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|
/******************************************************************************
*
* Author: Xilinx, Inc.
*
*
* 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.
*
*
* XILINX IS PROVIDING THIS DESIGN, CODE, OR INFORMATION "AS IS" AS A
* COURTESY TO YOU. BY PROVIDING THIS DESIGN, CODE, OR INFORMATION AS
* ONE POSSIBLE IMPLEMENTATION OF THIS FEATURE, APPLICATION OR STANDARD,
* XILINX IS MAKING NO REPRESENTATION THAT THIS IMPLEMENTATION IS FREE
* FROM ANY CLAIMS OF INFRINGEMENT, AND YOU ARE RESPONSIBLE FOR OBTAINING
* ANY THIRD PARTY RIGHTS YOU MAY REQUIRE FOR YOUR IMPLEMENTATION.
* XILINX EXPRESSLY DISCLAIMS ANY WARRANTY WHATSOEVER WITH RESPECT TO
* THE ADEQUACY OF THE IMPLEMENTATION, INCLUDING BUT NOT LIMITED TO ANY
* WARRANTIES OR REPRESENTATIONS THAT THIS IMPLEMENTATION IS FREE FROM
* CLAIMS OF INFRINGEMENT, IMPLIED WARRANTIES OF MERCHANTABILITY AND
* FITNESS FOR A PARTICULAR PURPOSE.
*
*
* Xilinx hardware products are not intended for use in life support
* appliances, devices, or systems. Use in such applications is
* expressly prohibited.
*
*
* (c) Copyright 2002-2004 Xilinx Inc.
* All rights reserved.
*
*
* 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.,
* 675 Mass Ave, Cambridge, MA 02139, USA.
*
******************************************************************************/
#include <config.h>
#include <common.h>
#include <environment.h>
#include <net.h>
#ifdef CONFIG_ENV_IS_IN_EEPROM
#include <i2c.h>
#include "xiic_l.h"
#define IIC_DELAY 5000
static u8 envStep = 0; /* 0 means crc has not been read */
const u8 hex[] = "0123456789ABCDEF"; /* lookup table for ML300 CRC */
/************************************************************************
* Use Xilinx provided driver to send data to EEPROM using iic bus.
*/
static void
send(u32 adr, u8 * data, u32 len)
{
u8 sendBuf[34]; /* first 2-bit is address and others are data */
u32 pos, wlen;
u32 ret;
wlen = 32;
for (pos = 0; pos < len; pos += 32) {
if ((len - pos) < 32)
wlen = len - pos;
/* Put address and data bits together */
sendBuf[0] = (u8) ((adr + pos) >> 8);
sendBuf[1] = (u8) (adr + pos);
memcpy(&sendBuf[2], &data[pos], wlen);
/* Send to EEPROM through iic bus */
ret = XIic_Send(XPAR_IIC_0_BASEADDR, CFG_I2C_EEPROM_ADDR >> 1,
sendBuf, wlen + 2);
udelay(IIC_DELAY);
}
}
/************************************************************************
* Use Xilinx provided driver to read data from EEPROM using the iic bus.
*/
static void
receive(u32 adr, u8 * data, u32 len)
{
u8 address[2];
u32 ret;
address[0] = (u8) (adr >> 8);
address[1] = (u8) adr;
/* Provide EEPROM address */
ret =
XIic_Send(XPAR_IIC_0_BASEADDR, CFG_I2C_EEPROM_ADDR >> 1, address,
2);
/* Receive data from EEPROM */
ret =
XIic_Recv(XPAR_IIC_0_BASEADDR, CFG_I2C_EEPROM_ADDR >> 1, data, len);
}
/************************************************************************
* Convert a hexadecimal string to its equivalent integer value.
*/
static u8
axtoi(u8 * hexStg)
{
u8 n; /* position in string */
u8 m; /* position in digit[] to shift */
u8 count; /* loop index */
u8 intValue; /* integer value of hex string */
u8 digit[2]; /* hold values to convert */
for (n = 0; n < 2; n++) {
if (hexStg[n] == '\0')
break;
if (hexStg[n] > 0x29 && hexStg[n] < 0x40)
digit[n] = hexStg[n] & 0x0f;
else if (hexStg[n] >= 'a' && hexStg[n] <= 'f')
digit[n] = (hexStg[n] & 0x0f) + 9;
else if (hexStg[n] >= 'A' && hexStg[n] <= 'F')
digit[n] = (hexStg[n] & 0x0f) + 9;
else
break;
}
intValue = 0;
count = n;
m = n - 1;
n = 0;
while (n < count) {
intValue = intValue | (digit[n] << (m << 2));
m--; /* adjust the position to set */
n++; /* next digit to process */
}
return (intValue);
}
/************************************************************************
* Convert an integer string to its equivalent value.
