/* ETHERBOOT - BOOTP/TFTP Bootstrap Program Author: Martin Renters Date: May/94 This code is based heavily on David Greenman's if_ed.c driver Copyright (C) 1993-1994, David Greenman, Martin Renters. This software may be used, modified, copied, distributed, and sold, in both source and binary form provided that the above copyright and these terms are retained. Under no circumstances are the authors responsible for the proper functioning of this software, nor do the authors assume any responsibility for damages incurred with its use. Multicast support added by Timothy Legge (timlegge@users.sourceforge.net) 09/28/2003 Relocation support added by Ken Yap (ken_yap@users.sourceforge.net) 28/12/02 3c503 support added by Bill Paul (wpaul@ctr.columbia.edu) on 11/15/94 SMC8416 support added by Bill Paul (wpaul@ctr.columbia.edu) on 12/25/94 3c503 PIO support added by Jim Hague (jim.hague@acm.org) on 2/17/98 RX overrun by Klaus Espenlaub (espenlaub@informatik.uni-ulm.de) on 3/10/99 parts taken from the Linux 8390 driver (by Donald Becker and Paul Gortmaker) SMC8416 PIO support added by Andrew Bettison (andrewb@zip.com.au) on 4/3/02 based on the Linux 8390 driver (by Donald Becker and Paul Gortmaker) (C) Rudolf Marek <r.marek@assembler.cz> Simplify for RTL8029, Add coreboot glue logic */ #include <arch/io.h> #include <console/console.h> #include <console/ne2k.h> #include <delay.h> #include <device/device.h> #include <device/pci.h> #include <device/pci_ids.h> #include <device/pci_ops.h> #include <stdlib.h> #include <string.h> #include <ip_checksum.h> #include "ns8390.h" #define ETH_ALEN 6 /* Size of Ethernet address */ #define ETH_HLEN 14 /* Size of ethernet header */ #define ETH_ZLEN 60 /* Minimum packet */ #define ETH_FRAME_LEN 1514 /* Maximum packet */ #define ETH_DATA_ALIGN 2 /* Amount needed to align the data after an ethernet header */ #define ETH_MAX_MTU (ETH_FRAME_LEN-ETH_HLEN) #define MEM_SIZE MEM_32768 #define TX_START 64 #define RX_START (64 + D8390_TXBUF_SIZE) static unsigned int get_count(unsigned int eth_nic_base) { unsigned int ret; outb(D8390_COMMAND_RD2 + D8390_COMMAND_PS1, eth_nic_base + D8390_P0_COMMAND); ret = inb(eth_nic_base + 8 + 0) | (inb(eth_nic_base + 8 + 1) << 8); outb(D8390_COMMAND_RD2 + D8390_COMMAND_PS0, eth_nic_base + D8390_P0_COMMAND); return ret; } static void set_count(unsigned int eth_nic_base, unsigned int what) { outb(D8390_COMMAND_RD2 + D8390_COMMAND_PS1, eth_nic_base + D8390_P0_COMMAND); outb(what & 0xff,eth_nic_base + 8); outb((what >> 8) & 0xff,eth_nic_base + 8 + 1); outb(D8390_COMMAND_RD2 + D8390_COMMAND_PS0, eth_nic_base + D8390_P0_COMMAND); } static void eth_pio_write(unsigned char *src, unsigned int dst, unsigned int cnt, unsigned int eth_nic_base) { outb(D8390_COMMAND_RD2 | D8390_COMMAND_STA, eth_nic_base + D8390_P0_COMMAND); outb(D8390_ISR_RDC, eth_nic_base + D8390_P0_ISR); outb(cnt, eth_nic_base + D8390_P0_RBCR0); outb(cnt >> 8, eth_nic_base + D8390_P0_RBCR1); outb(dst, eth_nic_base + D8390_P0_RSAR0); outb(dst >> 8, eth_nic_base + D8390_P0_RSAR1); outb(D8390_COMMAND_RD1 | D8390_COMMAND_STA, eth_nic_base + D8390_P0_COMMAND); while (cnt--) { outb(*(src++), eth_nic_base + NE_ASIC_OFFSET + NE_DATA); } /* #warning "Add timeout" */ /* wait for operation finish */ while ((inb(eth_nic_base + D8390_P0_ISR) & D8390_ISR_RDC) != D8390_ISR_RDC) ; } void ne2k_append_data(unsigned char *d, int len, unsigned int base) { eth_pio_write(d, (TX_START << 8) + 42 + get_count(base), len, base); set_count(base, get_count(base)+len); } #ifdef __ROMCC__ void eth_pio_write_byte(int data, unsigned short dst, unsigned int eth_nic_base) { outb(D8390_COMMAND_RD2 | D8390_COMMAND_STA, eth_nic_base + D8390_P0_COMMAND); outb(D8390_ISR_RDC, eth_nic_base + D8390_P0_ISR); outb(1, eth_nic_base + D8390_P0_RBCR0); outb(0, eth_nic_base + D8390_P0_RBCR1); outb(dst, eth_nic_base + D8390_P0_RSAR0); outb(dst >> 8, eth_nic_base + D8390_P0_RSAR1); outb(D8390_COMMAND_RD1 | D8390_COMMAND_STA, eth_nic_base + D8390_P0_COMMAND); outb(data, eth_nic_base + NE_ASIC_OFFSET + NE_DATA); while ((inb(eth_nic_base + D8390_P0_ISR) & D8390_ISR_RDC) != D8390_ISR_RDC) ; } void ne2k_append_data_byte(int d, unsigned int base) { eth_pio_write_byte(d, (TX_START << 8) + 42 + get_count(base), base); set_count(base, get_count(base)+1); } static unsigned char eth_pio_read_byte(unsigned int src, unsigned int eth_nic_base) { outb(D8390_COMMAND_RD2 | D8390_COMMAND_STA, eth_nic_base + D8390_P0_COMMAND); outb(0, eth_nic_base + D8390_P0_RBCR0); outb(1, eth_nic_base + D8390_P0_RBCR1); outb(src, eth_nic_base + D8390_P0_RSAR0); outb(src >> 8, eth_nic_base + D8390_P0_RSAR1); outb(D8390_COMMAND_RD0 | D8390_COMMAND_STA, eth_nic_base + D8390_P0_COMMAND); return inb(eth_nic_base + NE_ASIC_OFFSET + NE_DATA); } /* Variation of compute_ip_checksum which works on SRAM */ unsigned long compute_ip_checksum_from_sram(unsigned short offset, unsigned short length, unsigned int eth_nic_base) { unsigned long sum; unsigned long i; /* In the most straight forward way possible, * compute an ip style checksum. */ sum = 0; for (i = 0; i < length; i++) { unsigned long v; v = eth_pio_read_byte((TX_START << 8)+i+offset, eth_nic_base); if (i & 1) { v <<= 8; } /* Add the new value */ sum += v; /* Wrap around the carry */ if (sum > 0xFFFF) { sum = (sum + (sum >> 16)) & 0xFFFF; } } return (~((sum & 0xff) | (((sum >> 8) & 0xff) << 8) )) & 0xffff; } static void str2ip_load(const char *str, unsigned short offset, unsigned int eth_nic_base) #else static void str2ip(const char *str, unsigned char *ip) #endif { unsigned char c, i = 0; int acc = 0; do { c = str[i]; if ((c >= '0') && (c <= '9')) { acc *= 10; acc += (c - '0'); } else { #ifdef __ROMCC__ eth_pio_write_byte(acc, (TX_START << 8)+offset, eth_nic_base); offset++; #else *ip++ = acc; #endif acc = 0; } i++; } while (c != '\0'); } #ifdef __ROMCC__ static void str2mac_load(const char *str, unsigned short offset, unsigned int eth_nic_base) #else static void str2mac(const char *str, unsigned char *mac) #endif { unsigned char c, i = 0; int acc = 0; do { c = str[i]; if ((c >= '0') && (c <= '9')) { acc *= 16; acc += (c - '0'); } else