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|
/*
* This file is part of the flashrom project.
*
* Copyright (C) 2000 Silicon Integrated System Corporation
* Copyright (C) 2004 Tyan Corp <yhlu@tyan.com>
* Copyright (C) 2005-2008 coresystems GmbH
* Copyright (C) 2008,2009 Carl-Daniel Hailfinger
*
* 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., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
*/
#include <stdio.h>
#include <fcntl.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <string.h>
#include <stdlib.h>
#include <getopt.h>
#if HAVE_UTSNAME == 1
#include <sys/utsname.h>
#endif
#include "flash.h"
#include "flashchips.h"
const char *flashrom_version = FLASHROM_VERSION;
char *chip_to_probe = NULL;
int verbose = 0;
#if CONFIG_INTERNAL == 1
enum programmer programmer = PROGRAMMER_INTERNAL;
#elif CONFIG_DUMMY == 1
enum programmer programmer = PROGRAMMER_DUMMY;
#else
/* If neither internal nor dummy are selected, we must pick a sensible default.
* Since there is no reason to prefer a particular external programmer, we fail
* if more than one of them is selected. If only one is selected, it is clear
* that the user wants that one to become the default.
*/
#if CONFIG_NIC3COM+CONFIG_NICREALTEK+CONFIG_GFXNVIDIA+CONFIG_DRKAISER+CONFIG_SATASII+CONFIG_ATAHPT+CONFIG_FT2232_SPI+CONFIG_SERPROG+CONFIG_BUSPIRATE_SPI+CONFIG_DEDIPROG > 1
#error Please enable either CONFIG_DUMMY or CONFIG_INTERNAL or disable support for all programmers except one.
#endif
enum programmer programmer =
#if CONFIG_NIC3COM == 1
PROGRAMMER_NIC3COM
#endif
#if CONFIG_NICREALTEK == 1
PROGRAMMER_NICREALTEK
PROGRAMMER_NICREALTEK2
#endif
#if CONFIG_GFXNVIDIA == 1
PROGRAMMER_GFXNVIDIA
#endif
#if CONFIG_DRKAISER == 1
PROGRAMMER_DRKAISER
#endif
#if CONFIG_SATASII == 1
PROGRAMMER_SATASII
#endif
#if CONFIG_ATAHPT == 1
PROGRAMMER_ATAHPT
#endif
#if CONFIG_FT2232_SPI == 1
PROGRAMMER_FT2232_SPI
#endif
#if CONFIG_SERPROG == 1
PROGRAMMER_SERPROG
#endif
#if CONFIG_BUSPIRATE_SPI == 1
PROGRAMMER_BUSPIRATE_SPI
#endif
#if CONFIG_DEDIPROG == 1
PROGRAMMER_DEDIPROG
#endif
;
#endif
char *programmer_param = NULL;
/**
* flashrom defaults to Parallel/LPC/FWH flash devices. If a known host
* controller is found, the init routine sets the buses_supported bitfield to
* contain the supported buses for that controller.
*/
enum chipbustype buses_supported = CHIP_BUSTYPE_NONSPI;
/**
* Programmers supporting multiple buses can have differing size limits on
* each bus. Store the limits for each bus in a common struct.
*/
struct decode_sizes max_rom_decode = {
.parallel = 0xffffffff,
.lpc = 0xffffffff,
.fwh = 0xffffffff,
.spi = 0xffffffff
};
const struct programmer_entry programmer_table[] = {
#if CONFIG_INTERNAL == 1
{
.name = "internal",
.init = internal_init,
.shutdown = internal_shutdown,
.map_flash_region = physmap,
.unmap_flash_region = physunmap,
.chip_readb = internal_chip_readb,
.chip_readw = internal_chip_readw,
.chip_readl = internal_chip_readl,
.chip_readn = internal_chip_readn,
.chip_writeb = internal_chip_writeb,
.chip_writew = internal_chip_writew,
.chip_writel = internal_chip_writel,
.chip_writen = fallback_chip_writen,
.delay = internal_delay,
},
#endif
#if CONFIG_DUMMY == 1
{
.name = "dummy",
.init = dummy_init,
.shutdown = dummy_shutdown,
.map_flash_region = dummy_map,
.unmap_flash_region = dummy_unmap,
.chip_readb = dummy_chip_readb,
.chip_readw = dummy_chip_readw,
.chip_readl = dummy_chip_readl,
.chip_readn = dummy_chip_readn,
.chip_writeb = dummy_chip_writeb,
.chip_writew = dummy_chip_writew,
.chip_writel = dummy_chip_writel,
.chip_writen = dummy_chip_writen,
.delay = internal_delay,
},
#endif
#if CONFIG_NIC3COM == 1
{
.name = "nic3com",
.init = nic3com_init,
.shutdown = nic3com_shutdown,
.map_flash_region = fallback_map,
.unmap_flash_region = fallback_unmap,
.chip_readb = nic3com_chip_readb,
.chip_readw = fallback_chip_readw,
.chip_readl = fallback_chip_readl,
.chip_readn = fallback_chip_readn,
.chip_writeb = nic3com_chip_writeb,
.chip_writew = fallback_chip_writew,
.chip_writel = fallback_chip_writel,
.chip_writen = fallback_chip_writen,
.delay = internal_delay,
},
#endif
#if CONFIG_NICREALTEK == 1
{
.name = "nicrealtek",
.init = nicrealtek_init,
.shutdown = nicrealtek_shutdown,
.map_flash_region = fallback_map,
.unmap_flash_region = fallback_unmap,
.chip_readb = nicrealtek_chip_readb,
.chip_readw = fallback_chip_readw,
.chip_readl = fallback_chip_readl,
.chip_readn = fallback_chip_readn,
.chip_writeb = nicrealtek_chip_writeb,
.chip_writew = fallback_chip_writew,
.chip_writel = fallback_chip_writel,
.chip_writen = fallback_chip_writen,
.delay = internal_delay,
},
{
.name = "nicsmc1211",
.init = nicsmc1211_init,
.shutdown = nicrealtek_shutdown,
.map_flash_region = fallback_map,
.unmap_flash_region = fallback_unmap,
.chip_readb = nicrealtek_chip_readb,
.chip_readw = fallback_chip_readw,
.chip_readl = fallback_chip_readl,
.chip_readn = fallback_chip_readn,
.chip_writeb = nicrealtek_chip_writeb,
