_BLOCK pDevice, -PLM_UINT8 pMcAddress) { - PLM_UINT8 pEntry; - LM_UINT32 j; - - pEntry = pDevice->McTable[0]; - for(j = 0; j < pDevice->McEntryCount; j++) - { - if(IS_ETH_ADDRESS_EQUAL(pEntry, pMcAddress)) - { - /* Found a match, decrement the instance count. */ - pEntry[LM_MC_INSTANCE_COUNT_INDEX] -= 1; - - /* No more instance left, remove the address from the table. */ - /* Move the last entry in the table to the delete slot. */ - if(pEntry[LM_MC_INSTANCE_COUNT_INDEX] == 0 && - pDevice->McEntryCount > 1) - { - - COPY_ETH_ADDRESS( - pDevice->McTable[pDevice->McEntryCount-1], pEntry); - pEntry[LM_MC_INSTANCE_COUNT_INDEX] = - pDevice->McTable[pDevice->McEntryCount-1] - [LM_MC_INSTANCE_COUNT_INDEX]; - } - pDevice->McEntryCount--; +LM_STATUS LM_MulticastDel (PLM_DEVICE_BLOCK pDevice, PLM_UINT8 pMcAddress) +{ + PLM_UINT8 pEntry; + LM_UINT32 j; + + pEntry = pDevice->McTable[0]; + for (j = 0; j < pDevice->McEntryCount; j++) { + if (IS_ETH_ADDRESS_EQUAL (pEntry, pMcAddress)) { + /* Found a match, decrement the instance count. */ + pEntry[LM_MC_INSTANCE_COUNT_INDEX] -= 1; + + /* No more instance left, remove the address from the table. */ + /* Move the last entry in the table to the delete slot. */ + if (pEntry[LM_MC_INSTANCE_COUNT_INDEX] == 0 && + pDevice->McEntryCount > 1) { + + COPY_ETH_ADDRESS (pDevice-> + McTable[pDevice-> + McEntryCount - 1], + pEntry); + pEntry[LM_MC_INSTANCE_COUNT_INDEX] = + pDevice->McTable[pDevice->McEntryCount - 1] + [LM_MC_INSTANCE_COUNT_INDEX]; + } + pDevice->McEntryCount--; + + /* Update the receive mask if the table is empty. */ + if (pDevice->McEntryCount == 0) { + LM_SetReceiveMask (pDevice, + pDevice-> + ReceiveMask & + ~LM_ACCEPT_MULTICAST); + } - /* Update the receive mask if the table is empty. */ - if(pDevice->McEntryCount == 0) - { - LM_SetReceiveMask(pDevice, - pDevice->ReceiveMask & ~LM_ACCEPT_MULTICAST); - } + return LM_STATUS_SUCCESS; + } - return LM_STATUS_SUCCESS; + pEntry += LM_MC_ENTRY_SIZE; } - pEntry += LM_MC_ENTRY_SIZE; - } - - return LM_STATUS_FAILURE; -} /* LM_MulticastDel */ - + return LM_STATUS_FAILURE; +} /* LM_MulticastDel */ /******************************************************************************/ /* Description: */ /* */ /* Return: */ /******************************************************************************/ -LM_STATUS -LM_MulticastClear( -PLM_DEVICE_BLOCK pDevice) { - pDevice->McEntryCount = 0; - - LM_SetReceiveMask(pDevice, pDevice->ReceiveMask & ~LM_ACCEPT_MULTICAST); +LM_STATUS LM_MulticastClear (PLM_DEVICE_BLOCK pDevice) +{ + pDevice->McEntryCount = 0; - return LM_STATUS_SUCCESS; -} /* LM_MulticastClear */ + LM_SetReceiveMask (pDevice, + pDevice->ReceiveMask & ~LM_ACCEPT_MULTICAST); + return LM_STATUS_SUCCESS; +} /* LM_MulticastClear */ /******************************************************************************/ /* Description: */ /* */ /* Return: */ /******************************************************************************/ -LM_STATUS -LM_SetMacAddress( - PLM_DEVICE_BLOCK pDevice, - PLM_UINT8 pMacAddress) +LM_STATUS LM_SetMacAddress (PLM_DEVICE_BLOCK pDevice, PLM_UINT8 pMacAddress) { - LM_UINT32 j; - - for(j = 0; j < 4; j++) - { - REG_WR(pDevice, MacCtrl.MacAddr[j].High, - (pMacAddress[0] << 8) | pMacAddress[1]); - REG_WR(pDevice, MacCtrl.MacAddr[j].Low, - (pMacAddress[2] << 24) | (pMacAddress[3] << 16) | - (pMacAddress[4] << 8) | pMacAddress[5]); - } - - return LM_STATUS_SUCCESS; -} + LM_UINT32 j; + for (j = 0; j < 4; j++) { + REG_WR (pDevice, MacCtrl.MacAddr[j].High, + (pMacAddress[0] << 8) | pMacAddress[1]); + REG_WR (pDevice, MacCtrl.MacAddr[j].Low, + (pMacAddress[2] << 24) | (pMacAddress[3] << 16) | + (pMacAddress[4] << 8) | pMacAddress[5]); + } + + return LM_STATUS_SUCCESS; +} /******************************************************************************/ /* Description: */ @@ -4182,93 +3858,93 @@ LM_SetMacAddress( /* None. */ /******************************************************************************/ static LM_STATUS -LM_TranslateRequestedMediaType( -LM_REQUESTED_MEDIA_TYPE RequestedMediaType, -PLM_MEDIA_TYPE pMediaType, -PLM_LINE_SPEED pLineSpeed, -PLM_DUPLEX_MODE pDuplexMode) { - *pMediaType = LM_MEDIA_TYPE_AUTO; - *pLineSpeed = LM_LINE_SPEED_UNKNOWN; - *pDuplexMode = LM_DUPLEX_MODE_UNKNOWN; - - /* determine media type */ - switch(RequestedMediaType) { +LM_TranslateRequestedMediaType (LM_REQUESTED_MEDIA_TYPE RequestedMediaType, + PLM_MEDIA_TYPE pMediaType, + PLM_LINE_SPEED pLineSpeed, + PLM_DUPLEX_MODE pDuplexMode) +{ + *pMediaType = LM_MEDIA_TYPE_AUTO; + *pLineSpeed = LM_LINE_SPEED_UNKNOWN; + *pDuplexMode = LM_DUPLEX_MODE_UNKNOWN; + + /* determine media type */ + switch (RequestedMediaType) { case LM_REQUESTED_MEDIA_TYPE_BNC: - *pMediaType = LM_MEDIA_TYPE_BNC; - *pLineSpeed = LM_LINE_SPEED_10MBPS; - *pDuplexMode = LM_DUPLEX_MODE_HALF; - break; + *pMediaType = LM_MEDIA_TYPE_BNC; + *pLineSpeed = LM_LINE_SPEED_10MBPS; + *pDuplexMode = LM_DUPLEX_MODE_HALF; + break; case LM_REQUESTED_MEDIA_TYPE_UTP_AUTO: - *pMediaType = LM_MEDIA_TYPE_UTP; - break; + *pMediaType = LM_MEDIA_TYPE_UTP; + break; case LM_REQUESTED_MEDIA_TYPE_UTP_10MBPS: - *pMediaType = LM_MEDIA_TYPE_UTP; - *pLineSpeed = LM_LINE_SPEED_10MBPS; - *pDuplexMode = LM_DUPLEX_MODE_HALF; - break; + *pMediaType = LM_MEDIA_TYPE_UTP; + *pLineSpeed = LM_LINE_SPEED_10MBPS; + *pDuplexMode = LM_DUPLEX_MODE_HALF; + break; case LM_REQUESTED_MEDIA_TYPE_UTP_10MBPS_FULL_DUPLEX: - *pMediaType = LM_MEDIA_TYPE_UTP; - *pLineSpeed = LM_LINE_SPEED_10MBPS; - *pDuplexMode = LM_DUPLEX_MODE_FULL; - break; + *pMediaType = LM_MEDIA_TYPE_UTP; + *pLineSpeed = LM_LINE_SPEED_10MBPS; + *pDuplexMode = LM_DUPLEX_MODE_FULL; + break; case LM_REQUESTED_MEDIA_TYPE_UTP_100MBPS: - *pMediaType = LM_MEDIA_TYPE_UTP; - *pLineSpeed = LM_LINE_SPEED_100MBPS; - *pDuplexMode = LM_DUPLEX_MODE_HALF; - break; + *pMediaType = LM_MEDIA_TYPE_UTP; + *pLineSpeed = LM_LINE_SPEED_100MBPS; + *pDuplexMode = LM_DUPLEX_MODE_HALF; + break; case LM_REQUESTED_MEDIA_TYPE_UTP_100MBPS_FULL_DUPLEX: - *pMediaType = LM_MEDIA_TYPE_UTP; - *pLineSpeed = LM_LINE_SPEED_100MBPS; - *pDuplexMode = LM_DUPLEX_MODE_FULL; - break; + *pMediaType = LM_MEDIA_TYPE_UTP; + *pLineSpeed = LM_LINE_SPEED_100MBPS; + *pDuplexMode = LM_DUPLEX_MODE_FULL; + break; case LM_REQUESTED_MEDIA_TYPE_UTP_1000MBPS: - *pMediaType = LM_MEDIA_TYPE_UTP; - *pLineSpeed = LM_LINE_SPEED_1000MBPS; - *pDuplexMode = LM_DUPLEX_MODE_HALF; - break; + *pMediaType = LM_MEDIA_TYPE_UTP; + *pLineSpeed = LM_LINE_SPEED_1000MBPS; + *pDuplexMode = LM_DUPLEX_MODE_HALF; + break; case LM_REQUESTED_MEDIA_TYPE_UTP_1000MBPS_FULL_DUPLEX: - *pMediaType = LM_MEDIA_TYPE_UTP; - *pLineSpeed = LM_LINE_SPEED_1000MBPS; - *pDuplexMode = LM_DUPLEX_MODE_FULL; - break; + *pMediaType = LM_MEDIA_TYPE_UTP; + *pLineSpeed = LM_LINE_SPEED_1000MBPS; + *pDuplexMode = LM_DUPLEX_MODE_FULL; + break; case LM_REQUESTED_MEDIA_TYPE_FIBER_100MBPS: - *pMediaType = LM_MEDIA_TYPE_FIBER; - *pLineSpeed = LM_LINE_SPEED_100MBPS; - *pDuplexMode = LM_DUPLEX_MODE_HALF; - break; + *pMediaType = LM_MEDIA_TYPE_FIBER; + *pLineSpeed = LM_LINE_SPEED_100MBPS; + *pDuplexMode = LM_DUPLEX_MODE_HALF; + break; case LM_REQUESTED_MEDIA_TYPE_FIBER_100MBPS_FULL_DUPLEX: - *pMediaType = LM_MEDIA_TYPE_FIBER; - *pLineSpeed = LM_LINE_SPEED_100MBPS; - *pDuplexMode = LM_DUPLEX_MODE_FULL; - break; + *pMediaType = LM_MEDIA_TYPE_FIBER; + *pLineSpeed = LM_LINE_SPEED_100MBPS; + *pDuplexMode = LM_DUPLEX_MODE_FULL; + break; case LM_REQUESTED_MEDIA_TYPE_FIBER_1000MBPS: - *pMediaType = LM_MEDIA_TYPE_FIBER; - *pLineSpeed = LM_LINE_SPEED_1000MBPS; - *pDuplexMode = LM_DUPLEX_MODE_HALF; - break; + *pMediaType = LM_MEDIA_TYPE_FIBER; + *pLineSpeed = LM_LINE_SPEED_1000MBPS; + *pDuplexMode = LM_DUPLEX_MODE_HALF; + break; case LM_REQUESTED_MEDIA_TYPE_FIBER_1000MBPS_FULL_DUPLEX: - *pMediaType = LM_MEDIA_TYPE_FIBER; - *pLineSpeed = LM_LINE_SPEED_1000MBPS; - *pDuplexMode = LM_DUPLEX_MODE_FULL; - break; + *pMediaType = LM_MEDIA_TYPE_FIBER; + *pLineSpeed = LM_LINE_SPEED_1000MBPS; + *pDuplexMode = LM_DUPLEX_MODE_FULL; + break; default: - break; - } /* switch */ + break; + } /* switch */ - return LM_STATUS_SUCCESS; -} /* LM_TranslateRequestedMediaType */ + return LM_STATUS_SUCCESS; +} /* LM_TranslateRequestedMediaType */ /******************************************************************************/ /* Description: */ @@ -4277,285 +3953,284 @@ PLM_DUPLEX_MODE pDuplexMode) { /* LM_STATUS_LINK_ACTIVE */ /* LM_STATUS_LINK_DOWN */ /******************************************************************************/ -static LM_STATUS -LM_InitBcm540xPhy( -PLM_DEVICE_BLOCK pDevice) +static LM_STATUS LM_InitBcm540xPhy (PLM_DEVICE_BLOCK pDevice) { - LM_LINE_SPEED CurrentLineSpeed; - LM_DUPLEX_MODE CurrentDuplexMode; - LM_STATUS CurrentLinkStatus; - LM_UINT32 Value32; - LM_UINT32 j; - -#if 1 /* jmb: bugfix -- moved here, out of code that sets initial pwr state */ - LM_WritePhy(pDevice, BCM5401_AUX_CTRL, 0x2); + LM_LINE_SPEED CurrentLineSpeed; + LM_DUPLEX_MODE CurrentDuplexMode; + LM_STATUS CurrentLinkStatus; + LM_UINT32 Value32; + LM_UINT32 j; + +#if 1 /* jmb: bugfix -- moved here, out of code that sets initial pwr state */ + LM_WritePhy (pDevice, BCM5401_AUX_CTRL, 0x2); #endif - if((pDevice->PhyId & PHY_ID_MASK) == PHY_BCM5401_PHY_ID) - { - LM_ReadPhy(pDevice, PHY_STATUS_REG, &Value32); - LM_ReadPhy(pDevice, PHY_STATUS_REG, &Value32); - - if(!pDevice->InitDone) - { - Value32 = 0; - } - - if(!(Value32 & PHY_STATUS_LINK_PASS)) - { - LM_WritePhy(pDevice, BCM5401_AUX_CTRL, 0x0c20); + if ((pDevice->PhyId & PHY_ID_MASK) == PHY_BCM5401_PHY_ID) { + LM_ReadPhy (pDevice, PHY_STATUS_REG, &Value32); + LM_ReadPhy (pDevice, PHY_STATUS_REG, &Value32); - LM_WritePhy(pDevice, BCM540X_DSP_ADDRESS_REG, 0x0012); - LM_WritePhy(pDevice, BCM540X_DSP_RW_PORT, 0x1804); + if (!pDevice->InitDone) { + Value32 = 0; + } - LM_WritePhy(pDevice, BCM540X_DSP_ADDRESS_REG, 0x0013); - LM_WritePhy(pDevice, BCM540X_DSP_RW_PORT, 0x1204); + if (!(Value32 & PHY_STATUS_LINK_PASS)) { + LM_WritePhy (pDevice, BCM5401_AUX_CTRL, 0x0c20); - LM_WritePhy(pDevice, BCM540X_DSP_ADDRESS_REG, 0x8006); - LM_WritePhy(pDevice, BCM540X_DSP_RW_PORT, 0x0132); + LM_WritePhy (pDevice, BCM540X_DSP_ADDRESS_REG, 0x0012); + LM_WritePhy (pDevice, BCM540X_DSP_RW_PORT, 0x1804); - LM_WritePhy(pDevice, BCM540X_DSP_ADDRESS_REG, 0x8006); - LM_WritePhy(pDevice, BCM540X_DSP_RW_PORT, 0x0232); + LM_WritePhy (pDevice, BCM540X_DSP_ADDRESS_REG, 0x0013); + LM_WritePhy (pDevice, BCM540X_DSP_RW_PORT, 0x1204); - LM_WritePhy(pDevice, BCM540X_DSP_ADDRESS_REG, 0x201f); - LM_WritePhy(pDevice, BCM540X_DSP_RW_PORT, 0x0a20); + LM_WritePhy (pDevice, BCM540X_DSP_ADDRESS_REG, 0x8006); + LM_WritePhy (pDevice, BCM540X_DSP_RW_PORT, 0x0132); - LM_ReadPhy(pDevice, PHY_STATUS_REG, &Value32); - for(j = 0; j < 1000; j++) - { - MM_Wait(10); + LM_WritePhy (pDevice, BCM540X_DSP_ADDRESS_REG, 0x8006); + LM_WritePhy (pDevice, BCM540X_DSP_RW_PORT, 0x0232); - LM_ReadPhy(pDevice, PHY_STATUS_REG, &Value32); - if(Value32 & PHY_STATUS_LINK_PASS) - { - MM_Wait(40); - break; - } - } + LM_WritePhy (pDevice, BCM540X_DSP_ADDRESS_REG, 0x201f); + LM_WritePhy (pDevice, BCM540X_DSP_RW_PORT, 0x0a20); - if((pDevice->PhyId & PHY_ID_REV_MASK) == PHY_BCM5401_B0_REV) - { - if(!(Value32 & PHY_STATUS_LINK_PASS) && - (pDevice->OldLineSpeed == LM_LINE_SPEED_1000MBPS)) - { - LM_WritePhy(pDevice, PHY_CTRL_REG, PHY_CTRL_PHY_RESET); - for(j = 0; j < 100; j++) - { - MM_Wait(10); + LM_ReadPhy (pDevice, PHY_STATUS_REG, &Value32); + for (j = 0; j < 1000; j++) { + MM_Wait (10); - LM_ReadPhy(pDevice, PHY_CTRL_REG, &Value32); - if(!(Value32 & PHY_CTRL_PHY_RESET)) - { - MM_Wait(40); - break; + LM_ReadPhy (pDevice, PHY_STATUS_REG, &Value32); + if (Value32 & PHY_STATUS_LINK_PASS) { + MM_Wait (40); + break; + } } - } - - LM_WritePhy(pDevice, BCM5401_AUX_CTRL, 0x0c20); - - LM_WritePhy(pDevice, BCM540X_DSP_ADDRESS_REG, 0x0012); - LM_WritePhy(pDevice, BCM540X_DSP_RW_PORT, 0x1804); - - LM_WritePhy(pDevice, BCM540X_DSP_ADDRESS_REG, 0x0013); - LM_WritePhy(pDevice, BCM540X_DSP_RW_PORT, 0x1204); - LM_WritePhy(pDevice, BCM540X_DSP_ADDRESS_REG, 0x8006); - LM_WritePhy(pDevice, BCM540X_DSP_RW_PORT, 0x0132); - - LM_WritePhy(pDevice, BCM540X_DSP_ADDRESS_REG, 0x8006); - LM_WritePhy(pDevice, BCM540X_DSP_RW_PORT, 0x0232); - - LM_WritePhy(pDevice, BCM540X_DSP_ADDRESS_REG, 0x201f); - LM_WritePhy(pDevice, BCM540X_DSP_RW_PORT, 0x0a20); + if ((pDevice->PhyId & PHY_ID_REV_MASK) == + PHY_BCM5401_B0_REV) { + if (!(Value32 & PHY_STATUS_LINK_PASS) + && (pDevice->OldLineSpeed == + LM_LINE_SPEED_1000MBPS)) { + LM_WritePhy (pDevice, PHY_CTRL_REG, + PHY_CTRL_PHY_RESET); + for (j = 0; j < 100; j++) { + MM_Wait (10); + + LM_ReadPhy (pDevice, + PHY_CTRL_REG, + &Value32); + if (! + (Value32 & + PHY_CTRL_PHY_RESET)) { + MM_Wait (40); + break; + } + } + + LM_WritePhy (pDevice, BCM5401_AUX_CTRL, + 0x0c20); + + LM_WritePhy (pDevice, + BCM540X_DSP_ADDRESS_REG, + 0x0012); + LM_WritePhy (pDevice, + BCM540X_DSP_RW_PORT, + 0x1804); + + LM_WritePhy (pDevice, + BCM540X_DSP_ADDRESS_REG, + 0x0013); + LM_WritePhy (pDevice, + BCM540X_DSP_RW_PORT, + 0x1204); + + LM_WritePhy (pDevice, + BCM540X_DSP_ADDRESS_REG, + 0x8006); + LM_WritePhy (pDevice, + BCM540X_DSP_RW_PORT, + 0x0132); + + LM_WritePhy (pDevice, + BCM540X_DSP_ADDRESS_REG, + 0x8006); + LM_WritePhy (pDevice, + BCM540X_DSP_RW_PORT, + 0x0232); + + LM_WritePhy (pDevice, + BCM540X_DSP_ADDRESS_REG, + 0x201f); + LM_WritePhy (pDevice, + BCM540X_DSP_RW_PORT, + 0x0a20); + } + } + } + } else if (pDevice->ChipRevId == T3_CHIP_ID_5701_A0 || + pDevice->ChipRevId == T3_CHIP_ID_5701_B0) { + /* Bug: 5701 A0, B0 TX CRC workaround. */ + LM_WritePhy (pDevice, 0x15, 0x0a75); + LM_WritePhy (pDevice, 0x1c, 0x8c68); + LM_WritePhy (pDevice, 0x1c, 0x8d68); + LM_WritePhy (pDevice, 0x1c, 0x8c68); + } + + /* Acknowledge interrupts. */ + LM_ReadPhy (pDevice, BCM540X_INT_STATUS_REG, &Value32); + LM_ReadPhy (pDevice, BCM540X_INT_STATUS_REG, &Value32); + + /* Configure the interrupt mask. */ + if (pDevice->PhyIntMode == T3_PHY_INT_MODE_MI_INTERRUPT) { + LM_WritePhy (pDevice, BCM540X_INT_MASK_REG, + ~BCM540X_INT_LINK_CHANGE); + } + + /* Configure PHY led mode. */ + if (T3_ASIC_REV (pDevice->ChipRevId) == T3_ASIC_REV_5701 || + (T3_ASIC_REV (pDevice->ChipRevId) == T3_ASIC_REV_5700)) { + if (pDevice->LedMode == LED_MODE_THREE_LINK) { + LM_WritePhy (pDevice, BCM540X_EXT_CTRL_REG, + BCM540X_EXT_CTRL_LINK3_LED_MODE); + } else { + LM_WritePhy (pDevice, BCM540X_EXT_CTRL_REG, 0); } - } - } - } - else if(pDevice->ChipRevId == T3_CHIP_ID_5701_A0 || - pDevice->ChipRevId == T3_CHIP_ID_5701_B0) - { - /* Bug: 5701 A0, B0 TX CRC workaround. */ - LM_WritePhy(pDevice, 0x15, 0x0a75); - LM_WritePhy(pDevice, 0x1c, 0x8c68); - LM_WritePhy(pDevice, 0x1c, 0x8d68); - LM_WritePhy(pDevice, 0x1c, 0x8c68); - } - - /* Acknowledge interrupts. */ - LM_ReadPhy(pDevice, BCM540X_INT_STATUS_REG, &Value32); - LM_ReadPhy(pDevice, BCM540X_INT_STATUS_REG, &Value32); - - /* Configure the interrupt mask. */ - if(pDevice->PhyIntMode == T3_PHY_INT_MODE_MI_INTERRUPT) - { - LM_WritePhy(pDevice, BCM540X_INT_MASK_REG, ~BCM540X_INT_LINK_CHANGE); - } - - /* Configure PHY led mode. */ - if(T3_ASIC_REV(pDevice->ChipRevId) == T3_ASIC_REV_5701 || - (T3_ASIC_REV(pDevice->ChipRevId) == T3_ASIC_REV_5700)) - { - if(pDevice->LedMode == LED_MODE_THREE_LINK) - { - LM_WritePhy(pDevice, BCM540X_EXT_CTRL_REG, - BCM540X_EXT_CTRL_LINK3_LED_MODE); - } - else - { - LM_WritePhy(pDevice, BCM540X_EXT_CTRL_REG, 0); } - } - CurrentLinkStatus = LM_STATUS_LINK_DOWN; + CurrentLinkStatus = LM_STATUS_LINK_DOWN; - /* Get current link and duplex mode. */ - for(j = 0; j < 100; j++) - { - LM_ReadPhy(pDevice, PHY_STATUS_REG, &Value32); - LM_ReadPhy(pDevice, PHY_STATUS_REG, &Value32); + /* Get current link and duplex mode. */ + for (j = 0; j < 100; j++) { + LM_ReadPhy (pDevice, PHY_STATUS_REG, &Value32); + LM_ReadPhy (pDevice, PHY_STATUS_REG, &Value32); - if(Value32 & PHY_STATUS_LINK_PASS) - { - break; + if (Value32 & PHY_STATUS_LINK_PASS) { + break; + } + MM_Wait (40); } - MM_Wait(40); - } - - if(Value32 & PHY_STATUS_LINK_PASS) - { - - /* Determine the current line and duplex settings. */ - LM_ReadPhy(pDevice, BCM540X_AUX_STATUS_REG, &Value32); - for(j = 0; j < 2000; j++) - { - MM_Wait(10); - LM_ReadPhy(pDevice, BCM540X_AUX_STATUS_REG, &Value32); - if(Value32) - { - break; - } - } + if (Value32 & PHY_STATUS_LINK_PASS) { - switch(Value32 & BCM540X_AUX_SPEED_MASK) - { - case BCM540X_AUX_10BASET_HD: - CurrentLineSpeed = LM_LINE_SPEED_10MBPS; - CurrentDuplexMode = LM_DUPLEX_MODE_HALF; - break; + /* Determine the current line and duplex settings. */ + LM_ReadPhy (pDevice, BCM540X_AUX_STATUS_REG, &Value32); + for (j = 0; j < 2000; j++) { + MM_Wait (10); - case BCM540X_AUX_10BASET_FD: - CurrentLineSpeed = LM_LINE_SPEED_10MBPS; - CurrentDuplexMode = LM_DUPLEX_MODE_FULL; - break; + LM_ReadPhy (pDevice, BCM540X_AUX_STATUS_REG, &Value32); + if (Value32) { + break; + } + } - case BCM540X_AUX_100BASETX_HD: - CurrentLineSpeed = LM_LINE_SPEED_100MBPS; - CurrentDuplexMode = LM_DUPLEX_MODE_HALF; - break; + switch (Value32 & BCM540X_AUX_SPEED_MASK) { + case BCM540X_AUX_10BASET_HD: + CurrentLineSpeed = LM_LINE_SPEED_10MBPS; + CurrentDuplexMode = LM_DUPLEX_MODE_HALF; + break; - case BCM540X_AUX_100BASETX_FD: - CurrentLineSpeed = LM_LINE_SPEED_100MBPS; - CurrentDuplexMode = LM_DUPLEX_MODE_FULL; - break; + case BCM540X_AUX_10BASET_FD: + CurrentLineSpeed = LM_LINE_SPEED_10MBPS; + CurrentDuplexMode = LM_DUPLEX_MODE_FULL; + break; - case BCM540X_AUX_100BASET_HD: - CurrentLineSpeed = LM_LINE_SPEED_1000MBPS; - CurrentDuplexMode = LM_DUPLEX_MODE_HALF; - break; + case BCM540X_AUX_100BASETX_HD: + CurrentLineSpeed = LM_LINE_SPEED_100MBPS; + CurrentDuplexMode = LM_DUPLEX_MODE_HALF; + break; - case BCM540X_AUX_100BASET_FD: - CurrentLineSpeed = LM_LINE_SPEED_1000MBPS; - CurrentDuplexMode = LM_DUPLEX_MODE_FULL; - break; + case BCM540X_AUX_100BASETX_FD: + CurrentLineSpeed = LM_LINE_SPEED_100MBPS; + CurrentDuplexMode = LM_DUPLEX_MODE_FULL; + break; - default: + case BCM540X_AUX_100BASET_HD: + CurrentLineSpeed = LM_LINE_SPEED_1000MBPS; + CurrentDuplexMode = LM_DUPLEX_MODE_HALF; + break; - CurrentLineSpeed = LM_LINE_SPEED_UNKNOWN; - CurrentDuplexMode = LM_DUPLEX_MODE_UNKNOWN; - break; - } + case BCM540X_AUX_100BASET_FD: + CurrentLineSpeed = LM_LINE_SPEED_1000MBPS; + CurrentDuplexMode = LM_DUPLEX_MODE_FULL; + break; - /* Make sure we are in auto-neg mode. */ - for (j = 0; j < 200; j++) - { - LM_ReadPhy(pDevice, PHY_CTRL_REG, &Value32); - if(Value32 && Value32 != 0x7fff) - { - break; - } + default: - if(Value32 == 0 && pDevice->RequestedMediaType == - LM_REQUESTED_MEDIA_TYPE_UTP_10MBPS) - { - break; - } + CurrentLineSpeed = LM_LINE_SPEED_UNKNOWN; + CurrentDuplexMode = LM_DUPLEX_MODE_UNKNOWN; + break; + } - MM_Wait(10); - } + /* Make sure we are in auto-neg mode. */ + for (j = 0; j < 200; j++) { + LM_ReadPhy (pDevice, PHY_CTRL_REG, &Value32); + if (Value32 && Value32 != 0x7fff) { + break; + } - /* Use the current line settings for "auto" mode. */ - if(pDevice->RequestedMediaType == LM_REQUESTED_MEDIA_TYPE_AUTO || - pDevice->RequestedMediaType == LM_REQUESTED_MEDIA_TYPE_UTP_AUTO) - { - if(Value32 & PHY_CTRL_AUTO_NEG_ENABLE) - { - CurrentLinkStatus = LM_STATUS_LINK_ACTIVE; + if (Value32 == 0 && pDevice->RequestedMediaType == + LM_REQUESTED_MEDIA_TYPE_UTP_10MBPS) { + break; + } - /* We may be exiting low power mode and the link is in */ - /* 10mb. In this case, we need to restart autoneg. */ - LM_ReadPhy(pDevice, BCM540X_1000BASET_CTRL_REG, &Value32); - pDevice->advertising1000 = Value32; - /* 5702FE supports 10/100Mb only. */ - if(T3_ASIC_REV(pDevice->ChipRevId) != T3_ASIC_REV_5703 || - pDevice->BondId != GRC_MISC_BD_ID_5702FE) - { - if(!(Value32 & (BCM540X_AN_AD_1000BASET_HALF | - BCM540X_AN_AD_1000BASET_FULL))) - { - CurrentLinkStatus = LM_STATUS_LINK_SETTING_MISMATCH; - } - } - } - else - { - CurrentLinkStatus = LM_STATUS_LINK_SETTING_MISMATCH; - } - } - else - { - /* Force line settings. */ - /* Use the current setting if it matches the user's requested */ - /* setting. */ - LM_ReadPhy(pDevice, PHY_CTRL_REG, &Value32); - if((pDevice->LineSpeed == CurrentLineSpeed) && - (pDevice->DuplexMode == CurrentDuplexMode)) - { - if ((pDevice->DisableAutoNeg && - !(Value32 & PHY_CTRL_AUTO_NEG_ENABLE)) || - (!pDevice->DisableAutoNeg && - (Value32 & PHY_CTRL_AUTO_NEG_ENABLE))) - { - CurrentLinkStatus = LM_STATUS_LINK_ACTIVE; + MM_Wait (10); } - else - { - CurrentLinkStatus = LM_STATUS_LINK_SETTING_MISMATCH; + + /* Use the current line settings for "auto" mode. */ + if (pDevice->RequestedMediaType == LM_REQUESTED_MEDIA_TYPE_AUTO + || pDevice->RequestedMediaType == + LM_REQUESTED_MEDIA_TYPE_UTP_AUTO) { + if (Value32 & PHY_CTRL_AUTO_NEG_ENABLE) { + CurrentLinkStatus = LM_STATUS_LINK_ACTIVE; + + /* We may be exiting low power mode and the link is in */ + /* 10mb. In this case, we need to restart autoneg. */ + LM_ReadPhy (pDevice, BCM540X_1000BASET_CTRL_REG, + &Value32); + pDevice->advertising1000 = Value32; + /* 5702FE supports 10/100Mb only. */ + if (T3_ASIC_REV (pDevice->ChipRevId) != + T3_ASIC_REV_5703 + || pDevice->BondId != + GRC_MISC_BD_ID_5702FE) { + if (! + (Value32 & + (BCM540X_AN_AD_1000BASET_HALF | + BCM540X_AN_AD_1000BASET_FULL))) { + CurrentLinkStatus = + LM_STATUS_LINK_SETTING_MISMATCH; + } + } + } else { + CurrentLinkStatus = + LM_STATUS_LINK_SETTING_MISMATCH; + } + } else { + /* Force line settings. */ + /* Use the current setting if it matches the user's requested */ + /* setting. */ + LM_ReadPhy (pDevice, PHY_CTRL_REG, &Value32); + if ((pDevice->LineSpeed == CurrentLineSpeed) && + (pDevice->DuplexMode == CurrentDuplexMode)) { + if ((pDevice->DisableAutoNeg && + !(Value32 & PHY_CTRL_AUTO_NEG_ENABLE)) || + (!pDevice->DisableAutoNeg && + (Value32 & PHY_CTRL_AUTO_NEG_ENABLE))) { + CurrentLinkStatus = + LM_STATUS_LINK_ACTIVE; + } else { + CurrentLinkStatus = + LM_STATUS_LINK_SETTING_MISMATCH; + } + } else { + CurrentLinkStatus = + LM_STATUS_LINK_SETTING_MISMATCH; + } } - } - else - { - CurrentLinkStatus = LM_STATUS_LINK_SETTING_MISMATCH; - } - } - /* Save line settings. */ - pDevice->LineSpeed = CurrentLineSpeed; - pDevice->DuplexMode = CurrentDuplexMode; - pDevice->MediaType = LM_MEDIA_TYPE_UTP; - } + /* Save line settings. */ + pDevice->LineSpeed = CurrentLineSpeed; + pDevice->DuplexMode = CurrentDuplexMode; + pDevice->MediaType = LM_MEDIA_TYPE_UTP; + } - return CurrentLinkStatus; -} /* LM_InitBcm540xPhy */ + return CurrentLinkStatus; +} /* LM_InitBcm540xPhy */ /******************************************************************************/ /* Description: */ @@ -4563,83 +4238,69 @@ PLM_DEVICE_BLOCK pDevice) /* Return: */ /******************************************************************************/ LM_STATUS -LM_SetFlowControl( - PLM_DEVICE_BLOCK pDevice, - LM_UINT32 LocalPhyAd, - LM_UINT32 RemotePhyAd) +LM_SetFlowControl (PLM_DEVICE_BLOCK pDevice, + LM_UINT32 LocalPhyAd, LM_UINT32 RemotePhyAd) { - LM_FLOW_CONTROL FlowCap; + LM_FLOW_CONTROL FlowCap; - /* Resolve flow control. */ - FlowCap = LM_FLOW_CONTROL_NONE; + /* Resolve flow control. */ + FlowCap = LM_FLOW_CONTROL_NONE; - /* See Table 28B-3 of 802.3ab-1999 spec. */ - if(pDevice->FlowControlCap & LM_FLOW_CONTROL_AUTO_PAUSE) - { - if(LocalPhyAd & PHY_AN_AD_PAUSE_CAPABLE) - { - if(LocalPhyAd & PHY_AN_AD_ASYM_PAUSE) - { - if(RemotePhyAd & PHY_LINK_PARTNER_PAUSE_CAPABLE) - { - FlowCap = LM_FLOW_CONTROL_TRANSMIT_PAUSE | - LM_FLOW_CONTROL_RECEIVE_PAUSE; - } - else if(RemotePhyAd & PHY_LINK_PARTNER_ASYM_PAUSE) - { - FlowCap = LM_FLOW_CONTROL_RECEIVE_PAUSE; - } - } - else - { - if(RemotePhyAd & PHY_LINK_PARTNER_PAUSE_CAPABLE) - { - FlowCap = LM_FLOW_CONTROL_TRANSMIT_PAUSE | - LM_FLOW_CONTROL_RECEIVE_PAUSE; - } - } - } - else if(LocalPhyAd & PHY_AN_AD_ASYM_PAUSE) - { - if((RemotePhyAd & PHY_LINK_PARTNER_PAUSE_CAPABLE) && - (RemotePhyAd & PHY_LINK_PARTNER_ASYM_PAUSE)) - { - FlowCap = LM_FLOW_CONTROL_TRANSMIT_PAUSE; - } - } - } - else - { - FlowCap = pDevice->FlowControlCap; - } - - /* Enable/disable rx PAUSE. */ - pDevice->RxMode &= ~RX_MODE_ENABLE_FLOW_CONTROL; - if(FlowCap & LM_FLOW_CONTROL_RECEIVE_PAUSE && - (pDevice->FlowControlCap == LM_FLOW_CONTROL_AUTO_PAUSE || - pDevice->FlowControlCap & LM_FLOW_CONTROL_RECEIVE_PAUSE)) - { - pDevice->FlowControl |= LM_FLOW_CONTROL_RECEIVE_PAUSE; - pDevice->RxMode |= RX_MODE_ENABLE_FLOW_CONTROL; - - } - REG_WR(pDevice, MacCtrl.RxMode, pDevice->RxMode); - - /* Enable/disable tx PAUSE. */ - pDevice->TxMode &= ~TX_MODE_ENABLE_FLOW_CONTROL; - if(FlowCap & LM_FLOW_CONTROL_TRANSMIT_PAUSE && - (pDevice->FlowControlCap == LM_FLOW_CONTROL_AUTO_PAUSE || - pDevice->FlowControlCap & LM_FLOW_CONTROL_TRANSMIT_PAUSE)) - { - pDevice->FlowControl |= LM_FLOW_CONTROL_TRANSMIT_PAUSE; - pDevice->TxMode |= TX_MODE_ENABLE_FLOW_CONTROL; - - } - REG_WR(pDevice, MacCtrl.TxMode, pDevice->TxMode); - - return LM_STATUS_SUCCESS; -} + /* See Table 28B-3 of 802.3ab-1999 spec. */ + if (pDevice->FlowControlCap & LM_FLOW_CONTROL_AUTO_PAUSE) { + if (LocalPhyAd & PHY_AN_AD_PAUSE_CAPABLE) { + if (LocalPhyAd & PHY_AN_AD_ASYM_PAUSE) { + if (RemotePhyAd & + PHY_LINK_PARTNER_PAUSE_CAPABLE) { + FlowCap = + LM_FLOW_CONTROL_TRANSMIT_PAUSE | + LM_FLOW_CONTROL_RECEIVE_PAUSE; + } else if (RemotePhyAd & + PHY_LINK_PARTNER_ASYM_PAUSE) { + FlowCap = LM_FLOW_CONTROL_RECEIVE_PAUSE; + } + } else { + if (RemotePhyAd & + PHY_LINK_PARTNER_PAUSE_CAPABLE) { + FlowCap = + LM_FLOW_CONTROL_TRANSMIT_PAUSE | + LM_FLOW_CONTROL_RECEIVE_PAUSE; + } + } + } else if (LocalPhyAd & PHY_AN_AD_ASYM_PAUSE) { + if ((RemotePhyAd & PHY_LINK_PARTNER_PAUSE_CAPABLE) && + (RemotePhyAd & PHY_LINK_PARTNER_ASYM_PAUSE)) { + FlowCap = LM_FLOW_CONTROL_TRANSMIT_PAUSE; + } + } + } else { + FlowCap = pDevice->FlowControlCap; + } + + /* Enable/disable rx PAUSE. */ + pDevice->RxMode &= ~RX_MODE_ENABLE_FLOW_CONTROL; + if (FlowCap & LM_FLOW_CONTROL_RECEIVE_PAUSE && + (pDevice->FlowControlCap == LM_FLOW_CONTROL_AUTO_PAUSE || + pDevice->FlowControlCap & LM_FLOW_CONTROL_RECEIVE_PAUSE)) { + pDevice->FlowControl |= LM_FLOW_CONTROL_RECEIVE_PAUSE; + pDevice->RxMode |= RX_MODE_ENABLE_FLOW_CONTROL; + + } + REG_WR (pDevice, MacCtrl.RxMode, pDevice->RxMode); + + /* Enable/disable tx PAUSE. */ + pDevice->TxMode &= ~TX_MODE_ENABLE_FLOW_CONTROL; + if (FlowCap & LM_FLOW_CONTROL_TRANSMIT_PAUSE && + (pDevice->FlowControlCap == LM_FLOW_CONTROL_AUTO_PAUSE || + pDevice->FlowControlCap & LM_FLOW_CONTROL_TRANSMIT_PAUSE)) { + pDevice->FlowControl |= LM_FLOW_CONTROL_TRANSMIT_PAUSE; + pDevice->TxMode |= TX_MODE_ENABLE_FLOW_CONTROL; + + } + REG_WR (pDevice, MacCtrl.TxMode, pDevice->TxMode); + return LM_STATUS_SUCCESS; +} #if INCLUDE_TBI_SUPPORT /******************************************************************************/ @@ -4647,583 +4308,520 @@ LM_SetFlowControl( /* */ /* Return: */ /******************************************************************************/ -STATIC LM_STATUS -LM_InitBcm800xPhy( - PLM_DEVICE_BLOCK pDevice) +STATIC LM_STATUS LM_InitBcm800xPhy (PLM_DEVICE_BLOCK pDevice) { - LM_UINT32 Value32; - LM_UINT32 j; + LM_UINT32 Value32; + LM_UINT32 j; - Value32 = REG_RD(pDevice, MacCtrl.Status); + Value32 = REG_RD (pDevice, MacCtrl.Status); - /* Reset the SERDES during init and when we have link. */ - if(!pDevice->InitDone || Value32 & MAC_STATUS_PCS_SYNCED) - { - /* Set PLL lock range. */ - LM_WritePhy(pDevice, 0x16, 0x8007); + /* Reset the SERDES during init and when we have link. */ + if (!pDevice->InitDone || Value32 & MAC_STATUS_PCS_SYNCED) { + /* Set PLL lock range. */ + LM_WritePhy (pDevice, 0x16, 0x8007); - /* Software reset. */ - LM_WritePhy(pDevice, 0x00, 0x8000); + /* Software reset. */ + LM_WritePhy (pDevice, 0x00, 0x8000); - /* Wait for reset to complete. */ - for(j = 0; j < 500; j++) - { - MM_Wait(10); - } + /* Wait for reset to complete. */ + for (j = 0; j < 500; j++) { + MM_Wait (10); + } - /* Config mode; seletct PMA/Ch 1 regs. */ - LM_WritePhy(pDevice, 0x10, 0x8411); + /* Config mode; seletct PMA/Ch 1 regs. */ + LM_WritePhy (pDevice, 0x10, 0x8411); - /* Enable auto-lock and comdet, select txclk for tx. */ - LM_WritePhy(pDevice, 0x11, 0x0a10); + /* Enable auto-lock and comdet, select txclk for tx. */ + LM_WritePhy (pDevice, 0x11, 0x0a10); - LM_WritePhy(pDevice, 0x18, 0x00a0); - LM_WritePhy(pDevice, 0x16, 0x41ff); + LM_WritePhy (pDevice, 0x18, 0x00a0); + LM_WritePhy (pDevice, 0x16, 0x41ff); - /* Assert and deassert POR. */ - LM_WritePhy(pDevice, 0x13, 0x0400); - MM_Wait(40); - LM_WritePhy(pDevice, 0x13, 0x0000); + /* Assert and deassert POR. */ + LM_WritePhy (pDevice, 0x13, 0x0400); + MM_Wait (40); + LM_WritePhy (pDevice, 0x13, 0x0000); - LM_WritePhy(pDevice, 0x11, 0x0a50); - MM_Wait(40); - LM_WritePhy(pDevice, 0x11, 0x0a10); + LM_WritePhy (pDevice, 0x11, 0x0a50); + MM_Wait (40); + LM_WritePhy (pDevice, 0x11, 0x0a10); - /* Delay for signal to stabilize. */ - for(j = 0; j < 15000; j++) - { - MM_Wait(10); - } + /* Delay for signal to stabilize. */ + for (j = 0; j < 15000; j++) { + MM_Wait (10); + } - /* Deselect the channel register so we can read the PHY id later. */ - LM_WritePhy(pDevice, 0x10, 0x8011); - } + /* Deselect the channel register so we can read the PHY id later. */ + LM_WritePhy (pDevice, 0x10, 0x8011); + } - return LM_STATUS_SUCCESS; + return LM_STATUS_SUCCESS; } - /******************************************************************************/ /* Description: */ /* */ /* Return: */ /******************************************************************************/ -STATIC LM_STATUS -LM_SetupFiberPhy( - PLM_DEVICE_BLOCK pDevice) +STATIC LM_STATUS LM_SetupFiberPhy (PLM_DEVICE_BLOCK pDevice) { - LM_STATUS CurrentLinkStatus; - AUTONEG_STATUS AnStatus = 0; - LM_UINT32 Value32; - LM_UINT32 Cnt; - LM_UINT32 j, k; + LM_STATUS CurrentLinkStatus; + AUTONEG_STATUS AnStatus = 0; + LM_UINT32 Value32; + LM_UINT32 Cnt; + LM_UINT32 j, k; - pDevice->MacMode &= ~(MAC_MODE_HALF_DUPLEX | MAC_MODE_PORT_MODE_MASK); + pDevice->MacMode &= ~(MAC_MODE_HALF_DUPLEX | MAC_MODE_PORT_MODE_MASK); - /* Initialize the send_config register. */ - REG_WR(pDevice, MacCtrl.TxAutoNeg, 0); + /* Initialize the send_config register. */ + REG_WR (pDevice, MacCtrl.TxAutoNeg, 0); - /* Enable TBI and full duplex mode. */ - pDevice->MacMode |= MAC_MODE_PORT_MODE_TBI; - REG_WR(pDevice, MacCtrl.Mode, pDevice->MacMode); + /* Enable TBI and full duplex mode. */ + pDevice->MacMode |= MAC_MODE_PORT_MODE_TBI; + REG_WR (pDevice, MacCtrl.Mode, pDevice->MacMode); - /* Initialize the BCM8002 SERDES PHY. */ - switch(pDevice->PhyId & PHY_ID_MASK) - { + /* Initialize the BCM8002 SERDES PHY. */ + switch (pDevice->PhyId & PHY_ID_MASK) { case PHY_BCM8002_PHY_ID: - LM_InitBcm800xPhy(pDevice); - break; + LM_InitBcm800xPhy (pDevice); + break; default: - break; - } - - /* Enable link change interrupt. */ - REG_WR(pDevice, MacCtrl.MacEvent, MAC_EVENT_ENABLE_LINK_STATE_CHANGED_ATTN); - - /* Default to link down. */ - CurrentLinkStatus = LM_STATUS_LINK_DOWN; + break; + } - /* Get the link status. */ - Value32 = REG_RD(pDevice, MacCtrl.Status); - if(Value32 & MAC_STATUS_PCS_SYNCED) - { - if((pDevice->RequestedMediaType == LM_REQUESTED_MEDIA_TYPE_AUTO) || - (pDevice->DisableAutoNeg == FALSE)) - { - /* auto-negotiation mode. */ - /* Initialize the autoneg default capaiblities. */ - AutonegInit(&pDevice->AnInfo); - - /* Set the context pointer to point to the main device structure. */ - pDevice->AnInfo.pContext = pDevice; - - /* Setup flow control advertisement register. */ - Value32 = GetPhyAdFlowCntrlSettings(pDevice); - if(Value32 & PHY_AN_AD_PAUSE_CAPABLE) - { - pDevice->AnInfo.mr_adv_sym_pause = 1; - } - else - { - pDevice->AnInfo.mr_adv_sym_pause = 0; - } - - if(Value32 & PHY_AN_AD_ASYM_PAUSE) - { - pDevice->AnInfo.mr_adv_asym_pause = 1; - } - else - { - pDevice->AnInfo.mr_adv_asym_pause = 0; - } - - /* Try to autoneg up to six times. */ - if (pDevice->IgnoreTbiLinkChange) - { - Cnt = 1; - } - else - { - Cnt = 6; - } - for (j = 0; j < Cnt; j++) - { - REG_WR(pDevice, MacCtrl.TxAutoNeg, 0); - - Value32 = pDevice->MacMode & ~MAC_MODE_PORT_MODE_MASK; - REG_WR(pDevice, MacCtrl.Mode, Value32); - MM_Wait(20); - - REG_WR(pDevice, MacCtrl.Mode, pDevice->MacMode | - MAC_MODE_SEND_CONFIGS); - - MM_Wait(20); - - pDevice->AnInfo.State = AN_STATE_UNKNOWN; - pDevice->AnInfo.CurrentTime_us = 0; - - REG_WR(pDevice, Grc.Timer, 0); - for(k = 0; (pDevice->AnInfo.CurrentTime_us < 75000) && - (k < 75000); k++) - { - AnStatus = Autoneg8023z(&pDevice->AnInfo); - - if((AnStatus == AUTONEG_STATUS_DONE) || - (AnStatus == AUTONEG_STATUS_FAILED)) - { - break; - } + /* Enable link change interrupt. */ + REG_WR (pDevice, MacCtrl.MacEvent, + MAC_EVENT_ENABLE_LINK_STATE_CHANGED_ATTN); - pDevice->AnInfo.CurrentTime_us = REG_RD(pDevice, Grc.Timer); + /* Default to link down. */ + CurrentLinkStatus = LM_STATUS_LINK_DOWN; - } - if((AnStatus == AUTONEG_STATUS_DONE) || - (AnStatus == AUTONEG_STATUS_FAILED)) - { - break; - } - if (j >= 1) - { - if (!(REG_RD(pDevice, MacCtrl.Status) & - MAC_STATUS_PCS_SYNCED)) { - break; - } - } - } + /* Get the link status. */ + Value32 = REG_RD (pDevice, MacCtrl.Status); + if (Value32 & MAC_STATUS_PCS_SYNCED) { + if ((pDevice->RequestedMediaType == + LM_REQUESTED_MEDIA_TYPE_AUTO) + || (pDevice->DisableAutoNeg == FALSE)) { + /* auto-negotiation mode. */ + /* Initialize the autoneg default capaiblities. */ + AutonegInit (&pDevice->AnInfo); + + /* Set the context pointer to point to the main device structure. */ + pDevice->AnInfo.pContext = pDevice; + + /* Setup flow control advertisement register. */ + Value32 = GetPhyAdFlowCntrlSettings (pDevice); + if (Value32 & PHY_AN_AD_PAUSE_CAPABLE) { + pDevice->AnInfo.mr_adv_sym_pause = 1; + } else { + pDevice->AnInfo.mr_adv_sym_pause = 0; + } - /* Stop sending configs. */ - MM_AnTxIdle(&pDevice->AnInfo); + if (Value32 & PHY_AN_AD_ASYM_PAUSE) { + pDevice->AnInfo.mr_adv_asym_pause = 1; + } else { + pDevice->AnInfo.mr_adv_asym_pause = 0; + } - /* Resolve flow control settings. */ - if((AnStatus == AUTONEG_STATUS_DONE) && - pDevice->AnInfo.mr_an_complete && pDevice->AnInfo.mr_link_ok && - pDevice->AnInfo.mr_lp_adv_full_duplex) - { - LM_UINT32 RemotePhyAd; - LM_UINT32 LocalPhyAd; + /* Try to autoneg up to six times. */ + if (pDevice->IgnoreTbiLinkChange) { + Cnt = 1; + } else { + Cnt = 6; + } + for (j = 0; j < Cnt; j++) { + REG_WR (pDevice, MacCtrl.TxAutoNeg, 0); + + Value32 = + pDevice->MacMode & ~MAC_MODE_PORT_MODE_MASK; + REG_WR (pDevice, MacCtrl.Mode, Value32); + MM_Wait (20); + + REG_WR (pDevice, MacCtrl.Mode, + pDevice-> + MacMode | MAC_MODE_SEND_CONFIGS); + + MM_Wait (20); + + pDevice->AnInfo.State = AN_STATE_UNKNOWN; + pDevice->AnInfo.CurrentTime_us = 0; + + REG_WR (pDevice, Grc.Timer, 0); + for (k = 0; + (pDevice->AnInfo.CurrentTime_us < 75000) + && (k < 75000); k++) { + AnStatus = + Autoneg8023z (&pDevice->AnInfo); + + if ((AnStatus == AUTONEG_STATUS_DONE) || + (AnStatus == AUTONEG_STATUS_FAILED)) + { + break; + } + + pDevice->AnInfo.CurrentTime_us = + REG_RD (pDevice, Grc.Timer); + + } + if ((AnStatus == AUTONEG_STATUS_DONE) || + (AnStatus == AUTONEG_STATUS_FAILED)) { + break; + } + if (j >= 1) { + if (!(REG_RD (pDevice, MacCtrl.Status) & + MAC_STATUS_PCS_SYNCED)) { + break; + } + } + } - LocalPhyAd = 0; - if(pDevice->AnInfo.mr_adv_sym_pause) - { - LocalPhyAd |= PHY_AN_AD_PAUSE_CAPABLE; + /* Stop sending configs. */ + MM_AnTxIdle (&pDevice->AnInfo); + + /* Resolve flow control settings. */ + if ((AnStatus == AUTONEG_STATUS_DONE) && + pDevice->AnInfo.mr_an_complete + && pDevice->AnInfo.mr_link_ok + && pDevice->AnInfo.mr_lp_adv_full_duplex) { + LM_UINT32 RemotePhyAd; + LM_UINT32 LocalPhyAd; + + LocalPhyAd = 0; + if (pDevice->AnInfo.mr_adv_sym_pause) { + LocalPhyAd |= PHY_AN_AD_PAUSE_CAPABLE; + } + + if (pDevice->AnInfo.mr_adv_asym_pause) { + LocalPhyAd |= PHY_AN_AD_ASYM_PAUSE; + } + + RemotePhyAd = 0; + if (pDevice->AnInfo.mr_lp_adv_sym_pause) { + RemotePhyAd |= + PHY_LINK_PARTNER_PAUSE_CAPABLE; + } + + if (pDevice->AnInfo.mr_lp_adv_asym_pause) { + RemotePhyAd |= + PHY_LINK_PARTNER_ASYM_PAUSE; + } + + LM_SetFlowControl (pDevice, LocalPhyAd, + RemotePhyAd); + + CurrentLinkStatus = LM_STATUS_LINK_ACTIVE; + } + for (j = 0; j < 30; j++) { + MM_Wait (20); + REG_WR (pDevice, MacCtrl.Status, + MAC_STATUS_SYNC_CHANGED | + MAC_STATUS_CFG_CHANGED); + MM_Wait (20); + if ((REG_RD (pDevice, MacCtrl.Status) & + (MAC_STATUS_SYNC_CHANGED | + MAC_STATUS_CFG_CHANGED)) == 0) + break; + } + if (pDevice->PollTbiLink) { + Value32 = REG_RD (pDevice, MacCtrl.Status); + if (Value32 & MAC_STATUS_RECEIVING_CFG) { + pDevice->IgnoreTbiLinkChange = TRUE; + } else { + pDevice->IgnoreTbiLinkChange = FALSE; + } + } + Value32 = REG_RD (pDevice, MacCtrl.Status); + if (CurrentLinkStatus == LM_STATUS_LINK_DOWN && + (Value32 & MAC_STATUS_PCS_SYNCED) && + ((Value32 & MAC_STATUS_RECEIVING_CFG) == 0)) { + CurrentLinkStatus = LM_STATUS_LINK_ACTIVE; + } + } else { + /* We are forcing line speed. */ + pDevice->FlowControlCap &= ~LM_FLOW_CONTROL_AUTO_PAUSE; + LM_SetFlowControl (pDevice, 0, 0); + + CurrentLinkStatus = LM_STATUS_LINK_ACTIVE; + REG_WR (pDevice, MacCtrl.Mode, pDevice->MacMode | + MAC_MODE_SEND_CONFIGS); } + } + /* Set the link polarity bit. */ + pDevice->MacMode &= ~MAC_MODE_LINK_POLARITY; + REG_WR (pDevice, MacCtrl.Mode, pDevice->MacMode); - if(pDevice->AnInfo.mr_adv_asym_pause) - { - LocalPhyAd |= PHY_AN_AD_ASYM_PAUSE; - } + pDevice->pStatusBlkVirt->Status = STATUS_BLOCK_UPDATED | + (pDevice->pStatusBlkVirt-> + Status & ~STATUS_BLOCK_LINK_CHANGED_STATUS); - RemotePhyAd = 0; - if(pDevice->AnInfo.mr_lp_adv_sym_pause) - { - RemotePhyAd |= PHY_LINK_PARTNER_PAUSE_CAPABLE; - } + for (j = 0; j < 100; j++) { + REG_WR (pDevice, MacCtrl.Status, MAC_STATUS_SYNC_CHANGED | + MAC_STATUS_CFG_CHANGED); + MM_Wait (5); + if ((REG_RD (pDevice, MacCtrl.Status) & + (MAC_STATUS_SYNC_CHANGED | MAC_STATUS_CFG_CHANGED)) == 0) + break; + } - if(pDevice->AnInfo.mr_lp_adv_asym_pause) - { - RemotePhyAd |= PHY_LINK_PARTNER_ASYM_PAUSE; + Value32 = REG_RD (pDevice, MacCtrl.Status); + if ((Value32 & MAC_STATUS_PCS_SYNCED) == 0) { + CurrentLinkStatus = LM_STATUS_LINK_DOWN; + if (pDevice->DisableAutoNeg == FALSE) { + REG_WR (pDevice, MacCtrl.Mode, pDevice->MacMode | + MAC_MODE_SEND_CONFIGS); + MM_Wait (1); + REG_WR (pDevice, MacCtrl.Mode, pDevice->MacMode); } + } - LM_SetFlowControl(pDevice, LocalPhyAd, RemotePhyAd); + /* Initialize the current link status. */ + if (CurrentLinkStatus == LM_STATUS_LINK_ACTIVE) { + pDevice->LineSpeed = LM_LINE_SPEED_1000MBPS; + pDevice->DuplexMode = LM_DUPLEX_MODE_FULL; + REG_WR (pDevice, MacCtrl.LedCtrl, LED_CTRL_OVERRIDE_LINK_LED | + LED_CTRL_1000MBPS_LED_ON); + } else { + pDevice->LineSpeed = LM_LINE_SPEED_UNKNOWN; + pDevice->DuplexMode = LM_DUPLEX_MODE_UNKNOWN; + REG_WR (pDevice, MacCtrl.LedCtrl, LED_CTRL_OVERRIDE_LINK_LED | + LED_CTRL_OVERRIDE_TRAFFIC_LED); + } - CurrentLinkStatus = LM_STATUS_LINK_ACTIVE; - } - for (j = 0; j < 30; j++) - { - MM_Wait(20); - REG_WR(pDevice, MacCtrl.Status, MAC_STATUS_SYNC_CHANGED | - MAC_STATUS_CFG_CHANGED); - MM_Wait(20); - if ((REG_RD(pDevice, MacCtrl.Status) & - (MAC_STATUS_SYNC_CHANGED | MAC_STATUS_CFG_CHANGED)) == 0) - break; - } - if (pDevice->PollTbiLink) - { - Value32 = REG_RD(pDevice, MacCtrl.Status); - if (Value32 & MAC_STATUS_RECEIVING_CFG) - { - pDevice->IgnoreTbiLinkChange = TRUE; - } - else - { - pDevice->IgnoreTbiLinkChange = FALSE; - } - } - Value32 = REG_RD(pDevice, MacCtrl.Status); - if (CurrentLinkStatus == LM_STATUS_LINK_DOWN && - (Value32 & MAC_STATUS_PCS_SYNCED) && - ((Value32 & MAC_STATUS_RECEIVING_CFG) == 0)) - { - CurrentLinkStatus = LM_STATUS_LINK_ACTIVE; - } + /* Indicate link status. */ + if (pDevice->LinkStatus != CurrentLinkStatus) { + pDevice->LinkStatus = CurrentLinkStatus; + MM_IndicateStatus (pDevice, CurrentLinkStatus); } - else - { - /* We are forcing line speed. */ - pDevice->FlowControlCap &= ~LM_FLOW_CONTROL_AUTO_PAUSE; - LM_SetFlowControl(pDevice, 0, 0); - - CurrentLinkStatus = LM_STATUS_LINK_ACTIVE; - REG_WR(pDevice, MacCtrl.Mode, pDevice->MacMode | - MAC_MODE_SEND_CONFIGS); - } - } - /* Set the link polarity bit. */ - pDevice->MacMode &= ~MAC_MODE_LINK_POLARITY; - REG_WR(pDevice, MacCtrl.Mode, pDevice->MacMode); - - pDevice->pStatusBlkVirt->Status = STATUS_BLOCK_UPDATED | - (pDevice->pStatusBlkVirt->Status & ~STATUS_BLOCK_LINK_CHANGED_STATUS); - - for (j = 0; j < 100; j++) - { - REG_WR(pDevice, MacCtrl.Status, MAC_STATUS_SYNC_CHANGED | - MAC_STATUS_CFG_CHANGED); - MM_Wait(5); - if ((REG_RD(pDevice, MacCtrl.Status) & - (MAC_STATUS_SYNC_CHANGED | MAC_STATUS_CFG_CHANGED)) == 0) - break; - } - - Value32 = REG_RD(pDevice, MacCtrl.Status); - if((Value32 & MAC_STATUS_PCS_SYNCED) == 0) - { - CurrentLinkStatus = LM_STATUS_LINK_DOWN; - if (pDevice->DisableAutoNeg == FALSE) - { - REG_WR(pDevice, MacCtrl.Mode, pDevice->MacMode | - MAC_MODE_SEND_CONFIGS); - MM_Wait(1); - REG_WR(pDevice, MacCtrl.Mode, pDevice->MacMode); - } - } - - /* Initialize the current link status. */ - if(CurrentLinkStatus == LM_STATUS_LINK_ACTIVE) - { - pDevice->LineSpeed = LM_LINE_SPEED_1000MBPS; - pDevice->DuplexMode = LM_DUPLEX_MODE_FULL; - REG_WR(pDevice, MacCtrl.LedCtrl, LED_CTRL_OVERRIDE_LINK_LED | - LED_CTRL_1000MBPS_LED_ON); - } - else - { - pDevice->LineSpeed = LM_LINE_SPEED_UNKNOWN; - pDevice->DuplexMode = LM_DUPLEX_MODE_UNKNOWN; - REG_WR(pDevice, MacCtrl.LedCtrl, LED_CTRL_OVERRIDE_LINK_LED | - LED_CTRL_OVERRIDE_TRAFFIC_LED); - } - - /* Indicate link status. */ - if (pDevice->LinkStatus != CurrentLinkStatus) { - pDevice->LinkStatus = CurrentLinkStatus; - MM_IndicateStatus(pDevice, CurrentLinkStatus); - } - - return LM_STATUS_SUCCESS; -} -#endif /* INCLUDE_TBI_SUPPORT */ + return LM_STATUS_SUCCESS; +} +#endif /* INCLUDE_TBI_SUPPORT */ /******************************************************************************/ /* Description: */ /* */ /* Return: */ /******************************************************************************/ -LM_STATUS -LM_SetupCopperPhy( - PLM_DEVICE_BLOCK pDevice) +LM_STATUS LM_SetupCopperPhy (PLM_DEVICE_BLOCK pDevice) { - LM_STATUS CurrentLinkStatus; - LM_UINT32 Value32; + LM_STATUS CurrentLinkStatus; + LM_UINT32 Value32; - /* Assume there is not link first. */ - CurrentLinkStatus = LM_STATUS_LINK_DOWN; + /* Assume there is not link first. */ + CurrentLinkStatus = LM_STATUS_LINK_DOWN; - /* Disable phy link change attention. */ - REG_WR(pDevice, MacCtrl.MacEvent, 0); + /* Disable phy link change attention. */ + REG_WR (pDevice, MacCtrl.MacEvent, 0); - /* Clear link change attention. */ - REG_WR(pDevice, MacCtrl.Status, MAC_STATUS_SYNC_CHANGED | - MAC_STATUS_CFG_CHANGED); + /* Clear link change attention. */ + REG_WR (pDevice, MacCtrl.Status, MAC_STATUS_SYNC_CHANGED | + MAC_STATUS_CFG_CHANGED); - /* Disable auto-polling for the moment. */ - pDevice->MiMode = 0xc0000; - REG_WR(pDevice, MacCtrl.MiMode, pDevice->MiMode); - MM_Wait(40); + /* Disable auto-polling for the moment. */ + pDevice->MiMode = 0xc0000; + REG_WR (pDevice, MacCtrl.MiMode, pDevice->MiMode); + MM_Wait (40); - /* Determine the requested line speed and duplex. */ - pDevice->OldLineSpeed = pDevice->LineSpeed; - LM_TranslateRequestedMediaType(pDevice->RequestedMediaType, - &pDevice->MediaType, &pDevice->LineSpeed, &pDevice->DuplexMode); + /* Determine the requested line speed and duplex. */ + pDevice->OldLineSpeed = pDevice->LineSpeed; + LM_TranslateRequestedMediaType (pDevice->RequestedMediaType, + &pDevice->MediaType, + &pDevice->LineSpeed, + &pDevice->DuplexMode); - /* Initialize the phy chip. */ - switch(pDevice->PhyId & PHY_ID_MASK) - { + /* Initialize the phy chip. */ + switch (pDevice->PhyId & PHY_ID_MASK) { case PHY_BCM5400_PHY_ID: case PHY_BCM5401_PHY_ID: case PHY_BCM5411_PHY_ID: case PHY_BCM5701_PHY_ID: case PHY_BCM5703_PHY_ID: case PHY_BCM5704_PHY_ID: - CurrentLinkStatus = LM_InitBcm540xPhy(pDevice); - break; + CurrentLinkStatus = LM_InitBcm540xPhy (pDevice); + break; default: - break; - } - - if(CurrentLinkStatus == LM_STATUS_LINK_SETTING_MISMATCH) - { - CurrentLinkStatus = LM_STATUS_LINK_DOWN; - } + break; + } - /* Setup flow control. */ - pDevice->FlowControl = LM_FLOW_CONTROL_NONE; - if(CurrentLinkStatus == LM_STATUS_LINK_ACTIVE) - { - LM_FLOW_CONTROL FlowCap; /* Flow control capability. */ + if (CurrentLinkStatus == LM_STATUS_LINK_SETTING_MISMATCH) { + CurrentLinkStatus = LM_STATUS_LINK_DOWN; + } + + /* Setup flow control. */ + pDevice->FlowControl = LM_FLOW_CONTROL_NONE; + if (CurrentLinkStatus == LM_STATUS_LINK_ACTIVE) { + LM_FLOW_CONTROL FlowCap; /* Flow control capability. */ + + FlowCap = LM_FLOW_CONTROL_NONE; + + if (pDevice->DuplexMode == LM_DUPLEX_MODE_FULL) { + if (pDevice->DisableAutoNeg == FALSE || + pDevice->RequestedMediaType == + LM_REQUESTED_MEDIA_TYPE_AUTO + || pDevice->RequestedMediaType == + LM_REQUESTED_MEDIA_TYPE_UTP_AUTO) { + LM_UINT32 ExpectedPhyAd; + LM_UINT32 LocalPhyAd; + LM_UINT32 RemotePhyAd; + + LM_ReadPhy (pDevice, PHY_AN_AD_REG, + &LocalPhyAd); + pDevice->advertising = LocalPhyAd; + LocalPhyAd &= + (PHY_AN_AD_ASYM_PAUSE | + PHY_AN_AD_PAUSE_CAPABLE); + + ExpectedPhyAd = + GetPhyAdFlowCntrlSettings (pDevice); + + if (LocalPhyAd != ExpectedPhyAd) { + CurrentLinkStatus = LM_STATUS_LINK_DOWN; + } else { + LM_ReadPhy (pDevice, + PHY_LINK_PARTNER_ABILITY_REG, + &RemotePhyAd); + + LM_SetFlowControl (pDevice, LocalPhyAd, + RemotePhyAd); + } + } else { + pDevice->FlowControlCap &= + ~LM_FLOW_CONTROL_AUTO_PAUSE; + LM_SetFlowControl (pDevice, 0, 0); + } + } + } - FlowCap = LM_FLOW_CONTROL_NONE; + if (CurrentLinkStatus == LM_STATUS_LINK_DOWN) { + LM_ForceAutoNeg (pDevice, pDevice->RequestedMediaType); - if(pDevice->DuplexMode == LM_DUPLEX_MODE_FULL) - { - if(pDevice->DisableAutoNeg == FALSE || - pDevice->RequestedMediaType == LM_REQUESTED_MEDIA_TYPE_AUTO || - pDevice->RequestedMediaType == LM_REQUESTED_MEDIA_TYPE_UTP_AUTO) - { - LM_UINT32 ExpectedPhyAd; - LM_UINT32 LocalPhyAd; - LM_UINT32 RemotePhyAd; + /* If we force line speed, we make get link right away. */ + LM_ReadPhy (pDevice, PHY_STATUS_REG, &Value32); + LM_ReadPhy (pDevice, PHY_STATUS_REG, &Value32); + if (Value32 & PHY_STATUS_LINK_PASS) { + CurrentLinkStatus = LM_STATUS_LINK_ACTIVE; + } + } - LM_ReadPhy(pDevice, PHY_AN_AD_REG, &LocalPhyAd); - pDevice->advertising = LocalPhyAd; - LocalPhyAd &= (PHY_AN_AD_ASYM_PAUSE | PHY_AN_AD_PAUSE_CAPABLE); + /* GMII interface. */ + pDevice->MacMode &= ~MAC_MODE_PORT_MODE_MASK; + if (CurrentLinkStatus == LM_STATUS_LINK_ACTIVE) { + if (pDevice->LineSpeed == LM_LINE_SPEED_100MBPS || + pDevice->LineSpeed == LM_LINE_SPEED_10MBPS) { + pDevice->MacMode |= MAC_MODE_PORT_MODE_MII; + } else { + pDevice->MacMode |= MAC_MODE_PORT_MODE_GMII; + } + } else { + pDevice->MacMode |= MAC_MODE_PORT_MODE_GMII; + } - ExpectedPhyAd = GetPhyAdFlowCntrlSettings(pDevice); + /* Set the MAC to operate in the appropriate duplex mode. */ + pDevice->MacMode &= ~MAC_MODE_HALF_DUPLEX; + if (pDevice->DuplexMode == LM_DUPLEX_MODE_HALF) { + pDevice->MacMode |= MAC_MODE_HALF_DUPLEX; + } - if(LocalPhyAd != ExpectedPhyAd) - { - CurrentLinkStatus = LM_STATUS_LINK_DOWN; + /* Set the link polarity bit. */ + pDevice->MacMode &= ~MAC_MODE_LINK_POLARITY; + if (T3_ASIC_REV (pDevice->ChipRevId) == T3_ASIC_REV_5700) { + if ((pDevice->LedMode == LED_MODE_LINK10) || + (CurrentLinkStatus == LM_STATUS_LINK_ACTIVE && + pDevice->LineSpeed == LM_LINE_SPEED_10MBPS)) { + pDevice->MacMode |= MAC_MODE_LINK_POLARITY; + } + } else { + if (CurrentLinkStatus == LM_STATUS_LINK_ACTIVE) { + pDevice->MacMode |= MAC_MODE_LINK_POLARITY; } - else - { - LM_ReadPhy(pDevice, PHY_LINK_PARTNER_ABILITY_REG, - &RemotePhyAd); - LM_SetFlowControl(pDevice, LocalPhyAd, RemotePhyAd); + /* Set LED mode. */ + if (T3_ASIC_REV (pDevice->ChipRevId) == T3_ASIC_REV_5700 || + T3_ASIC_REV (pDevice->ChipRevId) == T3_ASIC_REV_5701) { + Value32 = LED_CTRL_PHY_MODE_1; + } else { + if (pDevice->LedMode == LED_MODE_OUTPUT) { + Value32 = LED_CTRL_PHY_MODE_2; + } else { + Value32 = LED_CTRL_PHY_MODE_1; + } } - } - else - { - pDevice->FlowControlCap &= ~LM_FLOW_CONTROL_AUTO_PAUSE; - LM_SetFlowControl(pDevice, 0, 0); - } + REG_WR (pDevice, MacCtrl.LedCtrl, Value32); } - } - if(CurrentLinkStatus == LM_STATUS_LINK_DOWN) - { - LM_ForceAutoNeg(pDevice, pDevice->RequestedMediaType); + REG_WR (pDevice, MacCtrl.Mode, pDevice->MacMode); - /* If we force line speed, we make get link right away. */ - LM_ReadPhy(pDevice, PHY_STATUS_REG, &Value32); - LM_ReadPhy(pDevice, PHY_STATUS_REG, &Value32); - if(Value32 & PHY_STATUS_LINK_PASS) - { - CurrentLinkStatus = LM_STATUS_LINK_ACTIVE; + /* Enable auto polling. */ + if (pDevice->PhyIntMode == T3_PHY_INT_MODE_AUTO_POLLING) { + pDevice->MiMode |= MI_MODE_AUTO_POLLING_ENABLE; + REG_WR (pDevice, MacCtrl.MiMode, pDevice->MiMode); } - } - /* GMII interface. */ - pDevice->MacMode &= ~MAC_MODE_PORT_MODE_MASK; - if(CurrentLinkStatus == LM_STATUS_LINK_ACTIVE) - { - if(pDevice->LineSpeed == LM_LINE_SPEED_100MBPS || - pDevice->LineSpeed == LM_LINE_SPEED_10MBPS) - { - pDevice->MacMode |= MAC_MODE_PORT_MODE_MII; + /* Enable phy link change attention. */ + if (pDevice->PhyIntMode == T3_PHY_INT_MODE_MI_INTERRUPT) { + REG_WR (pDevice, MacCtrl.MacEvent, + MAC_EVENT_ENABLE_MI_INTERRUPT); + } else { + REG_WR (pDevice, MacCtrl.MacEvent, + MAC_EVENT_ENABLE_LINK_STATE_CHANGED_ATTN); } - else - { - pDevice->MacMode |= MAC_MODE_PORT_MODE_GMII; - } - } - else { - pDevice->MacMode |= MAC_MODE_PORT_MODE_GMII; - } - - /* Set the MAC to operate in the appropriate duplex mode. */ - pDevice->MacMode &= ~MAC_MODE_HALF_DUPLEX; - if(pDevice->DuplexMode == LM_DUPLEX_MODE_HALF) - { - pDevice->MacMode |= MAC_MODE_HALF_DUPLEX; - } - - /* Set the link polarity bit. */ - pDevice->MacMode &= ~MAC_MODE_LINK_POLARITY; - if(T3_ASIC_REV(pDevice->ChipRevId) == T3_ASIC_REV_5700) - { - if((pDevice->LedMode == LED_MODE_LINK10) || - (CurrentLinkStatus == LM_STATUS_LINK_ACTIVE && - pDevice->LineSpeed == LM_LINE_SPEED_10MBPS)) - { - pDevice->MacMode |= MAC_MODE_LINK_POLARITY; - } - } - else - { - if (CurrentLinkStatus == LM_STATUS_LINK_ACTIVE) - { - pDevice->MacMode |= MAC_MODE_LINK_POLARITY; + if ((T3_ASIC_REV (pDevice->ChipRevId) == T3_ASIC_REV_5700) && + (CurrentLinkStatus == LM_STATUS_LINK_ACTIVE) && + (pDevice->LineSpeed == LM_LINE_SPEED_1000MBPS) && + (((pDevice->PciState & T3_PCI_STATE_CONVENTIONAL_PCI_MODE) && + (pDevice->PciState & T3_PCI_STATE_BUS_SPEED_HIGH)) || + !