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author | wdenk <wdenk> | 2002-11-03 00:38:21 +0000 |
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committer | wdenk <wdenk> | 2002-11-03 00:38:21 +0000 |
commit | fe8c2806cdba70479e351299881a395dc2be7785 (patch) | |
tree | a1e8b98a1838cba6e6f5c765d9d85339257c45f5 /cpu/ppc4xx | |
parent | f9087a3213cc245cf9b90436475b5af822bd7579 (diff) | |
download | u-boot-imx-fe8c2806cdba70479e351299881a395dc2be7785.zip u-boot-imx-fe8c2806cdba70479e351299881a395dc2be7785.tar.gz u-boot-imx-fe8c2806cdba70479e351299881a395dc2be7785.tar.bz2 |
Initial revision
Diffstat (limited to 'cpu/ppc4xx')
-rw-r--r-- | cpu/ppc4xx/kgdb.S | 78 | ||||
-rw-r--r-- | cpu/ppc4xx/resetvec.S | 10 | ||||
-rw-r--r-- | cpu/ppc4xx/serial.c | 808 | ||||
-rw-r--r-- | cpu/ppc4xx/spd_sdram.c | 1764 |
4 files changed, 2660 insertions, 0 deletions
diff --git a/cpu/ppc4xx/kgdb.S b/cpu/ppc4xx/kgdb.S new file mode 100644 index 0000000..78681cd --- /dev/null +++ b/cpu/ppc4xx/kgdb.S @@ -0,0 +1,78 @@ +/* + * Copyright (C) 2000 Murray Jensen <Murray.Jensen@cmst.csiro.au> + * + * 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 + */ + +#include <config.h> +#include <command.h> +#include <ppc4xx.h> +#include <version.h> + +#define CONFIG_405GP 1 /* needed for Linux kernel header files */ +#define _LINUX_CONFIG_H 1 /* avoid reading Linux autoconf.h file */ + +#include <ppc_asm.tmpl> +#include <ppc_defs.h> + +#include <asm/cache.h> +#include <asm/mmu.h> + +#if (CONFIG_COMMANDS & CFG_CMD_KGDB) + /* + * cache flushing routines for kgdb + */ + + .globl kgdb_flush_cache_all +kgdb_flush_cache_all: + /* icache */ + iccci r0,r0 /* iccci invalidates the entire I cache */ + /* dcache */ + addi r6,0,0x0000 /* clear GPR 6 */ + addi r7,r0, 128 /* do loop for # of dcache lines */ + /* NOTE: dccci invalidates both */ + mtctr r7 /* ways in the D cache */ +..dcloop: + dccci 0,r6 /* invalidate line */ + addi r6,r6, 32 /* bump to next line */ + bdnz ..dcloop + blr + + .globl kgdb_flush_cache_range +kgdb_flush_cache_range: + li r5,CFG_CACHELINE_SIZE-1 + andc r3,r3,r5 + subf r4,r3,r4 + add r4,r4,r5 + srwi. r4,r4,CFG_CACHELINE_SHIFT + beqlr + mtctr r4 + mr r6,r3 +1: dcbst 0,r3 + addi r3,r3,CFG_CACHELINE_SIZE + bdnz 1b + sync /* wait for dcbst's to get to ram */ + mtctr r4 +2: icbi 0,r6 + addi r6,r6,CFG_CACHELINE_SIZE + bdnz 2b + SYNC + blr + +#endif /* CFG_CMD_KGDB */ diff --git a/cpu/ppc4xx/resetvec.S b/cpu/ppc4xx/resetvec.S new file mode 100644 index 0000000..5350225 --- /dev/null +++ b/cpu/ppc4xx/resetvec.S @@ -0,0 +1,10 @@ +/* Copyright MontaVista Software Incorporated, 2000 */ + + + .section .resetvec,"ax" +#if defined(CONFIG_440) + b _start_440 +#else + b _start +#endif + diff --git a/cpu/ppc4xx/serial.c b/cpu/ppc4xx/serial.c new file mode 100644 index 0000000..d02ff2f --- /dev/null +++ b/cpu/ppc4xx/serial.c @@ -0,0 +1,808 @@ +/* + * (C) Copyright 2000 + * Wolfgang Denk, DENX Software Engineering, wd@denx.de. + * + * 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 + */ +/*------------------------------------------------------------------------------+ */ +/* + * This source code has been made available to you by IBM on an AS-IS + * basis. Anyone receiving this source is licensed under IBM + * copyrights to use it in any way he or she deems fit, including + * copying it, modifying it, compiling it, and redistributing it either + * with or without modifications. No license under IBM patents or + * patent applications is to be implied by the copyright license. + * + * Any user of this software should understand that IBM cannot provide + * technical support for this software and will not be responsible for + * any consequences resulting from the use of this software. + * + * Any person who transfers this source code or any derivative work + * must include the IBM copyright notice, this paragraph, and the + * preceding two paragraphs in the transferred software. + * + * COPYRIGHT I B M CORPORATION 1995 + * LICENSED MATERIAL - PROGRAM PROPERTY OF I B M + */ +/*------------------------------------------------------------------------------- */ + +#include <common.h> +#include <commproc.h> +#include <asm/processor.h> +#include <watchdog.h> +#include "vecnum.h" + +#if CONFIG_SERIAL_SOFTWARE_FIFO +#include <malloc.h> +#endif + +/*****************************************************************************/ +#ifdef CONFIG_IOP480 + +#define SPU_BASE 0x40000000 + +#define spu_LineStat_rc 0x00 /* Line Status Register (Read/Clear) */ +#define spu_LineStat_w 0x04 /* Line Status Register (Set) */ +#define spu_Handshk_rc 0x08 /* Handshake Status Register (Read/Clear) */ +#define spu_Handshk_w 0x0c /* Handshake Status Register (Set) */ +#define spu_BRateDivh 0x10 /* Baud rate divisor high */ +#define spu_BRateDivl 0x14 /* Baud rate divisor low */ +#define spu_CtlReg 0x18 /* Control Register */ +#define spu_RxCmd 0x1c /* Rx Command Register */ +#define spu_TxCmd 0x20 /* Tx Command Register */ +#define spu_RxBuff 0x24 /* Rx data buffer */ +#define spu_TxBuff 0x24 /* Tx data buffer */ + +/*-----------------------------------------------------------------------------+ + | Line Status Register. + +-----------------------------------------------------------------------------*/ +#define asyncLSRport1 0x40000000 +#define asyncLSRport1set 0x40000004 +#define asyncLSRDataReady 0x80 +#define asyncLSRFramingError 0x40 +#define asyncLSROverrunError 0x20 +#define asyncLSRParityError 0x10 +#define asyncLSRBreakInterrupt 0x08 +#define asyncLSRTxHoldEmpty 0x04 +#define asyncLSRTxShiftEmpty 0x02 + +/*-----------------------------------------------------------------------------+ + | Handshake Status Register. + +-----------------------------------------------------------------------------*/ +#define asyncHSRport1 0x40000008 +#define asyncHSRport1set 0x4000000c +#define asyncHSRDsr 0x80 +#define asyncLSRCts 0x40 + +/*-----------------------------------------------------------------------------+ + | Control Register. + +-----------------------------------------------------------------------------*/ +#define asyncCRport1 0x40000018 +#define asyncCRNormal 0x00 +#define asyncCRLoopback 0x40 +#define asyncCRAutoEcho 0x80 +#define asyncCRDtr 0x20 +#define asyncCRRts 0x10 +#define asyncCRWordLength7 0x00 +#define asyncCRWordLength8 0x08 +#define asyncCRParityDisable 0x00 +#define asyncCRParityEnable 0x04 +#define asyncCREvenParity 0x00 +#define asyncCROddParity 0x02 +#define asyncCRStopBitsOne 0x00 +#define asyncCRStopBitsTwo 0x01 +#define asyncCRDisableDtrRts 0x00 + +/*-----------------------------------------------------------------------------+ + | Receiver Command Register. + +-----------------------------------------------------------------------------*/ +#define asyncRCRport1 0x4000001c +#define asyncRCRDisable 0x00 +#define asyncRCREnable 0x80 +#define asyncRCRIntDisable 0x00 +#define asyncRCRIntEnabled 0x20 +#define asyncRCRDMACh2 0x40 +#define asyncRCRDMACh3 0x60 +#define asyncRCRErrorInt 0x10 +#define asyncRCRPauseEnable 0x08 + +/*-----------------------------------------------------------------------------+ + | Transmitter Command Register. + +-----------------------------------------------------------------------------*/ +#define asyncTCRport1 0x40000020 +#define asyncTCRDisable 0x00 +#define asyncTCREnable 0x80 +#define asyncTCRIntDisable 0x00 +#define asyncTCRIntEnabled 0x20 +#define asyncTCRDMACh2 0x40 +#define asyncTCRDMACh3 0x60 +#define asyncTCRTxEmpty 0x10 +#define asyncTCRErrorInt 0x08 +#define asyncTCRStopPause 0x04 +#define asyncTCRBreakGen 0x02 + +/*-----------------------------------------------------------------------------+ + | Miscellanies defines. + +-----------------------------------------------------------------------------*/ +#define asyncTxBufferport1 0x40000024 +#define asyncRxBufferport1 0x40000024 +#define asyncDLABLsbport1 0x40000014 +#define asyncDLABMsbport1 0x40000010 +#define asyncXOFFchar 0x13 +#define asyncXONchar 0x11 + + +/* + * Minimal serial functions needed to use one of the SMC ports + * as serial console interface. + */ + +int serial_init (void) +{ + DECLARE_GLOBAL_DATA_PTR; + + volatile char val; + unsigned short br_reg; + + br_reg = ((((CONFIG_CPUCLOCK * 1000000) / 16) / gd->baudrate) - 1); + + /* + * Init onboard UART + */ + out8 (SPU_BASE + spu_LineStat_rc, 0x78); /* Clear all bits in Line Status Reg */ + out8 (SPU_BASE + spu_BRateDivl, (br_reg & 0x00ff)); /* Set baud rate divisor... */ + out8 (SPU_BASE + spu_BRateDivh, ((br_reg & 0xff00) >> 8)); /* ... */ + out8 (SPU_BASE + spu_CtlReg, 0x08); /* Set 8 bits, no parity and 1 stop bit */ + out8 (SPU_BASE + spu_RxCmd, 0xb0); /* Enable Rx */ + out8 (SPU_BASE + spu_TxCmd, 0x9c); /* Enable Tx */ + out8 (SPU_BASE + spu_Handshk_rc, 0xff); /* Clear