Files
lbmk/util/nvmutil/nvmutil.c
T
Leah Rowe aeb076b30e util/nvmutil: remove cmd_brick
this is an extremely dangerous feature, and serves
no purpose to the user.

this change is part of a series of extreme safety
improvements, part of a larger nvmutil audit.

Signed-off-by: Leah Rowe <leah@libreboot.org>
2026-03-09 02:23:22 +00:00

1333 lines
27 KiB
C

/* SPDX-License-Identifier: MIT */
/* Copyright (c) 2022-2026 Leah Rowe <leah@libreboot.org> */
/* Copyright (c) 2023 Riku Viitanen <riku.viitanen@protonmail.com> */
#ifdef __OpenBSD__
#include <sys/param.h>
#endif
#include <sys/stat.h>
#include <errno.h>
#include <fcntl.h>
#include <stdarg.h>
#include <stdint.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <unistd.h>
/*
* The BSD versions that could realistically build
* nvmutil almost certainly have arc4random (first
* introduced in 1990s or early 2000s in most of
* them - you can just patch as needed, on old BSD.
*/
#if defined(__OpenBSD__) || defined(__FreeBSD__) || \
defined(__NetBSD__) || defined(__APPLE__) || \
defined(__DragonFly__)
#ifndef NVMUTIL_ARC4RANDOM_BUF
#define NVMUTIL_ARC4RANDOM_BUF 1
#endif
#endif
/*
* Older versions of BSD to the early 2000s
* could compile nvmutil, but pledge was
* added in the 2010s. Therefore, for extra
* portability, we will only pledge/unveil
* on OpenBSD versions that have it.
*/
#if defined(__OpenBSD__) && defined(OpenBSD)
#if OpenBSD >= 604
#ifndef NVMUTIL_UNVEIL
#define NVMUTIL_UNVEIL 1
#endif
#endif
#if OpenBSD >= 509
#ifndef NVMUTIL_PLEDGE
#define NVMUTIL_PLEDGE 1
#endif
#endif
#endif
static void sanitize_command_list(void);
static void sanitize_command_index(size_t c);
static void check_enum_bin(size_t a, const char *a_name,
size_t b, const char *b_name);
static void set_cmd(int argc, char *argv[]);
static void set_cmd_args(int argc, char *argv[]);
static size_t conv_argv_part_num(const char *part_str);
static void set_io_flags(int argc, char *argv[]);
static void run_cmd(size_t c);
static void check_command_num(size_t c);
static uint8_t valid_command(size_t c);
static int xstrxcmp(const char *a, const char *b, size_t maxlen);
#ifndef NVMUTIL_ARC4RANDOM_BUF
static void open_dev_urandom(void);
#endif
static void open_gbe_file(void);
static void xopen(int *fd, const char *path, int flags, struct stat *st);
static void read_gbe_file(void);
static void read_gbe_file_part(size_t part);
static void read_checksums(void);
static int good_checksum(size_t partnum);
static void cmd_setmac(void);
static void parse_mac_string(void);
static size_t xstrxlen(const char *scmp, size_t maxlen);
static void set_mac_byte(size_t mac_byte_pos);
static void set_mac_nib(size_t mac_str_pos,
size_t mac_byte_pos, size_t mac_nib_pos);
static uint16_t hextonum(char ch_s);
static uint16_t rhex(void);
static void read_file_exact(int fd, void *buf, size_t len,
off_t off, const char *path, const char *op);
static void write_mac_part(size_t partnum);
static void cmd_dump(void);
static void print_mac_from_nvm(size_t partnum);
static void hexdump(size_t partnum);
static void write_gbe_file(void);
static void override_part_modified(void);
static void set_checksum(size_t part);
static uint16_t nvm_word(size_t pos16, size_t part);
static void set_nvm_word(size_t pos16, size_t part, uint16_t val16);
static void set_part_modified(size_t p);
static void check_nvm_bound(size_t pos16, size_t part);
static void check_bin(size_t a, const char *a_name);
static void write_gbe_file_part(size_t part);
static off_t gbe_file_offset(size_t part, const char *f_op);
static void *gbe_mem_offset(size_t part, const char *f_op);
static off_t gbe_x_offset(size_t part, const char *f_op,
const char *d_type, off_t nsize, off_t ncmp);
static void err(int nvm_errval, const char *msg, ...);
static void close_files(void);
static const char *getnvmprogname(void);
static void set_err(int errval);
static void usage(uint8_t usage_exit);
/*
* Sizes in bytes:
*/
#define SIZE_1KB 1024
#define SIZE_4KB (4 * SIZE_1KB)
#define SIZE_8KB (8 * SIZE_1KB)
#define SIZE_16KB (16 * SIZE_1KB)
#define SIZE_128KB (128 * SIZE_1KB)
/*
* First 128 bytes of a GbE part contains
* the regular NVM (Non-Volatile-Memory)
* area. All of these bytes must add up,
* truncated to 0xBABA.