.chip_writew = fallback_chip_writew,
.chip_writel = fallback_chip_writel,
.chip_writen = fallback_chip_writen,
.delay = internal_delay,
},
#endif
#if CONFIG_GFXNVIDIA == 1
{
.name = "gfxnvidia",
.init = gfxnvidia_init,
.shutdown = gfxnvidia_shutdown,
.map_flash_region = fallback_map,
.unmap_flash_region = fallback_unmap,
.chip_readb = gfxnvidia_chip_readb,
.chip_readw = fallback_chip_readw,
.chip_readl = fallback_chip_readl,
.chip_readn = fallback_chip_readn,
.chip_writeb = gfxnvidia_chip_writeb,
.chip_writew = fallback_chip_writew,
.chip_writel = fallback_chip_writel,
.chip_writen = fallback_chip_writen,
.delay = internal_delay,
},
#endif
#if CONFIG_DRKAISER == 1
{
.name = "drkaiser",
.init = drkaiser_init,
.shutdown = drkaiser_shutdown,
.map_flash_region = fallback_map,
.unmap_flash_region = fallback_unmap,
.chip_readb = drkaiser_chip_readb,
.chip_readw = fallback_chip_readw,
.chip_readl = fallback_chip_readl,
.chip_readn = fallback_chip_readn,
.chip_writeb = drkaiser_chip_writeb,
.chip_writew = fallback_chip_writew,
.chip_writel = fallback_chip_writel,
.chip_writen = fallback_chip_writen,
.delay = internal_delay,
},
#endif
#if CONFIG_SATASII == 1
{
.name = "satasii",
.init = satasii_init,
.shutdown = satasii_shutdown,
.map_flash_region = fallback_map,
.unmap_flash_region = fallback_unmap,
.chip_readb = satasii_chip_readb,
.chip_readw = fallback_chip_readw,
.chip_readl = fallback_chip_readl,
.chip_readn = fallback_chip_readn,
.chip_writeb = satasii_chip_writeb,
.chip_writew = fallback_chip_writew,
.chip_writel = fallback_chip_writel,
.chip_writen = fallback_chip_writen,
.delay = internal_delay,
},
#endif
#if CONFIG_ATAHPT == 1
{
.name = "atahpt",
.init = atahpt_init,
.shutdown = atahpt_shutdown,
.map_flash_region = fallback_map,
.unmap_flash_region = fallback_unmap,
.chip_readb = atahpt_chip_readb,
.chip_readw = fallback_chip_readw,
.chip_readl = fallback_chip_readl,
.chip_readn = fallback_chip_readn,
.chip_writeb = atahpt_chip_writeb,
.chip_writew = fallback_chip_writew,
.chip_writel = fallback_chip_writel,
.chip_writen = fallback_chip_writen,
.delay = internal_delay,
},
#endif
#if CONFIG_INTERNAL == 1
#if defined(__i386__) || defined(__x86_64__)
{
.name = "it87spi",
.init = it87spi_init,
.shutdown = noop_shutdown,
.map_flash_region = fallback_map,
.unmap_flash_region = fallback_unmap,
.chip_readb = noop_chip_readb,
.chip_readw = fallback_chip_readw,
.chip_readl = fallback_chip_readl,
.chip_readn = fallback_chip_readn,
.chip_writeb = noop_chip_writeb,
.chip_writew = fallback_chip_writew,
.chip_writel = fallback_chip_writel,
.chip_writen = fallback_chip_writen,
.delay = internal_delay,
},
#endif
#endif
#if CONFIG_FT2232_SPI == 1
{
.name = "ft2232_spi",
.init = ft2232_spi_init,
.shutdown = noop_shutdown, /* Missing shutdown */
.map_flash_region = fallback_map,
.unmap_flash_region = fallback_unmap,
.chip_readb = noop_chip_readb,
.chip_readw = fallback_chip_readw,
.chip_readl = fallback_chip_readl,
.chip_readn = fallback_chip_readn,
.chip_writeb = noop_chip_writeb,
.chip_writew = fallback_chip_writew,
.chip_writel = fallback_chip_writel,
.chip_writen = fallback_chip_writen,
.delay = internal_delay,
},
#endif
#if CONFIG_SERPROG == 1
{
.name = "serprog",
.init = serprog_init,
.shutdown = serprog_shutdown,
.map_flash_region = fallback_map,
.unmap_flash_region = fallback_unmap,
.chip_readb = serprog_chip_readb,
.chip_readw = fallback_chip_readw,
.chip_readl = fallback_chip_readl,
.chip_readn = serprog_chip_readn,
.chip_writeb = serprog_chip_writeb,
.chip_writew = fallback_chip_writew,
.chip_writel = fallback_chip_writel,
.chip_writen = fallback_chip_writen,
.delay = serprog_delay,
},
#endif
#if CONFIG_BUSPIRATE_SPI == 1
{
.name = "buspirate_spi",
.init = buspirate_spi_init,
.shutdown = buspirate_spi_shutdown,
.map_flash_region = fallback_map,
.unmap_flash_region = fallback_unmap,
.chip_readb = noop_chip_readb,
.chip_readw = fallback_chip_readw,
.chip_readl = fallback_chip_readl,
.chip_readn = fallback_chip_readn,
.chip_writeb = noop_chip_writeb,
.chip_writew = fallback_chip_writew,
.chip_writel = fallback_chip_writel,
.chip_writen = fallback_chip_writen,
.delay = internal_delay,
},
#endif
#if CONFIG_DEDIPROG == 1
{
.name = "dediprog",
.init = dediprog_init,
.shutdown = dediprog_shutdown,
.map_flash_region = fallback_map,
.unmap_flash_region = fallback_unmap,
.chip_readb = noop_chip_readb,
.chip_readw = fallback_chip_readw,
.chip_readl = fallback_chip_readl,
.chip_readn = fallback_chip_readn,
.chip_writeb = noop_chip_writeb,
.chip_writew = fallback_chip_writew,
.chip_writel = fallback_chip_writel,
.chip_writen = fallback_chip_writen,
.delay = internal_delay,
},
#endif
{}, /* This entry corresponds to PROGRAMMER_INVALID. */
};
#define SHUTDOWN_MAXFN 4
static int shutdown_fn_count = 0;
struct shutdown_func_data {
void (*func) (void *data);
void *data;
} shutdown_fn[SHUTDOWN_MAXFN];
/* Register a function to be executed on programmer shutdown.