Handshake */ + val = in8 (SPU_BASE + spu_RxBuff); /* Dummy read, to clear receiver */ + + return (0); +} + + +void serial_setbrg (void) +{ + DECLARE_GLOBAL_DATA_PTR; + + unsigned short br_reg; + + br_reg = ((((CONFIG_CPUCLOCK * 1000000) / 16) / gd->baudrate) - 1); + + out8 (SPU_BASE + spu_BRateDivl, (br_reg & 0x00ff)); /* Set baud rate divisor... */ + out8 (SPU_BASE + spu_BRateDivh, ((br_reg & 0xff00) >> 8)); /* ... */ +} + + +void serial_putc (const char c) +{ + if (c == '\n') + serial_putc ('\r'); + + /* load status from handshake register */ + if (in8 (SPU_BASE + spu_Handshk_rc) != 00) + out8 (SPU_BASE + spu_Handshk_rc, 0xff); /* Clear Handshake */ + + out8 (SPU_BASE + spu_TxBuff, c); /* Put char */ + + while ((in8 (SPU_BASE + spu_LineStat_rc) & 04) != 04) { + if (in8 (SPU_BASE + spu_Handshk_rc) != 00) + out8 (SPU_BASE + spu_Handshk_rc, 0xff); /* Clear Handshake */ + } +} + + +void serial_puts (const char *s) +{ + while (*s) { + serial_putc (*s++); + } +} + + +int serial_getc () +{ + unsigned char status = 0; + + while (1) { + status = in8 (asyncLSRport1); + if ((status & asyncLSRDataReady) != 0x0) { + break; + } + if ((status & ( asyncLSRFramingError | + asyncLSROverrunError | + asyncLSRParityError | + asyncLSRBreakInterrupt )) != 0) { + (void) out8 (asyncLSRport1, + asyncLSRFramingError | + asyncLSROverrunError | + asyncLSRParityError | + asyncLSRBreakInterrupt ); + } + } + return (0x000000ff & (int) in8 (asyncRxBufferport1)); +} + + +int serial_tstc () +{ + unsigned char status; + + status = in8 (asyncLSRport1); + if ((status & asyncLSRDataReady) != 0x0) { + return (1); + } + if ((status & ( asyncLSRFramingError | + asyncLSROverrunError | + asyncLSRParityError | + asyncLSRBreakInterrupt )) != 0) { + (void) out8 (asyncLSRport1, + asyncLSRFramingError | + asyncLSROverrunError | + asyncLSRParityError | + asyncLSRBreakInterrupt); + } + return 0; +} + +#endif /* CONFIG_IOP480 */ + + +/*****************************************************************************/ +#if defined(CONFIG_405GP) || defined(CONFIG_405CR) || defined(CONFIG_440) + +#if defined(CONFIG_440) +#define UART0_BASE CFG_PERIPHERAL_BASE + 0x00000200 +#define UART1_BASE CFG_PERIPHERAL_BASE + 0x00000300 +#define CR0_MASK 0x3fff0000 +#define CR0_EXTCLK_ENA 0x00600000 +#define CR0_UDIV_POS 16 +#else +#define UART_BASE_PTR 0xF800FFFC; /* pointer to uart base */ +#define UART0_BASE 0xef600300 +#define UART1_BASE 0xef600400 +#define CR0_MASK 0x00001fff +#define CR0_EXTCLK_ENA 0x00000c00 +#define CR0_UDIV_POS 1 +#endif + +#define UART_RBR 0x00 +#define UART_THR 0x00 +#define UART_IER 0x01 +#define UART_IIR 0x02 +#define UART_FCR 0x02 +#define UART_LCR 0x03 +#define UART_MCR 0x04 +#define UART_LSR 0x05 +#define UART_MSR 0x06 +#define UART_SCR 0x07 +#define UART_DLL 0x00 +#define UART_DLM 0x01 + +/*-----------------------------------------------------------------------------+ + | Line Status Register. + +-----------------------------------------------------------------------------*/ +/*#define asyncLSRport1 UART0_BASE+0x05 */ +#define asyncLSRDataReady1 0x01 +#define asyncLSROverrunError1 0x02 +#define asyncLSRParityError1 0x04 +#define asyncLSRFramingError1 0x08 +#define asyncLSRBreakInterrupt1 0x10 +#define asyncLSRTxHoldEmpty1 0x20 +#define asyncLSRTxShiftEmpty1 0x40 +#define asyncLSRRxFifoError1 0x80 + +/*-----------------------------------------------------------------------------+ + | Miscellanies defines. + +-----------------------------------------------------------------------------*/ +/*#define asyncTxBufferport1 UART0_BASE+0x00 */ +/*#define asyncRxBufferport1 UART0_BASE+0x00 */ + + +#if CONFIG_SERIAL_SOFTWARE_FIFO +/*-----------------------------------------------------------------------------+ + | Fifo + +-----------------------------------------------------------------------------*/ +typedef struct { + char *rx_buffer; + ulong rx_put; + ulong rx_get; +} serial_buffer_t; + +volatile static serial_buffer_t buf_info; +#endif + + +#if defined(CONFIG_440) && !defined(CFG_EXT_SERIAL_CLOCK) +static void serial_divs (int baudrate, unsigned long *pudiv, + unsigned short *pbdiv ) +{ + sys_info_t sysinfo; + unsigned long div; /* total divisor udiv * bdiv */ + unsigned long umin; /* minimum udiv */ + unsigned short diff; /* smallest diff */ + unsigned long udiv; /* best udiv */ + + unsigned short idiff; /* current diff */ + unsigned short ibdiv; /* current bdiv */ + unsigned long i; + unsigned long est; /* current estimate */ + + get_sys_info( &sysinfo ); + + udiv = 32; /* Assume lowest possible serial clk */ + div = sysinfo.freqPLB/(16*baudrate); /* total divisor */ + umin = sysinfo.pllOpbDiv<<1; /* 2 x OPB divisor */ + diff = 32; /* highest possible */ + + /* i is the test udiv value -- start with the largest + * possible (32) to minimize serial clock and constrain + * search to umin. + */ + for( i = 32; i > umin; i-- ){ + ibdiv = div/i; + est = i * ibdiv; + idiff = (est > div) ? (est-div) : (div-est); + if( idiff == 0 ){ + udiv = i; + break; /* can't do better */ + } + else if( idiff < diff ){ + udiv = i; /* best so far */ + diff = idiff; /* update lowest diff*/ + } + } + + *pudiv = udiv; + *pbdiv = div/udiv; + +} +#endif /* defined(CONFIG_440) && !defined(CFG_EXT_SERIAL_CLK */ + + +/* + * Minimal serial functions needed to use one of the SMC ports + * as serial console interface. + */ + +#if defined(CONFIG_440) +int serial_init (void) +{ + DECLARE_GLOBAL_DATA_PTR; + + unsigned long reg; + unsigned long udiv; + unsigned short bdiv; + volatile char val; +#ifdef CFG_EXT_SERIAL_CLOCK + unsigned long tmp; +#endif + + reg = mfdcr(cntrl0) & ~CR0_MASK; +#ifdef CFG_EXT_SERIAL_CLOCK + reg |= CR0_EXTCLK_ENA; + udiv = 1; + tmp = gd->baudrate * 16; + bdiv = (CFG_EXT_SERIAL_CLOCK + tmp / 2) / tmp; +#else + /* For 440, the cpu clock is on divider chain A, UART on divider + * chain B ... so cpu clock is irrelevant. Get the "optimized" + * values that are subject to the 1/2 opb clock constraint + */ + serial_divs (gd->baudrate, &udiv, &bdiv); +#endif + + reg |= (udiv - 1) << CR0_UDIV_POS; /* set the UART divisor */ + mtdcr (cntrl0, reg); + + out8 (UART0_BASE + UART_LCR, 0x80); /* set DLAB bit */ + out8 (UART0_BASE + UART_DLL, bdiv); /* set baudrate divisor */ + out8 (UART0_BASE + UART_DLM, bdiv >> 8);/* set baudrate divisor */ + out8 (UART0_BASE + UART_LCR, 0x03); /* clear DLAB; set 8 bits, no parity */ + out8 (UART0_BASE + UART_FCR, 0x00); /* disable FIFO */ + out8 (UART0_BASE + UART_MCR, 0x00); /* no modem control DTR RTS */ + val = in8 (UART0_BASE + UART_LSR); /* clear line status */ + val = in8 (UART0_BASE + UART_RBR); /* read receive buffer */ + out8 (UART0_BASE + UART_SCR, 0x00); /* set scratchpad */ + out8 (UART0_BASE + UART_IER, 0x00); /* set interrupt enable reg */ + + return (0); +} + +#else /* !defined(CONFIG_440) */ + +int serial_init (void) +{ + DECLARE_GLOBAL_DATA_PTR; + + unsigned long reg; + unsigned long tmp; + unsigned long clk; + unsigned long udiv; + unsigned short bdiv; + volatile char val; + + reg = mfdcr(cntrl0) & ~CR0_MASK; +#ifdef CFG_EXT_SERIAL_CLOCK + clk = CFG_EXT_SERIAL_CLOCK; + udiv = 1; + reg |= CR0_EXTCLK_ENA; +#else + clk = gd->cpu_clk; +#ifdef CFG_405_UART_ERRATA_59 + udiv = 31; /* Errata 59: stuck at 31 */ +#else + tmp = CFG_BASE_BAUD * 16; + udiv = (clk + tmp / 2) / tmp; +#endif +#endif + + reg |= (udiv - 1) << CR0_UDIV_POS; /* set the UART divisor */ + mtdcr (cntrl0, reg); + + tmp = gd->baudrate * udiv * 16; + bdiv = (clk + tmp / 2) / tmp; + + out8 (UART0_BASE + UART_LCR, 0x80); /* set DLAB bit */ + out8 (UART0_BASE + UART_DLL, bdiv); /* set baudrate divisor */ + out8 (UART0_BASE + UART_DLM, bdiv >> 8);/* set baudrate divisor */ + out8 (UART0_BASE + UART_LCR, 0x03); /* clear DLAB; set 8 bits, no parity */ + out8 (UART0_BASE + UART_FCR, 0x00); /* disable FIFO */ + out8 (UART0_BASE + UART_MCR, 0x00); /* no modem control DTR RTS */ + val = in8 (UART0_BASE + UART_LSR); /* clear line status */ + val = in8 (UART0_BASE + UART_RBR); /* read receive buffer */ + out8 (UART0_BASE + UART_SCR, 0x00); /* set scratchpad */ + out8 (UART0_BASE + UART_IER, 0x00); /* set interrupt enable reg */ + + return (0); +} + +#endif /* if defined(CONFIG_440) */ + +void serial_setbrg (void) +{ + DECLARE_GLOBAL_DATA_PTR; + + unsigned long tmp; + unsigned long clk; + unsigned long udiv; + unsigned short bdiv; + +#ifdef CFG_EXT_SERIAL_CLOCK + clk = CFG_EXT_SERIAL_CLOCK; +#else + clk = gd->cpu_clk; +#endif + udiv = ((mfdcr (cntrl0) & 0x3e) >> 1) + 1; + tmp = gd->baudrate * udiv * 16; + bdiv = (clk + tmp / 2) / tmp; + + out8 (UART0_BASE + UART_LCR, 0x80); /* set DLAB bit */ + out8 (UART0_BASE + UART_DLL, bdiv); /* set baudrate divisor */ + out8 (UART0_BASE + UART_DLM, bdiv >> 8);/* set baudrate divisor */ + out8 (UART0_BASE + UART_LCR, 0x03); /* clear