*
* The full GbE region is 4KB, but only
* the first 128 bytes are used here.
*
* There is a second 4KB part with the same
* rules, and it *should* be identical.
*/
#define GBE_FILE_SIZE SIZE_8KB /* for buf */
#define GBE_PART_SIZE (GBE_FILE_SIZE >> 1)
#define NVM_CHECKSUM 0xBABA
#define NVM_SIZE 128
#define NVM_WORDS (NVM_SIZE >> 1)
#define NVM_CHECKSUM_WORD (NVM_WORDS - 1)
/*
* When reading files, we loop on error EINTR
* a maximum number of times as defined, thus:
*/
#define MAX_RETRY_RW 30
/*
* Portable macro based on BSD nitems.
* Used to count the number of commands (see below).
*/
#define items(x) (sizeof((x)) / sizeof((x)[0]))
#ifndef NVMUTIL_ARC4RANDOM_BUF
static const char newrandom[] = "/dev/urandom";
static const char oldrandom[] = "/dev/random"; /* fallback on OLD unix */
static const char *rname = NULL;
#endif
/*
* GbE files can be 8KB, 16KB or 128KB,
* but we only need the two 4KB parts
* from offset zero and offset 64KB in
* a 128KB file, or zero and 8KB in a 16KB
* file, or zero and 4KB in an 8KB file.
*
* The code will handle this properly.
*/
static uint8_t buf[GBE_FILE_SIZE];
static uint16_t mac_buf[3];
static off_t gbe_file_size;
static int gbe_flags;
#ifndef NVMUTIL_ARC4RANDOM_BUF
static int urandom_fd = -1;
#endif
static int gbe_fd = -1;
static size_t part;
static uint8_t part_modified[2];
static uint8_t part_valid[2];
static const char rmac[] = "xx:xx:xx:xx:xx:xx";
static const char *mac_str;
static const char *fname;
static const char *argv0;
/*
* Use these for .invert in command[]:
* If set to 1: read/write inverter (p0->p1, p1->p0)
*/
#define PART_INVERT 1
#define NO_INVERT 0
/*
* Use these for .argc in command[]:
*/
#define ARGC_3 3
#define ARGC_4 4
/*
* Used as indices for command[]
* MUST be in the same order as entries in command[]
*/
enum {
CMD_DUMP,
CMD_SETMAC,
CMD_SWAP,
CMD_COPY,
};
/*
* If set, a given part will always be written.
*/
enum {
SET_MOD_OFF, /* don't manually set part modified */
SET_MOD_0, /* set part 0 modified */
SET_MOD_1, /* set part 1 modified */
SET_MOD_N, /* set user-specified part modified */
/* affected by command[].invert */
SET_MOD_BOTH /* set both parts modified */
};
enum {
ARG_NOPART,
ARG_PART
};
enum {
SKIP_CHECKSUM_READ,
CHECKSUM_READ
};
enum {
SKIP_CHECKSUM_WRITE,
CHECKSUM_WRITE
};
struct commands {
size_t chk;
const char *str;
void (*run)(void);
int argc;
uint8_t invert;
uint8_t set_modified;
uint8_t arg_part;
uint8_t chksum_read;
uint8_t chksum_write;
size_t rw_size; /* within the 4KB GbE part */
};
/*
* Command table, for nvmutil commands
*/
static const struct commands command[] = {
/*
* Unlike older versions, we now require
* both checksums to be valid for "dump".
*/
{ CMD_DUMP, "dump", cmd_dump, ARGC_3,
NO_INVERT, SET_MOD_OFF,
ARG_NOPART,
CHECKSUM_READ, SKIP_CHECKSUM_WRITE,
NVM_SIZE },
{ CMD_SETMAC, "setmac", cmd_setmac, ARGC_3,
NO_INVERT, SET_MOD_OFF,
ARG_NOPART,
CHECKSUM_READ, CHECKSUM_WRITE,
NVM_SIZE },
/*
* OPTIMISATION: Read inverted, so no copying is needed.