(pDevice->PciState & T3_PCI_STATE_CONVENTIONAL_PCI_MODE))) { + MM_Wait (120); + REG_WR (pDevice, MacCtrl.Status, MAC_STATUS_SYNC_CHANGED | + MAC_STATUS_CFG_CHANGED); + MEM_WR_OFFSET (pDevice, T3_FIRMWARE_MAILBOX, + T3_MAGIC_NUM_DISABLE_DMAW_ON_LINK_CHANGE); } - /* Set LED mode. */ - if(T3_ASIC_REV(pDevice->ChipRevId) == T3_ASIC_REV_5700 || - T3_ASIC_REV(pDevice->ChipRevId) == T3_ASIC_REV_5701) - { - Value32 = LED_CTRL_PHY_MODE_1; + /* Indicate link status. */ + if (pDevice->LinkStatus != CurrentLinkStatus) { + pDevice->LinkStatus = CurrentLinkStatus; + MM_IndicateStatus (pDevice, CurrentLinkStatus); } - else - { - if(pDevice->LedMode == LED_MODE_OUTPUT) - { - Value32 = LED_CTRL_PHY_MODE_2; - } - else - { - Value32 = LED_CTRL_PHY_MODE_1; - } - } - REG_WR(pDevice, MacCtrl.LedCtrl, Value32); - } - - REG_WR(pDevice, MacCtrl.Mode, pDevice->MacMode); - - /* Enable auto polling. */ - if(pDevice->PhyIntMode == T3_PHY_INT_MODE_AUTO_POLLING) - { - pDevice->MiMode |= MI_MODE_AUTO_POLLING_ENABLE; - REG_WR(pDevice, MacCtrl.MiMode, pDevice->MiMode); - } - - /* Enable phy link change attention. */ - if(pDevice->PhyIntMode == T3_PHY_INT_MODE_MI_INTERRUPT) - { - REG_WR(pDevice, MacCtrl.MacEvent, MAC_EVENT_ENABLE_MI_INTERRUPT); - } - else - { - REG_WR(pDevice, MacCtrl.MacEvent, - MAC_EVENT_ENABLE_LINK_STATE_CHANGED_ATTN); - } - if ((T3_ASIC_REV(pDevice->ChipRevId) == T3_ASIC_REV_5700) && - (CurrentLinkStatus == LM_STATUS_LINK_ACTIVE) && - (pDevice->LineSpeed == LM_LINE_SPEED_1000MBPS) && - (((pDevice->PciState & T3_PCI_STATE_CONVENTIONAL_PCI_MODE) && - (pDevice->PciState & T3_PCI_STATE_BUS_SPEED_HIGH)) || - !(pDevice->PciState & T3_PCI_STATE_CONVENTIONAL_PCI_MODE))) - { - MM_Wait(120); - REG_WR(pDevice, MacCtrl.Status, MAC_STATUS_SYNC_CHANGED | - MAC_STATUS_CFG_CHANGED); - MEM_WR_OFFSET(pDevice, T3_FIRMWARE_MAILBOX, - T3_MAGIC_NUM_DISABLE_DMAW_ON_LINK_CHANGE); - } - - /* Indicate link status. */ - if (pDevice->LinkStatus != CurrentLinkStatus) { - pDevice->LinkStatus = CurrentLinkStatus; - MM_IndicateStatus(pDevice, CurrentLinkStatus); - } - - return LM_STATUS_SUCCESS; -} /* LM_SetupCopperPhy */ + + return LM_STATUS_SUCCESS; +} /* LM_SetupCopperPhy */ /******************************************************************************/ /* Description: */ /* */ /* Return: */ /******************************************************************************/ -LM_STATUS -LM_SetupPhy( - PLM_DEVICE_BLOCK pDevice) +LM_STATUS LM_SetupPhy (PLM_DEVICE_BLOCK pDevice) { - LM_STATUS LmStatus; - LM_UINT32 Value32; + LM_STATUS LmStatus; + LM_UINT32 Value32; #if INCLUDE_TBI_SUPPORT - if(pDevice->EnableTbi) - { - LmStatus = LM_SetupFiberPhy(pDevice); - } - else -#endif /* INCLUDE_TBI_SUPPORT */ - { - LmStatus = LM_SetupCopperPhy(pDevice); - } - if (pDevice->ChipRevId == T3_CHIP_ID_5704_A0) - { - if (!(pDevice->PciState & T3_PCI_STATE_CONVENTIONAL_PCI_MODE)) - { - Value32 = REG_RD(pDevice, PciCfg.PciState); - REG_WR(pDevice, PciCfg.PciState, - Value32 | T3_PCI_STATE_RETRY_SAME_DMA); - } - } - if ((pDevice->LineSpeed == LM_LINE_SPEED_1000MBPS) && - (pDevice->DuplexMode == LM_DUPLEX_MODE_HALF)) - { - REG_WR(pDevice, MacCtrl.TxLengths, 0x26ff); - } - else - { - REG_WR(pDevice, MacCtrl.TxLengths, 0x2620); - } - - return LmStatus; + if (pDevice->EnableTbi) { + LmStatus = LM_SetupFiberPhy (pDevice); + } else +#endif /* INCLUDE_TBI_SUPPORT */ + { + LmStatus = LM_SetupCopperPhy (pDevice); + } + if (pDevice->ChipRevId == T3_CHIP_ID_5704_A0) { + if (!(pDevice->PciState & T3_PCI_STATE_CONVENTIONAL_PCI_MODE)) { + Value32 = REG_RD (pDevice, PciCfg.PciState); + REG_WR (pDevice, PciCfg.PciState, + Value32 | T3_PCI_STATE_RETRY_SAME_DMA); + } + } + if ((pDevice->LineSpeed == LM_LINE_SPEED_1000MBPS) && + (pDevice->DuplexMode == LM_DUPLEX_MODE_HALF)) { + REG_WR (pDevice, MacCtrl.TxLengths, 0x26ff); + } else { + REG_WR (pDevice, MacCtrl.TxLengths, 0x2620); + } + + return LmStatus; } /******************************************************************************/ @@ -5232,55 +4830,47 @@ LM_SetupPhy( /* Return: */ /******************************************************************************/ LM_VOID -LM_ReadPhy( -PLM_DEVICE_BLOCK pDevice, -LM_UINT32 PhyReg, -PLM_UINT32 pData32) { - LM_UINT32 Value32; - LM_UINT32 j; +LM_ReadPhy (PLM_DEVICE_BLOCK pDevice, LM_UINT32 PhyReg, PLM_UINT32 pData32) +{ + LM_UINT32 Value32; + LM_UINT32 j; - if(pDevice->PhyIntMode == T3_PHY_INT_MODE_AUTO_POLLING) - { - REG_WR(pDevice, MacCtrl.MiMode, pDevice->MiMode & - ~MI_MODE_AUTO_POLLING_ENABLE); - MM_Wait(40); - } + if (pDevice->PhyIntMode == T3_PHY_INT_MODE_AUTO_POLLING) { + REG_WR (pDevice, MacCtrl.MiMode, pDevice->MiMode & + ~MI_MODE_AUTO_POLLING_ENABLE); + MM_Wait (40); + } - Value32 = (pDevice->PhyAddr << MI_COM_FIRST_PHY_ADDR_BIT) | - ((PhyReg & MI_COM_PHY_REG_ADDR_MASK) << MI_COM_FIRST_PHY_REG_ADDR_BIT) | - MI_COM_CMD_READ | MI_COM_START; + Value32 = (pDevice->PhyAddr << MI_COM_FIRST_PHY_ADDR_BIT) | + ((PhyReg & MI_COM_PHY_REG_ADDR_MASK) << + MI_COM_FIRST_PHY_REG_ADDR_BIT) | MI_COM_CMD_READ | MI_COM_START; - REG_WR(pDevice, MacCtrl.MiCom, Value32); + REG_WR (pDevice, MacCtrl.MiCom, Value32); - for(j = 0; j < 20; j++) - { - MM_Wait(25); + for (j = 0; j < 20; j++) { + MM_Wait (25); - Value32 = REG_RD(pDevice, MacCtrl.MiCom); + Value32 = REG_RD (pDevice, MacCtrl.MiCom); - if(!(Value32 & MI_COM_BUSY)) - { - MM_Wait(5); - Value32 = REG_RD(pDevice, MacCtrl.MiCom); - Value32 &= MI_COM_PHY_DATA_MASK; - break; + if (!(Value32 & MI_COM_BUSY)) { + MM_Wait (5); + Value32 = REG_RD (pDevice, MacCtrl.MiCom); + Value32 &= MI_COM_PHY_DATA_MASK; + break; + } } - } - if(Value32 & MI_COM_BUSY) - { - Value32 = 0; - } - - *pData32 = Value32; + if (Value32 & MI_COM_BUSY) { + Value32 = 0; + } - if(pDevice->PhyIntMode == T3_PHY_INT_MODE_AUTO_POLLING) - { - REG_WR(pDevice, MacCtrl.MiMode, pDevice->MiMode); - MM_Wait(40); - } -} /* LM_ReadPhy */ + *pData32 = Value32; + if (pDevice->PhyIntMode == T3_PHY_INT_MODE_AUTO_POLLING) { + REG_WR (pDevice, MacCtrl.MiMode, pDevice->MiMode); + MM_Wait (40); + } +} /* LM_ReadPhy */ /******************************************************************************/ /* Description: */ @@ -5288,341 +4878,296 @@ PLM_UINT32 pData32) { /* Return: */ /******************************************************************************/ LM_VOID -LM_WritePhy( -PLM_DEVICE_BLOCK pDevice, -LM_UINT32 PhyReg, -LM_UINT32 Data32) { - LM_UINT32 Value32; - LM_UINT32 j; +LM_WritePhy (PLM_DEVICE_BLOCK pDevice, LM_UINT32 PhyReg, LM_UINT32 Data32) +{ + LM_UINT32 Value32; + LM_UINT32 j; - if(pDevice->PhyIntMode == T3_PHY_INT_MODE_AUTO_POLLING) - { - REG_WR(pDevice, MacCtrl.MiMode, pDevice->MiMode & - ~MI_MODE_AUTO_POLLING_ENABLE); - MM_Wait(40); - } + if (pDevice->PhyIntMode == T3_PHY_INT_MODE_AUTO_POLLING) { + REG_WR (pDevice, MacCtrl.MiMode, pDevice->MiMode & + ~MI_MODE_AUTO_POLLING_ENABLE); + MM_Wait (40); + } - Value32 = (pDevice->PhyAddr << MI_COM_FIRST_PHY_ADDR_BIT) | - ((PhyReg & MI_COM_PHY_REG_ADDR_MASK) << MI_COM_FIRST_PHY_REG_ADDR_BIT) | - (Data32 & MI_COM_PHY_DATA_MASK) | MI_COM_CMD_WRITE | MI_COM_START; + Value32 = (pDevice->PhyAddr << MI_COM_FIRST_PHY_ADDR_BIT) | + ((PhyReg & MI_COM_PHY_REG_ADDR_MASK) << + MI_COM_FIRST_PHY_REG_ADDR_BIT) | (Data32 & MI_COM_PHY_DATA_MASK) | + MI_COM_CMD_WRITE | MI_COM_START; - REG_WR(pDevice, MacCtrl.MiCom, Value32); + REG_WR (pDevice, MacCtrl.MiCom, Value32); - for(j = 0; j < 20; j++) - { - MM_Wait(25); + for (j = 0; j < 20; j++) { + MM_Wait (25); - Value32 = REG_RD(pDevice, MacCtrl.MiCom); + Value32 = REG_RD (pDevice, MacCtrl.MiCom); - if(!(Value32 & MI_COM_BUSY)) - { - MM_Wait(5); - break; + if (!(Value32 & MI_COM_BUSY)) { + MM_Wait (5); + break; + } } - } - - if(pDevice->PhyIntMode == T3_PHY_INT_MODE_AUTO_POLLING) - { - REG_WR(pDevice, MacCtrl.MiMode, pDevice->MiMode); - MM_Wait(40); - } -} /* LM_WritePhy */ + if (pDevice->PhyIntMode == T3_PHY_INT_MODE_AUTO_POLLING) { + REG_WR (pDevice, MacCtrl.MiMode, pDevice->MiMode); + MM_Wait (40); + } +} /* LM_WritePhy */ /******************************************************************************/ /* Description: */ /* */ /* Return: */ /******************************************************************************/ -LM_STATUS -LM_SetPowerState( -PLM_DEVICE_BLOCK pDevice, -LM_POWER_STATE PowerLevel) { - LM_UINT32 PmeSupport; - LM_UINT32 Value32; - LM_UINT32 PmCtrl; +LM_STATUS LM_SetPowerState (PLM_DEVICE_BLOCK pDevice, LM_POWER_STATE PowerLevel) +{ + LM_UINT32 PmeSupport; + LM_UINT32 Value32; + LM_UINT32 PmCtrl; - /* make sureindirect accesses are enabled*/ - MM_WriteConfig32(pDevice, T3_PCI_MISC_HOST_CTRL_REG, pDevice->MiscHostCtrl); + /* make sureindirect accesses are enabled */ + MM_WriteConfig32 (pDevice, T3_PCI_MISC_HOST_CTRL_REG, + pDevice->MiscHostCtrl); - /* Clear the PME_ASSERT bit and the power state bits. Also enable */ - /* the PME bit. */ - MM_ReadConfig32(pDevice, T3_PCI_PM_STATUS_CTRL_REG, &PmCtrl); + /* Clear the PME_ASSERT bit and the power state bits. Also enable */ + /* the PME bit. */ + MM_ReadConfig32 (pDevice, T3_PCI_PM_STATUS_CTRL_REG, &PmCtrl); - PmCtrl |= T3_PM_PME_ASSERTED; - PmCtrl &= ~T3_PM_POWER_STATE_MASK; + PmCtrl |= T3_PM_PME_ASSERTED; + PmCtrl &= ~T3_PM_POWER_STATE_MASK; - /* Set the appropriate power state. */ - if(PowerLevel == LM_POWER_STATE_D0) - { + /* Set the appropriate power state. */ + if (PowerLevel == LM_POWER_STATE_D0) { - /* Bring the card out of low power mode. */ - PmCtrl |= T3_PM_POWER_STATE_D0; - MM_WriteConfig32(pDevice, T3_PCI_PM_STATUS_CTRL_REG, PmCtrl); + /* Bring the card out of low power mode. */ + PmCtrl |= T3_PM_POWER_STATE_D0; + MM_WriteConfig32 (pDevice, T3_PCI_PM_STATUS_CTRL_REG, PmCtrl); - REG_WR(pDevice, Grc.LocalCtrl, pDevice->GrcLocalCtrl); - MM_Wait (40); -#if 0 /* Bugfix by jmb...can't call WritePhy here because pDevice not fully initialized */ - LM_WritePhy(pDevice, BCM5401_AUX_CTRL, 0x02); + REG_WR (pDevice, Grc.LocalCtrl, pDevice->GrcLocalCtrl); + MM_Wait (40); +#if 0 /* Bugfix by jmb...can't call WritePhy here because pDevice not fully initialized */ + LM_WritePhy (pDevice, BCM5401_AUX_CTRL, 0x02); #endif - return LM_STATUS_SUCCESS; - } - else if(PowerLevel == LM_POWER_STATE_D1) - { - PmCtrl |= T3_PM_POWER_STATE_D1; - } - else if(PowerLevel == LM_POWER_STATE_D2) - { - PmCtrl |= T3_PM_POWER_STATE_D2; - } - else if(PowerLevel == LM_POWER_STATE_D3) - { - PmCtrl |= T3_PM_POWER_STATE_D3; - } - else - { - return LM_STATUS_FAILURE; - } - PmCtrl |= T3_PM_PME_ENABLE; - - /* Mask out all interrupts so LM_SetupPhy won't be called while we are */ - /* setting new line speed. */ - Value32 = REG_RD(pDevice, PciCfg.MiscHostCtrl); - REG_WR(pDevice, PciCfg.MiscHostCtrl, Value32 | MISC_HOST_CTRL_MASK_PCI_INT); - - if(!pDevice->RestoreOnWakeUp) - { - pDevice->RestoreOnWakeUp = TRUE; - pDevice->WakeUpDisableAutoNeg = pDevice->DisableAutoNeg; - pDevice->WakeUpRequestedMediaType = pDevice->RequestedMediaType; - } - - /* Force auto-negotiation to 10 line speed. */ - pDevice->DisableAutoNeg = FALSE; - pDevice->RequestedMediaType = LM_REQUESTED_MEDIA_TYPE_UTP_10MBPS; - LM_SetupPhy(pDevice); - - /* Put the driver in the initial state, and go through the power down */ - /* sequence. */ - LM_Halt(pDevice); - - MM_ReadConfig32(pDevice, T3_PCI_PM_CAP_REG, &PmeSupport); - - if (pDevice->WakeUpModeCap != LM_WAKE_UP_MODE_NONE) - { - - /* Enable WOL. */ - LM_WritePhy(pDevice, BCM5401_AUX_CTRL, 0x5a); - MM_Wait(40); - - /* Set LED mode. */ - if(T3_ASIC_REV(pDevice->ChipRevId) == T3_ASIC_REV_5700 || - T3_ASIC_REV(pDevice->ChipRevId) == T3_ASIC_REV_5701) - { - Value32 = LED_CTRL_PHY_MODE_1; - } - else - { - if(pDevice->LedMode == LED_MODE_OUTPUT) - { - Value32 = LED_CTRL_PHY_MODE_2; - } - else - { - Value32 = LED_CTRL_PHY_MODE_1; - } + return LM_STATUS_SUCCESS; + } else if (PowerLevel == LM_POWER_STATE_D1) { + PmCtrl |= T3_PM_POWER_STATE_D1; + } else if (PowerLevel == LM_POWER_STATE_D2) { + PmCtrl |= T3_PM_POWER_STATE_D2; + } else if (PowerLevel == LM_POWER_STATE_D3) { + PmCtrl |= T3_PM_POWER_STATE_D3; + } else { + return LM_STATUS_FAILURE; } + PmCtrl |= T3_PM_PME_ENABLE; - Value32 = MAC_MODE_PORT_MODE_MII; - if(T3_ASIC_REV(pDevice->ChipRevId) == T3_ASIC_REV_5700) - { - if(pDevice->LedMode == LED_MODE_LINK10 || - pDevice->WolSpeed == WOL_SPEED_10MB) - { - Value32 |= MAC_MODE_LINK_POLARITY; - } - } - else - { - Value32 |= MAC_MODE_LINK_POLARITY; - } - REG_WR(pDevice, MacCtrl.Mode, Value32); - MM_Wait(40); MM_Wait(40); MM_Wait(40); + /* Mask out all interrupts so LM_SetupPhy won't be called while we are */ + /* setting new line speed. */ + Value32 = REG_RD (pDevice, PciCfg.MiscHostCtrl); + REG_WR (pDevice, PciCfg.MiscHostCtrl, + Value32 | MISC_HOST_CTRL_MASK_PCI_INT); - /* Always enable magic packet wake-up if we have vaux. */ - if((PmeSupport & T3_PCI_PM_CAP_PME_D3COLD) && - (pDevice->WakeUpModeCap & LM_WAKE_UP_MODE_MAGIC_PACKET)) - { - Value32 |= MAC_MODE_DETECT_MAGIC_PACKET_ENABLE; + if (!pDevice->RestoreOnWakeUp) { + pDevice->RestoreOnWakeUp = TRUE; + pDevice->WakeUpDisableAutoNeg = pDevice->DisableAutoNeg; + pDevice->WakeUpRequestedMediaType = pDevice->RequestedMediaType; } - REG_WR(pDevice, MacCtrl.Mode, Value32); + /* Force auto-negotiation to 10 line speed. */ + pDevice->DisableAutoNeg = FALSE; + pDevice->RequestedMediaType = LM_REQUESTED_MEDIA_TYPE_UTP_10MBPS; + LM_SetupPhy (pDevice); - /* Enable the receiver. */ - REG_WR(pDevice, MacCtrl.RxMode, RX_MODE_ENABLE); - } - - /* Disable tx/rx clocks, and seletect an alternate clock. */ - if(pDevice->WolSpeed == WOL_SPEED_100MB) - { - if(T3_ASIC_REV(pDevice->ChipRevId) == T3_ASIC_REV_5700 || - T3_ASIC_REV(pDevice->ChipRevId) == T3_ASIC_REV_5701) - { - Value32 = T3_PCI_DISABLE_RX_CLOCK | T3_PCI_DISABLE_TX_CLOCK | - T3_PCI_SELECT_ALTERNATE_CLOCK; - } - else - { - Value32 = T3_PCI_SELECT_ALTERNATE_CLOCK; - } - REG_WR(pDevice, PciCfg.ClockCtrl, Value32); + /* Put the driver in the initial state, and go through the power down */ + /* sequence. */ + LM_Halt (pDevice); - MM_Wait(40); + MM_ReadConfig32 (pDevice, T3_PCI_PM_CAP_REG, &PmeSupport); - if(T3_ASIC_REV(pDevice->ChipRevId) == T3_ASIC_REV_5700 || - T3_ASIC_REV(pDevice->ChipRevId) == T3_ASIC_REV_5701) - { - Value32 = T3_PCI_DISABLE_RX_CLOCK | T3_PCI_DISABLE_TX_CLOCK | - T3_PCI_SELECT_ALTERNATE_CLOCK | T3_PCI_44MHZ_CORE_CLOCK; - } - else - { - Value32 = T3_PCI_SELECT_ALTERNATE_CLOCK | - T3_PCI_44MHZ_CORE_CLOCK; - } + if (pDevice->WakeUpModeCap != LM_WAKE_UP_MODE_NONE) { - REG_WR(pDevice, PciCfg.ClockCtrl, Value32); + /* Enable WOL. */ + LM_WritePhy (pDevice, BCM5401_AUX_CTRL, 0x5a); + MM_Wait (40); - MM_Wait(40); + /* Set LED mode. */ + if (T3_ASIC_REV (pDevice->ChipRevId) == T3_ASIC_REV_5700 || + T3_ASIC_REV (pDevice->ChipRevId) == T3_ASIC_REV_5701) { + Value32 = LED_CTRL_PHY_MODE_1; + } else { + if (pDevice->LedMode == LED_MODE_OUTPUT) { + Value32 = LED_CTRL_PHY_MODE_2; + } else { + Value32 = LED_CTRL_PHY_MODE_1; + } + } - if(T3_ASIC_REV(pDevice->ChipRevId) == T3_ASIC_REV_5700 || - T3_ASIC_REV(pDevice->ChipRevId) == T3_ASIC_REV_5701) - { - Value32 = T3_PCI_DISABLE_RX_CLOCK | T3_PCI_DISABLE_TX_CLOCK | - T3_PCI_44MHZ_CORE_CLOCK; - } - else - { - Value32 = T3_PCI_44MHZ_CORE_CLOCK; - } + Value32 = MAC_MODE_PORT_MODE_MII; + if (T3_ASIC_REV (pDevice->ChipRevId) == T3_ASIC_REV_5700) { + if (pDevice->LedMode == LED_MODE_LINK10 || + pDevice->WolSpeed == WOL_SPEED_10MB) { + Value32 |= MAC_MODE_LINK_POLARITY; + } + } else { + Value32 |= MAC_MODE_LINK_POLARITY; + } + REG_WR (pDevice, MacCtrl.Mode, Value32); + MM_Wait (40); + MM_Wait (40); + MM_Wait (40); + + /* Always enable magic packet wake-up if we have vaux. */ + if ((PmeSupport & T3_PCI_PM_CAP_PME_D3COLD) && + (pDevice->WakeUpModeCap & LM_WAKE_UP_MODE_MAGIC_PACKET)) { + Value32 |= MAC_MODE_DETECT_MAGIC_PACKET_ENABLE; + } - REG_WR(pDevice, PciCfg.ClockCtrl, Value32); - } - else - { - if(T3_ASIC_REV(pDevice->ChipRevId) == T3_ASIC_REV_5700 || - T3_ASIC_REV(pDevice->ChipRevId) == T3_ASIC_REV_5701) - { - Value32 = T3_PCI_DISABLE_RX_CLOCK | T3_PCI_DISABLE_TX_CLOCK | - T3_PCI_SELECT_ALTERNATE_CLOCK | - T3_PCI_POWER_DOWN_PCI_PLL133; - } - else - { - Value32 = T3_PCI_SELECT_ALTERNATE_CLOCK | - T3_PCI_POWER_DOWN_PCI_PLL133; + REG_WR (pDevice, MacCtrl.Mode, Value32); + + /* Enable the receiver. */ + REG_WR (pDevice, MacCtrl.RxMode, RX_MODE_ENABLE); } - REG_WR(pDevice, PciCfg.ClockCtrl, Value32); - } + /* Disable tx/rx clocks, and seletect an alternate clock. */ + if (pDevice->WolSpeed == WOL_SPEED_100MB) { + if (T3_ASIC_REV (pDevice->ChipRevId) == T3_ASIC_REV_5700 || + T3_ASIC_REV (pDevice->ChipRevId) == T3_ASIC_REV_5701) { + Value32 = + T3_PCI_DISABLE_RX_CLOCK | T3_PCI_DISABLE_TX_CLOCK | + T3_PCI_SELECT_ALTERNATE_CLOCK; + } else { + Value32 = T3_PCI_SELECT_ALTERNATE_CLOCK; + } + REG_WR (pDevice, PciCfg.ClockCtrl, Value32); + + MM_Wait (40); + + if (T3_ASIC_REV (pDevice->ChipRevId) == T3_ASIC_REV_5700 || + T3_ASIC_REV (pDevice->ChipRevId) == T3_ASIC_REV_5701) { + Value32 = + T3_PCI_DISABLE_RX_CLOCK | T3_PCI_DISABLE_TX_CLOCK | + T3_PCI_SELECT_ALTERNATE_CLOCK | + T3_PCI_44MHZ_CORE_CLOCK; + } else { + Value32 = T3_PCI_SELECT_ALTERNATE_CLOCK | + T3_PCI_44MHZ_CORE_CLOCK; + } - MM_Wait(40); + REG_WR (pDevice, PciCfg.ClockCtrl, Value32); - if(!pDevice->EepromWp && (pDevice->WakeUpModeCap != LM_WAKE_UP_MODE_NONE)) - { - /* Switch adapter to auxilliary power. */ - if(T3_ASIC_REV(pDevice->ChipRevId) == T3_ASIC_REV_5700 || - T3_ASIC_REV(pDevice->ChipRevId) == T3_ASIC_REV_5701) - { - /* GPIO0 = 1, GPIO1 = 1, GPIO2 = 0. */ - REG_WR(pDevice, Grc.LocalCtrl, pDevice->GrcLocalCtrl | - GRC_MISC_LOCAL_CTRL_GPIO_OE0 | - GRC_MISC_LOCAL_CTRL_GPIO_OE1 | - GRC_MISC_LOCAL_CTRL_GPIO_OE2 | - GRC_MISC_LOCAL_CTRL_GPIO_OUTPUT0 | - GRC_MISC_LOCAL_CTRL_GPIO_OUTPUT1); - MM_Wait(40); + MM_Wait (40); + + if (T3_ASIC_REV (pDevice->ChipRevId) == T3_ASIC_REV_5700 || + T3_ASIC_REV (pDevice->ChipRevId) == T3_ASIC_REV_5701) { + Value32 = + T3_PCI_DISABLE_RX_CLOCK | T3_PCI_DISABLE_TX_CLOCK | + T3_PCI_44MHZ_CORE_CLOCK; + } else { + Value32 = T3_PCI_44MHZ_CORE_CLOCK; + } + + REG_WR (pDevice, PciCfg.ClockCtrl, Value32); + } else { + if (T3_ASIC_REV (pDevice->ChipRevId) == T3_ASIC_REV_5700 || + T3_ASIC_REV (pDevice->ChipRevId) == T3_ASIC_REV_5701) { + Value32 = + T3_PCI_DISABLE_RX_CLOCK | T3_PCI_DISABLE_TX_CLOCK | + T3_PCI_SELECT_ALTERNATE_CLOCK | + T3_PCI_POWER_DOWN_PCI_PLL133; + } else { + Value32 = T3_PCI_SELECT_ALTERNATE_CLOCK | + T3_PCI_POWER_DOWN_PCI_PLL133; + } + + REG_WR (pDevice, PciCfg.ClockCtrl, Value32); } - else - { - /* GPIO0 = 0, GPIO1 = 1, GPIO2 = 1. */ - REG_WR(pDevice, Grc.LocalCtrl, pDevice->GrcLocalCtrl | - GRC_MISC_LOCAL_CTRL_GPIO_OE0 | - GRC_MISC_LOCAL_CTRL_GPIO_OE1 | - GRC_MISC_LOCAL_CTRL_GPIO_OE2 | - GRC_MISC_LOCAL_CTRL_GPIO_OUTPUT1 | - GRC_MISC_LOCAL_CTRL_GPIO_OUTPUT2); - MM_Wait(40); - - /* GPIO0 = 1, GPIO1 = 1, GPIO2 = 1. */ - REG_WR(pDevice, Grc.LocalCtrl, pDevice->GrcLocalCtrl | - GRC_MISC_LOCAL_CTRL_GPIO_OE0 | - GRC_MISC_LOCAL_CTRL_GPIO_OE1 | - GRC_MISC_LOCAL_CTRL_GPIO_OE2 | - GRC_MISC_LOCAL_CTRL_GPIO_OUTPUT0 | - GRC_MISC_LOCAL_CTRL_GPIO_OUTPUT1 | - GRC_MISC_LOCAL_CTRL_GPIO_OUTPUT2); - MM_Wait(40); - - /* GPIO0 = 1, GPIO1 = 1, GPIO2 = 0. */ - REG_WR(pDevice, Grc.LocalCtrl, pDevice->GrcLocalCtrl | - GRC_MISC_LOCAL_CTRL_GPIO_OE0 | - GRC_MISC_LOCAL_CTRL_GPIO_OE1 | - GRC_MISC_LOCAL_CTRL_GPIO_OE2 | - GRC_MISC_LOCAL_CTRL_GPIO_OUTPUT0 | - GRC_MISC_LOCAL_CTRL_GPIO_OUTPUT1); - MM_Wait(40); - } - } - - /* Set the phy to low power mode. */ - /* Put the the hardware in low power mode. */ - MM_WriteConfig32(pDevice, T3_PCI_PM_STATUS_CTRL_REG, PmCtrl); - - return LM_STATUS_SUCCESS; -} /* LM_SetPowerState */ + MM_Wait (40); + + if (!pDevice->EepromWp + && (pDevice->WakeUpModeCap != LM_WAKE_UP_MODE_NONE)) { + /* Switch adapter to auxilliary power. */ + if (T3_ASIC_REV (pDevice->ChipRevId) == T3_ASIC_REV_5700 || + T3_ASIC_REV (pDevice->ChipRevId) == T3_ASIC_REV_5701) { + /* GPIO0 = 1, GPIO1 = 1, GPIO2 = 0. */ + REG_WR (pDevice, Grc.LocalCtrl, pDevice->GrcLocalCtrl | + GRC_MISC_LOCAL_CTRL_GPIO_OE0 | + GRC_MISC_LOCAL_CTRL_GPIO_OE1 | + GRC_MISC_LOCAL_CTRL_GPIO_OE2 | + GRC_MISC_LOCAL_CTRL_GPIO_OUTPUT0 | + GRC_MISC_LOCAL_CTRL_GPIO_OUTPUT1); + MM_Wait (40); + } else { + /* GPIO0 = 0, GPIO1 = 1, GPIO2 = 1. */ + REG_WR (pDevice, Grc.LocalCtrl, pDevice->GrcLocalCtrl | + GRC_MISC_LOCAL_CTRL_GPIO_OE0 | + GRC_MISC_LOCAL_CTRL_GPIO_OE1 | + GRC_MISC_LOCAL_CTRL_GPIO_OE2 | + GRC_MISC_LOCAL_CTRL_GPIO_OUTPUT1 | + GRC_MISC_LOCAL_CTRL_GPIO_OUTPUT2); + MM_Wait (40); + + /* GPIO0 = 1, GPIO1 = 1, GPIO2 = 1. */ + REG_WR (pDevice, Grc.LocalCtrl, pDevice->GrcLocalCtrl | + GRC_MISC_LOCAL_CTRL_GPIO_OE0 | + GRC_MISC_LOCAL_CTRL_GPIO_OE1 | + GRC_MISC_LOCAL_CTRL_GPIO_OE2 | + GRC_MISC_LOCAL_CTRL_GPIO_OUTPUT0 | + GRC_MISC_LOCAL_CTRL_GPIO_OUTPUT1 | + GRC_MISC_LOCAL_CTRL_GPIO_OUTPUT2); + MM_Wait (40); + + /* GPIO0 = 1, GPIO1 = 1, GPIO2 = 0. */ + REG_WR (pDevice, Grc.LocalCtrl, pDevice->GrcLocalCtrl | + GRC_MISC_LOCAL_CTRL_GPIO_OE0 | + GRC_MISC_LOCAL_CTRL_GPIO_OE1 | + GRC_MISC_LOCAL_CTRL_GPIO_OE2 | + GRC_MISC_LOCAL_CTRL_GPIO_OUTPUT0 | + GRC_MISC_LOCAL_CTRL_GPIO_OUTPUT1); + MM_Wait (40); + } + } + + /* Set the phy to low power mode. */ + /* Put the the hardware in low power mode. */ + MM_WriteConfig32 (pDevice, T3_PCI_PM_STATUS_CTRL_REG, PmCtrl); + + return LM_STATUS_SUCCESS; +} /* LM_SetPowerState */ /******************************************************************************/ /* Description: */ /* */ /* Return: */ /******************************************************************************/ -static LM_UINT32 -GetPhyAdFlowCntrlSettings( - PLM_DEVICE_BLOCK pDevice) +static LM_UINT32 GetPhyAdFlowCntrlSettings (PLM_DEVICE_BLOCK pDevice) { - LM_UINT32 Value32; - - Value32 = 0; - - /* Auto negotiation flow control only when autonegotiation is enabled. */ - if(pDevice->DisableAutoNeg == FALSE || - pDevice->RequestedMediaType == LM_REQUESTED_MEDIA_TYPE_AUTO || - pDevice->RequestedMediaType == LM_REQUESTED_MEDIA_TYPE_UTP_AUTO) - { - /* Please refer to Table 28B-3 of the 802.3ab-1999 spec. */ - if((pDevice->FlowControlCap == LM_FLOW_CONTROL_AUTO_PAUSE) || - ((pDevice->FlowControlCap & LM_FLOW_CONTROL_RECEIVE_PAUSE) && - (pDevice->FlowControlCap & LM_FLOW_CONTROL_TRANSMIT_PAUSE))) - { - Value32 |= PHY_AN_AD_PAUSE_CAPABLE; - } - else if(pDevice->FlowControlCap & LM_FLOW_CONTROL_TRANSMIT_PAUSE) - { - Value32 |= PHY_AN_AD_ASYM_PAUSE; - } - else if(pDevice->FlowControlCap & LM_FLOW_CONTROL_RECEIVE_PAUSE) - { - Value32 |= PHY_AN_AD_PAUSE_CAPABLE | PHY_AN_AD_ASYM_PAUSE; + LM_UINT32 Value32; + + Value32 = 0; + + /* Auto negotiation flow control only when autonegotiation is enabled. */ + if (pDevice->DisableAutoNeg == FALSE || + pDevice->RequestedMediaType == LM_REQUESTED_MEDIA_TYPE_AUTO || + pDevice->RequestedMediaType == LM_REQUESTED_MEDIA_TYPE_UTP_AUTO) { + /* Please refer to Table 28B-3 of the 802.3ab-1999 spec. */ + if ((pDevice->FlowControlCap == LM_FLOW_CONTROL_AUTO_PAUSE) || + ((pDevice->FlowControlCap & LM_FLOW_CONTROL_RECEIVE_PAUSE) + && (pDevice-> + FlowControlCap & LM_FLOW_CONTROL_TRANSMIT_PAUSE))) { + Value32 |= PHY_AN_AD_PAUSE_CAPABLE; + } else if (pDevice-> + FlowControlCap & LM_FLOW_CONTROL_TRANSMIT_PAUSE) { + Value32 |= PHY_AN_AD_ASYM_PAUSE; + } else if (pDevice-> + FlowControlCap & LM_FLOW_CONTROL_RECEIVE_PAUSE) { + Value32 |= + PHY_AN_AD_PAUSE_CAPABLE | PHY_AN_AD_ASYM_PAUSE; + } } - } - return Value32; + return Value32; } - /******************************************************************************/ /* Description: */ /* */ @@ -5632,195 +5177,169 @@ GetPhyAdFlowCntrlSettings( /* */ /******************************************************************************/ static LM_STATUS -LM_ForceAutoNegBcm540xPhy( -PLM_DEVICE_BLOCK pDevice, -LM_REQUESTED_MEDIA_TYPE RequestedMediaType) +LM_ForceAutoNegBcm540xPhy (PLM_DEVICE_BLOCK pDevice, + LM_REQUESTED_MEDIA_TYPE RequestedMediaType) { - LM_MEDIA_TYPE MediaType; - LM_LINE_SPEED LineSpeed; - LM_DUPLEX_MODE DuplexMode; - LM_UINT32 NewPhyCtrl; - LM_UINT32 Value32; - LM_UINT32 Cnt; - - /* Get the interface type, line speed, and duplex mode. */ - LM_TranslateRequestedMediaType(RequestedMediaType, &MediaType, &LineSpeed, - &DuplexMode); - - if (pDevice->RestoreOnWakeUp) - { - LM_WritePhy(pDevice, BCM540X_1000BASET_CTRL_REG, 0); - pDevice->advertising1000 = 0; - Value32 = PHY_AN_AD_10BASET_FULL | PHY_AN_AD_10BASET_HALF; - if (pDevice->WolSpeed == WOL_SPEED_100MB) - { - Value32 |= PHY_AN_AD_100BASETX_FULL | PHY_AN_AD_100BASETX_HALF; - } - Value32 |= PHY_AN_AD_PROTOCOL_802_3_CSMA_CD; - Value32 |= GetPhyAdFlowCntrlSettings(pDevice); - LM_WritePhy(pDevice, PHY_AN_AD_REG, Value32); - pDevice->advertising = Value32; - } - /* Setup the auto-negotiation advertisement register. */ - else if(LineSpeed == LM_LINE_SPEED_UNKNOWN) - { - /* Setup the 10/100 Mbps auto-negotiation advertisement register. */ - Value32 = PHY_AN_AD_PROTOCOL_802_3_CSMA_CD | - PHY_AN_AD_10BASET_HALF | PHY_AN_AD_10BASET_FULL | - PHY_AN_AD_100BASETX_FULL | PHY_AN_AD_100BASETX_HALF; - Value32 |= GetPhyAdFlowCntrlSettings(pDevice); - - LM_WritePhy(pDevice, PHY_AN_AD_REG, Value32); - pDevice->advertising = Value32; - - /* Advertise 1000Mbps */ - Value32 = BCM540X_AN_AD_1000BASET_HALF | BCM540X_AN_AD_1000BASET_FULL; + LM_MEDIA_TYPE MediaType; + LM_LINE_SPEED LineSpeed; + LM_DUPLEX_MODE DuplexMode; + LM_UINT32 NewPhyCtrl; + LM_UINT32 Value32; + LM_UINT32 Cnt; + + /* Get the interface type, line speed, and duplex mode. */ + LM_TranslateRequestedMediaType (RequestedMediaType, &MediaType, + &LineSpeed, &DuplexMode); + + if (pDevice->RestoreOnWakeUp) { + LM_WritePhy (pDevice, BCM540X_1000BASET_CTRL_REG, 0); + pDevice->advertising1000 = 0; + Value32 = PHY_AN_AD_10BASET_FULL | PHY_AN_AD_10BASET_HALF; + if (pDevice->WolSpeed == WOL_SPEED_100MB) { + Value32 |= + PHY_AN_AD_100BASETX_FULL | PHY_AN_AD_100BASETX_HALF; + } + Value32 |= PHY_AN_AD_PROTOCOL_802_3_CSMA_CD; + Value32 |= GetPhyAdFlowCntrlSettings (pDevice); + LM_WritePhy (pDevice, PHY_AN_AD_REG, Value32); + pDevice->advertising = Value32; + } + /* Setup the auto-negotiation advertisement register. */ + else if (LineSpeed == LM_LINE_SPEED_UNKNOWN) { + /* Setup the 10/100 Mbps auto-negotiation advertisement register. */ + Value32 = PHY_AN_AD_PROTOCOL_802_3_CSMA_CD | + PHY_AN_AD_10BASET_HALF | PHY_AN_AD_10BASET_FULL | + PHY_AN_AD_100BASETX_FULL | PHY_AN_AD_100BASETX_HALF; + Value32 |= GetPhyAdFlowCntrlSettings (pDevice); + + LM_WritePhy (pDevice, PHY_AN_AD_REG, Value32); + pDevice->advertising = Value32; + + /* Advertise 1000Mbps */ + Value32 = + BCM540X_AN_AD_1000BASET_HALF | BCM540X_AN_AD_1000BASET_FULL; #if INCLUDE_5701_AX_FIX - /* Bug: workaround for CRC error in gigabit mode when we are in */ - /* slave mode. This will force the PHY to operate in */ - /* master mode. */ - if(pDevice->ChipRevId == T3_CHIP_ID_5701_A0 || - pDevice->ChipRevId == T3_CHIP_ID_5701_B0) - { - Value32 |= BCM540X_CONFIG_AS_MASTER | - BCM540X_ENABLE_CONFIG_AS_MASTER; - } + /* Bug: workaround for CRC error in gigabit mode when we are in */ + /* slave mode. This will force the PHY to operate in */ + /* master mode. */ + if (pDevice->ChipRevId == T3_CHIP_ID_5701_A0 || + pDevice->ChipRevId == T3_CHIP_ID_5701_B0) { + Value32 |= BCM540X_CONFIG_AS_MASTER | + BCM540X_ENABLE_CONFIG_AS_MASTER; + } #endif - LM_WritePhy(pDevice, BCM540X_1000BASET_CTRL_REG, Value32); - pDevice->advertising1000 = Value32; - } - else - { - if(LineSpeed == LM_LINE_SPEED_1000MBPS) - { - Value32 = PHY_AN_AD_PROTOCOL_802_3_CSMA_CD; - Value32 |= GetPhyAdFlowCntrlSettings(pDevice); + LM_WritePhy (pDevice, BCM540X_1000BASET_CTRL_REG, Value32); + pDevice->advertising1000 = Value32; + } else { + if (LineSpeed == LM_LINE_SPEED_1000MBPS) { + Value32 = PHY_AN_AD_PROTOCOL_802_3_CSMA_CD; + Value32 |= GetPhyAdFlowCntrlSettings (pDevice); + + LM_WritePhy (pDevice, PHY_AN_AD_REG, Value32); + pDevice->advertising = Value32; + + if (DuplexMode != LM_DUPLEX_MODE_FULL) { + Value32 = BCM540X_AN_AD_1000BASET_HALF; + } else { + Value32 = BCM540X_AN_AD_1000BASET_FULL; + } - LM_WritePhy(pDevice, PHY_AN_AD_REG, Value32); - pDevice->advertising = Value32; + LM_WritePhy (pDevice, BCM540X_1000BASET_CTRL_REG, + Value32); + pDevice->advertising1000 = Value32; + } else if (LineSpeed == LM_LINE_SPEED_100MBPS) { + LM_WritePhy (pDevice, BCM540X_1000BASET_CTRL_REG, 0); + pDevice->advertising1000 = 0; + + if (DuplexMode != LM_DUPLEX_MODE_FULL) { + Value32 = PHY_AN_AD_100BASETX_HALF; + } else { + Value32 = PHY_AN_AD_100BASETX_FULL; + } - if(DuplexMode != LM_DUPLEX_MODE_FULL) - { - Value32 = BCM540X_AN_AD_1000BASET_HALF; - } - else - { - Value32 = BCM540X_AN_AD_1000BASET_FULL; - } + Value32 |= PHY_AN_AD_PROTOCOL_802_3_CSMA_CD; + Value32 |= GetPhyAdFlowCntrlSettings (pDevice); - LM_WritePhy(pDevice, BCM540X_1000BASET_CTRL_REG, Value32); - pDevice->advertising1000 = Value32; - } - else if(LineSpeed == LM_LINE_SPEED_100MBPS) - { - LM_WritePhy(pDevice, BCM540X_1000BASET_CTRL_REG, 0); - pDevice->advertising1000 = 0; + LM_WritePhy (pDevice, PHY_AN_AD_REG, Value32); + pDevice->advertising = Value32; + } else if (LineSpeed == LM_LINE_SPEED_10MBPS) { + LM_WritePhy (pDevice, BCM540X_1000BASET_CTRL_REG, 0); + pDevice->advertising1000 = 0; - if(DuplexMode != LM_DUPLEX_MODE_FULL) - { - Value32 = PHY_AN_AD_100BASETX_HALF; - } - else - { - Value32 = PHY_AN_AD_100BASETX_FULL; - } + if (DuplexMode != LM_DUPLEX_MODE_FULL) { + Value32 = PHY_AN_AD_10BASET_HALF; + } else { + Value32 = PHY_AN_AD_10BASET_FULL; + } - Value32 |= PHY_AN_AD_PROTOCOL_802_3_CSMA_CD; - Value32 |= GetPhyAdFlowCntrlSettings(pDevice); + Value32 |= PHY_AN_AD_PROTOCOL_802_3_CSMA_CD; + Value32 |= GetPhyAdFlowCntrlSettings (pDevice); - LM_WritePhy(pDevice, PHY_AN_AD_REG, Value32); - pDevice->advertising = Value32; - } - else if(LineSpeed == LM_LINE_SPEED_10MBPS) - { - LM_WritePhy(pDevice, BCM540X_1000BASET_CTRL_REG, 0); - pDevice->advertising1000 = 0; - - if(DuplexMode != LM_DUPLEX_MODE_FULL) - { - Value32 = PHY_AN_AD_10BASET_HALF; - } - else - { - Value32 = PHY_AN_AD_10BASET_FULL; - } - - Value32 |= PHY_AN_AD_PROTOCOL_802_3_CSMA_CD; - Value32 |= GetPhyAdFlowCntrlSettings(pDevice); - - LM_WritePhy(pDevice, PHY_AN_AD_REG, Value32); - pDevice->advertising = Value32; - } - } - - /* Force line speed if auto-negotiation is disabled. */ - if(pDevice->DisableAutoNeg && LineSpeed != LM_LINE_SPEED_UNKNOWN) - { - /* This code path is executed only when there is link. */ - pDevice->MediaType = MediaType; - pDevice->LineSpeed = LineSpeed; - pDevice->DuplexMode = DuplexMode; - - /* Force line seepd. */ - NewPhyCtrl = 0; - switch(LineSpeed) - { - case LM_LINE_SPEED_10MBPS: - NewPhyCtrl |= PHY_CTRL_SPEED_SELECT_10MBPS; - break; - case LM_LINE_SPEED_100MBPS: - NewPhyCtrl |= PHY_CTRL_SPEED_SELECT_100MBPS; - break; - case LM_LINE_SPEED_1000MBPS: - NewPhyCtrl |= PHY_CTRL_SPEED_SELECT_1000MBPS; - break; - default: - NewPhyCtrl |= PHY_CTRL_SPEED_SELECT_1000MBPS; - break; + LM_WritePhy (pDevice, PHY_AN_AD_REG, Value32); + pDevice->advertising = Value32; + } } - if(DuplexMode == LM_DUPLEX_MODE_FULL) - { - NewPhyCtrl |= PHY_CTRL_FULL_DUPLEX_MODE; - } + /* Force line speed if auto-negotiation is disabled. */ + if (pDevice->DisableAutoNeg && LineSpeed != LM_LINE_SPEED_UNKNOWN) { + /* This code path is executed only when there is link. */ + pDevice->MediaType = MediaType; + pDevice->LineSpeed = LineSpeed; + pDevice->DuplexMode = DuplexMode; - /* Don't do anything if the PHY_CTRL is already what we wanted. */ - LM_ReadPhy(pDevice, PHY_CTRL_REG, &Value32); - if(Value32 != NewPhyCtrl) - { - /* Temporary bring the link down before forcing line speed. */ - LM_WritePhy(pDevice, PHY_CTRL_REG, PHY_CTRL_LOOPBACK_MODE); + /* Force line seepd. */ + NewPhyCtrl = 0; + switch (LineSpeed) { + case LM_LINE_SPEED_10MBPS: + NewPhyCtrl |= PHY_CTRL_SPEED_SELECT_10MBPS; + break; + case LM_LINE_SPEED_100MBPS: + NewPhyCtrl |= PHY_CTRL_SPEED_SELECT_100MBPS; + break; + case LM_LINE_SPEED_1000MBPS: + NewPhyCtrl |= PHY_CTRL_SPEED_SELECT_1000MBPS; + break; + default: + NewPhyCtrl |= PHY_CTRL_SPEED_SELECT_1000MBPS; + break; + } - /* Wait for link to go down. */ - for(Cnt = 0; Cnt < 15000; Cnt++) - { - MM_Wait(10); + if (DuplexMode == LM_DUPLEX_MODE_FULL) { + NewPhyCtrl |= PHY_CTRL_FULL_DUPLEX_MODE; + } - LM_ReadPhy(pDevice, PHY_STATUS_REG, &Value32); - LM_ReadPhy(pDevice, PHY_STATUS_REG, &Value32); + /* Don't do anything if the PHY_CTRL is already what we wanted. */ + LM_ReadPhy (pDevice, PHY_CTRL_REG, &Value32); + if (Value32 != NewPhyCtrl) { + /* Temporary bring the link down before forcing line speed. */ + LM_WritePhy (pDevice, PHY_CTRL_REG, + PHY_CTRL_LOOPBACK_MODE); - if(!(Value32 & PHY_STATUS_LINK_PASS)) - { - MM_Wait(40); - break; - } - } + /* Wait for link to go down. */ + for (Cnt = 0; Cnt < 15000; Cnt++) { + MM_Wait (10); - LM_WritePhy(pDevice, PHY_CTRL_REG, NewPhyCtrl); - MM_Wait(40); - } - } - else - { - LM_WritePhy(pDevice, PHY_CTRL_REG, PHY_CTRL_AUTO_NEG_ENABLE | - PHY_CTRL_RESTART_AUTO_NEG); - } + LM_ReadPhy (pDevice, PHY_STATUS_REG, &Value32); + LM_ReadPhy (pDevice, PHY_STATUS_REG, &Value32); + + if (!(Value32 & PHY_STATUS_LINK_PASS)) { + MM_Wait (40); + break; + } + } - return LM_STATUS_SUCCESS; -} /* LM_ForceAutoNegBcm540xPhy */ + LM_WritePhy (pDevice, PHY_CTRL_REG, NewPhyCtrl); + MM_Wait (40); + } + } else { + LM_WritePhy (pDevice, PHY_CTRL_REG, PHY_CTRL_AUTO_NEG_ENABLE | + PHY_CTRL_RESTART_AUTO_NEG); + } + return LM_STATUS_SUCCESS; +} /* LM_ForceAutoNegBcm540xPhy */ /******************************************************************************/ /* Description: */ @@ -5828,218 +5347,199 @@ LM_REQUESTED_MEDIA_TYPE RequestedMediaType) /* Return: */ /******************************************************************************/ static LM_STATUS -LM_ForceAutoNeg( -PLM_DEVICE_BLOCK pDevice, -LM_REQUESTED_MEDIA_TYPE RequestedMediaType) +LM_ForceAutoNeg (PLM_DEVICE_BLOCK pDevice, + LM_REQUESTED_MEDIA_TYPE RequestedMediaType) { - LM_STATUS LmStatus; + LM_STATUS LmStatus; - /* Initialize the phy chip. */ - switch(pDevice->PhyId & PHY_ID_MASK) - { + /* Initialize the phy chip. */ + switch (pDevice->PhyId & PHY_ID_MASK) { case PHY_BCM5400_PHY_ID: case PHY_BCM5401_PHY_ID: case PHY_BCM5411_PHY_ID: case PHY_BCM5701_PHY_ID: case PHY_BCM5703_PHY_ID: case PHY_BCM5704_PHY_ID: - LmStatus = LM_ForceAutoNegBcm540xPhy(pDevice, RequestedMediaType); - break; + LmStatus = + LM_ForceAutoNegBcm540xPhy (pDevice, RequestedMediaType); + break; default: - LmStatus = LM_STATUS_FAILURE; - break; - } + LmStatus = LM_STATUS_FAILURE; + break; + } - return LmStatus; -} /* LM_ForceAutoNeg */ + return LmStatus; +} /* LM_ForceAutoNeg */ /******************************************************************************/ /* Description: */ /* */ /* Return: */ /******************************************************************************/ -LM_STATUS LM_LoadFirmware(PLM_DEVICE_BLOCK pDevice, - PT3_FWIMG_INFO pFwImg, - LM_UINT32 LoadCpu, - LM_UINT32 StartCpu) +LM_STATUS LM_LoadFirmware (PLM_DEVICE_BLOCK pDevice, + PT3_FWIMG_INFO pFwImg, + LM_UINT32 LoadCpu, LM_UINT32 StartCpu) { - LM_UINT32 i; - LM_UINT32 address; + LM_UINT32 i; + LM_UINT32 address; - if (LoadCpu & T3_RX_CPU_ID) - { - if (LM_HaltCpu(pDevice,T3_RX_CPU_ID) != LM_STATUS_SUCCESS) - { - return LM_STATUS_FAILURE; - } + if (LoadCpu & T3_RX_CPU_ID) { + if (LM_HaltCpu (pDevice, T3_RX_CPU_ID) != LM_STATUS_SUCCESS) { + return LM_STATUS_FAILURE; + } - /* First of all clear scrach pad memory */ - for (i = 0; i < T3_RX_CPU_SPAD_SIZE; i+=4) - { - LM_RegWrInd(pDevice,T3_RX_CPU_SPAD_ADDR+i,0); - } + /* First of all clear scrach pad memory */ + for (i = 0; i < T3_RX_CPU_SPAD_SIZE; i += 4) { + LM_RegWrInd (pDevice, T3_RX_CPU_SPAD_ADDR + i, 0); + } - /* Copy code first */ - address = T3_RX_CPU_SPAD_ADDR + (pFwImg->Text.Offset & 0xffff); - for (i = 0; i <= pFwImg->Text.Length; i+=4) - { - LM_RegWrInd(pDevice,address+i, - ((LM_UINT32 *)pFwImg->Text.Buffer)[i/4]); - } + /* Copy code first */ + address = T3_RX_CPU_SPAD_ADDR + (pFwImg->Text.Offset & 0xffff); + for (i = 0; i <= pFwImg->Text.Length; i += 4) { + LM_RegWrInd (pDevice, address + i, + ((LM_UINT32 *) pFwImg->Text.Buffer)[i / + 4]); + } - address = T3_RX_CPU_SPAD_ADDR + (pFwImg->ROnlyData.Offset & 0xffff); - for (i = 0; i <= pFwImg->ROnlyData.Length; i+=4) - { - LM_RegWrInd(pDevice,address+i, - ((LM_UINT32 *)pFwImg->ROnlyData.Buffer)[i/4]); - } + address = + T3_RX_CPU_SPAD_ADDR + (pFwImg->ROnlyData.Offset & 0xffff); + for (i = 0; i <= pFwImg->ROnlyData.Length; i += 4) { + LM_RegWrInd (pDevice, address + i, + ((LM_UINT32 *) pFwImg->ROnlyData. + Buffer)[i / 4]); + } - address = T3_RX_CPU_SPAD_ADDR + (pFwImg->Data.Offset & 0xffff); - for (i= 0; i <= pFwImg->Data.Length; i+=4) - { - LM_RegWrInd(pDevice,address+i, - ((LM_UINT32 *)pFwImg->Data.Buffer)[i/4]); + address = T3_RX_CPU_SPAD_ADDR + (pFwImg->Data.Offset & 0xffff); + for (i = 0; i <= pFwImg->Data.Length; i += 4) { + LM_RegWrInd (pDevice, address + i, + ((LM_UINT32 *) pFwImg->Data.Buffer)[i / + 4]); + } } - } - if (LoadCpu & T3_TX_CPU_ID) - { - if (LM_HaltCpu(pDevice,T3_TX_CPU_ID) != LM_STATUS_SUCCESS) - { - return LM_STATUS_FAILURE; - } + if (LoadCpu & T3_TX_CPU_ID) { + if (LM_HaltCpu (pDevice, T3_TX_CPU_ID) != LM_STATUS_SUCCESS) { + return LM_STATUS_FAILURE; + } - /* First of all clear scrach pad memory */ - for (i = 0; i < T3_TX_CPU_SPAD_SIZE; i+=4) - { - LM_RegWrInd(pDevice,T3_TX_CPU_SPAD_ADDR+i,0); - } + /* First of all clear scrach pad memory */ + for (i = 0; i < T3_TX_CPU_SPAD_SIZE; i += 4) { + LM_RegWrInd (pDevice, T3_TX_CPU_SPAD_ADDR + i, 0); + } - /* Copy code first */ - address = T3_TX_CPU_SPAD_ADDR + (pFwImg->Text.Offset & 0xffff); - for (i= 0; i <= pFwImg->Text.Length; i+=4) - { - LM_RegWrInd(pDevice,address+i, - ((LM_UINT32 *)pFwImg->Text.Buffer)[i/4]); - } + /* Copy code first */ + address = T3_TX_CPU_SPAD_ADDR + (pFwImg->Text.Offset & 0xffff); + for (i = 0; i <= pFwImg->Text.Length; i += 4) { + LM_RegWrInd (pDevice, address + i, + ((LM_UINT32 *) pFwImg->Text.Buffer)[i / + 4]); + } - address = T3_TX_CPU_SPAD_ADDR + (pFwImg->ROnlyData.Offset & 0xffff); - for (i= 0; i <= pFwImg->ROnlyData.Length; i+=4) - { - LM_RegWrInd(pDevice,address+i, - ((LM_UINT32 *)pFwImg->ROnlyData.Buffer)[i/4]); - } + address = + T3_TX_CPU_SPAD_ADDR + (pFwImg->ROnlyData.Offset & 0xffff); + for (i = 0; i <= pFwImg->ROnlyData.Length; i += 4) { + LM_RegWrInd (pDevice, address + i, + ((LM_UINT32 *) pFwImg->ROnlyData. + Buffer)[i / 4]); + } - address = T3_TX_CPU_SPAD_ADDR + (pFwImg->Data.Offset & 0xffff); - for (i= 0; i <= pFwImg->Data.Length; i+=4) - { - LM_RegWrInd(pDevice,address+i, - ((LM_UINT32 *)pFwImg->Data.Buffer)[i/4]); + address = T3_TX_CPU_SPAD_ADDR + (pFwImg->Data.Offset & 0xffff); + for (i = 0; i <= pFwImg->Data.Length; i += 4) { + LM_RegWrInd (pDevice, address + i, + ((LM_UINT32 *) pFwImg->Data.Buffer)[i / + 4]); + } } - } - if (StartCpu & T3_RX_CPU_ID) - { - /* Start Rx CPU */ - REG_WR(pDevice,rxCpu.reg.state, 0xffffffff); - REG_WR(pDevice,rxCpu.reg.PC,pFwImg->StartAddress); - for (i = 0 ; i < 5; i++) - { - if (pFwImg->StartAddress == REG_RD(pDevice,rxCpu.reg.PC)) - break; + if (StartCpu & T3_RX_CPU_ID) { + /* Start Rx CPU */ + REG_WR (pDevice, rxCpu.reg.state, 0xffffffff); + REG_WR (pDevice, rxCpu.reg.PC, pFwImg->StartAddress); + for (i = 0; i < 5; i++) { + if (pFwImg->StartAddress == + REG_RD (pDevice, rxCpu.reg.PC)) + break; - REG_WR(pDevice,rxCpu.reg.state, 0xffffffff); - REG_WR(pDevice,rxCpu.reg.mode,CPU_MODE_HALT); - REG_WR(pDevice,rxCpu.reg.PC,pFwImg->StartAddress); - MM_Wait(1000); + REG_WR (pDevice, rxCpu.reg.state, 0xffffffff); + REG_WR (pDevice, rxCpu.reg.mode, CPU_MODE_HALT); + REG_WR (pDevice, rxCpu.reg.PC, pFwImg->StartAddress); + MM_Wait (1000); + } + + REG_WR (pDevice, rxCpu.reg.state, 0xffffffff); + REG_WR (pDevice, rxCpu.reg.mode, 0); } - REG_WR(pDevice,rxCpu.reg.state, 0xffffffff); - REG_WR(pDevice,rxCpu.reg.mode, 0); - } + if (StartCpu & T3_TX_CPU_ID) { + /* Start Tx CPU */ + REG_WR (pDevice, txCpu.reg.state, 0xffffffff); + REG_WR (pDevice, txCpu.reg.PC, pFwImg->StartAddress); + for (i = 0; i < 5; i++) { + if (pFwImg->StartAddress == + REG_RD (pDevice, txCpu.reg.PC)) + break; - if (StartCpu & T3_TX_CPU_ID) - { - /* Start Tx CPU */ - REG_WR(pDevice,txCpu.reg.state, 0xffffffff); - REG_WR(pDevice,txCpu.reg.PC,pFwImg->StartAddress); - for (i = 0 ; i < 5; i++) - { - if (pFwImg->StartAddress == REG_RD(pDevice,txCpu.reg.PC)) - break; + REG_WR (pDevice, txCpu.reg.state, 0xffffffff); + REG_WR (pDevice, txCpu.reg.mode, CPU_MODE_HALT); + REG_WR (pDevice, txCpu.reg.PC, pFwImg->StartAddress); + MM_Wait (1000); + } - REG_WR(pDevice,txCpu.reg.state, 0xffffffff); - REG_WR(pDevice,txCpu.reg.mode,CPU_MODE_HALT); - REG_WR(pDevice,txCpu.reg.PC,pFwImg->StartAddress); - MM_Wait(1000); + REG_WR (pDevice, txCpu.reg.state, 0xffffffff); + REG_WR (pDevice, txCpu.reg.mode, 0); } - REG_WR(pDevice,txCpu.reg.state, 0xffffffff); - REG_WR(pDevice,txCpu.reg.mode, 0); - } - - return LM_STATUS_SUCCESS; + return LM_STATUS_SUCCESS; } -STATIC LM_STATUS LM_HaltCpu(PLM_DEVICE_BLOCK pDevice,LM_UINT32 cpu_number) +STATIC LM_STATUS LM_HaltCpu (PLM_DEVICE_BLOCK pDevice, LM_UINT32 cpu_number) { - LM_UINT32 i; + LM_UINT32 i; - if (cpu_number == T3_RX_CPU_ID) - { - for (i = 0 ; i < 10000; i++) - { - REG_WR(pDevice,rxCpu.reg.state, 0xffffffff); - REG_WR(pDevice,rxCpu.reg.mode,CPU_MODE_HALT); + if (cpu_number == T3_RX_CPU_ID) { + for (i = 0; i < 10000; i++) { + REG_WR (pDevice, rxCpu.reg.state, 0xffffffff); + REG_WR (pDevice, rxCpu.reg.mode, CPU_MODE_HALT); - if (REG_RD(pDevice,rxCpu.reg.mode) & CPU_MODE_HALT) - break; - } + if (REG_RD (pDevice, rxCpu.reg.mode) & CPU_MODE_HALT) + break; + } - REG_WR(pDevice,rxCpu.reg.state, 0xffffffff); - REG_WR(pDevice,rxCpu.reg.mode,CPU_MODE_HALT); - MM_Wait(10); - } - else - { - for (i = 0 ; i < 10000; i++) - { - REG_WR(pDevice,txCpu.reg.state, 0xffffffff); - REG_WR(pDevice,txCpu.reg.mode,CPU_MODE_HALT); + REG_WR (pDevice, rxCpu.reg.state, 0xffffffff); + REG_WR (pDevice, rxCpu.reg.mode, CPU_MODE_HALT); + MM_Wait (10); + } else { + for (i = 0; i < 10000; i++) { + REG_WR (pDevice, txCpu.reg.state, 0xffffffff); + REG_WR (pDevice, txCpu.reg.mode, CPU_MODE_HALT); - if (REG_RD(pDevice,txCpu.reg.mode) & CPU_MODE_HALT) - break; + if (REG_RD (pDevice, txCpu.reg.mode) & CPU_MODE_HALT) + break; + } } - } - return (( i == 10000) ? LM_STATUS_FAILURE : LM_STATUS_SUCCESS); + return ((i == 10000) ? LM_STATUS_FAILURE : LM_STATUS_SUCCESS); } - -int -LM_BlinkLED(PLM_DEVICE_BLOCK pDevice, LM_UINT32 BlinkDurationSec) +int LM_BlinkLED (PLM_DEVICE_BLOCK pDevice, LM_UINT32 BlinkDurationSec) { LM_UINT32 Oldcfg; int j; int ret = 0; - if(BlinkDurationSec == 0) - { + if (BlinkDurationSec == 0) { return 0; } - if(BlinkDurationSec > 120) - { + if (BlinkDurationSec > 120) { BlinkDurationSec = 120; } - Oldcfg = REG_RD(pDevice, MacCtrl.LedCtrl); - for(j = 0; j < BlinkDurationSec * 2; j++) - { - if(j % 2) - { + Oldcfg = REG_RD (pDevice, MacCtrl.LedCtrl); + for (j = 0; j < BlinkDurationSec * 2; j++) { + if (j % 2) { /* Turn on the LEDs. */ - REG_WR(pDevice, MacCtrl.LedCtrl, + REG_WR (pDevice, MacCtrl.LedCtrl, LED_CTRL_OVERRIDE_LINK_LED | LED_CTRL_1000MBPS_LED_ON | LED_CTRL_100MBPS_LED_ON | @@ -6047,154 +5547,153 @@ LM_BlinkLED(PLM_DEVICE_BLOCK pDevice, LM_UINT32 BlinkDurationSec) LED_CTRL_OVERRIDE_TRAFFIC_LED | LED_CTRL_BLINK_TRAFFIC_LED | LED_CTRL_TRAFFIC_LED); - } - else - { + } else { /* Turn off the LEDs. */ - REG_WR(pDevice, MacCtrl.LedCtrl, + REG_WR (pDevice, MacCtrl.LedCtrl, LED_CTRL_OVERRIDE_LINK_LED | LED_CTRL_OVERRIDE_TRAFFIC_LED); } #ifndef EMBEDDED current->state = TASK_INTERRUPTIBLE; - if (schedule_timeout(HZ/2) != 0) { + if (schedule_timeout (HZ / 2) != 0) { ret = -EINTR; break; } #else - udelay(100000); /* 1s sleep */ + udelay (100000); /* 1s sleep */ #endif } - REG_WR(pDevice, MacCtrl.LedCtrl, Oldcfg); + REG_WR (pDevice, MacCtrl.LedCtrl, Oldcfg); return ret; } -int t3_do_dma(PLM_DEVICE_BLOCK pDevice, - LM_PHYSICAL_ADDRESS host_addr_phy, int length, - int dma_read) +int t3_do_dma (PLM_DEVICE_BLOCK pDevice, + LM_PHYSICAL_ADDRESS host_addr_phy, int length, int dma_read) { - T3_DMA_DESC dma_desc; - int i; - LM_UINT32 dma_desc_addr; - LM_UINT32 value32; - - REG_WR(pDevice, BufMgr.Mode, 0); - REG_WR(pDevice, Ftq.Reset, 0); - - dma_desc.host_addr.High = host_addr_phy.High; - dma_desc.host_addr.Low = host_addr_phy.Low; - dma_desc.nic_mbuf = 0x2100; - dma_desc.len = length; - dma_desc.flags = 0x00000004; /* Generate Rx-CPU event */ - - if (dma_read) - { - dma_desc.cqid_sqid = (T3_QID_RX_BD_COMP << 8) | - T3_QID_DMA_HIGH_PRI_READ; - REG_WR(pDevice, DmaRead.Mode, DMA_READ_MODE_ENABLE); - } - else - { - dma_desc.cqid_sqid = (T3_QID_RX_DATA_COMP << 8) | - T3_QID_DMA_HIGH_PRI_WRITE; - REG_WR(pDevice, DmaWrite.Mode, DMA_WRITE_MODE_ENABLE); - } - - dma_desc_addr = T3_NIC_DMA_DESC_POOL_ADDR; - - /* Writing this DMA descriptor to DMA memory */ - for (i = 0; i < sizeof(T3_DMA_DESC); i += 4) - { - value32 = *((PLM_UINT32) (((PLM_UINT8) &dma_desc) + i)); - MM_WriteConfig32(pDevice, T3_PCI_MEM_WIN_ADDR_REG, dma_desc_addr+i); - MM_WriteConfig32(pDevice, T3_PCI_MEM_WIN_DATA_REG, cpu_to_le32(value32)); - } - MM_WriteConfig32(pDevice, T3_PCI_MEM_WIN_ADDR_REG, 0); - - if (dma_read) - REG_WR(pDevice, Ftq.DmaHighReadFtqFifoEnqueueDequeue, dma_desc_addr); - else - REG_WR(pDevice, Ftq.DmaHighWriteFtqFifoEnqueueDequeue, dma_desc_addr); - - for (i = 0; i < 40; i++) - { + T3_DMA_DESC dma_desc; + int i; + LM_UINT32 dma_desc_addr; + LM_UINT32 value32; + + REG_WR (pDevice, BufMgr.Mode, 0); + REG_WR (pDevice, Ftq.Reset, 0); + + dma_desc.host_addr.High = host_addr_phy.High; + dma_desc.host_addr.Low = host_addr_phy.Low; + dma_desc.nic_mbuf = 0x2100; + dma_desc.len = length; + dma_desc.flags = 0x00000004; /* Generate Rx-CPU event */ + + if (dma_read) { + dma_desc.cqid_sqid = (T3_QID_RX_BD_COMP << 8) | + T3_QID_DMA_HIGH_PRI_READ; + REG_WR (pDevice, DmaRead.Mode, DMA_READ_MODE_ENABLE); + } else { + dma_desc.cqid_sqid = (T3_QID_RX_DATA_COMP << 8) | + T3_QID_DMA_HIGH_PRI_WRITE; + REG_WR (pDevice, DmaWrite.Mode, DMA_WRITE_MODE_ENABLE); + } + + dma_desc_addr = T3_NIC_DMA_DESC_POOL_ADDR; + + /* Writing this DMA descriptor to DMA memory */ + for (i = 0; i < sizeof (T3_DMA_DESC); i += 4) { + value32 = *((PLM_UINT32) (((PLM_UINT8) & dma_desc) + i)); + MM_WriteConfig32 (pDevice, T3_PCI_MEM_WIN_ADDR_REG, + dma_desc_addr + i); + MM_WriteConfig32 (pDevice, T3_PCI_MEM_WIN_DATA_REG, + cpu_to_le32 (value32)); + } + MM_WriteConfig32 (pDevice, T3_PCI_MEM_WIN_ADDR_REG, 0); + if (dma_read) - value32 = REG_RD(pDevice, Ftq.RcvBdCompFtqFifoEnqueueDequeue); + REG_WR (pDevice, Ftq.DmaHighReadFtqFifoEnqueueDequeue, + dma_desc_addr); else - value32 = REG_RD(pDevice, Ftq.RcvDataCompFtqFifoEnqueueDequeue); + REG_WR (pDevice, Ftq.DmaHighWriteFtqFifoEnqueueDequeue, + dma_desc_addr); + + for (i = 0; i < 40; i++) { + if (dma_read) + value32 = + REG_RD (pDevice, + Ftq.RcvBdCompFtqFifoEnqueueDequeue); + else + value32 = + REG_RD (pDevice, + Ftq.RcvDataCompFtqFifoEnqueueDequeue); - if ((value32 & 0xffff) == dma_desc_addr) - break; + if ((value32 & 0xffff) == dma_desc_addr) + break; - MM_Wait(10); - } + MM_Wait (10); + } - return LM_STATUS_SUCCESS; + return LM_STATUS_SUCCESS; } STATIC LM_STATUS -LM_DmaTest(PLM_DEVICE_BLOCK pDevice, PLM_UINT8 pBufferVirt, - LM_PHYSICAL_ADDRESS BufferPhy, LM_UINT32 BufferSize) +LM_DmaTest (PLM_DEVICE_BLOCK pDevice, PLM_UINT8 pBufferVirt, + LM_PHYSICAL_ADDRESS BufferPhy, LM_UINT32 BufferSize) { - int j; - LM_UINT32 *ptr; - int dma_success = 0; + int j; + LM_UINT32 *ptr; + int dma_success = 0; + + if (T3_ASIC_REV (pDevice->ChipRevId) != T3_ASIC_REV_5700 && + T3_ASIC_REV (pDevice->ChipRevId) != T3_ASIC_REV_5701) { + return LM_STATUS_SUCCESS; + } + while (!dma_success) { + /* Fill data with incremental patterns */ + ptr = (LM_UINT32 *) pBufferVirt; + for (j = 0; j < BufferSize / 4; j++) + *ptr++ = j; + + if (t3_do_dma (pDevice, BufferPhy, BufferSize, 1) == + LM_STATUS_FAILURE) { + return LM_STATUS_FAILURE; + } - if(T3_ASIC_REV(pDevice->ChipRevId) != T3_ASIC_REV_5700 && - T3_ASIC_REV(pDevice->ChipRevId) != T3_ASIC_REV_5701) - { - return LM_STATUS_SUCCESS; - } - while (!dma_success) - { - /* Fill data with incremental patterns */ - ptr = (LM_UINT32 *)pBufferVirt; - for (j = 0; j < BufferSize/4; j++) - *ptr++ = j; - - if (t3_do_dma(pDevice,BufferPhy,BufferSize, 1) == LM_STATUS_FAILURE) - { - return LM_STATUS_FAILURE; - } + MM_Wait (40); + ptr = (LM_UINT32 *) pBufferVirt; + /* Fill data with zero */ + for (j = 0; j < BufferSize / 4; j++) + *ptr++ = 0; - MM_Wait(40); - ptr = (LM_UINT32 *)pBufferVirt; - /* Fill data with zero */ - for (j = 0; j < BufferSize/4; j++) - *ptr++ = 0; + if (t3_do_dma (pDevice, BufferPhy, BufferSize, 0) == + LM_STATUS_FAILURE) { + return LM_STATUS_FAILURE; + } - if (t3_do_dma(pDevice,BufferPhy,BufferSize, 0) == LM_STATUS_FAILURE) - { - return LM_STATUS_FAILURE; + MM_Wait (40); + /* Check for data */ + ptr = (LM_UINT32 *) pBufferVirt; + for (j = 0; j < BufferSize / 4; j++) { + if (*ptr++ != j) { + if ((pDevice-> + DmaReadWriteCtrl & + DMA_CTRL_WRITE_BOUNDARY_MASK) + == DMA_CTRL_WRITE_BOUNDARY_DISABLE) { + pDevice->DmaReadWriteCtrl = + (pDevice-> + DmaReadWriteCtrl & + ~DMA_CTRL_WRITE_BOUNDARY_MASK) | + DMA_CTRL_WRITE_BOUNDARY_16; + REG_WR (pDevice, + PciCfg.DmaReadWriteCtrl, + pDevice->DmaReadWriteCtrl); + break; + } else { + return LM_STATUS_FAILURE; + } + } + } + if (j == (BufferSize / 4)) + dma_success = 1; } - - MM_Wait(40); - /* Check for data */ - ptr = (LM_UINT32 *)pBufferVirt; - for (j = 0; j < BufferSize/4; j++) - { - if (*ptr++ != j) - { - if ((pDevice->DmaReadWriteCtrl & DMA_CTRL_WRITE_BOUNDARY_MASK) - == DMA_CTRL_WRITE_BOUNDARY_DISABLE) - { - pDevice->DmaReadWriteCtrl = (pDevice->DmaReadWriteCtrl & - ~DMA_CTRL_WRITE_BOUNDARY_MASK) | - DMA_CTRL_WRITE_BOUNDARY_16; - REG_WR(pDevice, PciCfg.DmaReadWriteCtrl, - pDevice->DmaReadWriteCtrl); - break; - } - else - { - return LM_STATUS_FAILURE; - } - } - } - if (j == (BufferSize/4)) - dma_success = 1; - } - return LM_STATUS_SUCCESS; + return LM_STATUS_SUCCESS; } -#endif /* CFG_CMD_NET, !CONFIG_NET_MULTI, CONFIG_TIGON3 */ + +#endif diff --git a/drivers/tigon3.h b/drivers/tigon3.h index ea4367d..c03347f 100644 --- a/drivers/tigon3.h +++ b/drivers/tigon3.h @@ -21,7 +21,6 @@ #include "bcm570x_autoneg.h" #endif - /* io defines */ #if !defined(BIG_ENDIAN_HOST) #define readl(addr) \ @@ -29,7 +28,7 @@ #define writel(b,addr) \ ((*(volatile unsigned int *)(addr)) = (LONGSWAP(b))) #else -#if 0 /* !defined(PPC603) */ +#if 0 /* !defined(PPC603) */ #define readl(addr) (*(volatile unsigned int*)(0xa0000000 + (unsigned long)(addr))) #define writel(b,addr) ((*(volatile unsigned int *) ((unsigned long)(addr) + 0xa0000000)) = (b)) #else @@ -37,25 +36,28 @@ #define readl(addr) (*(volatile unsigned int*)(addr)) #define writel(b,addr) ((*(volatile unsigned int *) (addr)) = (b)) #else -extern int sprintf(char* buf, const char* f, ...); -static __inline unsigned int readl(void* addr){ - char buf[128]; - unsigned int tmp = (*(volatile unsigned int*)(addr)); - sprintf(buf,"%s:%s: read 0x%x from 0x%x\n",__FILE__,__LINE__,tmp,addr,0,0); - sysSerialPrintString(buf); - return tmp; +extern int sprintf (char *buf, const char *f, ...); +static __inline unsigned int readl (void *addr) +{ + char buf[128]; + unsigned int tmp = (*(volatile unsigned int *)(addr)); + sprintf (buf, "%s:%s: read 0x%x from 0x%x\n", __FILE__, __LINE__, tmp, + addr, 0, 0); + sysSerialPrintString (buf); + return tmp; } -static __inline void writel(unsigned int b, unsigned int addr){ - char buf[128]; - ((*(volatile unsigned int *) (addr)) = (b)); - sprintf(buf,"%s:%s: write 0x%x to 0x%x\n",__FILE__,__LINE__,b,addr,0,0); - sysSerialPrintString(buf); +static __inline void writel (unsigned int b, unsigned int addr) +{ + char buf[128]; + ((*(volatile unsigned int *)(addr)) = (b)); + sprintf (buf, "%s:%s: write 0x%x to 0x%x\n", __FILE__, __LINE__, b, + addr, 0, 0); + sysSerialPrintString (buf); } #endif -#endif /* PPC603 */ +#endif /* PPC603 */ #endif - /******************************************************************************/ /* Constants. */ /******************************************************************************/ @@ -90,7 +92,7 @@ static __inline void writel(unsigned int b, unsigned int addr){ /* B0 bug. */ #define BCM5700_BX_MIN_FRAG_SIZE 10 -#define BCM5700_BX_MIN_FRAG_BUF_SIZE 16 /* nice aligned size. */ +#define BCM5700_BX_MIN_FRAG_BUF_SIZE 16 /* nice aligned size. */ #define BCM5700_BX_MIN_FRAG_BUF_SIZE_MASK (BCM5700_BX_MIN_FRAG_BUF_SIZE-1) #define BCM5700_BX_TX_COPY_BUF_SIZE (BCM5700_BX_MIN_FRAG_BUF_SIZE * \ MAX_FRAGMENT_COUNT) @@ -161,32 +163,32 @@ static __inline void writel(unsigned int b, unsigned int addr){ /* Number of entries in the Standard Receive RCB. Must be 512 entries. */ #define T3_STD_RCV_RCB_ENTRY_COUNT 512 #define T3_STD_RCV_RCB_ENTRY_COUNT_MASK (T3_STD_RCV_RCB_ENTRY_COUNT-1) -#define DEFAULT_STD_RCV_DESC_COUNT 200 /* Must be < 512. */ +#define DEFAULT_STD_RCV_DESC_COUNT 200 /* Must be < 512. */ #define MAX_STD_RCV_BUFFER_SIZE 0x600 /* Number of entries in the Mini Receive RCB. This value can either be */ /* 0, 1024. Currently Mini Receive RCB is disabled. */ #ifndef T3_MINI_RCV_RCB_ENTRY_COUNT #define T3_MINI_RCV_RCB_ENTRY_COUNT 0 -#endif /* T3_MINI_RCV_RCB_ENTRY_COUNT */ +#endif /* T3_MINI_RCV_RCB_ENTRY_COUNT */ #define T3_MINI_RCV_RCB_ENTRY_COUNT_MASK (T3_MINI_RCV_RCB_ENTRY_COUNT-1) #define MAX_MINI_RCV_BUFFER_SIZE 512 #define DEFAULT_MINI_RCV_BUFFER_SIZE 64 -#define DEFAULT_MINI_RCV_DESC_COUNT 100 /* Must be < 1024. */ +#define DEFAULT_MINI_RCV_DESC_COUNT 100 /* Must be < 1024. */ /* Number of entries in the Jumbo Receive RCB. This value must 256 or 0. */ /* Currently, Jumbo Receive RCB is disabled. */ #ifndef T3_JUMBO_RCV_RCB_ENTRY_COUNT #define T3_JUMBO_RCV_RCB_ENTRY_COUNT 0 -#endif /* T3_JUMBO_RCV_RCB_ENTRY_COUNT */ +#endif /* T3_JUMBO_RCV_RCB_ENTRY_COUNT */ #define T3_JUMBO_RCV_RCB_ENTRY_COUNT_MASK (T3_JUMBO_RCV_RCB_ENTRY_COUNT-1) -#define MAX_JUMBO_RCV_BUFFER_SIZE (10 * 1024) /* > 1514 */ -#define DEFAULT_JUMBO_RCV_BUFFER_SIZE (4 * 1024) /* > 1514 */ -#define DEFAULT_JUMBO_RCV_DESC_COUNT 128 /* Must be < 256. */ +#define MAX_JUMBO_RCV_BUFFER_SIZE (10 * 1024) /* > 1514 */ +#define DEFAULT_JUMBO_RCV_BUFFER_SIZE (4 * 1024) /* > 1514 */ +#define DEFAULT_JUMBO_RCV_DESC_COUNT 128 /* Must be < 256. */ -#define MAX_JUMBO_TX_BUFFER_SIZE (8 * 1024) /* > 1514 */ -#define DEFAULT_JUMBO_TX_BUFFER_SIZE (4 * 1024) /* > 1514 */ +#define MAX_JUMBO_TX_BUFFER_SIZE (8 * 1024) /* > 1514 */ +#define DEFAULT_JUMBO_TX_BUFFER_SIZE (4 * 1024) /* > 1514 */ /* Number of receive return RCBs. Maybe 1-16 but for now, only support one. */ #define T3_MAX_RCV_RETURN_RCB_COUNT 16 @@ -195,10 +197,9 @@ static __inline void writel(unsigned int b, unsigned int addr){ /* or 2048. */ #ifndef T3_RCV_RETURN_RCB_ENTRY_COUNT #define T3_RCV_RETURN_RCB_ENTRY_COUNT 1024 -#endif /* T3_RCV_RETURN_RCB_ENTRY_COUNT */ +#endif /* T3_RCV_RETURN_RCB_ENTRY_COUNT */ #define T3_RCV_RETURN_RCB_ENTRY_COUNT_MASK (T3_RCV_RETURN_RCB_ENTRY_COUNT-1) - /* Default coalescing parameters. */ #define DEFAULT_RX_COALESCING_TICKS 100 #define MAX_RX_COALESCING_TICKS 500 @@ -227,7 +228,6 @@ static __inline void writel(unsigned int b, unsigned int addr){ #define DEFAULT_STATS_COALESCING_TICKS 1000000 #define MAX_STATS_COALESCING_TICKS 3600000000U - /* Receive BD Replenish thresholds. */ #define DEFAULT_RCV_STD_BD_REPLENISH_THRESHOLD 4 #define DEFAULT_RCV_JUMBO_BD_REPLENISH_THRESHOLD 4 @@ -240,12 +240,10 @@ static __inline void writel(unsigned int b, unsigned int addr){ /* Maximum physical fragment size. */ #define MAX_FRAGMENT_SIZE (64 * 1024) - /* Standard view. */ #define T3_STD_VIEW_SIZE (64 * 1024) #define T3_FLAT_VIEW_SIZE (32 * 1024 * 1024) - /* Buffer descriptor base address on the NIC's memory. */ #define T3_NIC_SND_BUFFER_DESC_ADDR 0x4000 @@ -265,19 +263,17 @@ static __inline void writel(unsigned int b, unsigned int addr){ #define T3_NIC_JUMBO_RCV_BUFFER_DESC_SIZE (T3_JUMBO_RCV_RCB_ENTRY_COUNT * \ sizeof(T3_EXT_RCV_BD) / 4) - /* MBUF pool. */ #define T3_NIC_MBUF_POOL_ADDR 0x8000 /* #define T3_NIC_MBUF_POOL_SIZE 0x18000 */ #define T3_NIC_MBUF_POOL_SIZE96 0x18000 #define T3_NIC_MBUF_POOL_SIZE64 0x10000 - #define T3_NIC_MBUF_POOL_ADDR_EXT_MEM 0x20000 /* DMA descriptor pool */ #define T3_NIC_DMA_DESC_POOL_ADDR 0x2000 -#define T3_NIC_DMA_DESC_POOL_SIZE 0x2000 /* 8KB. */ +#define T3_NIC_DMA_DESC_POOL_SIZE 0x2000 /* 8KB. */ #define T3_DEF_DMA_MBUF_LOW_WMARK 0x40 #define T3_DEF_RX_MAC_MBUF_LOW_WMARK 0x20 @@ -301,24 +297,21 @@ static __inline void writel(unsigned int b, unsigned int addr){ #define T3_TX_CPU_SPAD_ADDR 0x34000 #define T3_TX_CPU_SPAD_SIZE 0x4000 -typedef struct T3_DIR_ENTRY -{ - PLM_UINT8 Buffer; - LM_UINT32 Offset; - LM_UINT32 Length; -} T3_DIR_ENTRY,*PT3_DIR_ENTRY; - -typedef struct T3_FWIMG_INFO -{ - LM_UINT32 StartAddress; - T3_DIR_ENTRY Text; - T3_DIR_ENTRY ROnlyData; - T3_DIR_ENTRY Data; - T3_DIR_ENTRY Sbss; - T3_DIR_ENTRY Bss; +typedef struct T3_DIR_ENTRY { + PLM_UINT8 Buffer; + LM_UINT32 Offset; + LM_UINT32 Length; +} T3_DIR_ENTRY, *PT3_DIR_ENTRY; + +typedef struct T3_FWIMG_INFO { + LM_UINT32 StartAddress; + T3_DIR_ENTRY Text; + T3_DIR_ENTRY ROnlyData; + T3_DIR_ENTRY Data; + T3_DIR_ENTRY Sbss; + T3_DIR_ENTRY Bss; } T3_FWIMG_INFO, *PT3_FWIMG_INFO; - /******************************************************************************/ /* Tigon3 PCI Registers. */ /******************************************************************************/ @@ -362,7 +355,6 @@ typedef struct T3_FWIMG_INFO #define T3_ASIC_REV_5703 0x01 #define T3_ASIC_REV_5704 0x02 - /* Chip id and revision. */ #define T3_CHIP_REV(_ChipRevId) ((_ChipRevId) >> 8) #define T3_CHIP_REV_5700_AX 0x70 @@ -386,7 +378,6 @@ typedef struct T3_FWIMG_INFO #define T3_PCI_POWER_DOWN_PCI_PLL133 BIT_15 #define T3_PCI_44MHZ_CORE_CLOCK BIT_18 - #define T3_PCI_REG_ADDR_REG 0x78 #define T3_PCI_REG_DATA_REG 0x80 @@ -409,7 +400,6 @@ typedef struct T3_FWIMG_INFO #define T3_PM_PME_ENABLE BIT_8 #define T3_PM_PME_ASSERTED BIT_15 - /* PCI state register. */ #define T3_PCI_STATE_REG 0x70 @@ -419,17 +409,16 @@ typedef struct T3_FWIMG_INFO #define T3_PCI_STATE_BUS_SPEED_HIGH BIT_3 #define T3_PCI_STATE_32BIT_PCI_BUS BIT_4 - /* Broadcom subsystem/subvendor IDs. */ #define T3_SVID_BROADCOM 0x14e4 #define T3_SSID_BROADCOM_BCM95700A6 0x1644 #define T3_SSID_BROADCOM_BCM95701A5 0x0001 -#define T3_SSID_BROADCOM_BCM95700T6 0x0002 /* BCM8002 */ -#define T3_SSID_BROADCOM_BCM95700A9 0x0003 /* Agilent */ +#define T3_SSID_BROADCOM_BCM95700T6 0x0002 /* BCM8002 */ +#define T3_SSID_BROADCOM_BCM95700A9 0x0003 /* Agilent */ #define T3_SSID_BROADCOM_BCM95701T1 0x0005 #define T3_SSID_BROADCOM_BCM95701T8 0x0006 -#define T3_SSID_BROADCOM_BCM95701A7 0x0007 /* Agilent */ +#define T3_SSID_BROADCOM_BCM95701A7 0x0007 /* Agilent */ #define T3_SSID_BROADCOM_BCM95701A10 0x0008 #define T3_SSID_BROADCOM_BCM95701A12 0x8008 #define T3_SSID_BROADCOM_BCM95703Ax1 0x0009 @@ -449,7 +438,6 @@ typedef struct T3_FWIMG_INFO #define T3_SSID_3COM_3C996SX 0x1004 #define T3_SSID_3COM_3C997SX 0x1005 - /* Dell subsystem/subvendor IDs. */ #define T3_SVID_DELL 0x1028 @@ -469,7 +457,6 @@ typedef struct T3_FWIMG_INFO #define T3_SSID_COMPAQ_NC7780 0x0085 #define T3_SSID_COMPAQ_NC7780_2 0x0099 - /******************************************************************************/ /* MII registers. */ /******************************************************************************/ @@ -490,14 +477,12 @@ typedef struct T3_FWIMG_INFO #define PHY_CTRL_LOOPBACK_MODE BIT_14 #define PHY_CTRL_PHY_RESET BIT_15 - /* Status register. */ #define PHY_STATUS_REG 0x01 #define PHY_STATUS_LINK_PASS BIT_2 #define PHY_STATUS_AUTO_NEG_COMPLETE BIT_5 - /* Phy Id registers. */ #define PHY_ID1_REG 0x02 #define PHY_ID1_OUI_MASK 0xffff @@ -507,7 +492,6 @@ typedef struct T3_FWIMG_INFO #define PHY_ID2_MODEL_MASK 0x03f0 #define PHY_ID2_OUI_MASK 0xfc00 - /* Auto-negotiation advertisement register. */ #define PHY_AN_AD_REG 0x04 @@ -519,18 +503,15 @@ typedef struct T3_FWIMG_INFO #define PHY_AN_AD_100BASETX_FULL BIT_8 #define PHY_AN_AD_PROTOCOL_802_3_CSMA_CD 0x01 - /* Auto-negotiation Link Partner Ability register. */ #define PHY_LINK_PARTNER_ABILITY_REG 0x05 #define PHY_LINK_PARTNER_ASYM_PAUSE BIT_11 #define PHY_LINK_PARTNER_PAUSE_CAPABLE BIT_10 - /* Auto-negotiation expansion register. */ #define PHY_AN_EXPANSION_REG 0x06 - /******************************************************************************/ /* BCM5400 and BCM5401 phy info. */ /******************************************************************************/ @@ -557,7 +538,6 @@ typedef struct T3_FWIMG_INFO #define PHY_ID_MASK (PHY_ID_OUI_MASK | \ PHY_ID_MODEL_MASK) - #define UNKNOWN_PHY_ID(x) ((((x) & PHY_ID_MASK) != PHY_BCM5400_PHY_ID) && \ (((x) & PHY_ID_MASK) != PHY_BCM5401_PHY_ID) && \ (((x) & PHY_ID_MASK) != PHY_BCM5411_PHY_ID) && \ @@ -566,7 +546,6 @@ typedef struct T3_FWIMG_INFO (((x) & PHY_ID_MASK) != PHY_BCM5704_PHY_ID) && \ (((x) & PHY_ID_MASK) != PHY_BCM8002_PHY_ID)) - /* 1000Base-T control register. */ #define BCM540X_1000BASET_CTRL_REG 0x09 @@ -575,7 +554,6 @@ typedef struct T3_FWIMG_INFO #define BCM540X_CONFIG_AS_MASTER BIT_11 #define BCM540X_ENABLE_CONFIG_AS_MASTER BIT_12 - /* Extended control register. */ #define BCM540X_EXT_CTRL_REG 0x10 @@ -587,11 +565,9 @@ typedef struct T3_FWIMG_INFO #define BCM540X_EXT_STATUS_LINK_PASS BIT_8 - /* DSP Coefficient Read/Write Port. */ #define BCM540X_DSP_RW_PORT 0x15 - /* DSP Coeficient Address Register. */ #define BCM540X_DSP_ADDRESS_REG 0x17 @@ -631,7 +607,6 @@ typedef struct T3_FWIMG_INFO #define BCM540X_CONTROL_ALL_CHANNELS BIT_15 - /* Auxilliary Control Register (Shadow Register) */ #define BCM5401_AUX_CTRL 0x18 @@ -644,7 +619,6 @@ typedef struct T3_FWIMG_INFO #define BCM5401_SHADOW_SEL_MISC_TEST2 0x05 #define BCM5401_SHADOW_SEL_IP_PHONE_SEED 0x06 - /* Shadow register selector == '000' */ #define BCM5401_SHDW_NORMAL_DIAG_MODE BIT_3 #define BCM5401_SHDW_NORMAL_DISABLE_MBP BIT_4 @@ -664,7 +638,6 @@ typedef struct T3_FWIMG_INFO #define BCM5401_SHDW_NORMAL_EXT_PACKET_LENGTH BIT_14 #define BCM5401_SHDW_NORMAL_EXTERNAL_LOOPBACK BIT_15 - /* Auxilliary status summary. */ #define BCM540X_AUX_STATUS_REG 0x19 @@ -678,7 +651,6 @@ typedef struct T3_FWIMG_INFO #define BCM540X_AUX_100BASET_HD (BIT_9 | BIT_10) #define BCM540X_AUX_100BASET_FD (BIT_8 | BIT_9 | BIT_10) - /* Interrupt status. */ #define BCM540X_INT_STATUS_REG 0x1a @@ -687,11 +659,9 @@ typedef struct T3_FWIMG_INFO #define BCM540X_INT_DUPLEX_CHANGE BIT_3 #define BCM540X_INT_AUTO_NEG_PAGE_RX BIT_10 - /* Interrupt mask register. */ #define BCM540X_INT_MASK_REG 0x1b - /******************************************************************************/ /* Register definitions. */ /******************************************************************************/ @@ -701,9 +671,9 @@ typedef volatile LM_UINT16 T3_16BIT_REGISTER, *PT3_16BIT_REGISTER; typedef volatile LM_UINT32 T3_32BIT_REGISTER, *PT3_32BIT_REGISTER; typedef struct { - /* Big endian format. */ - T3_32BIT_REGISTER High; - T3_32BIT_REGISTER Low; + /* Big endian format. */ + T3_32BIT_REGISTER High; + T3_32BIT_REGISTER Low; } T3_64BIT_REGISTER, *PT3_64BIT_REGISTER; typedef T3_64BIT_REGISTER T3_64BIT_HOST_ADDR, *PT3_64BIT_HOST_ADDR; @@ -711,47 +681,44 @@ typedef T3_64BIT_REGISTER T3_64BIT_HOST_ADDR, *PT3_64BIT_HOST_ADDR; #define T3_NUM_OF_DMA_DESC 256 #define T3_NUM_OF_MBUF 768 -typedef struct -{ - T3_64BIT_REGISTER host_addr; - T3_32BIT_REGISTER nic_mbuf; - T3_16BIT_REGISTER len; - T3_16BIT_REGISTER cqid_sqid; - T3_32BIT_REGISTER flags; - T3_32BIT_REGISTER opaque1; - T3_32BIT_REGISTER opaque2; - T3_32BIT_REGISTER opaque3; -}T3_DMA_DESC, *PT3_DMA_DESC; - +typedef struct { + T3_64BIT_REGISTER host_addr; + T3_32BIT_REGISTER nic_mbuf; + T3_16BIT_REGISTER len; + T3_16BIT_REGISTER cqid_sqid; + T3_32BIT_REGISTER flags; + T3_32BIT_REGISTER opaque1; + T3_32BIT_REGISTER opaque2; + T3_32BIT_REGISTER opaque3; +} T3_DMA_DESC, *PT3_DMA_DESC; /******************************************************************************/ /* Ring control block. */ /******************************************************************************/ typedef struct { - T3_64BIT_REGISTER HostRingAddr; + T3_64BIT_REGISTER HostRingAddr; - union { - struct { + union { + struct { #ifdef BIG_ENDIAN_HOST - T3_16BIT_REGISTER MaxLen; - T3_16BIT_REGISTER Flags; -#else /* BIG_ENDIAN_HOST */ - T3_16BIT_REGISTER Flags; - T3_16BIT_REGISTER MaxLen; + T3_16BIT_REGISTER MaxLen; + T3_16BIT_REGISTER Flags; +#else /* BIG_ENDIAN_HOST */ + T3_16BIT_REGISTER Flags; + T3_16BIT_REGISTER MaxLen; #endif - } s; + } s; - T3_32BIT_REGISTER MaxLen_Flags; - } u; + T3_32BIT_REGISTER MaxLen_Flags; + } u; - T3_32BIT_REGISTER NicRingAddr; + T3_32BIT_REGISTER NicRingAddr; } T3_RCB, *PT3_RCB; #define T3_RCB_FLAG_USE_EXT_RECV_BD BIT_0 #define T3_RCB_FLAG_RING_DISABLED BIT_1 - /******************************************************************************/ /* Status block. */ /******************************************************************************/ @@ -763,98 +730,95 @@ typedef struct { #define T3_STATUS_BLOCK_SIZE 0x80 typedef struct { - volatile LM_UINT32 Status; - #define STATUS_BLOCK_UPDATED BIT_0 - #define STATUS_BLOCK_LINK_CHANGED_STATUS BIT_1 - #define STATUS_BLOCK_ERROR BIT_2 + volatile LM_UINT32 Status; +#define STATUS_BLOCK_UPDATED BIT_0 +#define STATUS_BLOCK_LINK_CHANGED_STATUS BIT_1 +#define STATUS_BLOCK_ERROR BIT_2 - volatile LM_UINT32 StatusTag; + volatile LM_UINT32 StatusTag; #ifdef BIG_ENDIAN_HOST - volatile LM_UINT16 RcvStdConIdx; - volatile LM_UINT16 RcvJumboConIdx; - - volatile LM_UINT16 Reserved2; - volatile LM_UINT16 RcvMiniConIdx; - - struct { - volatile LM_UINT16 SendConIdx; /* Send consumer index. */ - volatile LM_UINT16 RcvProdIdx; /* Receive producer index. */ - } Idx[16]; -#else /* BIG_ENDIAN_HOST */ - volatile LM_UINT16 RcvJumboConIdx; - volatile LM_UINT16 RcvStdConIdx; - - volatile LM_UINT16 RcvMiniConIdx; - volatile LM_UINT16 Reserved2; - - struct { - volatile LM_UINT16 RcvProdIdx; /* Receive producer index. */ - volatile LM_UINT16 SendConIdx; /* Send consumer index. */ - } Idx[16]; + volatile LM_UINT16 RcvStdConIdx; + volatile LM_UINT16 RcvJumboConIdx; + + volatile LM_UINT16 Reserved2; + volatile LM_UINT16 RcvMiniConIdx; + + struct { + volatile LM_UINT16 SendConIdx; /* Send consumer index. */ + volatile LM_UINT16 RcvProdIdx; /* Receive producer index. */ + } Idx[16]; +#else /* BIG_ENDIAN_HOST */ + volatile LM_UINT16 RcvJumboConIdx; + volatile LM_UINT16 RcvStdConIdx; + + volatile LM_UINT16 RcvMiniConIdx; + volatile LM_UINT16 Reserved2; + + struct { + volatile LM_UINT16 RcvProdIdx; /* Receive producer index. */ + volatile LM_UINT16 SendConIdx; /* Send consumer index. */ + } Idx[16]; #endif } T3_STATUS_BLOCK, *PT3_STATUS_BLOCK; - /******************************************************************************/ /* Receive buffer descriptors. */ /******************************************************************************/ typedef struct { - T3_64BIT_HOST_ADDR HostAddr; + T3_64BIT_HOST_ADDR HostAddr; #ifdef BIG_ENDIAN_HOST - volatile LM_UINT16 Index; - volatile LM_UINT16 Len; + volatile LM_UINT16 Index; + volatile LM_UINT16 Len; - volatile LM_UINT16 Type; - volatile LM_UINT16 Flags; + volatile LM_UINT16 Type; + volatile LM_UINT16 Flags; - volatile LM_UINT16 IpCksum; - volatile LM_UINT16 TcpUdpCksum; + volatile LM_UINT16 IpCksum; + volatile LM_UINT16 TcpUdpCksum; - volatile LM_UINT16 ErrorFlag; - volatile LM_UINT16 VlanTag; -#else /* BIG_ENDIAN_HOST */ - volatile LM_UINT16 Len; - volatile LM_UINT16 Index; + volatile LM_UINT16 ErrorFlag; + volatile LM_UINT16 VlanTag; +#else /* BIG_ENDIAN_HOST */ + volatile LM_UINT16 Len; + volatile LM_UINT16 Index; - volatile LM_UINT16 Flags; - volatile LM_UINT16 Type; + volatile LM_UINT16 Flags; + volatile LM_UINT16 Type; - volatile LM_UINT16 TcpUdpCksum; - volatile LM_UINT16 IpCksum; + volatile LM_UINT16 TcpUdpCksum; + volatile LM_UINT16 IpCksum; - volatile LM_UINT16 VlanTag; - volatile LM_UINT16 ErrorFlag; + volatile LM_UINT16 VlanTag; + volatile LM_UINT16 ErrorFlag; #endif - volatile LM_UINT32 Reserved; - volatile LM_UINT32 Opaque; + volatile LM_UINT32 Reserved; + volatile LM_UINT32 Opaque; } T3_RCV_BD, *PT3_RCV_BD; - typedef struct { - T3_64BIT_HOST_ADDR HostAddr[3]; + T3_64BIT_HOST_ADDR HostAddr[3]; #ifdef BIG_ENDIAN_HOST - LM_UINT16 Len1; - LM_UINT16 Len2; + LM_UINT16 Len1; + LM_UINT16 Len2; - LM_UINT16 Len3; - LM_UINT16 Reserved1; -#else /* BIG_ENDIAN_HOST */ - LM_UINT16 Len2; - LM_UINT16 Len1; + LM_UINT16 Len3; + LM_UINT16 Reserved1; +#else /* BIG_ENDIAN_HOST */ + LM_UINT16 Len2; + LM_UINT16 Len1; - LM_UINT16 Reserved1; - LM_UINT16 Len3; + LM_UINT16 Reserved1; + LM_UINT16 Len3; #endif - T3_RCV_BD StdRcvBd; + T3_RCV_BD StdRcvBd; } T3_EXT_RCV_BD, *PT3_EXT_RCV_BD; - /* Error flags. */ #define RCV_BD_ERR_BAD_CRC 0x0001 #define RCV_BD_ERR_COLL_DETECT 0x0002 @@ -866,7 +830,6 @@ typedef struct { #define RCV_BD_ERR_TRUNC_NO_RESOURCES 0x0080 #define RCV_BD_ERR_GIANT_FRAME_RCVD 0x0100 - /* Buffer descriptor flags. */ #define RCV_BD_FLAG_END 0x0004 #define RCV_BD_FLAG_JUMBO_RING 0x0020 @@ -877,44 +840,42 @@ typedef struct { #define RCV_BD_FLAG_TCP_UDP_CHKSUM_FIELD 0x2000 #define RCV_BD_FLAG_TCP_PACKET 0x4000 - /******************************************************************************/ /* Send buffer descriptor. */ /******************************************************************************/ typedef struct { - T3_64BIT_HOST_ADDR HostAddr; + T3_64BIT_HOST_ADDR HostAddr; - union { - struct { + union { + struct { #ifdef BIG_ENDIAN_HOST - LM_UINT16 Len; - LM_UINT16 Flags; -#else /* BIG_ENDIAN_HOST */ - LM_UINT16 Flags; - LM_UINT16 Len; + LM_UINT16 Len; + LM_UINT16 Flags; +#else /* BIG_ENDIAN_HOST */ + LM_UINT16 Flags; + LM_UINT16 Len; #endif - } s1; + } s1; - LM_UINT32 Len_Flags; - } u1; + LM_UINT32 Len_Flags; + } u1; - union { - struct { + union { + struct { #ifdef BIG_ENDIAN_HOST - LM_UINT16 Reserved; - LM_UINT16 VlanTag; -#else /* BIG_ENDIAN_HOST */ - LM_UINT16 VlanTag; - LM_UINT16 Reserved; + LM_UINT16 Reserved; + LM_UINT16 VlanTag; +#else /* BIG_ENDIAN_HOST */ + LM_UINT16 VlanTag; + LM_UINT16 Reserved; #endif - } s2; + } s2; - LM_UINT32 VlanTag; - } u2; + LM_UINT32 VlanTag; + } u2; } T3_SND_BD, *PT3_SND_BD; - /* Send buffer descriptor flags. */ #define SND_BD_FLAG_TCP_UDP_CKSUM 0x0001 #define SND_BD_FLAG_IP_CKSUM 0x0002 @@ -932,435 +893,426 @@ typedef struct { /* MBUFs */ typedef struct T3_MBUF_FRAME_DESC { #ifdef BIG_ENDIAN_HOST - LM_UINT32 status_control; - union { - struct { - LM_UINT8 cqid; - LM_UINT8 reserved1; - LM_UINT16 length; - }s1; - LM_UINT32 word; - }u1; - union { - struct - { - LM_UINT16 ip_hdr_start; - LM_UINT16 tcp_udp_hdr_start; - }s2; - - LM_UINT32 word; - }u2; - - union { - struct { - LM_UINT16 data_start; - LM_UINT16 vlan_id; - }s3; - - LM_UINT32 word; - }u3; - - union { - struct { - LM_UINT16 ip_checksum; - LM_UINT16 tcp_udp_checksum; - }s4; - - LM_UINT32 word; - }u4; - - union { - struct { - LM_UINT16 pseudo_checksum; - LM_UINT16 checksum_status; - }s5; - - LM_UINT32 word; - }u5; - - union { - struct { - LM_UINT16 rule_match; - LM_UINT8 class; - LM_UINT8 rupt; - }s6; - - LM_UINT32 word; - }u6; - - union { - struct { - LM_UINT16 reserved2; - LM_UINT16 mbuf_num; - }s7; - - LM_UINT32 word; - }u7; - - LM_UINT32 reserved3; - LM_UINT32 reserved4; + LM_UINT32 status_control; + union { + struct { + LM_UINT8 cqid; + LM_UINT8 reserved1; + LM_UINT16 length; + } s1; + LM_UINT32 word; + } u1; + union { + struct { + LM_UINT16 ip_hdr_start; + LM_UINT16 tcp_udp_hdr_start; + } s2; + + LM_UINT32 word; + } u2; + + union { + struct { + LM_UINT16 data_start; + LM_UINT16 vlan_id; + } s3; + + LM_UINT32 word; + } u3; + + union { + struct { + LM_UINT16 ip_checksum; + LM_UINT16 tcp_udp_checksum; + } s4; + + LM_UINT32 word; + } u4; + + union { + struct { + LM_UINT16 pseudo_checksum; + LM_UINT16 checksum_status; + } s5; + + LM_UINT32 word; + } u5; + + union { + struct { + LM_UINT16 rule_match; + LM_UINT8 class; + LM_UINT8 rupt; + } s6; + + LM_UINT32 word; + } u6; + + union { + struct { + LM_UINT16 reserved2; + LM_UINT16 mbuf_num; + } s7; + + LM_UINT32 word; + } u7; + + LM_UINT32 reserved3; + LM_UINT32 reserved4; #else - LM_UINT32 status_control; - union { - struct { - LM_UINT16 length; - LM_UINT8 reserved1; - LM_UINT8 cqid; - }s1; - LM_UINT32 word; - }u1; - union { - struct - { - LM_UINT16 tcp_udp_hdr_start; - LM_UINT16 ip_hdr_start; - }s2; - - LM_UINT32 word; - }u2; - - union { - struct { - LM_UINT16 vlan_id; - LM_UINT16 data_start; - }s3; - - LM_UINT32 word; - }u3; - - union { - struct { - LM_UINT16 tcp_udp_checksum; - LM_UINT16 ip_checksum; - }s4; - - LM_UINT32 word; - }u4; - - union { - struct { - LM_UINT16 checksum_status; - LM_UINT16 pseudo_checksum; - }s5; - - LM_UINT32 word; - }u5; - - union { - struct { - LM_UINT8 rupt; - LM_UINT8 class; - LM_UINT16 rule_match; - }s6; - - LM_UINT32 word; - }u6; - - union { - struct { - LM_UINT16 mbuf_num; - LM_UINT16 reserved2; - }s7; - - LM_UINT32 word; - }u7; - - LM_UINT32 reserved3; - LM_UINT32 reserved4; + LM_UINT32 status_control; + union { + struct { + LM_UINT16 length; + LM_UINT8 reserved1; + LM_UINT8 cqid; + } s1; + LM_UINT32 word; + } u1; + union { + struct { + LM_UINT16 tcp_udp_hdr_start; + LM_UINT16 ip_hdr_start; + } s2; + + LM_UINT32 word; + } u2; + + union { + struct { + LM_UINT16 vlan_id; + LM_UINT16 data_start; + } s3; + + LM_UINT32 word; + } u3; + + union { + struct { + LM_UINT16 tcp_udp_checksum; + LM_UINT16 ip_checksum; + } s4; + + LM_UINT32 word; + } u4; + + union { + struct { + LM_UINT16 checksum_status; + LM_UINT16 pseudo_checksum; + } s5; + + LM_UINT32 word; + } u5; + + union { + struct { + LM_UINT8 rupt; + LM_UINT8 class; + LM_UINT16 rule_match; + } s6; + + LM_UINT32 word; + } u6; + + union { + struct { + LM_UINT16 mbuf_num; + LM_UINT16 reserved2; + } s7; + + LM_UINT32 word; + } u7; + + LM_UINT32 reserved3; + LM_UINT32 reserved4; #endif -}T3_MBUF_FRAME_DESC,*PT3_MBUF_FRAME_DESC; +} T3_MBUF_FRAME_DESC, *PT3_MBUF_FRAME_DESC; typedef struct T3_MBUF_HDR { - union { - struct { - unsigned int C:1; - unsigned int F:1; - unsigned int reserved1:7; - unsigned int next_mbuf:16; - unsigned int length:7; - }s1; - - LM_UINT32 word; - }u1; - - LM_UINT32 next_frame_ptr; -}T3_MBUF_HDR, *PT3_MBUF_HDR; - -typedef struct T3_MBUF -{ - T3_MBUF_HDR hdr; - union - { - struct { - T3_MBUF_FRAME_DESC frame_hdr; - LM_UINT32 data[20]; - }s1; - - struct { - LM_UINT32 data[30]; - }s2; - }body; -}T3_MBUF, *PT3_MBUF; + union { + struct { + unsigned int C:1; + unsigned int F:1; + unsigned int reserved1:7; + unsigned int next_mbuf:16; + unsigned int length:7; + } s1; + + LM_UINT32 word; + } u1; + + LM_UINT32 next_frame_ptr; +} T3_MBUF_HDR, *PT3_MBUF_HDR; + +typedef struct T3_MBUF { + T3_MBUF_HDR hdr; + union { + struct { + T3_MBUF_FRAME_DESC frame_hdr; + LM_UINT32 data[20]; + } s1; + + struct { + LM_UINT32 data[30]; + } s2; + } body; +} T3_MBUF, *PT3_MBUF; #define T3_MBUF_BASE (T3_NIC_MBUF_POOL_ADDR >> 7) #define T3_MBUF_END ((T3_NIC_MBUF_POOL_ADDR + T3_NIC_MBUF_POOL_SIZE) >> 7) - /******************************************************************************/ /* Statistics block. */ /******************************************************************************/ typedef struct { - LM_UINT8 Reserved0[0x400-0x300]; - - /* Statistics maintained by Receive MAC. */ - T3_64BIT_REGISTER ifHCInOctets; - T3_64BIT_REGISTER Reserved1; - T3_64BIT_REGISTER etherStatsFragments; - T3_64BIT_REGISTER ifHCInUcastPkts; - T3_64BIT_REGISTER ifHCInMulticastPkts; - T3_64BIT_REGISTER ifHCInBroadcastPkts; - T3_64BIT_REGISTER dot3StatsFCSErrors; - T3_64BIT_REGISTER dot3StatsAlignmentErrors; - T3_64BIT_REGISTER xonPauseFramesReceived; - T3_64BIT_REGISTER xoffPauseFramesReceived; - T3_64BIT_REGISTER macControlFramesReceived; - T3_64BIT_REGISTER xoffStateEntered; - T3_64BIT_REGISTER dot3StatsFramesTooLong; - T3_64BIT_REGISTER etherStatsJabbers; - T3_64BIT_REGISTER etherStatsUndersizePkts; - T3_64BIT_REGISTER inRangeLengthError; - T3_64BIT_REGISTER outRangeLengthError; - T3_64BIT_REGISTER etherStatsPkts64Octets; - T3_64BIT_REGISTER etherStatsPkts65Octetsto127Octets; - T3_64BIT_REGISTER etherStatsPkts128Octetsto255Octets; - T3_64BIT_REGISTER etherStatsPkts256Octetsto511Octets; - T3_64BIT_REGISTER etherStatsPkts512Octetsto1023Octets; - T3_64BIT_REGISTER etherStatsPkts1024Octetsto1522Octets; - T3_64BIT_REGISTER etherStatsPkts1523Octetsto2047Octets; - T3_64BIT_REGISTER etherStatsPkts2048Octetsto4095Octets; - T3_64BIT_REGISTER etherStatsPkts4096Octetsto8191Octets; - T3_64BIT_REGISTER etherStatsPkts8192Octetsto9022Octets; - - T3_64BIT_REGISTER Unused1[37]; - - /* Statistics maintained by Transmit MAC. */ - T3_64BIT_REGISTER ifHCOutOctets; - T3_64BIT_REGISTER Reserved2; - T3_64BIT_REGISTER etherStatsCollisions; - T3_64BIT_REGISTER outXonSent; - T3_64BIT_REGISTER outXoffSent; - T3_64BIT_REGISTER flowControlDone; - T3_64BIT_REGISTER dot3StatsInternalMacTransmitErrors; - T3_64BIT_REGISTER dot3StatsSingleCollisionFrames; - T3_64BIT_REGISTER dot3StatsMultipleCollisionFrames; - T3_64BIT_REGISTER dot3StatsDeferredTransmissions; - T3_64BIT_REGISTER Reserved3; - T3_64BIT_REGISTER dot3StatsExcessiveCollisions; - T3_64BIT_REGISTER dot3StatsLateCollisions; - T3_64BIT_REGISTER dot3Collided2Times; - T3_64BIT_REGISTER dot3Collided3Times; - T3_64BIT_REGISTER dot3Collided4Times; - T3_64BIT_REGISTER dot3Collided5Times; - T3_64BIT_REGISTER dot3Collided6Times; - T3_64BIT_REGISTER dot3Collided7Times; - T3_64BIT_REGISTER dot3Collided8Times; - T3_64BIT_REGISTER dot3Collided9Times; - T3_64BIT_REGISTER dot3Collided10Times; - T3_64BIT_REGISTER dot3Collided11Times; - T3_64BIT_REGISTER dot3Collided12Times; - T3_64BIT_REGISTER dot3Collided13Times; - T3_64BIT_REGISTER dot3Collided14Times; - T3_64BIT_REGISTER dot3Collided15Times; - T3_64BIT_REGISTER ifHCOutUcastPkts; - T3_64BIT_REGISTER ifHCOutMulticastPkts; - T3_64BIT_REGISTER ifHCOutBroadcastPkts; - T3_64BIT_REGISTER dot3StatsCarrierSenseErrors; - T3_64BIT_REGISTER ifOutDiscards; - T3_64BIT_REGISTER ifOutErrors; - - T3_64BIT_REGISTER Unused2[31]; - - /* Statistics maintained by Receive List Placement. */ - T3_64BIT_REGISTER COSIfHCInPkts[16]; - T3_64BIT_REGISTER COSFramesDroppedDueToFilters; - T3_64BIT_REGISTER nicDmaWriteQueueFull; - T3_64BIT_REGISTER nicDmaWriteHighPriQueueFull; - T3_64BIT_REGISTER nicNoMoreRxBDs; - T3_64BIT_REGISTER ifInDiscards; - T3_64BIT_REGISTER ifInErrors; - T3_64BIT_REGISTER nicRecvThresholdHit; - - T3_64BIT_REGISTER Unused3[9]; - - /* Statistics maintained by Send Data Initiator. */ - T3_64BIT_REGISTER COSIfHCOutPkts[16]; - T3_64BIT_REGISTER nicDmaReadQueueFull; - T3_64BIT_REGISTER nicDmaReadHighPriQueueFull; - T3_64BIT_REGISTER nicSendDataCompQueueFull; - - /* Statistics maintained by Host Coalescing. */ - T3_64BIT_REGISTER nicRingSetSendProdIndex; - T3_64BIT_REGISTER nicRingStatusUpdate; - T3_64BIT_REGISTER nicInterrupts; - T3_64BIT_REGISTER nicAvoidedInterrupts; - T3_64BIT_REGISTER nicSendThresholdHit; - - LM_UINT8 Reserved4[0xb00-0x9c0]; + LM_UINT8 Reserved0[0x400 - 0x300]; + + /* Statistics maintained by Receive MAC. */ + T3_64BIT_REGISTER ifHCInOctets; + T3_64BIT_REGISTER Reserved1; + T3_64BIT_REGISTER etherStatsFragments; + T3_64BIT_REGISTER ifHCInUcastPkts; + T3_64BIT_REGISTER ifHCInMulticastPkts; + T3_64BIT_REGISTER ifHCInBroadcastPkts; + T3_64BIT_REGISTER dot3StatsFCSErrors; + T3_64BIT_REGISTER dot3StatsAlignmentErrors; + T3_64BIT_REGISTER xonPauseFramesReceived; + T3_64BIT_REGISTER xoffPauseFramesReceived; + T3_64BIT_REGISTER macControlFramesReceived; + T3_64BIT_REGISTER xoffStateEntered; + T3_64BIT_REGISTER dot3StatsFramesTooLong; + T3_64BIT_REGISTER etherStatsJabbers; + T3_64BIT_REGISTER etherStatsUndersizePkts; + T3_64BIT_REGISTER inRangeLengthError; + T3_64BIT_REGISTER outRangeLengthError; + T3_64BIT_REGISTER etherStatsPkts64Octets; + T3_64BIT_REGISTER etherStatsPkts65Octetsto127Octets; + T3_64BIT_REGISTER etherStatsPkts128Octetsto255Octets; + T3_64BIT_REGISTER etherStatsPkts256Octetsto511Octets; + T3_64BIT_REGISTER etherStatsPkts512Octetsto1023Octets; + T3_64BIT_REGISTER etherStatsPkts1024Octetsto1522Octets; + T3_64BIT_REGISTER etherStatsPkts1523Octetsto2047Octets; + T3_64BIT_REGISTER etherStatsPkts2048Octetsto4095Octets; + T3_64BIT_REGISTER etherStatsPkts4096Octetsto8191Octets; + T3_64BIT_REGISTER etherStatsPkts8192Octetsto9022Octets; + + T3_64BIT_REGISTER Unused1[37]; + + /* Statistics maintained by Transmit MAC. */ + T3_64BIT_REGISTER ifHCOutOctets; + T3_64BIT_REGISTER Reserved2; + T3_64BIT_REGISTER etherStatsCollisions; + T3_64BIT_REGISTER outXonSent; + T3_64BIT_REGISTER outXoffSent; + T3_64BIT_REGISTER flowControlDone; + T3_64BIT_REGISTER dot3StatsInternalMacTransmitErrors; + T3_64BIT_REGISTER dot3StatsSingleCollisionFrames; + T3_64BIT_REGISTER dot3StatsMultipleCollisionFrames; + T3_64BIT_REGISTER dot3StatsDeferredTransmissions; + T3_64BIT_REGISTER Reserved3; + T3_64BIT_REGISTER dot3StatsExcessiveCollisions; + T3_64BIT_REGISTER dot3StatsLateCollisions; + T3_64BIT_REGISTER dot3Collided2Times; + T3_64BIT_REGISTER dot3Collided3Times; + T3_64BIT_REGISTER dot3Collided4Times; + T3_64BIT_REGISTER dot3Collided5Times; + T3_64BIT_REGISTER dot3Collided6Times; + T3_64BIT_REGISTER dot3Collided7Times; + T3_64BIT_REGISTER dot3Collided8Times; + T3_64BIT_REGISTER dot3Collided9Times; + T3_64BIT_REGISTER dot3Collided10Times; + T3_64BIT_REGISTER dot3Collided11Times; + T3_64BIT_REGISTER dot3Collided12Times; + T3_64BIT_REGISTER dot3Collided13Times; + T3_64BIT_REGISTER dot3Collided14Times; + T3_64BIT_REGISTER dot3Collided15Times; + T3_64BIT_REGISTER ifHCOutUcastPkts; + T3_64BIT_REGISTER ifHCOutMulticastPkts; + T3_64BIT_REGISTER ifHCOutBroadcastPkts; + T3_64BIT_REGISTER dot3StatsCarrierSenseErrors; + T3_64BIT_REGISTER ifOutDiscards; + T3_64BIT_REGISTER ifOutErrors; + + T3_64BIT_REGISTER Unused2[31]; + + /* Statistics maintained by Receive List Placement. */ + T3_64BIT_REGISTER COSIfHCInPkts[16]; + T3_64BIT_REGISTER COSFramesDroppedDueToFilters; + T3_64BIT_REGISTER nicDmaWriteQueueFull; + T3_64BIT_REGISTER nicDmaWriteHighPriQueueFull; + T3_64BIT_REGISTER nicNoMoreRxBDs; + T3_64BIT_REGISTER ifInDiscards; + T3_64BIT_REGISTER ifInErrors; + T3_64BIT_REGISTER nicRecvThresholdHit; + + T3_64BIT_REGISTER Unused3[9]; + + /* Statistics maintained by Send Data Initiator. */ + T3_64BIT_REGISTER COSIfHCOutPkts[16]; + T3_64BIT_REGISTER nicDmaReadQueueFull; + T3_64BIT_REGISTER nicDmaReadHighPriQueueFull; + T3_64BIT_REGISTER nicSendDataCompQueueFull; + + /* Statistics maintained by Host Coalescing. */ + T3_64BIT_REGISTER nicRingSetSendProdIndex; + T3_64BIT_REGISTER nicRingStatusUpdate; + T3_64BIT_REGISTER nicInterrupts; + T3_64BIT_REGISTER nicAvoidedInterrupts; + T3_64BIT_REGISTER nicSendThresholdHit; + + LM_UINT8 Reserved4[0xb00 - 0x9c0]; } T3_STATS_BLOCK, *PT3_STATS_BLOCK; - /******************************************************************************/ /* PCI configuration registers. */ /******************************************************************************/ typedef struct { - T3_16BIT_REGISTER VendorId; - T3_16BIT_REGISTER DeviceId; - - T3_16BIT_REGISTER Command; - T3_16BIT_REGISTER Status; - - T3_32BIT_REGISTER ClassCodeRevId; - - T3_8BIT_REGISTER CacheLineSize; - T3_8BIT_REGISTER LatencyTimer; - T3_8BIT_REGISTER HeaderType; - T3_8BIT_REGISTER Bist; - - T3_32BIT_REGISTER MemBaseAddrLow; - T3_32BIT_REGISTER MemBaseAddrHigh; - - LM_UINT8 Unused1[20]; - - T3_16BIT_REGISTER SubsystemVendorId; - T3_16BIT_REGISTER SubsystemId; - - T3_32BIT_REGISTER RomBaseAddr; - - T3_8BIT_REGISTER PciXCapiblityPtr; - LM_UINT8 Unused2[7]; - - T3_8BIT_REGISTER IntLine; - T3_8BIT_REGISTER IntPin; - T3_8BIT_REGISTER MinGnt; - T3_8BIT_REGISTER MaxLat; - - T3_8BIT_REGISTER PciXCapabilities; - T3_8BIT_REGISTER PmCapabilityPtr; - T3_16BIT_REGISTER PciXCommand; - - T3_32BIT_REGISTER PciXStatus; - - T3_8BIT_REGISTER PmCapabilityId; - T3_8BIT_REGISTER VpdCapabilityPtr; - T3_16BIT_REGISTER PmCapabilities; - - T3_16BIT_REGISTER PmCtrlStatus; - #define PM_CTRL_PME_STATUS BIT_15 - #define PM_CTRL_PME_ENABLE BIT_8 - #define PM_CTRL_PME_POWER_STATE_D0 0 - #define PM_CTRL_PME_POWER_STATE_D1 1 - #define PM_CTRL_PME_POWER_STATE_D2 2 - #define PM_CTRL_PME_POWER_STATE_D3H 3 - - T3_8BIT_REGISTER BridgeSupportExt; - T3_8BIT_REGISTER PmData; - - T3_8BIT_REGISTER VpdCapabilityId; - T3_8BIT_REGISTER MsiCapabilityPtr; - T3_16BIT_REGISTER VpdAddrFlag; - #define VPD_FLAG_WRITE (1 << 15) - #define VPD_FLAG_RW_MASK (1 << 15) - #define VPD_FLAG_READ 0 - - - T3_32BIT_REGISTER VpdData; - - T3_8BIT_REGISTER MsiCapabilityId; - T3_8BIT_REGISTER NextCapabilityPtr; - T3_16BIT_REGISTER MsiCtrl; - #define MSI_CTRL_64BIT_CAP (1 << 7) - #define MSI_CTRL_MSG_ENABLE(x) (x << 4) - #define MSI_CTRL_MSG_CAP(x) (x << 1) - #define MSI_CTRL_ENABLE (1 << 0) - - - T3_32BIT_REGISTER MsiAddrLow; - T3_32BIT_REGISTER MsiAddrHigh; - - T3_16BIT_REGISTER MsiData; - T3_16BIT_REGISTER Unused3; - - T3_32BIT_REGISTER MiscHostCtrl; - #define MISC_HOST_CTRL_CLEAR_INT BIT_0 - #define MISC_HOST_CTRL_MASK_PCI_INT BIT_1 - #define MISC_HOST_CTRL_ENABLE_ENDIAN_BYTE_SWAP BIT_2 - #define MISC_HOST_CTRL_ENABLE_ENDIAN_WORD_SWAP BIT_3 - #define MISC_HOST_CTRL_ENABLE_PCI_STATE_REG_RW BIT_4 - #define MISC_HOST_CTRL_ENABLE_CLK_REG_RW BIT_5 - #define MISC_HOST_CTRL_ENABLE_REG_WORD_SWAP BIT_6 - #define MISC_HOST_CTRL_ENABLE_INDIRECT_ACCESS BIT_7 - #define MISC_HOST_CTRL_ENABLE_INT_MASK_MODE BIT_8 - #define MISC_HOST_CTRL_ENABLE_TAGGED_STATUS_MODE BIT_9 - - T3_32BIT_REGISTER DmaReadWriteCtrl; - #define DMA_CTRL_WRITE_BOUNDARY_MASK (BIT_11 | BIT_12 | BIT_13) - #define DMA_CTRL_WRITE_BOUNDARY_DISABLE 0 - #define DMA_CTRL_WRITE_BOUNDARY_16 BIT_11 - #define DMA_CTRL_WRITE_BOUNDARY_32 BIT_12 - #define DMA_CTRL_WRITE_BOUNDARY_64 (BIT_12 | BIT_11) - #define DMA_CTRL_WRITE_BOUNDARY_128 BIT_13 - #define DMA_CTRL_WRITE_BOUNDARY_256 (BIT_13 | BIT_11) - #define DMA_CTRL_WRITE_BOUNDARY_512 (BIT_13 | BIT_12) - #define DMA_CTRL_WRITE_BOUNDARY_1024 (BIT_13 | BIT_12 | BIT_11) - #define DMA_CTRL_WRITE_ONE_DMA_AT_ONCE BIT_14 - - - T3_32BIT_REGISTER PciState; - #define T3_PCI_STATE_FORCE_PCI_RESET BIT_0 - #define T3_PCI_STATE_INTERRUPT_NOT_ACTIVE BIT_1 - #define T3_PCI_STATE_NOT_PCI_X_BUS BIT_2 - #define T3_PCI_STATE_HIGH_BUS_SPEED BIT_3 - #define T3_PCI_STATE_32BIT_PCI_BUS BIT_4 - #define T3_PCI_STATE_PCI_ROM_ENABLE BIT_5 - #define T3_PCI_STATE_PCI_ROM_RETRY_ENABLE BIT_6 - #define T3_PCI_STATE_FLAT_VIEW BIT_8 - #define T3_PCI_STATE_RETRY_SAME_DMA BIT_13 - - T3_32BIT_REGISTER ClockCtrl; - #define T3_PCI_CLKCTRL_TXCPU_CLK_DISABLE BIT_11 - #define T3_PCI_CLKCTRL_RXCPU_CLK_DISABLE BIT_10 - #define T3_PCI_CLKCTRL_CORE_CLK_DISABLE BIT_9 - - T3_32BIT_REGISTER RegBaseAddr; - - T3_32BIT_REGISTER MemWindowBaseAddr; + T3_16BIT_REGISTER VendorId; + T3_16BIT_REGISTER DeviceId; + + T3_16BIT_REGISTER Command; + T3_16BIT_REGISTER Status; + + T3_32BIT_REGISTER ClassCodeRevId; + + T3_8BIT_REGISTER CacheLineSize; + T3_8BIT_REGISTER LatencyTimer; + T3_8BIT_REGISTER HeaderType; + T3_8BIT_REGISTER Bist; + + T3_32BIT_REGISTER MemBaseAddrLow; + T3_32BIT_REGISTER MemBaseAddrHigh; + + LM_UINT8 Unused1[20]; + + T3_16BIT_REGISTER SubsystemVendorId; + T3_16BIT_REGISTER SubsystemId; + + T3_32BIT_REGISTER RomBaseAddr; + + T3_8BIT_REGISTER PciXCapiblityPtr; + LM_UINT8 Unused2[7]; + + T3_8BIT_REGISTER IntLine; + T3_8BIT_REGISTER IntPin; + T3_8BIT_REGISTER MinGnt; + T3_8BIT_REGISTER MaxLat; + + T3_8BIT_REGISTER PciXCapabilities; + T3_8BIT_REGISTER PmCapabilityPtr; + T3_16BIT_REGISTER PciXCommand; + + T3_32BIT_REGISTER PciXStatus; + + T3_8BIT_REGISTER PmCapabilityId; + T3_8BIT_REGISTER VpdCapabilityPtr; + T3_16BIT_REGISTER PmCapabilities; + + T3_16BIT_REGISTER PmCtrlStatus; +#define PM_CTRL_PME_STATUS BIT_15 +#define PM_CTRL_PME_ENABLE BIT_8 +#define PM_CTRL_PME_POWER_STATE_D0 0 +#define PM_CTRL_PME_POWER_STATE_D1 1 +#define PM_CTRL_PME_POWER_STATE_D2 2 +#define PM_CTRL_PME_POWER_STATE_D3H 3 + + T3_8BIT_REGISTER BridgeSupportExt; + T3_8BIT_REGISTER PmData; + + T3_8BIT_REGISTER VpdCapabilityId; + T3_8BIT_REGISTER MsiCapabilityPtr; + T3_16BIT_REGISTER VpdAddrFlag; +#define VPD_FLAG_WRITE (1 << 15) +#define VPD_FLAG_RW_MASK (1 << 15) +#define VPD_FLAG_READ 0 + + T3_32BIT_REGISTER VpdData; + + T3_8BIT_REGISTER MsiCapabilityId; + T3_8BIT_REGISTER NextCapabilityPtr; + T3_16BIT_REGISTER MsiCtrl; +#define MSI_CTRL_64BIT_CAP (1 << 7) +#define MSI_CTRL_MSG_ENABLE(x) (x << 4) +#define MSI_CTRL_MSG_CAP(x) (x << 1) +#define MSI_CTRL_ENABLE (1 << 0) + + T3_32BIT_REGISTER MsiAddrLow; + T3_32BIT_REGISTER MsiAddrHigh; + + T3_16BIT_REGISTER MsiData; + T3_16BIT_REGISTER Unused3; + + T3_32BIT_REGISTER MiscHostCtrl; +#define MISC_HOST_CTRL_CLEAR_INT BIT_0 +#define MISC_HOST_CTRL_MASK_PCI_INT BIT_1 +#define MISC_HOST_CTRL_ENABLE_ENDIAN_BYTE_SWAP BIT_2 +#define MISC_HOST_CTRL_ENABLE_ENDIAN_WORD_SWAP BIT_3 +#define MISC_HOST_CTRL_ENABLE_PCI_STATE_REG_RW BIT_4 +#define MISC_HOST_CTRL_ENABLE_CLK_REG_RW BIT_5 +#define MISC_HOST_CTRL_ENABLE_REG_WORD_SWAP BIT_6 +#define MISC_HOST_CTRL_ENABLE_INDIRECT_ACCESS BIT_7 +#define MISC_HOST_CTRL_ENABLE_INT_MASK_MODE BIT_8 +#define MISC_HOST_CTRL_ENABLE_TAGGED_STATUS_MODE BIT_9 + + T3_32BIT_REGISTER DmaReadWriteCtrl; +#define DMA_CTRL_WRITE_BOUNDARY_MASK (BIT_11 | BIT_12 | BIT_13) +#define DMA_CTRL_WRITE_BOUNDARY_DISABLE 0 +#define DMA_CTRL_WRITE_BOUNDARY_16 BIT_11 +#define DMA_CTRL_WRITE_BOUNDARY_32 BIT_12 +#define DMA_CTRL_WRITE_BOUNDARY_64 (BIT_12 | BIT_11) +#define DMA_CTRL_WRITE_BOUNDARY_128 BIT_13 +#define DMA_CTRL_WRITE_BOUNDARY_256 (BIT_13 | BIT_11) +#define DMA_CTRL_WRITE_BOUNDARY_512 (BIT_13 | BIT_12) +#define DMA_CTRL_WRITE_BOUNDARY_1024 (BIT_13 | BIT_12 | BIT_11) +#define DMA_CTRL_WRITE_ONE_DMA_AT_ONCE BIT_14 + + T3_32BIT_REGISTER PciState; +#define T3_PCI_STATE_FORCE_PCI_RESET BIT_0 +#define T3_PCI_STATE_INTERRUPT_NOT_ACTIVE BIT_1 +#define T3_PCI_STATE_NOT_PCI_X_BUS BIT_2 +#define T3_PCI_STATE_HIGH_BUS_SPEED BIT_3 +#define T3_PCI_STATE_32BIT_PCI_BUS BIT_4 +#define T3_PCI_STATE_PCI_ROM_ENABLE BIT_5 +#define T3_PCI_STATE_PCI_ROM_RETRY_ENABLE BIT_6 +#define T3_PCI_STATE_FLAT_VIEW BIT_8 +#define T3_PCI_STATE_RETRY_SAME_DMA BIT_13 + + T3_32BIT_REGISTER ClockCtrl; +#define T3_PCI_CLKCTRL_TXCPU_CLK_DISABLE BIT_11 +#define T3_PCI_CLKCTRL_RXCPU_CLK_DISABLE BIT_10 +#define T3_PCI_CLKCTRL_CORE_CLK_DISABLE BIT_9 + + T3_32BIT_REGISTER RegBaseAddr; + + T3_32BIT_REGISTER MemWindowBaseAddr; #ifdef NIC_CPU_VIEW - /* These registers are ONLY visible to NIC CPU */ - T3_32BIT_REGISTER PowerConsumed; - T3_32BIT_REGISTER PowerDissipated; -#else /* NIC_CPU_VIEW */ - T3_32BIT_REGISTER RegData; - T3_32BIT_REGISTER MemWindowData; -#endif /* !NIC_CPU_VIEW */ + /* These registers are ONLY visible to NIC CPU */ + T3_32BIT_REGISTER PowerConsumed; + T3_32BIT_REGISTER PowerDissipated; +#else /* NIC_CPU_VIEW */ + T3_32BIT_REGISTER RegData; + T3_32BIT_REGISTER MemWindowData; +#endif /* !NIC_CPU_VIEW */ - T3_32BIT_REGISTER ModeCtrl; + T3_32BIT_REGISTER ModeCtrl; - T3_32BIT_REGISTER MiscCfg; + T3_32BIT_REGISTER MiscCfg; - T3_32BIT_REGISTER MiscLocalCtrl; + T3_32BIT_REGISTER MiscLocalCtrl; - T3_32BIT_REGISTER Unused4; + T3_32BIT_REGISTER Unused4; - /* NOTE: Big/Little-endian clarification needed. Are these register */ - /* in big or little endian formate. */ - T3_64BIT_REGISTER StdRingProdIdx; - T3_64BIT_REGISTER RcvRetRingConIdx; - T3_64BIT_REGISTER SndProdIdx; + /* NOTE: Big/Little-endian clarification needed. Are these register */ + /* in big or little endian formate. */ + T3_64BIT_REGISTER StdRingProdIdx; + T3_64BIT_REGISTER RcvRetRingConIdx; + T3_64BIT_REGISTER SndProdIdx; - LM_UINT8 Unused5[80]; + LM_UINT8 Unused5[80]; } T3_PCI_CONFIGURATION, *PT3_PCI_CONFIGURATION; #define PCIX_CMD_MAX_SPLIT_MASK 0x0070 @@ -1374,1382 +1326,1347 @@ typedef struct { /******************************************************************************/ typedef struct { - /* MAC mode control. */ - T3_32BIT_REGISTER Mode; - #define MAC_MODE_GLOBAL_RESET BIT_0 - #define MAC_MODE_HALF_DUPLEX BIT_1 - #define MAC_MODE_PORT_MODE_MASK (BIT_2 | BIT_3) - #define MAC_MODE_PORT_MODE_TBI (BIT_2 | BIT_3) - #define MAC_MODE_PORT_MODE_GMII BIT_3 - #define MAC_MODE_PORT_MODE_MII BIT_2 - #define MAC_MODE_PORT_MODE_NONE BIT_NONE - #define MAC_MODE_PORT_INTERNAL_LOOPBACK BIT_4 - #define MAC_MODE_TAGGED_MAC_CONTROL BIT_7 - #define MAC_MODE_TX_BURSTING BIT_8 - #define MAC_MODE_MAX_DEFER BIT_9 - #define MAC_MODE_LINK_POLARITY BIT_10 - #define MAC_MODE_ENABLE_RX_STATISTICS BIT_11 - #define MAC_MODE_CLEAR_RX_STATISTICS BIT_12 - #define MAC_MODE_FLUSH_RX_STATISTICS BIT_13 - #define MAC_MODE_ENABLE_TX_STATISTICS BIT_14 - #define MAC_MODE_CLEAR_TX_STATISTICS BIT_15 - #define MAC_MODE_FLUSH_TX_STATISTICS BIT_16 - #define MAC_MODE_SEND_CONFIGS BIT_17 - #define MAC_MODE_DETECT_MAGIC_PACKET_ENABLE BIT_18 - #define MAC_MODE_ACPI_POWER_ON_ENABLE BIT_19 - #define MAC_MODE_ENABLE_MIP BIT_20 - #define MAC_MODE_ENABLE_TDE BIT_21 - #define MAC_MODE_ENABLE_RDE BIT_22 - #define MAC_MODE_ENABLE_FHDE BIT_23 - - /* MAC status */ - T3_32BIT_REGISTER Status; - #define MAC_STATUS_PCS_SYNCED BIT_0 - #define MAC_STATUS_SIGNAL_DETECTED BIT_1 - #define MAC_STATUS_RECEIVING_CFG BIT_2 - #define MAC_STATUS_CFG_CHANGED BIT_3 - #define MAC_STATUS_SYNC_CHANGED BIT_4 - #define MAC_STATUS_PORT_DECODE_ERROR BIT_10 - #define MAC_STATUS_LINK_STATE_CHANGED BIT_12 - #define MAC_STATUS_MI_COMPLETION BIT_22 - #define MAC_STATUS_MI_INTERRUPT BIT_23 - #define MAC_STATUS_AP_ERROR BIT_24 - #define MAC_STATUS_ODI_ERROR BIT_25 - #define MAC_STATUS_RX_STATS_OVERRUN BIT_26 - #define MAC_STATUS_TX_STATS_OVERRUN BIT_27 - - /* Event Enable */ - T3_32BIT_REGISTER MacEvent; - #define MAC_EVENT_ENABLE_PORT_DECODE_ERR BIT_10 - #define MAC_EVENT_ENABLE_LINK_STATE_CHANGED_ATTN BIT_12 - #define MAC_EVENT_ENABLE_MI_COMPLETION BIT_22 - #define MAC_EVENT_ENABLE_MI_INTERRUPT BIT_23 - #define MAC_EVENT_ENABLE_AP_ERROR BIT_24 - #define MAC_EVENT_ENABLE_ODI_ERROR BIT_25 - #define MAC_EVENT_ENABLE_RX_STATS_OVERRUN BIT_26 - #define MAC_EVENT_ENABLE_TX_STATS_OVERRUN BIT_27 - - /* Led control. */ - T3_32BIT_REGISTER LedCtrl; - #define LED_CTRL_OVERRIDE_LINK_LED BIT_0 - #define LED_CTRL_1000MBPS_LED_ON BIT_1 - #define LED_CTRL_100MBPS_LED_ON BIT_2 - #define LED_CTRL_10MBPS_LED_ON BIT_3 - #define LED_CTRL_OVERRIDE_TRAFFIC_LED BIT_4 - #define LED_CTRL_BLINK_TRAFFIC_LED BIT_5 - #define LED_CTRL_TRAFFIC_LED BIT_6 - #define LED_CTRL_1000MBPS_LED_STATUS BIT_7 - #define LED_CTRL_100MBPS_LED_STATUS BIT_8 - #define LED_CTRL_10MBPS_LED_STATUS BIT_9 - #define LED_CTRL_TRAFFIC_LED_STATUS BIT_10 - #define LED_CTRL_MAC_MODE BIT_NONE - #define LED_CTRL_PHY_MODE_1 BIT_11 - #define LED_CTRL_PHY_MODE_2 BIT_12 - #define LED_CTRL_BLINK_RATE_MASK 0x7ff80000 - #define LED_CTRL_OVERRIDE_BLINK_PERIOD BIT_19 - #define LED_CTRL_OVERRIDE_BLINK_RATE BIT_31 - - /* MAC addresses. */ - struct { - T3_32BIT_REGISTER High; /* Upper 2 bytes. */ - T3_32BIT_REGISTER Low; /* Lower 4 bytes. */ - } MacAddr[4]; - - /* ACPI Mbuf pointer. */ - T3_32BIT_REGISTER AcpiMbufPtr; - - /* ACPI Length and Offset. */ - T3_32BIT_REGISTER AcpiLengthOffset; - #define ACPI_LENGTH_MASK 0xffff - #define ACPI_OFFSET_MASK 0x0fff0000 - #define ACPI_LENGTH(x) x - #define ACPI_OFFSET(x) ((x) << 16) - - /* Transmit random backoff. */ - T3_32BIT_REGISTER TxBackoffSeed; - #define MAC_TX_BACKOFF_SEED_MASK 0x3ff - - /* Receive MTU */ - T3_32BIT_REGISTER MtuSize; - #define MAC_RX_MTU_MASK 0xffff - - /* Gigabit PCS Test. */ - T3_32BIT_REGISTER PcsTest; - #define MAC_PCS_TEST_DATA_PATTERN_MASK 