DLAB; set 8 bits, no parity */ +} + + +void serial_putc (const char c) +{ + int i; + + if (c == '\n') + serial_putc ('\r'); + + /* check THRE bit, wait for transmiter available */ + for (i = 1; i < 3500; i++) { + if ((in8 (UART0_BASE + UART_LSR) & 0x20) == 0x20) + break; + udelay (100); + } + out8 (UART0_BASE + UART_THR, c); /* put character out */ +} + + +void serial_puts (const char *s) +{ + while (*s) { + serial_putc (*s++); + } +} + + +int serial_getc () +{ + unsigned char status = 0; + + while (1) { +#if defined(CONFIG_HW_WATCHDOG) + WATCHDOG_RESET (); /* Reset HW Watchdog, if needed */ +#endif /* CONFIG_HW_WATCHDOG */ + status = in8 (UART0_BASE + UART_LSR); + if ((status & asyncLSRDataReady1) != 0x0) { + break; + } + if ((status & ( asyncLSRFramingError1 | + asyncLSROverrunError1 | + asyncLSRParityError1 | + asyncLSRBreakInterrupt1 )) != 0) { + out8 (UART0_BASE + UART_LSR, + asyncLSRFramingError1 | + asyncLSROverrunError1 | + asyncLSRParityError1 | + asyncLSRBreakInterrupt1); + } + } + return (0x000000ff & (int) in8 (UART0_BASE)); +} + + +int serial_tstc () +{ + unsigned char status; + + status = in8 (UART0_BASE + UART_LSR); + if ((status & asyncLSRDataReady1) != 0x0) { + return (1); + } + if ((status & ( asyncLSRFramingError1 | + asyncLSROverrunError1 | + asyncLSRParityError1 | + asyncLSRBreakInterrupt1 )) != 0) { + out8 (UART0_BASE + UART_LSR, + asyncLSRFramingError1 | + asyncLSROverrunError1 | + asyncLSRParityError1 | + asyncLSRBreakInterrupt1); + } + return 0; +} + + +#if CONFIG_SERIAL_SOFTWARE_FIFO + +void serial_isr (void *arg) +{ + int space; + int c; + const int rx_get = buf_info.rx_get; + int rx_put = buf_info.rx_put; + + if (rx_get <= rx_put) { + space = CONFIG_SERIAL_SOFTWARE_FIFO - (rx_put - rx_get); + } else { + space = rx_get - rx_put; + } + while (serial_tstc ()) { + c = serial_getc (); + if (space) { + buf_info.rx_buffer[rx_put++] = c; + space--; + } + if (rx_put == CONFIG_SERIAL_SOFTWARE_FIFO) + rx_put = 0; + if (space < CONFIG_SERIAL_SOFTWARE_FIFO / 4) { + /* Stop flow by setting RTS inactive */ + out8 (UART0_BASE + UART_MCR, + in8 (UART0_BASE + UART_MCR) & (0xFF ^ 0x02)); + } + } + buf_info.rx_put = rx_put; +} + +void serial_buffered_init (void) +{ + serial_puts ("Switching to interrupt driven serial input mode.\n"); + buf_info.rx_buffer = malloc (CONFIG_SERIAL_SOFTWARE_FIFO); + buf_info.rx_put = 0; + buf_info.rx_get = 0; + + if (in8 (UART0_BASE + UART_MSR) & 0x10) { + serial_puts ("Check CTS signal present on serial port: OK.\n"); + } else { + serial_puts ("WARNING: CTS signal not present on serial port.\n"); + } + + irq_install_handler ( VECNUM_U0 /*UART0 */ /*int vec */ , + serial_isr /*interrupt_handler_t *handler */ , + (void *) &buf_info /*void *arg */ ); + + /* Enable "RX Data Available" Interrupt on UART */ + /* out8(UART0_BASE + UART_IER, in8(UART0_BASE + UART_IER) |0x01); */ + out8 (UART0_BASE + UART_IER, 0x01); + /* Set DTR active */ + out8 (UART0_BASE + UART_MCR, in8 (UART0_BASE + UART_MCR) | 0x01); + /* Start flow by setting RTS active */ + out8 (UART0_BASE + UART_MCR, in8 (UART0_BASE + UART_MCR) | 0x02); + /* Setup UART FIFO: RX trigger level: 4 byte, Enable FIFO */ + out8 (UART0_BASE + UART_FCR, (1 << 6) | 1); +} + +void serial_buffered_putc (const char c) +{ + /* Wait for CTS */ +#if defined(CONFIG_HW_WATCHDOG) + while (!(in8 (UART0_BASE + UART_MSR) & 0x10)) + WATCHDOG_RESET (); +#else + while (!(in8 (UART0_BASE + UART_MSR) & 0x10)); +#endif + serial_putc (c); +} + +void serial_buffered_puts (const char *s) +{ + serial_puts (s); +} + +int serial_buffered_getc (void) +{ + int space; + int c; + int rx_get = buf_info.rx_get; + int rx_put; + +#if defined(CONFIG_HW_WATCHDOG) + while (rx_get == buf_info.rx_put) + WATCHDOG_RESET (); +#else + while (rx_get == buf_info.rx_put); +#endif + c = buf_info.rx_buffer[rx_get++]; + if (rx_get == CONFIG_SERIAL_SOFTWARE_FIFO) + rx_get = 0; + buf_info.rx_get = rx_get; + + rx_put = buf_info.rx_put; + if (rx_get <= rx_put) { + space = CONFIG_SERIAL_SOFTWARE_FIFO - (rx_put - rx_get); + } else { + space = rx_get - rx_put; + } + if (space > CONFIG_SERIAL_SOFTWARE_FIFO / 2) { + /* Start flow by setting RTS active */ + out8 (UART0_BASE + UART_MCR, in8 (UART0_BASE + UART_MCR) | 0x02); + } + + return c; +} + +int serial_buffered_tstc (void) +{ + return (buf_info.rx_get != buf_info.rx_put) ? 1 : 0; +} + +#endif /* CONFIG_SERIAL_SOFTWARE_FIFO */ + + +#if (CONFIG_COMMANDS & CFG_CMD_KGDB) +/* + AS HARNOIS : according to CONFIG_KGDB_SER_INDEX kgdb uses serial port + number 0 or number 1 + - if CONFIG_KGDB_SER_INDEX = 1 => serial port number 0 : + configuration has been already done + - if CONFIG_KGDB_SER_INDEX = 2 => serial port number 1 : + configure port 1 for serial I/O with rate = CONFIG_KGDB_BAUDRATE +*/ +#if (CONFIG_KGDB_SER_INDEX & 2) +void kgdb_serial_init (void) +{ + DECLARE_GLOBAL_DATA_PTR; + + volatile char val; + unsigned short br_reg; + + get_clocks (); + br_reg = (((((gd->cpu_clk / 16) / 18) * 10) / CONFIG_KGDB_BAUDRATE) + + 5) / 10; + /* + * Init onboard 16550 UART + */ + out8 (UART1_BASE + UART_LCR, 0x80); /* set DLAB bit */ + out8 (UART1_BASE + UART_DLL, (br_reg & 0x00ff)); /* set divisor for 9600 baud */ + out8 (UART1_BASE + UART_DLM, ((br_reg & 0xff00) >> 8)); /* set divisor for 9600 baud */ + out8 (UART1_BASE + UART_LCR, 0x03); /* line control 8 bits no parity */ + out8 (UART1_BASE + UART_FCR, 0x00); /* disable FIFO */ + out8 (UART1_BASE + UART_MCR, 0x00); /* no modem control DTR RTS */ + val = in8 (UART1_BASE + UART_LSR); /* clear line status */ + val = in8 (UART1_BASE + UART_RBR); /* read receive buffer */ + out8 (UART1_BASE + UART_SCR, 0x00); /* set scratchpad */ + out8 (UART1_BASE + UART_IER, 0x00); /* set interrupt enable reg */ +} + + +void putDebugChar (const char c) +{ + if (c == '\n') + serial_putc ('\r'); + + out8 (UART1_BASE + UART_THR, c); /* put character out */ + + /* check THRE bit, wait for transfer done */ + while ((in8 (UART1_BASE + UART_LSR) & 0x20) != 0x20); +} + + +void putDebugStr (const char *s) +{ + while (*s) { + serial_putc (*s++); + } +} + + +int getDebugChar (void) +{ + unsigned char status = 0; + + while (1) { + status = in8 (UART1_BASE + UART_LSR); + if ((status & asyncLSRDataReady1) != 0x0) { + break; + } + if ((status & ( asyncLSRFramingError1 | + asyncLSROverrunError1 | + asyncLSRParityError1 | + asyncLSRBreakInterrupt1 )) != 0) { + out8 (UART1_BASE + UART_LSR, + asyncLSRFramingError1 | + asyncLSROverrunError1 | + asyncLSRParityError1 | + asyncLSRBreakInterrupt1); + } + } + return (0x000000ff & (int) in8 (UART1_BASE)); +} + + +void kgdb_interruptible (int yes) +{ + return; +} + +#else /* ! (CONFIG_KGDB_SER_INDEX & 2) */ + +void kgdb_serial_init (void) +{ + serial_printf ("[on serial] "); +} + +void putDebugChar (int c) +{ + serial_putc (c); +} + +void putDebugStr (const char *str) +{ + serial_puts (str); +} + +int getDebugChar (void) +{ + return serial_getc (); +} + +void kgdb_interruptible (int yes) +{ + return; +} +#endif /* (CONFIG_KGDB_SER_INDEX & 2) */ +#endif /* CFG_CMD_KGDB */ + +#endif /* CONFIG_405GP || CONFIG_405CR */ diff --git a/cpu/ppc4xx/spd_sdram.c b/cpu/ppc4xx/spd_sdram.c new file mode 100644 index 0000000..fc0c980 --- /dev/null +++ b/cpu/ppc4xx/spd_sdram.c @@ -0,0 +1,1764 @@ +/* + * (C) Copyright 2001 + * Bill Hunter, Wave 7 Optics, williamhunter@attbi.com + * + * Based on code by: + * + * Kenneth Johansson ,Ericsson Business Innovation. + * kenneth.johansson@inn.ericsson.se + * + * hacked up by bill hunter. fixed so we could run before + * serial_init and console_init. previous version avoided this by + * running out of cache memory during serial/console init, then running + * this code later. + * + * (C) Copyright 2002 + * Jun Gu, Artesyn Technology, jung@artesyncp.com + * Support for IBM 440 based on OpenBIOS draminit.c from IBM. + * + * 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 + */ + +#include <common.h> +#include <asm/processor.h> +#include <i2c.h> +#include <ppc4xx.h> + +#ifdef CONFIG_SPD_EEPROM + +/* + * Set default values + */ +#ifndef CFG_I2C_SPEED +#define CFG_I2C_SPEED 50000 +#endif + +#ifndef CFG_I2C_SLAVE +#define CFG_I2C_SLAVE 0xFE +#endif + +#ifndef CONFIG_440 /* for 405 WALNUT board */ + +#define SDRAM0_CFG_DCE 0x80000000 +#define SDRAM0_CFG_SRE 0x40000000 +#define SDRAM0_CFG_PME 0x20000000 +#define SDRAM0_CFG_MEMCHK 0x10000000 +#define SDRAM0_CFG_REGEN 0x08000000 +#define SDRAM0_CFG_ECCDD 0x00400000 +#define SDRAM0_CFG_EMDULR 0x00200000 +#define SDRAM0_CFG_DRW_SHIFT (31-6) +#define SDRAM0_CFG_BRPF_SHIFT (31-8) + +#define SDRAM0_TR_CASL_SHIFT (31-8) +#define SDRAM0_TR_PTA_SHIFT (31-13) +#define SDRAM0_TR_CTP_SHIFT (31-15) +#define SDRAM0_TR_LDF_SHIFT (31-17) +#define SDRAM0_TR_RFTA_SHIFT (31-29) +#define SDRAM0_TR_RCD_SHIFT (31-31) + +#define SDRAM0_RTR_SHIFT (31-15) +#define SDRAM0_ECCCFG_SHIFT (31-11) + +/* SDRAM0_CFG enable macro */ +#define SDRAM0_CFG_BRPF(x) ( ( x & 0x3)<< SDRAM0_CFG_BRPF_SHIFT ) + +#define SDRAM0_BXCR_SZ_MASK 0x000e0000 +#define SDRAM0_BXCR_AM_MASK 0x0000e000 + +#define SDRAM0_BXCR_SZ_SHIFT (31-14) +#define SDRAM0_BXCR_AM_SHIFT (31-18) + +#define SDRAM0_BXCR_SZ(x) ( (( x << SDRAM0_BXCR_SZ_SHIFT) & SDRAM0_BXCR_SZ_MASK) ) +#define SDRAM0_BXCR_AM(x) ( (( x << SDRAM0_BXCR_AM_SHIFT) & SDRAM0_BXCR_AM_MASK) ) + +#ifdef CONFIG_W7O +# define SPD_ERR(x) do { return 0; } while (0) +#else +# define SPD_ERR(x) do { printf(x); hang(); } while (0) +#endif + +/* + * what we really want is + * (1/hertz) but we don't want to use floats so multiply with 10E9 + * + * The error needs to be on the safe side so we want the floor function. + * This means we get an exact value or we calculate that our bus frequency is + * a bit faster than it really is and thus we don't progam the sdram controller + * to run to fast + */ +#define sdram_HZ_to_ns(hertz) (1000000000/(hertz)) + +/* function prototypes */ +int spd_read(uint addr); /* prototype */ + + +/* + * This function is reading data from the DIMM module EEPROM over the SPD bus + * and uses that to program the sdram controller. + * + * This works on boards that has the same schematics that the IBM walnut has. + * + * BUG: Don't handle ECC memory + * BUG: A few values in the TR register is currently hardcoded + */ + +long int spd_sdram(void) +{ + int bus_period,tmp,row,col; + int total_size,bank_size,bank_code; + int ecc_on; + int mode = 4; + int bank_cnt = 1; + + int sdram0_pmit=0x07c00000; + int sdram0_besr0=-1; + int sdram0_besr1=-1; + int sdram0_eccesr=-1; + int sdram0_ecccfg; + + int sdram0_rtr=0; + int sdram0_tr=0; + + int sdram0_b0cr; + int sdram0_b1cr; + int sdram0_b2cr; + int sdram0_b3cr; + + int sdram0_cfg=0; + + int t_rp; + int t_rcd; + int t_rc = 70; /* This value not available in SPD_EEPROM */ + int min_cas = 2; + + /* + * Make sure I2C controller is initialized + * before continuing. + */ + i2c_init(CFG_I2C_SPEED, CFG_I2C_SLAVE); + + /* + * Calculate the bus period, we do it this + * way to minimize stack utilization. + */ + tmp = (mfdcr(pllmd) >> (31-6)) & 0xf; /* get FBDV bits */ + tmp = CONFIG_SYS_CLK_FREQ * tmp; /* get plb freq */ + bus_period = sdram_HZ_to_ns(tmp); /* get sdram speed */ + + /* Make shure we are using SDRAM */ + if (spd_read(2) != 0x04){ + SPD_ERR("SDRAM - non SDRAM memory module found\n"); + } + +/*------------------------------------------------------------------ + configure memory timing register + + data from DIMM: + 27 IN Row Precharge Time ( t RP) + 29 MIN RAS to CAS Delay ( t RCD) + 127 Component and Clock Detail ,clk0-clk3, junction temp, CAS + -------------------------------------------------------------------*/ + + /* + * first figure out which cas latency mode to use + * use the min supported mode + */ + + tmp = spd_read(127) & 0x6; + if(tmp == 0x02){ /* only cas = 2 supported */ + min_cas = 2; +/* t_ck = spd_read(9); */ +/* t_ac = spd_read(10); */ + } + else if (tmp == 0x04){ /* only cas = 3 supported */ + min_cas = 3; +/* t_ck = spd_read(9); */ +/* t_ac = spd_read(10); */ + } + else if (tmp == 0x06){ /* 2,3 supported, so use 2 */ + min_cas = 2; +/* t_ck = spd_read(23); */ +/* t_ac = spd_read(24); */ + } + else { + SPD_ERR("SDRAM - unsupported CAS latency \n"); + } + + /* get some timing values, t_rp,t_rcd + */ + t_rp = spd_read(27); + t_rcd = spd_read(29); + + + /* The following timing calcs subtract 1 before deviding. + * this has effect of using ceiling intead of floor rounding, + * and also subtracting 1 to convert number to reg value + */ + /* set up CASL */ + sdram0_tr = (min_cas - 1) << SDRAM0_TR_CASL_SHIFT; + /* set up PTA */ + sdram0_tr |= (((t_rp - 1)/bus_period) & 0x3) << SDRAM0_TR_PTA_SHIFT; + /* set up CTP */ + tmp = ((t_rc - t_rcd - t_rp -1) / bus_period) & 0x3; + if(tmp<1) SPD_ERR("SDRAM - unsupported prech to act time (Trp)\n"); + sdram0_tr |= tmp << SDRAM0_TR_CTP_SHIFT; + /* set LDF = 2 cycles, reg value = 1 */ + sdram0_tr |= 1 << SDRAM0_TR_LDF_SHIFT; + /* set RFTA = t_rfc/bus_period, use t_rfc = t_rc */ + tmp = ((t_rc - 1) / bus_period)-4; + if(tmp<0)tmp=0; + if(tmp>6)tmp=6; + sdram0_tr |= tmp << SDRAM0_TR_RFTA_SHIFT; + /* set RCD = t_rcd/bus_period*/ + sdram0_tr |= (((t_rcd - 1) / bus_period) &0x3) << SDRAM0_TR_RCD_SHIFT ; + + +/*------------------------------------------------------------------ + configure RTR register + -------------------------------------------------------------------*/ + row = spd_read(3); + col = spd_read(4); + tmp = spd_read(12) & 0x7f ; /* refresh type less self refresh bit */ + switch(tmp){ + case 0x00: + tmp=15625; + break; + case 0x01: + tmp=15625/4; + break; + case 0x02: + tmp=15625/2; + break; + case 0x03: + tmp=15625*2; + break; + case 0x04: + tmp=15625*4; + break; + case 0x05: + tmp=15625*8; + break; + default: + SPD_ERR("SDRAM - Bad refresh period \n"); + } + /* convert from nsec to bus cycles */ + tmp = tmp/bus_period; + sdram0_rtr = (tmp & 0x3ff8)<< SDRAM0_RTR_SHIFT; + +/*------------------------------------------------------------------ + determine the number of banks used + -------------------------------------------------------------------*/ + /* byte 7:6 is module data width */ + if(spd_read(7) != 0) + SPD_ERR("SDRAM - unsupported module width\n"); + tmp = spd_read(6); + if (tmp < 32) + SPD_ERR("SDRAM - unsupported module width\n"); + else if (tmp < 64) + bank_cnt=1; /* one bank per sdram side */ + else if (tmp < 73) + bank_cnt=2; /* need two banks per side */ + else if (tmp < 161) + bank_cnt=4; /* need four banks per side */ + else + SPD_ERR("SDRAM - unsupported module width\n"); + + /* byte 5 is the module row count (refered to as dimm "sides") */ + tmp = spd_read(5); + if(tmp==1); + else if(tmp==2) bank_cnt *=2; + else if(tmp==4) bank_cnt *=4; + else bank_cnt = 8; /* 8 is an error code */ + + if(bank_cnt > 4) /* we only have 4 banks to work with */ + SPD_ERR("SDRAM - unsupported module rows for this width\n"); + + /* now check for ECC ability of module. We only support ECC + * on 32 bit wide devices with 8 bit ECC. + */ + if ( (spd_read(11)==2) && ((spd_read(6)==40) || (spd_read(14)==8)) ){ + sdram0_ecccfg=0xf<<SDRAM0_ECCCFG_SHIFT; + ecc_on = 1; + } + else{ + sdram0_ecccfg=0; + ecc_on = 0; + } + +/*------------------------------------------------------------------ + calculate total size + -------------------------------------------------------------------*/ + /* calculate total size and do sanity check */ + tmp = spd_read(31); + total_size=1<<22; /* total_size = 4MB */ + /* now multiply 4M by the smallest device roe density */ + /* note that we don't support asymetric rows */ + while (((tmp & 0x0001) == 0) && (tmp != 0)){ + total_size= total_size<<1; + tmp = tmp>>1; + } + total_size *= spd_read(5); /* mult by module rows (dimm sides) */ + +/*------------------------------------------------------------------ + map rows * cols * banks to a mode + -------------------------------------------------------------------*/ + + switch( row ) + { + case 11: + switch ( col ) + { + case 8: + mode=4; /* mode 5 */ + break; + case 9: + case 10: + mode=0; /* mode 1 */ + break; + default: + SPD_ERR("SDRAM - unsupported mode\n"); + } + break; + case 12: + switch ( col ) + { + case 8: + mode=3; /* mode 4 */ + break; + case 9: + case 10: + mode=1; /* mode 2 */ + break; + default: + SPD_ERR("SDRAM - unsupported mode\n"); + } + break; + case 13: + switch ( col ) + { + case 8: + mode=5; /* mode 6 */ + break; + case 9: + case 10: + if (spd_read(17) ==2 ) + mode=6; /* mode 7 */ + else + mode=2; /* mode 3 */ + break; + case 11: + mode=2; /* mode 3 */ + break; + default: + SPD_ERR("SDRAM - unsupported mode\n"); + } + break; + default: + SPD_ERR("SDRAM - unsupported mode\n"); + } + +/*------------------------------------------------------------------ + using the calculated values, compute the bank + config register values. + -------------------------------------------------------------------*/ + sdram0_b1cr = 0; + sdram0_b2cr = 0; + sdram0_b3cr = 0; + + /* compute the size of each bank */ + bank_size = total_size / bank_cnt; + /* convert bank size to bank size code for ppc4xx + by takeing log2(bank_size) - 22 */ + tmp=bank_size; /* start with tmp = bank_size */ + bank_code=0; /* and bank_code = 0 */ + while (tmp>1){ /* this takes log2 of tmp */ + bank_code++; /* and stores result in bank_code */ + tmp=tmp>>1; + } /* bank_code is now log2(bank_size) */ + bank_code-=22; /* subtract 22 to get the code */ + + tmp = SDRAM0_BXCR_SZ(bank_code) | SDRAM0_BXCR_AM(mode) | 1; + sdram0_b0cr = (bank_size) * 0 | tmp; + if(bank_cnt>1) sdram0_b2cr = (bank_size) * 1 | tmp; + if(bank_cnt>2) sdram0_b1cr = (bank_size) * 