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|
#define _LARGEFILE64_SOURCE
#include <sys/types.h>
#include <sys/stat.h>
#include <fcntl.h>
#include <unistd.h>
#include <stdlib.h>
#include <stdio.h>
#include <stdint.h>
#include <string.h>
#include <errno.h>
#include <sys/ioctl.h>
#include <sys/stat.h>
#include "libubi.h"
#include "helpers.h"
struct erase_block_info;
struct volume_info;
struct ubi_device_info;
struct write_info
{
struct write_info *next;
struct erase_block_info *erase_block;
int offset_within_block; /* Offset within erase block */
off_t offset; /* Offset within volume */
int size;
int random_seed;
};
struct erase_block_info
{
struct volume_info *volume;
int block_number;
off_t offset; /* Offset within volume */
off_t top_of_data;
int touched; /* Have we done anything at all with this erase block */
int erased; /* This erased block is currently erased */
struct write_info *writes;
};
struct volume_fd
{
struct volume_fd *next;
struct volume_info *volume;
int fd;
};
struct volume_info
{
struct volume_info *next;
struct ubi_device_info *ubi_device;
struct volume_fd *fds;
struct erase_block_info *erase_blocks;
const char *device_file_name;
struct ubi_vol_info info;
};
struct ubi_device_info
{
struct volume_info *volumes;
const char *device_file_name;
struct ubi_dev_info info;
};
struct open_volume_fd
{
struct open_volume_fd *next;
struct volume_fd *vol_fd;
};
#define MAX_UBI_DEVICES 64
static libubi_t libubi;
static struct ubi_info info;
static struct ubi_device_info ubi_array[MAX_UBI_DEVICES];
static uint64_t total_written = 0;
static uint64_t total_space = 0;
static struct open_volume_fd *open_volumes;
static int open_volume_count = 0;
static const char *ubi_module_load_string;
static unsigned char *write_buffer = NULL;
static unsigned char *read_buffer = NULL;
static long long max_ebs_per_vol = 0; /* max number of ebs per vol (zero => no max) */
static unsigned long next_seed = 1;
static unsigned get_next_seed()
{
next_seed = next_seed * 1103515245 + 12345;
return ((unsigned) (next_seed / 65536) % 32768);
}
static void error_exit(const char *msg)
{
int eno = errno;
fprintf(stderr,"UBI Integrity Test Error: %s\n",msg);
if (eno) {
fprintf(stderr, "errno = %d\n", eno);
fprintf(stderr, "strerror = %s\n", strerror(eno));
}
exit(1);
}
static void *allocate(size_t n)
{
void *p = malloc(n);
if (!p)
error_exit("Memory allocation failure");
memset(p, 0, n);
return p;
}
static unsigned get_random_number(unsigned n)
{
uint64_t r, b;
if (n < 1)
return 0;
r = rand();
r *= n;
b = RAND_MAX;
b += 1;
r /= b;
return r;
}
static struct volume_fd *open_volume(struct volume_info *vol)
{
struct volume_fd *s;
struct open_volume_fd *ofd;
int fd;
if (vol->fds) {
/* If already open dup it */
fd = dup(vol->fds->fd);
if (fd == -1)
error_exit("Failed to dup volume device file des");
} else {
fd = open(vol->device_file_name, O_RDWR | O_LARGEFILE);
if (fd == -1)
error_exit("Failed to open volume device file");
}
s = allocate(sizeof(*s));
s->fd = fd;
s->volume = vol;
s->next = vol->fds;
vol->fds = s;
/* Add to open volumes list */
ofd = allocate(sizeof(*ofd));
ofd->vol_fd = s;
ofd->next = open_volumes;
open_volumes = ofd;
open_volume_count += 1;
return 0;
}
static void close_volume(struct volume_fd *vol_fd)
{
struct volume_fd *vfd, *vfd_last;
struct open_volume_fd *ofd, *ofd_last;
int fd = vol_fd->fd;
/* Remove from open volumes list */
ofd_last = NULL;
ofd = open_volumes;
while (ofd) {
if (ofd->vol_fd == vol_fd) {
if (ofd_last)
ofd_last->next = ofd->next;
else
open_volumes = ofd->next;
free(ofd);
open_volume_count -= 1;
break;
}
ofd_last = ofd;
ofd = ofd->next;
}
/* Remove from volume fd list */
vfd_last = NULL;
vfd = vol_fd->volume->fds;
while (vfd) {
if (vfd == vol_fd) {
if (vfd_last)
vfd_last->next = vfd->next;
else
vol_fd->volume->fds = vfd->next;
free(vfd);
break;
}
vfd_last = vfd;
vfd = vfd->next;
}
/* Close volume device file */
if (close(fd) == -1)
error_exit("Failed to close volume file descriptor");
}
static void set_random_data(unsigned seed, unsigned char *buf, int size)
{
int i;
unsigned r;
r = rand();
srand(seed);
for (i = 0; i < size; ++i)
buf[i] = rand();
srand(r);
}
static void check_erase_block(struct erase_block_info *erase_block, int fd)
{
struct write_info *w;
off_t gap_end;
