vpd.c
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/*
* (C) Copyright 2001
* Erik Theisen, Wave 7 Optics, etheisen@mindspring.com.
*
* SPDX-License-Identifier: GPL-2.0+
*/
#if defined(VXWORKS)
#include <stdio.h>
#include <string.h>
#define CONFIG_SYS_DEF_EEPROM_ADDR 0xa0
extern char iicReadByte(char, char);
extern ulong_t crc32(unsigned char *, unsigned long);
#else
#include <common.h>
#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);
}
}