/* * Realtek 8019AS Ethernet * (C) Copyright 2002-2003 * Xue Ligong(lgxue@hotmail.com),Wang Kehao, ESLAB, whut.edu.cn * * 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 code works in 8bit mode. * If you need to work in 16bit mode, PLS change it! */ #include <common.h> #include <command.h> #include "rtl8019.h" #include <net.h> #ifdef CONFIG_DRIVER_RTL8019 #if defined(CONFIG_CMD_NET) /* packet page register access functions */ static unsigned char get_reg (unsigned int regno) { return (*(unsigned char *) regno); } static void put_reg (unsigned int regno, unsigned char val) { *(volatile unsigned char *) regno = val; } static void eth_reset (void) { unsigned char ucTemp; /* reset NIC */ ucTemp = get_reg (RTL8019_RESET); put_reg (RTL8019_RESET, ucTemp); put_reg (RTL8019_INTERRUPTSTATUS, 0xff); udelay (2000); /* wait for 2ms */ } void rtl8019_get_enetaddr (uchar * addr) { unsigned char i; unsigned char temp; eth_reset (); put_reg (RTL8019_COMMAND, RTL8019_REMOTEDMARD); put_reg (RTL8019_DATACONFIGURATION, 0x48); put_reg (RTL8019_REMOTESTARTADDRESS0, 0x00); put_reg (RTL8019_REMOTESTARTADDRESS1, 0x00); put_reg (RTL8019_REMOTEBYTECOUNT0, 12); put_reg (RTL8019_REMOTEBYTECOUNT1, 0x00); put_reg (RTL8019_COMMAND, RTL8019_REMOTEDMARD); printf ("MAC: "); for (i = 0; i < 6; i++) { temp = get_reg (RTL8019_DMA_DATA); *addr++ = temp; temp = get_reg (RTL8019_DMA_DATA); printf ("%x:", temp); } while ((!get_reg (RTL8019_INTERRUPTSTATUS) & 0x40)); printf ("\b \n"); put_reg (RTL8019_REMOTEBYTECOUNT0, 0x00); put_reg (RTL8019_REMOTEBYTECOUNT1, 0x00); put_reg (RTL8019_COMMAND, RTL8019_PAGE0); } void eth_halt (void) { put_reg (RTL8019_COMMAND, 0x01); } int eth_init (bd_t * bd) { eth_reset (); put_reg (RTL8019_COMMAND, RTL8019_PAGE0STOP); put_reg (RTL8019_DATACONFIGURATION, 0x48); put_reg (RTL8019_REMOTEBYTECOUNT0, 0x00); put_reg (RTL8019_REMOTEBYTECOUNT1, 0x00); put_reg (RTL8019_RECEIVECONFIGURATION, 0x00); /*00; */ put_reg (RTL8019_TRANSMITPAGE, RTL8019_TPSTART); put_reg (RTL8019_TRANSMITCONFIGURATION, 0x02); put_reg (RTL8019_PAGESTART, RTL8019_PSTART); put_reg (RTL8019_BOUNDARY, RTL8019_PSTART); put_reg (RTL8019_PAGESTOP, RTL8019_PSTOP); put_reg (RTL8019_INTERRUPTSTATUS, 0xff); put_reg (RTL8019_INTERRUPTMASK, 0x11); /*b; */ put_reg (RTL8019_COMMAND, RTL8019_PAGE1STOP); put_reg (RTL8019_PHYSICALADDRESS0, bd->bi_enetaddr[0]); put_reg (RTL8019_PHYSICALADDRESS1, bd->bi_enetaddr[1]); put_reg (RTL8019_PHYSICALADDRESS2, bd->bi_enetaddr[2]); put_reg (RTL8019_PHYSICALADDRESS3, bd->bi_enetaddr[3]); put_reg (RTL8019_PHYSICALADDRESS4, bd->bi_enetaddr[4]); put_reg (RTL8019_PHYSICALADDRESS5, bd->bi_enetaddr[5]); put_reg (RTL8019_MULTIADDRESS0, 0x00); put_reg (RTL8019_MULTIADDRESS1, 0x00); put_reg (RTL8019_MULTIADDRESS2, 0x00); put_reg (RTL8019_MULTIADDRESS3, 0x00); put_reg (RTL8019_MULTIADDRESS4, 0x00); put_reg (RTL8019_MULTIADDRESS5, 0x00); put_reg (RTL8019_MULTIADDRESS6, 0x00); put_reg (RTL8019_MULTIADDRESS7, 0x00); put_reg (RTL8019_CURRENT, RTL8019_PSTART); put_reg (RTL8019_COMMAND, RTL8019_PAGE0); put_reg (RTL8019_TRANSMITCONFIGURATION, 0xe0); /*58; */ return 0; } static unsigned char nic_to_pc (void) { unsigned char rec_head_status; unsigned char next_packet_pointer; unsigned char packet_length0; unsigned char packet_length1; unsigned short rxlen = 0; unsigned int i = 4; unsigned char current_point; unsigned char *addr; /* * The RTL8019's first 4B is packet