2 | tmp; + if(bank_cnt>3) sdram0_b3cr = (bank_size) * 3 | tmp; + + + /* + * enable sdram controller DCE=1 + * enable burst read prefetch to 32 bytes BRPF=2 + * leave other functions off + */ + +/*------------------------------------------------------------------ + now that we've done our calculations, we are ready to + program all the registers. + -------------------------------------------------------------------*/ + + +#define mtsdram0(reg, data) mtdcr(memcfga,reg);mtdcr(memcfgd,data) + /* disable memcontroller so updates work */ + sdram0_cfg = 0; + mtsdram0( mem_mcopt1, sdram0_cfg ); + + mtsdram0( mem_besra , sdram0_besr0 ); + mtsdram0( mem_besrb , sdram0_besr1 ); + mtsdram0( mem_rtr , sdram0_rtr ); + mtsdram0( mem_pmit , sdram0_pmit ); + mtsdram0( mem_mb0cf , sdram0_b0cr ); + mtsdram0( mem_mb1cf , sdram0_b1cr ); + mtsdram0( mem_mb2cf , sdram0_b2cr ); + mtsdram0( mem_mb3cf , sdram0_b3cr ); + mtsdram0( mem_sdtr1 , sdram0_tr ); + mtsdram0( mem_ecccf , sdram0_ecccfg ); + mtsdram0( mem_eccerr, sdram0_eccesr ); + + /* SDRAM have a power on delay, 500 micro should do */ + udelay(500); + sdram0_cfg = SDRAM0_CFG_DCE | SDRAM0_CFG_BRPF(1) | SDRAM0_CFG_ECCDD | SDRAM0_CFG_EMDULR; + if(ecc_on) sdram0_cfg |= SDRAM0_CFG_MEMCHK; + mtsdram0( mem_mcopt1, sdram0_cfg ); + + + /* kernel 2.4.2 from mvista has a bug with memory over 128MB */ +#ifdef MVISTA_MEM_BUG + if (total_size > 128*1024*1024 ) + total_size=128*1024*1024; +#endif + return (total_size); +} + +int spd_read(uint addr) +{ + char data[2]; + + if (i2c_read(SPD_EEPROM_ADDRESS, addr, 1, data, 1) == 0) + return (int)data[0]; + else + return 0; +} + +#else /* CONFIG_440 */ + +/*----------------------------------------------------------------------------- +| Memory Controller Options 0 ++-----------------------------------------------------------------------------*/ +#define SDRAM_CFG0_DCEN 0x80000000 /* SDRAM Controller Enable */ +#define SDRAM_CFG0_MCHK_MASK 0x30000000 /* Memory data errchecking mask */ +#define SDRAM_CFG0_MCHK_NON 0x00000000 /* No ECC generation */ +#define SDRAM_CFG0_MCHK_GEN 0x20000000 /* ECC generation */ +#define SDRAM_CFG0_MCHK_CHK 0x30000000 /* ECC generation and checking */ +#define SDRAM_CFG0_RDEN 0x08000000 /* Registered DIMM enable */ +#define SDRAM_CFG0_PMUD 0x04000000 /* Page management unit */ +#define SDRAM_CFG0_DMWD_MASK 0x02000000 /* DRAM width mask */ +#define SDRAM_CFG0_DMWD_32 0x00000000 /* 32 bits */ +#define SDRAM_CFG0_DMWD_64 0x02000000 /* 64 bits */ +#define SDRAM_CFG0_UIOS_MASK 0x00C00000 /* Unused IO State */ +#define SDRAM_CFG0_PDP 0x00200000 /* Page deallocation policy */ + +/*----------------------------------------------------------------------------- +| Memory Controller Options 1 ++-----------------------------------------------------------------------------*/ +#define SDRAM_CFG1_SRE 0x80000000 /* Self-Refresh Entry */ +#define SDRAM_CFG1_PMEN 0x40000000 /* Power Management Enable */ + +/*-----------------------------------------------------------------------------+ +| SDRAM DEVPOT Options ++-----------------------------------------------------------------------------*/ +#define SDRAM_DEVOPT_DLL 0x80000000 +#define SDRAM_DEVOPT_DS 0x40000000 + +/*-----------------------------------------------------------------------------+ +| SDRAM MCSTS Options ++-----------------------------------------------------------------------------*/ +#define SDRAM_MCSTS_MRSC 0x80000000 +#define SDRAM_MCSTS_SRMS 0x40000000 +#define SDRAM_MCSTS_CIS 0x20000000 + +/*----------------------------------------------------------------------------- +| SDRAM Refresh Timer Register ++-----------------------------------------------------------------------------*/ +#define SDRAM_RTR_RINT_MASK 0xFFFF0000 +#define SDRAM_RTR_RINT_ENCODE(n) (((n) << 16) & SDRAM_RTR_RINT_MASK) +#define sdram_HZ_to_ns(hertz) (1000000000/(hertz)) + +/*-----------------------------------------------------------------------------+ +| SDRAM UABus Base Address Reg ++-----------------------------------------------------------------------------*/ +#define SDRAM_UABBA_UBBA_MASK 0x0000000F + +/*-----------------------------------------------------------------------------+ +| Memory Bank 0-7 configuration ++-----------------------------------------------------------------------------*/ +#define SDRAM_BXCR_SDBA_MASK 0xff800000 /* Base address */ +#define SDRAM_BXCR_SDSZ_MASK 0x000e0000 /* Size */ +#define SDRAM_BXCR_SDSZ_8 0x00020000 /* 8M */ +#define SDRAM_BXCR_SDSZ_16 0x00040000 /* 16M */ +#define SDRAM_BXCR_SDSZ_32 0x00060000 /* 32M */ +#define SDRAM_BXCR_SDSZ_64 0x00080000 /* 64M */ +#define SDRAM_BXCR_SDSZ_128 0x000a0000 /* 128M */ +#define SDRAM_BXCR_SDSZ_256 0x000c0000 /* 256M */ +#define SDRAM_BXCR_SDSZ_512 0x000e0000 /* 512M */ +#define SDRAM_BXCR_SDAM_MASK 0x0000e000 /* Addressing mode */ +#define SDRAM_BXCR_SDAM_1 0x00000000 /* Mode 1 */ +#define SDRAM_BXCR_SDAM_2 0x00002000 /* Mode 2 */ +#define SDRAM_BXCR_SDAM_3 0x00004000 /* Mode 3 */ +#define SDRAM_BXCR_SDAM_4 0x00006000 /* Mode 4 */ +#define SDRAM_BXCR_SDBE 0x00000001 /* Memory Bank Enable */ + +/*-----------------------------------------------------------------------------+ +| SDRAM TR0 Options ++-----------------------------------------------------------------------------*/ +#define SDRAM_TR0_SDWR_MASK 0x80000000 +#define SDRAM_TR0_SDWR_2_CLK 0x00000000 +#define SDRAM_TR0_SDWR_3_CLK 0x80000000 +#define SDRAM_TR0_SDWD_MASK 0x40000000 +#define SDRAM_TR0_SDWD_0_CLK 0x00000000 +#define SDRAM_TR0_SDWD_1_CLK 0x40000000 +#define SDRAM_TR0_SDCL_MASK 0x01800000 +#define SDRAM_TR0_SDCL_2_0_CLK 0x00800000 +#define SDRAM_TR0_SDCL_2_5_CLK 0x01000000 +#define SDRAM_TR0_SDCL_3_0_CLK 0x01800000 +#define SDRAM_TR0_SDPA_MASK 0x000C0000 +#define SDRAM_TR0_SDPA_2_CLK 0x00040000 +#define SDRAM_TR0_SDPA_3_CLK 0x00080000 +#define SDRAM_TR0_SDPA_4_CLK 0x000C0000 +#define SDRAM_TR0_SDCP_MASK 0x00030000 +#define SDRAM_TR0_SDCP_2_CLK 0x00000000 +#define SDRAM_TR0_SDCP_3_CLK 0x00010000 +#define SDRAM_TR0_SDCP_4_CLK 0x00020000 +#define SDRAM_TR0_SDCP_5_CLK 0x00030000 +#define SDRAM_TR0_SDLD_MASK 0x0000C000 +#define SDRAM_TR0_SDLD_1_CLK 0x00000000 +#define SDRAM_TR0_SDLD_2_CLK 0x00004000 +#define SDRAM_TR0_SDRA_MASK 0x0000001C +#define SDRAM_TR0_SDRA_6_CLK 0x00000000 +#define SDRAM_TR0_SDRA_7_CLK 0x00000004 +#define SDRAM_TR0_SDRA_8_CLK 0x00000008 +#define SDRAM_TR0_SDRA_9_CLK 0x0000000C +#define SDRAM_TR0_SDRA_10_CLK 0x00000010 +#define SDRAM_TR0_SDRA_11_CLK 0x00000014 +#define SDRAM_TR0_SDRA_12_CLK 0x00000018 +#define SDRAM_TR0_SDRA_13_CLK 0x0000001C +#define SDRAM_TR0_SDRD_MASK 0x00000003 +#define SDRAM_TR0_SDRD_2_CLK 0x00000001 +#define SDRAM_TR0_SDRD_3_CLK 0x00000002 +#define SDRAM_TR0_SDRD_4_CLK 0x00000003 + +/*-----------------------------------------------------------------------------+ +| SDRAM TR1 Options ++-----------------------------------------------------------------------------*/ +#define SDRAM_TR1_RDSS_MASK 0xC0000000 +#define SDRAM_TR1_RDSS_TR0 0x00000000 +#define SDRAM_TR1_RDSS_TR1 0x40000000 +#define SDRAM_TR1_RDSS_TR2 0x80000000 +#define SDRAM_TR1_RDSS_TR3 0xC0000000 +#define SDRAM_TR1_RDSL_MASK 0x00C00000 +#define SDRAM_TR1_RDSL_STAGE1 0x00000000 +#define SDRAM_TR1_RDSL_STAGE2 0x00400000 +#define SDRAM_TR1_RDSL_STAGE3 0x00800000 +#define SDRAM_TR1_RDCD_MASK 0x00000800 +#define SDRAM_TR1_RDCD_RCD_0_0 0x00000000 +#define SDRAM_TR1_RDCD_RCD_1_2 0x00000800 +#define SDRAM_TR1_RDCT_MASK 0x000001FF +#define SDRAM_TR1_RDCT_ENCODE(x) (((x) << 0) & SDRAM_TR1_RDCT_MASK) +#define SDRAM_TR1_RDCT_DECODE(x) (((x) & SDRAM_TR1_RDCT_MASK) >> 0) +#define SDRAM_TR1_RDCT_MIN 0x00000000 +#define SDRAM_TR1_RDCT_MAX 0x000001FF + +/*-----------------------------------------------------------------------------+ +| SDRAM WDDCTR Options ++-----------------------------------------------------------------------------*/ +#define SDRAM_WDDCTR_WRCP_MASK 0xC0000000 +#define SDRAM_WDDCTR_WRCP_0DEG 0x00000000 +#define SDRAM_WDDCTR_WRCP_90DEG 0x40000000 +#define SDRAM_WDDCTR_WRCP_180DEG 0x80000000 +#define SDRAM_WDDCTR_DCD_MASK 0x000001FF + +/*-----------------------------------------------------------------------------+ +| SDRAM CLKTR Options ++-----------------------------------------------------------------------------*/ +#define SDRAM_CLKTR_CLKP_MASK 0xC0000000 +#define SDRAM_CLKTR_CLKP_0DEG 0x00000000 +#define SDRAM_CLKTR_CLKP_90DEG 0x40000000 +#define SDRAM_CLKTR_CLKP_180DEG 0x80000000 +#define SDRAM_CLKTR_DCDT_MASK 0x000001FF + +/*-----------------------------------------------------------------------------+ +| SDRAM DLYCAL Options ++-----------------------------------------------------------------------------*/ +#define SDRAM_DLYCAL_DLCV_MASK 0x000003FC +#define SDRAM_DLYCAL_DLCV_ENCODE(x) (((x)<<2) & SDRAM_DLYCAL_DLCV_MASK) +#define