0x0fffff - #define MAC_PCS_TEST_ENABLE BIT_20 - - /* Transmit Gigabit Auto-Negotiation. */ - T3_32BIT_REGISTER TxAutoNeg; - #define MAC_AN_TX_AN_DATA_MASK 0xffff - - /* Receive Gigabit Auto-Negotiation. */ - T3_32BIT_REGISTER RxAutoNeg; - #define MAC_AN_RX_AN_DATA_MASK 0xffff - - /* MI Communication. */ - T3_32BIT_REGISTER MiCom; - #define MI_COM_CMD_MASK (BIT_26 | BIT_27) - #define MI_COM_CMD_WRITE BIT_26 - #define MI_COM_CMD_READ BIT_27 - #define MI_COM_READ_FAILED BIT_28 - #define MI_COM_START BIT_29 - #define MI_COM_BUSY BIT_29 - - #define MI_COM_PHY_ADDR_MASK 0x1f - #define MI_COM_FIRST_PHY_ADDR_BIT 21 - - #define MI_COM_PHY_REG_ADDR_MASK 0x1f - #define MI_COM_FIRST_PHY_REG_ADDR_BIT 16 - - #define MI_COM_PHY_DATA_MASK 0xffff - - /* MI Status. */ - T3_32BIT_REGISTER MiStatus; - #define MI_STATUS_ENABLE_LINK_STATUS_ATTN BIT_0 - - /* MI Mode. */ - T3_32BIT_REGISTER MiMode; - #define MI_MODE_CLOCK_SPEED_10MHZ BIT_0 - #define MI_MODE_USE_SHORT_PREAMBLE BIT_1 - #define MI_MODE_AUTO_POLLING_ENABLE BIT_4 - #define MI_MODE_CORE_CLOCK_SPEED_62MHZ BIT_15 - - /* Auto-polling status. */ - T3_32BIT_REGISTER AutoPollStatus; - #define AUTO_POLL_ERROR BIT_0 - - /* Transmit MAC mode. */ - T3_32BIT_REGISTER TxMode; - #define TX_MODE_RESET BIT_0 - #define TX_MODE_ENABLE BIT_1 - #define TX_MODE_ENABLE_FLOW_CONTROL BIT_4 - #define TX_MODE_ENABLE_BIG_BACKOFF BIT_5 - #define TX_MODE_ENABLE_LONG_PAUSE BIT_6 - - /* Transmit MAC status. */ - T3_32BIT_REGISTER TxStatus; - #define TX_STATUS_RX_CURRENTLY_XOFFED BIT_0 - #define TX_STATUS_SENT_XOFF BIT_1 - #define TX_STATUS_SENT_XON BIT_2 - #define TX_STATUS_LINK_UP BIT_3 - #define TX_STATUS_ODI_UNDERRUN BIT_4 - #define TX_STATUS_ODI_OVERRUN BIT_5 - - /* Transmit MAC length. */ - T3_32BIT_REGISTER TxLengths; - #define TX_LEN_SLOT_TIME_MASK 0xff - #define TX_LEN_IPG_MASK 0x0f00 - #define TX_LEN_IPG_CRS_MASK (BIT_12 | BIT_13) - - /* Receive MAC mode. */ - T3_32BIT_REGISTER RxMode; - #define RX_MODE_RESET BIT_0 - #define RX_MODE_ENABLE BIT_1 - #define RX_MODE_ENABLE_FLOW_CONTROL BIT_2 - #define RX_MODE_KEEP_MAC_CONTROL BIT_3 - #define RX_MODE_KEEP_PAUSE BIT_4 - #define RX_MODE_ACCEPT_OVERSIZED BIT_5 - #define RX_MODE_ACCEPT_RUNTS BIT_6 - #define RX_MODE_LENGTH_CHECK BIT_7 - #define RX_MODE_PROMISCUOUS_MODE BIT_8 - #define RX_MODE_NO_CRC_CHECK BIT_9 - #define RX_MODE_KEEP_VLAN_TAG BIT_10 - - /* Receive MAC status. */ - T3_32BIT_REGISTER RxStatus; - #define RX_STATUS_REMOTE_TRANSMITTER_XOFFED BIT_0 - #define RX_STATUS_XOFF_RECEIVED BIT_1 - #define RX_STATUS_XON_RECEIVED BIT_2 - - /* Hash registers. */ - T3_32BIT_REGISTER HashReg[4]; - - /* Receive placement rules registers. */ - struct { - T3_32BIT_REGISTER Rule; - T3_32BIT_REGISTER Value; - } RcvRules[16]; - - #define RCV_DISABLE_RULE_MASK 0x7fffffff - - #define RCV_RULE1_REJECT_BROADCAST_IDX 0x00 - #define REJECT_BROADCAST_RULE1_RULE 0xc2000000 - #define REJECT_BROADCAST_RULE1_VALUE 0xffffffff - - #define RCV_RULE2_REJECT_BROADCAST_IDX 0x01 - #define REJECT_BROADCAST_RULE2_RULE 0x86000004 - #define REJECT_BROADCAST_RULE2_VALUE 0xffffffff + /* MAC mode control. */ + T3_32BIT_REGISTER Mode; +#define MAC_MODE_GLOBAL_RESET BIT_0 +#define MAC_MODE_HALF_DUPLEX BIT_1 +#define MAC_MODE_PORT_MODE_MASK (BIT_2 | BIT_3) +#define MAC_MODE_PORT_MODE_TBI (BIT_2 | BIT_3) +#define MAC_MODE_PORT_MODE_GMII BIT_3 +#define MAC_MODE_PORT_MODE_MII BIT_2 +#define MAC_MODE_PORT_MODE_NONE BIT_NONE +#define MAC_MODE_PORT_INTERNAL_LOOPBACK BIT_4 +#define MAC_MODE_TAGGED_MAC_CONTROL BIT_7 +#define MAC_MODE_TX_BURSTING BIT_8 +#define MAC_MODE_MAX_DEFER BIT_9 +#define MAC_MODE_LINK_POLARITY BIT_10 +#define MAC_MODE_ENABLE_RX_STATISTICS BIT_11 +#define MAC_MODE_CLEAR_RX_STATISTICS BIT_12 +#define MAC_MODE_FLUSH_RX_STATISTICS BIT_13 +#define MAC_MODE_ENABLE_TX_STATISTICS BIT_14 +#define MAC_MODE_CLEAR_TX_STATISTICS BIT_15 +#define MAC_MODE_FLUSH_TX_STATISTICS BIT_16 +#define MAC_MODE_SEND_CONFIGS BIT_17 +#define MAC_MODE_DETECT_MAGIC_PACKET_ENABLE BIT_18 +#define MAC_MODE_ACPI_POWER_ON_ENABLE BIT_19 +#define MAC_MODE_ENABLE_MIP BIT_20 +#define MAC_MODE_ENABLE_TDE BIT_21 +#define MAC_MODE_ENABLE_RDE BIT_22 +#define MAC_MODE_ENABLE_FHDE BIT_23 + + /* MAC status */ + T3_32BIT_REGISTER Status; +#define MAC_STATUS_PCS_SYNCED BIT_0 +#define MAC_STATUS_SIGNAL_DETECTED BIT_1 +#define MAC_STATUS_RECEIVING_CFG BIT_2 +#define MAC_STATUS_CFG_CHANGED BIT_3 +#define MAC_STATUS_SYNC_CHANGED BIT_4 +#define MAC_STATUS_PORT_DECODE_ERROR BIT_10 +#define MAC_STATUS_LINK_STATE_CHANGED BIT_12 +#define MAC_STATUS_MI_COMPLETION BIT_22 +#define MAC_STATUS_MI_INTERRUPT BIT_23 +#define MAC_STATUS_AP_ERROR BIT_24 +#define MAC_STATUS_ODI_ERROR BIT_25 +#define MAC_STATUS_RX_STATS_OVERRUN BIT_26 +#define MAC_STATUS_TX_STATS_OVERRUN BIT_27 + + /* Event Enable */ + T3_32BIT_REGISTER MacEvent; +#define MAC_EVENT_ENABLE_PORT_DECODE_ERR BIT_10 +#define MAC_EVENT_ENABLE_LINK_STATE_CHANGED_ATTN BIT_12 +#define MAC_EVENT_ENABLE_MI_COMPLETION BIT_22 +#define MAC_EVENT_ENABLE_MI_INTERRUPT BIT_23 +#define MAC_EVENT_ENABLE_AP_ERROR BIT_24 +#define MAC_EVENT_ENABLE_ODI_ERROR BIT_25 +#define MAC_EVENT_ENABLE_RX_STATS_OVERRUN BIT_26 +#define MAC_EVENT_ENABLE_TX_STATS_OVERRUN BIT_27 + + /* Led control. */ + T3_32BIT_REGISTER LedCtrl; +#define LED_CTRL_OVERRIDE_LINK_LED BIT_0 +#define LED_CTRL_1000MBPS_LED_ON BIT_1 +#define LED_CTRL_100MBPS_LED_ON BIT_2 +#define LED_CTRL_10MBPS_LED_ON BIT_3 +#define LED_CTRL_OVERRIDE_TRAFFIC_LED BIT_4 +#define LED_CTRL_BLINK_TRAFFIC_LED BIT_5 +#define LED_CTRL_TRAFFIC_LED BIT_6 +#define LED_CTRL_1000MBPS_LED_STATUS BIT_7 +#define LED_CTRL_100MBPS_LED_STATUS BIT_8 +#define LED_CTRL_10MBPS_LED_STATUS BIT_9 +#define LED_CTRL_TRAFFIC_LED_STATUS BIT_10 +#define LED_CTRL_MAC_MODE BIT_NONE +#define LED_CTRL_PHY_MODE_1 BIT_11 +#define LED_CTRL_PHY_MODE_2 BIT_12 +#define LED_CTRL_BLINK_RATE_MASK 0x7ff80000 +#define LED_CTRL_OVERRIDE_BLINK_PERIOD BIT_19 +#define LED_CTRL_OVERRIDE_BLINK_RATE BIT_31 + + /* MAC addresses. */ + struct { + T3_32BIT_REGISTER High; /* Upper 2 bytes. */ + T3_32BIT_REGISTER Low; /* Lower 4 bytes. */ + } MacAddr[4]; + + /* ACPI Mbuf pointer. */ + T3_32BIT_REGISTER AcpiMbufPtr; + + /* ACPI Length and Offset. */ + T3_32BIT_REGISTER AcpiLengthOffset; +#define ACPI_LENGTH_MASK 0xffff +#define ACPI_OFFSET_MASK 0x0fff0000 +#define ACPI_LENGTH(x) x +#define ACPI_OFFSET(x) ((x) << 16) + + /* Transmit random backoff. */ + T3_32BIT_REGISTER TxBackoffSeed; +#define MAC_TX_BACKOFF_SEED_MASK 0x3ff + + /* Receive MTU */ + T3_32BIT_REGISTER MtuSize; +#define MAC_RX_MTU_MASK 0xffff + + /* Gigabit PCS Test. */ + T3_32BIT_REGISTER PcsTest; +#define MAC_PCS_TEST_DATA_PATTERN_MASK 0x0fffff +#define MAC_PCS_TEST_ENABLE BIT_20 + + /* Transmit Gigabit Auto-Negotiation. */ + T3_32BIT_REGISTER TxAutoNeg; +#define MAC_AN_TX_AN_DATA_MASK 0xffff + + /* Receive Gigabit Auto-Negotiation. */ + T3_32BIT_REGISTER RxAutoNeg; +#define MAC_AN_RX_AN_DATA_MASK 0xffff + + /* MI Communication. */ + T3_32BIT_REGISTER MiCom; +#define MI_COM_CMD_MASK (BIT_26 | BIT_27) +#define MI_COM_CMD_WRITE BIT_26 +#define MI_COM_CMD_READ BIT_27 +#define MI_COM_READ_FAILED BIT_28 +#define MI_COM_START BIT_29 +#define MI_COM_BUSY BIT_29 + +#define MI_COM_PHY_ADDR_MASK 0x1f +#define MI_COM_FIRST_PHY_ADDR_BIT 21 + +#define MI_COM_PHY_REG_ADDR_MASK 0x1f +#define MI_COM_FIRST_PHY_REG_ADDR_BIT 16 + +#define MI_COM_PHY_DATA_MASK 0xffff + + /* MI Status. */ + T3_32BIT_REGISTER MiStatus; +#define MI_STATUS_ENABLE_LINK_STATUS_ATTN BIT_0 + + /* MI Mode. */ + T3_32BIT_REGISTER MiMode; +#define MI_MODE_CLOCK_SPEED_10MHZ BIT_0 +#define MI_MODE_USE_SHORT_PREAMBLE BIT_1 +#define MI_MODE_AUTO_POLLING_ENABLE BIT_4 +#define MI_MODE_CORE_CLOCK_SPEED_62MHZ BIT_15 + + /* Auto-polling status. */ + T3_32BIT_REGISTER AutoPollStatus; +#define AUTO_POLL_ERROR BIT_0 + + /* Transmit MAC mode. */ + T3_32BIT_REGISTER TxMode; +#define TX_MODE_RESET BIT_0 +#define TX_MODE_ENABLE BIT_1 +#define TX_MODE_ENABLE_FLOW_CONTROL BIT_4 +#define TX_MODE_ENABLE_BIG_BACKOFF BIT_5 +#define TX_MODE_ENABLE_LONG_PAUSE BIT_6 + + /* Transmit MAC status. */ + T3_32BIT_REGISTER TxStatus; +#define TX_STATUS_RX_CURRENTLY_XOFFED BIT_0 +#define TX_STATUS_SENT_XOFF BIT_1 +#define TX_STATUS_SENT_XON BIT_2 +#define TX_STATUS_LINK_UP BIT_3 +#define TX_STATUS_ODI_UNDERRUN BIT_4 +#define TX_STATUS_ODI_OVERRUN BIT_5 + + /* Transmit MAC length. */ + T3_32BIT_REGISTER TxLengths; +#define TX_LEN_SLOT_TIME_MASK 0xff +#define TX_LEN_IPG_MASK 0x0f00 +#define TX_LEN_IPG_CRS_MASK (BIT_12 | BIT_13) + + /* Receive MAC mode. */ + T3_32BIT_REGISTER RxMode; +#define RX_MODE_RESET BIT_0 +#define RX_MODE_ENABLE BIT_1 +#define RX_MODE_ENABLE_FLOW_CONTROL BIT_2 +#define RX_MODE_KEEP_MAC_CONTROL BIT_3 +#define RX_MODE_KEEP_PAUSE BIT_4 +#define RX_MODE_ACCEPT_OVERSIZED BIT_5 +#define RX_MODE_ACCEPT_RUNTS BIT_6 +#define RX_MODE_LENGTH_CHECK BIT_7 +#define RX_MODE_PROMISCUOUS_MODE BIT_8 +#define RX_MODE_NO_CRC_CHECK BIT_9 +#define RX_MODE_KEEP_VLAN_TAG BIT_10 + + /* Receive MAC status. */ + T3_32BIT_REGISTER RxStatus; +#define RX_STATUS_REMOTE_TRANSMITTER_XOFFED BIT_0 +#define RX_STATUS_XOFF_RECEIVED BIT_1 +#define RX_STATUS_XON_RECEIVED BIT_2 + + /* Hash registers. */ + T3_32BIT_REGISTER HashReg[4]; + + /* Receive placement rules registers. */ + struct { + T3_32BIT_REGISTER Rule; + T3_32BIT_REGISTER Value; + } RcvRules[16]; + +#define RCV_DISABLE_RULE_MASK 0x7fffffff + +#define RCV_RULE1_REJECT_BROADCAST_IDX 0x00 +#define REJECT_BROADCAST_RULE1_RULE 0xc2000000 +#define REJECT_BROADCAST_RULE1_VALUE 0xffffffff + +#define RCV_RULE2_REJECT_BROADCAST_IDX 0x01 +#define REJECT_BROADCAST_RULE2_RULE 0x86000004 +#define REJECT_BROADCAST_RULE2_VALUE 0xffffffff #if INCLUDE_5701_AX_FIX - #define RCV_LAST_RULE_IDX 0x04 +#define RCV_LAST_RULE_IDX 0x04 #else - #define RCV_LAST_RULE_IDX 0x02 +#define RCV_LAST_RULE_IDX 0x02 #endif - T3_32BIT_REGISTER RcvRuleCfg; - #define RX_RULE_DEFAULT_CLASS (1 << 3) + T3_32BIT_REGISTER RcvRuleCfg; +#define RX_RULE_DEFAULT_CLASS (1 << 3) - LM_UINT8 Reserved1[140]; + LM_UINT8 Reserved1[140]; - T3_32BIT_REGISTER SerdesCfg; - T3_32BIT_REGISTER SerdesStatus; + T3_32BIT_REGISTER SerdesCfg; + T3_32BIT_REGISTER SerdesStatus; - LM_UINT8 Reserved2[104]; + LM_UINT8 Reserved2[104]; - volatile LM_UINT8 TxMacState[16]; - volatile LM_UINT8 RxMacState[20]; + volatile LM_UINT8 TxMacState[16]; + volatile LM_UINT8 RxMacState[20]; - LM_UINT8 Reserved3[476]; + LM_UINT8 Reserved3[476]; - T3_32BIT_REGISTER RxStats[26]; + T3_32BIT_REGISTER RxStats[26]; - LM_UINT8 Reserved4[24]; + LM_UINT8 Reserved4[24]; - T3_32BIT_REGISTER TxStats[28]; + T3_32BIT_REGISTER TxStats[28]; - LM_UINT8 Reserved5[784]; + LM_UINT8 Reserved5[784]; } T3_MAC_CONTROL, *PT3_MAC_CONTROL; - /******************************************************************************/ /* Send data initiator control registers. */ /******************************************************************************/ typedef struct { - T3_32BIT_REGISTER Mode; - #define T3_SND_DATA_IN_MODE_RESET BIT_0 - #define T3_SND_DATA_IN_MODE_ENABLE BIT_1 - #define T3_SND_DATA_IN_MODE_STATS_OFLW_ATTN_ENABLE BIT_2 - - T3_32BIT_REGISTER Status; - #define T3_SND_DATA_IN_STATUS_STATS_OFLW_ATTN BIT_2 - - T3_32BIT_REGISTER StatsCtrl; - #define T3_SND_DATA_IN_STATS_CTRL_ENABLE BIT_0 - #define T3_SND_DATA_IN_STATS_CTRL_FASTER_UPDATE BIT_1 - #define T3_SND_DATA_IN_STATS_CTRL_CLEAR BIT_2 - #define T3_SND_DATA_IN_STATS_CTRL_FLUSH BIT_3 - #define T3_SND_DATA_IN_STATS_CTRL_FORCE_ZERO BIT_4 - - T3_32BIT_REGISTER StatsEnableMask; - T3_32BIT_REGISTER StatsIncMask; - - LM_UINT8 Reserved[108]; - - T3_32BIT_REGISTER ClassOfServCnt[16]; - T3_32BIT_REGISTER DmaReadQFullCnt; - T3_32BIT_REGISTER DmaPriorityReadQFullCnt; - T3_32BIT_REGISTER SdcQFullCnt; - - T3_32BIT_REGISTER NicRingSetSendProdIdxCnt; - T3_32BIT_REGISTER StatusUpdatedCnt; - T3_32BIT_REGISTER InterruptsCnt; - T3_32BIT_REGISTER AvoidInterruptsCnt; - T3_32BIT_REGISTER SendThresholdHitCnt; - - /* Unused space. */ - LM_UINT8 Unused[800]; -} T3_SEND_DATA_INITIATOR, *PT3_SEND_DATA_INITIATOR; + T3_32BIT_REGISTER Mode; +#define T3_SND_DATA_IN_MODE_RESET BIT_0 +#define T3_SND_DATA_IN_MODE_ENABLE BIT_1 +#define T3_SND_DATA_IN_MODE_STATS_OFLW_ATTN_ENABLE BIT_2 + + T3_32BIT_REGISTER Status; +#define T3_SND_DATA_IN_STATUS_STATS_OFLW_ATTN BIT_2 + + T3_32BIT_REGISTER StatsCtrl; +#define T3_SND_DATA_IN_STATS_CTRL_ENABLE BIT_0 +#define T3_SND_DATA_IN_STATS_CTRL_FASTER_UPDATE BIT_1 +#define T3_SND_DATA_IN_STATS_CTRL_CLEAR BIT_2 +#define T3_SND_DATA_IN_STATS_CTRL_FLUSH BIT_3 +#define T3_SND_DATA_IN_STATS_CTRL_FORCE_ZERO BIT_4 + + T3_32BIT_REGISTER StatsEnableMask; + T3_32BIT_REGISTER StatsIncMask; + + LM_UINT8 Reserved[108]; + T3_32BIT_REGISTER ClassOfServCnt[16]; + T3_32BIT_REGISTER DmaReadQFullCnt; + T3_32BIT_REGISTER DmaPriorityReadQFullCnt; + T3_32BIT_REGISTER SdcQFullCnt; + + T3_32BIT_REGISTER NicRingSetSendProdIdxCnt; + T3_32BIT_REGISTER StatusUpdatedCnt; + T3_32BIT_REGISTER InterruptsCnt; + T3_32BIT_REGISTER AvoidInterruptsCnt; + T3_32BIT_REGISTER SendThresholdHitCnt; + + /* Unused space. */ + LM_UINT8 Unused[800]; +} T3_SEND_DATA_INITIATOR, *PT3_SEND_DATA_INITIATOR; /******************************************************************************/ /* Send data completion control registers. */ /******************************************************************************/ typedef struct { - T3_32BIT_REGISTER Mode; - #define SND_DATA_COMP_MODE_RESET BIT_0 - #define SND_DATA_COMP_MODE_ENABLE BIT_1 + T3_32BIT_REGISTER Mode; +#define SND_DATA_COMP_MODE_RESET BIT_0 +#define SND_DATA_COMP_MODE_ENABLE BIT_1 - /* Unused space. */ - LM_UINT8 Unused[1020]; + /* Unused space. */ + LM_UINT8 Unused[1020]; } T3_SEND_DATA_COMPLETION, *PT3_SEND_DATA_COMPLETION; - /******************************************************************************/ /* Send BD Ring Selector Control Registers. */ /******************************************************************************/ typedef struct { - T3_32BIT_REGISTER Mode; - #define SND_BD_SEL_MODE_RESET BIT_0 - #define SND_BD_SEL_MODE_ENABLE BIT_1 - #define SND_BD_SEL_MODE_ATTN_ENABLE BIT_2 + T3_32BIT_REGISTER Mode; +#define SND_BD_SEL_MODE_RESET BIT_0 +#define SND_BD_SEL_MODE_ENABLE BIT_1 +#define SND_BD_SEL_MODE_ATTN_ENABLE BIT_2 - T3_32BIT_REGISTER Status; - #define SND_BD_SEL_STATUS_ERROR_ATTN BIT_2 + T3_32BIT_REGISTER Status; +#define SND_BD_SEL_STATUS_ERROR_ATTN BIT_2 - T3_32BIT_REGISTER HwDiag; + T3_32BIT_REGISTER HwDiag; - /* Unused space. */ - LM_UINT8 Unused1[52]; + /* Unused space. */ + LM_UINT8 Unused1[52]; - /* Send BD Ring Selector Local NIC Send BD Consumer Index. */ - T3_32BIT_REGISTER NicSendBdSelConIdx[16]; + /* Send BD Ring Selector Local NIC Send BD Consumer Index. */ + T3_32BIT_REGISTER NicSendBdSelConIdx[16]; - /* Unused space. */ - LM_UINT8 Unused2[896]; + /* Unused space. */ + LM_UINT8 Unused2[896]; } T3_SEND_BD_SELECTOR, *PT3_SEND_BD_SELECTOR; - /******************************************************************************/ /* Send BD initiator control registers. */ /******************************************************************************/ typedef struct { - T3_32BIT_REGISTER Mode; - #define SND_BD_IN_MODE_RESET BIT_0 - #define SND_BD_IN_MODE_ENABLE BIT_1 - #define SND_BD_IN_MODE_ATTN_ENABLE BIT_2 + T3_32BIT_REGISTER Mode; +#define SND_BD_IN_MODE_RESET BIT_0 +#define SND_BD_IN_MODE_ENABLE BIT_1 +#define SND_BD_IN_MODE_ATTN_ENABLE BIT_2 - T3_32BIT_REGISTER Status; - #define SND_BD_IN_STATUS_ERROR_ATTN BIT_2 + T3_32BIT_REGISTER Status; +#define SND_BD_IN_STATUS_ERROR_ATTN BIT_2 - /* Send BD initiator local NIC send BD producer index. */ - T3_32BIT_REGISTER NicSendBdInProdIdx[16]; + /* Send BD initiator local NIC send BD producer index. */ + T3_32BIT_REGISTER NicSendBdInProdIdx[16]; - /* Unused space. */ - LM_UINT8 Unused2[952]; + /* Unused space. */ + LM_UINT8 Unused2[952]; } T3_SEND_BD_INITIATOR, *PT3_SEND_BD_INITIATOR; - /******************************************************************************/ /* Send BD Completion Control. */ /******************************************************************************/ typedef struct { - T3_32BIT_REGISTER Mode; - #define SND_BD_COMP_MODE_RESET BIT_0 - #define SND_BD_COMP_MODE_ENABLE BIT_1 - #define SND_BD_COMP_MODE_ATTN_ENABLE BIT_2 + T3_32BIT_REGISTER Mode; +#define SND_BD_COMP_MODE_RESET BIT_0 +#define SND_BD_COMP_MODE_ENABLE BIT_1 +#define SND_BD_COMP_MODE_ATTN_ENABLE BIT_2 - /* Unused space. */ - LM_UINT8 Unused2[1020]; + /* Unused space. */ + LM_UINT8 Unused2[1020]; } T3_SEND_BD_COMPLETION, *PT3_SEND_BD_COMPLETION; - /******************************************************************************/ /* Receive list placement control registers. */ /******************************************************************************/ typedef struct { - /* Mode. */ - T3_32BIT_REGISTER Mode; - #define RCV_LIST_PLMT_MODE_RESET BIT_0 - #define RCV_LIST_PLMT_MODE_ENABLE BIT_1 - #define RCV_LIST_PLMT_MODE_CLASS0_ATTN_ENABLE BIT_2 - #define RCV_LIST_PLMT_MODE_MAPPING_OOR_ATTN_ENABLE BIT_3 - #define RCV_LIST_PLMT_MODE_STATS_OFLOW_ATTN_ENABLE BIT_4 - - /* Status. */ - T3_32BIT_REGISTER Status; - #define RCV_LIST_PLMT_STATUS_CLASS0_ATTN BIT_2 - #define RCV_LIST_PLMT_STATUS_MAPPING_ATTN BIT_3 - #define RCV_LIST_PLMT_STATUS_STATS_OFLOW_ATTN BIT_4 - - /* Receive selector list lock register. */ - T3_32BIT_REGISTER Lock; - #define RCV_LIST_SEL_LOCK_REQUEST_MASK 0xffff - #define RCV_LIST_SEL_LOCK_GRANT_MASK 0xffff0000 - - /* Selector non-empty bits. */ - T3_32BIT_REGISTER NonEmptyBits; - #define RCV_LIST_SEL_NON_EMPTY_MASK 0xffff - - /* Receive list placement configuration register. */ - T3_32BIT_REGISTER Config; - - /* Receive List Placement statistics Control. */ - T3_32BIT_REGISTER StatsCtrl; + /* Mode. */ + T3_32BIT_REGISTER Mode; +#define RCV_LIST_PLMT_MODE_RESET BIT_0 +#define RCV_LIST_PLMT_MODE_ENABLE BIT_1 +#define RCV_LIST_PLMT_MODE_CLASS0_ATTN_ENABLE BIT_2 +#define RCV_LIST_PLMT_MODE_MAPPING_OOR_ATTN_ENABLE BIT_3 +#define RCV_LIST_PLMT_MODE_STATS_OFLOW_ATTN_ENABLE BIT_4 + + /* Status. */ + T3_32BIT_REGISTER Status; +#define RCV_LIST_PLMT_STATUS_CLASS0_ATTN BIT_2 +#define RCV_LIST_PLMT_STATUS_MAPPING_ATTN BIT_3 +#define RCV_LIST_PLMT_STATUS_STATS_OFLOW_ATTN BIT_4 + + /* Receive selector list lock register. */ + T3_32BIT_REGISTER Lock; +#define RCV_LIST_SEL_LOCK_REQUEST_MASK 0xffff +#define RCV_LIST_SEL_LOCK_GRANT_MASK 0xffff0000 + + /* Selector non-empty bits. */ + T3_32BIT_REGISTER NonEmptyBits; +#define RCV_LIST_SEL_NON_EMPTY_MASK 0xffff + + /* Receive list placement configuration register. */ + T3_32BIT_REGISTER Config; + + /* Receive List Placement statistics Control. */ + T3_32BIT_REGISTER StatsCtrl; #define RCV_LIST_STATS_ENABLE BIT_0 #define RCV_LIST_STATS_FAST_UPDATE BIT_1 - /* Receive List Placement statistics Enable Mask. */ - T3_32BIT_REGISTER StatsEnableMask; - - /* Receive List Placement statistics Increment Mask. */ - T3_32BIT_REGISTER StatsIncMask; - - /* Unused space. */ - LM_UINT8 Unused1[224]; + /* Receive List Placement statistics Enable Mask. */ + T3_32BIT_REGISTER StatsEnableMask; - struct { - T3_32BIT_REGISTER Head; - T3_32BIT_REGISTER Tail; - T3_32BIT_REGISTER Count; + /* Receive List Placement statistics Increment Mask. */ + T3_32BIT_REGISTER StatsIncMask; /* Unused space. */ - LM_UINT8 Unused[4]; - } RcvSelectorList[16]; - - /* Local statistics counter. */ - T3_32BIT_REGISTER ClassOfServCnt[16]; - - T3_32BIT_REGISTER DropDueToFilterCnt; - T3_32BIT_REGISTER DmaWriteQFullCnt; - T3_32BIT_REGISTER DmaHighPriorityWriteQFullCnt; - T3_32BIT_REGISTER NoMoreReceiveBdCnt; - T3_32BIT_REGISTER IfInDiscardsCnt; - T3_32BIT_REGISTER IfInErrorsCnt; - T3_32BIT_REGISTER RcvThresholdHitCnt; - - /* Another unused space. */ - LM_UINT8 Unused2[420]; -} T3_RCV_LIST_PLACEMENT, *PT3_RCV_LIST_PLACEMENT; + LM_UINT8 Unused1[224]; + struct { + T3_32BIT_REGISTER Head; + T3_32BIT_REGISTER Tail; + T3_32BIT_REGISTER Count; + + /* Unused space. */ + LM_UINT8 Unused[4]; + } RcvSelectorList[16]; + + /* Local statistics counter. */ + T3_32BIT_REGISTER ClassOfServCnt[16]; + + T3_32BIT_REGISTER DropDueToFilterCnt; + T3_32BIT_REGISTER DmaWriteQFullCnt; + T3_32BIT_REGISTER DmaHighPriorityWriteQFullCnt; + T3_32BIT_REGISTER NoMoreReceiveBdCnt; + T3_32BIT_REGISTER IfInDiscardsCnt; + T3_32BIT_REGISTER IfInErrorsCnt; + T3_32BIT_REGISTER RcvThresholdHitCnt; + + /* Another unused space. */ + LM_UINT8 Unused2[420]; +} T3_RCV_LIST_PLACEMENT, *PT3_RCV_LIST_PLACEMENT; /******************************************************************************/ /* Receive Data and Receive BD Initiator Control. */ /******************************************************************************/ typedef struct { - /* Mode. */ - T3_32BIT_REGISTER Mode; - #define RCV_DATA_BD_IN_MODE_RESET BIT_0 - #define RCV_DATA_BD_IN_MODE_ENABLE BIT_1 - #define RCV_DATA_BD_IN_MODE_JUMBO_BD_NEEDED BIT_2 - #define RCV_DATA_BD_IN_MODE_FRAME_TOO_BIG BIT_3 - #define RCV_DATA_BD_IN_MODE_INVALID_RING_SIZE BIT_4 - - /* Status. */ - T3_32BIT_REGISTER Status; - #define RCV_DATA_BD_IN_STATUS_JUMBO_BD_NEEDED BIT_2 - #define RCV_DATA_BD_IN_STATUS_FRAME_TOO_BIG BIT_3 - #define RCV_DATA_BD_IN_STATUS_INVALID_RING_SIZE BIT_4 - - /* Split frame minium size. */ - T3_32BIT_REGISTER SplitFrameMinSize; - - /* Unused space. */ - LM_UINT8 Unused1[0x2440-0x240c]; - - /* Receive RCBs. */ - T3_RCB JumboRcvRcb; - T3_RCB StdRcvRcb; - T3_RCB MiniRcvRcb; - - /* Receive Data and Receive BD Ring Initiator Local NIC Receive */ - /* BD Consumber Index. */ - T3_32BIT_REGISTER NicJumboConIdx; - T3_32BIT_REGISTER NicStdConIdx; - T3_32BIT_REGISTER NicMiniConIdx; - - /* Unused space. */ - LM_UINT8 Unused2[4]; - - /* Receive Data and Receive BD Initiator Local Receive Return ProdIdx. */ - T3_32BIT_REGISTER RcvDataBdProdIdx[16]; - - /* Receive Data and Receive BD Initiator Hardware Diagnostic. */ - T3_32BIT_REGISTER HwDiag; - - /* Unused space. */ - LM_UINT8 Unused3[828]; -} T3_RCV_DATA_BD_INITIATOR, *PT3_RCV_DATA_BD_INITIATOR; + /* Mode. */ + T3_32BIT_REGISTER Mode; +#define RCV_DATA_BD_IN_MODE_RESET BIT_0 +#define RCV_DATA_BD_IN_MODE_ENABLE BIT_1 +#define RCV_DATA_BD_IN_MODE_JUMBO_BD_NEEDED BIT_2 +#define RCV_DATA_BD_IN_MODE_FRAME_TOO_BIG BIT_3 +#define RCV_DATA_BD_IN_MODE_INVALID_RING_SIZE BIT_4 + + /* Status. */ + T3_32BIT_REGISTER Status; +#define RCV_DATA_BD_IN_STATUS_JUMBO_BD_NEEDED BIT_2 +#define RCV_DATA_BD_IN_STATUS_FRAME_TOO_BIG BIT_3 +#define RCV_DATA_BD_IN_STATUS_INVALID_RING_SIZE BIT_4 + + /* Split frame minium size. */ + T3_32BIT_REGISTER SplitFrameMinSize; + + /* Unused space. */ + LM_UINT8 Unused1[0x2440 - 0x240c]; + + /* Receive RCBs. */ + T3_RCB JumboRcvRcb; + T3_RCB StdRcvRcb; + T3_RCB MiniRcvRcb; + + /* Receive Data and Receive BD Ring Initiator Local NIC Receive */ + /* BD Consumber Index. */ + T3_32BIT_REGISTER NicJumboConIdx; + T3_32BIT_REGISTER NicStdConIdx; + T3_32BIT_REGISTER NicMiniConIdx; + + /* Unused space. */ + LM_UINT8 Unused2[4]; + + /* Receive Data and Receive BD Initiator Local Receive Return ProdIdx. */ + T3_32BIT_REGISTER RcvDataBdProdIdx[16]; + /* Receive Data and Receive BD Initiator Hardware Diagnostic. */ + T3_32BIT_REGISTER HwDiag; + + /* Unused space. */ + LM_UINT8 Unused3[828]; +} T3_RCV_DATA_BD_INITIATOR, *PT3_RCV_DATA_BD_INITIATOR; /******************************************************************************/ /* Receive Data Completion Control Registes. */ /******************************************************************************/ typedef struct { - T3_32BIT_REGISTER Mode; - #define RCV_DATA_COMP_MODE_RESET BIT_0 - #define RCV_DATA_COMP_MODE_ENABLE BIT_1 - #define RCV_DATA_COMP_MODE_ATTN_ENABLE BIT_2 + T3_32BIT_REGISTER Mode; +#define RCV_DATA_COMP_MODE_RESET BIT_0 +#define RCV_DATA_COMP_MODE_ENABLE BIT_1 +#define RCV_DATA_COMP_MODE_ATTN_ENABLE BIT_2 - /* Unused spaced. */ - LM_UINT8 Unused[1020]; + /* Unused spaced. */ + LM_UINT8 Unused[1020]; } T3_RCV_DATA_COMPLETION, *PT3_RCV_DATA_COMPLETION; - /******************************************************************************/ /* Receive BD Initiator Control. */ /******************************************************************************/ typedef struct { - T3_32BIT_REGISTER Mode; - #define RCV_BD_IN_MODE_RESET BIT_0 - #define RCV_BD_IN_MODE_ENABLE BIT_1 - #define RCV_BD_IN_MODE_BD_IN_DIABLED_RCB_ATTN_ENABLE BIT_2 + T3_32BIT_REGISTER Mode; +#define RCV_BD_IN_MODE_RESET BIT_0 +#define RCV_BD_IN_MODE_ENABLE BIT_1 +#define RCV_BD_IN_MODE_BD_IN_DIABLED_RCB_ATTN_ENABLE BIT_2 - T3_32BIT_REGISTER Status; - #define RCV_BD_IN_STATUS_BD_IN_DIABLED_RCB_ATTN BIT_2 + T3_32BIT_REGISTER Status; +#define RCV_BD_IN_STATUS_BD_IN_DIABLED_RCB_ATTN BIT_2 - T3_32BIT_REGISTER NicJumboRcvProdIdx; - T3_32BIT_REGISTER NicStdRcvProdIdx; - T3_32BIT_REGISTER NicMiniRcvProdIdx; + T3_32BIT_REGISTER NicJumboRcvProdIdx; + T3_32BIT_REGISTER NicStdRcvProdIdx; + T3_32BIT_REGISTER NicMiniRcvProdIdx; - T3_32BIT_REGISTER MiniRcvThreshold; - T3_32BIT_REGISTER StdRcvThreshold; - T3_32BIT_REGISTER JumboRcvThreshold; + T3_32BIT_REGISTER MiniRcvThreshold; + T3_32BIT_REGISTER StdRcvThreshold; + T3_32BIT_REGISTER JumboRcvThreshold; - /* Unused space. */ - LM_UINT8 Unused[992]; + /* Unused space. */ + LM_UINT8 Unused[992]; } T3_RCV_BD_INITIATOR, *PT3_RCV_BD_INITIATOR; - /******************************************************************************/ /* Receive BD Completion Control Registers. */ /******************************************************************************/ typedef struct { - T3_32BIT_REGISTER Mode; - #define RCV_BD_COMP_MODE_RESET BIT_0 - #define RCV_BD_COMP_MODE_ENABLE BIT_1 - #define RCV_BD_COMP_MODE_ATTN_ENABLE BIT_2 + T3_32BIT_REGISTER Mode; +#define RCV_BD_COMP_MODE_RESET BIT_0 +#define RCV_BD_COMP_MODE_ENABLE BIT_1 +#define RCV_BD_COMP_MODE_ATTN_ENABLE BIT_2 - T3_32BIT_REGISTER Status; - #define RCV_BD_COMP_STATUS_ERROR_ATTN BIT_2 + T3_32BIT_REGISTER Status; +#define RCV_BD_COMP_STATUS_ERROR_ATTN BIT_2 - T3_32BIT_REGISTER NicJumboRcvBdProdIdx; - T3_32BIT_REGISTER NicStdRcvBdProdIdx; - T3_32BIT_REGISTER NicMiniRcvBdProdIdx; + T3_32BIT_REGISTER NicJumboRcvBdProdIdx; + T3_32BIT_REGISTER NicStdRcvBdProdIdx; + T3_32BIT_REGISTER NicMiniRcvBdProdIdx; - /* Unused space. */ - LM_UINT8 Unused[1004]; + /* Unused space. */ + LM_UINT8 Unused[1004]; } T3_RCV_BD_COMPLETION, *PT3_RCV_BD_COMPLETION; - /******************************************************************************/ /* Receive list selector control register. */ /******************************************************************************/ typedef struct { - T3_32BIT_REGISTER Mode; - #define RCV_LIST_SEL_MODE_RESET BIT_0 - #define RCV_LIST_SEL_MODE_ENABLE BIT_1 - #define RCV_LIST_SEL_MODE_ATTN_ENABLE BIT_2 + T3_32BIT_REGISTER Mode; +#define RCV_LIST_SEL_MODE_RESET BIT_0 +#define RCV_LIST_SEL_MODE_ENABLE BIT_1 +#define RCV_LIST_SEL_MODE_ATTN_ENABLE BIT_2 - T3_32BIT_REGISTER Status; - #define RCV_LIST_SEL_STATUS_ERROR_ATTN BIT_2 + T3_32BIT_REGISTER Status; +#define RCV_LIST_SEL_STATUS_ERROR_ATTN BIT_2 - /* Unused space. */ - LM_UINT8 Unused[1016]; + /* Unused space. */ + LM_UINT8 Unused[1016]; } T3_RCV_LIST_SELECTOR, *PT3_RCV_LIST_SELECTOR; - /******************************************************************************/ /* Mbuf cluster free registers. */ /******************************************************************************/ typedef struct { - T3_32BIT_REGISTER Mode; + T3_32BIT_REGISTER Mode; #define MBUF_CLUSTER_FREE_MODE_RESET BIT_0 #define MBUF_CLUSTER_FREE_MODE_ENABLE BIT_1 - T3_32BIT_REGISTER Status; + T3_32BIT_REGISTER Status; - /* Unused space. */ - LM_UINT8 Unused[1016]; + /* Unused space. */ + LM_UINT8 Unused[1016]; } T3_MBUF_CLUSTER_FREE, *PT3_MBUF_CLUSTER_FREE; - /******************************************************************************/ /* Host coalescing control registers. */ /******************************************************************************/ typedef struct { - /* Mode. */ - T3_32BIT_REGISTER Mode; - #define HOST_COALESCE_RESET BIT_0 - #define HOST_COALESCE_ENABLE BIT_1 - #define HOST_COALESCE_ATTN BIT_2 - #define HOST_COALESCE_NOW BIT_3 - #define HOST_COALESCE_FULL_STATUS_MODE BIT_NONE - #define HOST_COALESCE_64_BYTE_STATUS_MODE BIT_7 - #define HOST_COALESCE_32_BYTE_STATUS_MODE BIT_8 - #define HOST_COALESCE_CLEAR_TICKS_ON_RX_BD_EVENT BIT_9 - #define HOST_COALESCE_CLEAR_TICKS_ON_TX_BD_EVENT BIT_10 - #define HOST_COALESCE_NO_INT_ON_COALESCE_NOW_MODE BIT_11 - #define HOST_COALESCE_NO_INT_ON_FORCE_DMAD_MODE BIT_12 + /* Mode. */ + T3_32BIT_REGISTER Mode; +#define HOST_COALESCE_RESET BIT_0 +#define HOST_COALESCE_ENABLE BIT_1 +#define HOST_COALESCE_ATTN BIT_2 +#define HOST_COALESCE_NOW BIT_3 +#define HOST_COALESCE_FULL_STATUS_MODE BIT_NONE +#define HOST_COALESCE_64_BYTE_STATUS_MODE BIT_7 +#define HOST_COALESCE_32_BYTE_STATUS_MODE BIT_8 +#define HOST_COALESCE_CLEAR_TICKS_ON_RX_BD_EVENT BIT_9 +#define HOST_COALESCE_CLEAR_TICKS_ON_TX_BD_EVENT BIT_10 +#define HOST_COALESCE_NO_INT_ON_COALESCE_NOW_MODE BIT_11 +#define HOST_COALESCE_NO_INT_ON_FORCE_DMAD_MODE BIT_12 - /* Status. */ - T3_32BIT_REGISTER Status; - #define HOST_COALESCE_ERROR_ATTN BIT_2 + /* Status. */ + T3_32BIT_REGISTER Status; +#define HOST_COALESCE_ERROR_ATTN BIT_2 - /* Receive coalescing ticks. */ - T3_32BIT_REGISTER RxCoalescingTicks; + /* Receive coalescing ticks. */ + T3_32BIT_REGISTER RxCoalescingTicks; - /* Send coalescing ticks. */ - T3_32BIT_REGISTER TxCoalescingTicks; + /* Send coalescing ticks. */ + T3_32BIT_REGISTER TxCoalescingTicks; - /* Receive max coalesced frames. */ - T3_32BIT_REGISTER RxMaxCoalescedFrames; + /* Receive max coalesced frames. */ + T3_32BIT_REGISTER RxMaxCoalescedFrames; - /* Send max coalesced frames. */ - T3_32BIT_REGISTER TxMaxCoalescedFrames; + /* Send max coalesced frames. */ + T3_32BIT_REGISTER TxMaxCoalescedFrames; - /* Receive coalescing ticks during interrupt. */ - T3_32BIT_REGISTER RxCoalescedTickDuringInt; + /* Receive coalescing ticks during interrupt. */ + T3_32BIT_REGISTER RxCoalescedTickDuringInt; - /* Send coalescing ticks during interrupt. */ - T3_32BIT_REGISTER TxCoalescedTickDuringInt; + /* Send coalescing ticks during interrupt. */ + T3_32BIT_REGISTER TxCoalescedTickDuringInt; - /* Receive max coalesced frames during interrupt. */ - T3_32BIT_REGISTER RxMaxCoalescedFramesDuringInt; + /* Receive max coalesced frames during interrupt. */ + T3_32BIT_REGISTER RxMaxCoalescedFramesDuringInt; - /* Send max coalesced frames during interrupt. */ - T3_32BIT_REGISTER TxMaxCoalescedFramesDuringInt; + /* Send max coalesced frames during interrupt. */ + T3_32BIT_REGISTER TxMaxCoalescedFramesDuringInt; - /* Statistics tick. */ - T3_32BIT_REGISTER StatsCoalescingTicks; + /* Statistics tick. */ + T3_32BIT_REGISTER StatsCoalescingTicks; - /* Unused space. */ - LM_UINT8 Unused2[4]; + /* Unused space. */ + LM_UINT8 Unused2[4]; - /* Statistics host address. */ - T3_64BIT_REGISTER StatsBlkHostAddr; + /* Statistics host address. */ + T3_64BIT_REGISTER StatsBlkHostAddr; - /* Status block host address.*/ - T3_64BIT_REGISTER StatusBlkHostAddr; + /* Status block host address. */ + T3_64BIT_REGISTER StatusBlkHostAddr; - /* Statistics NIC address. */ - T3_32BIT_REGISTER StatsBlkNicAddr; + /* Statistics NIC address. */ + T3_32BIT_REGISTER StatsBlkNicAddr; - /* Statust block NIC address. */ - T3_32BIT_REGISTER StatusBlkNicAddr; + /* Statust block NIC address. */ + T3_32BIT_REGISTER StatusBlkNicAddr; - /* Flow attention registers. */ - T3_32BIT_REGISTER FlowAttn; + /* Flow attention registers. */ + T3_32BIT_REGISTER FlowAttn; - /* Unused space. */ - LM_UINT8 Unused3[4]; + /* Unused space. */ + LM_UINT8 Unused3[4]; - T3_32BIT_REGISTER NicJumboRcvBdConIdx; - T3_32BIT_REGISTER NicStdRcvBdConIdx; - T3_32BIT_REGISTER NicMiniRcvBdConIdx; + T3_32BIT_REGISTER NicJumboRcvBdConIdx; + T3_32BIT_REGISTER NicStdRcvBdConIdx; + T3_32BIT_REGISTER NicMiniRcvBdConIdx; - /* Unused space. */ - LM_UINT8 Unused4[36]; + /* Unused space. */ + LM_UINT8 Unused4[36]; - T3_32BIT_REGISTER NicRetProdIdx[16]; - T3_32BIT_REGISTER NicSndBdConIdx[16]; + T3_32BIT_REGISTER NicRetProdIdx[16]; + T3_32BIT_REGISTER NicSndBdConIdx[16]; - /* Unused space. */ - LM_UINT8 Unused5[768]; + /* Unused space. */ + LM_UINT8 Unused5[768]; } T3_HOST_COALESCING, *PT3_HOST_COALESCING; - /******************************************************************************/ /* Memory arbiter registers. */ /******************************************************************************/ typedef struct { - T3_32BIT_REGISTER Mode; + T3_32BIT_REGISTER Mode; #define T3_MEM_ARBITER_MODE_RESET BIT_0 #define T3_MEM_ARBITER_MODE_ENABLE BIT_1 - T3_32BIT_REGISTER Status; + T3_32BIT_REGISTER Status; - T3_32BIT_REGISTER ArbTrapAddrLow; - T3_32BIT_REGISTER ArbTrapAddrHigh; + T3_32BIT_REGISTER ArbTrapAddrLow; + T3_32BIT_REGISTER ArbTrapAddrHigh; - /* Unused space. */ - LM_UINT8 Unused[1008]; + /* Unused space. */ + LM_UINT8 Unused[1008]; } T3_MEM_ARBITER, *PT3_MEM_ARBITER; - /******************************************************************************/ /* Buffer manager control register. */ /******************************************************************************/ typedef struct { - T3_32BIT_REGISTER Mode; - #define BUFMGR_MODE_RESET BIT_0 - #define BUFMGR_MODE_ENABLE BIT_1 - #define BUFMGR_MODE_ATTN_ENABLE BIT_2 - #define BUFMGR_MODE_BM_TEST BIT_3 - #define BUFMGR_MODE_MBUF_LOW_ATTN_ENABLE BIT_4 - - T3_32BIT_REGISTER Status; - #define BUFMGR_STATUS_ERROR BIT_2 - #define BUFMGR_STATUS_MBUF_LOW BIT_4 - - T3_32BIT_REGISTER MbufPoolAddr; - T3_32BIT_REGISTER MbufPoolSize; - T3_32BIT_REGISTER MbufReadDmaLowWaterMark; - T3_32BIT_REGISTER MbufMacRxLowWaterMark; - T3_32BIT_REGISTER MbufHighWaterMark; - - T3_32BIT_REGISTER RxCpuMbufAllocReq; - #define BUFMGR_MBUF_ALLOC_BIT BIT_31 - T3_32BIT_REGISTER RxCpuMbufAllocResp; - T3_32BIT_REGISTER TxCpuMbufAllocReq; - T3_32BIT_REGISTER TxCpuMbufAllocResp; - - T3_32BIT_REGISTER DmaDescPoolAddr; - T3_32BIT_REGISTER DmaDescPoolSize; - T3_32BIT_REGISTER DmaLowWaterMark; - T3_32BIT_REGISTER DmaHighWaterMark; - - T3_32BIT_REGISTER RxCpuDmaAllocReq; - T3_32BIT_REGISTER RxCpuDmaAllocResp; - T3_32BIT_REGISTER TxCpuDmaAllocReq; - T3_32BIT_REGISTER TxCpuDmaAllocResp; - - T3_32BIT_REGISTER Hwdiag[3]; - - /* Unused space. */ - LM_UINT8 Unused[936]; -} T3_BUFFER_MANAGER, *PT3_BUFFER_MANAGER; + T3_32BIT_REGISTER Mode; +#define BUFMGR_MODE_RESET BIT_0 +#define BUFMGR_MODE_ENABLE BIT_1 +#define BUFMGR_MODE_ATTN_ENABLE BIT_2 +#define BUFMGR_MODE_BM_TEST BIT_3 +#define BUFMGR_MODE_MBUF_LOW_ATTN_ENABLE BIT_4 + + T3_32BIT_REGISTER Status; +#define BUFMGR_STATUS_ERROR BIT_2 +#define BUFMGR_STATUS_MBUF_LOW BIT_4 + + T3_32BIT_REGISTER MbufPoolAddr; + T3_32BIT_REGISTER MbufPoolSize; + T3_32BIT_REGISTER MbufReadDmaLowWaterMark; + T3_32BIT_REGISTER MbufMacRxLowWaterMark; + T3_32BIT_REGISTER MbufHighWaterMark; + + T3_32BIT_REGISTER RxCpuMbufAllocReq; +#define BUFMGR_MBUF_ALLOC_BIT BIT_31 + T3_32BIT_REGISTER RxCpuMbufAllocResp; + T3_32BIT_REGISTER TxCpuMbufAllocReq; + T3_32BIT_REGISTER TxCpuMbufAllocResp; + + T3_32BIT_REGISTER DmaDescPoolAddr; + T3_32BIT_REGISTER DmaDescPoolSize; + T3_32BIT_REGISTER DmaLowWaterMark; + T3_32BIT_REGISTER DmaHighWaterMark; + + T3_32BIT_REGISTER RxCpuDmaAllocReq; + T3_32BIT_REGISTER RxCpuDmaAllocResp; + T3_32BIT_REGISTER TxCpuDmaAllocReq; + T3_32BIT_REGISTER TxCpuDmaAllocResp; + + T3_32BIT_REGISTER Hwdiag[3]; + /* Unused space. */ + LM_UINT8 Unused[936]; +} T3_BUFFER_MANAGER, *PT3_BUFFER_MANAGER; /******************************************************************************/ /* Read DMA control registers. */ /******************************************************************************/ typedef struct { - T3_32BIT_REGISTER Mode; - #define DMA_READ_MODE_RESET BIT_0 - #define DMA_READ_MODE_ENABLE BIT_1 - #define DMA_READ_MODE_TARGET_ABORT_ATTN_ENABLE BIT_2 - #define DMA_READ_MODE_MASTER_ABORT_ATTN_ENABLE BIT_3 - #define DMA_READ_MODE_PARITY_ERROR_ATTN_ENABLE BIT_4 - #define DMA_READ_MODE_ADDR_OVERFLOW_ATTN_ENABLE BIT_5 - #define DMA_READ_MODE_FIFO_OVERRUN_ATTN_ENABLE BIT_6 - #define DMA_READ_MODE_FIFO_UNDERRUN_ATTN_ENABLE BIT_7 - #define DMA_READ_MODE_FIFO_OVERREAD_ATTN_ENABLE BIT_8 - #define DMA_READ_MODE_LONG_READ_ATTN_ENABLE BIT_9 - #define DMA_READ_MODE_SPLIT_ENABLE BIT_11 - #define DMA_READ_MODE_SPLIT_RESET BIT_12 - - T3_32BIT_REGISTER Status; - #define DMA_READ_STATUS_TARGET_ABORT_ATTN BIT_2 - #define DMA_READ_STATUS_MASTER_ABORT_ATTN BIT_3 - #define DMA_READ_STATUS_PARITY_ERROR_ATTN BIT_4 - #define DMA_READ_STATUS_ADDR_OVERFLOW_ATTN BIT_5 - #define DMA_READ_STATUS_FIFO_OVERRUN_ATTN BIT_6 - #define DMA_READ_STATUS_FIFO_UNDERRUN_ATTN BIT_7 - #define DMA_READ_STATUS_FIFO_OVERREAD_ATTN BIT_8 - #define DMA_READ_STATUS_LONG_READ_ATTN BIT_9 - - /* Unused space. */ - LM_UINT8 Unused[1016]; + T3_32BIT_REGISTER Mode; +#define DMA_READ_MODE_RESET BIT_0 +#define DMA_READ_MODE_ENABLE BIT_1 +#define DMA_READ_MODE_TARGET_ABORT_ATTN_ENABLE BIT_2 +#define DMA_READ_MODE_MASTER_ABORT_ATTN_ENABLE BIT_3 +#define DMA_READ_MODE_PARITY_ERROR_ATTN_ENABLE BIT_4 +#define DMA_READ_MODE_ADDR_OVERFLOW_ATTN_ENABLE BIT_5 +#define DMA_READ_MODE_FIFO_OVERRUN_ATTN_ENABLE BIT_6 +#define DMA_READ_MODE_FIFO_UNDERRUN_ATTN_ENABLE BIT_7 +#define DMA_READ_MODE_FIFO_OVERREAD_ATTN_ENABLE BIT_8 +#define DMA_READ_MODE_LONG_READ_ATTN_ENABLE BIT_9 +#define DMA_READ_MODE_SPLIT_ENABLE BIT_11 +#define DMA_READ_MODE_SPLIT_RESET BIT_12 + + T3_32BIT_REGISTER Status; +#define DMA_READ_STATUS_TARGET_ABORT_ATTN BIT_2 +#define DMA_READ_STATUS_MASTER_ABORT_ATTN BIT_3 +#define DMA_READ_STATUS_PARITY_ERROR_ATTN BIT_4 +#define DMA_READ_STATUS_ADDR_OVERFLOW_ATTN BIT_5 +#define DMA_READ_STATUS_FIFO_OVERRUN_ATTN BIT_6 +#define DMA_READ_STATUS_FIFO_UNDERRUN_ATTN BIT_7 +#define DMA_READ_STATUS_FIFO_OVERREAD_ATTN BIT_8 +#define DMA_READ_STATUS_LONG_READ_ATTN BIT_9 + + /* Unused space. */ + LM_UINT8 Unused[1016]; } T3_DMA_READ, *PT3_DMA_READ; -typedef union T3_CPU -{ - struct - { - T3_32BIT_REGISTER mode; - #define CPU_MODE_HALT BIT_10 - #define CPU_MODE_RESET BIT_0 - T3_32BIT_REGISTER state; - T3_32BIT_REGISTER EventMask; - T3_32BIT_REGISTER reserved1[4]; - T3_32BIT_REGISTER PC; - T3_32BIT_REGISTER Instruction; - T3_32BIT_REGISTER SpadUnderflow; - T3_32BIT_REGISTER WatchdogClear; - T3_32BIT_REGISTER WatchdogVector; - T3_32BIT_REGISTER WatchdogSavedPC; - T3_32BIT_REGISTER HardwareBp; - T3_32BIT_REGISTER reserved2[3]; - T3_32BIT_REGISTER WatchdogSavedState; - T3_32BIT_REGISTER LastBrchAddr; - T3_32BIT_REGISTER SpadUnderflowSet; - T3_32BIT_REGISTER reserved3[(0x200-0x50)/4]; - T3_32BIT_REGISTER Regs[32]; - T3_32BIT_REGISTER reserved4[(0x400-0x280)/4]; - }reg; -}T3_CPU, *PT3_CPU; +typedef union T3_CPU { + struct { + T3_32BIT_REGISTER mode; +#define CPU_MODE_HALT BIT_10 +#define CPU_MODE_RESET BIT_0 + T3_32BIT_REGISTER state; + T3_32BIT_REGISTER EventMask; + T3_32BIT_REGISTER reserved1[4]; + T3_32BIT_REGISTER PC; + T3_32BIT_REGISTER Instruction; + T3_32BIT_REGISTER SpadUnderflow; + T3_32BIT_REGISTER WatchdogClear; + T3_32BIT_REGISTER WatchdogVector; + T3_32BIT_REGISTER WatchdogSavedPC; + T3_32BIT_REGISTER HardwareBp; + T3_32BIT_REGISTER reserved2[3]; + T3_32BIT_REGISTER WatchdogSavedState; + T3_32BIT_REGISTER LastBrchAddr; + T3_32BIT_REGISTER SpadUnderflowSet; + T3_32BIT_REGISTER reserved3[(0x200 - 0x50) / 4]; + T3_32BIT_REGISTER Regs[32]; + T3_32BIT_REGISTER reserved4[(0x400 - 0x280) / 4]; + } reg; +} T3_CPU, *PT3_CPU; /******************************************************************************/ /* Write DMA control registers. */ /******************************************************************************/ typedef struct { - T3_32BIT_REGISTER Mode; - #define DMA_WRITE_MODE_RESET BIT_0 - #define DMA_WRITE_MODE_ENABLE BIT_1 - #define DMA_WRITE_MODE_TARGET_ABORT_ATTN_ENABLE BIT_2 - #define DMA_WRITE_MODE_MASTER_ABORT_ATTN_ENABLE BIT_3 - #define DMA_WRITE_MODE_PARITY_ERROR_ATTN_ENABLE BIT_4 - #define DMA_WRITE_MODE_ADDR_OVERFLOW_ATTN_ENABLE BIT_5 - #define DMA_WRITE_MODE_FIFO_OVERRUN_ATTN_ENABLE BIT_6 - #define DMA_WRITE_MODE_FIFO_UNDERRUN_ATTN_ENABLE BIT_7 - #define DMA_WRITE_MODE_FIFO_OVERREAD_ATTN_ENABLE BIT_8 - #define DMA_WRITE_MODE_LONG_READ_ATTN_ENABLE BIT_9 - - T3_32BIT_REGISTER Status; - #define DMA_WRITE_STATUS_TARGET_ABORT_ATTN BIT_2 - #define DMA_WRITE_STATUS_MASTER_ABORT_ATTN BIT_3 - #define DMA_WRITE_STATUS_PARITY_ERROR_ATTN BIT_4 - #define DMA_WRITE_STATUS_ADDR_OVERFLOW_ATTN BIT_5 - #define DMA_WRITE_STATUS_FIFO_OVERRUN_ATTN BIT_6 - #define DMA_WRITE_STATUS_FIFO_UNDERRUN_ATTN BIT_7 - #define DMA_WRITE_STATUS_FIFO_OVERREAD_ATTN BIT_8 - #define DMA_WRITE_STATUS_LONG_READ_ATTN BIT_9 - - /* Unused space. */ - LM_UINT8 Unused[1016]; -} T3_DMA_WRITE, *PT3_DMA_WRITE; + T3_32BIT_REGISTER Mode; +#define DMA_WRITE_MODE_RESET BIT_0 +#define DMA_WRITE_MODE_ENABLE BIT_1 +#define DMA_WRITE_MODE_TARGET_ABORT_ATTN_ENABLE BIT_2 +#define DMA_WRITE_MODE_MASTER_ABORT_ATTN_ENABLE BIT_3 +#define DMA_WRITE_MODE_PARITY_ERROR_ATTN_ENABLE BIT_4 +#define DMA_WRITE_MODE_ADDR_OVERFLOW_ATTN_ENABLE BIT_5 +#define DMA_WRITE_MODE_FIFO_OVERRUN_ATTN_ENABLE BIT_6 +#define DMA_WRITE_MODE_FIFO_UNDERRUN_ATTN_ENABLE BIT_7 +#define DMA_WRITE_MODE_FIFO_OVERREAD_ATTN_ENABLE BIT_8 +#define DMA_WRITE_MODE_LONG_READ_ATTN_ENABLE BIT_9 + + T3_32BIT_REGISTER Status; +#define DMA_WRITE_STATUS_TARGET_ABORT_ATTN BIT_2 +#define DMA_WRITE_STATUS_MASTER_ABORT_ATTN BIT_3 +#define DMA_WRITE_STATUS_PARITY_ERROR_ATTN BIT_4 +#define DMA_WRITE_STATUS_ADDR_OVERFLOW_ATTN BIT_5 +#define DMA_WRITE_STATUS_FIFO_OVERRUN_ATTN BIT_6 +#define DMA_WRITE_STATUS_FIFO_UNDERRUN_ATTN BIT_7 +#define DMA_WRITE_STATUS_FIFO_OVERREAD_ATTN BIT_8 +#define DMA_WRITE_STATUS_LONG_READ_ATTN BIT_9 + /* Unused space. */ + LM_UINT8 Unused[1016]; +} T3_DMA_WRITE, *PT3_DMA_WRITE; /******************************************************************************/ /* Mailbox registers. */ /******************************************************************************/ typedef struct { - /* Interrupt mailbox registers. */ - T3_64BIT_REGISTER Interrupt[4]; + /* Interrupt mailbox registers. */ + T3_64BIT_REGISTER Interrupt[4]; - /* General mailbox registers. */ - T3_64BIT_REGISTER General[8]; + /* General mailbox registers. */ + T3_64BIT_REGISTER General[8]; - /* Reload statistics mailbox. */ - T3_64BIT_REGISTER ReloadStat; + /* Reload statistics mailbox. */ + T3_64BIT_REGISTER ReloadStat; - /* Receive BD ring producer index registers. */ - T3_64BIT_REGISTER RcvStdProdIdx; - T3_64BIT_REGISTER RcvJumboProdIdx; - T3_64BIT_REGISTER RcvMiniProdIdx; + /* Receive BD ring producer index registers. */ + T3_64BIT_REGISTER RcvStdProdIdx; + T3_64BIT_REGISTER RcvJumboProdIdx; + T3_64BIT_REGISTER RcvMiniProdIdx; - /* Receive return ring consumer index registers. */ - T3_64BIT_REGISTER RcvRetConIdx[16]; + /* Receive return ring consumer index registers. */ + T3_64BIT_REGISTER RcvRetConIdx[16]; - /* Send BD ring host producer index registers. */ - T3_64BIT_REGISTER SendHostProdIdx[16]; + /* Send BD ring host producer index registers. */ + T3_64BIT_REGISTER SendHostProdIdx[16]; - /* Send BD ring nic producer index registers. */ - T3_64BIT_REGISTER SendNicProdIdx[16]; -}T3_MAILBOX, *PT3_MAILBOX; + /* Send BD ring nic producer index registers. */ + T3_64BIT_REGISTER SendNicProdIdx[16]; +} T3_MAILBOX, *PT3_MAILBOX; typedef struct { - T3_MAILBOX Mailbox; + T3_MAILBOX Mailbox; - /* Priority mailbox registers. */ - T3_32BIT_REGISTER HighPriorityEventVector; - T3_32BIT_REGISTER HighPriorityEventMask; - T3_32BIT_REGISTER LowPriorityEventVector; - T3_32BIT_REGISTER LowPriorityEventMask; + /* Priority mailbox registers. */ + T3_32BIT_REGISTER HighPriorityEventVector; + T3_32BIT_REGISTER HighPriorityEventMask; + T3_32BIT_REGISTER LowPriorityEventVector; + T3_32BIT_REGISTER LowPriorityEventMask; - /* Unused space. */ - LM_UINT8 Unused[496]; + /* Unused space. */ + LM_UINT8 Unused[496]; } T3_GRC_MAILBOX, *PT3_GRC_MAILBOX; - /******************************************************************************/ /* Flow through queues. */ /******************************************************************************/ typedef struct { - T3_32BIT_REGISTER Reset; - - LM_UINT8 Unused[12]; - - T3_32BIT_REGISTER DmaNormalReadFtqCtrl; - T3_32BIT_REGISTER DmaNormalReadFtqFullCnt; - T3_32BIT_REGISTER DmaNormalReadFtqFifoEnqueueDequeue; - T3_32BIT_REGISTER DmaNormalReadFtqFifoWritePeek; - - T3_32BIT_REGISTER DmaHighReadFtqCtrl; - T3_32BIT_REGISTER DmaHighReadFtqFullCnt; - T3_32BIT_REGISTER DmaHighReadFtqFifoEnqueueDequeue; - T3_32BIT_REGISTER DmaHighReadFtqFifoWritePeek; - - T3_32BIT_REGISTER DmaCompDiscardFtqCtrl; - T3_32BIT_REGISTER DmaCompDiscardFtqFullCnt; - T3_32BIT_REGISTER DmaCompDiscardFtqFifoEnqueueDequeue; - T3_32BIT_REGISTER DmaCompDiscardFtqFifoWritePeek; - - T3_32BIT_REGISTER SendBdCompFtqCtrl; - T3_32BIT_REGISTER SendBdCompFtqFullCnt; - T3_32BIT_REGISTER SendBdCompFtqFifoEnqueueDequeue; - T3_32BIT_REGISTER SendBdCompFtqFifoWritePeek; - - T3_32BIT_REGISTER SendDataInitiatorFtqCtrl; - T3_32BIT_REGISTER SendDataInitiatorFtqFullCnt; - T3_32BIT_REGISTER SendDataInitiatorFtqFifoEnqueueDequeue; - T3_32BIT_REGISTER SendDataInitiatorFtqFifoWritePeek; - - T3_32BIT_REGISTER DmaNormalWriteFtqCtrl; - T3_32BIT_REGISTER DmaNormalWriteFtqFullCnt; - T3_32BIT_REGISTER DmaNormalWriteFtqFifoEnqueueDequeue; - T3_32BIT_REGISTER DmaNormalWriteFtqFifoWritePeek; - - T3_32BIT_REGISTER DmaHighWriteFtqCtrl; - T3_32BIT_REGISTER DmaHighWriteFtqFullCnt; - T3_32BIT_REGISTER DmaHighWriteFtqFifoEnqueueDequeue; - T3_32BIT_REGISTER DmaHighWriteFtqFifoWritePeek; - - T3_32BIT_REGISTER SwType1FtqCtrl; - T3_32BIT_REGISTER SwType1FtqFullCnt; - T3_32BIT_REGISTER SwType1FtqFifoEnqueueDequeue; - T3_32BIT_REGISTER SwType1FtqFifoWritePeek; - - T3_32BIT_REGISTER SendDataCompFtqCtrl; - T3_32BIT_REGISTER SendDataCompFtqFullCnt; - T3_32BIT_REGISTER SendDataCompFtqFifoEnqueueDequeue; - T3_32BIT_REGISTER SendDataCompFtqFifoWritePeek; - - T3_32BIT_REGISTER HostCoalesceFtqCtrl; - T3_32BIT_REGISTER HostCoalesceFtqFullCnt; - T3_32BIT_REGISTER HostCoalesceFtqFifoEnqueueDequeue; - T3_32BIT_REGISTER HostCoalesceFtqFifoWritePeek; - - T3_32BIT_REGISTER MacTxFtqCtrl; - T3_32BIT_REGISTER MacTxFtqFullCnt; - T3_32BIT_REGISTER MacTxFtqFifoEnqueueDequeue; - T3_32BIT_REGISTER MacTxFtqFifoWritePeek; - - T3_32BIT_REGISTER MbufClustFreeFtqCtrl; - T3_32BIT_REGISTER MbufClustFreeFtqFullCnt; - T3_32BIT_REGISTER MbufClustFreeFtqFifoEnqueueDequeue; - T3_32BIT_REGISTER MbufClustFreeFtqFifoWritePeek; - - T3_32BIT_REGISTER RcvBdCompFtqCtrl; - T3_32BIT_REGISTER RcvBdCompFtqFullCnt; - T3_32BIT_REGISTER RcvBdCompFtqFifoEnqueueDequeue; - T3_32BIT_REGISTER RcvBdCompFtqFifoWritePeek; - - T3_32BIT_REGISTER RcvListPlmtFtqCtrl; - T3_32BIT_REGISTER RcvListPlmtFtqFullCnt; - T3_32BIT_REGISTER RcvListPlmtFtqFifoEnqueueDequeue; - T3_32BIT_REGISTER RcvListPlmtFtqFifoWritePeek; - - T3_32BIT_REGISTER RcvDataBdInitiatorFtqCtrl; - T3_32BIT_REGISTER RcvDataBdInitiatorFtqFullCnt; - T3_32BIT_REGISTER RcvDataBdInitiatorFtqFifoEnqueueDequeue; - T3_32BIT_REGISTER RcvDataBdInitiatorFtqFifoWritePeek; - - T3_32BIT_REGISTER RcvDataCompFtqCtrl; - T3_32BIT_REGISTER RcvDataCompFtqFullCnt; - T3_32BIT_REGISTER RcvDataCompFtqFifoEnqueueDequeue; - T3_32BIT_REGISTER RcvDataCompFtqFifoWritePeek; - - T3_32BIT_REGISTER SwType2FtqCtrl; - T3_32BIT_REGISTER SwType2FtqFullCnt; - T3_32BIT_REGISTER SwType2FtqFifoEnqueueDequeue; - T3_32BIT_REGISTER SwType2FtqFifoWritePeek; - - /* Unused space. */ - LM_UINT8 Unused2[736]; -} T3_FTQ, *PT3_FTQ; + T3_32BIT_REGISTER Reset; + + LM_UINT8 Unused[12]; + + T3_32BIT_REGISTER DmaNormalReadFtqCtrl; + T3_32BIT_REGISTER DmaNormalReadFtqFullCnt; + T3_32BIT_REGISTER DmaNormalReadFtqFifoEnqueueDequeue; + T3_32BIT_REGISTER DmaNormalReadFtqFifoWritePeek; + + T3_32BIT_REGISTER DmaHighReadFtqCtrl; + T3_32BIT_REGISTER DmaHighReadFtqFullCnt; + T3_32BIT_REGISTER DmaHighReadFtqFifoEnqueueDequeue; + T3_32BIT_REGISTER DmaHighReadFtqFifoWritePeek; + + T3_32BIT_REGISTER DmaCompDiscardFtqCtrl; + T3_32BIT_REGISTER DmaCompDiscardFtqFullCnt; + T3_32BIT_REGISTER DmaCompDiscardFtqFifoEnqueueDequeue; + T3_32BIT_REGISTER DmaCompDiscardFtqFifoWritePeek; + + T3_32BIT_REGISTER SendBdCompFtqCtrl; + T3_32BIT_REGISTER SendBdCompFtqFullCnt; + T3_32BIT_REGISTER SendBdCompFtqFifoEnqueueDequeue; + T3_32BIT_REGISTER SendBdCompFtqFifoWritePeek; + + T3_32BIT_REGISTER SendDataInitiatorFtqCtrl; + T3_32BIT_REGISTER SendDataInitiatorFtqFullCnt; + T3_32BIT_REGISTER SendDataInitiatorFtqFifoEnqueueDequeue; + T3_32BIT_REGISTER SendDataInitiatorFtqFifoWritePeek; + + T3_32BIT_REGISTER DmaNormalWriteFtqCtrl; + T3_32BIT_REGISTER DmaNormalWriteFtqFullCnt; + T3_32BIT_REGISTER