status,page of next packet * and packet length(2B).So we receive the fist 4B. */ put_reg (RTL8019_REMOTESTARTADDRESS1, get_reg (RTL8019_BOUNDARY)); put_reg (RTL8019_REMOTESTARTADDRESS0, 0x00); put_reg (RTL8019_REMOTEBYTECOUNT1, 0x00); put_reg (RTL8019_REMOTEBYTECOUNT0, 0x04); put_reg (RTL8019_COMMAND, RTL8019_REMOTEDMARD); rec_head_status = get_reg (RTL8019_DMA_DATA); next_packet_pointer = get_reg (RTL8019_DMA_DATA); packet_length0 = get_reg (RTL8019_DMA_DATA); packet_length1 = get_reg (RTL8019_DMA_DATA); put_reg (RTL8019_COMMAND, RTL8019_PAGE0); /*Packet length is in two 8bit registers */ rxlen = packet_length1; rxlen = (((rxlen << 8) & 0xff00) + packet_length0); rxlen -= 4; if (rxlen > PKTSIZE_ALIGN + PKTALIGN) printf ("packet too big!\n"); /*Receive the packet */ put_reg (RTL8019_REMOTESTARTADDRESS0, 0x04); put_reg (RTL8019_REMOTESTARTADDRESS1, get_reg (RTL8019_BOUNDARY)); put_reg (RTL8019_REMOTEBYTECOUNT0, (rxlen & 0xff)); put_reg (RTL8019_REMOTEBYTECOUNT1, ((rxlen >> 8) & 0xff)); put_reg (RTL8019_COMMAND, RTL8019_REMOTEDMARD); for (addr = (unsigned char *) NetRxPackets[0], i = rxlen; i > 0; i--) *addr++ = get_reg (RTL8019_DMA_DATA); /* Pass the packet up to the protocol layers. */ NetReceive (NetRxPackets[0], rxlen); while (!(get_reg (RTL8019_INTERRUPTSTATUS)) & 0x40); /* wait for the op. */ /* * To test whether the packets are all received,get the * location of current point */ put_reg (RTL8019_COMMAND, RTL8019_PAGE1); current_point = get_reg (RTL8019_CURRENT); put_reg (RTL8019_COMMAND, RTL8019_PAGE0); put_reg (RTL8019_BOUNDARY, next_packet_pointer); return current_point; } /* Get a data block via Ethernet */ extern int eth_rx (void) { unsigned char temp, current_point; put_reg (RTL8019_COMMAND, RTL8019_PAGE0); while (1) { temp = get_reg (RTL8019_INTERRUPTSTATUS); if (temp & 0x90) { /*overflow */ put_reg (RTL8019_COMMAND, RTL8019_PAGE0STOP); udelay (2000); put_reg (RTL8019_REMOTEBYTECOUNT0, 0); put_reg (RTL8019_REMOTEBYTECOUNT1, 0); put_reg (RTL8019_TRANSMITCONFIGURATION, 2); do { current_point = nic_to_pc (); } while (get_reg (RTL8019_BOUNDARY) != current_point); put_reg (RTL8019_TRANSMITCONFIGURATION, 0xe0); } if (temp & 0x1) { /*packet received */ do { put_reg (RTL8019_INTERRUPTSTATUS, 0x01); current_point = nic_to_pc (); } while (get_reg (RTL8019_BOUNDARY) != current_point); } if (!(temp & 0x1)) return 0; /* done and exit. */ } } /* Send a data block via Ethernet. */ extern int eth_send (volatile void *packet, int length) { volatile unsigned char *p; unsigned int pn; pn = length; p = (volatile unsigned char *) packet; while (get_reg (RTL8019_COMMAND) == RTL8019_TRANSMIT); put_reg (RTL8019_REMOTESTARTADDRESS0, 0); put_reg (RTL8019_REMOTESTARTADDRESS1, RTL8019_TPSTART); put_reg (RTL8019_REMOTEBYTECOUNT0, (pn & 0xff)); put_reg (RTL8019_REMOTEBYTECOUNT1, ((pn >> 8) & 0xff)); put_reg (RTL8019_COMMAND, RTL8019_REMOTEDMAWR); while (pn > 0) { put_reg (RTL8019_DMA_DATA, *p++); pn--; } pn = length; while (pn < 60) { /*Padding */ put_reg (RTL8019_DMA_DATA, 0); pn++; } while (!(get_reg (RTL8019_INTERRUPTSTATUS)) & 0x40); put_reg (RTL8019_INTERRUPTSTATUS, 0x40); put_reg (RTL8019_TRANSMITPAGE, RTL8019_TPSTART); put_reg (RTL8019_TRANSMITBYTECOUNT0, (pn & 0xff)); put_reg (RTL8019_TRANSMITBYTECOUNT1, ((pn >> 8 & 0xff))); put_reg (RTL8019_COMMAND, RTL8019_TRANSMIT); return 0; } #endif /* COMMANDS & CFG_NET */ #endif /* CONFIG_DRIVER_RTL8019 */