*/
{ CMD_SWAP, "swap", NULL, ARGC_3,
PART_INVERT, SET_MOD_BOTH,
ARG_NOPART,
CHECKSUM_READ, SKIP_CHECKSUM_WRITE,
GBE_PART_SIZE },
/*
* OPTIMISATION: Read inverted, so no copying is needed.
* The non-target part will not be read.
*/
{ CMD_COPY, "copy", NULL, ARGC_4,
PART_INVERT, SET_MOD_N,
ARG_PART,
CHECKSUM_READ, SKIP_CHECKSUM_WRITE,
GBE_PART_SIZE },
};
#define MAX_CMD_LEN 50
#define N_COMMANDS items(command)
#define CMD_NULL N_COMMANDS
/*
* Index in command[], will be set later
*/
static size_t cmd_index = CMD_NULL;
int
main(int argc, char *argv[])
{
argv0 = argv[0];
if (argc < 2)
usage(1);
fname = argv[1];
#ifdef NVMUTIL_PLEDGE
#ifdef NVMUTIL_UNVEIL
if (pledge("stdio rpath wpath unveil", NULL) == -1)
err(ECANCELED, "pledge");
if (unveil("/dev/null", "r") == -1)
err(ECANCELED, "unveil '/dev/null'");
#else
if (pledge("stdio rpath wpath", NULL) == -1)
err(ECANCELED, "pledge");
#endif
#endif
sanitize_command_list();
set_cmd(argc, argv);
set_cmd_args(argc, argv);
set_io_flags(argc, argv);
#ifdef NVMUTIL_PLEDGE
#ifdef NVMUTIL_UNVEIL
if (gbe_flags == O_RDONLY) {
if (unveil(fname, "r") == -1)
err(ECANCELED, "unveil ro '%s'", fname);
if (unveil(NULL, NULL) == -1)
err(ECANCELED, "unveil block (ro)");
if (pledge("stdio rpath", NULL) == -1)
err(ECANCELED, "pledge ro (kill unveil)");
} else {
if (unveil(fname, "rw") == -1)
err(ECANCELED, "unveil rw '%s'", fname);
if (unveil(NULL, NULL) == -1)
err(ECANCELED, "unveil block (rw)");
if (pledge("stdio rpath wpath", NULL) == -1)
err(ECANCELED, "pledge rw (kill unveil)");
}
#else
if (gbe_flags == O_RDONLY) {
if (pledge("stdio rpath", NULL) == -1)
err(ECANCELED, "pledge ro");
}
#endif
#endif
#ifndef NVMUTIL_ARC4RANDOM_BUF
#if defined(__OpenBSD__) || defined(__FreeBSD__) || \
defined(__NetBSD__) || defined(__APPLE__) || \
defined(__DragonFly__)
err(ECANCELED, "Maintainer error: arc4random disabled on BSD/MacOS");
#endif
open_dev_urandom();
#endif
open_gbe_file();
#ifdef NVMUTIL_PLEDGE
if (pledge("stdio", NULL) == -1)
err(ECANCELED, "pledge stdio (main)");
#endif
read_gbe_file();
read_checksums();
run_cmd(cmd_index);
if (errno)
err(errno, "Unhandled error: will not write file: %s", fname);
else if (gbe_flags != O_RDONLY)
write_gbe_file();
close_files();
if (errno)
err(ECANCELED, "Unhandled error on exit");
return EXIT_SUCCESS;
}
/*
* Guard against regressions by maintainers (command table)
*/
static void
sanitize_command_list(void)
{
size_t c;
for (c = 0; valid_command(c); c++)
sanitize_command_index(c);
}
static void
sanitize_command_index(size_t c)
{
uint8_t mod_type;
size_t gbe_rw_size;
check_command_num(c);
if (ARGC_3 != 3)
err(ECANCELED, "ARGC_3 is not equal to 3");
if (ARGC_4 != 4)
err(ECANCELED, "ARGC_4 is not equal to 4");
if (command[c].argc < 3)
err(ECANCELED, "cmd index %zu: argc below 3, %d",
c, command[c].argc);
if (command[c].str == NULL)
err(ECANCELED, "cmd index %zu: NULL str", c);
if (*command[c].str == '\0')
err(ECANCELED, "cmd index %zu: empty str", c);
if (xstrxlen(command[c].str, MAX_CMD_LEN + 1) >
MAX_CMD_LEN) {
err(ECANCELED, "cmd index %zu: str too long: %s",
c, command[c].str);
}
mod_type = command[c].set_modified;
switch (mod_type) {
case SET_MOD_0:
case SET_MOD_1:
case SET_MOD_N:
case SET_MOD_BOTH:
case SET_MOD_OFF:
break;
default:
err(EINVAL, "Unsupported set_mod type: %u", mod_type);