DmaNormalWriteFtqFifoEnqueueDequeue; + T3_32BIT_REGISTER DmaNormalWriteFtqFifoWritePeek; + + T3_32BIT_REGISTER DmaHighWriteFtqCtrl; + T3_32BIT_REGISTER DmaHighWriteFtqFullCnt; + T3_32BIT_REGISTER DmaHighWriteFtqFifoEnqueueDequeue; + T3_32BIT_REGISTER DmaHighWriteFtqFifoWritePeek; + + T3_32BIT_REGISTER SwType1FtqCtrl; + T3_32BIT_REGISTER SwType1FtqFullCnt; + T3_32BIT_REGISTER SwType1FtqFifoEnqueueDequeue; + T3_32BIT_REGISTER SwType1FtqFifoWritePeek; + + T3_32BIT_REGISTER SendDataCompFtqCtrl; + T3_32BIT_REGISTER SendDataCompFtqFullCnt; + T3_32BIT_REGISTER SendDataCompFtqFifoEnqueueDequeue; + T3_32BIT_REGISTER SendDataCompFtqFifoWritePeek; + + T3_32BIT_REGISTER HostCoalesceFtqCtrl; + T3_32BIT_REGISTER HostCoalesceFtqFullCnt; + T3_32BIT_REGISTER HostCoalesceFtqFifoEnqueueDequeue; + T3_32BIT_REGISTER HostCoalesceFtqFifoWritePeek; + + T3_32BIT_REGISTER MacTxFtqCtrl; + T3_32BIT_REGISTER MacTxFtqFullCnt; + T3_32BIT_REGISTER MacTxFtqFifoEnqueueDequeue; + T3_32BIT_REGISTER MacTxFtqFifoWritePeek; + + T3_32BIT_REGISTER MbufClustFreeFtqCtrl; + T3_32BIT_REGISTER MbufClustFreeFtqFullCnt; + T3_32BIT_REGISTER MbufClustFreeFtqFifoEnqueueDequeue; + T3_32BIT_REGISTER MbufClustFreeFtqFifoWritePeek; + + T3_32BIT_REGISTER RcvBdCompFtqCtrl; + T3_32BIT_REGISTER RcvBdCompFtqFullCnt; + T3_32BIT_REGISTER RcvBdCompFtqFifoEnqueueDequeue; + T3_32BIT_REGISTER RcvBdCompFtqFifoWritePeek; + + T3_32BIT_REGISTER RcvListPlmtFtqCtrl; + T3_32BIT_REGISTER RcvListPlmtFtqFullCnt; + T3_32BIT_REGISTER RcvListPlmtFtqFifoEnqueueDequeue; + T3_32BIT_REGISTER RcvListPlmtFtqFifoWritePeek; + + T3_32BIT_REGISTER RcvDataBdInitiatorFtqCtrl; + T3_32BIT_REGISTER RcvDataBdInitiatorFtqFullCnt; + T3_32BIT_REGISTER RcvDataBdInitiatorFtqFifoEnqueueDequeue; + T3_32BIT_REGISTER RcvDataBdInitiatorFtqFifoWritePeek; + + T3_32BIT_REGISTER RcvDataCompFtqCtrl; + T3_32BIT_REGISTER RcvDataCompFtqFullCnt; + T3_32BIT_REGISTER RcvDataCompFtqFifoEnqueueDequeue; + T3_32BIT_REGISTER RcvDataCompFtqFifoWritePeek; + + T3_32BIT_REGISTER SwType2FtqCtrl; + T3_32BIT_REGISTER SwType2FtqFullCnt; + T3_32BIT_REGISTER SwType2FtqFifoEnqueueDequeue; + T3_32BIT_REGISTER SwType2FtqFifoWritePeek; + /* Unused space. */ + LM_UINT8 Unused2[736]; +} T3_FTQ, *PT3_FTQ; /******************************************************************************/ /* Message signaled interrupt registers. */ /******************************************************************************/ typedef struct { - T3_32BIT_REGISTER Mode; + T3_32BIT_REGISTER Mode; #define MSI_MODE_RESET BIT_0 #define MSI_MODE_ENABLE BIT_1 - T3_32BIT_REGISTER Status; + T3_32BIT_REGISTER Status; - T3_32BIT_REGISTER MsiFifoAccess; + T3_32BIT_REGISTER MsiFifoAccess; - /* Unused space. */ - LM_UINT8 Unused[1012]; + /* Unused space. */ + LM_UINT8 Unused[1012]; } T3_MSG_SIGNALED_INT, *PT3_MSG_SIGNALED_INT; - /******************************************************************************/ /* DMA Completion registes. */ /******************************************************************************/ typedef struct { - T3_32BIT_REGISTER Mode; - #define DMA_COMP_MODE_RESET BIT_0 - #define DMA_COMP_MODE_ENABLE BIT_1 + T3_32BIT_REGISTER Mode; +#define DMA_COMP_MODE_RESET BIT_0 +#define DMA_COMP_MODE_ENABLE BIT_1 - /* Unused space. */ - LM_UINT8 Unused[1020]; + /* Unused space. */ + LM_UINT8 Unused[1020]; } T3_DMA_COMPLETION, *PT3_DMA_COMPLETION; - /******************************************************************************/ /* GRC registers. */ /******************************************************************************/ typedef struct { - /* Mode control register. */ - T3_32BIT_REGISTER Mode; - #define GRC_MODE_UPDATE_ON_COALESCING BIT_0 - #define GRC_MODE_BYTE_SWAP_NON_FRAME_DATA BIT_1 - #define GRC_MODE_WORD_SWAP_NON_FRAME_DATA BIT_2 - #define GRC_MODE_BYTE_SWAP_DATA BIT_4 - #define GRC_MODE_WORD_SWAP_DATA BIT_5 - #define GRC_MODE_SPLIT_HEADER_MODE BIT_8 - #define GRC_MODE_NO_FRAME_CRACKING BIT_9 - #define GRC_MODE_INCLUDE_CRC BIT_10 - #define GRC_MODE_ALLOW_BAD_FRAMES BIT_11 - #define GRC_MODE_NO_INTERRUPT_ON_SENDS BIT_13 - #define GRC_MODE_NO_INTERRUPT_ON_RECEIVE BIT_14 - #define GRC_MODE_FORCE_32BIT_PCI_BUS_MODE BIT_15 - #define GRC_MODE_HOST_STACK_UP BIT_16 - #define GRC_MODE_HOST_SEND_BDS BIT_17 - #define GRC_MODE_TX_NO_PSEUDO_HEADER_CHKSUM BIT_20 - #define GRC_MODE_RX_NO_PSEUDO_HEADER_CHKSUM BIT_23 - #define GRC_MODE_INT_ON_TX_CPU_ATTN BIT_24 - #define GRC_MODE_INT_ON_RX_CPU_ATTN BIT_25 - #define GRC_MODE_INT_ON_MAC_ATTN BIT_26 - #define GRC_MODE_INT_ON_DMA_ATTN BIT_27 - #define GRC_MODE_INT_ON_FLOW_ATTN BIT_28 - #define GRC_MODE_4X_NIC_BASED_SEND_RINGS BIT_29 - #define GRC_MODE_MULTICAST_FRAME_ENABLE BIT_30 - - /* Misc configuration register. */ - T3_32BIT_REGISTER MiscCfg; - #define GRC_MISC_CFG_CORE_CLOCK_RESET BIT_0 - #define GRC_MISC_PRESCALAR_TIMER_MASK 0xfe - #define GRC_MISC_BD_ID_MASK 0x0001e000 - #define GRC_MISC_BD_ID_5700 0x0001e000 - #define GRC_MISC_BD_ID_5701 0x00000000 - #define GRC_MISC_BD_ID_5703 0x00000000 - #define GRC_MISC_BD_ID_5703S 0x00002000 - #define GRC_MISC_BD_ID_5702FE 0x00004000 - #define GRC_MISC_BD_ID_5704 0x00000000 - #define GRC_MISC_BD_ID_5704CIOBE 0x00004000 - - /* Miscellaneous local control register. */ - T3_32BIT_REGISTER LocalCtrl; - #define GRC_MISC_LOCAL_CTRL_INT_ACTIVE BIT_0 - #define GRC_MISC_LOCAL_CTRL_CLEAR_INT BIT_1 - #define GRC_MISC_LOCAL_CTRL_SET_INT BIT_2 - #define GRC_MISC_LOCAL_CTRL_INT_ON_ATTN BIT_3 - #define GRC_MISC_LOCAL_CTRL_GPIO_INPUT0 BIT_8 - #define GRC_MISC_LOCAL_CTRL_GPIO_INPUT1 BIT_9 - #define GRC_MISC_LOCAL_CTRL_GPIO_INPUT2 BIT_10 - #define GRC_MISC_LOCAL_CTRL_GPIO_OE0 BIT_11 - #define GRC_MISC_LOCAL_CTRL_GPIO_OE1 BIT_12 - #define GRC_MISC_LOCAL_CTRL_GPIO_OE2 BIT_13 - #define GRC_MISC_LOCAL_CTRL_GPIO_OUTPUT0 BIT_14 - #define GRC_MISC_LOCAL_CTRL_GPIO_OUTPUT1 BIT_15 - #define GRC_MISC_LOCAL_CTRL_GPIO_OUTPUT2 BIT_16 - #define GRC_MISC_LOCAL_CTRL_ENABLE_EXT_MEMORY BIT_17 - #define GRC_MISC_LOCAL_CTRL_BANK_SELECT BIT_21 - #define GRC_MISC_LOCAL_CTRL_SSRAM_TYPE BIT_22 - - #define GRC_MISC_MEMSIZE_256K 0 - #define GRC_MISC_MEMSIZE_512K (1 << 18) - #define GRC_MISC_MEMSIZE_1024K (2 << 18) - #define GRC_MISC_MEMSIZE_2048K (3 << 18) - #define GRC_MISC_MEMSIZE_4096K (4 << 18) - #define GRC_MISC_MEMSIZE_8192K (5 << 18) - #define GRC_MISC_MEMSIZE_16M (6 << 18) - #define GRC_MISC_LOCAL_CTRL_AUTO_SEEPROM BIT_24 - - - T3_32BIT_REGISTER Timer; - - T3_32BIT_REGISTER RxCpuEvent; - T3_32BIT_REGISTER RxTimerRef; - T3_32BIT_REGISTER RxCpuSemaphore; - T3_32BIT_REGISTER RemoteRxCpuAttn; - - T3_32BIT_REGISTER TxCpuEvent; - T3_32BIT_REGISTER TxTimerRef; - T3_32BIT_REGISTER TxCpuSemaphore; - T3_32BIT_REGISTER RemoteTxCpuAttn; - - T3_64BIT_REGISTER MemoryPowerUp; - - T3_32BIT_REGISTER EepromAddr; - #define SEEPROM_ADDR_WRITE 0 - #define SEEPROM_ADDR_READ (1 << 31) - #define SEEPROM_ADDR_RW_MASK 0x80000000 - #define SEEPROM_ADDR_COMPLETE (1 << 30) - #define SEEPROM_ADDR_FSM_RESET (1 << 29) - #define SEEPROM_ADDR_DEV_ID(x) (x << 26) - #define SEEPROM_ADDR_DEV_ID_MASK 0x1c000000 - #define SEEPROM_ADDR_START (1 << 25) - #define SEEPROM_ADDR_CLK_PERD(x) (x << 16) - #define SEEPROM_ADDR_ADDRESS(x) (x & 0xfffc) - #define SEEPROM_ADDR_ADDRESS_MASK 0x0000ffff - - #define SEEPROM_CLOCK_PERIOD 60 - #define SEEPROM_CHIP_SIZE (64 * 1024) - - T3_32BIT_REGISTER EepromData; - T3_32BIT_REGISTER EepromCtrl; - - T3_32BIT_REGISTER MdiCtrl; - T3_32BIT_REGISTER SepromDelay; - - /* Unused space. */ - LM_UINT8 Unused[948]; -} T3_GRC, *PT3_GRC; + /* Mode control register. */ + T3_32BIT_REGISTER Mode; +#define GRC_MODE_UPDATE_ON_COALESCING BIT_0 +#define GRC_MODE_BYTE_SWAP_NON_FRAME_DATA BIT_1 +#define GRC_MODE_WORD_SWAP_NON_FRAME_DATA BIT_2 +#define GRC_MODE_BYTE_SWAP_DATA BIT_4 +#define GRC_MODE_WORD_SWAP_DATA BIT_5 +#define GRC_MODE_SPLIT_HEADER_MODE BIT_8 +#define GRC_MODE_NO_FRAME_CRACKING BIT_9 +#define GRC_MODE_INCLUDE_CRC BIT_10 +#define GRC_MODE_ALLOW_BAD_FRAMES BIT_11 +#define GRC_MODE_NO_INTERRUPT_ON_SENDS BIT_13 +#define GRC_MODE_NO_INTERRUPT_ON_RECEIVE BIT_14 +#define GRC_MODE_FORCE_32BIT_PCI_BUS_MODE BIT_15 +#define GRC_MODE_HOST_STACK_UP BIT_16 +#define GRC_MODE_HOST_SEND_BDS BIT_17 +#define GRC_MODE_TX_NO_PSEUDO_HEADER_CHKSUM BIT_20 +#define GRC_MODE_RX_NO_PSEUDO_HEADER_CHKSUM BIT_23 +#define GRC_MODE_INT_ON_TX_CPU_ATTN BIT_24 +#define GRC_MODE_INT_ON_RX_CPU_ATTN BIT_25 +#define GRC_MODE_INT_ON_MAC_ATTN BIT_26 +#define GRC_MODE_INT_ON_DMA_ATTN BIT_27 +#define GRC_MODE_INT_ON_FLOW_ATTN BIT_28 +#define GRC_MODE_4X_NIC_BASED_SEND_RINGS BIT_29 +#define GRC_MODE_MULTICAST_FRAME_ENABLE BIT_30 + + /* Misc configuration register. */ + T3_32BIT_REGISTER MiscCfg; +#define GRC_MISC_CFG_CORE_CLOCK_RESET BIT_0 +#define GRC_MISC_PRESCALAR_TIMER_MASK 0xfe +#define GRC_MISC_BD_ID_MASK 0x0001e000 +#define GRC_MISC_BD_ID_5700 0x0001e000 +#define GRC_MISC_BD_ID_5701 0x00000000 +#define GRC_MISC_BD_ID_5703 0x00000000 +#define GRC_MISC_BD_ID_5703S 0x00002000 +#define GRC_MISC_BD_ID_5702FE 0x00004000 +#define GRC_MISC_BD_ID_5704 0x00000000 +#define GRC_MISC_BD_ID_5704CIOBE 0x00004000 + + /* Miscellaneous local control register. */ + T3_32BIT_REGISTER LocalCtrl; +#define GRC_MISC_LOCAL_CTRL_INT_ACTIVE BIT_0 +#define GRC_MISC_LOCAL_CTRL_CLEAR_INT BIT_1 +#define GRC_MISC_LOCAL_CTRL_SET_INT BIT_2 +#define GRC_MISC_LOCAL_CTRL_INT_ON_ATTN BIT_3 +#define GRC_MISC_LOCAL_CTRL_GPIO_INPUT0 BIT_8 +#define GRC_MISC_LOCAL_CTRL_GPIO_INPUT1 BIT_9 +#define GRC_MISC_LOCAL_CTRL_GPIO_INPUT2 BIT_10 +#define GRC_MISC_LOCAL_CTRL_GPIO_OE0 BIT_11 +#define GRC_MISC_LOCAL_CTRL_GPIO_OE1 BIT_12 +#define GRC_MISC_LOCAL_CTRL_GPIO_OE2 BIT_13 +#define GRC_MISC_LOCAL_CTRL_GPIO_OUTPUT0 BIT_14 +#define GRC_MISC_LOCAL_CTRL_GPIO_OUTPUT1 BIT_15 +#define GRC_MISC_LOCAL_CTRL_GPIO_OUTPUT2 BIT_16 +#define GRC_MISC_LOCAL_CTRL_ENABLE_EXT_MEMORY BIT_17 +#define GRC_MISC_LOCAL_CTRL_BANK_SELECT BIT_21 +#define GRC_MISC_LOCAL_CTRL_SSRAM_TYPE BIT_22 + +#define GRC_MISC_MEMSIZE_256K 0 +#define GRC_MISC_MEMSIZE_512K (1 << 18) +#define GRC_MISC_MEMSIZE_1024K (2 << 18) +#define GRC_MISC_MEMSIZE_2048K (3 << 18) +#define GRC_MISC_MEMSIZE_4096K (4 << 18) +#define GRC_MISC_MEMSIZE_8192K (5 << 18) +#define GRC_MISC_MEMSIZE_16M (6 << 18) +#define GRC_MISC_LOCAL_CTRL_AUTO_SEEPROM BIT_24 + + T3_32BIT_REGISTER Timer; + + T3_32BIT_REGISTER RxCpuEvent; + T3_32BIT_REGISTER RxTimerRef; + T3_32BIT_REGISTER RxCpuSemaphore; + T3_32BIT_REGISTER RemoteRxCpuAttn; + + T3_32BIT_REGISTER TxCpuEvent; + T3_32BIT_REGISTER TxTimerRef; + T3_32BIT_REGISTER TxCpuSemaphore; + T3_32BIT_REGISTER RemoteTxCpuAttn; + + T3_64BIT_REGISTER MemoryPowerUp; + + T3_32BIT_REGISTER EepromAddr; +#define SEEPROM_ADDR_WRITE 0 +#define SEEPROM_ADDR_READ (1 << 31) +#define SEEPROM_ADDR_RW_MASK 0x80000000 +#define SEEPROM_ADDR_COMPLETE (1 << 30) +#define SEEPROM_ADDR_FSM_RESET (1 << 29) +#define SEEPROM_ADDR_DEV_ID(x) (x << 26) +#define SEEPROM_ADDR_DEV_ID_MASK 0x1c000000 +#define SEEPROM_ADDR_START (1 << 25) +#define SEEPROM_ADDR_CLK_PERD(x) (x << 16) +#define SEEPROM_ADDR_ADDRESS(x) (x & 0xfffc) +#define SEEPROM_ADDR_ADDRESS_MASK 0x0000ffff + +#define SEEPROM_CLOCK_PERIOD 60 +#define SEEPROM_CHIP_SIZE (64 * 1024) + + T3_32BIT_REGISTER EepromData; + T3_32BIT_REGISTER EepromCtrl; + + T3_32BIT_REGISTER MdiCtrl; + T3_32BIT_REGISTER SepromDelay; + /* Unused space. */ + LM_UINT8 Unused[948]; +} T3_GRC, *PT3_GRC; /******************************************************************************/ /* NVRAM control registers. */ /******************************************************************************/ -typedef struct -{ - T3_32BIT_REGISTER Cmd; - #define NVRAM_CMD_RESET BIT_0 - #define NVRAM_CMD_DONE BIT_3 - #define NVRAM_CMD_DO_IT BIT_4 - #define NVRAM_CMD_WR BIT_5 - #define NVRAM_CMD_RD BIT_NONE - #define NVRAM_CMD_ERASE BIT_6 - #define NVRAM_CMD_FIRST BIT_7 - #define NVRAM_CMD_LAST BIT_8 - - T3_32BIT_REGISTER Status; - T3_32BIT_REGISTER WriteData; - - T3_32BIT_REGISTER Addr; - #define NVRAM_ADDRESS_MASK 0xffffff - - T3_32BIT_REGISTER ReadData; - - /* Flash config 1 register. */ - T3_32BIT_REGISTER Config1; - #define FLASH_INTERFACE_ENABLE BIT_0 - #define FLASH_SSRAM_BUFFERRED_MODE BIT_1 - #define FLASH_PASS_THRU_MODE BIT_2 - #define FLASH_BIT_BANG_MODE BIT_3 - #define FLASH_COMPAT_BYPASS BIT_31 - - /* Buffered flash (Atmel: AT45DB011B) specific information */ - #define BUFFERED_FLASH_PAGE_POS 9 - #define BUFFERED_FLASH_BYTE_ADDR_MASK ((1<<BUFFERED_FLASH_PAGE_POS) - 1) - #define BUFFERED_FLASH_PAGE_SIZE 264 - #define BUFFERED_FLASH_PHY_PAGE_SIZE 512 - - T3_32BIT_REGISTER Config2; - T3_32BIT_REGISTER Config3; - T3_32BIT_REGISTER SwArb; - #define SW_ARB_REQ_SET0 BIT_0 - #define SW_ARB_REQ_SET1 BIT_1 - #define SW_ARB_REQ_SET2 BIT_2 - #define SW_ARB_REQ_SET3 BIT_3 - #define SW_ARB_REQ_CLR0 BIT_4 - #define SW_ARB_REQ_CLR1 BIT_5 - #define SW_ARB_REQ_CLR2 BIT_6 - #define SW_ARB_REQ_CLR3 BIT_7 - #define SW_ARB_GNT0 BIT_8 - #define SW_ARB_GNT1 BIT_9 - #define SW_ARB_GNT2 BIT_10 - #define SW_ARB_GNT3 BIT_11 - #define SW_ARB_REQ0 BIT_12 - #define SW_ARB_REQ1 BIT_13 - #define SW_ARB_REQ2 BIT_14 - #define SW_ARB_REQ3 BIT_15 - - /* Unused space. */ - LM_UINT8 Unused[988]; -} T3_NVRAM, *PT3_NVRAM; +typedef struct { + T3_32BIT_REGISTER Cmd; +#define NVRAM_CMD_RESET BIT_0 +#define NVRAM_CMD_DONE BIT_3 +#define NVRAM_CMD_DO_IT BIT_4 +#define NVRAM_CMD_WR BIT_5 +#define NVRAM_CMD_RD BIT_NONE +#define NVRAM_CMD_ERASE BIT_6 +#define NVRAM_CMD_FIRST BIT_7 +#define NVRAM_CMD_LAST BIT_8 + + T3_32BIT_REGISTER Status; + T3_32BIT_REGISTER WriteData; + + T3_32BIT_REGISTER Addr; +#define NVRAM_ADDRESS_MASK 0xffffff + + T3_32BIT_REGISTER ReadData; + + /* Flash config 1 register. */ + T3_32BIT_REGISTER Config1; +#define FLASH_INTERFACE_ENABLE BIT_0 +#define FLASH_SSRAM_BUFFERRED_MODE BIT_1 +#define FLASH_PASS_THRU_MODE BIT_2 +#define FLASH_BIT_BANG_MODE BIT_3 +#define FLASH_COMPAT_BYPASS BIT_31 + + /* Buffered flash (Atmel: AT45DB011B) specific information */ +#define BUFFERED_FLASH_PAGE_POS 9 +#define BUFFERED_FLASH_BYTE_ADDR_MASK ((1<<BUFFERED_FLASH_PAGE_POS) - 1) +#define BUFFERED_FLASH_PAGE_SIZE 264 +#define BUFFERED_FLASH_PHY_PAGE_SIZE 512 + + T3_32BIT_REGISTER Config2; + T3_32BIT_REGISTER Config3; + T3_32BIT_REGISTER SwArb; +#define SW_ARB_REQ_SET0 BIT_0 +#define SW_ARB_REQ_SET1 BIT_1 +#define SW_ARB_REQ_SET2 BIT_2 +#define SW_ARB_REQ_SET3 BIT_3 +#define SW_ARB_REQ_CLR0 BIT_4 +#define SW_ARB_REQ_CLR1 BIT_5 +#define SW_ARB_REQ_CLR2 BIT_6 +#define SW_ARB_REQ_CLR3 BIT_7 +#define SW_ARB_GNT0 BIT_8 +#define SW_ARB_GNT1 BIT_9 +#define SW_ARB_GNT2 BIT_10 +#define SW_ARB_GNT3 BIT_11 +#define SW_ARB_REQ0 BIT_12 +#define SW_ARB_REQ1 BIT_13 +#define SW_ARB_REQ2 BIT_14 +#define SW_ARB_REQ3 BIT_15 + /* Unused space. */ + LM_UINT8 Unused[988]; +} T3_NVRAM, *PT3_NVRAM; /******************************************************************************/ /* NIC's internal memory. */ /******************************************************************************/ typedef struct { - /* Page zero for the internal CPUs. */ - LM_UINT8 PageZero[0x100]; /* 0x0000 */ + /* Page zero for the internal CPUs. */ + LM_UINT8 PageZero[0x100]; /* 0x0000 */ - /* Send RCBs. */ - T3_RCB SendRcb[16]; /* 0x0100 */ + /* Send RCBs. */ + T3_RCB SendRcb[16]; /* 0x0100 */ - /* Receive Return RCBs. */ - T3_RCB RcvRetRcb[16]; /* 0x0200 */ + /* Receive Return RCBs. */ + T3_RCB RcvRetRcb[16]; /* 0x0200 */ - /* Statistics block. */ - T3_STATS_BLOCK StatsBlk; /* 0x0300 */ + /* Statistics block. */ + T3_STATS_BLOCK StatsBlk; /* 0x0300 */ - /* Status block. */ - T3_STATUS_BLOCK StatusBlk; /* 0x0b00 */ + /* Status block. */ + T3_STATUS_BLOCK StatusBlk; /* 0x0b00 */ - /* Reserved for software. */ - LM_UINT8 Reserved[1200]; /* 0x0b50 */ + /* Reserved for software. */ + LM_UINT8 Reserved[1200]; /* 0x0b50 */ - /* Unmapped region. */ - LM_UINT8 Unmapped[4096]; /* 0x1000 */ + /* Unmapped region. */ + LM_UINT8 Unmapped[4096]; /* 0x1000 */ - /* DMA descriptors. */ - LM_UINT8 DmaDesc[8192]; /* 0x2000 */ + /* DMA descriptors. */ + LM_UINT8 DmaDesc[8192]; /* 0x2000 */ - /* Buffer descriptors. */ - LM_UINT8 BufferDesc[16384]; /* 0x4000 */ + /* Buffer descriptors. */ + LM_UINT8 BufferDesc[16384]; /* 0x4000 */ } T3_FIRST_32K_SRAM, *PT3_FIRST_32K_SRAM; - /******************************************************************************/ /* Memory layout. */ /******************************************************************************/ typedef struct { - /* PCI configuration registers. */ - T3_PCI_CONFIGURATION PciCfg; - - /* Unused. */ - LM_UINT8 Unused1[0x100]; /* 0x0100 */ + /* PCI configuration registers. */ + T3_PCI_CONFIGURATION PciCfg; - /* Mailbox . */ - T3_MAILBOX Mailbox; /* 0x0200 */ + /* Unused. */ + LM_UINT8 Unused1[0x100]; /* 0x0100 */ - /* MAC control registers. */ - T3_MAC_CONTROL MacCtrl; /* 0x0400 */ + /* Mailbox . */ + T3_MAILBOX Mailbox; /* 0x0200 */ - /* Send data initiator control registers. */ - T3_SEND_DATA_INITIATOR SndDataIn; /* 0x0c00 */ + /* MAC control registers. */ + T3_MAC_CONTROL MacCtrl; /* 0x0400 */ - /* Send data completion Control registers. */ - T3_SEND_DATA_COMPLETION SndDataComp; /* 0x1000 */ + /* Send data initiator control registers. */ + T3_SEND_DATA_INITIATOR SndDataIn; /* 0x0c00 */ - /* Send BD ring selector. */ - T3_SEND_BD_SELECTOR SndBdSel; /* 0x1400 */ + /* Send data completion Control registers. */ + T3_SEND_DATA_COMPLETION SndDataComp; /* 0x1000 */ - /* Send BD initiator control registers. */ - T3_SEND_BD_INITIATOR SndBdIn; /* 0x1800 */ + /* Send BD ring selector. */ + T3_SEND_BD_SELECTOR SndBdSel; /* 0x1400 */ - /* Send BD completion control registers. */ - T3_SEND_BD_COMPLETION SndBdComp; /* 0x1c00 */ + /* Send BD initiator control registers. */ + T3_SEND_BD_INITIATOR SndBdIn; /* 0x1800 */ - /* Receive list placement control registers. */ - T3_RCV_LIST_PLACEMENT RcvListPlmt; /* 0x2000 */ + /* Send BD completion control registers. */ + T3_SEND_BD_COMPLETION SndBdComp; /* 0x1c00 */ - /* Receive Data and Receive BD Initiator Control. */ - T3_RCV_DATA_BD_INITIATOR RcvDataBdIn; /* 0x2400 */ + /* Receive list placement control registers. */ + T3_RCV_LIST_PLACEMENT RcvListPlmt; /* 0x2000 */ - /* Receive Data Completion Control */ - T3_RCV_DATA_COMPLETION RcvDataComp; /* 0x2800 */ + /* Receive Data and Receive BD Initiator Control. */ + T3_RCV_DATA_BD_INITIATOR RcvDataBdIn; /* 0x2400 */ - /* Receive BD Initiator Control Registers. */ - T3_RCV_BD_INITIATOR RcvBdIn; /* 0x2c00 */ + /* Receive Data Completion Control */ + T3_RCV_DATA_COMPLETION RcvDataComp; /* 0x2800 */ - /* Receive BD Completion Control Registers. */ - T3_RCV_BD_COMPLETION RcvBdComp; /* 0x3000 */ + /* Receive BD Initiator Control Registers. */ + T3_RCV_BD_INITIATOR RcvBdIn; /* 0x2c00 */ - /* Receive list selector control registers. */ - T3_RCV_LIST_SELECTOR RcvListSel; /* 0x3400 */ + /* Receive BD Completion Control Registers. */ + T3_RCV_BD_COMPLETION RcvBdComp; /* 0x3000 */ - /* Mbuf cluster free registers. */ - T3_MBUF_CLUSTER_FREE MbufClusterFree; /* 0x3800 */ + /* Receive list selector control registers. */ + T3_RCV_LIST_SELECTOR RcvListSel; /* 0x3400 */ - /* Host coalescing control registers. */ - T3_HOST_COALESCING HostCoalesce; /* 0x3c00 */ + /* Mbuf cluster free registers. */ + T3_MBUF_CLUSTER_FREE MbufClusterFree; /* 0x3800 */ - /* Memory arbiter control registers. */ - T3_MEM_ARBITER MemArbiter; /* 0x4000 */ + /* Host coalescing control registers. */ + T3_HOST_COALESCING HostCoalesce; /* 0x3c00 */ - /* Buffer manger control registers. */ - T3_BUFFER_MANAGER BufMgr; /* 0x4400 */ + /* Memory arbiter control registers. */ + T3_MEM_ARBITER MemArbiter; /* 0x4000 */ - /* Read DMA control registers. */ - T3_DMA_READ DmaRead; /* 0x4800 */ + /* Buffer manger control registers. */ + T3_BUFFER_MANAGER BufMgr; /* 0x4400 */ - /* Write DMA control registers. */ - T3_DMA_WRITE DmaWrite; /* 0x4c00 */ + /* Read DMA control registers. */ + T3_DMA_READ DmaRead; /* 0x4800 */ - T3_CPU rxCpu; /* 0x5000 */ - T3_CPU txCpu; /* 0x5400 */ + /* Write DMA control registers. */ + T3_DMA_WRITE DmaWrite; /* 0x4c00 */ - /* Mailboxes. */ - T3_GRC_MAILBOX GrcMailbox; /* 0x5800 */ + T3_CPU rxCpu; /* 0x5000 */ + T3_CPU txCpu; /* 0x5400 */ - /* Flow Through queues. */ - T3_FTQ Ftq; /* 0x5c00 */ + /* Mailboxes. */ + T3_GRC_MAILBOX GrcMailbox; /* 0x5800 */ - /* Message signaled interrupt registes. */ - T3_MSG_SIGNALED_INT Msi; /* 0x6000 */ + /* Flow Through queues. */ + T3_FTQ Ftq; /* 0x5c00 */ - /* DMA completion registers. */ - T3_DMA_COMPLETION DmaComp; /* 0x6400 */ + /* Message signaled interrupt registes. */ + T3_MSG_SIGNALED_INT Msi; /* 0x6000 */ - /* GRC registers. */ - T3_GRC Grc; /* 0x6800 */ + /* DMA completion registers. */ + T3_DMA_COMPLETION DmaComp; /* 0x6400 */ - /* Unused space. */ - LM_UINT8 Unused2[1024]; /* 0x6c00 */ + /* GRC registers. */ + T3_GRC Grc; /* 0x6800 */ - /* NVRAM registers. */ - T3_NVRAM Nvram; /* 0x7000 */ - - /* Unused space. */ - LM_UINT8 Unused3[3072]; /* 0x7400 */ + /* Unused space. */ + LM_UINT8 Unused2[1024]; /* 0x6c00 */ - /* The 32k memory window into the NIC's */ - /* internal memory. The memory window is */ - /* controlled by the Memory Window Base */ - /* Address register. This register is located */ - /* in the PCI configuration space. */ - union { /* 0x8000 */ - T3_FIRST_32K_SRAM First32k; + /* NVRAM registers. */ + T3_NVRAM Nvram; /* 0x7000 */ - /* Use the memory window base address register to determine the */ - /* MBUF segment. */ - LM_UINT32 Mbuf[32768/4]; - LM_UINT32 MemBlock32K[32768/4]; - } uIntMem; + /* Unused space. */ + LM_UINT8 Unused3[3072]; /* 0x7400 */ + + /* The 32k memory window into the NIC's */ + /* internal memory. The memory window is */ + /* controlled by the Memory Window Base */ + /* Address register. This register is located */ + /* in the PCI configuration space. */ + union { /* 0x8000 */ + T3_FIRST_32K_SRAM First32k; + + /* Use the memory window base address register to determine the */ + /* MBUF segment. */ + LM_UINT32 Mbuf[32768 / 4]; + LM_UINT32 MemBlock32K[32768 / 4]; + } uIntMem; } T3_STD_MEM_MAP, *PT3_STD_MEM_MAP; - /******************************************************************************/ /* Adapter info. */ /******************************************************************************/ -typedef struct -{ - LM_UINT16 Svid; - LM_UINT16 Ssid; - LM_UINT32 PhyId; - LM_UINT32 Serdes; /* 0 = copper PHY, 1 = Serdes */ +typedef struct { + LM_UINT16 Svid; + LM_UINT16 Ssid; + LM_UINT32 PhyId; + LM_UINT32 Serdes; /* 0 = copper PHY, 1 = Serdes */ } LM_ADAPTER_INFO, *PLM_ADAPTER_INFO; - /******************************************************************************/ /* Packet queues. */ /******************************************************************************/ -DECLARE_QUEUE_TYPE(LM_RX_PACKET_Q, MAX_RX_PACKET_DESC_COUNT); -DECLARE_QUEUE_TYPE(LM_TX_PACKET_Q, MAX_TX_PACKET_DESC_COUNT); - +DECLARE_QUEUE_TYPE (LM_RX_PACKET_Q, MAX_RX_PACKET_DESC_COUNT); +DECLARE_QUEUE_TYPE (LM_TX_PACKET_Q, MAX_TX_PACKET_DESC_COUNT); /******************************************************************************/ /* Tx counters. */ /******************************************************************************/ typedef struct { - LM_COUNTER TxPacketGoodCnt; - LM_COUNTER TxBytesGoodCnt; - LM_COUNTER TxPacketAbortedCnt; - LM_COUNTER NoSendBdLeftCnt; - LM_COUNTER NoMapRegisterLeftCnt; - LM_COUNTER TooManyFragmentsCnt; - LM_COUNTER NoTxPacketDescCnt; + LM_COUNTER TxPacketGoodCnt; + LM_COUNTER TxBytesGoodCnt; + LM_COUNTER TxPacketAbortedCnt; + LM_COUNTER NoSendBdLeftCnt; + LM_COUNTER NoMapRegisterLeftCnt; + LM_COUNTER TooManyFragmentsCnt; + LM_COUNTER NoTxPacketDescCnt; } LM_TX_COUNTERS, *PLM_TX_COUNTERS; - /******************************************************************************/ /* Rx counters. */ /******************************************************************************/ typedef struct { - LM_COUNTER RxPacketGoodCnt; - LM_COUNTER RxBytesGoodCnt; - LM_COUNTER RxPacketErrCnt; - LM_COUNTER RxErrCrcCnt; - LM_COUNTER RxErrCollCnt; - LM_COUNTER RxErrLinkLostCnt; - LM_COUNTER RxErrPhyDecodeCnt; - LM_COUNTER RxErrOddNibbleCnt; - LM_COUNTER RxErrMacAbortCnt; - LM_COUNTER RxErrShortPacketCnt; - LM_COUNTER RxErrNoResourceCnt; - LM_COUNTER RxErrLargePacketCnt; + LM_COUNTER RxPacketGoodCnt; + LM_COUNTER RxBytesGoodCnt; + LM_COUNTER RxPacketErrCnt; + LM_COUNTER RxErrCrcCnt; + LM_COUNTER RxErrCollCnt; + LM_COUNTER RxErrLinkLostCnt; + LM_COUNTER RxErrPhyDecodeCnt; + LM_COUNTER RxErrOddNibbleCnt; + LM_COUNTER RxErrMacAbortCnt; + LM_COUNTER RxErrShortPacketCnt; + LM_COUNTER RxErrNoResourceCnt; + LM_COUNTER RxErrLargePacketCnt; } LM_RX_COUNTERS, *PLM_RX_COUNTERS; - /******************************************************************************/ /* Receive producer rings. */ /******************************************************************************/ typedef enum { - T3_UNKNOWN_RCV_PROD_RING = 0, - T3_STD_RCV_PROD_RING = 1, - T3_MINI_RCV_PROD_RING = 2, - T3_JUMBO_RCV_PROD_RING = 3 + T3_UNKNOWN_RCV_PROD_RING = 0, + T3_STD_RCV_PROD_RING = 1, + T3_MINI_RCV_PROD_RING = 2, + T3_JUMBO_RCV_PROD_RING = 3 } T3_RCV_PROD_RING, *PT3_RCV_PROD_RING; - /******************************************************************************/ /* Packet descriptor. */ /******************************************************************************/ @@ -2758,331 +2675,328 @@ typedef enum { #define LM_PACKET_SIGNATURE_RX 0x6b766168 typedef struct _LM_PACKET { - /* Set in LM. */ - LM_STATUS PacketStatus; + /* Set in LM. */ + LM_STATUS PacketStatus; - /* Set in LM for Rx, in UM for Tx. */ - LM_UINT32 PacketSize; + /* Set in LM for Rx, in UM for Tx. */ + LM_UINT32 PacketSize; - LM_UINT16 Flags; + LM_UINT16 Flags; - LM_UINT16 VlanTag; + LM_UINT16 VlanTag; - union { - /* Send info. */ - struct { - /* Set up by UM. */ - LM_UINT32 FragCount; + union { + /* Send info. */ + struct { + /* Set up by UM. */ + LM_UINT32 FragCount; - } Tx; + } Tx; - /* Receive info. */ - struct { - /* This descriptor belongs to either Std, Mini, or Jumbo ring. */ - T3_RCV_PROD_RING RcvProdRing; + /* Receive info. */ + struct { + /* This descriptor belongs to either Std, Mini, or Jumbo ring. */ + T3_RCV_PROD_RING RcvProdRing; - /* Receive buffer size */ - LM_UINT32 RxBufferSize; + /* Receive buffer size */ + LM_UINT32 RxBufferSize; - /* Checksum information. */ - LM_UINT16 IpChecksum; - LM_UINT16 TcpUdpChecksum; + /* Checksum information. */ + LM_UINT16 IpChecksum; + LM_UINT16 TcpUdpChecksum; - } Rx; - } u; + } Rx; + } u; } LM_PACKET; - /******************************************************************************/ /* Tigon3 device block. */ /******************************************************************************/ typedef struct _LM_DEVICE_BLOCK { - int index; /* Device ID */ - /* Memory view. */ - PT3_STD_MEM_MAP pMemView; + int index; /* Device ID */ + /* Memory view. */ + PT3_STD_MEM_MAP pMemView; - /* Base address of the block of memory in which the LM_PACKET descriptors */ - /* are allocated from. */ - PLM_VOID pPacketDescBase; + /* Base address of the block of memory in which the LM_PACKET descriptors */ + /* are allocated from. */ + PLM_VOID pPacketDescBase; - LM_UINT32 MiscHostCtrl; - LM_UINT32 GrcLocalCtrl; - LM_UINT32 DmaReadWriteCtrl; - LM_UINT32 PciState; + LM_UINT32 MiscHostCtrl; + LM_UINT32 GrcLocalCtrl; + LM_UINT32 DmaReadWriteCtrl; + LM_UINT32 PciState; - /* Rx info */ - LM_UINT32 RxStdDescCnt; - LM_UINT32 RxStdQueuedCnt; - LM_UINT32 RxStdProdIdx; + /* Rx info */ + LM_UINT32 RxStdDescCnt; + LM_UINT32 RxStdQueuedCnt; + LM_UINT32 RxStdProdIdx; - PT3_RCV_BD pRxStdBdVirt; - LM_PHYSICAL_ADDRESS RxStdBdPhy; + PT3_RCV_BD pRxStdBdVirt; + LM_PHYSICAL_ADDRESS RxStdBdPhy; - LM_UINT32 RxPacketDescCnt; - LM_RX_PACKET_Q RxPacketFreeQ; - LM_RX_PACKET_Q RxPacketReceivedQ; + LM_UINT32 RxPacketDescCnt; + LM_RX_PACKET_Q RxPacketFreeQ; + LM_RX_PACKET_Q RxPacketReceivedQ; - /* Receive info. */ - PT3_RCV_BD pRcvRetBdVirt; - LM_PHYSICAL_ADDRESS RcvRetBdPhy; - LM_UINT32 RcvRetConIdx; + /* Receive info. */ + PT3_RCV_BD pRcvRetBdVirt; + LM_PHYSICAL_ADDRESS RcvRetBdPhy; + LM_UINT32 RcvRetConIdx; #if T3_JUMBO_RCV_RCB_ENTRY_COUNT - LM_UINT32 RxJumboDescCnt; - LM_UINT32 RxJumboBufferSize; - LM_UINT32 RxJumboQueuedCnt; + LM_UINT32 RxJumboDescCnt; + LM_UINT32 RxJumboBufferSize; + LM_UINT32 RxJumboQueuedCnt; + + LM_UINT32 RxJumboProdIdx; + + PT3_RCV_BD pRxJumboBdVirt; + LM_PHYSICAL_ADDRESS RxJumboBdPhy; +#endif /* T3_JUMBO_RCV_RCB_ENTRY_COUNT */ - LM_UINT32 RxJumboProdIdx; + /* These values are used by the upper module to inform the protocol */ + /* of the maximum transmit/receive packet size. */ + LM_UINT32 TxMtu; /* Does not include CRC. */ + LM_UINT32 RxMtu; /* Does not include CRC. */ - PT3_RCV_BD pRxJumboBdVirt; - LM_PHYSICAL_ADDRESS RxJumboBdPhy; -#endif /* T3_JUMBO_RCV_RCB_ENTRY_COUNT */ + /* We need to shadow the EMAC, Rx, Tx mode registers. With B0 silicon, */ + /* we may have problems reading any MAC registers in 10mb mode. */ + LM_UINT32 MacMode; + LM_UINT32 RxMode; + LM_UINT32 TxMode; - /* These values are used by the upper module to inform the protocol */ - /* of the maximum transmit/receive packet size. */ - LM_UINT32 TxMtu; /* Does not include CRC. */ - LM_UINT32 RxMtu; /* Does not include CRC. */ + /* MiMode register. */ + LM_UINT32 MiMode; - /* We need to shadow the EMAC, Rx, Tx mode registers. With B0 silicon, */ - /* we may have problems reading any MAC registers in 10mb mode. */ - LM_UINT32 MacMode; - LM_UINT32 RxMode; - LM_UINT32 TxMode; + /* Host coalesce mode register. */ + LM_UINT32 CoalesceMode; - /* MiMode register. */ - LM_UINT32 MiMode; - - /* Host coalesce mode register. */ - LM_UINT32 CoalesceMode; - - /* Send info. */ - LM_UINT32 TxPacketDescCnt; - - /* Tx info. */ - LM_TX_PACKET_Q TxPacketFreeQ; - LM_TX_PACKET_Q TxPacketActiveQ; - LM_TX_PACKET_Q TxPacketXmittedQ; - - /* Pointers to SendBd. */ - PT3_SND_BD pSendBdVirt; - LM_PHYSICAL_ADDRESS SendBdPhy; /* Only valid for Host based Send BD. */ - - /* Send producer and consumer indices. */ - LM_UINT32 SendProdIdx; - LM_UINT32 SendConIdx; - - /* Number of BD left. */ - atomic_t SendBdLeft; - - T3_SND_BD ShadowSendBd[T3_SEND_RCB_ENTRY_COUNT]; - - /* Counters. */ - LM_RX_COUNTERS RxCounters; - LM_TX_COUNTERS TxCounters; - - /* Host coalescing parameters. */ - LM_UINT32 RxCoalescingTicks; - LM_UINT32 TxCoalescingTicks; - LM_UINT32 RxMaxCoalescedFrames; - LM_UINT32 TxMaxCoalescedFrames; - LM_UINT32 StatsCoalescingTicks; - LM_UINT32 RxCoalescingTicksDuringInt; - LM_UINT32 TxCoalescingTicksDuringInt; - LM_UINT32 RxMaxCoalescedFramesDuringInt; - LM_UINT32 TxMaxCoalescedFramesDuringInt; - - /* DMA water marks. */ - LM_UINT32 DmaMbufLowMark; - LM_UINT32 RxMacMbufLowMark; - LM_UINT32 MbufHighMark; - - /* Status block. */ - PT3_STATUS_BLOCK pStatusBlkVirt; - LM_PHYSICAL_ADDRESS StatusBlkPhy; - - /* Statistics block. */ - PT3_STATS_BLOCK pStatsBlkVirt; - LM_PHYSICAL_ADDRESS StatsBlkPhy; - - /* Current receive mask. */ - LM_UINT32 ReceiveMask; - - /* Task offload capabilities. */ - LM_TASK_OFFLOAD TaskOffloadCap; - - /* Task offload selected. */ - LM_TASK_OFFLOAD TaskToOffload; - - /* Wake up capability. */ - LM_WAKE_UP_MODE WakeUpModeCap; - - /* Wake up capability. */ - LM_WAKE_UP_MODE WakeUpMode; - - /* Flow control. */ - LM_FLOW_CONTROL FlowControlCap; - LM_FLOW_CONTROL FlowControl; - - /* Enable or disable PCI MWI. */ - LM_UINT32 EnableMWI; - - /* Enable 5701 tagged status mode. */ - LM_UINT32 UseTaggedStatus; - - /* NIC will not compute the pseudo header checksum. The driver or OS */ - /* must seed the checksum field with the pseudo checksum. */ - LM_UINT32 NoTxPseudoHdrChksum; - - /* The receive checksum in the BD does not include the pseudo checksum. */ - /* The OS or the driver must calculate the pseudo checksum and add it to */ - /* the checksum in the BD. */ - LM_UINT32 NoRxPseudoHdrChksum; - - /* Current node address. */ - LM_UINT8 NodeAddress[8]; - - /* The adapter's node address. */ - LM_UINT8 PermanentNodeAddress[8]; - - /* Adapter info. */ - LM_UINT16 BusNum; - LM_UINT8 DevNum; - LM_UINT8 FunctNum; - LM_UINT16 PciVendorId; - LM_UINT16 PciDeviceId; - LM_UINT32 BondId; - LM_UINT8 Irq; - LM_UINT8 IntPin; - LM_UINT8 CacheLineSize; - LM_UINT8 PciRevId; + /* Send info. */ + LM_UINT32 TxPacketDescCnt; + + /* Tx info. */ + LM_TX_PACKET_Q TxPacketFreeQ; + LM_TX_PACKET_Q TxPacketActiveQ; + LM_TX_PACKET_Q TxPacketXmittedQ; + + /* Pointers to SendBd. */ + PT3_SND_BD pSendBdVirt; + LM_PHYSICAL_ADDRESS SendBdPhy; /* Only valid for Host based Send BD. */ + + /* Send producer and consumer indices. */ + LM_UINT32 SendProdIdx; + LM_UINT32 SendConIdx; + + /* Number of BD left. */ + atomic_t SendBdLeft; + + T3_SND_BD ShadowSendBd[T3_SEND_RCB_ENTRY_COUNT]; + + /* Counters. */ + LM_RX_COUNTERS RxCounters; + LM_TX_COUNTERS TxCounters; + + /* Host coalescing parameters. */ + LM_UINT32 RxCoalescingTicks; + LM_UINT32 TxCoalescingTicks; + LM_UINT32 RxMaxCoalescedFrames; + LM_UINT32 TxMaxCoalescedFrames; + LM_UINT32 StatsCoalescingTicks; + LM_UINT32 RxCoalescingTicksDuringInt; + LM_UINT32 TxCoalescingTicksDuringInt; + LM_UINT32 RxMaxCoalescedFramesDuringInt; + LM_UINT32 TxMaxCoalescedFramesDuringInt; + + /* DMA water marks. */ + LM_UINT32 DmaMbufLowMark; + LM_UINT32 RxMacMbufLowMark; + LM_UINT32 MbufHighMark; + + /* Status block. */ + PT3_STATUS_BLOCK pStatusBlkVirt; + LM_PHYSICAL_ADDRESS StatusBlkPhy; + + /* Statistics block. */ + PT3_STATS_BLOCK pStatsBlkVirt; + LM_PHYSICAL_ADDRESS StatsBlkPhy; + + /* Current receive mask. */ + LM_UINT32 ReceiveMask; + + /* Task offload capabilities. */ + LM_TASK_OFFLOAD TaskOffloadCap; + + /* Task offload selected. */ + LM_TASK_OFFLOAD TaskToOffload; + + /* Wake up capability. */ + LM_WAKE_UP_MODE WakeUpModeCap; + + /* Wake up capability. */ + LM_WAKE_UP_MODE WakeUpMode; + + /* Flow control. */ + LM_FLOW_CONTROL FlowControlCap; + LM_FLOW_CONTROL FlowControl; + + /* Enable or disable PCI MWI. */ + LM_UINT32 EnableMWI; + + /* Enable 5701 tagged status mode. */ + LM_UINT32 UseTaggedStatus; + + /* NIC will not compute the pseudo header checksum. The driver or OS */ + /* must seed the checksum field with the pseudo checksum. */ + LM_UINT32 NoTxPseudoHdrChksum; + + /* The receive checksum in the BD does not include the pseudo checksum. */ + /* The OS or the driver must calculate the pseudo checksum and add it to */ + /* the checksum in the BD. */ + LM_UINT32 NoRxPseudoHdrChksum; + + /* Current node address. */ + LM_UINT8 NodeAddress[8]; + + /* The adapter's node address. */ + LM_UINT8 PermanentNodeAddress[8]; + + /* Adapter info. */ + LM_UINT16 BusNum; + LM_UINT8 DevNum; + LM_UINT8 FunctNum; + LM_UINT16 PciVendorId; + LM_UINT16 PciDeviceId; + LM_UINT32 BondId; + LM_UINT8 Irq; + LM_UINT8 IntPin; + LM_UINT8 CacheLineSize; + LM_UINT8 PciRevId; #if PCIX_TARGET_WORKAROUND LM_UINT32 EnablePciXFix; #endif - LM_UINT32 UndiFix; /* new, jimmy */ - LM_UINT32 PciCommandStatusWords; - LM_UINT32 ChipRevId; - LM_UINT16 SubsystemVendorId; - LM_UINT16 SubsystemId; -#if 0 /* Jimmy, deleted in new driver */ - LM_UINT32 MemBaseLow; - LM_UINT32 MemBaseHigh; - LM_UINT32 MemBaseSize; + LM_UINT32 UndiFix; /* new, jimmy */ + LM_UINT32 PciCommandStatusWords; + LM_UINT32 ChipRevId; + LM_UINT16 SubsystemVendorId; + LM_UINT16 SubsystemId; +#if 0 /* Jimmy, deleted in new driver */ + LM_UINT32 MemBaseLow; + LM_UINT32 MemBaseHigh; + LM_UINT32 MemBaseSize; #endif - PLM_UINT8 pMappedMemBase; - - /* Saved PCI configuration registers for restoring after a reset. */ - LM_UINT32 SavedCacheLineReg; + PLM_UINT8 pMappedMemBase; - /* Phy info. */ - LM_UINT32 PhyAddr; - LM_UINT32 PhyId; + /* Saved PCI configuration registers for restoring after a reset. */ + LM_UINT32 SavedCacheLineReg; - /* Requested phy settings. */ - LM_REQUESTED_MEDIA_TYPE RequestedMediaType; + /* Phy info. */ + LM_UINT32 PhyAddr; + LM_UINT32 PhyId; - /* Disable auto-negotiation. */ - LM_UINT32 DisableAutoNeg; + /* Requested phy settings. */ + LM_REQUESTED_MEDIA_TYPE RequestedMediaType; - /* Ways for the MAC to get link change interrupt. */ - LM_UINT32 PhyIntMode; - #define T3_PHY_INT_MODE_AUTO 0 - #define T3_PHY_INT_MODE_MI_INTERRUPT 1 - #define T3_PHY_INT_MODE_LINK_READY 2 - #define T3_PHY_INT_MODE_AUTO_POLLING 3 + /* Disable auto-negotiation. */ + LM_UINT32 DisableAutoNeg; - /* Ways to determine link change status. */ - LM_UINT32 LinkChngMode; - #define T3_LINK_CHNG_MODE_AUTO 0 - #define T3_LINK_CHNG_MODE_USE_STATUS_REG 1 - #define T3_LINK_CHNG_MODE_USE_STATUS_BLOCK 2 + /* Ways for the MAC to get link change interrupt. */ + LM_UINT32 PhyIntMode; +#define T3_PHY_INT_MODE_AUTO 0 +#define T3_PHY_INT_MODE_MI_INTERRUPT 1 +#define T3_PHY_INT_MODE_LINK_READY 2 +#define T3_PHY_INT_MODE_AUTO_POLLING 3 + /* Ways to determine link change status. */ + LM_UINT32 LinkChngMode; +#define T3_LINK_CHNG_MODE_AUTO 0 +#define T3_LINK_CHNG_MODE_USE_STATUS_REG 1 +#define T3_LINK_CHNG_MODE_USE_STATUS_BLOCK 2 - /* LED mode. */ - LM_UINT32 LedMode; + /* LED mode. */ + LM_UINT32 LedMode; - #define LED_MODE_AUTO 0 +#define LED_MODE_AUTO 0 - /* 5700/01 LED mode. */ - #define LED_MODE_THREE_LINK 1 - #define LED_MODE_LINK10 2 + /* 5700/01 LED mode. */ +#define LED_MODE_THREE_LINK 1 +#define LED_MODE_LINK10 2 - /* 5703/02/04 LED mode. */ - #define LED_MODE_OPEN_DRAIN 1 - #define LED_MODE_OUTPUT 2 + /* 5703/02/04 LED mode. */ +#define LED_MODE_OPEN_DRAIN 1 +#define LED_MODE_OUTPUT 2 - /* WOL Speed */ - LM_UINT32 WolSpeed; - #define WOL_SPEED_10MB 1 - #define WOL_SPEED_100MB 2 + /* WOL Speed */ + LM_UINT32 WolSpeed; +#define WOL_SPEED_10MB 1 +#define WOL_SPEED_100MB 2 - /* Reset the PHY on initialization. */ - LM_UINT32 ResetPhyOnInit; + /* Reset the PHY on initialization. */ + LM_UINT32 ResetPhyOnInit; - LM_UINT32 RestoreOnWakeUp; - LM_REQUESTED_MEDIA_TYPE WakeUpRequestedMediaType; - LM_UINT32 WakeUpDisableAutoNeg; + LM_UINT32 RestoreOnWakeUp; + LM_REQUESTED_MEDIA_TYPE WakeUpRequestedMediaType; + LM_UINT32 WakeUpDisableAutoNeg; - /* Current phy settings. */ - LM_MEDIA_TYPE MediaType; - LM_LINE_SPEED LineSpeed; - LM_LINE_SPEED OldLineSpeed; - LM_DUPLEX_MODE DuplexMode; - LM_STATUS LinkStatus; - LM_UINT32 advertising; /* Jimmy, new! */ - LM_UINT32 advertising1000; /* Jimmy, new! */ + /* Current phy settings. */ + LM_MEDIA_TYPE MediaType; + LM_LINE_SPEED LineSpeed; + LM_LINE_SPEED OldLineSpeed; + LM_DUPLEX_MODE DuplexMode; + LM_STATUS LinkStatus; + LM_UINT32 advertising; /* Jimmy, new! */ + LM_UINT32 advertising1000; /* Jimmy, new! */ - /* Multicast address list. */ - LM_UINT32 McEntryCount; - LM_UINT8 McTable[LM_MAX_MC_TABLE_SIZE][LM_MC_ENTRY_SIZE]; + /* Multicast address list. */ + LM_UINT32 McEntryCount; + LM_UINT8 McTable[LM_MAX_MC_TABLE_SIZE][LM_MC_ENTRY_SIZE]; - /* Use NIC or Host based send BD. */ - LM_UINT32 NicSendBd; + /* Use NIC or Host based send BD. */ + LM_UINT32 NicSendBd; - /* Athlon fix. */ - LM_UINT32 DelayPciGrant; + /* Athlon fix. */ + LM_UINT32 DelayPciGrant; - /* Enable OneDmaAtOnce */ - LM_UINT32 OneDmaAtOnce; + /* Enable OneDmaAtOnce */ + LM_UINT32 OneDmaAtOnce; - /* Split Mode flags, Jimmy new */ - LM_UINT32 SplitModeEnable; - LM_UINT32 SplitModeMaxReq; + /* Split Mode flags, Jimmy new */ + LM_UINT32 SplitModeEnable; + LM_UINT32 SplitModeMaxReq; - /* Init flag. */ - LM_BOOL InitDone; + /* Init flag. */ + LM_BOOL InitDone; - /* Shutdown flag. Set by the upper module. */ - LM_BOOL ShuttingDown; + /* Shutdown flag. Set by the upper module. */ + LM_BOOL ShuttingDown; - /* Flag to determine whether to call LM_QueueRxPackets or not in */ - /* LM_ResetAdapter routine. */ - LM_BOOL QueueRxPackets; + /* Flag to determine whether to call LM_QueueRxPackets or not in */ + /* LM_ResetAdapter routine. */ + LM_BOOL QueueRxPackets; - LM_UINT32 MbufBase; - LM_UINT32 MbufSize; + LM_UINT32 MbufBase; + LM_UINT32 MbufSize; - /* TRUE if we have a SERDES PHY. */ - LM_UINT32 EnableTbi; + /* TRUE if we have a SERDES PHY. */ + LM_UINT32 EnableTbi; - /* Ethernet@WireSpeed. */ - LM_UINT32 EnableWireSpeed; + /* Ethernet@WireSpeed. */ + LM_UINT32 EnableWireSpeed; - LM_UINT32 EepromWp; + LM_UINT32 EepromWp; #if INCLUDE_TBI_SUPPORT - /* Autoneg state info. */ - AN_STATE_INFO AnInfo; - LM_UINT32 PollTbiLink; - LM_UINT32 IgnoreTbiLinkChange; + /* Autoneg state info. */ + AN_STATE_INFO AnInfo; + LM_UINT32 PollTbiLink; + LM_UINT32 IgnoreTbiLinkChange; #endif - char PartNo[24]; - char BootCodeVer[16]; - char BusSpeedStr[24]; /* Jimmy, new! */ - LM_UINT32 PhyCrcCount; + char PartNo[24]; + char BootCodeVer[16]; + char BusSpeedStr[24]; /* Jimmy, new! */ + LM_UINT32 PhyCrcCount; } LM_DEVICE_BLOCK; - #define T3_REG_CPU_VIEW 0xc0000000 #define T3_BLOCK_DMA_RD (1 << 0) @@ -3216,7 +3130,6 @@ typedef struct _LM_DEVICE_BLOCK { #define TX_CPU_EVT_SW12 30 #define TX_CPU_EVT_SW13 31 - /* TX-CPU event */ #define TX_CPU_EVENT_SW_EVENT0 (1 << TX_CPU_EVT_SW0) #define TX_CPU_EVENT_SW_EVENT1 (1 << TX_CPU_EVT_SW1) @@ -3251,12 +3164,10 @@ typedef struct _LM_DEVICE_BLOCK { #define TX_CPU_EVENT_SW_EVENT12 (1 << TX_CPU_EVT_SW12) #define TX_CPU_EVENT_SW_EVENT13 (1 << TX_CPU_EVT_SW13) - #define TX_CPU_MASK (TX_CPU_EVENT_SW_EVENT0 | \ TX_CPU_EVENT_SDI | \ TX_CPU_EVENT_SDC) - #define T3_FTQ_TYPE1_UNDERFLOW_BIT (1 << 29) #define T3_FTQ_TYPE1_PASS_BIT (1 << 30) #define T3_FTQ_TYPE1_SKIP_BIT (1 << 31) @@ -3283,25 +3194,24 @@ typedef struct _LM_DEVICE_BLOCK { #define T3_QID_RX_DATA_COMP 16 #define T3_QID_SW_TYPE2 17 -LM_STATUS LM_LoadFirmware(PLM_DEVICE_BLOCK pDevice, - PT3_FWIMG_INFO pFwImg, - LM_UINT32 LoadCpu, - LM_UINT32 StartCpu); +LM_STATUS LM_LoadFirmware (PLM_DEVICE_BLOCK pDevice, + PT3_FWIMG_INFO pFwImg, + LM_UINT32 LoadCpu, LM_UINT32 StartCpu); /******************************************************************************/ /* NIC register read/write macros. */ /******************************************************************************/ -#if 0 /* Jimmy */ +#if 0 /* Jimmy */ /* MAC register access. */ -LM_UINT32 LM_RegRdInd(PLM_DEVICE_BLOCK pDevice, LM_UINT32 Register); -LM_VOID LM_RegWrInd(PLM_DEVICE_BLOCK pDevice, LM_UINT32 Register, - LM_UINT32 Value32); +LM_UINT32 LM_RegRdInd (PLM_DEVICE_BLOCK pDevice, LM_UINT32 Register); +LM_VOID LM_RegWrInd (PLM_DEVICE_BLOCK pDevice, LM_UINT32 Register, + LM_UINT32 Value32); /* MAC memory access. */ -LM_UINT32 LM_MemRdInd(PLM_DEVICE_BLOCK pDevice, LM_UINT32 MemAddr); -LM_VOID LM_MemWrInd(PLM_DEVICE_BLOCK pDevice, LM_UINT32 MemAddr, - LM_UINT32 Value32); +LM_UINT32 LM_MemRdInd (PLM_DEVICE_BLOCK pDevice, LM_UINT32 MemAddr); +LM_VOID LM_MemWrInd (PLM_DEVICE_BLOCK pDevice, LM_UINT32 MemAddr, + LM_UINT32 Value32); #if PCIX_TARGET_WORKAROUND @@ -3342,7 +3252,7 @@ LM_VOID LM_MemWrInd(PLM_DEVICE_BLOCK pDevice, LM_UINT32 MemAddr, #define MEM_WR_OFFSET(pDevice, Offset, Value32) \ LM_MemWrInd(pDevice, Offset, Value32) -#else /* normal target access path below */ +#else /* normal target access path below */ /* Register access. */ #define REG_RD(pDevice, OffsetName) \ @@ -3355,7 +3265,6 @@ LM_VOID LM_MemWrInd(PLM_DEVICE_BLOCK pDevice, LM_UINT32 MemAddr, #define REG_WR_OFFSET(pDevice, Offset, Value32) \ writel(Value32, ((LM_UINT8 *) (pDevice)->pMemView + Offset)) - /* There could be problem access the memory window directly. For now, */ /* we have to go through the PCI configuration register. */ #define MEM_RD(pDevice, AddrName) \ @@ -3368,9 +3277,9 @@ LM_VOID LM_MemWrInd(PLM_DEVICE_BLOCK pDevice, LM_UINT32 MemAddr, #define MEM_WR_OFFSET(pDevice, Offset, Value32) \ LM_MemWrInd(pDevice, Offset, Value32) -#endif /* PCIX_TARGET_WORKAROUND */ +#endif /* PCIX_TARGET_WORKAROUND */ -#endif /* Jimmy, merging */ +#endif /* Jimmy, merging */ /* Jimmy...rest of file is new stuff! */ /******************************************************************************/ @@ -3378,14 +3287,14 @@ LM_VOID LM_MemWrInd(PLM_DEVICE_BLOCK pDevice, LM_UINT32 MemAddr, /******************************************************************************/ /* MAC register access. */ -LM_UINT32 LM_RegRdInd(PLM_DEVICE_BLOCK pDevice, LM_UINT32 Register); -LM_VOID LM_RegWrInd(PLM_DEVICE_BLOCK pDevice, LM_UINT32 Register, - LM_UINT32 Value32); +LM_UINT32 LM_RegRdInd (PLM_DEVICE_BLOCK pDevice, LM_UINT32 Register); +LM_VOID LM_RegWrInd (PLM_DEVICE_BLOCK pDevice, LM_UINT32 Register, + LM_UINT32 Value32); /* MAC memory access. */ -LM_UINT32 LM_MemRdInd(PLM_DEVICE_BLOCK pDevice, LM_UINT32 MemAddr); -LM_VOID LM_MemWrInd(PLM_DEVICE_BLOCK pDevice, LM_UINT32 MemAddr, - LM_UINT32 Value32); +LM_UINT32 LM_MemRdInd (PLM_DEVICE_BLOCK pDevice, LM_UINT32 MemAddr); +LM_VOID LM_MemWrInd (PLM_DEVICE_BLOCK pDevice, LM_UINT32 MemAddr, + LM_UINT32 Value32); #define MB_REG_WR(pDevice, OffsetName, Value32) \ ((pDevice)->UndiFix) ? \ @@ -3427,4 +3336,4 @@ LM_VOID LM_MemWrInd(PLM_DEVICE_BLOCK pDevice, LM_UINT32 MemAddr, #define MEM_WR_OFFSET(pDevice, Offset, Value32) \ LM_MemWrInd(pDevice, Offset, Value32) -#endif /* TIGON3_H */ +#endif /* TIGON3_H */ diff --git a/drivers/tqm8xx_pcmcia.c b/drivers/tqm8xx_pcmcia.c index a0f53cd..132c7a5 100644 --- a/drivers/tqm8xx_pcmcia.c +++ b/drivers/tqm8xx_pcmcia.c @@ -10,11 +10,11 @@ #undef CONFIG_PCMCIA -#if (CONFIG_COMMANDS & CFG_CMD_PCMCIA) +#if defined(CONFIG_CMD_PCMCIA) #define CONFIG_PCMCIA #endif -#if (CONFIG_COMMANDS & CFG_CMD_IDE) && defined(CONFIG_IDE_8xx_PCCARD) +#if defined(CONFIG_CMD_IDE) && defined(CONFIG_IDE_8xx_PCCARD) #define CONFIG_PCMCIA #endif @@ -241,7 +241,7 @@ int pcmcia_hardware_enable(int slot) } -#if (CONFIG_COMMANDS & CFG_CMD_PCMCIA) +#if defined(CONFIG_CMD_PCMCIA) int pcmcia_hardware_disable(int slot) { u_long reg; @@ -263,7 +263,7 @@ int pcmcia_hardware_disable(int slot) return (0); } -#endif /* CFG_CMD_PCMCIA */ +#endif int pcmcia_voltage_set(int slot, int vcc, int vpp) { diff --git a/drivers/tsec.c b/drivers/tsec.c index 1298478..fd21ed4 100644 --- a/drivers/tsec.c +++ b/drivers/tsec.c @@ -71,6 +71,7 @@ static struct tsec_info_struct tsec_info[] = { #else {TSEC1_PHY_ADDR, TSEC_GIGABIT, TSEC1_PHYIDX}, #endif +#else {0, 0, 0}, #endif #if defined(CONFIG_TSEC2) @@ -79,6 +80,7 @@ static struct tsec_info_struct tsec_info[] = { #else {TSEC2_PHY_ADDR, TSEC_GIGABIT, TSEC2_PHYIDX}, #endif +#else {0, 0, 0}, #endif #ifdef CONFIG_MPC85XX_FEC @@ -127,6 +129,9 @@ static int tsec_miiphy_write(char *devname, unsigned char addr, unsigned char reg, unsigned short value); static int tsec_miiphy_read(char *devname, unsigned char addr, unsigned char reg, unsigned short *value); +#ifdef CONFIG_MCAST_TFTP +static int tsec_mcast_addr (struct eth_device *dev, u8 mcast_mac, u8 set); +#endif /* Initialize device structure. Returns success if PHY * initialization succeeded (i.e. if it recognizes the PHY) @@ -165,6 +170,9 @@ int tsec_initialize(bd_t * bis, int index, char *devname) dev->halt = tsec_halt; dev->send = tsec_send; dev->recv = tsec_recv; +#ifdef CONFIG_MCAST_TFTP + dev->mcast = tsec_mcast_addr; +#endif /* Tell u-boot to get the addr from the env */ for (i = 0; i < 6; i++) @@ -176,7 +184,7 @@ int tsec_initialize(bd_t * bis, int index, char *devname) priv->regs->maccfg1 |= MACCFG1_SOFT_RESET; priv->regs->maccfg1 &= ~(MACCFG1_SOFT_RESET); -#if defined(CONFIG_MII) || (CONFIG_COMMANDS & CFG_CMD_MII) \ +#if defined(CONFIG_MII) || defined(CONFIG_CMD_MII) \ && !defined(BITBANGMII) miiphy_register(dev->name, tsec_miiphy_read, tsec_miiphy_write); #endif @@ -296,9 +304,9 @@ static int init_phy(struct eth_device *dev) volatile tsec_t *regs = (volatile tsec_t *)(TSEC_BASE_ADDR); /* Assign a Physical address to the TBI */ - regs->tbipa = TBIPA_VALUE; + regs->tbipa = CFG_TBIPA_VALUE; regs = (volatile tsec_t *)(TSEC_BASE_ADDR + TSEC_SIZE); - regs->tbipa = TBIPA_VALUE; + regs->tbipa = CFG_TBIPA_VALUE; asm("sync"); /* Reset MII (due to new addresses) */ @@ -898,6 +906,39 @@ static void tsec_halt(struct eth_device *dev) phy_run_commands(priv, priv->phyinfo->shutdown); } +struct phy_info phy_info_M88E1149S = { + 0x1410ca, + "Marvell 88E1149S", + 4, + (struct phy_cmd[]){ /* config */ + /* Reset and configure the PHY */ + {MIIM_CONTROL, MIIM_CONTROL_RESET, NULL}, + {0x1d, 0x1f, NULL}, + {0x1e, 0x200c, NULL}, + {0x1d, 0x5, NULL}, + {0x1e, 0x0, NULL}, + {0x1e, 0x100, NULL}, + {MIIM_GBIT_CONTROL, MIIM_GBIT_CONTROL_INIT, NULL}, + {MIIM_ANAR, MIIM_ANAR_INIT, NULL}, + {MIIM_CONTROL, MIIM_CONTROL_RESET, NULL}, + {MIIM_CONTROL, MIIM_CONTROL_INIT, &mii_cr_init}, + {miim_end,} + }, + (struct phy_cmd[]){ /* startup */ + /* Status is read once to clear old link state */ + {MIIM_STATUS, miim_read, NULL}, + /* Auto-negotiate */ + {MIIM_STATUS, miim_read, &mii_parse_sr}, + /* Read the status */ + {MIIM_88E1011_PHY_STATUS, miim_read, + &mii_parse_88E1011_psr}, + {miim_end,} + }, + (struct phy_cmd[]){ /* shutdown */ + {miim_end,} + }, +}; + /* The 