/* * (C) Copyright 2001 * Erik Theisen, Wave 7 Optics, etheisen@mindspring.com. * * SPDX-License-Identifier: GPL-2.0+ */ #if defined(VXWORKS) #include #include #define CONFIG_SYS_DEF_EEPROM_ADDR 0xa0 extern char iicReadByte(char, char); extern ulong_t crc32(unsigned char *, unsigned long); #else #include #endif #include "vpd.h" /* * vpd_reader() - reads VPD data from I2C EEPROMS. * returns pointer to buffer or NULL. */ static unsigned char *vpd_reader(unsigned char *buf, unsigned dev_addr, unsigned off, unsigned count) { unsigned offset = off; /* Calculated offset */ /* * The main board EEPROM contains * SDRAM SPD in the first 128 bytes, * so skew the offset. */ if (dev_addr == CONFIG_SYS_DEF_EEPROM_ADDR) offset += SDRAM_SPD_DATA_SIZE; /* Try to read the I2C EEPROM */ #if defined(VXWORKS) { int i; for (i = 0; i < count; ++i) buf[i] = iicReadByte(dev_addr, offset + i); } #else if (eeprom_read(dev_addr, offset, buf, count)) { printf("Failed to read %d bytes from VPD EEPROM 0x%x @ 0x%x\n", count, dev_addr, offset); return NULL; } #endif return buf; } /* * vpd_get_packet() - returns next VPD packet or NULL. */ static vpd_packet_t *vpd_get_packet(vpd_packet_t * vpd_packet) { vpd_packet_t *packet = vpd_packet; if (packet != NULL) { if (packet->identifier == VPD_PID_TERM) return NULL; else packet = (vpd_packet_t *) ((char *) packet + packet->size + 2); } return packet; } /* * vpd_find_packet() - Locates and returns the specified * VPD packet or NULL on error. */ static vpd_packet_t *vpd_find_packet(vpd_t * vpd, unsigned char ident) { vpd_packet_t *packet = (vpd_packet_t *) &vpd->packets; /* Guaranteed illegal */ if (ident == VPD_PID_GI) return NULL; /* Scan tuples looking for a match */ while ((packet->identifier != ident) && (packet->identifier != VPD_PID_TERM)) packet = vpd_get_packet(packet); /* Did we find it? */ if ((packet->identifier) && (packet->identifier != ident)) return NULL; return packet; } /* * vpd_is_valid() - Validates contents of VPD data * in I2C EEPROM. Returns 1 for * success or 0 for failure. */ static int vpd_is_valid(unsigned dev_addr, unsigned char *buf) { unsigned num_bytes; vpd_packet_t *packet; vpd_t *vpd = (vpd_t *) buf; unsigned short stored_crc16, calc_crc16 = 0xffff; /* Check Eyecatcher */ if (strncmp ((char *) (vpd->header.eyecatcher), VPD_EYECATCHER, VPD_EYE_SIZE) != 0) { unsigned offset = 0; if (dev_addr == CONFIG_SYS_DEF_EEPROM_ADDR) offset += SDRAM_SPD_DATA_SIZE; printf("Error: VPD EEPROM 0x%x corrupt @ 0x%x\n", dev_addr, offset); return 0; } /* Check Length */ if (vpd->header.size > VPD_MAX_EEPROM_SIZE) { printf("Error: VPD EEPROM 0x%x contains bad size 0x%x\n", dev_addr, vpd->header.size); return 0; } /* Now find the termination packet */ packet = vpd_find_packet(vpd, VPD_PID_TERM); if (packet == NULL) { printf("Error: VPD EEPROM 0x%x missing termination packet\n", dev_addr); return 0; } /* Calculate data size */ num_bytes = (unsigned long) ((unsigned char *) packet - (unsigned char *) vpd + sizeof(vpd_packet_t)); /* Find stored CRC and clear it */ packet = vpd_find_packet(vpd, VPD_PID_CRC); if (packet == NULL) { printf("Error: VPD EEPROM 0x%x missing CRC\n", dev_addr); return 0; } memcpy(&stored_crc16, packet->data, sizeof(ushort)); memset(packet->data, 0, sizeof(ushort)); /* OK, lets calculate the CRC and check it */ #if defined(VXWORKS) calc_crc16 = (0xffff & crc32(buf, num_bytes)); #else calc_crc16 = (0xffff & crc32(0, buf, num_bytes)); #endif /* Now restore the CRC */ memcpy(packet->data, &stored_crc16, sizeof(ushort)); if (stored_crc16 != calc_crc16) { printf("Error: VPD EEPROM 0x%x has bad CRC 0x%x\n", dev_addr, stored_crc16); return 0; } return 1; } /* * size_ok() - Check to see if packet size matches * size of data we want. Returns 1 for * good match or 0 for failure. */ static int size_ok(vpd_packet_t *packet, unsigned long size) { if (packet->size != size) { printf("VPD Packet 0x%x corrupt.\n", packet->identifier); return 0; } return 1; } /* * strlen_ok() - Check to see if packet size matches * strlen of the string we want to populate. * Returns 1 for valid length or 0 for failure. */ static int strlen_ok(vpd_packet_t *packet, unsigned long length) { if (packet->size >= length) { printf("VPD Packet 0x%x corrupt.\n", packet->identifier); return 0; } return 1; } /* * get_vpd_data() - populates the passed VPD structure 'vpdInfo' * with data obtained from the specified * I2C EEPROM 'dev_addr'. Returns 0 for * success or 1 for failure. */ int vpd_get_data(unsigned char dev_addr, VPD *vpdInfo) { unsigned char buf[VPD_EEPROM_SIZE]; vpd_t *vpd = (vpd_t *) buf; vpd_packet_t *packet; if (vpdInfo == NULL) return 1; /* * Fill vpdInfo with 0s to blank out * unused fields, fill vpdInfo->ethAddrs * with all 0xffs so that other's code can * determine how many real Ethernet addresses * there are. OUIs starting with 0xff are * broadcast addresses, and would never be * permantely stored. */ memset((void *) vpdInfo, 0, sizeof(VPD)); memset((void *) &vpdInfo->ethAddrs, 0xff, sizeof(vpdInfo->ethAddrs)); vpdInfo->_devAddr = dev_addr; /* Read the minimum size first */ if (vpd_reader(buf, dev_addr, 0, VPD_EEPROM_SIZE) == NULL) return 1; /* Check validity of VPD data */ if (!vpd_is_valid(dev_addr, buf)) { printf("VPD Data is INVALID!\n"); return 1; } /* * Walk all the packets and populate * the VPD info structure. */ packet = (vpd_packet_t *) &vpd->packets; do { switch (packet->identifier) { case VPD_PID_GI: printf("Error: Illegal VPD value\n"); break; case VPD_PID_PID: if (strlen_ok(packet, MAX_PROD_ID)) { strncpy(vpdInfo->productId, (char *) (packet->data), packet->size); } break; case VPD_PID_REV: if (size_ok(packet, sizeof(char))) vpdInfo->revisionId = *packet->data; break; case VPD_PID_SN: if (size_ok(packet, sizeof(unsigned long))) { memcpy(&vpdInfo->serialNum, packet->data, sizeof(unsigned long)); } break; case VPD_PID_MANID: if (size_ok(packet, sizeof(unsigned char))) vpdInfo->manuID = *packet->data; break; case VPD_PID_PCO: if (size_ok(packet, sizeof(unsigned long))) { memcpy(&vpdInfo->configOpt, packet->data, sizeof(unsigned long)); } break; case VPD_PID_SYSCLK: if (size_ok(packet, sizeof(unsigned long))) memcpy(&vpdInfo->sysClk, packet->data, sizeof(unsigned