}
check_bin(command[c].invert, "cmd.invert");
check_bin(command[c].arg_part, "cmd.arg_part");
check_bin(command[c].chksum_read, "cmd.chksum_read");
check_bin(command[c].chksum_write, "cmd.chksum_write");
check_enum_bin(ARG_NOPART, "ARG_NOPART", ARG_PART, "ARG_PART");
check_enum_bin(SKIP_CHECKSUM_READ, "SKIP_CHECKSUM_READ",
CHECKSUM_READ, "CHECKSUM_READ");
check_enum_bin(SKIP_CHECKSUM_WRITE, "SKIP_CHECKSUM_WRITE",
CHECKSUM_WRITE, "CHECKSUM_WRITE");
gbe_rw_size = command[c].rw_size;
switch (gbe_rw_size) {
case GBE_PART_SIZE:
case NVM_SIZE:
break;
default:
err(EINVAL, "Unsupported rw_size: %zu", gbe_rw_size);
}
if (gbe_rw_size > GBE_PART_SIZE)
err(EINVAL, "rw_size larger than GbE part: %zu",
gbe_rw_size);
}
static void
check_enum_bin(size_t a, const char *a_name,
size_t b, const char *b_name)
{
if (a)
err(ECANCELED, "%s is non-zero", a_name);
if (b != 1)
err(ECANCELED, "%s is a value other than 1", b_name);
}
static void
set_cmd(int argc, char *argv[])
{
for (cmd_index = 0; valid_command(cmd_index); cmd_index++) {
if (argc < 3)
break;
if (xstrxcmp(argv[2], command[cmd_index].str,
MAX_CMD_LEN) != 0)
continue;
if (argc >= command[cmd_index].argc)
return;
err(EINVAL, "Too few args: command '%s'",
command[cmd_index].str);
}
cmd_index = CMD_NULL;
}
static void
set_cmd_args(int argc, char *argv[])
{
if (cmd_index == CMD_SETMAC && argc >= 4) {
/*
* 4th arg e.g.: ./nvmutil gbe.bin setmac 00:xx:11:22:xx:xx
*/
mac_str = argv[3];
} else if (!valid_command(cmd_index) && argc >= 3) {
/*
* Example: ./nvmutil gbe.bin xx:1f:16:xx:xx:xx
* Equivalent ./nvmutil gbe.bin setmac xx:1f:16:xx:xx:xx
*/
mac_str = argv[2];
cmd_index = CMD_SETMAC;
} else if (argc == 2) {
/*
* No extra args: ./nvmutil gbe.bin
* Equivalent: ./nvmutil gbe.bin setmac xx:xx:xx:xx:xx:xx
*/
mac_str = rmac;
cmd_index = CMD_SETMAC;
} else if (valid_command(cmd_index) && argc >= 4) {
if (command[cmd_index].arg_part) {
/*
* User-supplied partnum.
* Example: ./nvmutil gbe.bin copy 0
*/
part = conv_argv_part_num(argv[3]);
} else {
err(ECANCELED, "Bad command: %s %s",
argv[2], argv[3]);
}
} else if (valid_command(cmd_index) && argc >= 3) {
if (cmd_index == CMD_SETMAC)
mac_str = rmac;
}
if (!valid_command(cmd_index)) {
usage(0);
err(EINVAL, "Unhandled command error");
}
}
static size_t
conv_argv_part_num(const char *part_str)
{
unsigned char ch;
if (part_str[0] == '\0' || part_str[1] != '\0')
err(EINVAL, "Partnum string '%s' wrong length", part_str);
/* char signedness is implementation-defined */
ch = (unsigned char)part_str[0];
if (ch < '0' || ch > '1')
err(EINVAL, "Bad part number (%c)", ch);
return (size_t)(ch - '0');
}
static void
set_io_flags(int argc, char *argv[])
{
gbe_flags = O_RDWR;
if (argc < 3)
return;
if (xstrxcmp(argv[2], "dump", MAX_CMD_LEN) == 0)
gbe_flags = O_RDONLY;
}
static void
run_cmd(size_t c)
{
check_command_num(c);
if (command[c].run)
command[c].run();
}
static void
check_command_num(size_t c)
{
if (!valid_command(c))
err(ECANCELED, "Invalid run_cmd arg: %zu", c);
}
static uint8_t
valid_command(size_t c)
{
if (c >= N_COMMANDS)
return 0;
if (c != command[c].chk)
err(ECANCELED, "Invalid cmd chk value (%zu) vs arg: %zu",
command[c].chk, c);
return 1;
}
/*
* Portable strcmp() but blocks NULL/empty/unterminated
* strings. Even stricter than strncmp().