SDRAM_DLYCAL_DLCV_DECODE(x) (((x) & SDRAM_DLYCAL_DLCV_MASK)>>2) + +/*-----------------------------------------------------------------------------+ +| General Definition ++-----------------------------------------------------------------------------*/ +#define DEFAULT_SPD_ADDR1 0x53 +#define DEFAULT_SPD_ADDR2 0x52 +#define ONE_BILLION 1000000000 +#define MAXBANKS 4 /* at most 4 dimm banks */ +#define MAX_SPD_BYTES 256 +#define NUMHALFCYCLES 4 +#define NUMMEMTESTS 8 +#define NUMMEMWORDS 8 +#define MAXBXCR 4 +#define TRUE 1 +#define FALSE 0 + +const unsigned long test[NUMMEMTESTS][NUMMEMWORDS] = { + {0x00000000, 0x00000000, 0xFFFFFFFF, 0xFFFFFFFF, 0x00000000, 0x00000000, + 0xFFFFFFFF, 0xFFFFFFFF}, + {0xFFFFFFFF, 0xFFFFFFFF, 0x00000000, 0x00000000, 0xFFFFFFFF, 0xFFFFFFFF, + 0x00000000, 0x00000000}, + {0xAAAAAAAA, 0xAAAAAAAA, 0x55555555, 0x55555555, 0xAAAAAAAA, 0xAAAAAAAA, + 0x55555555, 0x55555555}, + {0x55555555, 0x55555555, 0xAAAAAAAA, 0xAAAAAAAA, 0x55555555, 0x55555555, + 0xAAAAAAAA, 0xAAAAAAAA}, + {0xA5A5A5A5, 0xA5A5A5A5, 0x5A5A5A5A, 0x5A5A5A5A, 0xA5A5A5A5, 0xA5A5A5A5, + 0x5A5A5A5A, 0x5A5A5A5A}, + {0x5A5A5A5A, 0x5A5A5A5A, 0xA5A5A5A5, 0xA5A5A5A5, 0x5A5A5A5A, 0x5A5A5A5A, + 0xA5A5A5A5, 0xA5A5A5A5}, + {0xAA55AA55, 0xAA55AA55, 0x55AA55AA, 0x55AA55AA, 0xAA55AA55, 0xAA55AA55, + 0x55AA55AA, 0x55AA55AA}, + {0x55AA55AA, 0x55AA55AA, 0xAA55AA55, 0xAA55AA55, 0x55AA55AA, 0x55AA55AA, + 0xAA55AA55, 0xAA55AA55} +}; + + +unsigned char spd_read(uchar chip, uint addr); + +void get_spd_info(unsigned long* dimm_populated, + unsigned char* iic0_dimm_addr, + unsigned long num_dimm_banks); + +void check_mem_type + (unsigned long* dimm_populated, + unsigned char* iic0_dimm_addr, + unsigned long num_dimm_banks); + +void check_volt_type + (unsigned long* dimm_populated, + unsigned char* iic0_dimm_addr, + unsigned long num_dimm_banks); + +void program_cfg0(unsigned long* dimm_populated, + unsigned char* iic0_dimm_addr, + unsigned long num_dimm_banks); + +void program_cfg1(unsigned long* dimm_populated, + unsigned char* iic0_dimm_addr, + unsigned long num_dimm_banks); + +void program_rtr (unsigned long* dimm_populated, + unsigned char* iic0_dimm_addr, + unsigned long num_dimm_banks); + +void program_tr0 (unsigned long* dimm_populated, + unsigned char* iic0_dimm_addr, + unsigned long num_dimm_banks); + +void program_tr1 (void); + +void program_ecc (unsigned long num_bytes); + +unsigned +long program_bxcr(unsigned long* dimm_populated, + unsigned char* iic0_dimm_addr, + unsigned long num_dimm_banks); + +/* + * This function is reading data from the DIMM module EEPROM over the SPD bus + * and uses that to program the sdram controller. + * + * This works on boards that has the same schematics that the IBM walnut has. + * + * BUG: Don't handle ECC memory + * BUG: A few values in the TR register is currently hardcoded + */ + +long int spd_sdram(void) { + unsigned char iic0_dimm_addr[] = SPD_EEPROM_ADDRESS; + unsigned long dimm_populated[sizeof(iic0_dimm_addr)]; + unsigned long total_size; + unsigned long cfg0; + unsigned long mcsts; + unsigned long num_dimm_banks; /* on board dimm banks */ + + num_dimm_banks = sizeof(iic0_dimm_addr); + + /* + * Make sure I2C controller is initialized + * before continuing. + */ + i2c_init(CFG_I2C_SPEED, CFG_I2C_SLAVE); + + /* + * Read the SPD information using I2C interface. Check to see if the + * DIMM slots are populated. + */ + get_spd_info(dimm_populated, iic0_dimm_addr, num_dimm_banks); + + /* + * Check the memory type for the dimms plugged. + */ + check_mem_type(dimm_populated, iic0_dimm_addr, num_dimm_banks); + + /* + * Check the voltage type for the dimms plugged. + */ + check_volt_type(dimm_populated, iic0_dimm_addr, num_dimm_banks); + + /* + * program 440GP SDRAM controller options (SDRAM0_CFG0) + */ + program_cfg0(dimm_populated, iic0_dimm_addr, num_dimm_banks); + + /* + * program 440GP SDRAM controller options (SDRAM0_CFG1) + */ + program_cfg1(dimm_populated, iic0_dimm_addr, num_dimm_banks); + + /* + * program SDRAM refresh register (SDRAM0_RTR) + */ + program_rtr(dimm_populated, iic0_dimm_addr, num_dimm_banks); + + /* + * program SDRAM Timing Register 0 (SDRAM0_TR0) + */ + program_tr0(dimm_populated, iic0_dimm_addr, num_dimm_banks); + + /* + * program the BxCR registers to find out total sdram installed + */ + total_size = program_bxcr(dimm_populated, iic0_dimm_addr, + num_dimm_banks); + + /* + * program SDRAM Clock Timing Register (SDRAM0_CLKTR) + */ + mtsdram(mem_clktr, 0x40000000); + + /* + * delay to ensure 200 usec has elapsed + */ + udelay(400); + + /* + * enable the memory controller + */ + mfsdram(mem_cfg0, cfg0); + mtsdram(mem_cfg0, cfg0 | SDRAM_CFG0_DCEN); + + /* + * wait for SDRAM_CFG0_DC_EN to complete + */ + while(1) { + mfsdram(mem_mcsts, mcsts); + if ((mcsts & SDRAM_MCSTS_MRSC) != 0) { + break; + } + } + + /* + * program SDRAM Timing Register 1, adding some delays + */ + program_tr1(); + + /* + * if ECC is enabled, initialize parity bits + */ + + return total_size; +} + +unsigned char spd_read(uchar chip, uint addr) { + unsigned char data[2]; + + if (i2c_read(chip, addr, 1, data, 1) == 0) + return data[0]; + else + return 0; +} + +void get_spd_info(unsigned long* dimm_populated, + unsigned char* iic0_dimm_addr, + unsigned long num_dimm_banks) +{ + unsigned long dimm_num; + unsigned long dimm_found; + unsigned char num_of_bytes; + unsigned char total_size; + + dimm_found = FALSE; + for (dimm_num = 0; dimm_num < num_dimm_banks; dimm_num++) { + num_of_bytes = 0; + total_size = 0; + + num_of_bytes = spd_read(iic0_dimm_addr[dimm_num], 0); + total_size = spd_read(iic0_dimm_addr[dimm_num], 1); + + if ((num_of_bytes != 0) && (total_size != 0)) { + dimm_populated[dimm_num] = TRUE; + dimm_found = TRUE; +#if 0 + printf("DIMM slot %lu: populated\n", dimm_num); +#endif + } + else { + dimm_populated[dimm_num] = FALSE; +#if 0 + printf("DIMM slot %lu: Not populated\n", dimm_num); +#endif + } + } + + if (dimm_found == FALSE) { + printf("ERROR - No memory installed. Install a DDR-SDRAM DIMM.\n\n"); + hang(); + } +} + +void check_mem_type(unsigned long* dimm_populated, + unsigned char* iic0_dimm_addr, + unsigned long num_dimm_banks) +{ + unsigned long dimm_num; + unsigned char dimm_type; + + for (dimm_num = 0; dimm_num < num_dimm_banks; dimm_num++) { + if (dimm_populated[dimm_num] == TRUE) { + dimm_type = spd_read(iic0_dimm_addr[dimm_num], 2); + switch (dimm_type) { + case 7: +#if 0 + printf("DIMM slot %lu: DDR SDRAM detected\n", dimm_num); +#endif + break; + default: + printf("ERROR: Unsupported DIMM detected in slot %lu.\n", + dimm_num); + printf("Only DDR SDRAM DIMMs are supported.\n"); + printf("Replace the DIMM module with a supported DIMM.\n\n"); + hang(); + break; + } + } + } +} + + +void check_volt_type(unsigned long* dimm_populated, + unsigned char* iic0_dimm_addr, + unsigned long num_dimm_banks) +{ + unsigned long dimm_num; + unsigned long voltage_type; + + for (dimm_num = 0; dimm_num < num_dimm_banks; dimm_num++) { + if (dimm_populated[dimm_num] == TRUE) { + voltage_type = spd_read(iic0_dimm_addr[dimm_num], 8); + if (voltage_type != 0x04) { + printf("ERROR: DIMM %lu with unsupported voltage level.\n", + dimm_num); + hang(); + } + else { +#if 0 + printf("DIMM %lu voltage level supported.\n", dimm_num); +#endif + } + break; + } + } +} + +void program_cfg0(unsigned long* dimm_populated, + unsigned char* iic0_dimm_addr, + unsigned long num_dimm_banks) +{ + unsigned long dimm_num; + unsigned long cfg0; + unsigned long ecc_enabled; + unsigned char ecc; + unsigned char attributes; + unsigned long data_width; + unsigned long dimm_32bit; + unsigned long dimm_64bit; + + /* + * get Memory Controller Options 0 data + */ + mfsdram(mem_cfg0, cfg0); + + /* + * clear bits + */ + cfg0 &= ~(SDRAM_CFG0_DCEN | SDRAM_CFG0_MCHK_MASK | + SDRAM_CFG0_RDEN | SDRAM_CFG0_PMUD | + SDRAM_CFG0_DMWD_MASK | + SDRAM_CFG0_UIOS_MASK | SDRAM_CFG0_PDP); + + + /* + * FIXME: assume the DDR SDRAMs in both banks are the same + */ + ecc_enabled = TRUE; + for (dimm_num = 0; dimm_num < num_dimm_banks; dimm_num++) { + if (dimm_populated[dimm_num] == TRUE) { + ecc = spd_read(iic0_dimm_addr[dimm_num], 11); + if (ecc != 0x02) { + ecc_enabled = FALSE; + } + + /* + * program Registered DIMM Enable + */ + attributes = spd_read(iic0_dimm_addr[dimm_num], 21); + if ((attributes & 0x02) != 0x00) { + cfg0 |= SDRAM_CFG0_RDEN; + } + + /* + * program DDR SDRAM Data Width + */ + data_width = + (unsigned long)spd_read(iic0_dimm_addr[dimm_num],6) + + (((unsigned long)spd_read(iic0_dimm_addr[dimm_num],7)) << 8); + if (data_width == 64 || data_width == 72) { + dimm_64bit = TRUE; + cfg0 |= SDRAM_CFG0_DMWD_64; + } + else if (data_width == 32 || data_width == 40) { + dimm_32bit = TRUE; + cfg0 |= SDRAM_CFG0_DMWD_32; + } + else { + printf("WARNING: DIMM with datawidth of %lu bits.