* The advantage over atexit() is that you can supply a void pointer which will
* be used as parameter to the registered function upon programmer shutdown.
* This pointer can point to arbitrary data used by said function, e.g. undo
* information for GPIO settings etc. If unneeded, set data=NULL.
* Please note that the first (void *data) belongs to the function signature of
* the function passed as first parameter.
*/
int register_shutdown(void (*function) (void *data), void *data)
{
if (shutdown_fn_count >= SHUTDOWN_MAXFN) {
msg_perr("Tried to register more than %n shutdown functions.\n",
SHUTDOWN_MAXFN);
return 1;
}
shutdown_fn[shutdown_fn_count].func = function;
shutdown_fn[shutdown_fn_count].data = data;
shutdown_fn_count++;
return 0;
}
int programmer_init(void)
{
return programmer_table[programmer].init();
}
int programmer_shutdown(void)
{
int i;
for (i = shutdown_fn_count - 1; i >= 0; i--)
shutdown_fn[i].func(shutdown_fn[i].data);
return programmer_table[programmer].shutdown();
}
void *programmer_map_flash_region(const char *descr, unsigned long phys_addr,
size_t len)
{
return programmer_table[programmer].map_flash_region(descr,
phys_addr, len);
}
void programmer_unmap_flash_region(void *virt_addr, size_t len)
{
programmer_table[programmer].unmap_flash_region(virt_addr, len);
}
void chip_writeb(uint8_t val, chipaddr addr)
{
programmer_table[programmer].chip_writeb(val, addr);
}
void chip_writew(uint16_t val, chipaddr addr)
{
programmer_table[programmer].chip_writew(val, addr);
}
void chip_writel(uint32_t val, chipaddr addr)
{
programmer_table[programmer].chip_writel(val, addr);
}
void chip_writen(uint8_t *buf, chipaddr addr, size_t len)
{
programmer_table[programmer].chip_writen(buf, addr, len);
}
uint8_t chip_readb(const chipaddr addr)
{
return programmer_table[programmer].chip_readb(addr);
}
uint16_t chip_readw(const chipaddr addr)
{
return programmer_table[programmer].chip_readw(addr);
}
uint32_t chip_readl(const chipaddr addr)
{
return programmer_table[programmer].chip_readl(addr);
}
void chip_readn(uint8_t *buf, chipaddr addr, size_t len)
{
programmer_table[programmer].chip_readn(buf, addr, len);
}
void programmer_delay(int usecs)
{
programmer_table[programmer].delay(usecs);
}
void map_flash_registers(struct flashchip *flash)
{
size_t size = flash->total_size * 1024;
/* Flash registers live 4 MByte below the flash. */
/* FIXME: This is incorrect for nonstandard flashbase. */
flash->virtual_registers = (chipaddr)programmer_map_flash_region("flash chip registers", (0xFFFFFFFF - 0x400000 - size + 1), size);
}
int read_memmapped(struct flashchip *flash, uint8_t *buf, int start, int len)
{
chip_readn(buf, flash->virtual_memory + start, len);
return 0;
}
unsigned long flashbase = 0;
int min(int a, int b)
{
return (a < b) ? a : b;
}
int max(int a, int b)
{
return (a > b) ? a : b;
}
int bitcount(unsigned long a)
{
int i = 0;
for (; a != 0; a >>= 1)
if (a & 1)
i++;
return i;
}
char *strcat_realloc(char *dest, const char *src)
{
dest = realloc(dest, strlen(dest) + strlen(src) + 1);
if (!dest)
return NULL;
strcat(dest, src);
return dest;
}
/* This is a somewhat hacked function similar in some ways to strtok().
* It will look for needle in haystack, return a copy of needle and remove
* everything from the first occurrence of needle to the next delimiter
* from haystack.