*/
static int
xstrxcmp(const char *a, const char *b, size_t maxlen)
{
size_t i;
if (a == NULL || b == NULL)
err(EINVAL, "NULL input to xstrxcmp");
if (*a == '\0' || *b == '\0')
err(EINVAL, "Empty string in xstrxcmp");
for (i = 0; i < maxlen; i++) {
if (a[i] != b[i])
return (unsigned char)a[i] - (unsigned char)b[i];
if (a[i] == '\0')
return 0;
}
/*
* We reached maxlen, so assume unterminated string.
*/
err(EINVAL, "Unterminated string in xstrxcmp");
/*
* Should never reach here. This keeps compilers happy.
*/
errno = EINVAL;
return -1;
}
#ifndef NVMUTIL_ARC4RANDOM_BUF
static void
open_dev_urandom(void)
{
struct stat st_urandom_fd;
rname = newrandom;
if ((urandom_fd = open(rname, O_RDONLY)) != -1)
return;
/*
* Fall back to /dev/random on very old Unix.
*/
fprintf(stderr, "Can't open %s (will use %s instead)\n",
newrandom, oldrandom);
errno = 0;
rname = oldrandom;
xopen(&urandom_fd, rname, O_RDONLY, &st_urandom_fd);
}
#endif
static void
open_gbe_file(void)
{
struct stat gbe_st;
xopen(&gbe_fd, fname, gbe_flags, &gbe_st);
gbe_file_size = gbe_st.st_size;
switch (gbe_file_size) {
case SIZE_8KB:
case SIZE_16KB:
case SIZE_128KB:
break;
default:
err(ECANCELED, "File size must be 8KB, 16KB or 128KB");
}
}
static void
xopen(int *fd_ptr, const char *path, int flags, struct stat *st)
{
if ((*fd_ptr = open(path, flags)) == -1)
err(ECANCELED, "%s", path);
if (fstat(*fd_ptr, st) == -1)
err(ECANCELED, "%s", path);
}
static void
read_gbe_file(void)
{
size_t p;
uint8_t do_read[2] = {1, 1};
/*
* Commands specifying a partnum only
* need the given GbE part to be read.
*/
if (command[cmd_index].arg_part)
do_read[part ^ 1] = 0;
for (p = 0; p < 2; p++) {
if (do_read[p])
read_gbe_file_part(p);
}
}
static void
read_gbe_file_part(size_t p)
{
size_t gbe_rw_size = command[cmd_index].rw_size;
void *mem_offset =
gbe_mem_offset(p ^ command[cmd_index].invert, "pread");
read_file_exact(gbe_fd, mem_offset,
gbe_rw_size, gbe_file_offset(p, "pread"), fname, "pread");
printf("Read %zu bytes from part %zu: %s\n",
gbe_rw_size, p, fname);
}
static void
read_checksums(void)
{
size_t p;
size_t skip_part;
uint8_t invert;
uint8_t arg_part;
uint8_t num_invalid;
uint8_t max_invalid;
if (!command[cmd_index].chksum_read)
return;
num_invalid = 0;
max_invalid = 2;
invert = command[cmd_index].invert;
arg_part = command[cmd_index].arg_part;
if (arg_part)
max_invalid = 1;
/*
* Skip verification on this part,
* but only when arg_part is set.