\n", + data_width); + printf("Only DIMMs with 32 or 64 bit datawidths supported.\n"); + hang(); + } + break; + } + } + + /* + * program Memory Data Error Checking + */ + if (ecc_enabled == TRUE) { + cfg0 |= SDRAM_CFG0_MCHK_GEN; + } + else { + cfg0 |= SDRAM_CFG0_MCHK_NON; + } + + /* + * program Page Management Unit + */ + cfg0 |= SDRAM_CFG0_PMUD; + + /* + * program Memory Controller Options 0 + * Note: DCEN must be enabled after all DDR SDRAM controller + * configuration registers get initialized. + */ + mtsdram(mem_cfg0, cfg0); +} + +void program_cfg1(unsigned long* dimm_populated, + unsigned char* iic0_dimm_addr, + unsigned long num_dimm_banks) +{ + unsigned long cfg1; + mfsdram(mem_cfg1, cfg1); + + /* + * Self-refresh exit, disable PM + */ + cfg1 &= ~(SDRAM_CFG1_SRE | SDRAM_CFG1_PMEN); + + /* + * program Memory Controller Options 1 + */ + mtsdram(mem_cfg1, cfg1); +} + +void program_rtr (unsigned long* dimm_populated, + unsigned char* iic0_dimm_addr, + unsigned long num_dimm_banks) +{ + unsigned long dimm_num; + unsigned long bus_period_x_10; + unsigned long refresh_rate = 0; + unsigned char refresh_rate_type; + unsigned long refresh_interval; + unsigned long sdram_rtr; + PPC440_SYS_INFO sys_info; + + /* + * get the board info + */ + get_sys_info(&sys_info); + bus_period_x_10 = ONE_BILLION / (sys_info.freqPLB / 10); + + + for (dimm_num = 0; dimm_num < num_dimm_banks; dimm_num++) { + if (dimm_populated[dimm_num] == TRUE) { + refresh_rate_type = 0x7F & spd_read(iic0_dimm_addr[dimm_num], 12); + switch (refresh_rate_type) { + case 0x00: + refresh_rate = 15625; + break; + case 0x011: + refresh_rate = 15625/4; + break; + case 0x02: + refresh_rate = 15625/2; + break; + case 0x03: + refresh_rate = 15626*2; + break; + case 0x04: + refresh_rate = 15625*4; + break; + case 0x05: + refresh_rate = 15625*8; + break; + default: + printf("ERROR: DIMM %lu, unsupported refresh rate/type.\n", + dimm_num); + printf("Replace the DIMM module with a supported DIMM.\n"); + break; + } + + break; + } + } + + refresh_interval = refresh_rate * 10 / bus_period_x_10; + sdram_rtr = (refresh_interval & 0x3ff8) << 16; + + /* + * program Refresh Timer Register (SDRAM0_RTR) + */ + mtsdram(mem_rtr, sdram_rtr); +} + +void program_tr0 (unsigned long* dimm_populated, + unsigned char* iic0_dimm_addr, + unsigned long num_dimm_banks) +{ + unsigned long dimm_num; + unsigned long tr0; + unsigned char wcsbc; + unsigned char t_rp_ns; + unsigned char t_rcd_ns; + unsigned char t_ras_ns; + unsigned long t_rp_clk; + unsigned long t_ras_rcd_clk; + unsigned long t_rcd_clk; + unsigned long t_rfc_clk; + unsigned long plb_check; + unsigned char cas_bit; + unsigned long cas_index; + unsigned char cas_2_0_available; + unsigned char cas_2_5_available; + unsigned char cas_3_0_available; + unsigned long cycle_time_ns_x_10[3]; + unsigned long tcyc_3_0_ns_x_10; + unsigned long tcyc_2_5_ns_x_10; + unsigned long tcyc_2_0_ns_x_10; + unsigned long tcyc_reg; + unsigned long bus_period_x_10; + PPC440_SYS_INFO sys_info; + unsigned long residue; + + /* + * get the board info + */ + get_sys_info(&sys_info); + bus_period_x_10 = ONE_BILLION / (sys_info.freqPLB / 10); + + /* + * get SDRAM Timing Register 0 (SDRAM_TR0) and clear bits + */ + mfsdram(mem_tr0, tr0); + tr0 &= ~(SDRAM_TR0_SDWR_MASK | SDRAM_TR0_SDWD_MASK | + SDRAM_TR0_SDCL_MASK | SDRAM_TR0_SDPA_MASK | + SDRAM_TR0_SDCP_MASK | SDRAM_TR0_SDLD_MASK | + SDRAM_TR0_SDRA_MASK | SDRAM_TR0_SDRD_MASK); + + /* + * initialization + */ + wcsbc = 0; + t_rp_ns = 0; + t_rcd_ns = 0; + t_ras_ns = 0; + cas_2_0_available = TRUE; + cas_2_5_available = TRUE; + cas_3_0_available = TRUE; + tcyc_2_0_ns_x_10 = 0; + tcyc_2_5_ns_x_10 = 0; + tcyc_3_0_ns_x_10 = 0; + + for (dimm_num = 0; dimm_num < num_dimm_banks; dimm_num++) { + if (dimm_populated[dimm_num] == TRUE) { + wcsbc = spd_read(iic0_dimm_addr[dimm_num], 15); + t_rp_ns = spd_read(iic0_dimm_addr[dimm_num], 27) >> 2; + t_rcd_ns = spd_read(iic0_dimm_addr[dimm_num], 29) >> 2; + t_ras_ns = spd_read(iic0_dimm_addr[dimm_num], 30); + cas_bit = spd_read(iic0_dimm_addr[dimm_num], 18); + + for (cas_index = 0; cas_index < 3; cas_index++) { + switch (cas_index) { + case 0: + tcyc_reg = spd_read(iic0_dimm_addr[dimm_num], 9); + break; + case 1: + tcyc_reg = spd_read(iic0_dimm_addr[dimm_num], 23); + break; + default: + tcyc_reg = spd_read(iic0_dimm_addr[dimm_num], 25); + break; + } + + if ((tcyc_reg & 0x0F) >= 10) { + printf("ERROR: Tcyc incorrect for DIMM in slot %lu\n", + dimm_num); + hang(); + } + + cycle_time_ns_x_10[cas_index] = + (((tcyc_reg & 0xF0) >> 4) * 10) + (tcyc_reg & 0x0F); + } + + cas_index = 0; + + if ((cas_bit & 0x80) != 0) { + cas_index += 3; + } + else if ((cas_bit & 0x40) != 0) { + cas_index += 2; + } + else if ((cas_bit & 0x20) != 0) { + cas_index += 1; + } + + if (((cas_bit & 0x10) != 0) && (cas_index < 3)) { + tcyc_3_0_ns_x_10 = cycle_time_ns_x_10[cas_index]; + cas_index++; + } + else { + if (cas_index != 0) { + cas_index++; + } + cas_3_0_available = FALSE; + } + + if (((cas_bit & 0x08) != 0) || (cas_index < 3)) { + tcyc_2_5_ns_x_10 = cycle_time_ns_x_10[cas_index]; + cas_index++; + } + else { + if (cas_index != 0) { + cas_index++; + } + cas_2_5_available = FALSE; + } + + if (((cas_bit & 0x04) != 0) || (cas_index < 3)) { + tcyc_2_0_ns_x_10 = cycle_time_ns_x_10[cas_index]; + cas_index++; + } + else { + if (cas_index != 0) { + cas_index++; + } + cas_2_0_available = FALSE; + } + + break; + } + } + + /* + * Program SD_WR and SD_WCSBC fields + */ + tr0 |= SDRAM_TR0_SDWR_2_CLK; /* Write Recovery: 2 CLK */ + switch (wcsbc) { + case 0: + tr0 |= SDRAM_TR0_SDWD_0_CLK; + break; + default: + tr0 |= SDRAM_TR0_SDWD_1_CLK; + break; + } + + /* + * Program SD_CASL field + */ + if ((cas_2_0_available == TRUE) && + (bus_period_x_10 >= tcyc_2_0_ns_x_10)) { + tr0 |= SDRAM_TR0_SDCL_2_0_CLK; + } + else if((cas_2_5_available == TRUE) && + (bus_period_x_10 >= tcyc_2_5_ns_x_10)) { + tr0 |= SDRAM_TR0_SDCL_2_5_CLK; + } + else if((cas_3_0_available == TRUE) && + (bus_period_x_10 >= tcyc_3_0_ns_x_10)) { + tr0 |= SDRAM_TR0_SDCL_3_0_CLK; + } + else { + printf("ERROR: No supported CAS latency with the installed DIMMs.\n"); + printf("Only CAS latencies of 2.0, 2.5, and 3.0 are supported.\n"); + printf("Make sure the PLB speed is within the supported range.\n"); + hang(); + } + + /* + * Calculate Trp in clock cycles and round up if necessary + * Program SD_PTA field + */ + t_rp_clk = sys_info.freqPLB * t_rp_ns / ONE_BILLION; + plb_check = ONE_BILLION * t_rp_clk / t_rp_ns; + if (sys_info.freqPLB != plb_check) { + t_rp_clk++; + } + switch ((unsigned long)t_rp_clk) { + case 0: + case 1: + case 2: + tr0 |= SDRAM_TR0_SDPA_2_CLK; + break; + case 3: + tr0 |= SDRAM_TR0_SDPA_3_CLK; + break; + default: + tr0 |= SDRAM_TR0_SDPA_4_CLK; + break; + } + + /* + * Program SD_CTP field + */ + t_ras_rcd_clk = sys_info.freqPLB * (t_ras_ns - t_rcd_ns) / ONE_BILLION; + plb_check = ONE_BILLION * t_ras_rcd_clk / (t_ras_ns - t_rcd_ns); + if (sys_info.freqPLB != plb_check) { + t_ras_rcd_clk++; + } + switch (t_ras_rcd_clk) { + case 0: + case 1: + case 2: + tr0 |= SDRAM_TR0_SDCP_2_CLK; + break; + case 3: + tr0 |= SDRAM_TR0_SDCP_3_CLK; + break; + case 4: + tr0 |= SDRAM_TR0_SDCP_4_CLK; + break; + default: + tr0 |= SDRAM_TR0_SDCP_5_CLK; + break; + } + + /* + * Program SD_LDF field + */ + tr0 |= SDRAM_TR0_SDLD_2_CLK; + + /* + * Program SD_RFTA field + * FIXME tRFC hardcoded as 75 nanoseconds + */ + t_rfc_clk = sys_info.freqPLB / (ONE_BILLION / 75); + residue = sys_info.freqPLB % (ONE_BILLION / 75); + if (residue >= (ONE_BILLION / 150)) { + t_rfc_clk++; + } + switch (t_rfc_clk) { + case 0: + case 1: + case 2: + case 3: + case 4: + case 5: + case 6: + tr0 |= SDRAM_TR0_SDRA_6_CLK; + break; + case 7: + tr0 |= SDRAM_TR0_SDRA_7_CLK; + break; + case 8: + tr0 |= SDRAM_TR0_SDRA_8_CLK; + break; + case 9: + tr0 |= SDRAM_TR0_SDRA_9_CLK; + break; + case 10: + tr0 |= SDRAM_TR0_SDRA_10_CLK; + break; + case 11: + tr0 |= SDRAM_TR0_SDRA_11_CLK; + break; + case 12: + tr0 |= SDRAM_TR0_SDRA_12_CLK; + break; + default: + tr0 |= SDRAM_TR0_SDRA_13_CLK; + break; + } + + /* + * Program SD_RCD field + */ + t_rcd_clk = sys_info.freqPLB * t_rcd_ns / ONE_BILLION; + plb_check = ONE_BILLION * t_rcd_clk / t_rcd_ns; + if (sys_info.freqPLB != plb_check) { + t_rcd_clk++; + } + switch (t_rcd_clk) { + case 0: + case 1: + case 2: + tr0 |= SDRAM_TR0_SDRD_2_CLK; + break; + case 3: + tr0 |= SDRAM_TR0_SDRD_3_CLK; + break; + default: + tr0 |= SDRAM_TR0_SDRD_4_CLK; + break; + } + +#if 0 + printf("tr0: %x\n", tr0); +#endif + mtsdram(mem_tr0, tr0); +} + +void program_tr1 (void) +{ + unsigned long tr0; + unsigned long tr1; + unsigned long cfg0; + unsigned long ecc_temp; + unsigned long dlycal; + unsigned long dly_val; + unsigned long i, j, k; + unsigned