*/
static u8
atoi(uchar * string)
{
u8 res = 0;
while (*string >= '0' && *string <= '9') {
res *= 10;
res += *string - '0';
string++;
}
return res;
}
/************************************************************************
* Key-value pairs are separated by "=" sign.
*/
static void
findKey(uchar * buffer, int *loc, u8 len)
{
u32 i;
for (i = 0; i < len; i++)
if (buffer[i] == '=') {
*loc = i;
return;
}
/* return -1 is no "=" sign found */
*loc = -1;
}
/************************************************************************
* Compute a new ML300 CRC when user calls the saveenv command.
* Also update EEPROM with new CRC value.
*/
static u8
update_crc(u32 len, uchar * data)
{
uchar temp[6] = { 'C', '=', 0x00, 0x00, 0x00, 0x00 };
u32 crc; /* new crc value */
u32 i;
crc = 0;
/* calculate new CRC */
for (i = 0; i < len; i++)
crc += data[i];
/* CRC includes key for check sum */
crc += 'C' + '=';
/* compose new CRC to be updated */
temp[2] = hex[(crc >> 4) & 0xf];
temp[3] = hex[crc & 0xf];
/* check to see if env size exceeded */
if (len + 6 > ENV_SIZE) {
printf("ERROR: not enough space to store CRC on EEPROM");
return 1;
}
memcpy(data + len, temp, 6);
return 0;
}
/************************************************************************
* Read out ML300 CRC and compare it with a runtime calculated ML300 CRC.
* If equal, then pass back a u-boot CRC value, otherwise pass back
* junk to indicate CRC error.
*/
static void
read_crc(uchar * buffer, int len)
{
u32 addr, n;
u32 crc; /* runtime crc */
u8 old[2] = { 0xff, 0xff }; /* current CRC in EEPROM */
u8 stop; /* indication of end of env data */
u8 pre; /* previous EEPROM data bit */
int i, loc;
addr = CFG_ENV_OFFSET; /* start from first env address */
n = 0;
pre = 1;
stop = 1;
crc = 0;
/* calculate runtime CRC according to ML300 and read back
old CRC stored in the EEPROM */
while (n < CFG_ENV_SIZE) {
receive(addr, buffer, len);
/* found two null chars, end of env */
if ((pre || buffer[0]) == 0)
break;
findKey(buffer, &loc, len);
/* found old check sum, read and store old CRC */
if ((loc == 0 && pre == 'C')
|| (loc > 0 && buffer[loc - 1] == 'C'))
receive(addr + loc + 1, old, 2);
pre = buffer[len - 1];
/* calculate runtime ML300 CRC */
crc += buffer[0];
i = 1;
do {
crc += buffer[i];
stop = buffer[i] || buffer[i - 1];
i++;
} while (stop && (i < len));
if (stop == 0)
break;
n += len;
addr += len;
}
/* exclude old CRC from runtime calculation */
crc -= (old[0] + old[1]);
/* match CRC values, send back u-boot CRC */
if ((old[0] == hex[(crc >> 4) & 0xf])
&& (old[1] == hex[crc & 0xf])) {
crc = 0;
n = 0;
addr =
CFG_ENV_OFFSET - offsetof(env_t, crc) + offsetof(env_t,
data);
/* calculate u-boot crc */
while (n < ENV_SIZE) {
receive(addr, buffer, len);
crc = crc32(crc, buffer, len);
n += len;
addr += len;
}
memcpy(buffer, &crc, 4);
}
}
/************************************************************************
* Convert IP address to hexadecimals.
*/
static void
ip_ml300(uchar * s, uchar * res)
{
char temp[2];
u8 i;
res[0] = 0x00;
for (i = 0; i < 4; i++) {
sprintf(temp, "%02x", atoi(s));
s = (uchar *)strchr((char *)s, '.') + 1;
strcat((char *)res, temp);
}
}
/************************************************************************
* Change 0xff (255), a dummy null char to 0x00.
*/
static void
change_null(uchar * s)
{
if (s != NULL) {
change_null((uchar *)strchr((char *)s + 1, 255));
*(strchr((char *)s, 255)) = '\0';
}
}
/************************************************************************
* Update environment variable name and values to u-boot standard.