5411 id is 0x206070, the 5421 is 0x2060e0 */ struct phy_info phy_info_BCM5461S = { 0x02060c1, /* 5461 ID */ @@ -993,11 +1034,6 @@ struct phy_info phy_info_M88E1111S = { (struct phy_cmd[]){ /* config */ /* Reset and configure the PHY */ {MIIM_CONTROL, MIIM_CONTROL_RESET, NULL}, - {0x1d, 0x1f, NULL}, - {0x1e, 0x200c, NULL}, - {0x1d, 0x5, NULL}, - {0x1e, 0x0, NULL}, - {0x1e, 0x100, NULL}, {0x14, 0x0cd2, NULL}, /* Delay RGMII TX and RX */ {MIIM_GBIT_CONTROL, MIIM_GBIT_CONTROL_INIT, NULL}, {MIIM_ANAR, MIIM_ANAR_INIT, NULL}, @@ -1037,14 +1073,16 @@ static struct phy_info phy_info_M88E1145 = { "Marvell 88E1145", 4, (struct phy_cmd[]){ /* config */ + /* Reset the PHY */ + {MIIM_CONTROL, MIIM_CONTROL_RESET, NULL}, + /* Errata E0, E1 */ {29, 0x001b, NULL}, {30, 0x418f, NULL}, {29, 0x0016, NULL}, {30, 0xa2da, NULL}, - /* Reset and configure the PHY */ - {MIIM_CONTROL, MIIM_CONTROL_RESET, NULL}, + /* Configure the PHY */ {MIIM_GBIT_CONTROL, MIIM_GBIT_CONTROL_INIT, NULL}, {MIIM_ANAR, MIIM_ANAR_INIT, NULL}, {MIIM_88E1011_PHY_SCR, MIIM_88E1011_PHY_MDI_X_AUTO, @@ -1321,6 +1359,7 @@ struct phy_info *phy_info[] = { &phy_info_M88E1011S, &phy_info_M88E1111S, &phy_info_M88E1145, + &phy_info_M88E1149S, &phy_info_dm9161, &phy_info_lxt971, &phy_info_VSC8244, @@ -1351,8 +1390,10 @@ struct phy_info *get_phy_info(struct eth_device *dev) /* loop through all the known PHY types, and find one that */ /* matches the ID we read from the PHY. */ for (i = 0; phy_info[i]; i++) { - if (phy_info[i]->id == (phy_ID >> phy_info[i]->shift)) + if (phy_info[i]->id == (phy_ID >> phy_info[i]->shift)) { theInfo = phy_info[i]; + break; + } } if (theInfo == NULL) { @@ -1443,7 +1484,7 @@ static void relocate_cmds(void) relocated = 1; } -#if defined(CONFIG_MII) || (CONFIG_COMMANDS & CFG_CMD_MII) \ +#if defined(CONFIG_MII) || defined(CONFIG_CMD_MII) \ && !defined(BITBANGMII) struct tsec_private *get_priv_for_phy(unsigned char phyaddr) @@ -1502,7 +1543,48 @@ static int tsec_miiphy_write(char *devname, unsigned char addr, return 0; } -#endif /* defined(CONFIG_MII) || (CONFIG_COMMANDS & CFG_CMD_MII) - && !defined(BITBANGMII) */ +#endif + +#ifdef CONFIG_MCAST_TFTP + +/* CREDITS: linux gianfar driver, slightly adjusted... thanx. */ + +/* Set the appropriate hash bit for the given addr */ + +/* The algorithm works like so: + * 1) Take the Destination Address (ie the multicast address), and + * do a CRC on it (little endian), and reverse the bits of the + * result. + * 2) Use the 8 most significant bits as a hash into a 256-entry + * table. The table is controlled through 8 32-bit registers: + * gaddr0-7. gaddr0's MSB is entry 0, and gaddr7's LSB is + * gaddr7. This means that the 3 most significant bits in the + * hash index which gaddr register to use, and the 5 other bits + * indicate which bit (assuming an IBM numbering scheme, which + * for PowerPC (tm) is usually the case) in the tregister holds + * the entry. */ +static int +tsec_mcast_addr (struct eth_device *dev, u8 mcast_mac, u8 set) +{ + struct tsec_private *priv = privlist[1]; + volatile tsec_t *regs = priv->regs; + volatile u32 *reg_array, value; + u8 result, whichbit, whichreg; + + result = (u8)((ether_crc(MAC_ADDR_LEN,mcast_mac) >> 24) & 0xff); + whichbit = result & 0x1f; /* the 5 LSB = which bit to set */ + whichreg = result >> 5; /* the 3 MSB = which reg to set it in */ + value = (1 << (31-whichbit)); + + reg_array = &(regs->hash.gaddr0); + + if (set) { + reg_array[whichreg] |= value; + } else { + reg_array[whichreg] &= ~value; + } + return 0; +} +#endif /* Multicast TFTP ? */ #endif /* CONFIG_TSEC_ENET */ diff --git a/drivers/tsec.h b/drivers/tsec.h index 7bf3dee..2f0092a 100644 --- a/drivers/tsec.h +++ b/drivers/tsec.h @@ -70,7 +70,9 @@ #define miim_end -2 #define miim_read -1 -#define TBIPA_VALUE 0x1f +#ifndef CFG_TBIPA_VALUE + #define CFG_TBIPA_VALUE 0x1f +#endif #define MIIMCFG_INIT_VALUE 0x00000003 #define MIIMCFG_RESET 0x80000000 diff --git a/drivers/tsi108_eth.c b/drivers/tsi108_eth.c index 47341be..524e9da 100644 --- a/drivers/tsi108_eth.c +++ b/drivers/tsi108_eth.c @@ -27,7 +27,7 @@ #include <config.h> -#if (CONFIG_COMMANDS & CFG_CMD_NET) && defined(CONFIG_NET_MULTI) \ +#if defined(CONFIG_CMD_NET) && defined(CONFIG_NET_MULTI) \ && defined(CONFIG_TSI108_ETH) #if !defined(CONFIG_TSI108_ETH_NUM_PORTS) || (CONFIG_TSI108_ETH_NUM_PORTS > 2) diff --git a/drivers/tsi108_i2c.c b/drivers/tsi108_i2c.c index eb52cb6..3a3b75c 100644 --- a/drivers/tsi108_i2c.c +++ b/drivers/tsi108_i2c.c @@ -28,7 +28,7 @@ #ifdef CONFIG_TSI108_I2C #include <tsi108.h> -#if (CONFIG_COMMANDS & CFG_CMD_I2C) +#if defined(CONFIG_CMD_I2C) #define I2C_DELAY 100000 #undef DEBUG_I2C @@ -279,5 +279,5 @@ int i2c_probe (uchar chip) return i2c_read (chip, 0, 1, (char *)&tmp, 1); } -#endif /* (CONFIG_COMMANDS & CFG_CMD_I2C) */ +#endif #endif /* CONFIG_TSI108_I2C */ diff --git a/drivers/usb_ohci.c b/drivers/usb_ohci.c new file mode 100644 index 0000000..f0a37b2 --- /dev/null +++ b/drivers/usb_ohci.c @@ -0,0 +1,1918 @@ +/* + * URB OHCI HCD (Host Controller Driver) for USB on the AT91RM9200 and PCI bus. + * + * Interrupt support is added. Now, it has been tested + * on ULI1575 chip and works well with USB keyboard. + * + * (C) Copyright 2007 + * Zhang Wei, Freescale Semiconductor, Inc. <wei.zhang@freescale.com> + * + * (C) Copyright 2003 + * Gary Jennejohn, DENX Software Engineering <gj@denx.de> + * + * Note: Much of this code has been derived from Linux 2.4 + * (C) Copyright 1999 Roman Weissgaerber <weissg@vienna.at> + * (C) Copyright 2000-2002 David Brownell + * + * Modified for the MP2USB by (C) Copyright 2005 Eric Benard + * ebenard@eukrea.com - based on s3c24x0's driver + * + * See file CREDITS for list of people who contributed to this + * project. + * + * This program is free software; you can redistribute it and/or + * modify it under the terms of the GNU General Public License as + * published by the Free Software Foundation; either version 2 of + * the License, or (at your option) any later version. + * + * This program is distributed in the hope that it will be useful, + * but WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the + * GNU General Public License for more details. + * + * You should have received a copy of the GNU General Public License + * along with this program; if not, write to the Free Software + * Foundation, Inc., 59 Temple Place, Suite 330, Boston, + * MA 02111-1307 USA + * + */ +/* + * IMPORTANT NOTES + * 1 - Read doc/README.generic_usb_ohci + * 2 - this driver is intended for use with USB Mass Storage Devices + * (BBB) and USB keyboard. There is NO support for Isochronous pipes! + * 2 - when running on a PQFP208 AT91RM9200, define CONFIG_AT91C_PQFP_UHPBUG + * to activate workaround for bug #41 or this driver will NOT work! + */ + +#include <common.h> + +#ifdef CONFIG_USB_OHCI_NEW + +#include <asm/byteorder.h> + +#if defined(CONFIG_PCI_OHCI) +# include <pci.h> +#endif + +#include <malloc.h> +#include <usb.h> +#include "usb_ohci.h" + +#if defined(CONFIG_ARM920T) || \ + defined(CONFIG_S3C2400) || \ + defined(CONFIG_S3C2410) || \ + defined(CONFIG_440EP) || \ + defined(CONFIG_PCI_OHCI) || \ + defined(CONFIG_MPC5200) +# define OHCI_USE_NPS /* force NoPowerSwitching mode */ +#endif + +#undef OHCI_VERBOSE_DEBUG /* not always helpful */ +#undef DEBUG +#undef SHOW_INFO +#undef OHCI_FILL_TRACE + +/* For initializing controller (mask in an HCFS mode too) */ +#define OHCI_CONTROL_INIT \ + (OHCI_CTRL_CBSR & 0x3) | OHCI_CTRL_IE | OHCI_CTRL_PLE + +/* + * e.g. PCI controllers need this + */ +#ifdef CFG_OHCI_SWAP_REG_ACCESS +# define readl(a) __swap_32(*((vu_long *)(a))) +# define writel(a, b) (*((vu_long *)(b)) = __swap_32((vu_long)a)) +#else +# define readl(a) (*((vu_long *)(a))) +# define writel(a, b) (*((vu_long *)(b)) = ((vu_long)a)) +#endif /* CFG_OHCI_SWAP_REG_ACCESS */ + +#define min_t(type,x,y) ({ type __x = (x); type __y = (y); __x < __y ? __x: __y; }) + +#ifdef CONFIG_PCI_OHCI +static struct pci_device_id ohci_pci_ids[] = { + {0x10b9, 0x5237}, /* ULI1575 PCI OHCI module ids */ + /* Please add supported PCI OHCI controller ids here */ + {0, 0} +}; +#endif + +#ifdef DEBUG +#define dbg(format, arg...) printf("DEBUG: " format "\n", ## arg) +#else +#define dbg(format, arg...) do {} while(0) +#endif /* DEBUG */ +#define err(format, arg...) printf("ERROR: " format "\n", ## arg) +#undef SHOW_INFO +#ifdef SHOW_INFO +#define info(format, arg...) printf("INFO: " format "\n", ## arg) +#else +#define info(format, arg...) do {} while(0) +#endif + +#ifdef CFG_OHCI_BE_CONTROLLER +# define m16_swap(x) cpu_to_be16(x) +# define m32_swap(x) cpu_to_be32(x) +#else +# define m16_swap(x) cpu_to_le16(x) +# define m32_swap(x) cpu_to_le32(x) +#endif /* CFG_OHCI_BE_CONTROLLER */ + +/* global ohci_t */ +static ohci_t gohci; +/* this must be aligned to a 256 byte boundary */ +struct ohci_hcca ghcca[1]; +/* a pointer to the aligned storage */ +struct ohci_hcca *phcca; +/* this allocates EDs for all possible endpoints */ +struct ohci_device ohci_dev; +/* RHSC flag */ +int got_rhsc; +/* device which was disconnected */ +struct usb_device *devgone; + +/*-------------------------------------------------------------------------*/ + +/* AMD-756 (D2 rev) reports corrupt register contents in some cases. + * The erratum (#4) description is incorrect. AMD's workaround waits + * till some bits (mostly reserved) are clear; ok for all revs. + */ +#define OHCI_QUIRK_AMD756 0xabcd +#define read_roothub(hc, register, mask) ({ \ + u32 temp = readl (&hc->regs->roothub.register); \ + if (hc->flags & OHCI_QUIRK_AMD756) \ + while (temp & mask) \ + temp = readl (&hc->regs->roothub.register); \ + temp; }) + +static u32 roothub_a (struct ohci *hc) + { return read_roothub (hc, a, 0xfc0fe000); } +static inline u32 roothub_b (struct ohci *hc) + { return readl (&hc->regs->roothub.b); } +static inline u32 roothub_status (struct ohci *hc) + { return readl (&hc->regs->roothub.status); } +static u32 roothub_portstatus (struct ohci *hc, int i) + { return read_roothub (hc, portstatus [i], 0xffe0fce0); } + +/* forward declaration */ +static int hc_interrupt (void); +static void +td_submit_job (struct usb_device * dev, unsigned long pipe, void * buffer, + int transfer_len, struct devrequest * setup, urb_priv_t * urb, int interval); + +/*-------------------------------------------------------------------------* + * URB support functions + *-------------------------------------------------------------------------*/ + +/* free HCD-private data associated with this URB */ + +static void urb_free_priv (urb_priv_t * urb) +{ + int i; + int last; + struct td * td; + + last = urb->length - 1; + if (last >= 0) { + for (i = 0; i <= last; i++) { + td = urb->td[i]; + if (td) { + td->usb_dev = NULL; + urb->td[i] = NULL; + } + } + } + free(urb); +} + +/*-------------------------------------------------------------------------*/ + +#ifdef DEBUG +static int sohci_get_current_frame_number (struct usb_device * dev); + +/* debug| print the main components of an URB + * small: 0) header + data packets 1) just header */ + +static void pkt_print (urb_priv_t *purb, struct usb_device * dev, + unsigned long pipe, void * buffer, + int transfer_len, struct devrequest * setup, char * str, int small) +{ + dbg("%s URB:[%4x] dev:%2d,ep:%2d-%c,type:%s,len:%d/%d stat:%#lx", + str, + sohci_get_current_frame_number (dev), + usb_pipedevice (pipe), + usb_pipeendpoint (pipe), + usb_pipeout (pipe)? 'O': 'I', + usb_pipetype (pipe) < 2? (usb_pipeint (pipe)? "INTR": "ISOC"): + (usb_pipecontrol (pipe)? "CTRL": "BULK"), + (purb ? purb->actual_length : 0), + transfer_len, dev->status); +#ifdef OHCI_VERBOSE_DEBUG + if (!small) { + int i, len; + + if (usb_pipecontrol (pipe)) { + printf (__FILE__ ": cmd(8):"); + for (i = 0; i < 8 ; i++) + printf (" %02x", ((__u8 *) setup) [i]); + printf ("\n"); + } + if (transfer_len > 0 && buffer) { + printf (__FILE__ ": data(%d/%d):", + (purb ? purb->actual_length : 0), + transfer_len); + len = usb_pipeout (pipe)? + transfer_len: + (purb ? purb->actual_length : 0); + for (i = 0; i < 16 && i < len; i++) + printf (" %02x", ((__u8 *) buffer) [i]); + printf ("%s\n", i < len? "...": ""); + } + } +#endif +} + +/* just for debugging; prints non-empty branches of the int ed tree inclusive iso eds*/ +void ep_print_int_eds (ohci_t *ohci, char * str) { + int i, j; + __u32 * ed_p; + for (i= 0; i < 32; i++) { + j = 5; + ed_p = &(ohci->hcca->int_table [i]); + if (*ed_p == 0) + continue; + printf (__FILE__ ": %s branch int %2d(%2x):", str, i, i); + while (*ed_p != 0 && j--) { + ed_t *ed = (ed_t *)m32_swap(ed_p); + printf (" ed: %4x;", ed->hwINFO); + ed_p = &ed->hwNextED; + } + printf ("\n"); + } +} + +static void ohci_dump_intr_mask (char *label, __u32 mask) +{ + dbg ("%s: 0x%08x%s%s%s%s%s%s%s%s%s", + label, + mask, + (mask & OHCI_INTR_MIE) ? " MIE" : "", + (mask & OHCI_INTR_OC) ? " OC" : "", + (mask & OHCI_INTR_RHSC) ? " RHSC" : "", + (mask & OHCI_INTR_FNO) ? " FNO" : "", + (mask & OHCI_INTR_UE) ? " UE" : "", + (mask & OHCI_INTR_RD) ? " RD" : "", + (mask & OHCI_INTR_SF) ? " SF" : "", + (mask & OHCI_INTR_WDH) ? " WDH" : "", + (mask & OHCI_INTR_SO) ? " SO" : "" + ); +} + +static void maybe_print_eds (char *label, __u32 value) +{ + ed_t *edp = (ed_t *)value; + + if (value) { + dbg ("%s %08x", label, value); + dbg ("%08x", edp->hwINFO); + dbg ("%08x", edp->hwTailP); + dbg ("%08x", edp->hwHeadP); + dbg ("%08x", edp->hwNextED); + } +} + +static char * hcfs2string (int state) +{ + switch (state) { + case OHCI_USB_RESET: return "reset"; + case OHCI_USB_RESUME: return "resume"; + case OHCI_USB_OPER: return "operational"; + case OHCI_USB_SUSPEND: return "suspend"; + } + return "?"; +} + +/* dump control and status registers */ +static void ohci_dump_status (ohci_t *controller) +{ + struct ohci_regs *regs = controller->regs; + __u32 temp; + + temp = readl (®s->revision) & 0xff; + if (temp != 0x10) + dbg ("spec %d.%d", (temp >> 4), (temp & 0x0f)); + + temp = readl (®s->control); + dbg ("control: 0x%08x%s%s%s HCFS=%s%s%s%s%s CBSR=%d", temp, + (temp & OHCI_CTRL_RWE) ? " RWE" : "", + (temp & OHCI_CTRL_RWC) ? " RWC" : "", + (temp & OHCI_CTRL_IR) ? " IR" : "", + hcfs2string (temp & OHCI_CTRL_HCFS), + (temp & OHCI_CTRL_BLE) ? " BLE" : "", + (temp & OHCI_CTRL_CLE) ? " CLE" : "", + (temp & OHCI_CTRL_IE) ? " IE" : "", + (temp & OHCI_CTRL_PLE) ? " PLE" : "", + temp & OHCI_CTRL_CBSR + ); + + temp = readl (®s->cmdstatus); + dbg ("cmdstatus: 0x%08x SOC=%d%s%s%s%s", temp, + (temp & OHCI_SOC) >> 16, + (temp & OHCI_OCR) ? " OCR" : "", + (temp & OHCI_BLF) ? " BLF" : "", + (temp & OHCI_CLF) ? " CLF" : "", + (temp & OHCI_HCR) ? " HCR" : "" + ); + + ohci_dump_intr_mask ("intrstatus", readl (®s->intrstatus)); + ohci_dump_intr_mask ("intrenable", readl (®s->intrenable)); + + maybe_print_eds ("ed_periodcurrent", readl (®s->ed_periodcurrent)); + + maybe_print_eds ("ed_controlhead", readl (®s->ed_controlhead)); + maybe_print_eds ("ed_controlcurrent", readl (®s->ed_controlcurrent)); + + maybe_print_eds ("ed_bulkhead", readl (®s->ed_bulkhead)); + maybe_print_eds ("ed_bulkcurrent", readl (®s->ed_bulkcurrent)); + + maybe_print_eds ("donehead", readl (®s->donehead)); +} + +static void ohci_dump_roothub (ohci_t *controller, int verbose) +{ + __u32 temp, ndp, i; + + temp = roothub_a (controller); + ndp = (temp & RH_A_NDP); +#ifdef CONFIG_AT91C_PQFP_UHPBUG + ndp = (ndp == 2) ? 1:0; +#endif + if (verbose) { + dbg ("roothub.a: %08x POTPGT=%d%s%s%s%s%s NDP=%d", temp, + ((temp & RH_A_POTPGT) >> 24) & 0xff, + (temp & RH_A_NOCP) ? " NOCP" : "", + (temp & RH_A_OCPM) ? " OCPM" : "", + (temp & RH_A_DT) ? " DT" : "", + (temp & RH_A_NPS) ? " NPS" : "", + (temp & RH_A_PSM) ? " PSM" : "", + ndp + ); + temp = roothub_b (controller); + dbg ("roothub.b: %08x PPCM=%04x DR=%04x", + temp, + (temp & RH_B_PPCM) >> 16, + (temp & RH_B_DR) + ); + temp = roothub_status (controller); + dbg ("roothub.status: %08x%s%s%s%s%s%s", + temp, + (temp & RH_HS_CRWE) ? " CRWE" : "", + (temp & RH_HS_OCIC) ? " OCIC" : "", + (temp & RH_HS_LPSC) ? " LPSC" : "", + (temp & RH_HS_DRWE) ? " DRWE" : "", + (temp & RH_HS_OCI) ? " OCI" : "", + (temp & RH_HS_LPS) ? " LPS" : "" + ); + } + + for (i = 0; i < ndp; i++) { + temp = roothub_portstatus (controller, i); + dbg ("roothub.portstatus [%d] = 0x%08x%s%s%s%s%s%s%s%s%s%s%s%s", + i, + temp, + (temp & RH_PS_PRSC) ? " PRSC" : "", + (temp & RH_PS_OCIC) ? " OCIC" : "", + (temp & RH_PS_PSSC) ? " PSSC" : "", + (temp & RH_PS_PESC) ? " PESC" : "", + (temp & RH_PS_CSC) ? " CSC" : "", + + (temp & RH_PS_LSDA) ? " LSDA" : "", + (temp & RH_PS_PPS) ? " PPS" : "", + (temp & RH_PS_PRS) ? " PRS" : "", + (temp & RH_PS_POCI) ? " POCI" : "", + (temp & RH_PS_PSS) ? " PSS" : "", + + (temp & RH_PS_PES) ? " PES" : "", + (temp & RH_PS_CCS) ? " CCS" : "" + ); + } +} + +static void ohci_dump (ohci_t *controller, int verbose) +{ + dbg ("OHCI controller usb-%s state", controller->slot_name); + + /* dumps some of the state we know about */ + ohci_dump_status (controller); + if (verbose) + ep_print_int_eds (controller, "hcca"); + dbg ("hcca frame #%04x", controller->hcca->frame_no); + ohci_dump_roothub (controller, 1); + +#endif /* DEBUG */ + +/*-------------------------------------------------------------------------* + * Interface functions (URB) + *-------------------------------------------------------------------------*/ + +/* get a transfer request */ + +int sohci_submit_job(urb_priv_t *urb, struct devrequest *setup) +{ + ohci_t *ohci; + ed_t * ed; + urb_priv_t *purb_priv = urb; + int i, size = 0; + struct usb_device *dev = urb->dev; + unsigned long pipe = urb->pipe; + void *buffer = urb->transfer_buffer; + int transfer_len = urb->transfer_buffer_length; + int interval = urb->interval; + + ohci = &gohci; + + /* when controller's hung, permit only roothub cleanup attempts + * such as powering down ports */ + if (ohci->disabled) { + err("sohci_submit_job: EPIPE"); + return -1; + } + + /* we're about to begin a new transaction here so mark the URB unfinished */ + urb->finished = 0; + + /* every endpoint has a ed, locate and fill it */ + if (!(ed = ep_add_ed (dev, pipe, interval, 1))) { + err("sohci_submit_job: ENOMEM"); + return -1; + } + + /* for the private part of the URB we need the number of TDs (size) */ + switch (usb_pipetype (pipe)) { + case PIPE_BULK: /* one TD for every 4096 Byte */ + size = (transfer_len - 1) / 4096 + 1; + break; + case PIPE_CONTROL: /* 1 TD for setup, 1 for ACK and 1 for every 4096 B */ + size = (transfer_len == 0)? 2: + (transfer_len - 1) / 4096 + 3; + break; + case PIPE_INTERRUPT: /* 1 TD */ + size = 1; + break; + } + + ed->purb = urb; + + if (size >= (N_URB_TD - 1)) { + err("need %d TDs, only have %d", size, N_URB_TD); + return -1; + } + purb_priv->pipe = pipe; + + /* fill the private part of the URB */ + purb_priv->length = size; + purb_priv->ed = ed; + purb_priv->actual_length = 0; + + /* allocate the TDs */ + /* note that td[0] was allocated in ep_add_ed */ + for (i = 0; i < size; i++) { + purb_priv->td[i] = td_alloc (dev); + if (!purb_priv->td[i]) { + purb_priv->length = i; + urb_free_priv (purb_priv); + err("sohci_submit_job: ENOMEM"); + return -1; + } + } + + if (ed->state == ED_NEW || (ed->state & ED_DEL)) { + urb_free_priv (purb_priv); + err("sohci_submit_job: EINVAL"); + return -1; + } + + /* link the ed into a chain if is not already */ + if (ed->state != ED_OPER) + ep_link (ohci, ed); + + /* fill the TDs and link it to the ed */ + td_submit_job(dev, pipe, buffer, transfer_len, setup, purb_priv, interval); + + return 0; +} + +static inline int sohci_return_job(struct ohci *hc, urb_priv_t *urb) +{ + struct ohci_regs *regs = hc->regs; + + switch (usb_pipetype (urb->pipe)) { + case PIPE_INTERRUPT: + /* implicitly requeued */ + if (urb->dev->irq_handle && + (urb->dev->irq_act_len = urb->actual_length)) { + writel (OHCI_INTR_WDH, ®s->intrenable); + readl (®s->intrenable); /* PCI posting flush */ + urb->dev->irq_handle(urb->dev); + writel (OHCI_INTR_WDH, ®s->intrdisable); + readl (®s->intrdisable); /* PCI posting flush */ + } + urb->actual_length = 0; + td_submit_job ( + urb->dev, + urb->pipe, + urb->transfer_buffer, + urb->transfer_buffer_length, + NULL, + urb, + urb->interval); + break; + case PIPE_CONTROL: + case PIPE_BULK: + break; + default: + return 0; + } + return 1; +} + +/*-------------------------------------------------------------------------*/ + +#ifdef DEBUG +/* tell us the current USB frame number */ + +static int sohci_get_current_frame_number (struct usb_device *usb_dev) +{ + ohci_t *ohci = &gohci; + + return m16_swap (ohci->hcca->frame_no); +} +#endif + +/*-------------------------------------------------------------------------* + * ED handling functions + *-------------------------------------------------------------------------*/ + +/* search for the right branch to insert an interrupt ed into the int tree + * do some load ballancing; + * returns the branch and + * sets the interval to interval = 2^integer (ld (interval)) */ + +static int ep_int_ballance (ohci_t * ohci, int interval, int load) +{ + int i, branch = 0; + + /* search for the least loaded interrupt endpoint + * branch of all 32 branches + */ + for (i = 0; i < 32; i++) + if (ohci->ohci_int_load [branch] > ohci->ohci_int_load [i]) + branch = i; + + branch = branch % interval; + for (i = branch; i < 32; i += interval) + ohci->ohci_int_load [i] += load; + + return branch; +} + +/*-------------------------------------------------------------------------*/ + +/* 2^int( ld (inter)) */ + +static int ep_2_n_interval (int inter) +{ + int i; + for (i = 0; ((inter >> i) > 1 ) && (i < 5); i++); + return 1 << i; +} + +/*-------------------------------------------------------------------------*/ + +/* the int tree is a binary tree + * in order to process it sequentially the indexes of the branches have to be mapped + * the mapping reverses the bits of a word of num_bits length */ + +static int ep_rev (int num_bits, int word) +{ + int i, wout = 0; + + for (i = 0; i < num_bits; i++) + wout |= (((word >> i) & 1) << (num_bits - i - 1)); + return wout; +} + +/*-------------------------------------------------------------------------* + * ED handling functions + *-------------------------------------------------------------------------*/ + +/* link an ed into one of the HC chains */ + +static int ep_link (ohci_t *ohci, ed_t *edi) +{ + volatile ed_t *ed = edi; + int int_branch; + int i; + int inter; + int interval; + int load; + __u32 * ed_p; + + ed->state = ED_OPER; + ed->int_interval = 0; + + switch (ed->type) { + case PIPE_CONTROL: + ed->hwNextED = 0; + if (ohci->ed_controltail == NULL) { + writel (ed, &ohci->regs->ed_controlhead); + } else { + ohci->ed_controltail->hwNextED = m32_swap ((unsigned long)ed); + } + ed->ed_prev = ohci->ed_controltail; + if (!ohci->ed_controltail && !ohci->ed_rm_list[0] && + !ohci->ed_rm_list[1] && !ohci->sleeping) { + ohci->hc_control |= OHCI_CTRL_CLE; + writel (ohci->hc_control, &ohci->regs->control); + } + ohci->ed_controltail = edi; + break; + + case PIPE_BULK: + ed->hwNextED = 0; + if (ohci->ed_bulktail == NULL) { + writel (ed, &ohci->regs->ed_bulkhead); + } else { + ohci->ed_bulktail->hwNextED = m32_swap ((unsigned long)ed); + } + ed->ed_prev = ohci->ed_bulktail; + if (!ohci->ed_bulktail && !ohci->ed_rm_list[0] && + !ohci->ed_rm_list[1] && !ohci->sleeping) { + ohci->hc_control |= OHCI_CTRL_BLE; + writel (ohci->hc_control, &ohci->regs->control); + } + ohci->ed_bulktail = edi; + break; + + case PIPE_INTERRUPT: + load = ed->int_load; + interval = ep_2_n_interval (ed->int_period); + ed->int_interval = interval; + int_branch = ep_int_ballance (ohci, interval, load); + ed->int_branch = int_branch; + + for (i = 0; i < ep_rev (6, interval); i += inter) { + inter = 1; + for (ed_p = &(ohci->hcca->int_table[ep_rev (5, i) + int_branch]); + (*ed_p != 0) && (((ed_t *)ed_p)->int_interval >= interval); + ed_p = &(((ed_t *)ed_p)->hwNextED)) + inter = ep_rev (6, ((ed_t *)ed_p)->int_interval); + ed->hwNextED = *ed_p; + *ed_p = m32_swap(ed); + } + break; + } + return 0; +} + +/*-------------------------------------------------------------------------*/ + +/* scan the periodic table to find and unlink this ED */ +static void periodic_unlink ( struct ohci *ohci, volatile struct ed *ed, + unsigned index, unsigned period) +{ + for (; index < NUM_INTS; index += period) { + __u32 *ed_p = &ohci->hcca->int_table [index]; + + /* ED might have been unlinked through another path */ + while (*ed_p != 0) { + if (((struct ed *)m32_swap (ed_p)) == ed) { + *ed_p = ed->hwNextED; + break; + } + ed_p = & (((struct ed *)m32_swap (ed_p))->hwNextED); + } + } +} + +/* unlink an ed from one of the HC chains. + * just the link to the ed is unlinked. + * the link from the ed still points to another operational ed or 0 + * so the HC can eventually finish the processing of the unlinked ed */ + +static int ep_unlink (ohci_t *ohci, ed_t *edi) +{ + volatile ed_t *ed = edi; + int i; + + ed->hwINFO |= m32_swap (OHCI_ED_SKIP); + + switch (ed->type) { + case PIPE_CONTROL: + if (ed->ed_prev == NULL) { + if (!ed->hwNextED) { + ohci->hc_control &= ~OHCI_CTRL_CLE; + writel (ohci->hc_control, &ohci->regs->control); + } + writel (m32_swap (*((__u32 *)&ed->hwNextED)), &ohci->regs->ed_controlhead); + } else { + ed->ed_prev->hwNextED = ed->hwNextED; + } + if (ohci->ed_controltail == ed) { + ohci->ed_controltail = ed->ed_prev; + } else { + ((ed_t *)m32_swap (*((__u32 *)&ed->hwNextED)))->ed_prev = ed->ed_prev; + } + break; + + case PIPE_BULK: + if (ed->ed_prev == NULL) { + if (!ed->hwNextED) { + ohci->hc_control &= ~OHCI_CTRL_BLE; + writel (ohci->hc_control, &ohci->regs->control); + } + writel (m32_swap (*((__u32 *)&ed->hwNextED)), &ohci->regs->ed_bulkhead); + } else { + ed->ed_prev->hwNextED = ed->hwNextED; + } + if (ohci->ed_bulktail == ed) { + ohci->ed_bulktail = ed->ed_prev; + } else { + ((ed_t *)m32_swap (*((__u32 *)&ed->hwNextED)))->ed_prev = ed->ed_prev; + } + break; + + case PIPE_INTERRUPT: + periodic_unlink (ohci, ed, 0, 1); + for (i = ed->int_branch; i < 32; i += ed->int_interval) + ohci->ohci_int_load[i] -= ed->int_load; + break; + } + ed->state = ED_UNLINK; + return 0; +} + +/*-------------------------------------------------------------------------*/ + +/* add/reinit an endpoint; this should be done once at the + * usb_set_configuration command, but the USB stack is a little bit + * stateless so we do it at every transaction if the state of the ed + * is ED_NEW then a dummy td is added and the state is changed to + * ED_UNLINK in all other cases the state is left unchanged the ed + * info fields are setted anyway even though most of them should not + * change + */ +static ed_t * ep_add_ed (struct usb_device *usb_dev, unsigned long pipe, + int interval, int load) +{ + td_t *td; + ed_t *ed_ret; + volatile ed_t *ed; + + ed = ed_ret = &ohci_dev.ed[(usb_pipeendpoint (pipe) << 1) | + (usb_pipecontrol (pipe)? 0: usb_pipeout (pipe))]; + + if ((ed->state & ED_DEL) || (ed->state & ED_URB_DEL)) { + err("ep_add_ed: pending delete"); + /* pending delete request */ + return NULL; + } + + if (ed->state == ED_NEW) { + ed->hwINFO = m32_swap (OHCI_ED_SKIP); /* skip ed */ + /* dummy td; end of td list for ed */ + td = td_alloc (usb_dev); + ed->hwTailP = m32_swap ((unsigned long)td); + ed->hwHeadP = ed->hwTailP; + ed->state = ED_UNLINK; + ed->type = usb_pipetype (pipe); + ohci_dev.ed_cnt++; + } + + ed->hwINFO = m32_swap (usb_pipedevice (pipe) + | usb_pipeendpoint (pipe) << 7 + | (usb_pipeisoc (pipe)? 0x8000: 0) + | (usb_pipecontrol (pipe)? 0: (usb_pipeout (pipe)? 0x800: 0x1000)) + | usb_pipeslow (pipe) << 13 + | usb_maxpacket (usb_dev, pipe) << 16); + + if (ed->type == PIPE_INTERRUPT && ed->state == ED_UNLINK) { + ed->int_period = interval; + ed->int_load = load; + } + + return ed_ret; +} + +/*-------------------------------------------------------------------------* + * TD handling functions + *-------------------------------------------------------------------------*/ + +/* enqueue next TD for this URB (OHCI spec 5.2.8.2) */ + +static void td_fill (ohci_t *ohci, unsigned int info, + void *data, int len, + struct usb_device *dev, int index, urb_priv_t *urb_priv) +{ + volatile td_t *td, *td_pt; +#ifdef OHCI_FILL_TRACE + int i; +#endif + + if (index > urb_priv->length) { + err("index > length"); + return; + } + /* use this td as the next dummy */ + td_pt = urb_priv->td [index]; + td_pt->hwNextTD = 0; + + /* fill the old dummy TD */ + td = urb_priv->td [index] = (td_t *)(m32_swap (urb_priv->ed->hwTailP) & ~0xf); + + td->ed = urb_priv->ed; + td->next_dl_td = NULL; + td->index = index; + td->data = (__u32)data; +#ifdef OHCI_FILL_TRACE + if ((usb_pipetype(urb_priv->pipe) == PIPE_BULK) && usb_pipeout(urb_priv->pipe)) { + for (i = 0; i < len; i++) + printf("td->data[%d] %#2x ",i, ((unsigned char *)td->data)[i]); + printf("\n"); + } +#endif + if (!len) + data = 0; + + td->hwINFO = m32_swap (info); + td->hwCBP = m32_swap ((unsigned long)data); + if (data) + td->hwBE = m32_swap ((unsigned long)(data + len - 1)); + else + td->hwBE = 0; + td->hwNextTD = m32_swap ((unsigned long)td_pt); + + /* append to queue */ + td->ed->hwTailP = td->hwNextTD; +} + +/*-------------------------------------------------------------------------*/ + +/* prepare all TDs of a transfer */ + +static void td_submit_job (struct usb_device *dev, unsigned long pipe, void *buffer, + int transfer_len, struct devrequest *setup, urb_priv_t *urb, int interval) +{ + ohci_t *ohci = &gohci; + int data_len = transfer_len; + void *data; + int cnt = 0; + __u32 info = 0; + unsigned int toggle = 0; + + /* OHCI handles the DATA-toggles itself, we just use the USB-toggle bits for reseting */ + if(usb_gettoggle(dev, usb_pipeendpoint(pipe), usb_pipeout(pipe))) { + toggle = TD_T_TOGGLE; + } else { + toggle = TD_T_DATA0; + usb_settoggle(dev, usb_pipeendpoint(pipe), usb_pipeout(pipe), 1); + } + urb->td_cnt = 0; + if (data_len) + data = buffer; + else + data = 0; + + switch (usb_pipetype (pipe)) { + case PIPE_BULK: + info = usb_pipeout (pipe)? + TD_CC | TD_DP_OUT : TD_CC | TD_DP_IN ; + while(data_len > 4096) { + td_fill (ohci, info | (cnt? TD_T_TOGGLE:toggle), data, 4096, dev, cnt, urb); + data += 4096; data_len -= 4096; cnt++; + } + info = usb_pipeout (pipe)? + TD_CC | TD_DP_OUT : TD_CC | TD_R | TD_DP_IN ; + td_fill (ohci, info | (cnt? TD_T_TOGGLE:toggle), data, data_len, dev, cnt, urb); + cnt++; + + if (!ohci->sleeping) + writel (OHCI_BLF, &ohci->regs->cmdstatus); /* start bulk list */ + break; + + case PIPE_CONTROL: + info = TD_CC | TD_DP_SETUP | TD_T_DATA0; + td_fill (ohci, info, setup, 8, dev, cnt++, urb); + if (data_len > 0) { + info = usb_pipeout (pipe)? + TD_CC | TD_R | TD_DP_OUT | TD_T_DATA1 : TD_CC | TD_R | TD_DP_IN | TD_T_DATA1; + /* NOTE: mishandles transfers >8K, some >4K */ + td_fill (ohci, info, data, data_len, dev, cnt++, urb); + } + info = usb_pipeout (pipe)? + TD_CC | TD_DP_IN | TD_T_DATA1: TD_CC | TD_DP_OUT | TD_T_DATA1; + td_fill (ohci, info, data, 0, dev, cnt++, urb); + if (!ohci->sleeping) + writel (OHCI_CLF, &ohci->regs->cmdstatus); /* start Control list */ + break; + + case PIPE_INTERRUPT: + info = usb_pipeout (urb->pipe)? + TD_CC | TD_DP_OUT | toggle: + TD_CC | TD_R | TD_DP_IN | toggle; + td_fill (ohci, info, data, data_len, dev, cnt++, urb); + break; + } + if (urb->length != cnt) + dbg("TD LENGTH %d != CNT %d", urb->length, cnt); +} + +/*-------------------------------------------------------------------------* + * Done List handling functions + *-------------------------------------------------------------------------*/ + +/* calculate the transfer length and update the urb */ + +static void dl_transfer_length(td_t * td) +{ + __u32 tdINFO, tdBE, tdCBP; + urb_priv_t *lurb_priv = td->ed->purb; + + tdINFO = m32_swap (td->hwINFO); + tdBE = m32_swap (td->hwBE); + tdCBP = m32_swap (td->hwCBP); + + if (!(usb_pipetype (lurb_priv->pipe) == PIPE_CONTROL && + ((td->index == 0) || (td->index == lurb_priv->length - 1)))) { + if (tdBE != 0) { + if (td->hwCBP == 0) + lurb_priv->actual_length += tdBE - td->data + 1; + else + lurb_priv->actual_length += tdCBP - td->data; + } + } +} + +/*-------------------------------------------------------------------------*/ + +/* replies to the request have to be on a FIFO basis so + * we reverse the reversed done-list */ + +static td_t * dl_reverse_done_list (ohci_t *ohci) +{ + __u32 td_list_hc; + td_t *td_rev = NULL; + td_t *td_list = NULL; + urb_priv_t *lurb_priv = NULL; + + td_list_hc = m32_swap (ohci->hcca->done_head) & 0xfffffff0; + ohci->hcca->done_head = 0; + + while (td_list_hc) { + td_list = (td_t *)td_list_hc; + + if (TD_CC_GET (m32_swap (td_list->hwINFO))) { + lurb_priv = td_list->ed->purb; + dbg(" USB-error/status: %x : %p", + TD_CC_GET (m32_swap (td_list->hwINFO)), td_list); + if (td_list->ed->hwHeadP & m32_swap (0x1)) { + if (lurb_priv && ((td_list->index + 1) < lurb_priv->length)) { + td_list->ed->hwHeadP = + (lurb_priv->td[lurb_priv->length - 1]->hwNextTD & m32_swap (0xfffffff0)) | + (td_list->ed->hwHeadP & m32_swap (0x2)); + lurb_priv->td_cnt += lurb_priv->length - td_list->index - 1; + } else + td_list->ed->hwHeadP &= m32_swap (0xfffffff2); + } +#ifdef CONFIG_MPC5200 + td_list->hwNextTD = 0; +#endif + } + + td_list->next_dl_td = td_rev; + td_rev = td_list; + td_list_hc = m32_swap (td_list->hwNextTD) & 0xfffffff0; + } + return td_list; +} + +/*-------------------------------------------------------------------------*/ + +/* td done list */ +static int dl_done_list (ohci_t *ohci, td_t *td_list) +{ + td_t *td_list_next = NULL; + ed_t *ed; + int cc = 0; + int stat = 0; + /* urb_t *urb; */ + urb_priv_t *lurb_priv; + __u32 tdINFO, edHeadP, edTailP; + + while (td_list) { + td_list_next = td_list->next_dl_td; + + tdINFO = m32_swap (td_list->hwINFO); + + ed = td_list->ed; + lurb_priv = ed->purb; + + dl_transfer_length(td_list); + + /* error code of transfer */ + cc = TD_CC_GET (tdINFO); + if (cc != 0) { + dbg("ConditionCode %#x", cc); + stat = cc_to_error[cc]; + } + + /* see if this done list makes for all TD's of current URB, + * and mark the URB finished if so */ + if (++(lurb_priv->td_cnt) == lurb_priv->length) { +#if 1 + if ((ed->state & (ED_OPER | ED_UNLINK)) && + (lurb_priv->state != URB_DEL)) +#else + if ((ed->state & (ED_OPER | ED_UNLINK))) +#endif + lurb_priv->finished = sohci_return_job(ohci, + lurb_priv); + else + dbg("dl_done_list: strange.., ED state %x, ed->state\n"); + } else + dbg("dl_done_list: processing TD %x, len %x\n", lurb_priv->td_cnt, + lurb_priv->length); + if (ed->state != ED_NEW && + (usb_pipetype (lurb_priv->pipe) != PIPE_INTERRUPT)) { + edHeadP = m32_swap (ed->hwHeadP) & 0xfffffff0; + edTailP = m32_swap (ed->hwTailP); + + /* unlink eds if they are not busy */ + if ((edHeadP == edTailP) && (ed->state == ED_OPER)) + ep_unlink (ohci, ed); + } + + td_list = td_list_next; + } + return stat; +} + +/*-------------------------------------------------------------------------* + * Virtual Root Hub + *-------------------------------------------------------------------------*/ + +/* Device descriptor */ +static __u8 root_hub_dev_des[] = +{ + 0x12, /* __u8 bLength; */ + 0x01, /* __u8 bDescriptorType; Device */ + 0x10, /* __u16 bcdUSB; v1.1 */ + 0x01, + 0x09, /* __u8 bDeviceClass; HUB_CLASSCODE */ + 0x00, /* __u8 bDeviceSubClass; */ + 0x00, /* __u8 bDeviceProtocol; */ + 0x08, /* __u8 bMaxPacketSize0; 8 Bytes */ + 0x00, /* __u16 idVendor; */ + 0x00, + 0x00, /* __u16 idProduct; */ + 0x00, + 0x00, /* __u16 bcdDevice; */ + 0x00, + 0x00, /* __u8 iManufacturer; */ + 0x01, /* __u8 iProduct; */ + 0x00, /* __u8 iSerialNumber; */ + 0x01 /* __u8 bNumConfigurations; */ +}; + +/* Configuration descriptor */ +static __u8 root_hub_config_des[] = +{ + 0x09, /* __u8 bLength; */ + 0x02, /* __u8 bDescriptorType; Configuration */ + 0x19, /* __u16 wTotalLength; */ + 0x00, + 0x01, /* __u8 bNumInterfaces; */ + 0x01, /* __u8 bConfigurationValue; */ + 0x00, /* __u8 iConfiguration; */ + 0x40, /* __u8 bmAttributes; + Bit 7: Bus-powered, 6: Self-powered, 5 Remote-wakwup, 4..0: resvd */ + 0x00, /* __u8 MaxPower; */ + + /* interface */ + 0x09, /* __u8 if_bLength; */ + 0x04, /* __u8 if_bDescriptorType; Interface */ + 0x00, /* __u8 if_bInterfaceNumber; */ + 0x00, /* __u8 if_bAlternateSetting; */ + 0x01, /* __u8 if_bNumEndpoints; */ + 0x09, /* __u8 if_bInterfaceClass; HUB_CLASSCODE */ + 0x00, /* __u8 if_bInterfaceSubClass; */ + 0x00, /* __u8 if_bInterfaceProtocol; */ + 0x00, /* __u8 if_iInterface; */ + + /* endpoint */ + 0x07, /* __u8 ep_bLength; */ + 0x05, /* __u8 ep_bDescriptorType; Endpoint */ + 0x81, /* __u8 ep_bEndpointAddress; IN Endpoint 1 */ + 0x03, /* __u8 ep_bmAttributes; Interrupt */ + 0x02, /* __u16 ep_wMaxPacketSize; ((MAX_ROOT_PORTS + 1) / 8 */ + 0x00, + 0xff /* __u8 ep_bInterval; 255 ms */ +}; + +static unsigned char root_hub_str_index0[] = +{ + 0x04, /* __u8 bLength; */ + 0x03, /* __u8 bDescriptorType; String-descriptor */ + 0x09, /* __u8 lang ID */ + 0x04, /* __u8 lang ID */ +}; + +static unsigned char root_hub_str_index1[] = +{ + 28, /* __u8 bLength; */ + 0x03, /* __u8 bDescriptorType; String-descriptor */ + 'O', /* __u8 Unicode */ + 0, /* __u8 Unicode */ + 'H', /* __u8 Unicode */ + 0, /* __u8 Unicode */ + 'C', /* __u8 Unicode */ + 0, /* __u8 Unicode */ + 'I', /* __u8 Unicode */ + 0, /* __u8 Unicode */ + ' ', /* __u8 Unicode */ + 0, /* __u8 Unicode */ + 'R', /* __u8 Unicode */ + 0, /* __u8 Unicode */ + 'o', /* __u8 Unicode */ + 0, /* __u8 Unicode */ + 'o', /* __u8 Unicode */ + 0, /* __u8 Unicode */ + 't', /* __u8 Unicode */ + 0, /* __u8 Unicode */ + ' ', /* __u8 Unicode */ + 0, /* __u8 Unicode */ + 'H', /* __u8 Unicode */ + 0, /* __u8 Unicode */ + 'u', /* __u8 Unicode */ + 0, /* __u8 Unicode */ + 'b', /* __u8 Unicode */ + 0, /* __u8 Unicode */ +}; + +/* Hub class-specific descriptor is constructed dynamically */ + +/*-------------------------------------------------------------------------*/ + +#define OK(x) len = (x); break +#ifdef DEBUG +#define WR_RH_STAT(x) {info("WR:status %#8x", (x));writel((x), &gohci.regs->roothub.status);} +#define WR_RH_PORTSTAT(x) {info("WR:portstatus[%d] %#8x", wIndex-1, (x));writel((x), &gohci.regs->roothub.portstatus[wIndex-1]);} +#else +#define WR_RH_STAT(x) writel((x), &gohci.regs->roothub.status) +#define WR_RH_PORTSTAT(x) writel((x), &gohci.regs->roothub.portstatus[wIndex-1]) +#endif +#define RD_RH_STAT roothub_status(&gohci) +#define RD_RH_PORTSTAT roothub_portstatus(&gohci,wIndex-1) + +/* request to virtual root hub */ + +int rh_check_port_status(ohci_t *controller) +{ + __u32 temp, ndp, i; + int res; + + res = -1; + temp = roothub_a (controller); + ndp = (temp & RH_A_NDP); +#ifdef CONFIG_AT91C_PQFP_UHPBUG + ndp = (ndp == 2) ? 1:0; +#endif + for (i = 0; i < ndp; i++) { + temp = roothub_portstatus (controller, i); + /* check for a device disconnect */ + if (((temp & (RH_PS_PESC | RH_PS_CSC)) == + (RH_PS_PESC | RH_PS_CSC)) && + ((temp & RH_PS_CCS) == 0)) { + res = i; + break; + } + } + return res; +} + +static int ohci_submit_rh_msg(struct usb_device *dev, unsigned long pipe, + void *buffer, int transfer_len, struct devrequest *cmd) +{ + void * data = buffer; + int leni = transfer_len; + int len = 0; + int stat = 0; + __u32 datab[4]; + __u8 *data_buf = (__u8 *)datab; + __u16 bmRType_bReq; + __u16 wValue; + __u16 wIndex; + __u16 wLength; + +#ifdef DEBUG +pkt_print(NULL, dev, pipe, buffer, transfer_len, cmd, "SUB(rh)", usb_pipein(pipe)); +#else + wait_ms(1); +#endif + if ((pipe & PIPE_INTERRUPT) == PIPE_INTERRUPT) { + info("Root-Hub submit IRQ: NOT implemented"); + return 0; + } + + bmRType_bReq = cmd->requesttype | (cmd->request << 8); + wValue = cpu_to_le16 (cmd->value); + wIndex = cpu_to_le16 (cmd->index); + wLength = cpu_to_le16 (cmd->length); + + info("Root-Hub: adr: %2x cmd(%1x): %08x %04x %04x %04x", + dev->devnum, 8, bmRType_bReq, wValue, wIndex, wLength); + + switch (bmRType_bReq) { + /* Request Destination: + without flags: Device, + RH_INTERFACE: interface, + RH_ENDPOINT: endpoint, + RH_CLASS means HUB here, + RH_OTHER | RH_CLASS almost ever means HUB_PORT here + */ + + case RH_GET_STATUS: + *(__u16 *) data_buf = cpu_to_le16 (1); OK (2); + case RH_GET_STATUS | RH_INTERFACE: + *(__u16 *) data_buf = cpu_to_le16 (0); OK (2); + case RH_GET_STATUS | RH_ENDPOINT: + *(__u16 *) data_buf = cpu_to_le16 (0); OK (2); + case RH_GET_STATUS | RH_CLASS: + *(__u32 *) data_buf = cpu_to_le32 ( + RD_RH_STAT & ~(RH_HS_CRWE | RH_HS_DRWE)); + OK (4); + case RH_GET_STATUS | RH_OTHER | RH_CLASS: + *(__u32 *) data_buf = cpu_to_le32 (RD_RH_PORTSTAT); OK (4); + + case RH_CLEAR_FEATURE | RH_ENDPOINT: + switch (wValue) { + case (RH_ENDPOINT_STALL): OK (0); + } + break; + + case RH_CLEAR_FEATURE | RH_CLASS: + switch (wValue) { + case RH_C_HUB_LOCAL_POWER: + OK(0); + case (RH_C_HUB_OVER_CURRENT): + WR_RH_STAT(RH_HS_OCIC); OK (0); + } + break; + + case RH_CLEAR_FEATURE | RH_OTHER | RH_CLASS: + switch (wValue) { + case (RH_PORT_ENABLE): + WR_RH_PORTSTAT (RH_PS_CCS ); OK (0); + case (RH_PORT_SUSPEND): + WR_RH_PORTSTAT (RH_PS_POCI); OK (0); + case (RH_PORT_POWER): + WR_RH_PORTSTAT (RH_PS_LSDA); OK (0); + case (RH_C_PORT_CONNECTION): + WR_RH_PORTSTAT (RH_PS_CSC ); OK (0); + case (RH_C_PORT_ENABLE): + WR_RH_PORTSTAT (RH_PS_PESC); OK (0); + case (RH_C_PORT_SUSPEND): + WR_RH_PORTSTAT (RH_PS_PSSC); OK (0); + case (RH_C_PORT_OVER_CURRENT): + WR_RH_PORTSTAT (RH_PS_OCIC); OK (0); + case (RH_C_PORT_RESET): + WR_RH_PORTSTAT (RH_PS_PRSC); OK (0); + } + break; + + case RH_SET_FEATURE | RH_OTHER | RH_CLASS: + switch (wValue) { + case (RH_PORT_SUSPEND): + WR_RH_PORTSTAT (RH_PS_PSS ); OK (0); + case (RH_PORT_RESET): /* BUG IN HUP CODE *********/ + if (RD_RH_PORTSTAT & RH_PS_CCS) + WR_RH_PORTSTAT (RH_PS_PRS); + OK (0); + case (RH_PORT_POWER): + WR_RH_PORTSTAT (RH_PS_PPS ); + wait_ms(100); + OK (0); + case (RH_PORT_ENABLE): /* BUG IN HUP CODE *********/ + if (RD_RH_PORTSTAT & RH_PS_CCS) + WR_RH_PORTSTAT (RH_PS_PES ); + OK (0); + } + break; + + case RH_SET_ADDRESS: gohci.rh.devnum = wValue; OK(0); + + case RH_GET_DESCRIPTOR: + switch ((wValue & 0xff00) >> 8) { + case (0x01): /* device descriptor */ + len = min_t(unsigned int, + leni, + min_t(unsigned int, + sizeof (root_hub_dev_des), + wLength)); + data_buf = root_hub_dev_des; OK(len); + case (0x02): /* configuration descriptor */ + len = min_t(unsigned int, + leni, + min_t(unsigned int, + sizeof (root_hub_config_des), + wLength)); + data_buf = root_hub_config_des; OK(len); + case (0x03): /* string descriptors */ + if(wValue==0x0300) { + len = min_t(unsigned int, + leni, + min_t(unsigned int, + sizeof (root_hub_str_index0), + wLength)); + data_buf = root_hub_str_index0; + OK(len); + } + if(wValue==0x0301) { + len = min_t(unsigned int, + leni, + min_t(unsigned int, + sizeof (root_hub_str_index1), + wLength)); + data_buf = root_hub_str_index1; + OK(len); + } + default: + stat = USB_ST_STALLED; + } + break; + + case RH_GET_DESCRIPTOR | RH_CLASS: + { + __u32 temp = roothub_a (&gohci); + + data_buf [0] = 9; /* min length; */ + data_buf [1] = 0x29; + data_buf [2] = temp & RH_A_NDP; +#ifdef CONFIG_AT91C_PQFP_UHPBUG + data_buf [2] = (data_buf [2] == 2) ? 1:0; +#endif + data_buf [3] = 0; + if (temp & RH_A_PSM) /* per-port power switching? */ + data_buf [3] |= 0x1; + if (temp & RH_A_NOCP) /* no overcurrent reporting? */ + data_buf [3] |= 0x10; + else if (temp & RH_A_OCPM) /* per-port overcurrent reporting? */ + data_buf [3] |= 0x8; + + /* corresponds to data_buf[4-7] */ + datab [1] = 0; + data_buf [5] = (temp & RH_A_POTPGT) >> 24; + temp = roothub_b (&gohci); + data_buf [7] = temp & RH_B_DR; + if (data_buf [2] < 7) { + data_buf [8] = 0xff; + } else { + data_buf [0] += 2; + data_buf [8] = (temp & RH_B_DR) >> 8; + data_buf [10] = data_buf [9] = 0xff; + } + + len = min_t(unsigned int, leni, + min_t(unsigned int, data_buf [0], wLength)); + OK (len); + } + + case RH_GET_CONFIGURATION: *(__u8 *) data_buf = 0x01; OK (1); + + case RH_SET_CONFIGURATION: WR_RH_STAT (0x10000); OK (0); + + default: + dbg ("unsupported root hub command"); + stat = USB_ST_STALLED; + } + +#ifdef DEBUG + ohci_dump_roothub (&gohci, 1); +#else + wait_ms(1); +#endif + + len = min_t(int, len, leni); + if (data != data_buf) + memcpy (data, data_buf, len); + dev->act_len = len; + dev->status = stat; + +#ifdef DEBUG + pkt_print(NULL, dev, pipe, buffer, transfer_len, cmd, "RET(rh)", 0/*usb_pipein(pipe)*/); +#else + wait_ms(1); +#endif + + return stat; +} + +/*-------------------------------------------------------------------------*/ + +/* common code for handling submit messages - used for all but root hub */ +/* accesses. */ +int submit_common_msg(struct usb_device *dev, unsigned long pipe, void *buffer, + int transfer_len, struct devrequest *setup, int interval) +{ + int stat = 0; + int maxsize = usb_maxpacket(dev, pipe); + int timeout; + urb_priv_t *urb; + + urb = malloc(sizeof(urb_priv_t)); + memset(urb, 0, sizeof(urb_priv_t)); + + urb->dev = dev; + urb->pipe = pipe; + urb->transfer_buffer = buffer; + urb->transfer_buffer_length = transfer_len; + urb->interval = interval; + + /* device pulled? Shortcut the action. */ + if (devgone == dev) { + dev->status = USB_ST_CRC_ERR; + return 0; + } + +#ifdef DEBUG + urb->actual_length = 0; + pkt_print(urb, dev, pipe, buffer, transfer_len, setup, "SUB", usb_pipein(pipe)); +#else + wait_ms(1); +#endif + if (!maxsize) { + err("submit_common_message: pipesize for pipe %lx is zero", + pipe); + return -1; + } + + if (sohci_submit_job(urb, setup) < 0) { + err("sohci_submit_job failed"); + return -1; + } + +#if 0 + wait_ms(10); + /* ohci_dump_status(&gohci); */ +#endif + + /* allow more time for a BULK device to react - some are slow */ +#define BULK_TO 5000 /* timeout in milliseconds */ + if (usb_pipetype (pipe) == PIPE_BULK) + timeout = BULK_TO; + else + timeout = 100; + + /* wait for it to complete */ + for (;;) { + /* check whether the controller is done */ + stat = hc_interrupt(); + if (stat < 0) { + stat = USB_ST_CRC_ERR; + break; + } + + /* NOTE: since we are not interrupt driven in U-Boot and always + * handle only one URB at a time, we cannot assume the + * transaction finished on the first successful return from + * hc_interrupt().. unless the flag for current URB is set, + * meaning that all TD's to/from device got actually + * transferred and processed. If the current URB is not + * finished we need to re-iterate this loop so as + * hc_interrupt() gets called again as there needs to be some + * more TD's to process still */ + if ((stat >= 0) && (stat != 0xff) && (urb->finished)) { + /* 0xff is returned for an SF-interrupt */ + break; + } + + if (--timeout) { + wait_ms(1); + if (!urb->finished) + dbg("\%"); + + } else { + err("CTL:TIMEOUT "); + dbg("submit_common_msg: TO status %x\n", stat); + urb->finished = 1; + stat = USB_ST_CRC_ERR; + break; + } + } + + dev->status = stat; + dev->act_len = transfer_len; + +#ifdef DEBUG + pkt_print(urb, dev, pipe, buffer, transfer_len, setup, "RET(ctlr)", usb_pipein(pipe)); +#else + wait_ms(1); +#endif + + /* free TDs in urb_priv */ + if (usb_pipetype (pipe) != PIPE_INTERRUPT) + urb_free_priv (urb); + return 0; +} + +/* submit routines called from usb.c */ +int submit_bulk_msg(struct usb_device *dev, unsigned long pipe, void *buffer, + int transfer_len) +{ + info("submit_bulk_msg"); + return submit_common_msg(dev, pipe, buffer, transfer_len, NULL, 0); +} + +int submit_control_msg(struct usb_device *dev, unsigned long pipe, void *buffer, + int transfer_len, struct devrequest *setup) +{ + int maxsize = usb_maxpacket(dev, pipe); + + info("submit_control_msg"); +#ifdef DEBUG + pkt_print(NULL, dev, pipe, buffer, transfer_len, setup, "SUB", usb_pipein(pipe)); +#else + wait_ms(1); +#endif + if (!maxsize) { + err("submit_control_message: pipesize for pipe %lx is zero", + pipe); + return -1; + } + if (((pipe >> 8) & 0x7f) == gohci.rh.devnum) { + gohci.rh.dev = dev; + /* root hub - redirect */ + return ohci_submit_rh_msg(dev, pipe, buffer, transfer_len, + setup); + } + + return submit_common_msg(dev, pipe, buffer, transfer_len, setup, 0); +} + +int submit_int_msg(struct usb_device *dev, unsigned long pipe, void *buffer, + int transfer_len, int interval) +{ + info("submit_int_msg"); + return submit_common_msg(dev, pipe, buffer, transfer_len, NULL, + interval); +} + +/*-------------------------------------------------------------------------* + * HC functions + *-------------------------------------------------------------------------*/ + +/* reset the HC and BUS */ + +static int hc_reset (ohci_t *ohci) +{ + int timeout = 30; + int smm_timeout = 50; /* 0,5 sec */ + + dbg("%s\n", __FUNCTION__); + + if (readl (&ohci->regs->control) & OHCI_CTRL_IR) { /* SMM owns the HC */ + writel (OHCI_OCR, &ohci->regs->cmdstatus); /* request ownership */ + info("USB HC TakeOver from SMM"); + while (readl (&ohci->regs->control) & OHCI_CTRL_IR) { + wait_ms (10); + if (--smm_timeout == 0) { + err("USB HC TakeOver failed!"); + return -1; + } + } + } + + /* Disable HC interrupts */ + writel (OHCI_INTR_MIE, &ohci->regs->intrdisable); + + dbg("USB HC reset_hc usb-%s: ctrl = 0x%X ;\n", + ohci->slot_name, + readl(&ohci->regs->control)); + + /* Reset USB (needed by some controllers) */ + ohci->hc_control = 0; + writel (ohci->hc_control, &ohci->regs->control); + + /* HC Reset requires max 10 us delay */ + writel (OHCI_HCR, &ohci->regs->cmdstatus); + while ((readl (&ohci->regs->cmdstatus) & OHCI_HCR) != 0) { + if (--timeout == 0) { + err("USB HC reset timed out!"); + return -1; + } + udelay (1); + } + return 0; +} + +/*-------------------------------------------------------------------------*/ + +/* Start an OHCI controller, set the BUS operational + * enable interrupts + * connect the virtual root hub */ + +static int hc_start (ohci_t * ohci) +{ + __u32 mask; + unsigned int fminterval; + + ohci->disabled = 1; + + /* Tell the controller where the control and bulk lists are + * The lists are empty now. */ + + writel (0, &ohci->regs->ed_controlhead); + writel (0, &ohci->regs->ed_bulkhead); + + writel ((__u32)ohci->hcca, &ohci->regs->hcca); /* a reset clears this */ + + fminterval = 0x2edf; + writel ((fminterval * 9) / 10, &ohci->regs->periodicstart); + fminterval |= ((((fminterval - 210) * 6) / 7) << 16); + writel (fminterval, &ohci->regs->fminterval); + writel (0x628, &ohci->regs->lsthresh); + + /* start controller operations */ + ohci->hc_control = OHCI_CONTROL_INIT | OHCI_USB_OPER; + ohci->disabled = 0; + writel (ohci->hc_control, &ohci->regs->control); + + /* disable all interrupts */ + mask = (OHCI_INTR_SO | OHCI_INTR_WDH | OHCI_INTR_SF | OHCI_INTR_RD | + OHCI_INTR_UE | OHCI_INTR_FNO | OHCI_INTR_RHSC | + OHCI_INTR_OC | OHCI_INTR_MIE); + writel (mask, &ohci->regs->intrdisable); + /* clear all interrupts */ + mask &= ~OHCI_INTR_MIE; + writel (mask, &ohci->regs->intrstatus); + /* Choose the interrupts we care about now - but w/o MIE */ + mask = OHCI_INTR_RHSC | OHCI_INTR_UE | OHCI_INTR_WDH | OHCI_INTR_SO; + writel (mask, &ohci->regs->intrenable); + +#ifdef OHCI_USE_NPS + /* required for AMD-756 and some Mac platforms */ + writel ((roothub_a (ohci) | RH_A_NPS) & ~RH_A_PSM, + &ohci->regs->roothub.a); + writel (RH_HS_LPSC, &ohci->regs->roothub.status); +#endif /* OHCI_USE_NPS */ + +#define mdelay(n) ({unsigned long msec=(n); while (msec--) udelay(1000);}) + /* POTPGT delay is bits 24-31, in 2 ms units. */ + mdelay ((roothub_a (ohci) >> 23) & 0x1fe); + + /* connect the virtual root hub */ + ohci->rh.devnum = 0; + + return 0; +} + +/*-------------------------------------------------------------------------*/ + +/* Poll USB interrupt. */ +void usb_event_poll(void) +{ + hc_interrupt(); +} + +/* an interrupt happens */ + +static int hc_interrupt (void) +{ + ohci_t *ohci = &gohci; + struct ohci_regs *regs = ohci->regs; + int ints; + int stat = -1; + + if ((ohci->hcca->done_head != 0) && + !