long)); break; case VPD_PID_SERCLK: if (size_ok(packet, sizeof(unsigned long))) memcpy(&vpdInfo->serClk, packet->data, sizeof(unsigned long)); break; case VPD_PID_FLASH: if (size_ok(packet, 9)) { /* XXX - hardcoded, padding in struct */ memcpy(&vpdInfo->flashCfg, packet->data, 9); } break; case VPD_PID_ETHADDR: memcpy(vpdInfo->ethAddrs, packet->data, packet->size); break; case VPD_PID_POTS: if (size_ok(packet, sizeof(char))) vpdInfo->numPOTS = (unsigned) *packet->data; break; case VPD_PID_DS1: if (size_ok(packet, sizeof(char))) vpdInfo->numDS1 = (unsigned) *packet->data; case VPD_PID_GAL: case VPD_PID_CRC: case VPD_PID_TERM: break; default: printf("Warning: Found unknown VPD packet ID 0x%x\n", packet->identifier); break; } } while ((packet = vpd_get_packet(packet))); return 0; } /* * vpd_init() - Initialize default VPD environment */ int vpd_init(unsigned char dev_addr) { return 0; } /* * vpd_print() - Pretty print the VPD data. */ void vpd_print(VPD *vpdInfo) { const char *const sp = ""; const char *const sfmt = "%4s%-20s: \"%s\"\n"; const char *const cfmt = "%4s%-20s: '%c'\n"; const char *const dfmt = "%4s%-20s: %ld\n"; const char *const hfmt = "%4s%-20s: %08lX\n"; const char *const dsfmt = "%4s%-20s: %d\n"; const char *const hsfmt = "%4s%-20s: %04X\n"; const char *const dhfmt = "%4s%-20s: %ld (%lX)\n"; printf("VPD read from I2C device: %02X\n", vpdInfo->_devAddr); if (vpdInfo->productId[0]) printf(sfmt, sp, "Product ID", vpdInfo->productId); else printf(sfmt, sp, "Product ID", "UNKNOWN"); if (vpdInfo->revisionId) printf(cfmt, sp, "Revision ID", vpdInfo->revisionId); if (vpdInfo->serialNum) printf(dfmt, sp, "Serial Number", vpdInfo->serialNum); if (vpdInfo->manuID) printf(dfmt, sp, "Manufacture ID", (long) vpdInfo->manuID); if (vpdInfo->configOpt) printf(hfmt, sp, "Configuration", vpdInfo->configOpt); if (vpdInfo->sysClk) printf(dhfmt, sp, "System Clock", vpdInfo->sysClk, vpdInfo->sysClk); if (vpdInfo->serClk) printf(dhfmt, sp, "Serial Clock", vpdInfo->serClk, vpdInfo->serClk); if (vpdInfo->numPOTS) printf(dfmt, sp, "Number of POTS lines", vpdInfo->numPOTS); if (vpdInfo->numDS1) printf(dfmt, sp, "Number of DS1s", vpdInfo->numDS1); /* Print Ethernet Addresses */ if (vpdInfo->ethAddrs[0][0] != 0xff) { int i, j; printf("%4sEtherNet Address(es): ", sp); for (i = 0; i < MAX_ETH_ADDRS; i++) { if (vpdInfo->ethAddrs[i][0] != 0xff) { for (j = 0; j < 6; j++) { printf("%02X", vpdInfo->ethAddrs[i][j]); if (((j + 1) % 6) != 0) printf(":"); else printf(" "); } if (((i + 1) % 3) == 0) printf("\n%24s: ", sp); } } printf("\n"); } if (vpdInfo->flashCfg.mfg && vpdInfo->flashCfg.dev) { printf("Main Flash Configuration:\n"); printf(hsfmt, sp, "Manufacture ID", vpdInfo->flashCfg.mfg); printf(hsfmt, sp, "Device ID", vpdInfo->flashCfg.dev); printf(dsfmt, sp, "Device Width", vpdInfo->flashCfg.devWidth); printf(dsfmt, sp, "Num. Devices", vpdInfo->flashCfg.numDevs); printf(dsfmt, sp, "Num. Columns", vpdInfo->flashCfg.numCols); printf(dsfmt, sp, "Column Width", vpdInfo->flashCfg.colWidth); printf(dsfmt, sp, "WE Data Width", vpdInfo->flashCfg.weDataWidth); } }