if ((c >= 'a') && (c <= 'f')) { acc *= 16; acc += ((c - 'a') + 10) ; } else if ((c >= 'A') && (c <= 'F')) { acc *= 16; acc += ((c - 'A') + 10) ; } else { #ifdef __ROMCC__ eth_pio_write_byte(acc, ((TX_START << 8)+offset), eth_nic_base); offset++; #else *mac++ = acc; #endif acc = 0; } i++; } while (c != '\0'); } #ifndef __ROMCC__ static void ns8390_tx_header(unsigned int eth_nic_base, int pktlen) { unsigned short chksum; unsigned char hdr[] = { #else static const unsigned char hdr[] = { #endif /* * ETHERNET HDR */ // destination macaddr 0x02, 0x00, 0x00, 0x00, 0x00, 0x01, /* source mac */ 0x02, 0x00, 0x00, 0xC0, 0xFF, 0xEE, /* ethtype (IP) */ 0x08, 0x00, /* * IP HDR */ 0x45, 0x00, 0x00, 0x00, 0x00, 0x00, 0x40, 0x00, /* TTL, proto (UDP), chksum_hi, chksum_lo, IP0, IP1, IP2, IP3, */ 0x40, 0x11, 0x0, 0x0, 0x7f, 0x0, 0x0, 0x1, /* IP0, IP1, IP2, IP3 */ 0xff, 0xff, 0xff, 0xff, /* * UDP HDR */ /* SRC PORT DST PORT (2bytes each), ulen, uchksum (must be zero or correct */ 0x1a, 0x0b, 0x1a, 0x0a, 0x00, 0x9, 0x00, 0x00, }; #ifndef __ROMCC__ str2mac(CONFIG_CONSOLE_NE2K_DST_MAC, &hdr[0]); str2ip(CONFIG_CONSOLE_NE2K_DST_IP, &hdr[30]); str2ip(CONFIG_CONSOLE_NE2K_SRC_IP, &hdr[26]); /* zero checksum */ hdr[24] = 0; hdr[25] = 0; /* update IP packet len */ hdr[16] = ((28 + pktlen) >> 8) & 0xff; hdr[17] = (28 + pktlen) & 0xff; /* update UDP len */ hdr[38] = (8 + pktlen) >> 8; hdr[39] = 8 + pktlen; chksum = compute_ip_checksum(&hdr[14], 20); hdr[25] = chksum >> 8; hdr[24] = chksum; eth_pio_write(hdr, (TX_START << 8), sizeof(hdr), eth_nic_base); } #else /* ROMCC madness */ static void ns8390_tx_header(unsigned int eth_nic_base, int pktlen) { unsigned short chksum; eth_pio_write(hdr, (TX_START << 8), sizeof(hdr), eth_nic_base); str2mac_load(CONFIG_CONSOLE_NE2K_DST_MAC, 0, eth_nic_base); str2ip_load(CONFIG_CONSOLE_NE2K_DST_IP, 30, eth_nic_base); str2ip_load(CONFIG_CONSOLE_NE2K_SRC_IP, 26, eth_nic_base); /* zero checksum */ eth_pio_write_byte(0, (TX_START << 8)+24, eth_nic_base); eth_pio_write_byte(0, (TX_START << 8)+25, eth_nic_base); /* update IP packet len */ eth_pio_write_byte(((28 + pktlen) >> 8) & 0xff, (TX_START << 8)+16, eth_nic_base); eth_pio_write_byte( (28 + pktlen) & 0xff, (TX_START << 8)+17, eth_nic_base); /* update UDP len */ eth_pio_write_byte((8 + pktlen) >> 8, (TX_START << 8)+38, eth_nic_base); eth_pio_write_byte( 8 + pktlen, (TX_START << 8)+39, eth_nic_base); chksum = compute_ip_checksum_from_sram(14, 20, eth_nic_base); eth_pio_write_byte(chksum, (TX_START << 8)+24, eth_nic_base); eth_pio_write_byte(chksum >> 8, (TX_START << 8)+25, eth_nic_base); } #endif void ne2k_transmit(unsigned int eth_nic_base) { unsigned int pktsize; unsigned int len = get_count(eth_nic_base); // so place whole header inside chip buffer ns8390_tx_header(eth_nic_base, len); // commit sending now outb(D8390_COMMAND_PS0 | D8390_COMMAND_RD2 | D8390_COMMAND_STA, eth_nic_base + D8390_P0_COMMAND); outb(TX_START, eth_nic_base + D8390_P0_TPSR); pktsize = 42 + len; if (pktsize < 64) pktsize = 64; outb(pktsize, eth_nic_base + D8390_P0_TBCR0); outb(pktsize >> 8, eth_nic_base + D8390_P0_TBCR1); outb(D8390_ISR_PTX, eth_nic_base + D8390_P0_ISR); outb(D8390_COMMAND_PS0 | D8390_COMMAND_TXP | D8390_COMMAND_RD2 | D8390_COMMAND_STA, eth_nic_base + D8390_P0_COMMAND); /* wait for operation finish */ while ((inb(eth_nic_base + D8390_P0_ISR) & D8390_ISR_PTX) != D8390_ISR_PTX) ; set_count(eth_nic_base, 0); } #ifdef __PRE_RAM__ static void ns8390_reset(unsigned int eth_nic_base) { int i; outb(D8390_COMMAND_PS0 | D8390_COMMAND_RD2 | D8390_COMMAND_STP, eth_nic_base + D8390_P0_COMMAND); outb(0x48, eth_nic_base + D8390_P0_DCR); outb(0, eth_nic_base + D8390_P0_RBCR0); outb(0, eth_nic_base + D8390_P0_RBCR1); outb(0x20, eth_nic_base + D8390_P0_RCR); outb(2, eth_nic_base + D8390_P0_TCR); outb(TX_START, eth_nic_base + D8390_P0_TPSR); outb(RX_START, eth_nic_base + D8390_P0_PSTART); outb(MEM_SIZE, eth_nic_base + D8390_P0_PSTOP); outb(MEM_SIZE - 1, eth_nic_base + D8390_P0_BOUND); outb(0xFF, eth_nic_base + D8390_P0_ISR); outb(0, eth_nic_base + D8390_P0_IMR); outb(D8390_COMMAND_PS1 | D8390_COMMAND_RD2 | D8390_COMMAND_STP, eth_nic_base + D8390_P0_COMMAND); for (i = 0; i < ETH_ALEN; i++) outb(0x0C, eth_nic_base + D8390_P1_PAR0 + i); for (i = 0; i < ETH_ALEN; i++) outb(0xFF, eth_nic_base + D8390_P1_MAR0 + i); outb(RX_START, eth_nic_base + D8390_P1_CURR); outb(D8390_COMMAND_PS0 | D8390_COMMAND_RD2 | D8390_COMMAND_STA, eth_nic_base + D8390_P0_COMMAND); outb(0xFF, eth_nic_base + D8390_P0_ISR); outb(0, eth_nic_base + D8390_P0_TCR); outb(4, eth_nic_base + D8390_P0_RCR); set_count(eth_nic_base, 0); } int ne2k_init(unsigned int eth_nic_base) { device_t dev; unsigned char c; /* Power management controller */ dev = pci_locate_device(PCI_ID(0x10ec, 0x8029), 0); if (dev == PCI_DEV_INVALID) return 0; pci_write_config32(dev, 0x10, eth_nic_base | 1 ); pci_write_config8(dev, 0x4, 0x1); c = inb(eth_nic_base + NE_ASIC_OFFSET + NE_RESET); outb(c, eth_nic_base + NE_ASIC_OFFSET + NE_RESET); (void) inb(0x84); outb(D8390_COMMAND_STP | D8390_COMMAND_RD2, eth_nic_base + D8390_P0_COMMAND); outb(D8390_RCR_MON, eth_nic_base + D8390_P0_RCR); outb(D8390_DCR_FT1 | D8390_DCR_LS, eth_nic_base + D8390_P0_DCR); outb(MEM_8192, eth_nic_base + D8390_P0_PSTART); outb(MEM_16384, eth_nic_base + D8390_P0_PSTOP); ns8390_reset(eth_nic_base); return 1; } #else int ne2k_init(unsigned int eth_nic_base) { return 0; } // dummy symbol for ramstage static void read_resources(struct device *dev) { struct resource *res; res = new_resource(dev, PCI_BASE_ADDRESS_0); res->base = CONFIG_CONSOLE_NE2K_IO_PORT; res->size = 32; res->align = 5; res->gran = 5; res->limit = res->base + res->size - 1; res->flags = IORESOURCE_IO | IORESOURCE_FIXED | IORESOURCE_STORED | IORESOURCE_ASSIGNED; return; } static struct device_operations ne2k_ops = { .read_resources = read_resources, .set_resources = pci_dev_set_resources, .enable_resources = pci_dev_enable_resources, .init = 0, .scan_bus = 0, }; static const struct pci_driver ne2k_driver __pci_driver = { .ops = &ne2k_ops, .vendor = 0x10ec, .device = 0x8029, }; #endif /* __PRE_RAM__ */