long bxcr_num; + unsigned long max_pass_length; + unsigned long current_pass_length; + unsigned long current_fail_length; + unsigned long current_start; + unsigned long rdclt; + unsigned long rdclt_offset; + long max_start; + long max_end; + long rdclt_average; + unsigned char window_found; + unsigned char fail_found; + unsigned char pass_found; + unsigned long * membase; + PPC440_SYS_INFO sys_info; + + /* + * get the board info + */ + get_sys_info(&sys_info); + + /* + * get SDRAM Timing Register 0 (SDRAM_TR0) and clear bits + */ + mfsdram(mem_tr1, tr1); + tr1 &= ~(SDRAM_TR1_RDSS_MASK | SDRAM_TR1_RDSL_MASK | + SDRAM_TR1_RDCD_MASK | SDRAM_TR1_RDCT_MASK); + + mfsdram(mem_tr0, tr0); + if (((tr0 & SDRAM_TR0_SDCL_MASK) == SDRAM_TR0_SDCL_2_5_CLK) && + (sys_info.freqPLB > 100000000)) { + tr1 |= SDRAM_TR1_RDSS_TR2; + tr1 |= SDRAM_TR1_RDSL_STAGE3; + tr1 |= SDRAM_TR1_RDCD_RCD_1_2; + } + else { + tr1 |= SDRAM_TR1_RDSS_TR1; + tr1 |= SDRAM_TR1_RDSL_STAGE2; + tr1 |= SDRAM_TR1_RDCD_RCD_0_0; + } + + /* + * save CFG0 ECC setting to a temporary variable and turn ECC off + */ + mfsdram(mem_cfg0, cfg0); + ecc_temp = cfg0 & SDRAM_CFG0_MCHK_MASK; + mtsdram(mem_cfg0, (cfg0 & ~SDRAM_CFG0_MCHK_MASK) | SDRAM_CFG0_MCHK_NON); + + /* + * get the delay line calibration register value + */ + mfsdram(mem_dlycal, dlycal); + dly_val = SDRAM_DLYCAL_DLCV_DECODE(dlycal) << 2; + + max_pass_length = 0; + max_start = 0; + max_end = 0; + current_pass_length = 0; + current_fail_length = 0; + current_start = 0; + rdclt_offset = 0; + window_found = FALSE; + fail_found = FALSE; + pass_found = FALSE; +#ifdef DEBUG + printf("Starting memory test "); +#endif + for (k = 0; k < NUMHALFCYCLES; k++) { + for (rdclt = 0; rdclt < dly_val; rdclt++) { + /* + * Set the timing reg for the test. + */ + mtsdram(mem_tr1, (tr1 | SDRAM_TR1_RDCT_ENCODE(rdclt))); + + for (bxcr_num = 0; bxcr_num < MAXBXCR; bxcr_num++) { + mtdcr(memcfga, mem_b0cr + (bxcr_num<<2)); + if ((mfdcr(memcfgd) & SDRAM_BXCR_SDBE) == SDRAM_BXCR_SDBE) { + /* Bank is enabled */ + membase = (unsigned long*) + (mfdcr(memcfgd) & SDRAM_BXCR_SDBA_MASK); + + /* + * Run the short memory test + */ + for (i = 0; i < NUMMEMTESTS; i++) { + for (j = 0; j < NUMMEMWORDS; j++) { + membase[j] = test[i][j]; + ppcDcbf((unsigned long)&(membase[j])); + } + + for (j = 0; j < NUMMEMWORDS; j++) { + if (membase[j] != test[i][j]) { + ppcDcbf((unsigned long)&(membase[j])); + break; + } + ppcDcbf((unsigned long)&(membase[j])); + } + + if (j < NUMMEMWORDS) { + break; + } + } + + /* + * see if the rdclt value passed + */ + if (i < NUMMEMTESTS) { + break; + } + } + } + + if (bxcr_num == MAXBXCR) { + if (fail_found == TRUE) { + pass_found = TRUE; + if (current_pass_length == 0) { + current_start = rdclt_offset + rdclt; + } + + current_fail_length = 0; + current_pass_length++; + + if (current_pass_length > max_pass_length) { + max_pass_length = current_pass_length; + max_start = current_start; + max_end = rdclt_offset + rdclt; + } + } + } + else { + current_pass_length = 0; + current_fail_length++; + + if (current_fail_length >= (dly_val>>2)) { + if (fail_found == FALSE) { + fail_found = TRUE; + } + else if (pass_found == TRUE) { + window_found = TRUE; + break; + } + } + } + } +#ifdef DEBUG + printf("."); +#endif + if (window_found == TRUE) { + break; + } + + tr1 = tr1 ^ SDRAM_TR1_RDCD_MASK; + rdclt_offset += dly_val; + } +#ifdef DEBUG + printf("\n"); +#endif + + /* + * make sure we find the window + */ + if (window_found == FALSE) { + printf("ERROR: Cannot determine a common read delay.\n"); + hang(); + } + + /* + * restore the orignal ECC setting + */ + mtsdram(mem_cfg0, (cfg0 & ~SDRAM_CFG0_MCHK_MASK) | ecc_temp); + + /* + * set the SDRAM TR1 RDCD value + */ + tr1 &= ~SDRAM_TR1_RDCD_MASK; + if ((tr0 & SDRAM_TR0_SDCL_MASK) == SDRAM_TR0_SDCL_2_5_CLK) { + tr1 |= SDRAM_TR1_RDCD_RCD_1_2; + } + else { + tr1 |= SDRAM_TR1_RDCD_RCD_0_0; + } + + /* + * set the SDRAM TR1 RDCLT value + */ + tr1 &= ~SDRAM_TR1_RDCT_MASK; + while (max_end >= (dly_val<<1)) { + max_end -= (dly_val<<1); + max_start -= (dly_val<<1); + } + + rdclt_average = ((max_start + max_end) >> 1); + if (rdclt_average >= 0x60) + while(1); + + if (rdclt_average < 0) { + rdclt_average = 0; + } + + if (rdclt_average >= dly_val) { + rdclt_average -= dly_val; + tr1 = tr1 ^ SDRAM_TR1_RDCD_MASK; + } + tr1 |= SDRAM_TR1_RDCT_ENCODE(rdclt_average); + +#if 0 + printf("tr1: %x\n", tr1); +#endif + /* + * program SDRAM Timing Register 1 TR1 + */ + mtsdram(mem_tr1, tr1); +} + +unsigned long program_bxcr(unsigned long* dimm_populated, + unsigned char* iic0_dimm_addr, + unsigned long num_dimm_banks) +{ + unsigned long dimm_num; + unsigned long bxcr_num; + unsigned long bank_base_addr; + unsigned long bank_size_bytes; + unsigned long cr; + unsigned long i; + unsigned long temp; + unsigned char num_row_addr; + unsigned char num_col_addr; + unsigned char num_banks; + unsigned char bank_size_id; + + + /* + * Set the BxCR regs. First, wipe out the bank config registers. + */ + for (bxcr_num = 0; bxcr_num < MAXBXCR; bxcr_num++) { + mtdcr(memcfga, mem_b0cr + (bxcr_num << 2)); + mtdcr(memcfgd, 0x00000000); + } + + /* + * reset the bank_base address + */ + bank_base_addr = CFG_SDRAM_BASE; + + for (dimm_num = 0; dimm_num < num_dimm_banks; dimm_num++) { + if (dimm_populated[dimm_num] == TRUE) { + num_row_addr = spd_read(iic0_dimm_addr[dimm_num], 3); + num_col_addr = spd_read(iic0_dimm_addr[dimm_num], 4); + num_banks = spd_read(iic0_dimm_addr[dimm_num], 5); + bank_size_id = spd_read(iic0_dimm_addr[dimm_num], 31); + + /* + * Set the SDRAM0_BxCR regs + */ + cr = 0; + bank_size_bytes = 4 * 1024 * 1024 * bank_size_id; + switch (bank_size_id) { + case 0x02: + cr |= SDRAM_BXCR_SDSZ_8; + break; + case 0x04: + cr |= SDRAM_BXCR_SDSZ_16; + break; + case 0x08: + cr |= SDRAM_BXCR_SDSZ_32; + break; + case 0x10: + cr |= SDRAM_BXCR_SDSZ_64; + break; + case 0x20: + cr |= SDRAM_BXCR_SDSZ_128; + break; + case 0x40: + cr |= SDRAM_BXCR_SDSZ_256; + break; + case 0x80: + cr |= SDRAM_BXCR_SDSZ_512; + break; + default: + printf("DDR-SDRAM: DIMM %lu BxCR configuration.\n", + dimm_num); + printf("ERROR: Unsupported value for the banksize: %d.\n", + bank_size_id); + printf("Replace the DIMM module with a supported DIMM.\n\n"); + hang(); + } + + switch (num_col_addr) { + case 0x08: + cr |= SDRAM_BXCR_SDAM_1; + break; + case 0x09: + cr |= SDRAM_BXCR_SDAM_2; + break; + case 0x0A: + cr |= SDRAM_BXCR_SDAM_3; + break; + case 0x0B: + cr |= SDRAM_BXCR_SDAM_4; + break; + default: + printf("DDR-SDRAM: DIMM %lu BxCR configuration.\n", + dimm_num); + printf("ERROR: Unsupported value for number of " + "column addresses: %d.\n", num_col_addr); + printf("Replace the DIMM module with a supported DIMM.\n\n"); + hang(); + } + + /* + * enable the bank + */ + cr |= SDRAM_BXCR_SDBE; + + /*------------------------------------------------------------------ + | This next section is hardware dependent and must be programmed + | to match the hardware. + +-----------------------------------------------------------------*/ + if (dimm_num == 0) { + for (i = 0; i < num_banks; i++) { + mtdcr(memcfga, mem_b0cr + (i << 2)); + temp = mfdcr(memcfgd) & ~(SDRAM_BXCR_SDBA_MASK | + SDRAM_BXCR_SDSZ_MASK | + SDRAM_BXCR_SDAM_MASK | + SDRAM_BXCR_SDBE); + cr |= temp; + cr |= bank_base_addr & SDRAM_BXCR_SDBA_MASK; + mtdcr(memcfgd, cr); + bank_base_addr += bank_size_bytes; + } + } + else { + for (i = 0; i < num_banks; i++) { + mtdcr(memcfga, mem_b2cr + (i << 2)); + temp = mfdcr(memcfgd) & ~(SDRAM_BXCR_SDBA_MASK | + SDRAM_BXCR_SDSZ_MASK | + SDRAM_BXCR_SDAM_MASK | + SDRAM_BXCR_SDBE); + cr |= temp; + cr |= bank_base_addr & SDRAM_BXCR_SDBA_MASK; + mtdcr(memcfgd, cr); + bank_base_addr += bank_size_bytes; + } + } + } + } + + return(bank_base_addr); +} + +void program_ecc (unsigned long num_bytes) +{ + unsigned long bank_base_addr; + unsigned long current_address; + unsigned long end_address; + unsigned long address_increment; + unsigned long cfg0; + + /* + * get Memory Controller Options 0 data + */ + mfsdram(mem_cfg0, cfg0); + + /* + * reset the bank_base address + */ + bank_base_addr = CFG_SDRAM_BASE; + + if ((cfg0 & SDRAM_CFG0_MCHK_MASK) != SDRAM_CFG0_MCHK_NON) { + mtsdram(mem_cfg0, (cfg0 & ~SDRAM_CFG0_MCHK_MASK) | + SDRAM_CFG0_MCHK_GEN); + + if ((cfg0 & SDRAM_CFG0_DMWD_MASK) == SDRAM_CFG0_DMWD_32) { + address_increment = 4; + } + else { + address_increment = 8; + } + + current_address = (unsigned long)(bank_base_addr); + end_address = (unsigned long)(bank_base_addr) + num_bytes; + + while (current_address < end_address) { + *((unsigned long*)current_address) = 0x00000000; + current_address += address_increment; + } + + mtsdram(mem_cfg0, (cfg0 & ~SDRAM_CFG0_MCHK_MASK) | + SDRAM_CFG0_MCHK_CHK); + } +} + +#endif /* CONFIG_440 */ + +#endif /* CONFIG_SPD_EEPROM */ |