*/
skip_part = part ^ 1 ^ invert;
for (p = 0; p < 2; p++) {
/*
* Only verify a part if it was *read*
*/
if (arg_part && (p == skip_part))
continue;
if (good_checksum(p))
part_valid[p] = 1;
else
++num_invalid;
}
if (num_invalid < max_invalid)
errno = 0;
if (num_invalid >= max_invalid)
err(ECANCELED, "No valid checksum found in file: %s",
fname);
}
static int
good_checksum(size_t partnum)
{
size_t w;
uint16_t total = 0;
for (w = 0; w <= NVM_CHECKSUM_WORD; w++)
total += nvm_word(w, partnum);
if (total == NVM_CHECKSUM)
return 1;
fprintf(stderr, "WARNING: BAD checksum in part %zu\n",
partnum ^ command[cmd_index].invert);
set_err(ECANCELED);
return 0;
}
static void
cmd_setmac(void)
{
size_t partnum;
#ifdef NVMUTIL_ARC4RANDOM_BUF
printf("Randomisation method: arc4random_buf\n");
#else
printf("Randomisation method: %s\n", rname);
#endif
printf("MAC address to be written: %s\n", mac_str);
parse_mac_string();
for (partnum = 0; partnum < 2; partnum++)
write_mac_part(partnum);
}
static void
parse_mac_string(void)
{
size_t mac_byte;
if (xstrxlen(mac_str, 18) != 17)
err(EINVAL, "MAC address is the wrong length");
memset(mac_buf, 0, sizeof(mac_buf));
for (mac_byte = 0; mac_byte < 6; mac_byte++)
set_mac_byte(mac_byte);
if ((mac_buf[0] | mac_buf[1] | mac_buf[2]) == 0)
err(EINVAL, "Must not specify all-zeroes MAC address");
if (mac_buf[0] & 1)
err(EINVAL, "Must not specify multicast MAC address");
}
/*
* strnlen() but aborts on NULL input, and empty strings.
* Our version also prohibits unterminated strings.
* strnlen() was standardized in POSIX.1-2008 and is not
* available on some older systems, so we provide our own.
*/
static size_t
xstrxlen(const char *scmp, size_t maxlen)
{
size_t xstr_index;
if (scmp == NULL)
err(EINVAL, "NULL input to xstrxlen");
if (*scmp == '\0')
err(EINVAL, "Empty string in xstrxlen");
for (xstr_index = 0;
xstr_index < maxlen && scmp[xstr_index] != '\0';
xstr_index++);
if (xstr_index == maxlen)
err(EINVAL, "Unterminated string in xstrxlen");
return xstr_index;
}
static void
set_mac_byte(size_t mac_byte_pos)
{
size_t mac_str_pos = mac_byte_pos * 3;
size_t mac_nib_pos;
char separator;
if (mac_str_pos < 15) {
if ((separator = mac_str[mac_str_pos + 2]) != ':')
err(EINVAL, "Invalid MAC address separator '%c'",
separator);
}
for (mac_nib_pos = 0; mac_nib_pos < 2; mac_nib_pos++)
set_mac_nib(mac_str_pos, mac_byte_pos, mac_nib_pos);
}
static void
set_mac_nib(size_t mac_str_pos,
size_t mac_byte_pos, size_t mac_nib_pos)
{
char mac_ch;
uint16_t hex_num;
mac_ch = mac_str[mac_str_pos + mac_nib_pos];
if ((hex_num = hextonum(mac_ch)) > 15)
err(EINVAL, "Invalid character '%c'",
mac_str[mac_str_pos + mac_nib_pos]);
/*
* If random, ensure that local/unicast bits are set.
*/
if ((mac_byte_pos == 0) && (mac_nib_pos == 1) &&
((mac_ch | 0x20) == 'x' ||
(mac_ch == '?')))
hex_num = (hex_num & 0xE) | 2; /* local, unicast */
/*
* MAC words stored big endian in-file, little-endian
* logically, so we reverse the order.