(m32_swap (ohci->hcca->done_head) & 0x01)) { + ints = OHCI_INTR_WDH; + } else if ((ints = readl (®s->intrstatus)) == ~(u32)0) { + ohci->disabled++; + err ("%s device removed!", ohci->slot_name); + return -1; + } else if ((ints &= readl (®s->intrenable)) == 0) { + dbg("hc_interrupt: returning..\n"); + return 0xff; + } + + /* dbg("Interrupt: %x frame: %x", ints, le16_to_cpu (ohci->hcca->frame_no)); */ + + if (ints & OHCI_INTR_RHSC) { + got_rhsc = 1; + stat = 0xff; + } + + if (ints & OHCI_INTR_UE) { + ohci->disabled++; + err ("OHCI Unrecoverable Error, controller usb-%s disabled", + ohci->slot_name); + /* e.g. due to PCI Master/Target Abort */ + +#ifdef DEBUG + ohci_dump (ohci, 1); +#else + wait_ms(1); +#endif + /* FIXME: be optimistic, hope that bug won't repeat often. */ + /* Make some non-interrupt context restart the controller. */ + /* Count and limit the retries though; either hardware or */ + /* software errors can go forever... */ + hc_reset (ohci); + return -1; + } + + if (ints & OHCI_INTR_WDH) { + wait_ms(1); + writel (OHCI_INTR_WDH, ®s->intrdisable); + (void)readl (®s->intrdisable); /* flush */ + stat = dl_done_list (&gohci, dl_reverse_done_list (&gohci)); + writel (OHCI_INTR_WDH, ®s->intrenable); + (void)readl (®s->intrdisable); /* flush */ + } + + if (ints & OHCI_INTR_SO) { + dbg("USB Schedule overrun\n"); + writel (OHCI_INTR_SO, ®s->intrenable); + stat = -1; + } + + /* FIXME: this assumes SOF (1/ms) interrupts don't get lost... */ + if (ints & OHCI_INTR_SF) { + unsigned int frame = m16_swap (ohci->hcca->frame_no) & 1; + wait_ms(1); + writel (OHCI_INTR_SF, ®s->intrdisable); + if (ohci->ed_rm_list[frame] != NULL) + writel (OHCI_INTR_SF, ®s->intrenable); + stat = 0xff; + } + + writel (ints, ®s->intrstatus); + return stat; +} + +/*-------------------------------------------------------------------------*/ + +/*-------------------------------------------------------------------------*/ + +/* De-allocate all resources.. */ + +static void hc_release_ohci (ohci_t *ohci) +{ + dbg ("USB HC release ohci usb-%s", ohci->slot_name); + + if (!ohci->disabled) + hc_reset (ohci); +} + +/*-------------------------------------------------------------------------*/ + +/* + * low level initalisation routine, called from usb.c + */ +static char ohci_inited = 0; + +int usb_lowlevel_init(void) +{ +#ifdef CONFIG_PCI_OHCI + pci_dev_t pdev; +#endif + +#ifdef CFG_USB_OHCI_CPU_INIT + /* cpu dependant init */ + if(usb_cpu_init()) + return -1; +#endif + +#ifdef CFG_USB_OHCI_BOARD_INIT + /* board dependant init */ + if(usb_board_init()) + return -1; +#endif + memset (&gohci, 0, sizeof (ohci_t)); + + /* align the storage */ + if ((__u32)&ghcca[0] & 0xff) { + err("HCCA not aligned!!"); + return -1; + } + phcca = &ghcca[0]; + info("aligned ghcca %p", phcca); + memset(&ohci_dev, 0, sizeof(struct ohci_device)); + if ((__u32)&ohci_dev.ed[0] & 0x7) { + err("EDs not aligned!!"); + return -1; + } + memset(gtd, 0, sizeof(td_t) * (NUM_TD + 1)); + if ((__u32)gtd & 0x7) { + err("TDs not aligned!!"); + return -1; + } + ptd = gtd; + gohci.hcca = phcca; + memset (phcca, 0, sizeof (struct ohci_hcca)); + + gohci.disabled = 1; + gohci.sleeping = 0; + gohci.irq = -1; +#ifdef CONFIG_PCI_OHCI + pdev = pci_find_devices(ohci_pci_ids, 0); + + if (pdev != -1) { + u16 vid, did; + u32 base; + pci_read_config_word(pdev, PCI_VENDOR_ID, &vid); + pci_read_config_word(pdev, PCI_DEVICE_ID, &did); + printf("OHCI pci controller (%04x, %04x) found @(%d:%d:%d)\n", + vid, did, (pdev >> 16) & 0xff, + (pdev >> 11) & 0x1f, (pdev >> 8) & 0x7); + pci_read_config_dword(pdev, PCI_BASE_ADDRESS_0, &base); + printf("OHCI regs address 0x%08x\n", base); + gohci.regs = (struct ohci_regs *)base; + } else + return -1; +#else + gohci.regs = (struct ohci_regs *)CFG_USB_OHCI_REGS_BASE; +#endif + + gohci.flags = 0; + gohci.slot_name = CFG_USB_OHCI_SLOT_NAME; + + if (hc_reset (&gohci) < 0) { + hc_release_ohci (&gohci); + err ("can't reset usb-%s", gohci.slot_name); +#ifdef CFG_USB_OHCI_BOARD_INIT + /* board dependant cleanup */ + usb_board_init_fail(); +#endif + +#ifdef CFG_USB_OHCI_CPU_INIT + /* cpu dependant cleanup */ + usb_cpu_init_fail(); +#endif + return -1; + } + + /* FIXME this is a second HC reset; why?? */ + /* writel(gohci.hc_control = OHCI_USB_RESET, &gohci.regs->control); + wait_ms(10); */ + if (hc_start (&gohci) < 0) { + err ("can't start usb-%s", gohci.slot_name); + hc_release_ohci (&gohci); + /* Initialization failed */ +#ifdef CFG_USB_OHCI_BOARD_INIT + /* board dependant cleanup */ + usb_board_stop(); +#endif + +#ifdef CFG_USB_OHCI_CPU_INIT + /* cpu dependant cleanup */ + usb_cpu_stop(); +#endif + return -1; + } + +#ifdef DEBUG + ohci_dump (&gohci, 1); +#else + wait_ms(1); +#endif + ohci_inited = 1; + return 0; +} + +int usb_lowlevel_stop(void) +{ + /* this gets called really early - before the controller has */ + /* even been initialized! */ + if (!ohci_inited) + return 0; + /* TODO release any interrupts, etc. */ + /* call hc_release_ohci() here ? */ + hc_reset (&gohci); + +#ifdef CFG_USB_OHCI_BOARD_INIT + /* board dependant cleanup */ + if(usb_board_stop()) + return -1; +#endif + +#ifdef CFG_USB_OHCI_CPU_INIT + /* cpu dependant cleanup */ + if(usb_cpu_stop()) + return -1; +#endif + + return 0; +} +#endif /* CONFIG_USB_OHCI_NEW */ diff --git a/drivers/usb_ohci.h b/drivers/usb_ohci.h new file mode 100644 index 0000000..380cb4c --- /dev/null +++ b/drivers/usb_ohci.h @@ -0,0 +1,445 @@ +/* + * URB OHCI HCD (Host Controller Driver) for USB. + * + * (C) Copyright 1999 Roman Weissgaerber <weissg@vienna.at> + * (C) Copyright 2000-2001 David Brownell <dbrownell@users.sourceforge.net> + * + * usb-ohci.h + */ + +/* functions for doing board or CPU specific setup/cleanup */ +extern int usb_board_init(void); +extern int usb_board_stop(void); +extern int usb_board_init_fail(void); + +extern int usb_cpu_init(void); +extern int usb_cpu_stop(void); +extern int usb_cpu_init_fail(void); + + +static int cc_to_error[16] = { + +/* mapping of the OHCI CC status to error codes */ + /* No Error */ 0, + /* CRC Error */ USB_ST_CRC_ERR, + /* Bit Stuff */ USB_ST_BIT_ERR, + /* Data Togg */ USB_ST_CRC_ERR, + /* Stall */ USB_ST_STALLED, + /* DevNotResp */ -1, + /* PIDCheck */ USB_ST_BIT_ERR, + /* UnExpPID */ USB_ST_BIT_ERR, + /* DataOver */ USB_ST_BUF_ERR, + /* DataUnder */ USB_ST_BUF_ERR, + /* reservd */ -1, + /* reservd */ -1, + /* BufferOver */ USB_ST_BUF_ERR, + /* BuffUnder */ USB_ST_BUF_ERR, + /* Not Access */ -1, + /* Not Access */ -1 +}; + +/* ED States */ + +#define ED_NEW 0x00 +#define ED_UNLINK 0x01 +#define ED_OPER 0x02 +#define ED_DEL 0x04 +#define ED_URB_DEL 0x08 + +/* usb_ohci_ed */ +struct ed { + __u32 hwINFO; + __u32 hwTailP; + __u32 hwHeadP; + __u32 hwNextED; + + struct ed *ed_prev; + __u8 int_period; + __u8 int_branch; + __u8 int_load; + __u8 int_interval; + __u8 state; + __u8 type; + __u16 last_iso; + struct ed *ed_rm_list; + + struct usb_device *usb_dev; + void *purb; + __u32 unused[2]; +} __attribute((aligned(16))); +typedef struct ed ed_t; + + +/* TD info field */ +#define TD_CC 0xf0000000 +#define TD_CC_GET(td_p) ((td_p >>28) & 0x0f) +#define TD_CC_SET(td_p, cc) (td_p) = ((td_p) & 0x0fffffff) | (((cc) & 0x0f) << 28) +#define TD_EC 0x0C000000 +#define TD_T 0x03000000 +#define TD_T_DATA0 0x02000000 +#define TD_T_DATA1 0x03000000 +#define TD_T_TOGGLE 0x00000000 +#define TD_R 0x00040000 +#define TD_DI 0x00E00000 +#define TD_DI_SET(X) (((X) & 0x07)<< 21) +#define TD_DP 0x00180000 +#define TD_DP_SETUP 0x00000000 +#define TD_DP_IN 0x00100000 +#define TD_DP_OUT 0x00080000 + +#define TD_ISO 0x00010000 +#define TD_DEL 0x00020000 + +/* CC Codes */ +#define TD_CC_NOERROR 0x00 +#define TD_CC_CRC 0x01 +#define TD_CC_BITSTUFFING 0x02 +#define TD_CC_DATATOGGLEM 0x03 +#define TD_CC_STALL 0x04 +#define TD_DEVNOTRESP 0x05 +#define TD_PIDCHECKFAIL 0x06 +#define TD_UNEXPECTEDPID 0x07 +#define TD_DATAOVERRUN 0x08 +#define TD_DATAUNDERRUN 0x09 +#define TD_BUFFEROVERRUN 0x0C +#define TD_BUFFERUNDERRUN 0x0D +#define TD_NOTACCESSED 0x0F + + +#define MAXPSW 1 + +struct td { + __u32 hwINFO; + __u32 hwCBP; /* Current Buffer Pointer */ + __u32 hwNextTD; /* Next TD Pointer */ + __u32 hwBE; /* Memory Buffer End Pointer */ + +/* #ifndef CONFIG_MPC5200 /\* this seems wrong *\/ */ + __u16 hwPSW[MAXPSW]; +/* #endif */ + __u8 unused; + __u8 index; + struct ed *ed; + struct td *next_dl_td; + struct usb_device *usb_dev; + int transfer_len; + __u32 data; + + __u32 unused2[2]; +} __attribute((aligned(32))); +typedef struct td td_t; + +#define OHCI_ED_SKIP (1 << 14) + +/* + * The HCCA (Host Controller Communications Area) is a 256 byte + * structure defined in the OHCI spec. that the host controller is + * told the base address of. It must be 256-byte aligned. + */ + +#define NUM_INTS 32 /* part of the OHCI standard */ +struct ohci_hcca { + __u32 int_table[NUM_INTS]; /* Interrupt ED table */ +#if defined(CONFIG_MPC5200) + __u16 pad1; /* set to 0 on each frame_no change */ + __u16 frame_no; /* current frame number */ +#else + __u16 frame_no; /* current frame number */ + __u16 pad1; /* set to 0 on each frame_no change */ +#endif + __u32 done_head; /* info returned for an interrupt */ + u8 reserved_for_hc[116]; +} __attribute((aligned(256))); + + +/* + * Maximum number of root hub ports. + */ +#ifndef CFG_USB_OHCI_MAX_ROOT_PORTS +# error "CFG_USB_OHCI_MAX_ROOT_PORTS undefined!" +#endif + +/* + * This is the structure of the OHCI controller's memory mapped I/O + * region. This is Memory Mapped I/O. You must use the readl() and + * writel() macros defined in asm/io.h to access these!! + */ +struct ohci_regs { + /* control and status registers */ + __u32 revision; + __u32 control; + __u32 cmdstatus; + __u32 intrstatus; + __u32 intrenable; + __u32 intrdisable; + /* memory pointers */ + __u32 hcca; + __u32 ed_periodcurrent; + __u32 ed_controlhead; + __u32 ed_controlcurrent; + __u32 ed_bulkhead; + __u32 ed_bulkcurrent; + __u32 donehead; + /* frame counters */ + __u32 fminterval; + __u32 fmremaining; + __u32 fmnumber; + __u32 periodicstart; + __u32 lsthresh; + /* Root hub ports */ + struct ohci_roothub_regs { + __u32 a; + __u32 b; + __u32 status; + __u32 portstatus[CFG_USB_OHCI_MAX_ROOT_PORTS]; + } roothub; +} __attribute((aligned(32))); + + +/* OHCI CONTROL AND STATUS REGISTER MASKS */ + +/* + * HcControl (control) register masks + */ +#define OHCI_CTRL_CBSR (3 << 0) /* control/bulk service ratio */ +#define OHCI_CTRL_PLE (1 << 2) /* periodic list enable */ +#define OHCI_CTRL_IE (1 << 3) /* isochronous enable */ +#define OHCI_CTRL_CLE (1 << 4) /* control list enable */ +#define OHCI_CTRL_BLE (1 << 5) /* bulk list enable */ +#define OHCI_CTRL_HCFS (3 << 6) /* host controller functional state */ +#define OHCI_CTRL_IR (1 << 8) /* interrupt routing */ +#define OHCI_CTRL_RWC (1 << 9) /* remote wakeup connected */ +#define OHCI_CTRL_RWE (1 << 10) /* remote wakeup enable */ + +/* pre-shifted values for HCFS */ +# define OHCI_USB_RESET (0 << 6) +# define OHCI_USB_RESUME (1 << 6) +# define OHCI_USB_OPER (2 << 6) +# define OHCI_USB_SUSPEND (3 << 6) + +/* + * HcCommandStatus (cmdstatus) register masks + */ +#define OHCI_HCR (1 << 0) /* host controller reset */ +#define OHCI_CLF (1 << 1) /* control list filled */ +#define OHCI_BLF (1 << 2) /* bulk list filled */ +#define OHCI_OCR (1 << 3) /* ownership change request */ +#define OHCI_SOC (3 << 16) /* scheduling overrun count */ + +/* + * masks used with interrupt registers: + * HcInterruptStatus (intrstatus) + * HcInterruptEnable (intrenable) + * HcInterruptDisable (intrdisable) + */ +#define OHCI_INTR_SO (1 << 0) /* scheduling overrun */ +#define OHCI_INTR_WDH (1 << 1) /* writeback of done_head */ +#define OHCI_INTR_SF (1 << 2) /* start frame */ +#define OHCI_INTR_RD (1 << 3) /* resume detect */ +#define OHCI_INTR_UE (1 << 4) /* unrecoverable error */ +#define OHCI_INTR_FNO (1 << 5) /* frame number overflow */ +#define OHCI_INTR_RHSC (1 << 6) /* root hub status change */ +#define OHCI_INTR_OC (1 << 30) /* ownership change */ +#define OHCI_INTR_MIE (1 << 31) /* master interrupt enable */ + + +/* Virtual Root HUB */ +struct virt_root_hub { + int devnum; /* Address of Root Hub endpoint */ + void *dev; /* was urb */ + void *int_addr; + int send; + int interval; +}; + +/* USB HUB CONSTANTS (not OHCI-specific; see hub.h) */ + +/* destination of request */ +#define RH_INTERFACE 0x01 +#define RH_ENDPOINT 0x02 +#define RH_OTHER 0x03 + +#define RH_CLASS 0x20 +#define RH_VENDOR 0x40 + +/* Requests: bRequest << 8 | bmRequestType */ +#define RH_GET_STATUS 0x0080 +#define RH_CLEAR_FEATURE 0x0100 +#define RH_SET_FEATURE 0x0300 +#define RH_SET_ADDRESS 0x0500 +#define RH_GET_DESCRIPTOR 0x0680 +#define RH_SET_DESCRIPTOR 0x0700 +#define RH_GET_CONFIGURATION 0x0880 +#define RH_SET_CONFIGURATION 0x0900 +#define RH_GET_STATE 0x0280 +#define RH_GET_INTERFACE 0x0A80 +#define RH_SET_INTERFACE 0x0B00 +#define RH_SYNC_FRAME 0x0C80 +/* Our Vendor Specific Request */ +#define RH_SET_EP 0x2000 + + +/* Hub port features */ +#define RH_PORT_CONNECTION 0x00 +#define RH_PORT_ENABLE 0x01 +#define RH_PORT_SUSPEND 0x02 +#define RH_PORT_OVER_CURRENT 0x03 +#define RH_PORT_RESET 0x04 +#define RH_PORT_POWER 0x08 +#define RH_PORT_LOW_SPEED 0x09 + +#define RH_C_PORT_CONNECTION 0x10 +#define RH_C_PORT_ENABLE 0x11 +#define RH_C_PORT_SUSPEND 0x12 +#define RH_C_PORT_OVER_CURRENT 0x13 +#define RH_C_PORT_RESET 0x14 + +/* Hub features */ +#define RH_C_HUB_LOCAL_POWER 0x00 +#define RH_C_HUB_OVER_CURRENT 0x01 + +#define RH_DEVICE_REMOTE_WAKEUP 0x00 +#define RH_ENDPOINT_STALL 0x01 + +#define RH_ACK 0x01 +#define RH_REQ_ERR -1 +#define RH_NACK 0x00 + + +/* OHCI ROOT HUB REGISTER MASKS */ + +/* roothub.portstatus [i] bits */ +#define RH_PS_CCS 0x00000001 /* current connect status */ +#define RH_PS_PES 0x00000002 /* port enable status*/ +#define RH_PS_PSS 0x00000004 /* port suspend status */ +#define RH_PS_POCI 0x00000008 /* port over current indicator */ +#define RH_PS_PRS 0x00000010 /* port reset status */ +#define RH_PS_PPS 0x00000100 /* port power status */ +#define RH_PS_LSDA 0x00000200 /* low speed device attached */ +#define RH_PS_CSC 0x00010000 /* connect status change */ +#define RH_PS_PESC 0x00020000 /* port enable status change */ +#define RH_PS_PSSC 0x00040000 /* port suspend status change */ +#define RH_PS_OCIC 0x00080000 /* over current indicator change */ +#define RH_PS_PRSC 0x00100000 /* port reset status change */ + +/* roothub.status bits */ +#define RH_HS_LPS 0x00000001 /* local power status */ +#define RH_HS_OCI 0x00000002 /* over current indicator */ +#define RH_HS_DRWE 0x00008000 /* device remote wakeup enable */ +#define RH_HS_LPSC 0x00010000 /* local power status change */ +#define RH_HS_OCIC 0x00020000 /* over current indicator change */ +#define RH_HS_CRWE 0x80000000 /* clear remote wakeup enable */ + +/* roothub.b masks */ +#define RH_B_DR 0x0000ffff /* device removable flags */ +#define RH_B_PPCM 0xffff0000 /* port power control mask */ + +/* roothub.a masks */ +#define RH_A_NDP (0xff << 0) /* number of downstream ports */ +#define RH_A_PSM (1 << 8) /* power switching mode */ +#define RH_A_NPS (1 << 9) /* no power switching */ +#define RH_A_DT (1 << 10) /* device type (mbz) */ +#define RH_A_OCPM (1 << 11) /* over current protection mode */ +#define RH_A_NOCP (1 << 12) /* no over current protection */ +#define RH_A_POTPGT (0xff << 24) /* power on to power good time */ + +/* urb */ +#define N_URB_TD 48 +typedef struct +{ + ed_t *ed; + __u16 length; /* number of tds associated with this request */ + __u16 td_cnt; /* number of tds already serviced */ + struct usb_device *dev; + int state; + unsigned long pipe; + void *transfer_buffer; + int transfer_buffer_length; + int interval; + int actual_length; + int finished; + td_t *td[N_URB_TD]; /* list pointer to all corresponding TDs associated with this request */ +} urb_priv_t; +#define URB_DEL 1 + +/* + * This is the full ohci controller description + * + * Note how the "proper" USB information is just + * a subset of what the full implementation needs. (Linus) + */ + + +typedef struct ohci { + struct ohci_hcca *hcca; /* hcca */ + /*dma_addr_t hcca_dma;*/ + + int irq; + int disabled; /* e.g. got a UE, we're hung */ + int sleeping; + unsigned long flags; /* for HC bugs */ + + struct ohci_regs *regs; /* OHCI controller's memory */ + + int ohci_int_load[32]; /* load of the 32 Interrupt Chains (for load balancing)*/ + ed_t *ed_rm_list[2]; /* lists of all endpoints to be removed */ + ed_t *ed_bulktail; /* last endpoint of bulk list */ + ed_t *ed_controltail; /* last endpoint of control list */ + int intrstatus; + __u32 hc_control; /* copy of the hc control reg */ + struct usb_device *dev[32]; + struct virt_root_hub rh; + + const char *slot_name; +} ohci_t; + +#define NUM_EDS 8 /* num of preallocated endpoint descriptors */ + +struct ohci_device { + ed_t ed[NUM_EDS]; + int ed_cnt; +}; + +/* hcd */ +/* endpoint */ +static int ep_link(ohci_t * ohci, ed_t * ed); +static int ep_unlink(ohci_t * ohci, ed_t * ed); +static ed_t * ep_add_ed(struct usb_device * usb_dev, unsigned long pipe, + int interval, int load); + +/*-------------------------------------------------------------------------*/ + +/* we need more TDs than EDs */ +#define NUM_TD 64 + +/* +1 so we can align the storage */ +td_t gtd[NUM_TD+1]; +/* pointers to aligned storage */ +td_t *ptd; + +/* TDs ... */ +static inline struct td * +td_alloc (struct usb_device *usb_dev) +{ + int i; + struct td *td; + + td = NULL; + for (i = 0; i < NUM_TD; i++) + { + if (ptd[i].usb_dev == NULL) + { + td = &ptd[i]; + td->usb_dev = usb_dev; + break; + } + } + + return td; +} + +static inline void +ed_free (struct ed *ed) +{ + ed->usb_dev = NULL; +} diff --git a/drivers/usbdcore_ep0.c b/drivers/usbdcore_ep0.c index 260befe..1e44f32 100644 --- a/drivers/usbdcore_ep0.c +++ b/drivers/usbdcore_ep0.c @@ -2,6 +2,9 @@ * (C) Copyright 2003 * Gerry Hamel, geh@ti.com, Texas Instruments * + * (C) Copyright 2006 + * Bryan O'Donoghue, deckard@CodeHermit.ie + * * Based on * linux/drivers/usbd/ep0.c * @@ -39,11 +42,17 @@ * function driver. This may need to change. * * XXX + * + * As alluded to above, a simple callback cdc_recv_setup has been implemented + * in the usb_device data structure to facilicate passing + * Common Device Class packets to a function driver. + * + * XXX */ #include <common.h> -#if defined(CONFIG_OMAP1510) && defined(CONFIG_USB_DEVICE) +#if defined(CONFIG_USB_DEVICE) #include "usbdcore.h" #if 0 @@ -69,7 +78,7 @@ static int ep0_get_status (struct usb_device_instance *device, char *cp; urb->actual_length = 2; - cp = urb->buffer; + cp = (char*)urb->buffer; cp[0] = cp[1] = 0; switch (requesttype) { @@ -115,7 +124,7 @@ static int ep0_get_one (struct usb_device_instance *device, struct urb *urb, * * Copy configuration data to urb transfer buffer if there is room for it. */ -static void copy_config (struct urb *urb, void *data, int max_length, +void copy_config (struct urb *urb, void *data, int max_length, int max_buf) { int available; @@ -128,10 +137,7 @@ static void copy_config (struct urb *urb, void *data, int max_length, dbg_ep0 (1, "data is NULL"); return; } - if (!(length = *(unsigned char *) data)) { - dbg_ep0 (1, "length is zero"); - return; - } + length = max_length; if (length > max_length) { dbg_ep0 (1, "length: %d >= max_length: %d", length, @@ -192,7 +198,7 @@ static int ep0_get_descriptor (struct usb_device_instance *device, /* setup tx urb */ urb->actual_length = 0; - cp = urb->buffer; + cp = (char*)urb->buffer; dbg_ep0 (2, "%s", USBD_DEVICE_DESCRIPTORS (descriptor_type)); @@ -200,7 +206,6 @@ static int ep0_get_descriptor (struct usb_device_instance *device, case USB_DESCRIPTOR_TYPE_DEVICE: { struct usb_device_descriptor *device_descriptor; - if (! (device_descriptor = usbd_device_device_descriptor (device, port))) { @@ -214,20 +219,16 @@ static int ep0_get_descriptor (struct usb_device_instance *device, /* correct the correct control endpoint 0 max packet size into the descriptor */ device_descriptor = (struct usb_device_descriptor *) urb->buffer; - device_descriptor->bMaxPacketSize0 = - urb->device->bus->maxpacketsize; } - /*dbg_ep0(3, "copied device configuration, actual_length: %x", urb->actual_length); */ + dbg_ep0(3, "copied device configuration, actual_length: 0x%x", urb->actual_length); break; case USB_DESCRIPTOR_TYPE_CONFIGURATION: { - int bNumInterface; struct usb_configuration_descriptor *configuration_descriptor; struct usb_device_descriptor *device_descriptor; - if (! (device_descriptor = usbd_device_device_descriptor (device, port))) { @@ -251,130 +252,35 @@ static int ep0_get_descriptor (struct usb_device_instance *device, index); return -1; } + dbg_ep0(0, "attempt to copy %d bytes to urb\n",cpu_to_le16(configuration_descriptor->wTotalLength)); copy_config (urb, configuration_descriptor, - sizeof (struct - usb_configuration_descriptor), - max); - - - /* iterate across interfaces for specified configuration */ - dbg_ep0 (0, "bNumInterfaces: %d", - configuration_descriptor->bNumInterfaces); - for (bNumInterface = 0; - bNumInterface < - configuration_descriptor->bNumInterfaces; - bNumInterface++) { - int bAlternateSetting; - struct usb_interface_instance - *interface_instance; - - dbg_ep0 (3, "[%d] bNumInterfaces: %d", - bNumInterface, - configuration_descriptor->bNumInterfaces); - - if (! (interface_instance = usbd_device_interface_instance (device, - port, index, bNumInterface))) - { - dbg_ep0 (3, "[%d] interface_instance NULL", - bNumInterface); - return -1; - } - /* iterate across interface alternates */ - for (bAlternateSetting = 0; - bAlternateSetting < interface_instance->alternates; - bAlternateSetting++) { - /*int class; */ - int bNumEndpoint; - struct usb_interface_descriptor *interface_descriptor; - - struct usb_alternate_instance *alternate_instance; - - dbg_ep0 (3, "[%d:%d] alternates: %d", - bNumInterface, - bAlternateSetting, - interface_instance->alternates); - - if (! (alternate_instance = usbd_device_alternate_instance (device, port, index, bNumInterface, bAlternateSetting))) { - dbg_ep0 (3, "[%d] alternate_instance NULL", - bNumInterface); - return -1; - } - /* copy descriptor for this interface */ - copy_config (urb, alternate_instance->interface_descriptor, - sizeof (struct usb_interface_descriptor), - max); - - /*dbg_ep0(3, "[%d:%d] classes: %d endpoints: %d", bNumInterface, bAlternateSetting, */ - /* alternate_instance->classes, alternate_instance->endpoints); */ - - /* iterate across classes for this alternate interface */ -#if 0 - for (class = 0; - class < alternate_instance->classes; - class++) { - struct usb_class_descriptor *class_descriptor; - /*dbg_ep0(3, "[%d:%d:%d] classes: %d", bNumInterface, bAlternateSetting, */ - /* class, alternate_instance->classes); */ - if (!(class_descriptor = usbd_device_class_descriptor_index (device, port, index, bNumInterface, bAlternateSetting, class))) { - dbg_ep0 (3, "[%d] class NULL", - class); - return -1; - } - /* copy descriptor for this class */ - copy_config (urb, class_descriptor, - sizeof (struct usb_class_descriptor), - max); - } -#endif - - /* iterate across endpoints for this alternate interface */ - interface_descriptor = alternate_instance->interface_descriptor; - for (bNumEndpoint = 0; - bNumEndpoint < alternate_instance->endpoints; - bNumEndpoint++) { - struct usb_endpoint_descriptor *endpoint_descriptor; - dbg_ep0 (3, "[%d:%d:%d] endpoint: %d", - bNumInterface, - bAlternateSetting, - bNumEndpoint, - interface_descriptor-> - bNumEndpoints); - if (!(endpoint_descriptor = usbd_device_endpoint_descriptor_index (device, port, index, bNumInterface, bAlternateSetting, bNumEndpoint))) { - dbg_ep0 (3, "[%d] endpoint NULL", - bNumEndpoint); - return -1; - } - /* copy descriptor for this endpoint */ - copy_config (urb, endpoint_descriptor, - sizeof (struct usb_endpoint_descriptor), - max); - } - } - } - dbg_ep0 (3, "lengths: %d %d", - le16_to_cpu (configuration_descriptor->wTotalLength), - urb->actual_length); + cpu_to_le16(configuration_descriptor->wTotalLength), + max); } + break; case USB_DESCRIPTOR_TYPE_STRING: { struct usb_string_descriptor *string_descriptor; - if (!(string_descriptor = usbd_get_string (index))) { + serial_printf("Invalid string index %d\n", index); return -1; } - /*dbg_ep0(3, "string_descriptor: %p", string_descriptor); */ + dbg_ep0(3, "string_descriptor: %p length %d", string_descriptor, string_descriptor->bLength); copy_config (urb, string_descriptor, string_descriptor->bLength, max); } break; case USB_DESCRIPTOR_TYPE_INTERFACE: + serial_printf("USB_DESCRIPTOR_TYPE_INTERFACE - error not implemented\n"); return -1; case USB_DESCRIPTOR_TYPE_ENDPOINT: + serial_printf("USB_DESCRIPTOR_TYPE_ENDPOINT - error not implemented\n"); return -1; case USB_DESCRIPTOR_TYPE_HID: { + serial_printf("USB_DESCRIPTOR_TYPE_HID - error not implemented\n"); return -1; /* unsupported at this time */ #if 0 int bNumInterface = @@ -403,6 +309,7 @@ static int ep0_get_descriptor (struct usb_device_instance *device, break; case USB_DESCRIPTOR_TYPE_REPORT: { + serial_printf("USB_DESCRIPTOR_TYPE_REPORT - error not implemented\n"); return -1; /* unsupported at this time */ #if 0 int bNumInterface = @@ -434,12 +341,19 @@ static int ep0_get_descriptor (struct usb_device_instance *device, #endif } break; + case USB_DESCRIPTOR_TYPE_DEVICE_QUALIFIER: + { + /* If a USB device supports both a full speed and low speed operation + * we must send a Device_Qualifier descriptor here + */ + return -1; + } default: return -1; } - dbg_ep0 (1, "urb: buffer: %p buffer_length: %2d actual_length: %2d packet size: %2d", + dbg_ep0 (1, "urb: buffer: %p buffer_length: %2d actual_length: %2d tx_packetSize: %2d", urb->buffer, urb->buffer_length, urb->actual_length, device->bus->endpoint_array[0].tx_packetSize); /* @@ -495,6 +409,12 @@ int ep0_recv_setup (struct urb *urb) /* handle USB Standard Request (c.f. USB Spec table 9-2) */ if ((request->bmRequestType & USB_REQ_TYPE_MASK) != 0) { + if(device->device_state <= STATE_CONFIGURED){ + /* Attempt to handle a CDC specific request if we are + * in the configured state. + */ + return device->cdc_recv_setup(request,urb); + } dbg_ep0 (1, "non standard request: %x", request->bmRequestType & USB_REQ_TYPE_MASK); return -1; /* Stall here */ @@ -567,6 +487,7 @@ int ep0_recv_setup (struct urb *urb) le16_to_cpu (request->wValue) & 0xff); case USB_REQ_GET_CONFIGURATION: + serial_printf("get config %d\n", device->configuration); return ep0_get_one (device, urb, device->configuration); @@ -642,7 +563,6 @@ int ep0_recv_setup (struct urb *urb) /*dbg_ep0(2, "address: %d %d %d", */ /* request->wValue, le16_to_cpu(request->wValue), device->address); */ - serial_printf ("DEVICE_ADDRESS_ASSIGNED.. event?\n"); return 0; case USB_REQ_SET_DESCRIPTOR: /* XXX should we support this? */ @@ -653,9 +573,10 @@ int ep0_recv_setup (struct urb *urb) /* c.f. 9.4.7 - the top half of wValue is reserved */ /* */ if ((device->configuration = - le16_to_cpu (request->wValue) & 0x7f) != 0) { + le16_to_cpu (request->wValue) & 0xFF80) != 0) { /* c.f. 9.4.7 - zero is the default or addressed state, in our case this */ /* is the same is configuration zero */ + serial_printf("error setting dev->config to zero!\n"); device->configuration = 0; /* TBR - ?????? */ } /* reset interface and alternate settings */ diff --git a/drivers/usbdcore_mpc8xx.c b/drivers/usbdcore_mpc8xx.c new file mode 100644 index 0000000..e87284b --- /dev/null +++ b/drivers/usbdcore_mpc8xx.c @@ -0,0 +1,1400 @@ +/* + * Copyright (C) 2006 by Bryan O'Donoghue, CodeHermit + * bodonoghue@CodeHermit.ie + * + * References + * DasUBoot/drivers/usbdcore_omap1510.c, for design and implementation ideas. + * + * This program is free software; you can redistribute it and/or modify + * it under the terms of the GNU General Public License as published by + * the Free Software Foundation; either version 2 of the License, or + * (at your option) any later version. + * + * This program is distributed in the hope that it will be useful, + * but WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the + * GNU General Public License for more details. + * + * You should have received a copy of the GNU General Public License + * along with this program; if not, write to the + * Free Software Foundation, Inc., + * 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. + * + */ + +/* + * Notes : + * 1. #define __SIMULATE_ERROR__ to inject a CRC error into every 2nd TX + * packet to force the USB re-transmit protocol. + * + * 2. #define __DEBUG_UDC__ to switch on debug tracing to serial console + * be careful that tracing doesn't create Hiesen-bugs with respect to + * response timeouts to control requests. + * + * 3. This driver should be able to support any higher level driver that + * that wants to do either of the two standard UDC implementations + * Control-Bulk-Interrupt or Bulk-IN/Bulk-Out standards. Hence + * gserial and cdc_acm should work with this code. + * + * 4. NAK events never actually get raised at all, the documentation + * is just wrong ! + * + * 5. For some reason, cbd_datlen is *always* +2 the value it should be. + * this means that having an RX cbd of 16 bytes is not possible, since + * the same size is reported for 14 bytes received as 16 bytes received + * until we can find out why this happens, RX cbds must be limited to 8 + * bytes. TODO: check errata for this behaviour. + * + * 6. Right now this code doesn't support properly powering up with the USB + * cable attached to the USB host my development board the Adder87x doesn't + * have a pull-up fitted to allow this, so it is necessary to power the + * board and *then* attached the USB cable to the host. However somebody + * with a different design in their board may be able to keep the cable + * constantly connected and simply enable/disable a pull-up re + * figure 31.1 in MPC885RM.pdf instead of having to power up the board and + * then attach the cable ! + * + */ +#include <common.h> +#include <config.h> + +#if defined(CONFIG_MPC885_FAMILY) && defined(CONFIG_USB_DEVICE) +#include <commproc.h> +#include "usbdcore.h" +#include "usbdcore_mpc8xx.h" +#include "usbdcore_ep0.h" + +#define ERR(fmt, args...)\ + serial_printf("ERROR : [%s] %s:%d: "fmt,\ + __FILE__,__FUNCTION__,__LINE__, ##args) +#ifdef __DEBUG_UDC__ +#define DBG(fmt,args...)\ + serial_printf("[%s] %s:%d: "fmt,\ + __FILE__,__FUNCTION__,__LINE__, ##args) +#else +#define DBG(fmt,args...) +#endif + +/* Static Data */ +#ifdef __SIMULATE_ERROR__ +static char err_poison_test = 0; +#endif +static struct mpc8xx_ep ep_ref[MAX_ENDPOINTS]; +static u32 address_base = STATE_NOT_READY; +static mpc8xx_udc_state_t udc_state = 0; +static struct usb_device_instance *udc_device = 0; +static volatile usb_epb_t *endpoints[MAX_ENDPOINTS]; +static volatile cbd_t *tx_cbd[TX_RING_SIZE]; +static volatile cbd_t *rx_cbd[RX_RING_SIZE]; +static volatile immap_t *immr = 0; +static volatile cpm8xx_t *cp = 0; +static volatile usb_pram_t *usb_paramp = 0; +static volatile usb_t *usbp = 0; +static int rx_ct = 0; +static int tx_ct = 0; + +/* Static Function Declarations */ +static void mpc8xx_udc_state_transition_up (usb_device_state_t initial, + usb_device_state_t final); +static void mpc8xx_udc_state_transition_down (usb_device_state_t initial, + usb_device_state_t final); +static void mpc8xx_udc_stall (unsigned int ep); +static void mpc8xx_udc_flush_tx_fifo (int epid); +static void mpc8xx_udc_flush_rx_fifo (void); +static void mpc8xx_udc_clear_rxbd (volatile cbd_t * rx_cbdp); +static void mpc8xx_udc_init_tx (struct usb_endpoint_instance *epi, + struct urb *tx_urb); +static void mpc8xx_udc_dump_request (struct usb_device_request *request); +static void mpc8xx_udc_clock_init (volatile immap_t * immr, + volatile cpm8xx_t * cp); +static int mpc8xx_udc_ep_tx (struct usb_endpoint_instance *epi); +static int mpc8xx_udc_epn_rx (unsigned int epid, volatile cbd_t * rx_cbdp); +static void mpc8xx_udc_ep0_rx (volatile cbd_t * rx_cbdp); +static void mpc8xx_udc_cbd_init (void); +static void mpc8xx_udc_endpoint_init (void); +static void mpc8xx_udc_cbd_attach (int ep, uchar tx_size, uchar rx_size); +static u32 mpc8xx_udc_alloc (u32 data_size, u32 alignment); +static int mpc8xx_udc_ep0_rx_setup (volatile cbd_t * rx_cbdp); +static void mpc8xx_udc_set_nak (unsigned int ep); +static short mpc8xx_udc_handle_txerr (void); +static void mpc8xx_udc_advance_rx (volatile cbd_t ** rx_cbdp, int epid); + +/****************************************************************************** + Global Linkage + *****************************************************************************/ + +/* udc_init + * + * Do initial bus gluing + */ +int udc_init (void) +{ + /* Init various pointers */ + immr = (immap_t *) CFG_IMMR; + cp = (cpm8xx_t *) & (immr->im_cpm); + usb_paramp = (usb_pram_t *) & (cp->cp_dparam[PROFF_USB]); + usbp = (usb_t *) & (cp->cp_scc[0]); + + memset (ep_ref, 0x00, (sizeof (struct mpc8xx_ep) * MAX_ENDPOINTS)); + + udc_device = 0; + udc_state = STATE_NOT_READY; + + usbp->usmod = 0x00; + usbp->uscom = 0; + + /* Set USB Frame #0, Respond at Address & Get a clock source */ + usbp->usaddr = 0x00; + mpc8xx_udc_clock_init (immr, cp); + + /* PA15, PA14 as perhiperal USBRXD and USBOE */ + immr->im_ioport.iop_padir &= ~0x0003; + immr->im_ioport.iop_papar |= 0x0003; + + /* PC11/PC10 as peripheral USBRXP USBRXN */ + immr->im_ioport.iop_pcso |= 0x0030; + + /* PC7/PC6 as perhiperal USBTXP and USBTXN */ + immr->im_ioport.iop_pcdir |= 0x0300; + immr->im_ioport.iop_pcpar |= 0x0300; + + /* Set the base address */ + address_base = (u32) (cp->cp_dpmem + CPM_USB_BASE); + + /* Initialise endpoints and circular buffers */ + mpc8xx_udc_endpoint_init (); + mpc8xx_udc_cbd_init (); + + /* Assign allocated Dual Port Endpoint descriptors */ + usb_paramp->ep0ptr = (u32) endpoints[0]; + usb_paramp->ep1ptr = (u32) endpoints[1]; + usb_paramp->ep2ptr = (u32) endpoints[2]; + usb_paramp->ep3ptr = (u32) endpoints[3]; + usb_paramp->frame_n = 0; + + DBG ("ep0ptr=0x%08x ep1ptr=0x%08x ep2ptr=0x%08x ep3ptr=0x%08x\n", + usb_paramp->ep0ptr, usb_paramp->ep1ptr, usb_paramp->ep2ptr, + usb_paramp->ep3ptr); + + return 0; +} + +/* udc_irq + * + * Poll for whatever events may have occured + */ +void udc_irq (void) +{ + int epid = 0; + volatile cbd_t *rx_cbdp = 0; + volatile cbd_t *rx_cbdp_base = 0; + + if (udc_state != STATE_READY) { + return; + } + + if (usbp->usber & USB_E_BSY) { + /* This shouldn't happen. If it does then it's a bug ! */ + usbp->usber |= USB_E_BSY; + mpc8xx_udc_flush_rx_fifo (); + } + + /* Scan all RX/Bidirectional Endpoints for RX data. */ + for (epid = 0; epid < MAX_ENDPOINTS; epid++) { + if (!ep_ref[epid].prx) { + continue; + } + rx_cbdp = rx_cbdp_base = ep_ref[epid].prx; + + do { + if (!(rx_cbdp->cbd_sc & RX_BD_E)) { + + if (rx_cbdp->cbd_sc & 0x1F) { + /* Corrupt data discard it. + * Controller has NAK'd this packet. + */ + mpc8xx_udc_clear_rxbd (rx_cbdp); + + } else { + if (!epid) { + mpc8xx_udc_ep0_rx (rx_cbdp); + + } else { + /* Process data */ + mpc8xx_udc_set_nak (epid); + mpc8xx_udc_epn_rx (epid, rx_cbdp); + mpc8xx_udc_clear_rxbd (rx_cbdp); + } + } + + /* Advance RX CBD pointer */ + mpc8xx_udc_advance_rx (&rx_cbdp, epid); + ep_ref[epid].prx = rx_cbdp; + } else { + /* Advance RX CBD pointer */ + mpc8xx_udc_advance_rx (&rx_cbdp, epid); + } + + } while (rx_cbdp != rx_cbdp_base); + } + + /* Handle TX events as appropiate, the correct place to do this is + * in a tx routine. Perhaps TX on epn was pre-empted by ep0 + */ + + if (usbp->usber & USB_E_TXB) { + usbp->usber |= USB_E_TXB; + } + + if (usbp->usber & (USB_TX_ERRMASK)) { + mpc8xx_udc_handle_txerr (); + } + + /* Switch to the default state, respond at the default address */ + if (usbp->usber & USB_E_RESET) { + usbp->usber |= USB_E_RESET; + usbp->usaddr = 0x00; + udc_device->device_state = STATE_DEFAULT; + } + + /* if(usbp->usber&USB_E_IDLE){ + We could suspend here ! + usbp->usber|=USB_E_IDLE; + DBG("idle state change\n"); + } + if(usbp->usbs){ + We could resume here when IDLE is deasserted ! + Not worth doing, so long as we are self powered though. + } + */ + + return; +} + +/* udc_endpoint_write + * + * Write some data to an endpoint + */ +int udc_endpoint_write (struct usb_endpoint_instance *epi) +{ + int ep = 0; + short epid = 1, unnak = 0, ret = 0; + + if (udc_state != STATE_READY) { + ERR ("invalid udc_state != STATE_READY!\n"); + return -1; + } + + if (!udc_device || !epi) { + return -1; + } + + if (udc_device->device_state != STATE_CONFIGURED) { + return -1; + } + + ep = epi->endpoint_address & 0x03; + if (ep >= MAX_ENDPOINTS) { + return -1; + } + + /* Set NAK for all RX endpoints during TX */ + for (epid = 1; epid < MAX_ENDPOINTS; epid++) { + + /* Don't set NAK on DATA IN/CONTROL endpoints */ + if (ep_ref[epid].sc & USB_DIR_IN) { + continue; + } + + if (!(usbp->usep[epid] & (USEP_THS_NAK | USEP_RHS_NAK))) { + unnak |= 1 << epid; + } + + mpc8xx_udc_set_nak (epid); + } + + mpc8xx_udc_init_tx (&udc_device->bus->endpoint_array[ep], + epi->tx_urb); + ret = mpc8xx_udc_ep_tx (&udc_device->bus->endpoint_array[ep]); + + /* Remove temporary NAK */ + for (epid = 1; epid < MAX_ENDPOINTS; epid++) { + if (unnak & (1 << epid)) { + udc_unset_nak (epid); + } + } + + return ret; +} + +/* mpc8xx_udc_assign_urb + * + * Associate a given urb to an endpoint TX or RX transmit/receive buffers + */ +static int mpc8xx_udc_assign_urb (int ep, char direction) +{ + struct usb_endpoint_instance *epi = 0; + + if (ep >= MAX_ENDPOINTS) { + goto err; + } + epi = &udc_device->bus->endpoint_array[ep]; + if (!epi) { + goto err; + } + + if (!ep_ref[ep].urb) { + ep_ref[ep].urb = usbd_alloc_urb (udc_device, udc_device->bus->endpoint_array); + if (!ep_ref[ep].urb) { + goto err; + } + } else { + ep_ref[ep].urb->actual_length = 0; + } + + switch (direction) { + case USB_DIR_IN: + epi->tx_urb = ep_ref[ep].urb; + break; + case USB_DIR_OUT: + epi->rcv_urb = ep_ref[ep].urb; + break; + default: + goto err; + } + return 0; + + err: + udc_state = STATE_ERROR; + return -1; +} + +/* udc_setup_ep + * + * Associate U-Boot software endpoints to mpc8xx endpoint parameter ram + * Isochronous endpoints aren't yet supported! + */ +void udc_setup_ep (struct usb_device_instance *device, unsigned int ep, + struct usb_endpoint_instance *epi) +{ + uchar direction = 0; + int ep_attrib = 0; + + if (epi && (ep < MAX_ENDPOINTS)) { + + if (ep == 0) { + if (epi->rcv_attributes != USB_ENDPOINT_XFER_CONTROL + || epi->tx_attributes != + USB_ENDPOINT_XFER_CONTROL) { + + /* ep0 must be a control endpoint */ + udc_state = STATE_ERROR; + return; + + } + if (!(ep_ref[ep].sc & EP_ATTACHED)) { + mpc8xx_udc_cbd_attach (ep, epi->tx_packetSize, + epi->rcv_packetSize); + } + usbp->usep[ep] = 0x0000; + return; + } + + if ((epi->endpoint_address & USB_ENDPOINT_DIR_MASK) + == USB_DIR_IN) { + + direction = 1; + ep_attrib = epi->tx_attributes; + epi->rcv_packetSize = 0; + ep_ref[ep].sc |= USB_DIR_IN; + } else { + + direction = 0; + ep_attrib = epi->rcv_attributes; + epi->tx_packetSize = 0; + ep_ref[ep].sc &= ~USB_DIR_IN; + } + + if (mpc8xx_udc_assign_urb (ep, epi->endpoint_address + & USB_ENDPOINT_DIR_MASK)) { + return; + } + + switch (ep_attrib) { + case USB_ENDPOINT_XFER_CONTROL: + if (!(ep_ref[ep].sc & EP_ATTACHED)) { + mpc8xx_udc_cbd_attach (ep, + epi->tx_packetSize, + epi->rcv_packetSize); + } + usbp->usep[ep] = ep << 12; + epi->rcv_urb = epi->tx_urb = ep_ref[ep].urb; + + break; + case USB_ENDPOINT_XFER_BULK: + case USB_ENDPOINT_XFER_INT: + if (!(ep_ref[ep].sc & EP_ATTACHED)) { + if (direction) { + mpc8xx_udc_cbd_attach (ep, + epi->tx_packetSize, + 0); + } else { + mpc8xx_udc_cbd_attach (ep, + 0, + epi->rcv_packetSize); + } + } + usbp->usep[ep] = (ep << 12) | ((ep_attrib) << 8); + + break; + case USB_ENDPOINT_XFER_ISOC: + default: + serial_printf ("Error endpoint attrib %d>3\n", ep_attrib); + udc_state = STATE_ERROR; + break; + } + } + +} + +/* udc_connect + * + * Move state, switch on the USB + */ +void udc_connect (void) +{ + /* Enable pull-up resistor on D+ + * TODO: fit a pull-up resistor to drive SE0 for > 2.5us + */ + + if (udc_state != STATE_ERROR) { + udc_state = STATE_READY; + usbp->usmod |= USMOD_EN; + } +} + +/* udc_disconnect + * + * Disconnect is not used but, is included for completeness + */ +void udc_disconnect (void) +{ + /* Disable pull-up resistor on D- + * TODO: fix a pullup resistor to control this + */ + + if (udc_state != STATE_ERROR) { + udc_state = STATE_NOT_READY; + } + usbp->usmod &= ~USMOD_EN; +} + +/* udc_enable + * + * Grab an EP0 URB, register interest in a subset of USB events + */ +void udc_enable (struct usb_device_instance *device) +{ + if (udc_state == STATE_ERROR) { + return; + } + + udc_device = device; + + if (!ep_ref[0].urb) { + ep_ref[0].urb = usbd_alloc_urb (device, device->bus->endpoint_array); + } + + /* Register interest in all events except SOF, enable transceiver */ + usbp->usber = 0x03FF; + usbp->usbmr = 0x02F7; + + return; +} + +/* udc_disable + * + * disable the currently hooked device + */ +void udc_disable (void) +{ + int i = 0; + + if (udc_state == STATE_ERROR) { + DBG ("Won't disable UDC. udc_state==STATE_ERROR !\n"); + return; + } + + udc_device = 0; + + for (; i < MAX_ENDPOINTS; i++) { + if (ep_ref[i].urb) { + usbd_dealloc_urb (ep_ref[i].urb); + ep_ref[i].urb = 0; + } + } + + usbp->usbmr = 0x00; + usbp->usmod = ~USMOD_EN; + udc_state = STATE_NOT_READY; +} + +/* udc_startup_events + * + * Enable the specified device + */ +void udc_startup_events (struct usb_device_instance *device) +{ + udc_enable (device); + if (udc_state == STATE_READY) { + usbd_device_event_irq (device, DEVICE_CREATE, 0); + } +} + +/* udc_set_nak + * + * Allow upper layers to signal lower layers should not accept more RX data + * + */ +void udc_set_nak (int epid) +{ + if (epid) { + mpc8xx_udc_set_nak (epid); + } +} + +/* udc_unset_nak + * + * Suspend sending of NAK tokens for DATA OUT tokens on a given endpoint. + * Switch off NAKing on this endpoint to accept more data output from host. + * + */ +void udc_unset_nak (int epid) +{ + if (epid > MAX_ENDPOINTS) { + return; + } + + if (usbp->usep[epid] & (USEP_THS_NAK | USEP_RHS_NAK)) { + usbp->usep[epid] &= ~(USEP_THS_NAK | USEP_RHS_NAK); + __asm__ ("eieio"); + } +} + +/****************************************************************************** + Static Linkage +******************************************************************************/ + +/* udc_state_transition_up + * udc_state_transition_down + * + * Helper functions to implement device state changes. The device states and + * the events that transition between them are: + * + * STATE_ATTACHED + * || /\ + * \/ || + * DEVICE_HUB_CONFIGURED DEVICE_HUB_RESET + * || /\ + * \/ || + * STATE_POWERED + * || /\ + * \/ || + * DEVICE_RESET DEVICE_POWER_INTERRUPTION + * || /\ + * \/ || + * STATE_DEFAULT + * || /\ + * \/ || + * DEVICE_ADDRESS_ASSIGNED DEVICE_RESET + * || /\ + * \/ || + * STATE_ADDRESSED + * || /\ + * \/ || + * DEVICE_CONFIGURED DEVICE_DE_CONFIGURED + * || /\ + * \/ || + * STATE_CONFIGURED + * + * udc_state_transition_up transitions up (in the direction from STATE_ATTACHED + * to STATE_CONFIGURED) from the specified initial state to the specified final + * state, passing through each intermediate state on the way. If the initial + * state is at or above (i.e. nearer to STATE_CONFIGURED) the final state, then + * no state transitions will take place. + * + * udc_state_transition_down transitions down (in the direction from + * STATE_CONFIGURED to STATE_ATTACHED) from the specified initial state to the + * specified final state, passing through each intermediate state on the way. + * If the initial state is at or below (i.e. nearer to STATE_ATTACHED) the final + * state, then no state transitions will take place. + * + */ + +static void mpc8xx_udc_state_transition_up (usb_device_state_t initial, + usb_device_state_t final) +{ + if (initial < final) { + switch (initial) { + case STATE_ATTACHED: + usbd_device_event_irq (udc_device, + DEVICE_HUB_CONFIGURED, 0); + if (final == STATE_POWERED) + break; + case STATE_POWERED: + usbd_device_event_irq (udc_device, DEVICE_RESET, 0); + if (final == STATE_DEFAULT) + break; + case STATE_DEFAULT: + usbd_device_event_irq (udc_device, + DEVICE_ADDRESS_ASSIGNED, 0); + if (final == STATE_ADDRESSED) + break; + case STATE_ADDRESSED: + usbd_device_event_irq (udc_device, DEVICE_CONFIGURED, + 0); + case STATE_CONFIGURED: + break; + default: + break; + } + } +} + +static void mpc8xx_udc_state_transition_down (usb_device_state_t initial, + usb_device_state_t final) +{ + if (initial > final) { + switch (initial) { + case STATE_CONFIGURED: + usbd_device_event_irq (udc_device, + DEVICE_DE_CONFIGURED, 0); + if (final == STATE_ADDRESSED) + break; + case STATE_ADDRESSED: + usbd_device_event_irq (udc_device, DEVICE_RESET, 0); + if (final == STATE_DEFAULT) + break; + case STATE_DEFAULT: + usbd_device_event_irq (udc_device, + DEVICE_POWER_INTERRUPTION, 0); + if (final == STATE_POWERED) + break; + case STATE_POWERED: + usbd_device_event_irq (udc_device, DEVICE_HUB_RESET, + 0); + case STATE_ATTACHED: + break; + default: + break; + } + } +} + +/* mpc8xx_udc_stall + * + * Force returning of STALL tokens on the given endpoint. Protocol or function + * STALL conditions are permissable here + */ +static void mpc8xx_udc_stall (unsigned int ep) +{ + usbp->usep[ep] |= STALL_BITMASK; +} + +/* mpc8xx_udc_set_nak + * + * Force returning of NAK responses for the given endpoint as a kind of very + * simple flow control + */ +static void mpc8xx_udc_set_nak (unsigned int ep) +{ + usbp->usep[ep] |= NAK_BITMASK; + __asm__ ("eieio"); +} + +/* mpc8xx_udc_handle_txerr + * + * Handle errors relevant to TX. Return a status code to allow calling + * indicative of what if anything happened + */ +static short mpc8xx_udc_handle_txerr () +{ + short ep = 0, ret = 0; + + for (; ep < TX_RING_SIZE; ep++) { + if (usbp->usber & (0x10 << ep)) { + + /* Timeout or underrun */ + if (tx_cbd[ep]->cbd_sc & 0x06) { + ret = 1; + mpc8xx_udc_flush_tx_fifo (ep); + + } else { + if (usbp->usep[ep] & STALL_BITMASK) { + if (!ep) { + usbp->usep[ep] &= ~STALL_BITMASK; + } + } /* else NAK */ + } + usbp->usber |= (0x10 << ep); + } + } + return ret; +} + +/* mpc8xx_udc_advance_rx + * + * Advance cbd rx + */ +static void mpc8xx_udc_advance_rx (volatile cbd_t ** rx_cbdp, int epid) +{ + if ((*rx_cbdp)->cbd_sc & RX_BD_W) { + *rx_cbdp = (volatile cbd_t *) (endpoints[epid]->rbase + CFG_IMMR); + + } else { + (*rx_cbdp)++; + } +} + + +/* mpc8xx_udc_flush_tx_fifo + * + * Flush a given TX fifo. Assumes one tx cbd per endpoint + */ +static void mpc8xx_udc_flush_tx_fifo (int epid) +{ + volatile cbd_t *tx_cbdp = 0; + + if (epid > MAX_ENDPOINTS) { + return; + } + + /* TX stop */ + immr->im_cpm.cp_cpcr = ((epid << 2) | 0x1D01); + __asm__ ("eieio"); + while (immr->im_cpm.cp_cpcr & 0x01); + + usbp->uscom = 0x40 | 0; + + /* reset ring */ + tx_cbdp = (cbd_t *) (endpoints[epid]->tbptr + CFG_IMMR); + tx_cbdp->cbd_sc = (TX_BD_I | TX_BD_W); + + + endpoints[epid]->tptr = endpoints[epid]->tbase; + endpoints[epid]->tstate = 0x00; + endpoints[epid]->tbcnt = 0x00; + + /* TX start */ + immr->im_cpm.cp_cpcr = ((epid << 2) | 0x2D01); + __asm__ ("eieio"); + while (immr->im_cpm.cp_cpcr & 0x01); + + return; +} + +/* mpc8xx_udc_flush_rx_fifo + * + * For the sake of completeness of the namespace, it seems like + * a good-design-decision (tm) to include mpc8xx_udc_flush_rx_fifo(); + * If RX_BD_E is true => a driver bug either here or in an upper layer + * not polling frequently enough. If RX_BD_E is true we have told the host + * we have accepted data but, the CPM found it had no-where to put that data + * which needless to say would be a bad thing. + */ +static void mpc8xx_udc_flush_rx_fifo () +{ + int i = 0; + + for (i = 0; i < RX_RING_SIZE; i++) { + if (!