*/
char *extract_param(char **haystack, char *needle, char *delim)
{
char *param_pos, *rest, *tmp;
char *dev = NULL;
int devlen;
int needlelen;
needlelen = strlen(needle);
if (!needlelen) {
msg_gerr("%s: empty needle! Please report a bug at "
"flashrom@flashrom.org\n", __func__);
return NULL;
}
/* No programmer parameters given. */
if (*haystack == NULL)
return NULL;
param_pos = strstr(*haystack, needle);
do {
if (!param_pos)
return NULL;
/* Beginning of the string? */
if (param_pos == *haystack)
break;
/* After a delimiter? */
if (strchr(delim, *(param_pos - 1)))
break;
/* Continue searching. */
param_pos++;
param_pos = strstr(param_pos, needle);
} while (1);
if (param_pos) {
param_pos += strlen(needle);
devlen = strcspn(param_pos, delim);
if (devlen) {
dev = malloc(devlen + 1);
if (!dev) {
msg_gerr("Out of memory!\n");
exit(1);
}
strncpy(dev, param_pos, devlen);
dev[devlen] = '\0';
}
rest = param_pos + devlen;
rest += strspn(rest, delim);
param_pos -= strlen(needle);
memmove(param_pos, rest, strlen(rest) + 1);
tmp = realloc(*haystack, strlen(*haystack) + 1);
if (!tmp) {
msg_gerr("Out of memory!\n");
exit(1);
}
*haystack = tmp;
}
return dev;
}
/* start is an offset to the base address of the flash chip */
int check_erased_range(struct flashchip *flash, int start, int len)
{
int ret;
uint8_t *cmpbuf = malloc(len);
if (!cmpbuf) {
msg_gerr("Could not allocate memory!\n");
exit(1);
}
memset(cmpbuf, 0xff, len);
ret = verify_range(flash, cmpbuf, start, len, "ERASE");
free(cmpbuf);
return ret;
}
/**
* @cmpbuf buffer to compare against, cmpbuf[0] is expected to match the
flash content at location start
* @start offset to the base address of the flash chip
* @len length of the verified area
* @message string to print in the "FAILED" message
* @return 0 for success, -1 for failure
*/
int verify_range(struct flashchip *flash, uint8_t *cmpbuf, int start, int len, char *message)
{
int i, j, starthere, lenhere, ret = 0;
int page_size = flash->page_size;
uint8_t *readbuf = malloc(page_size);
int failcount = 0;
if (!len)
goto out_free;
if (!flash->read) {
msg_cerr("ERROR: flashrom has no read function for this flash chip.\n");
return 1;
}
if (!readbuf) {
msg_gerr("Could not allocate memory!\n");
exit(1);
}
if (start + len > flash->total_size * 1024) {
msg_gerr("Error: %s called with start 0x%x + len 0x%x >"
" total_size 0x%x\n", __func__, start, len,
flash->total_size * 1024);
ret = -1;
goto out_free;
}
if (!message)
message = "VERIFY";
/* Warning: This loop has a very unusual condition and body.
* The loop needs to go through each page with at least one affected
* byte. The lowest page number is (start / page_size) since that
* division rounds down. The highest page number we want is the page
* where the last byte of the range lives. That last byte has the
* address (start + len - 1), thus the highest page number is
* (start + len - 1) / page_size. Since we want to include that last
* page as well, the loop condition uses <=.
*/
for (i = start / page_size; i <= (start + len - 1) / page_size; i++) {
/* Byte position of the first byte in the range in this page. */
starthere = max(start, i * page_size);
/* Length of bytes in the range in this page. */
lenhere = min(start + len, (i + 1) * page_size) - starthere;
flash->read(flash, readbuf, starthere, lenhere);
for (j = 0; j < lenhere; j++) {
if (cmpbuf[starthere - start + j] != readbuf[j]) {
/* Only print the first failure. */
if (!failcount++)
msg_cerr("%s FAILED at 0x%08x! "
"Expected=0x%02x, Read=0x%02x,",
message, starthere + j,
cmpbuf[starthere - start + j],
readbuf[j]);
}
}
}
if (failcount) {
msg_cerr(" failed byte count from 0x%08x-0x%08x: 0x%x\n",
start, start + len - 1, failcount);
ret = -1;
}
out_free:
free(readbuf);
return ret;
}
/**
* Check if the buffer @have can be programmed to the content of @want without
* erasing. This is only possible if all chunks of size @gran are either kept
* as-is or changed from an all-ones state to any other state.
* The following write granularities (enum @gran) are known:
* - 1 bit. Each bit can be cleared individually.
* - 1 byte. A byte can be written once. Further writes to an already written
* byte cause the contents to be either undefined or to stay unchanged.
* - 128 bytes. If less than 128 bytes are written, the rest will be
* erased. Each write to a 128-byte region will trigger an automatic erase
* before anything is written. Very uncommon behaviour and unsupported by
* this function.
* - 256 bytes. If less than 256 bytes are written, the contents of the
* unwritten bytes are undefined.
*
* @have buffer with current content
* @want buffer with desired content
* @len length of the verified area
* @gran write granularity (enum, not count)
* @return 0 if no erase is needed, 1 otherwise
*/
int need_erase(uint8_t *have, uint8_t *want, int len, enum write_granularity gran)
{
int result = 0;
int i, j, limit;
switch (gran) {
case write_gran_1bit:
for (i = 0; i < len; i++)
if ((have[i] & want[i]) != want[i]) {
result = 1;
break;
}
break;
case write_gran_1byte:
for (i = 0; i < len; i++)
if ((have[i] != want[i]) && (have[i] != 0xff)) {
result = 1;
break;
}
break;
case write_gran_256bytes:
for (j = 0; j < len / 256; j++) {
limit = min (256, len - j * 256);
/* Are 'have' and 'want' identical? */
if (!memcmp(have + j * 256, want + j * 256, limit))
continue;
/* have needs to be in erased state. */
for (i = 0; i < limit; i++)
if (have[i] != 0xff) {
result = 1;
break;
}
if (result)
break;
}
break;
}
return result;
}
/* This function generates various test patterns useful for testing controller
* and chip communication as well as chip behaviour.
*
* If a byte can be written multiple times, each time keeping 0-bits at 0
* and changing 1-bits to 0 if the new value for that bit is 0, the effect
* is essentially an AND operation. That's also the reason why this function
* provides the result of AND between various patterns.
*
* Below is a list of patterns (and their block length).