*/
mac_buf[mac_byte_pos >> 1] |= hex_num <<
(((mac_byte_pos & 1) << 3) /* left or right byte? */
| ((mac_nib_pos ^ 1) << 2)); /* left or right nib? */
}
static uint16_t
hextonum(char ch_s)
{
unsigned char ch = (unsigned char)ch_s;
if ((unsigned)(ch - '0') <= 9)
return ch - '0';
ch |= 0x20;
if ((unsigned)(ch - 'a') <= 5)
return ch - 'a' + 10;
if (ch == '?' || ch == 'x')
return rhex(); /* random character */
return 16; /* invalid character */
}
static uint16_t
rhex(void)
{
static size_t n = 0;
static uint8_t rnum[12];
if (!n) {
n = sizeof(rnum);
#ifdef NVMUTIL_ARC4RANDOM_BUF
arc4random_buf(rnum, n);
#else
read_file_exact(urandom_fd, rnum, n, 0, rname, NULL);
#endif
}
return (uint16_t)(rnum[--n] & 0xf);
}
static void
read_file_exact(int fd, void *buf, size_t len,
off_t off, const char *path, const char *op)
{
int retry;
ssize_t rval;
if (fd == -1)
err(ECANCELED, "Trying to open bad fd: %s", path);
for (retry = 0; retry < MAX_RETRY_RW; retry++) {
if (op)
rval = pread(fd, buf, len, off);
else
rval = read(fd, buf, len);
if (rval == (ssize_t)len) {
errno = 0;
return;
}
if (rval != -1)
err(ECANCELED,
"Short %s, %zd bytes, on file: %s",
op ? op : "read", rval, path);
if (errno != EINTR)
err(ECANCELED,
"Could not %s file: '%s'",
op ? op : "read", path);
}
err(EINTR, "%s: max retries exceeded on file: %s",
op ? op : "read", path);
}
static void
write_mac_part(size_t partnum)
{
size_t w;
check_bin(partnum, "part number");
if (!part_valid[partnum])
return;
for (w = 0; w < 3; w++)
set_nvm_word(w, partnum, mac_buf[w]);
printf("Wrote MAC address to part %zu: ", partnum);
print_mac_from_nvm(partnum);
}
static void
cmd_dump(void)
{
size_t partnum;
for (partnum = 0; partnum < 2; partnum++) {
printf("MAC (part %zu): ", partnum);
print_mac_from_nvm(partnum);
hexdump(partnum);
}
}
static void
print_mac_from_nvm(size_t partnum)
{
size_t c;
for (c = 0; c < 3; c++) {
uint16_t val16 = nvm_word(c, partnum);
printf("%02x:%02x", val16 & 0xff, val16 >> 8);
if (c == 2)
printf("\n");
else
printf(":");
}
}
static void
hexdump(size_t partnum)
{
size_t c;
size_t row;
uint16_t val16;
for (row = 0; row < 8; row++) {
printf("%08zx ", row << 4);
for (c = 0; c < 8; c++) {
val16 = nvm_word((row << 3) + c, partnum);
if (c == 4)
printf(" ");
printf(" %02x %02x", val16 & 0xff, val16 >> 8);
}
printf("\n");
}
}
static void
write_gbe_file(void)
{
size_t p;
size_t partnum;
uint8_t update_checksum;
if (gbe_flags == O_RDONLY)
return;
update_checksum = command[cmd_index].chksum_write;
override_part_modified();
for (p = 0; p < 2; p++) {
partnum = p ^ command[cmd_index].invert;
if (!part_modified[partnum])
continue;
if (update_checksum)
set_checksum(partnum);
write_gbe_file_part(partnum);
}
}
static void
override_part_modified(void)
{
uint8_t mod_type = command[cmd_index].set_modified;
switch (mod_type) {
case SET_MOD_0:
set_part_modified(0);
break;
case SET_MOD_1:
set_part_modified(1);
break;
case SET_MOD_N:
set_part_modified(part ^ command[cmd_index].invert);
break;
case SET_MOD_BOTH:
set_part_modified(0);
set_part_modified(1);
break;
case SET_MOD_OFF:
break;
default:
err(EINVAL, "Unsupported set_mod type: %u",
mod_type);
}
}
static void
set_checksum(size_t p)
{
size_t c;
uint16_t val16;
check_bin(p, "part number");
val16 = 0;
for (c = 0; c < NVM_CHECKSUM_WORD; c++)
val16 += nvm_word(c, p);
set_nvm_word(NVM_CHECKSUM_WORD, p, NVM_CHECKSUM - val16);
}
/*
* GbE NVM files store 16-bit (2-byte) little-endian words.
* We must therefore swap the order when reading or writing.
*
* NOTE: The MAC address words are stored big-endian in the
* file, but we assume otherwise and adapt accordingly.
*/
static uint16_t
nvm_word(size_t pos16, size_t p)
{
size_t pos;
check_nvm_bound(pos16, p);
pos = (pos16 << 1) + (p * GBE_PART_SIZE);
return buf[pos] | (buf[pos + 1] << 8);
}
static void
set_nvm_word(size_t pos16, size_t p, uint16_t val16)
{
size_t pos;
check_nvm_bound(pos16, p);
pos = (pos16 << 1) + (p * GBE_PART_SIZE);
buf[pos] = (uint8_t)(val16 & 0xff);
buf[pos + 1] = (uint8_t)(val16 >> 8);
set_part_modified(p);
}
static void
set_part_modified(size_t p)
{
check_bin(p, "part number");
part_modified[p] = 1;
}
static void
check_nvm_bound(size_t c, size_t p)
{
/*
* NVM_SIZE assumed as the limit, because this
* current design assumes that we will only
* ever modified the NVM area.