(rx_cbd[i]->cbd_sc & RX_BD_E)) { + ERR ("buf %p used rx data len = 0x%x sc=0x%x!\n", + rx_cbd[i], rx_cbd[i]->cbd_datlen, + rx_cbd[i]->cbd_sc); + + } + } + ERR ("BUG : Input over-run\n"); +} + +/* mpc8xx_udc_clear_rxbd + * + * Release control of RX CBD to CP. + */ +static void mpc8xx_udc_clear_rxbd (volatile cbd_t * rx_cbdp) +{ + rx_cbdp->cbd_datlen = 0x0000; + rx_cbdp->cbd_sc = ((rx_cbdp->cbd_sc & RX_BD_W) | (RX_BD_E | RX_BD_I)); + __asm__ ("eieio"); +} + +/* mpc8xx_udc_tx_irq + * + * Parse for tx timeout, control RX or USB reset/busy conditions + * Return -1 on timeout, -2 on fatal error, else return zero + */ +static int mpc8xx_udc_tx_irq (int ep) +{ + int i = 0; + + if (usbp->usber & (USB_TX_ERRMASK)) { + if (mpc8xx_udc_handle_txerr ()) { + /* Timeout, controlling function must retry send */ + return -1; + } + } + + if (usbp->usber & (USB_E_RESET | USB_E_BSY)) { + /* Fatal, abandon TX transaction */ + return -2; + } + + if (usbp->usber & USB_E_RXB) { + for (i = 0; i < RX_RING_SIZE; i++) { + if (!(rx_cbd[i]->cbd_sc & RX_BD_E)) { + if ((rx_cbd[i] == ep_ref[0].prx) || ep) { + return -2; + } + } + } + } + + return 0; +} + +/* mpc8xx_udc_ep_tx + * + * Transmit in a re-entrant fashion outbound USB packets. + * Implement retry/timeout mechanism described in USB specification + * Toggle DATA0/DATA1 pids as necessary + * Introduces non-standard tx_retry. The USB standard has no scope for slave + * devices to give up TX, however tx_retry stops us getting stuck in an endless + * TX loop. + */ +static int mpc8xx_udc_ep_tx (struct usb_endpoint_instance *epi) +{ + struct urb *urb = epi->tx_urb; + volatile cbd_t *tx_cbdp = 0; + unsigned int ep = 0, pkt_len = 0, x = 0, tx_retry = 0; + int ret = 0; + + if (!epi || (epi->endpoint_address & 0x03) >= MAX_ENDPOINTS || !urb) { + return -1; + } + + ep = epi->endpoint_address & 0x03; + tx_cbdp = (cbd_t *) (endpoints[ep]->tbptr + CFG_IMMR); + + if (tx_cbdp->cbd_sc & TX_BD_R || usbp->usber & USB_E_TXB) { + mpc8xx_udc_flush_tx_fifo (ep); + usbp->usber |= USB_E_TXB; + }; + + while (tx_retry++ < 100) { + ret = mpc8xx_udc_tx_irq (ep); + if (ret == -1) { + /* ignore timeout here */ + } else if (ret == -2) { + /* Abandon TX */ + mpc8xx_udc_flush_tx_fifo (ep); + return -1; + } + + tx_cbdp = (cbd_t *) (endpoints[ep]->tbptr + CFG_IMMR); + while (tx_cbdp->cbd_sc & TX_BD_R) { + }; + tx_cbdp->cbd_sc = (tx_cbdp->cbd_sc & TX_BD_W); + + pkt_len = urb->actual_length - epi->sent; + + if (pkt_len > epi->tx_packetSize || pkt_len > EP_MAX_PKT) { + pkt_len = MIN (epi->tx_packetSize, EP_MAX_PKT); + } + + for (x = 0; x < pkt_len; x++) { + *((unsigned char *) (tx_cbdp->cbd_bufaddr + x)) = + urb->buffer[epi->sent + x]; + } + tx_cbdp->cbd_datlen = pkt_len; + tx_cbdp->cbd_sc |= (CBD_TX_BITMASK | ep_ref[ep].pid); + __asm__ ("eieio"); + +#ifdef __SIMULATE_ERROR__ + if (++err_poison_test == 2) { + err_poison_test = 0; + tx_cbdp->cbd_sc &= ~TX_BD_TC; + } +#endif + + usbp->uscom = (USCOM_STR | ep); + + while (!(usbp->usber & USB_E_TXB)) { + ret = mpc8xx_udc_tx_irq (ep); + if (ret == -1) { + /* TX timeout */ + break; + } else if (ret == -2) { + if (usbp->usber & USB_E_TXB) { + usbp->usber |= USB_E_TXB; + } + mpc8xx_udc_flush_tx_fifo (ep); + return -1; + } + }; + + if (usbp->usber & USB_E_TXB) { + usbp->usber |= USB_E_TXB; + } + + /* ACK must be present <= 18bit times from TX */ + if (ret == -1) { + continue; + } + + /* TX ACK : USB 2.0 8.7.2, Toggle PID, Advance TX */ + epi->sent += pkt_len; + epi->last = MIN (urb->actual_length - epi->sent, epi->tx_packetSize); + TOGGLE_TX_PID (ep_ref[ep].pid); + + if (epi->sent >= epi->tx_urb->actual_length) { + + epi->tx_urb->actual_length = 0; + epi->sent = 0; + + if (ep_ref[ep].sc & EP_SEND_ZLP) { + ep_ref[ep].sc &= ~EP_SEND_ZLP; + } else { + return 0; + } + } + } + + ERR ("TX fail, endpoint 0x%x tx bytes 0x%x/0x%x\n", ep, epi->sent, + epi->tx_urb->actual_length); + + return -1; +} + +/* mpc8xx_udc_dump_request + * + * Dump a control request to console + */ +static void mpc8xx_udc_dump_request (struct usb_device_request *request) +{ + DBG ("bmRequestType:%02x bRequest:%02x wValue:%04x " + "wIndex:%04x wLength:%04x ?\n", + request->bmRequestType, + request->bRequest, + request->wValue, request->wIndex, request->wLength); + + return; +} + +/* mpc8xx_udc_ep0_rx_setup + * + * Decode received ep0 SETUP packet. return non-zero on error + */ +static int mpc8xx_udc_ep0_rx_setup (volatile cbd_t * rx_cbdp) +{ + unsigned int x = 0; + struct urb *purb = ep_ref[0].urb; + struct usb_endpoint_instance *epi = + &udc_device->bus->endpoint_array[0]; + + for (; x < rx_cbdp->cbd_datlen; x++) { + *(((unsigned char *) &ep_ref[0].urb->device_request) + x) = + *((unsigned char *) (rx_cbdp->cbd_bufaddr + x)); + } + + mpc8xx_udc_clear_rxbd (rx_cbdp); + + if (ep0_recv_setup (purb)) { + mpc8xx_udc_dump_request (&purb->device_request); + return -1; + } + + if ((purb->device_request.bmRequestType & USB_REQ_DIRECTION_MASK) + == USB_REQ_HOST2DEVICE) { + + switch (purb->device_request.bRequest) { + case USB_REQ_SET_ADDRESS: + /* Send the Status OUT ZLP */ + ep_ref[0].pid = TX_BD_PID_DATA1; + purb->actual_length = 0; + mpc8xx_udc_init_tx (epi, purb); + mpc8xx_udc_ep_tx (epi); + + /* Move to the addressed state */ + usbp->usaddr = udc_device->address; + mpc8xx_udc_state_transition_up (udc_device->device_state, + STATE_ADDRESSED); + return 0; + + case USB_REQ_SET_CONFIGURATION: + if (!purb->device_request.wValue) { + /* Respond at default address */ + usbp->usaddr = 0x00; + mpc8xx_udc_state_transition_down (udc_device->device_state, + STATE_ADDRESSED); + } else { + /* TODO: Support multiple configurations */ + mpc8xx_udc_state_transition_up (udc_device->device_state, + STATE_CONFIGURED); + for (x = 1; x < MAX_ENDPOINTS; x++) { + if ((udc_device->bus->endpoint_array[x].endpoint_address & USB_ENDPOINT_DIR_MASK) + == USB_DIR_IN) { + ep_ref[x].pid = TX_BD_PID_DATA0; + } else { + ep_ref[x].pid = RX_BD_PID_DATA0; + } + /* Set configuration must unstall endpoints */ + usbp->usep[x] &= ~STALL_BITMASK; + } + } + break; + default: + /* CDC/Vendor specific */ + break; + } + + /* Send ZLP as ACK in Status OUT phase */ + ep_ref[0].pid = TX_BD_PID_DATA1; + purb->actual_length = 0; + mpc8xx_udc_init_tx (epi, purb); + mpc8xx_udc_ep_tx (epi); + + } else { + + if (purb->actual_length) { + ep_ref[0].pid = TX_BD_PID_DATA1; + mpc8xx_udc_init_tx (epi, purb); + + if (!(purb->actual_length % EP0_MAX_PACKET_SIZE)) { + ep_ref[0].sc |= EP_SEND_ZLP; + } + + if (purb->device_request.wValue == + USB_DESCRIPTOR_TYPE_DEVICE) { + if (le16_to_cpu (purb->device_request.wLength) + > purb->actual_length) { + /* Send EP0_MAX_PACKET_SIZE bytes + * unless correct size requested. + */ + if (purb->actual_length > epi->tx_packetSize) { + purb->actual_length = epi->tx_packetSize; + } + } + } + mpc8xx_udc_ep_tx (epi); + + } else { + /* Corrupt SETUP packet? */ + ERR ("Zero length data or SETUP with DATA-IN phase ?\n"); + return 1; + } + } + return 0; +} + +/* mpc8xx_udc_init_tx + * + * Setup some basic parameters for a TX transaction + */ +static void mpc8xx_udc_init_tx (struct usb_endpoint_instance *epi, + struct urb *tx_urb) +{ + epi->sent = 0; + epi->last = 0; + epi->tx_urb = tx_urb; +} + +/* mpc8xx_udc_ep0_rx + * + * Receive ep0/control USB data. Parse and possibly send a response. + */ +static void mpc8xx_udc_ep0_rx (volatile cbd_t * rx_cbdp) +{ + if (rx_cbdp->cbd_sc & RX_BD_PID_SETUP) { + + /* Unconditionally accept SETUP packets */ + if (mpc8xx_udc_ep0_rx_setup (rx_cbdp)) { + mpc8xx_udc_stall (0); + } + + } else { + + mpc8xx_udc_clear_rxbd (rx_cbdp); + + if ((rx_cbdp->cbd_datlen - 2)) { + /* SETUP with a DATA phase + * outside of SETUP packet. + * Reply with STALL. + */ + mpc8xx_udc_stall (0); + } + } +} + +/* mpc8xx_udc_epn_rx + * + * Receive some data from cbd into USB system urb data abstraction + * Upper layers should NAK if there is insufficient RX data space + */ +static int mpc8xx_udc_epn_rx (unsigned int epid, volatile cbd_t * rx_cbdp) +{ + struct usb_endpoint_instance *epi = 0; + struct urb *urb = 0; + unsigned int x = 0; + + if (epid >= MAX_ENDPOINTS || !rx_cbdp->cbd_datlen) { + return 0; + } + + /* USB 2.0 PDF section 8.6.4 + * Discard data with invalid PID it is a resend. + */ + if (ep_ref[epid].pid != (rx_cbdp->cbd_sc & 0xC0)) { + return 1; + } + TOGGLE_RX_PID (ep_ref[epid].pid); + + epi = &udc_device->bus->endpoint_array[epid]; + urb = epi->rcv_urb; + + for (; x < (rx_cbdp->cbd_datlen - 2); x++) { + *((unsigned char *) (urb->buffer + urb->actual_length + x)) = + *((unsigned char *) (rx_cbdp->cbd_bufaddr + x)); + } + + if (x) { + usbd_rcv_complete (epi, x, 0); + if (ep_ref[epid].urb->status == RECV_ERROR) { + DBG ("RX error unset NAK\n"); + udc_unset_nak (epid); + } + } + return x; +} + +/* mpc8xx_udc_clock_init + * + * Obtain a clock reference for Full Speed Signaling + */ +static void mpc8xx_udc_clock_init (volatile immap_t * immr, + volatile cpm8xx_t * cp) +{ + +#if defined(CFG_USB_EXTC_CLK) + + /* This has been tested with a 48MHz crystal on CLK6 */ + switch (CFG_USB_EXTC_CLK) { + case 1: + immr->im_ioport.iop_papar |= 0x0100; + immr->im_ioport.iop_padir &= ~0x0100; + cp->cp_sicr |= 0x24; + break; + case 2: + immr->im_ioport.iop_papar |= 0x0200; + immr->im_ioport.iop_padir &= ~0x0200; + cp->cp_sicr |= 0x2D; + break; + case 3: + immr->im_ioport.iop_papar |= 0x0400; + immr->im_ioport.iop_padir &= ~0x0400; + cp->cp_sicr |= 0x36; + break; + case 4: + immr->im_ioport.iop_papar |= 0x0800; + immr->im_ioport.iop_padir &= ~0x0800; + cp->cp_sicr |= 0x3F; + break; + default: + udc_state = STATE_ERROR; + break; + } + +#elif defined(CFG_USB_BRGCLK) + + /* This has been tested with brgclk == 50MHz */ + DECLARE_GLOBAL_DATA_PTR; + int divisor = 0; + + if (gd->cpu_clk < 48000000L) { + ERR ("brgclk is too slow for full-speed USB!\n"); + udc_state = STATE_ERROR; + return; + } + + /* Assume the brgclk is 'good enough', we want !(gd->cpu_clk%48Mhz) + * but, can /probably/ live with close-ish alternative rates. + */ + divisor = (gd->cpu_clk / 48000000L) - 1; + cp->cp_sicr &= ~0x0000003F; + + switch (CFG_USB_BRGCLK) { + case 1: + cp->cp_brgc1 |= (divisor | CPM_BRG_EN); + cp->cp_sicr &= ~0x2F; + break; + case 2: + cp->cp_brgc2 |= (divisor | CPM_BRG_EN); + cp->cp_sicr |= 0x00000009; + break; + case 3: + cp->cp_brgc3 |= (divisor | CPM_BRG_EN); + cp->cp_sicr |= 0x00000012; + break; + case 4: + cp->cp_brgc4 = (divisor | CPM_BRG_EN); + cp->cp_sicr |= 0x0000001B; + break; + default: + udc_state = STATE_ERROR; + break; + } + +#else +#error "CFG_USB_EXTC_CLK or CFG_USB_BRGCLK must be defined" +#endif + +} + +/* mpc8xx_udc_cbd_attach + * + * attach a cbd to and endpoint + */ +static void mpc8xx_udc_cbd_attach (int ep, uchar tx_size, uchar rx_size) +{ + + if (!tx_cbd[ep] || !rx_cbd[ep] || ep >= MAX_ENDPOINTS) { + udc_state = STATE_ERROR; + return; + } + + if (tx_size > USB_MAX_PKT || rx_size > USB_MAX_PKT || + (!tx_size && !rx_size)) { + udc_state = STATE_ERROR; + return; + } + + /* Attach CBD to appropiate Parameter RAM Endpoint data structure */ + if (rx_size) { + endpoints[ep]->rbase = (u32) rx_cbd[rx_ct]; + endpoints[ep]->rbptr = (u32) rx_cbd[rx_ct]; + rx_ct++; + + if (!ep) { + + endpoints[ep]->rbptr = (u32) rx_cbd[rx_ct]; + rx_cbd[rx_ct]->cbd_sc |= RX_BD_W; + rx_ct++; + + } else { + rx_ct += 2; + endpoints[ep]->rbptr = (u32) rx_cbd[rx_ct]; + rx_cbd[rx_ct]->cbd_sc |= RX_BD_W; + rx_ct++; + } + + /* Where we expect to RX data on this endpoint */ + ep_ref[ep].prx = rx_cbd[rx_ct - 1]; + } else { + + ep_ref[ep].prx = 0; + endpoints[ep]->rbase = 0; + endpoints[ep]->rbptr = 0; + } + + if (tx_size) { + endpoints[ep]->tbase = (u32) tx_cbd[tx_ct]; + endpoints[ep]->tbptr = (u32) tx_cbd[tx_ct]; + tx_ct++; + } else { + endpoints[ep]->tbase = 0; + endpoints[ep]->tbptr = 0; + } + + endpoints[ep]->tstate = 0; + endpoints[ep]->tbcnt = 0; + endpoints[ep]->mrblr = EP_MAX_PKT; + endpoints[ep]->rfcr = 0x18; + endpoints[ep]->tfcr = 0x18; + ep_ref[ep].sc |= EP_ATTACHED; + + DBG ("ep %d rbase 0x%08x rbptr 0x%08x tbase 0x%08x tbptr 0x%08x prx = %p\n", + ep, endpoints[ep]->rbase, endpoints[ep]->rbptr, + endpoints[ep]->tbase, endpoints[ep]->tbptr, + ep_ref[ep].prx); + + return; +} + +/* mpc8xx_udc_cbd_init + * + * Allocate space for a cbd and allocate TX/RX data space + */ +static void mpc8xx_udc_cbd_init (void) +{ + int i = 0; + + for (; i < TX_RING_SIZE; i++) { + tx_cbd[i] = (cbd_t *) + mpc8xx_udc_alloc (sizeof (cbd_t), sizeof (int)); + } + + for (i = 0; i < RX_RING_SIZE; i++) { + rx_cbd[i] = (cbd_t *) + mpc8xx_udc_alloc (sizeof (cbd_t), sizeof (int)); + } + + for (i = 0; i < TX_RING_SIZE; i++) { + tx_cbd[i]->cbd_bufaddr = + mpc8xx_udc_alloc (EP_MAX_PKT, sizeof (int)); + + tx_cbd[i]->cbd_sc = (TX_BD_I | TX_BD_W); + tx_cbd[i]->cbd_datlen = 0x0000; + } + + + for (i = 0; i < RX_RING_SIZE; i++) { + rx_cbd[i]->cbd_bufaddr = + mpc8xx_udc_alloc (EP_MAX_PKT, sizeof (int)); + rx_cbd[i]->cbd_sc = (RX_BD_I | RX_BD_E); + rx_cbd[i]->cbd_datlen = 0x0000; + + } + + return; +} + +/* mpc8xx_udc_endpoint_init + * + * Attach an endpoint to some dpram + */ +static void mpc8xx_udc_endpoint_init (void) +{ + int i = 0; + + for (; i < MAX_ENDPOINTS; i++) { + endpoints[i] = (usb_epb_t *) + mpc8xx_udc_alloc (sizeof (usb_epb_t), 32); + } +} + +/* mpc8xx_udc_alloc + * + * Grab the address of some dpram + */ +static u32 mpc8xx_udc_alloc (u32 data_size, u32 alignment) +{ + u32 retaddr = address_base; + + while (retaddr % alignment) { + retaddr++; + } + address_base += data_size; + + return retaddr; +} + +#endif /* CONFIG_MPC885_FAMILY && CONFIG_USB_DEVICE) */ diff --git a/drivers/usbdcore_omap1510.c b/drivers/usbdcore_omap1510.c index 1d54a63..84bb936 100644 --- a/drivers/usbdcore_omap1510.c +++ b/drivers/usbdcore_omap1510.c @@ -1517,4 +1517,31 @@ void udc_startup_events (struct usb_device_instance *device) udc_enable (device); } +/** + * udc_irq - do pseudo interrupts + */ +void udc_irq(void) +{ + /* Loop while we have interrupts. + * If we don't do this, the input chain + * polling delay is likely to miss + * host requests. + */ + while (inw (UDC_IRQ_SRC) & ~UDC_SOF_Flg) { + /* Handle any new IRQs */ + omap1510_udc_irq (); + omap1510_udc_noniso_irq (); + } +} + +/* Flow control */ +void udc_set_nak(int epid) +{ + /* TODO: implement this functionality in omap1510 */ +} + +void udc_unset_nak (int epid) +{ + /* TODO: implement this functionality in omap1510 */ +} #endif diff --git a/drivers/usbtty.c b/drivers/usbtty.c index ce4a12e..a3b5013 100644 --- a/drivers/usbtty.c +++ b/drivers/usbtty.c @@ -2,6 +2,9 @@ * (C) Copyright 2003 * Gerry Hamel, geh@ti.com, Texas Instruments * + * (C) Copyright 2006 + * Bryan O'Donoghue, bodonoghue@codehermit.ie + * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or @@ -25,20 +28,42 @@ #include <circbuf.h> #include <devices.h> #include "usbtty.h" +#include "usb_cdc_acm.h" +#include "usbdescriptors.h" +#include <config.h> /* If defined, override Linux identifiers with + * vendor specific ones */ #if 0 -#define TTYDBG(fmt,args...) serial_printf("[%s] %s %d: "fmt, __FILE__,__FUNCTION__,__LINE__,##args) +#define TTYDBG(fmt,args...)\ + serial_printf("[%s] %s %d: "fmt, __FILE__,__FUNCTION__,__LINE__,##args) #else #define TTYDBG(fmt,args...) do{}while(0) #endif -#if 0 -#define TTYERR(fmt,args...) serial_printf("ERROR![%s] %s %d: "fmt, __FILE__,__FUNCTION__,__LINE__,##args) +#if 1 +#define TTYERR(fmt,args...)\ + serial_printf("ERROR![%s] %s %d: "fmt, __FILE__,__FUNCTION__,\ + __LINE__,##args) #else #define TTYERR(fmt,args...) do{}while(0) #endif /* + * Defines + */ +#define NUM_CONFIGS 1 +#define MAX_INTERFACES 2 +#define NUM_ENDPOINTS 3 +#define ACM_TX_ENDPOINT 3 +#define ACM_RX_ENDPOINT 2 +#define GSERIAL_TX_ENDPOINT 2 +#define GSERIAL_RX_ENDPOINT 1 +#define NUM_ACM_INTERFACES 2 +#define NUM_GSERIAL_INTERFACES 1 +#define CONFIG_USBD_DATA_INTERFACE_STR "Bulk Data Interface" +#define CONFIG_USBD_CTRL_INTERFACE_STR "Control Interface" + +/* * Buffers to hold input and output data */ #define USBTTY_BUFFER_SIZE 256 @@ -50,157 +75,336 @@ static circbuf_t usbtty_output; * Instance variables */ static device_t usbttydev; -static struct usb_device_instance device_instance[1]; -static struct usb_bus_instance bus_instance[1]; +static struct usb_device_instance device_instance[1]; +static struct usb_bus_instance bus_instance[1]; static struct usb_configuration_instance config_instance[NUM_CONFIGS]; -static struct usb_interface_instance interface_instance[NUM_INTERFACES]; -static struct usb_alternate_instance alternate_instance[NUM_INTERFACES]; -static struct usb_endpoint_instance endpoint_instance[NUM_ENDPOINTS+1]; /* one extra for control endpoint */ - -/* - * Static allocation of urbs - */ -#define RECV_ENDPOINT 1 -#define TX_ENDPOINT 2 +static struct usb_interface_instance interface_instance[MAX_INTERFACES]; +static struct usb_alternate_instance alternate_instance[MAX_INTERFACES]; +/* one extra for control endpoint */ +static struct usb_endpoint_instance endpoint_instance[NUM_ENDPOINTS+1]; /* * Global flag */ int usbtty_configured_flag = 0; - /* * Serial number */ static char serial_number[16]; + /* - * Descriptors + * Descriptors, Strings, Local variables. */ + +/* defined and used by usbdcore_ep0.c */ +extern struct usb_string_descriptor **usb_strings; + +/* Indicies, References */ +static unsigned short rx_endpoint = 0; +static unsigned short tx_endpoint = 0; +static unsigned short interface_count = 0; +static struct usb_string_descriptor *usbtty_string_table[STR_COUNT]; + +/* USB Descriptor Strings */ static u8 wstrLang[4] = {4,USB_DT_STRING,0x9,0x4}; static u8 wstrManufacturer[2 + 2*(sizeof(CONFIG_USBD_MANUFACTURER)-1)]; static u8 wstrProduct[2 + 2*(sizeof(CONFIG_USBD_PRODUCT_NAME)-1)]; static u8 wstrSerial[2 + 2*(sizeof(serial_number) - 1)]; static u8 wstrConfiguration[2 + 2*(sizeof(CONFIG_USBD_CONFIGURATION_STR)-1)]; -static u8 wstrInterface[2 + 2*(sizeof(CONFIG_USBD_INTERFACE_STR)-1)]; - -static struct usb_string_descriptor *usbtty_string_table[] = { - (struct usb_string_descriptor*)wstrLang, - (struct usb_string_descriptor*)wstrManufacturer, - (struct usb_string_descriptor*)wstrProduct, - (struct usb_string_descriptor*)wstrSerial, - (struct usb_string_descriptor*)wstrConfiguration, - (struct usb_string_descriptor*)wstrInterface -}; -extern struct usb_string_descriptor **usb_strings; /* defined and used by omap1510_ep0.c */ +static u8 wstrDataInterface[2 + 2*(sizeof(CONFIG_USBD_DATA_INTERFACE_STR)-1)]; +static u8 wstrCtrlInterface[2 + 2*(sizeof(CONFIG_USBD_DATA_INTERFACE_STR)-1)]; +/* Standard USB Data Structures */ +static struct usb_interface_descriptor interface_descriptors[MAX_INTERFACES]; +static struct usb_endpoint_descriptor *ep_descriptor_ptrs[NUM_ENDPOINTS]; +static struct usb_configuration_descriptor *configuration_descriptor = 0; static struct usb_device_descriptor device_descriptor = { - bLength: sizeof(struct usb_device_descriptor), - bDescriptorType: USB_DT_DEVICE, - bcdUSB: USB_BCD_VERSION, - bDeviceClass: USBTTY_DEVICE_CLASS, - bDeviceSubClass: USBTTY_DEVICE_SUBCLASS, - bDeviceProtocol: USBTTY_DEVICE_PROTOCOL, - bMaxPacketSize0: EP0_MAX_PACKET_SIZE, - idVendor: CONFIG_USBD_VENDORID, - idProduct: CONFIG_USBD_PRODUCTID, - bcdDevice: USBTTY_BCD_DEVICE, - iManufacturer: STR_MANUFACTURER, - iProduct: STR_PRODUCT, - iSerialNumber: STR_SERIAL, - bNumConfigurations: NUM_CONFIGS - }; -static struct usb_configuration_descriptor config_descriptors[NUM_CONFIGS] = { - { - bLength: sizeof(struct usb_configuration_descriptor), - bDescriptorType: USB_DT_CONFIG, - wTotalLength: (sizeof(struct usb_configuration_descriptor)*NUM_CONFIGS) + - (sizeof(struct usb_interface_descriptor)*NUM_INTERFACES) + - (sizeof(struct usb_endpoint_descriptor)*NUM_ENDPOINTS), - bNumInterfaces: NUM_INTERFACES, - bConfigurationValue: 1, - iConfiguration: STR_CONFIG, - bmAttributes: BMATTRIBUTE_SELF_POWERED | BMATTRIBUTE_RESERVED, - bMaxPower: USBTTY_MAXPOWER - }, -}; -static struct usb_interface_descriptor interface_descriptors[NUM_INTERFACES] = { - { - bLength: sizeof(struct usb_interface_descriptor), - bDescriptorType: USB_DT_INTERFACE, - bInterfaceNumber: 0, - bAlternateSetting: 0, - bNumEndpoints: NUM_ENDPOINTS, - bInterfaceClass: USBTTY_INTERFACE_CLASS, - bInterfaceSubClass: USBTTY_INTERFACE_SUBCLASS, - bInterfaceProtocol: USBTTY_INTERFACE_PROTOCOL, - iInterface: STR_INTERFACE - }, + .bLength = sizeof(struct usb_device_descriptor), + .bDescriptorType = USB_DT_DEVICE, + .bcdUSB = cpu_to_le16(USB_BCD_VERSION), + .bDeviceSubClass = 0x00, + .bDeviceProtocol = 0x00, + .bMaxPacketSize0 = EP0_MAX_PACKET_SIZE, + .idVendor = cpu_to_le16(CONFIG_USBD_VENDORID), + .bcdDevice = cpu_to_le16(USBTTY_BCD_DEVICE), + .iManufacturer = STR_MANUFACTURER, + .iProduct = STR_PRODUCT, + .iSerialNumber = STR_SERIAL, + .bNumConfigurations = NUM_CONFIGS }; -static struct usb_endpoint_descriptor ep_descriptors[NUM_ENDPOINTS] = { - { - bLength: sizeof(struct usb_endpoint_descriptor), - bDescriptorType: USB_DT_ENDPOINT, - bEndpointAddress: CONFIG_USBD_SERIAL_OUT_ENDPOINT | USB_DIR_OUT, - bmAttributes: USB_ENDPOINT_XFER_BULK, - wMaxPacketSize: CONFIG_USBD_SERIAL_OUT_PKTSIZE, - bInterval: 0 - }, - { - bLength: sizeof(struct usb_endpoint_descriptor), - bDescriptorType: USB_DT_ENDPOINT, - bEndpointAddress: CONFIG_USBD_SERIAL_IN_ENDPOINT | USB_DIR_IN, - bmAttributes: USB_ENDPOINT_XFER_BULK, - wMaxPacketSize: CONFIG_USBD_SERIAL_IN_PKTSIZE, - bInterval: 0 - }, - { - bLength: sizeof(struct usb_endpoint_descriptor), - bDescriptorType: USB_DT_ENDPOINT, - bEndpointAddress: CONFIG_USBD_SERIAL_INT_ENDPOINT | USB_DIR_IN, - bmAttributes: USB_ENDPOINT_XFER_INT, - wMaxPacketSize: CONFIG_USBD_SERIAL_INT_PKTSIZE, - bInterval: 0 - }, + + +/* + * Static CDC ACM specific descriptors + */ + +struct acm_config_desc { + struct usb_configuration_descriptor configuration_desc; + + /* Master Interface */ + struct usb_interface_descriptor interface_desc; + + struct usb_class_header_function_descriptor usb_class_header; + struct usb_class_call_management_descriptor usb_class_call_mgt; + struct usb_class_abstract_control_descriptor usb_class_acm; + struct usb_class_union_function_descriptor usb_class_union; + struct usb_endpoint_descriptor notification_endpoint; + + /* Slave Interface */ + struct usb_interface_descriptor data_class_interface; + struct usb_endpoint_descriptor + data_endpoints[NUM_ENDPOINTS-1] __attribute__((packed)); +} __attribute__((packed)); + +static struct acm_config_desc acm_configuration_descriptors[NUM_CONFIGS] = { + { + .configuration_desc ={ + .bLength = + sizeof(struct usb_configuration_descriptor), + .bDescriptorType = USB_DT_CONFIG, + .wTotalLength = + cpu_to_le16(sizeof(struct acm_config_desc)), + .bNumInterfaces = NUM_ACM_INTERFACES, + .bConfigurationValue = 1, + .iConfiguration = STR_CONFIG, + .bmAttributes = + BMATTRIBUTE_SELF_POWERED|BMATTRIBUTE_RESERVED, + .bMaxPower = USBTTY_MAXPOWER + }, + /* Interface 1 */ + .interface_desc = { + .bLength = sizeof(struct usb_interface_descriptor), + .bDescriptorType = USB_DT_INTERFACE, + .bInterfaceNumber = 0, + .bAlternateSetting = 0, + .bNumEndpoints = 0x01, + .bInterfaceClass = + COMMUNICATIONS_INTERFACE_CLASS_CONTROL, + .bInterfaceSubClass = COMMUNICATIONS_ACM_SUBCLASS, + .bInterfaceProtocol = COMMUNICATIONS_V25TER_PROTOCOL, + .iInterface = STR_CTRL_INTERFACE, + }, + .usb_class_header = { + .bFunctionLength = + sizeof(struct usb_class_header_function_descriptor), + .bDescriptorType = CS_INTERFACE, + .bDescriptorSubtype = USB_ST_HEADER, + .bcdCDC = cpu_to_le16(110), + }, + .usb_class_call_mgt = { + .bFunctionLength = + sizeof(struct usb_class_call_management_descriptor), + .bDescriptorType = CS_INTERFACE, + .bDescriptorSubtype = USB_ST_CMF, + .bmCapabilities = 0x00, + .bDataInterface = 0x01, + }, + .usb_class_acm = { + .bFunctionLength = + sizeof(struct usb_class_abstract_control_descriptor), + .bDescriptorType = CS_INTERFACE, + .bDescriptorSubtype = USB_ST_ACMF, + .bmCapabilities = 0x00, + }, + .usb_class_union = { + .bFunctionLength = + sizeof(struct usb_class_union_function_descriptor), + .bDescriptorType = CS_INTERFACE, + .bDescriptorSubtype = USB_ST_UF, + .bMasterInterface = 0x00, + .bSlaveInterface0 = 0x01, + }, + .notification_endpoint = { + .bLength = + sizeof(struct usb_endpoint_descriptor), + .bDescriptorType = USB_DT_ENDPOINT, + .bEndpointAddress = 0x01 | USB_DIR_IN, + .bmAttributes = USB_ENDPOINT_XFER_INT, + .wMaxPacketSize + = cpu_to_le16(CONFIG_USBD_SERIAL_INT_PKTSIZE), + .bInterval = 0xFF, + }, + + /* Interface 2 */ + .data_class_interface = { + .bLength = + sizeof(struct usb_interface_descriptor), + .bDescriptorType = USB_DT_INTERFACE, + .bInterfaceNumber = 0x01, + .bAlternateSetting = 0x00, + .bNumEndpoints = 0x02, + .bInterfaceClass = + COMMUNICATIONS_INTERFACE_CLASS_DATA, + .bInterfaceSubClass = DATA_INTERFACE_SUBCLASS_NONE, + .bInterfaceProtocol = DATA_INTERFACE_PROTOCOL_NONE, + .iInterface = STR_DATA_INTERFACE, + }, + .data_endpoints = { + { + .bLength = + sizeof(struct usb_endpoint_descriptor), + .bDescriptorType = USB_DT_ENDPOINT, + .bEndpointAddress = 0x02 | USB_DIR_OUT, + .bmAttributes = + USB_ENDPOINT_XFER_BULK, + .wMaxPacketSize = + cpu_to_le16(CONFIG_USBD_SERIAL_BULK_PKTSIZE), + .bInterval = 0xFF, + }, + { + .bLength = + sizeof(struct usb_endpoint_descriptor), + .bDescriptorType = USB_DT_ENDPOINT, + .bEndpointAddress = 0x03 | USB_DIR_IN, + .bmAttributes = + USB_ENDPOINT_XFER_BULK, + .wMaxPacketSize = + cpu_to_le16(CONFIG_USBD_SERIAL_BULK_PKTSIZE), + .bInterval = 0xFF, + }, + }, + }, }; -static struct usb_endpoint_descriptor *ep_descriptor_ptrs[NUM_ENDPOINTS] = { - &(ep_descriptors[0]), - &(ep_descriptors[1]), - &(ep_descriptors[2]), + +static struct rs232_emu rs232_desc={ + .dter = 115200, + .stop_bits = 0x00, + .parity = 0x00, + .data_bits = 0x08 }; -/* utility function for converting char* to wide string used by USB */ -static void str2wide (char *str, u16 * wide) -{ - int i; - for (i = 0; i < strlen (str) && str[i]; i++) - wide[i] = (u16) str[i]; -} +/* + * Static Generic Serial specific data + */ + + +struct gserial_config_desc { + + struct usb_configuration_descriptor configuration_desc; + struct usb_interface_descriptor + interface_desc[NUM_GSERIAL_INTERFACES] __attribute__((packed)); + struct usb_endpoint_descriptor + data_endpoints[NUM_ENDPOINTS] __attribute__((packed)); + +} __attribute__((packed)); + +static struct gserial_config_desc +gserial_configuration_descriptors[NUM_CONFIGS] ={ + { + .configuration_desc ={ + .bLength = sizeof(struct usb_configuration_descriptor), + .bDescriptorType = USB_DT_CONFIG, + .wTotalLength = + cpu_to_le16(sizeof(struct gserial_config_desc)), + .bNumInterfaces = NUM_GSERIAL_INTERFACES, + .bConfigurationValue = 1, + .iConfiguration = STR_CONFIG, + .bmAttributes = + BMATTRIBUTE_SELF_POWERED|BMATTRIBUTE_RESERVED, + .bMaxPower = USBTTY_MAXPOWER + }, + .interface_desc = { + { + .bLength = + sizeof(struct usb_interface_descriptor), + .bDescriptorType = USB_DT_INTERFACE, + .bInterfaceNumber = 0, + .bAlternateSetting = 0, + .bNumEndpoints = NUM_ENDPOINTS, + .bInterfaceClass = + COMMUNICATIONS_INTERFACE_CLASS_VENDOR, + .bInterfaceSubClass = + COMMUNICATIONS_NO_SUBCLASS, + .bInterfaceProtocol = + COMMUNICATIONS_NO_PROTOCOL, + .iInterface = STR_DATA_INTERFACE + }, + }, + .data_endpoints = { + { + .bLength = + sizeof(struct usb_endpoint_descriptor), + .bDescriptorType = USB_DT_ENDPOINT, + .bEndpointAddress = 0x01 | USB_DIR_OUT, + .bmAttributes = USB_ENDPOINT_XFER_BULK, + .wMaxPacketSize = + cpu_to_le16(CONFIG_USBD_SERIAL_OUT_PKTSIZE), + .bInterval= 0xFF, + }, + { + .bLength = + sizeof(struct usb_endpoint_descriptor), + .bDescriptorType = USB_DT_ENDPOINT, + .bEndpointAddress = 0x02 | USB_DIR_IN, + .bmAttributes = USB_ENDPOINT_XFER_BULK, + .wMaxPacketSize = + cpu_to_le16(CONFIG_USBD_SERIAL_IN_PKTSIZE), + .bInterval = 0xFF, + }, + { + .bLength = + sizeof(struct usb_endpoint_descriptor), + .bDescriptorType = USB_DT_ENDPOINT, + .bEndpointAddress = 0x03 | USB_DIR_IN, + .bmAttributes = USB_ENDPOINT_XFER_INT, + .wMaxPacketSize = + cpu_to_le16(CONFIG_USBD_SERIAL_INT_PKTSIZE), + .bInterval = 0xFF, + }, + }, + }, +}; /* - * Prototypes + * Static Function Prototypes */ + static void usbtty_init_strings (void); static void usbtty_init_instances (void); static void usbtty_init_endpoints (void); - +static void usbtty_init_terminal_type(short type); static void usbtty_event_handler (struct usb_device_instance *device, - usb_device_event_t event, int data); + usb_device_event_t event, int data); +static int usbtty_cdc_setup(struct usb_device_request *request, + struct urb *urb); static int usbtty_configured (void); - static int write_buffer (circbuf_t * buf); static int fill_buffer (circbuf_t * buf); void usbtty_poll (void); -static void pretend_interrupts (void); +/* utility function for converting char* to wide string used by USB */ +static void str2wide (char *str, u16 * wide) +{ + int i; + for (i = 0; i < strlen (str) && str[i]; i++){ + #if defined(__LITTLE_ENDIAN) + wide[i] = (u16) str[i]; + #elif defined(__BIG_ENDIAN) + wide[i] = ((u16)(str[i])<<8); + #else + #error "__LITTLE_ENDIAN or __BIG_ENDIAN undefined" + #endif + } +} /* * Test whether a character is in the RX buffer */ + int usbtty_tstc (void) { + struct usb_endpoint_instance *endpoint = + &endpoint_instance[rx_endpoint]; + + /* If no input data exists, allow more RX to be accepted */ + if(usbtty_input.size <= 0){ + udc_unset_nak(endpoint->endpoint_address&0x03); + } + usbtty_poll (); return (usbtty_input.size > 0); } @@ -210,15 +414,21 @@ int usbtty_tstc (void) * otherwise. When the function is succesfull, the character read is * written into its argument c. */ + int usbtty_getc (void) { char c; + struct usb_endpoint_instance *endpoint = + &endpoint_instance[rx_endpoint]; while (usbtty_input.size <= 0) { + udc_unset_nak(endpoint->endpoint_address&0x03); usbtty_poll (); } buf_pop (&usbtty_input, &c, 1); + udc_set_nak(endpoint->endpoint_address&0x03); + return c; } @@ -238,7 +448,6 @@ void usbtty_putc (const char c) } } - /* usbtty_puts() helper function for finding the next '\n' in a string */ static int next_nl_pos (const char *s) { @@ -252,8 +461,9 @@ static int next_nl_pos (const char *s) } /* - * Output a string to the usb client port. + * Output a string to the usb client port - implementing flow control */ + static void __usbtty_puts (const char *str, int len) { int maxlen = usbtty_output.totalsize; @@ -261,22 +471,19 @@ static void __usbtty_puts (const char *str, int len) /* break str into chunks < buffer size, if needed */ while (len > 0) { - space = maxlen - usbtty_output.size; + usbtty_poll (); + space = maxlen - usbtty_output.size; /* Empty buffer here, if needed, to ensure space... */ - if (space <= 0) { + if (space) { write_buffer (&usbtty_output); - space = maxlen - usbtty_output.size; - if (space <= 0) { - space = len; /* allow old data to be overwritten. */ - } - } - n = MIN (space, MIN (len, maxlen)); - buf_push (&usbtty_output, str, n); + n = MIN (space, MIN (len, maxlen)); + buf_push (&usbtty_output, str, n); - str += n; - len -= n; + str += n; + len -= n; + } } } @@ -313,8 +520,10 @@ int drv_usbtty_init (void) { int rc; char * sn; + char * tt; int snlen; + /* Ger seiral number */ if (!(sn = getenv("serial#"))) { sn = "000000000000"; } @@ -327,6 +536,14 @@ int drv_usbtty_init (void) memcpy (serial_number, sn, snlen); serial_number[snlen] = '\0'; + /* Decide on which type of UDC device to be. + */ + + if(!(tt = getenv("usbtty"))) { + tt = "generic"; + } + usbtty_init_terminal_type(strcmp(tt,"cdc_acm")); + /* prepare buffers... */ buf_init (&usbtty_input, USBTTY_BUFFER_SIZE); buf_init (&usbtty_output, USBTTY_BUFFER_SIZE); @@ -337,7 +554,7 @@ int drv_usbtty_init (void) usbtty_init_strings (); usbtty_init_instances (); - udc_startup_events (device_instance); /* Enable our device, initialize udc pointers */ + udc_startup_events (device_instance);/* Enable dev, init udc pointers */ udc_connect (); /* Enable pullup for host detection */ usbtty_init_endpoints (); @@ -362,30 +579,48 @@ static void usbtty_init_strings (void) { struct usb_string_descriptor *string; + usbtty_string_table[STR_LANG] = + (struct usb_string_descriptor*)wstrLang; + string = (struct usb_string_descriptor *) wstrManufacturer; - string->bLength = sizeof (wstrManufacturer); + string->bLength = sizeof(wstrManufacturer); string->bDescriptorType = USB_DT_STRING; str2wide (CONFIG_USBD_MANUFACTURER, string->wData); + usbtty_string_table[STR_MANUFACTURER]=string; + string = (struct usb_string_descriptor *) wstrProduct; - string->bLength = sizeof (wstrProduct); + string->bLength = sizeof(wstrProduct); string->bDescriptorType = USB_DT_STRING; str2wide (CONFIG_USBD_PRODUCT_NAME, string->wData); + usbtty_string_table[STR_PRODUCT]=string; + string = (struct usb_string_descriptor *) wstrSerial; - string->bLength = 2 + 2*strlen(serial_number); + string->bLength = sizeof(serial_number); string->bDescriptorType = USB_DT_STRING; str2wide (serial_number, string->wData); + usbtty_string_table[STR_SERIAL]=string; + string = (struct usb_string_descriptor *) wstrConfiguration; - string->bLength = sizeof (wstrConfiguration); + string->bLength = sizeof(wstrConfiguration); string->bDescriptorType = USB_DT_STRING; str2wide (CONFIG_USBD_CONFIGURATION_STR, string->wData); + usbtty_string_table[STR_CONFIG]=string; - string = (struct usb_string_descriptor *) wstrInterface; - string->bLength = sizeof (wstrInterface); + + string = (struct usb_string_descriptor *) wstrDataInterface; + string->bLength = sizeof(wstrDataInterface); string->bDescriptorType = USB_DT_STRING; - str2wide (CONFIG_USBD_INTERFACE_STR, string->wData); + str2wide (CONFIG_USBD_DATA_INTERFACE_STR, string->wData); + usbtty_string_table[STR_DATA_INTERFACE]=string; + + string = (struct usb_string_descriptor *) wstrCtrlInterface; + string->bLength = sizeof(wstrCtrlInterface); + string->bDescriptorType = USB_DT_STRING; + str2wide (CONFIG_USBD_CTRL_INTERFACE_STR, string->wData); + usbtty_string_table[STR_CTRL_INTERFACE]=string; /* Now, initialize the string table for ep0 handling */ usb_strings = usbtty_string_table; @@ -400,6 +635,7 @@ static void usbtty_init_instances (void) device_instance->device_state = STATE_INIT; device_instance->device_descriptor = &device_descriptor; device_instance->event = usbtty_event_handler; + device_instance->cdc_recv_setup = usbtty_cdc_setup; device_instance->bus = bus_instance; device_instance->configurations = NUM_CONFIGS; device_instance->configuration_instance_array = config_instance; @@ -415,8 +651,8 @@ static void usbtty_init_instances (void) /* configuration instance */ memset (config_instance, 0, sizeof (struct usb_configuration_instance)); - config_instance->interfaces = NUM_INTERFACES; - config_instance->configuration_descriptor = config_descriptors; + config_instance->interfaces = interface_count; + config_instance->configuration_descriptor = configuration_descriptor; config_instance->interface_instance_array = interface_instance; /* interface instance */ @@ -447,17 +683,22 @@ static void usbtty_init_instances (void) sizeof (struct usb_endpoint_instance)); endpoint_instance[i].endpoint_address = - ep_descriptors[i - 1].bEndpointAddress; + ep_descriptor_ptrs[i - 1]->bEndpointAddress; - endpoint_instance[i].rcv_packetSize = - ep_descriptors[i - 1].wMaxPacketSize; endpoint_instance[i].rcv_attributes = - ep_descriptors[i - 1].bmAttributes; + ep_descriptor_ptrs[i - 1]->bmAttributes; + + endpoint_instance[i].rcv_packetSize = + le16_to_cpu(ep_descriptor_ptrs[i - 1]->wMaxPacketSize); + + endpoint_instance[i].tx_attributes = + ep_descriptor_ptrs[i - 1]->bmAttributes; endpoint_instance[i].tx_packetSize = - ep_descriptors[i - 1].wMaxPacketSize; + le16_to_cpu(ep_descriptor_ptrs[i - 1]->wMaxPacketSize); + endpoint_instance[i].tx_attributes = - ep_descriptors[i - 1].bmAttributes; + ep_descriptor_ptrs[i - 1]->bmAttributes; urb_link_init (&endpoint_instance[i].rcv); urb_link_init (&endpoint_instance[i].rdy); @@ -480,13 +721,79 @@ static void usbtty_init_endpoints (void) int i; bus_instance->max_endpoints = NUM_ENDPOINTS + 1; - for (i = 0; i <= NUM_ENDPOINTS; i++) { + for (i = 1; i <= NUM_ENDPOINTS; i++) { udc_setup_ep (device_instance, i, &endpoint_instance[i]); } } +/* usbtty_init_terminal_type + * + * Do some late binding for our device type. + */ +static void usbtty_init_terminal_type(short type) +{ + switch(type){ + /* CDC ACM */ + case 0: + /* Assign endpoint descriptors */ + ep_descriptor_ptrs[0] = + &acm_configuration_descriptors[0].notification_endpoint; + ep_descriptor_ptrs[1] = + &acm_configuration_descriptors[0].data_endpoints[0]; + ep_descriptor_ptrs[2] = + &acm_configuration_descriptors[0].data_endpoints[1]; + + /* Enumerate Device Descriptor */ + device_descriptor.bDeviceClass = + COMMUNICATIONS_DEVICE_CLASS; + device_descriptor.idProduct = + cpu_to_le16(CONFIG_USBD_PRODUCTID_CDCACM); + + /* Assign endpoint indices */ + tx_endpoint = ACM_TX_ENDPOINT; + rx_endpoint = ACM_RX_ENDPOINT; + + /* Configuration Descriptor */ + configuration_descriptor = + (struct usb_configuration_descriptor*) + &acm_configuration_descriptors; + + /* Interface count */ + interface_count = NUM_ACM_INTERFACES; + break; + + /* BULK IN/OUT & Default */ + case 1: + default: + /* Assign endpoint descriptors */ + ep_descriptor_ptrs[0] = + &gserial_configuration_descriptors[0].data_endpoints[0]; + ep_descriptor_ptrs[1] = + &gserial_configuration_descriptors[0].data_endpoints[1]; + ep_descriptor_ptrs[2] = + &gserial_configuration_descriptors[0].data_endpoints[2]; + + /* Enumerate Device Descriptor */ + device_descriptor.bDeviceClass = 0xFF; + device_descriptor.idProduct = + cpu_to_le16(CONFIG_USBD_PRODUCTID_GSERIAL); + + /* Assign endpoint indices */ + tx_endpoint = GSERIAL_TX_ENDPOINT; + rx_endpoint = GSERIAL_RX_ENDPOINT; + + /* Configuration Descriptor */ + configuration_descriptor = + (struct usb_configuration_descriptor*) + &gserial_configuration_descriptors; + + /* Interface count */ + interface_count = NUM_GSERIAL_INTERFACES; + break; + } +} -/*********************************************************************************/ +/******************************************************************************/ static struct urb *next_urb (struct usb_device_instance *device, struct usb_endpoint_instance *endpoint) @@ -526,27 +833,39 @@ static int write_buffer (circbuf_t * buf) return 0; } - if (buf->size) { + struct usb_endpoint_instance *endpoint = + &endpoint_instance[tx_endpoint]; + struct urb *current_urb = NULL; - struct usb_endpoint_instance *endpoint = - &endpoint_instance[TX_ENDPOINT]; - struct urb *current_urb = NULL; + current_urb = next_urb (device_instance, endpoint); + /* TX data still exists - send it now + */ + if(endpoint->sent < current_urb->actual_length){ + if(udc_endpoint_write (endpoint)){ + /* Write pre-empted by RX */ + return -1; + } + } + + if (buf->size) { char *dest; int space_avail; int popnum, popped; int total = 0; - /* Break buffer into urb sized pieces, and link each to the endpoint */ + /* Break buffer into urb sized pieces, + * and link each to the endpoint + */ while (buf->size > 0) { - current_urb = next_urb (device_instance, endpoint); + if (!current_urb) { TTYERR ("current_urb is NULL, buf->size %d\n", buf->size); return total; } - dest = current_urb->buffer + + dest = (char*)current_urb->buffer + current_urb->actual_length; space_avail = @@ -562,14 +881,19 @@ static int write_buffer (circbuf_t * buf) current_urb->actual_length += popped; total += popped; - /* If endpoint->last == 0, then transfers have not started on this endpoint */ + /* If endpoint->last == 0, then transfers have + * not started on this endpoint + */ if (endpoint->last == 0) { - udc_endpoint_write (endpoint); + if(udc_endpoint_write (endpoint)){ + /* Write pre-empted by RX */ + return -1; + } } - } /* end while */ + }/* end while */ return total; - } /* end if tx_urb */ + } return 0; } @@ -577,18 +901,22 @@ static int write_buffer (circbuf_t * buf) static int fill_buffer (circbuf_t * buf) { struct usb_endpoint_instance *endpoint = - &endpoint_instance[RECV_ENDPOINT]; + &endpoint_instance[rx_endpoint]; if (endpoint->rcv_urb && endpoint->rcv_urb->actual_length) { - unsigned int nb = endpoint->rcv_urb->actual_length; + unsigned int nb = 0; char *src = (char *) endpoint->rcv_urb->buffer; + unsigned int rx_avail = buf->totalsize - buf->size; + + if(rx_avail >= endpoint->rcv_urb->actual_length){ - buf_push (buf, src, nb); - endpoint->rcv_urb->actual_length = 0; + nb = endpoint->rcv_urb->actual_length; + buf_push (buf, src, nb); + endpoint->rcv_urb->actual_length = 0; + } return nb; } - return 0; } @@ -597,7 +925,7 @@ static int usbtty_configured (void) return usbtty_configured_flag; } -/*********************************************************************************/ +/******************************************************************************/ static void usbtty_event_handler (struct usb_device_instance *device, usb_device_event_t event, int data) @@ -619,8 +947,34 @@ static void usbtty_event_handler (struct usb_device_instance *device, } } -/*********************************************************************************/ +/******************************************************************************/ + +int usbtty_cdc_setup(struct usb_device_request *request, struct urb *urb) +{ + switch (request->bRequest){ + + case ACM_SET_CONTROL_LINE_STATE: /* Implies DTE ready */ + break; + case ACM_SEND_ENCAPSULATED_COMMAND : /* Required */ + break; + case ACM_SET_LINE_ENCODING : /* DTE stop/parity bits + * per character */ + break; + case ACM_GET_ENCAPSULATED_RESPONSE : /* request response */ + break; + case ACM_GET_LINE_ENCODING : /* request DTE rate, + * stop/parity bits */ + memcpy (urb->buffer , &rs232_desc, sizeof(rs232_desc)); + urb->actual_length = sizeof(rs232_desc); + + break; + default: + return 1; + } + return 0; +} +/******************************************************************************/ /* * Since interrupt handling has not yet been implemented, we use this function @@ -630,36 +984,29 @@ static void usbtty_event_handler (struct usb_device_instance *device, void usbtty_poll (void) { /* New interrupts? */ - pretend_interrupts (); + udc_irq(); - /* Write any output data to host buffer (do this before checking interrupts to avoid missing one) */ + /* Write any output data to host buffer + * (do this before checking interrupts to avoid missing one) + */ if (usbtty_configured ()) { write_buffer (&usbtty_output); } /* New interrupts? */ - pretend_interrupts (); + udc_irq(); - /* Check for new data from host.. (do this after checking interrupts to get latest data) */ + /* Check for new data from host.. + * (do this after checking interrupts to get latest data) + */ if (usbtty_configured ()) { fill_buffer (&usbtty_input); } /* New interrupts? */ - pretend_interrupts (); -} + udc_irq(); -static void pretend_interrupts (void) -{ - /* Loop while we have interrupts. - * If we don't do this, the input chain - * polling delay is likely to miss - * host requests. - */ - while (inw (UDC_IRQ_SRC) & ~UDC_SOF_Flg) { - /* Handle any new IRQs */ - omap1510_udc_irq (); - omap1510_udc_noniso_irq (); - } } + + #endif diff --git a/drivers/usbtty.h b/drivers/usbtty.h index 79c2fe5..8154e30 100644 --- a/drivers/usbtty.h +++ b/drivers/usbtty.h @@ -2,6 +2,9 @@ * (C) Copyright 2003 * Gerry Hamel, geh@ti.com, Texas Instruments * + * (C) Copyright 2006 + * Bryan O'Donoghue, bodonoghue@codehermit.ie, CodeHermit + * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or @@ -21,44 +24,47 @@ #ifndef __USB_TTY_H__ #define __USB_TTY_H__ - #include "usbdcore.h" +#if defined(CONFIG_PPC) +#include "usbdcore_mpc8xx.h" +#elif defined(CONFIG_ARM) #include "usbdcore_omap1510.h" +#endif +#include <version_autogenerated.h> -#define NUM_CONFIGS 1 -#define NUM_INTERFACES 1 -#define NUM_ENDPOINTS 3 +/* If no VendorID/ProductID is defined in config.h, pretend to be Linux + * DO NOT Reuse this Vendor/Product setup with protocol incompatible devices */ -#define EP0_MAX_PACKET_SIZE 64 +#define CONFIG_USBD_VENDORID 0x0525 /* Linux/NetChip */ +#define CONFIG_USBD_PRODUCTID_GSERIAL 0xa4a6 /* gserial */ +#define CONFIG_USBD_PRODUCTID_CDCACM 0xa4a7 /* CDC ACM */ +#define CONFIG_USBD_MANUFACTURER "Das U-Boot" +#define CONFIG_USBD_PRODUCT_NAME U_BOOT_VERSION -#define CONFIG_USBD_CONFIGURATION_STR "TTY via USB" -#define CONFIG_USBD_INTERFACE_STR "Simple Serial Data Interface - Bulk Mode" +#define CONFIG_USBD_CONFIGURATION_STR "TTY via USB" -#define CONFIG_USBD_SERIAL_OUT_ENDPOINT 2 -#define CONFIG_USBD_SERIAL_OUT_PKTSIZE 64 -#define CONFIG_USBD_SERIAL_IN_ENDPOINT 1 -#define CONFIG_USBD_SERIAL_IN_PKTSIZE 64 -#define CONFIG_USBD_SERIAL_INT_ENDPOINT 5 -#define CONFIG_USBD_SERIAL_INT_PKTSIZE 16 - +#define CONFIG_USBD_SERIAL_OUT_ENDPOINT UDC_OUT_ENDPOINT +#define CONFIG_USBD_SERIAL_OUT_PKTSIZE UDC_OUT_PACKET_SIZE +#define CONFIG_USBD_SERIAL_IN_ENDPOINT UDC_IN_ENDPOINT +#define CONFIG_USBD_SERIAL_IN_PKTSIZE UDC_IN_PACKET_SIZE +#define CONFIG_USBD_SERIAL_INT_ENDPOINT UDC_INT_ENDPOINT +#define CONFIG_USBD_SERIAL_INT_PKTSIZE UDC_INT_PACKET_SIZE +#define CONFIG_USBD_SERIAL_BULK_PKTSIZE UDC_BULK_PACKET_SIZE #define USBTTY_DEVICE_CLASS COMMUNICATIONS_DEVICE_CLASS -#define USBTTY_DEVICE_SUBCLASS COMMUNICATIONS_NO_SUBCLASS -#define USBTTY_DEVICE_PROTOCOL COMMUNICATIONS_NO_PROTOCOL - -#define USBTTY_INTERFACE_CLASS 0xFF /* Vendor Specific */ -#define USBTTY_INTERFACE_SUBCLASS 0x02 -#define USBTTY_INTERFACE_PROTOCOL 0x01 -#define USBTTY_BCD_DEVICE 0x0 -#define USBTTY_MAXPOWER 0x0 +#define USBTTY_BCD_DEVICE 0x00 +#define USBTTY_MAXPOWER 0x00 -#define STR_MANUFACTURER 1 -#define STR_PRODUCT 2 -#define STR_SERIAL 3 -#define STR_CONFIG 4 -#define STR_INTERFACE 5 +#define STR_LANG 0x00 +#define STR_MANUFACTURER 0x01 +#define STR_PRODUCT 0x02 +#define STR_SERIAL 0x03 +#define STR_CONFIG 0x04 +#define STR_DATA_INTERFACE 0x05 +#define STR_CTRL_INTERFACE 0x06 +#define STR_COUNT 0x07 #endif |