* Pattern 0 is 05 15 25 35 45 55 65 75 85 95 a5 b5 c5 d5 e5 f5 (16 Bytes)
* Pattern 1 is 0a 1a 2a 3a 4a 5a 6a 7a 8a 9a aa ba ca da ea fa (16 Bytes)
* Pattern 2 is 50 51 52 53 54 55 56 57 58 59 5a 5b 5c 5d 5e 5f (16 Bytes)
* Pattern 3 is a0 a1 a2 a3 a4 a5 a6 a7 a8 a9 aa ab ac ad ae af (16 Bytes)
* Pattern 4 is 00 10 20 30 40 50 60 70 80 90 a0 b0 c0 d0 e0 f0 (16 Bytes)
* Pattern 5 is 00 01 02 03 04 05 06 07 08 09 0a 0b 0c 0d 0e 0f (16 Bytes)
* Pattern 6 is 00 (1 Byte)
* Pattern 7 is ff (1 Byte)
* Patterns 0-7 have a big-endian block number in the last 2 bytes of each 256
* byte block.
*
* Pattern 8 is 00 01 02 03 04 05 06 07 08 09 0a 0b 0c 0d 0e 0f 10 11... (256 B)
* Pattern 9 is ff fe fd fc fb fa f9 f8 f7 f6 f5 f4 f3 f2 f1 f0 ef ee... (256 B)
* Pattern 10 is 00 00 00 01 00 02 00 03 00 04... (128 kB big-endian counter)
* Pattern 11 is ff ff ff fe ff fd ff fc ff fb... (128 kB big-endian downwards)
* Pattern 12 is 00 (1 Byte)
* Pattern 13 is ff (1 Byte)
* Patterns 8-13 have no block number.
*
* Patterns 0-3 are created to detect and efficiently diagnose communication
* slips like missed bits or bytes and their repetitive nature gives good visual
* cues to the person inspecting the results. In addition, the following holds:
* AND Pattern 0/1 == Pattern 4
* AND Pattern 2/3 == Pattern 5
* AND Pattern 0/1/2/3 == AND Pattern 4/5 == Pattern 6
* A weakness of pattern 0-5 is the inability to detect swaps/copies between
* any two 16-byte blocks except for the last 16-byte block in a 256-byte bloc.
* They work perfectly for detecting any swaps/aliasing of blocks >= 256 bytes.
* 0x5 and 0xa were picked because they are 0101 and 1010 binary.
* Patterns 8-9 are best for detecting swaps/aliasing of blocks < 256 bytes.
* Besides that, they provide for bit testing of the last two bytes of every
* 256 byte block which contains the block number for patterns 0-6.
* Patterns 10-11 are special purpose for detecting subblock aliasing with
* block sizes >256 bytes (some Dataflash chips etc.)
* AND Pattern 8/9 == Pattern 12
* AND Pattern 10/11 == Pattern 12
* Pattern 13 is the completely erased state.
* None of the patterns can detect aliasing at boundaries which are a multiple
* of 16 MBytes (but such chips do not exist anyway for Parallel/LPC/FWH/SPI).
*/
int generate_testpattern(uint8_t *buf, uint32_t size, int variant)
{
int i;
if (!buf) {
msg_gerr("Invalid buffer!\n");
return 1;
}
switch (variant) {
case 0:
for (i = 0; i < size; i++)
buf[i] = (i & 0xf) << 4 | 0x5;
break;
case 1:
for (i = 0; i < size; i++)
buf[i] = (i & 0xf) << 4 | 0xa;
break;
case 2:
for (i = 0; i < size; i++)
buf[i] = 0x50 | (i & 0xf);
break;
case 3:
for (i = 0; i < size; i++)
buf[i] = 0xa0 | (i & 0xf);
break;
case 4:
for (i = 0; i < size; i++)
buf[i] = (i & 0xf) << 4;
break;
case 5:
for (i = 0; i < size; i++)
buf[i] = i & 0xf;
break;
case 6:
memset(buf, 0x00, size);
break;
case 7:
memset(buf, 0xff, size);
break;
case 8:
for (i = 0; i < size; i++)
buf[i] = i & 0xff;
break;
case 9:
for (i = 0; i < size; i++)
buf[i] = ~(i & 0xff);
break;
case 10:
for (i = 0; i < size % 2; i++) {
buf[i * 2] = (i >> 8) & 0xff;
buf[i * 2 + 1] = i & 0xff;
}
if (size & 0x1)
buf[i * 2] = (i >> 8) & 0xff;
break;
case 11:
for (i = 0; i < size % 2; i++) {
buf[i * 2] = ~((i >> 8) & 0xff);
buf[i * 2 + 1] = ~(i & 0xff);
}
if (size & 0x1)
buf[i * 2] = ~((i >> 8) & 0xff);
break;
case 12:
memset(buf, 0x00, size);
break;
case 13:
memset(buf, 0xff, size);
break;
}
if ((variant >= 0) && (variant <= 7)) {
/* Write block number in the last two bytes of each 256-byte
* block, big endian for easier reading of the hexdump.
* Note that this wraps around for chips larger than 2^24 bytes
* (16 MB).
*/
for (i = 0; i < size / 256; i++) {
buf[i * 256 + 254] = (i >> 8) & 0xff;
buf[i * 256 + 255] = i & 0xff;
}
}
return 0;
}
int check_max_decode(enum chipbustype buses, uint32_t size)
{
int limitexceeded = 0;
if ((buses & CHIP_BUSTYPE_PARALLEL) &&
(max_rom_decode.parallel < size)) {
limitexceeded++;
msg_pdbg("Chip size %u kB is bigger than supported "
"size %u kB of chipset/board/programmer "
"for %s interface, "
"probe/read/erase/write may fail. ", size / 1024,
max_rom_decode.parallel / 1024, "Parallel");
}
if ((buses & CHIP_BUSTYPE_LPC) && (max_rom_decode.lpc < size)) {
limitexceeded++;
msg_pdbg("Chip size %u kB is bigger than supported "
"size %u kB of chipset/board/programmer "
"for %s interface, "
"probe/read/erase/write may fail. ", size / 1024,
max_rom_decode.lpc / 1024, "LPC");
}
if ((buses & CHIP_BUSTYPE_FWH) && (max_rom_decode.fwh < size)) {
limitexceeded++;
msg_pdbg("Chip size %u kB is bigger than supported "
"size %u kB of chipset/board/programmer "
"for %s interface, "
"probe/read/erase/write may fail. ", size / 1024,
max_rom_decode.fwh / 1024, "FWH");
}
if ((buses & CHIP_BUSTYPE_SPI) && (max_rom_decode.spi < size)) {
limitexceeded++;
msg_pdbg("Chip size %u kB is bigger than supported "
"size %u kB of chipset/board/programmer "
"for %s interface, "
"probe/read/erase/write may fail. ", size / 1024,
max_rom_decode.spi / 1024, "SPI");
}
if (!limitexceeded)
return 0;
/* Sometimes chip and programmer have more than one bus in common,
* and the limit is not exceeded on all buses. Tell the user.