*/
check_bin(p, "part number");
if (c >= NVM_WORDS)
err(EINVAL, "check_nvm_bound: out of bounds %zu", c);
}
static void
check_bin(size_t a, const char *a_name)
{
if (a > 1)
err(ECANCELED, "%s must be 0 or 1, but is %zu", a_name, a);
}
static void
write_gbe_file_part(size_t p)
{
int retry;
ssize_t rval;
size_t gbe_rw_size;
if (gbe_fd == -1)
err(ECANCELED, "Trying to write bad gbe_fd: %s", fname);
gbe_rw_size = command[cmd_index].rw_size;
for (retry = 0; retry < MAX_RETRY_RW; retry++) {
rval = pwrite(gbe_fd, gbe_mem_offset(p, "pwrite"),
gbe_rw_size, gbe_file_offset(p, "pwrite"));
if (rval == (ssize_t)gbe_rw_size) {
errno = 0;
printf("Wrote %zu bytes to part %zu: %s\n",
gbe_rw_size, p, fname);
return;
}
if (rval != -1)
err(ECANCELED,
"Short pwrite, %zd bytes, on file: %s",
rval, fname);
if (errno != EINTR)
err(ECANCELED,
"Could not pwrite file: '%s'", fname);
}
err(EINTR, "pwrite: max retries exceeded on file: %s", fname);
}
/*
* Reads to GbE from write_gbe_file_part and read_gbe_file_part
* are filtered through here. These operations must
* only write from the 0th position or the half position
* within the GbE file, and write 4KB of data.
*
* This check is called, to ensure just that.
*/
static off_t
gbe_file_offset(size_t p, const char *f_op)
{
off_t gbe_file_half_size = gbe_file_size >> 1;
return gbe_x_offset(p, f_op, "file",
gbe_file_half_size, gbe_file_size);
}
/*
* This one is similar to gbe_file_offset,
* but used to check Gbe bounds in memory,
* and it is *also* used during file I/O.
*/
static void *
gbe_mem_offset(size_t p, const char *f_op)
{
off_t gbe_off = gbe_x_offset(p, f_op, "mem",
GBE_PART_SIZE, GBE_FILE_SIZE);
return (void *)(buf + gbe_off);
}
static off_t
gbe_x_offset(size_t p, const char *f_op, const char *d_type,
off_t nsize, off_t ncmp)
{
off_t off;
check_bin(p, "part number");
off = (off_t)p * nsize;
if (off + GBE_PART_SIZE > ncmp)
err(ECANCELED, "GbE %s %s out of bounds: %s",
d_type, f_op, fname);
if (off != 0 && off != ncmp >> 1)
err(ECANCELED, "GbE %s %s at bad offset: %s",
d_type, f_op, fname);
return off;
}
static void
err(int nvm_errval, const char *msg, ...)
{
if (nvm_errval != -1)
close_files();
va_list args;
fprintf(stderr, "%s: ", getnvmprogname());
va_start(args, msg);
vfprintf(stderr, msg, args);
va_end(args);
set_err(nvm_errval);
fprintf(stderr, ": %s", strerror(errno));
fprintf(stderr, "\n");
exit(EXIT_FAILURE);
}
static void
close_files(void)
{
if (gbe_fd > -1) {
if (close(gbe_fd) == -1)
err(-1, "close '%s'", fname);
}
#ifndef NVMUTIL_ARC4RANDOM_BUF
if (urandom_fd > -1) {
if (close(urandom_fd) == -1)
err(-1, "close '%s'", rname);
}
#endif
}
static const char *
getnvmprogname(void)
{
const char *p;
if (argv0 == NULL || *argv0 == '\0')
return "";
p = strrchr(argv0, '/');
if (p)
return p + 1;
else
return argv0;
}
static void
set_err(int x)
{
if (errno)
return;
if (x > 0)
errno = x;
else
errno = ECANCELED;
}
static void
usage(uint8_t usage_exit)
{
const char *util = getnvmprogname();
#ifdef NVMUTIL_PLEDGE
if (pledge("stdio", NULL) == -1)
err(ECANCELED, "pledge");
#endif
fprintf(stderr,
"Modify Intel GbE NVM images e.g. set MAC\n"
"USAGE:\n"
"\t%s FILE dump\n"
"\t%s FILE # same as setmac without [MAC]\n"
"\t%s FILE setmac [MAC]\n"
"\t%s FILE swap\n"
"\t%s FILE copy 0|1\n",
util, util, util, util, util);
if (usage_exit)
err(ECANCELED, "Too few arguments");
}