*/
void
convert_env(void)
{
char *s; /* pointer to env value */
char temp[20]; /* temp storage for addresses */
/* E -> ethaddr */
s = getenv("E");
if (s != NULL) {
sprintf(temp, "%c%c.%c%c.%c%c.%c%c.%c%c.%c%c",
s[0], s[1], s[ 2], s[ 3],
s[4], s[5], s[ 6], s[ 7],
s[8], s[9], s[10], s[11] );
setenv("ethaddr", temp);
setenv("E", NULL);
}
/* L -> serial# */
s = getenv("L");
if (s != NULL) {
setenv("serial#", s);
setenv("L", NULL);
}
/* I -> ipaddr */
s = getenv("I");
if (s != NULL) {
sprintf(temp, "%d.%d.%d.%d", axtoi((u8 *)s), axtoi((u8 *)(s + 2)),
axtoi((u8 *)(s + 4)), axtoi((u8 *)(s + 6)));
setenv("ipaddr", temp);
setenv("I", NULL);
}
/* S -> serverip */
s = getenv("S");
if (s != NULL) {
sprintf(temp, "%d.%d.%d.%d", axtoi((u8 *)s), axtoi((u8 *)(s + 2)),
axtoi((u8 *)(s + 4)), axtoi((u8 *)(s + 6)));
setenv("serverip", temp);
setenv("S", NULL);
}
/* A -> bootargs */
s = getenv("A");
if (s != NULL) {
setenv("bootargs", s);
setenv("A", NULL);
}
/* F -> bootfile */
s = getenv("F");
if (s != NULL) {
setenv("bootfile", s);
setenv("F", NULL);
}
/* M -> bootcmd */
s = getenv("M");
if (s != NULL) {
setenv("bootcmd", s);
setenv("M", NULL);
}
/* Don't include C (CRC) */
setenv("C", NULL);
}
/************************************************************************
* Save user modified environment values back to EEPROM.
*/
static void
save_env(void)
{
char eprom[ENV_SIZE]; /* buffer to be written back to EEPROM */
char *s, temp[20];
char ff[] = { 0xff, 0x00 }; /* dummy null value */
u32 len; /* length of env to be written to EEPROM */
eprom[0] = 0x00;
/* ethaddr -> E */
s = getenv("ethaddr");
if (s != NULL) {
strcat(eprom, "E=");
sprintf(temp, "%c%c%c%c%c%c%c%c%c%c%c%c",
*s, *(s + 1), *(s + 3), *(s + 4), *(s + 6), *(s + 7),
*(s + 9), *(s + 10), *(s + 12), *(s + 13), *(s + 15),
*(s + 16));
strcat(eprom, temp);
strcat(eprom, ff);
}
/* serial# -> L */
s = getenv("serial#");
if (s != NULL) {
strcat(eprom, "L=");
strcat(eprom, s);
strcat(eprom, ff);
}
/* ipaddr -> I */
s = getenv("ipaddr");
if (s != NULL) {
strcat(eprom, "I=");
ip_ml300((uchar *)s, (uchar *)temp);
strcat(eprom, temp);
strcat(eprom, ff);
}
/* serverip -> S */
s = getenv("serverip");
if (s != NULL) {
strcat(eprom, "S=");
ip_ml300((uchar *)s, (uchar *)temp);
strcat(eprom, temp);
strcat(eprom, ff);
}
/* bootargs -> A */
s = getenv("bootargs");
if (s != NULL) {
strcat(eprom, "A=");
strcat(eprom, s);
strcat(eprom, ff);
}
/* bootfile -> F */
s = getenv("bootfile");
if (s != NULL) {
strcat(eprom, "F=");
strcat(eprom, s);
strcat(eprom, ff);
}
/* bootcmd -> M */
s = getenv("bootcmd");
if (s != NULL) {
strcat(eprom, "M=");
strcat(eprom, s);
strcat(eprom, ff);
}
len = strlen(eprom); /* find env length without crc */
change_null((uchar *)eprom); /* change 0xff to 0x00 */
/* update EEPROM env values if there is enough space */
if (update_crc(len, (uchar *)eprom) == 0)
send(CFG_ENV_OFFSET, (uchar *)eprom, len + 6);
}
/************************************************************************
* U-boot call for EEPROM read associated activities.
*/
int
i2c_read(uchar chip, uint addr, int alen, uchar * buffer, int len)
{
if (envStep == 0) {
/* first read call is for crc */
read_crc(buffer, len);
++envStep;
return 0;
} else if (envStep == 1) {
/* then read out EEPROM content for runtime u-boot CRC calculation */
receive(addr, buffer, len);
if (addr + len - CFG_ENV_OFFSET == CFG_ENV_SIZE)
/* end of runtime crc read */
++envStep;
return 0;
}
if (len < 2) {
/* when call getenv_r */
receive(addr, buffer, len);
} else if (addr + len < CFG_ENV_OFFSET + CFG_ENV_SIZE) {
/* calling env_relocate(), but don't read out
crc value from EEPROM */
receive(addr, buffer + 4, len);
} else {
receive(addr, buffer + 4, len - 4);
}
return 0;
}
/************************************************************************
* U-boot call for EEPROM write acativities.
*/
int
i2c_write(uchar chip, uint addr, int alen, uchar * buffer, int len)
{
/* save env on last page write called by u-boot */
if (addr + len >= CFG_ENV_OFFSET + CFG_ENV_SIZE)
save_env();
return 0;
}
/************************************************************************
* Dummy function.
*/
int
i2c_probe(uchar chip)
{
return 1;
}
#endif
|