*/
if (bitcount(buses) > limitexceeded)
/* FIXME: This message is designed towards CLI users. */
msg_pdbg("There is at least one common chip/programmer "
"interface which can support a chip of this size. "
"You can try --force at your own risk.\n");
return 1;
}
struct flashchip *probe_flash(struct flashchip *first_flash, int force)
{
struct flashchip *flash;
unsigned long base = 0;
uint32_t size;
enum chipbustype buses_common;
char *tmp;
for (flash = first_flash; flash && flash->name; flash++) {
if (chip_to_probe && strcmp(flash->name, chip_to_probe) != 0)
continue;
msg_gdbg("Probing for %s %s, %d KB: ",
flash->vendor, flash->name, flash->total_size);
if (!flash->probe && !force) {
msg_gdbg("failed! flashrom has no probe function for "
"this flash chip.\n");
continue;
}
buses_common = buses_supported & flash->bustype;
if (!buses_common) {
tmp = flashbuses_to_text(buses_supported);
msg_gdbg("skipped.");
msg_gspew(" Host bus type %s ", tmp);
free(tmp);
tmp = flashbuses_to_text(flash->bustype);
msg_gspew("and chip bus type %s are incompatible.",
tmp);
free(tmp);
msg_gdbg("\n");
continue;
}
size = flash->total_size * 1024;
check_max_decode(buses_common, size);
base = flashbase ? flashbase : (0xffffffff - size + 1);
flash->virtual_memory = (chipaddr)programmer_map_flash_region("flash chip", base, size);
if (force)
break;
if (flash->probe(flash) != 1)
goto notfound;
if (first_flash == flashchips
|| flash->model_id != GENERIC_DEVICE_ID)
break;
notfound:
programmer_unmap_flash_region((void *)flash->virtual_memory, size);
}
if (!flash || !flash->name)
return NULL;
msg_cinfo("%s chip \"%s %s\" (%d KB, %s) at physical address 0x%lx.\n",
force ? "Assuming" : "Found",
flash->vendor, flash->name, flash->total_size,
flashbuses_to_text(flash->bustype), base);
if (flash->printlock)
flash->printlock(flash);
return flash;
}
int verify_flash(struct flashchip *flash, uint8_t *buf)
{
int ret;
int total_size = flash->total_size * 1024;
msg_cinfo("Verifying flash... ");
ret = verify_range(flash, buf, 0, total_size, NULL);
if (!ret)
msg_cinfo("VERIFIED. \n");
return ret;
}
int read_flash(struct flashchip *flash, char *filename)
{
unsigned long numbytes;
FILE *image;
unsigned long size = flash->total_size * 1024;
unsigned char *buf = calloc(size, sizeof(char));
if (!filename) {
msg_gerr("Error: No filename specified.\n");
return 1;
}
if ((image = fopen(filename, "wb")) == NULL) {
perror(filename);
exit(1);
}
msg_cinfo("Reading flash... ");
if (!flash->read) {
msg_cinfo("FAILED!\n");
msg_cerr("ERROR: flashrom has no read function for this flash chip.\n");
return 1;
} else
flash->read(flash, buf, 0, size);
numbytes = fwrite(buf, 1, size, image);
fclose(image);
free(buf);
msg_cinfo("%s.\n", numbytes == size ? "done" : "FAILED");
if (numbytes != size)
return 1;
return 0;
}
/* This function shares a lot of its structure with erase_flash().
* Even if an error is found, the function will keep going and check the rest.
*/
int selfcheck_eraseblocks(struct flashchip *flash)
{
int i, j, k;
int ret = 0;
for (k = 0; k < NUM_ERASEFUNCTIONS; k++) {
unsigned int done = 0;
struct block_eraser eraser = flash->block_erasers[k];
for (i = 0; i < NUM_ERASEREGIONS; i++) {
/* Blocks with zero size are bugs in flashchips.c. */
if (eraser.eraseblocks[i].count &&
!eraser.eraseblocks[i].size) {
msg_gerr("ERROR: Flash chip %s erase function "
"%i region %i has size 0. Please report"
" a bug at flashrom@flashrom.org\n",
flash->name, k, i);
ret = 1;
}
/* Blocks with zero count are bugs in flashchips.c. */
if (!eraser.eraseblocks[i].count &&
eraser.eraseblocks[i].size) {
msg_gerr("ERROR: Flash chip %s erase function "
"%i region %i has count 0. Please report"
" a bug at flashrom@flashrom.org\n",
flash->name, k, i);
ret = 1;
}
done += eraser.eraseblocks[i].count *
eraser.eraseblocks[i].size;
}
/* Empty eraseblock definition with erase function. */
if (!done && eraser.block_erase)
msg_gspew("Strange: Empty eraseblock definition with "
"non-empty erase function. Not an error.\n");
if (!done)
continue;
if (done != flash->total_size * 1024) {
msg_gerr("ERROR: Flash chip %s erase function %i "
"region walking resulted in 0x%06x bytes total,"
" expected 0x%06x bytes. Please report a bug at"
" flashrom@flashrom.org\n", flash->name, k,
done, flash->total_size * 1024);
ret = 1;
}
if (!eraser.block_erase)
continue;
/* Check if there are identical erase functions for different
* layouts. That would imply "magic" erase functions. The
* easiest way to check this is with function pointers.
*/
for (j = k + 1; j < NUM_ERASEFUNCTIONS; j++) {
if (eraser.block_erase ==
flash->block_erasers[j].block_erase) {
msg_gerr("ERROR: Flash chip %s erase function "
"%i and %i are identical. Please report"
" a bug at flashrom@flashrom.org\n",
flash->name, k, j);
ret = 1;
}
}
}
return ret;
}
int erase_flash(struct flashchip *flash)
{
int i, j, k, ret = 0, found = 0;
unsigned int start, len;
msg_cinfo("Erasing flash chip... ");
for (k = 0; k < NUM_ERASEFUNCTIONS; k++) {
unsigned int done = 0;
struct block_eraser eraser = flash->block_erasers[k];
msg_cdbg("Looking at blockwise erase function %i... ", k);
if (!eraser.block_erase && !eraser.eraseblocks[0].count) {
msg_cdbg("not defined. "
"Looking for another erase function.\n");
continue;
}
if (!eraser.block_erase && eraser.eraseblocks[0].count) {
msg_cdbg("eraseblock layout is known, but no "
"matching block erase function found. "
"Looking for another erase function.\n");
continue;
}
if (eraser.block_erase && !eraser.eraseblocks[0].count) {
msg_cdbg("block erase function found, but "
"eraseblock layout is unknown. "
"Looking for another erase function.\n");
continue;
}
found = 1;
msg_cdbg("trying... ");
for (i = 0; i < NUM_ERASEREGIONS; i++) {
/* count==0 for all automatically initialized array
* members so the loop below won't be executed for them.
*/
for (j = 0; j < eraser.eraseblocks[i].count; j++) {
start = done + eraser.eraseblocks[i].size * j;
len = eraser.eraseblocks[i].size;
msg_cdbg("0x%06x-0x%06x, ", start,
start + len - 1);
ret = eraser.block_erase(flash, start, len);
if (ret)
break;
}
if (ret)
break;
done += eraser.eraseblocks[i].count *
eraser.eraseblocks[i].size;
}
msg_cdbg("\n");
/* If everything is OK, don't try another erase function. */
if (!ret)
break;
}
if (!found) {
msg_cerr("ERROR: flashrom has no erase function for this flash chip.\n");
return 1;
}
if (ret) {
msg_cerr("FAILED!\n");
} else {
msg_cinfo("SUCCESS.\n");
}
return ret;
}
void emergency_help_message(void)
{
msg_gerr("Your flash chip is in an unknown state.\n"
"Get help on IRC at irc.freenode.net (channel #flashrom) or\n"
"mail flashrom@flashrom.org!\n"
"-------------------------------------------------------------"
"------------------\n"
"DO NOT REBOOT OR POWEROFF!\n");
}
/* The way to go if you want a delimited list of programmers*/
void list_programmers(char *delim)
{
enum programmer p;
for (p = 0; p < PROGRAMMER_INVALID; p++) {
msg_ginfo("%s", programmer_table[p].name);
if (p < PROGRAMMER_INVALID - 1)
msg_ginfo("%s", delim);
}
msg_ginfo("\n");
}
void print_sysinfo(void)
{
#if HAVE_UTSNAME == 1
struct utsname osinfo;
uname(&osinfo);
msg_ginfo(" on %s %s (%s)", osinfo.sysname, osinfo.release,
osinfo.machine);
#else
msg_ginfo(" on unknown machine");
#endif
msg_ginfo(", built with");
#if NEED_PCI == 1
#ifdef PCILIB_VERSION
msg_ginfo(" libpci %s,", PCILIB_VERSION);
#else
msg_ginfo(" unknown PCI library,");
#endif
#endif
#ifdef __clang__
msg_ginfo(" LLVM %i/clang %i, ", __llvm__, __clang__);
#elif defined(__GNUC__)
msg_ginfo(" GCC");
#ifdef __VERSION__
msg_ginfo(" %s,", __VERSION__);
#else
msg_ginfo(" unknown version,");
#endif
#else
msg_ginfo(" unknown compiler,");
#endif
#if defined (__FLASHROM_LITTLE_ENDIAN__)
msg_ginfo(" little endian");
#else
msg_ginfo(" big endian");
#endif
msg_ginfo("\n");
}
void print_version(void)
{
msg_ginfo("flashrom v%s", flashrom_version);
print_sysinfo();
}
void print_banner(void)
{
msg_ginfo("flashrom is free software, get the source code at "
"http://www.flashrom.org\n");
msg_ginfo("\n");
}
int selfcheck(void)
{
int ret = 0;
struct flashchip *flash;
/* Safety check. Instead of aborting after the first error, check
* if more errors exist.
*/
if (ARRAY_SIZE(programmer_table) - 1 != PROGRAMMER_INVALID) {
msg_gerr("Programmer table miscompilation!\n");
ret = 1;
}
if (spi_programmer_count - 1 != SPI_CONTROLLER_INVALID) {
msg_gerr("SPI programmer table miscompilation!\n");
ret = 1;
}
#if CONFIG_BITBANG_SPI == 1
if (bitbang_spi_master_count - 1 != BITBANG_SPI_INVALID) {
msg_gerr("Bitbanging SPI master table miscompilation!\n");
ret = 1;
}
#endif
for (flash = flashchips; flash && flash->name; flash++)
if (selfcheck_eraseblocks(flash))
ret = 1;
return ret;
}
void check_chip_supported(struct flashchip *flash)
{
if (TEST_OK_MASK != (flash->tested & TEST_OK_MASK)) {
msg_cinfo("===\n");
if (flash->tested & TEST_BAD_MASK) {
msg_cinfo("This flash part has status NOT WORKING for operations:");
if (flash->tested & TEST_BAD_PROBE)
msg_cinfo(" PROBE");
if (flash->tested & TEST_BAD_READ)
msg_cinfo(" READ");
if (flash->tested & TEST_BAD_ERASE)
msg_cinfo(" ERASE");
if (flash->tested & TEST_BAD_WRITE)
msg_cinfo(" WRITE");
msg_cinfo("\n");
}
if ((!(flash->tested & TEST_BAD_PROBE) && !(flash->tested & TEST_OK_PROBE)) ||
(!(flash->tested & TEST_BAD_READ) && !(flash->tested & TEST_OK_READ)) ||
(!(flash->tested & TEST_BAD_ERASE) && !(flash->tested & TEST_OK_ERASE)) ||
(!(flash->tested & TEST_BAD_WRITE) && !(flash->tested & TEST_OK_WRITE))) {
msg_cinfo("This flash part has status UNTESTED for operations:");
if (!(flash->tested & TEST_BAD_PROBE) && !(flash->tested & TEST_OK_PROBE))
msg_cinfo(" PROBE");
if (!(flash->tested & TEST_BAD_READ) && !(flash->tested & TEST_OK_READ))
msg_cinfo(" READ");
if (!(flash->tested & TEST_BAD_ERASE) && !(flash->tested & TEST_OK_ERASE))
msg_cinfo(" ERASE");
if (!(flash->tested & TEST_BAD_WRITE) && !(flash->tested & TEST_OK_WRITE))
msg_cinfo(" WRITE");
msg_cinfo("\n");
}
/* FIXME: This message is designed towards CLI users. */
msg_cinfo("The test status of this chip may have been updated "
"in the latest development\n"
"version of flashrom. If you are running the latest "
"development version,\n"
"please email a report to flashrom@flashrom.org if "
"any of the above operations\n"
"work correctly for you with this flash part. Please "
"include the flashrom\n"
"output with the additional -V option for all "
"operations you tested (-V, -Vr,\n"
"-Vw, -VE), and mention which mainboard or "
"programmer you tested.\n"
"Thanks for your help!\n"
"===\n");
}
}
int main(int argc, char *argv[])
{
return cli_classic(argc, argv);
}
/* This function signature is horrible. We need to design a better interface,
* but right now it allows us to split off the CLI code.
*/
int doit(struct flashchip *flash, int force, char *filename, int read_it, int write_it, int erase_it, int verify_it)
{
uint8_t *buf;
unsigned long numbytes;
FILE *image;
int ret = 0;
unsigned long size;
size = flash->total_size * 1024;
buf = (uint8_t *) calloc(size, sizeof(char));
if (erase_it) {
if (flash->tested & TEST_BAD_ERASE) {
msg_cerr("Erase is not working on this chip. ");
if (!force) {
msg_cerr("Aborting.\n");
programmer_shutdown();
return 1;
} else {
msg_cerr("Continuing anyway.\n");
}
}
if (flash->unlock)
flash->unlock(flash);
if (erase_flash(flash)) {
emergency_help_message();
programmer_shutdown();
return 1;
}
} else if (read_it) {
if (flash->unlock)
flash->unlock(flash);
if (read_flash(flash, filename)) {
programmer_shutdown();
return 1;
}
} else {
struct stat image_stat;
if (flash->unlock)
flash->unlock(flash);
if (flash->tested & TEST_BAD_ERASE) {
msg_cerr("Erase is not working on this chip "
"and erase is needed for write. ");
if (!force) {
msg_cerr("Aborting.\n");
programmer_shutdown();
return 1;
} else {
msg_cerr("Continuing anyway.\n");
}
}
if (flash->tested & TEST_BAD_WRITE) {
msg_cerr("Write is not working on this chip. ");
if (!force) {
msg_cerr("Aborting.\n");
programmer_shutdown();
return 1;
} else {
msg_cerr("Continuing anyway.\n");
}
}
if ((image = fopen(filename, "rb")) == NULL) {
perror(filename);
programmer_shutdown();
exit(1);
}
if (fstat(fileno(image), &image_stat) != 0) {
perror(filename);
programmer_shutdown();
exit(1);
}
if (image_stat.st_size != flash->total_size * 1024) {
msg_gerr("Error: Image size doesn't match\n");
programmer_shutdown();
exit(1);
}
numbytes = fread(buf, 1, size, image);
#if CONFIG_INTERNAL == 1
show_id(buf, size, force);
#endif
fclose(image);
if (numbytes != size) {
msg_gerr("Error: Failed to read file. Got %ld bytes, wanted %ld!\n", numbytes, size);
programmer_shutdown();
return 1;
}
}
// This should be moved into each flash part's code to do it
// cleanly. This does the job.
handle_romentries(buf, flash);
// ////////////////////////////////////////////////////////////
if (write_it) {
msg_cinfo("Writing flash chip... ");
if (!flash->write) {
msg_cerr("Error: flashrom has no write function for this flash chip.\n");
programmer_shutdown();
return 1;
}
ret = flash->write(flash, buf);
if (ret) {
msg_cerr("FAILED!\n");
emergency_help_message();
programmer_shutdown();
return 1;
} else {
msg_cinfo("COMPLETE.\n");
}
}
if (verify_it) {
/* Work around chips which need some time to calm down. */
if (write_it)
programmer_delay(1000*1000);
ret = verify_flash(flash, buf);
/* If we tried to write, and verification now fails, we
* might have an emergency situation.
*/
if (ret && write_it)
emergency_help_message();
}
programmer_shutdown();
return ret;
}
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