int leb_size = erase_block->volume->info.leb_size;
ssize_t bytes_read;
w = erase_block->writes;
gap_end = erase_block->offset + leb_size;
while (w) {
if (w->offset + w->size < gap_end) {
/* There is a gap. Check all 0xff */
off_t gap_start = w->offset + w->size;
ssize_t size = gap_end - gap_start;
if (lseek(fd, gap_start, SEEK_SET) != gap_start)
error_exit("lseek failed");
memset(read_buffer, 0 , size);
errno = 0;
bytes_read = read(fd, read_buffer, size);
if (bytes_read != size)
error_exit("read failed in gap");
while (size)
if (read_buffer[--size] != 0xff) {
fprintf(stderr, "block no. = %d\n" , erase_block->block_number);
fprintf(stderr, "offset = %"PRIdoff_t"\n" , gap_start);
fprintf(stderr, "size = %ld\n" , (long) bytes_read);
error_exit("verify 0xff failed");
}
}
if (lseek(fd, w->offset, SEEK_SET) != w->offset)
error_exit("lseek failed");
memset(read_buffer, 0 , w->size);
errno = 0;
bytes_read = read(fd, read_buffer, w->size);
if (bytes_read != w->size) {
fprintf(stderr, "offset = %"PRIdoff_t"\n" , w->offset);
fprintf(stderr, "size = %ld\n" , (long) w->size);
fprintf(stderr, "bytes_read = %ld\n" , (long) bytes_read);
error_exit("read failed");
}
set_random_data(w->random_seed, write_buffer, w->size);
if (memcmp(read_buffer, write_buffer, w->size))
error_exit("verify failed");
gap_end = w->offset;
w = w->next;
}
if (gap_end > erase_block->offset) {
/* Check all 0xff */
off_t gap_start = erase_block->offset;
ssize_t size = gap_end - gap_start;
if (lseek(fd, gap_start, SEEK_SET) != gap_start)
error_exit("lseek failed");
memset(read_buffer, 0 , size);
errno = 0;
bytes_read = read(fd, read_buffer, size);
if (bytes_read != size)
error_exit("read failed in gap");
while (size)
if (read_buffer[--size] != 0xff) {
fprintf(stderr, "block no. = %d\n" , erase_block->block_number);
fprintf(stderr, "offset = %"PRIdoff_t"\n" , gap_start);
fprintf(stderr, "size = %ld\n" , (long) bytes_read);
error_exit("verify 0xff failed!");
}
}
}
static int write_to_erase_block(struct erase_block_info *erase_block, int fd)
{
int page_size = erase_block->volume->ubi_device->info.min_io_size;
int leb_size = erase_block->volume->info.leb_size;
int next_offset = 0;
int space, size;
off_t offset;
unsigned seed;
struct write_info *w;
if (erase_block->writes)
next_offset = erase_block->writes->offset_within_block + erase_block->writes->size;
space = leb_size - next_offset;
if (space <= 0)
return 0; /* No space */
if (!get_random_number(10)) {
/* 1 time in 10 leave a gap */
next_offset += get_random_number(space);
next_offset = (next_offset / page_size) * page_size;
space = leb_size - next_offset;
}
if (get_random_number(2))
size = 1 * page_size;
else if (get_random_number(2))
size = 2 * page_size;
else if (get_random_number(2))
size = 3 * page_size;
else if (get_random_number(2))
size = 4 * page_size;
else {
if (get_random_number(4))
size = get_random_number(space);
else
size = space;
size = (size / page_size) * page_size;
}
if (size == 0 || size > space)
size = page_size;
if (next_offset + size > leb_size)
error_exit("internal error");
offset = erase_block->offset + next_offset;
if (offset < erase_block->top_of_data)
error_exit("internal error!");
if (lseek(fd, offset, SEEK_SET) != offset)
error_exit("lseek failed");
/* Do write */
seed = get_next_seed();
if (!seed)
seed = 1;
set_random_data(seed, write_buffer, size);
if (write(fd, write_buffer, size) != size)
error_exit("write failed");
erase_block->top_of_data = offset + size;
/* Make write info and add to eb */
w = allocate(sizeof(*w));
w->offset_within_block = next_offset;
w->offset = offset;
w->size = size;
w->random_seed = seed;
w->next = erase_block->writes;
erase_block->writes = w;
erase_block->touched = 1;
erase_block->erased = 0;
total_written += size;
return 1;
}
static void erase_erase_block(struct erase_block_info *erase_block, int fd)
{
struct write_info *w;
uint32_t eb_no;
int res;
eb_no = erase_block->block_number;
res = ioctl(fd, UBI_IOCEBER, &eb_no);
if (res)
error_exit("Failed to erase an erase block");
/* Remove writes from this eb */
while (erase_block->writes) {
w = erase_block->writes;
erase_block->writes = erase_block->writes->next;
free(w);
}
erase_block->erased = 1;
erase_block->touched = 1;
erase_block->top_of_data = erase_block->offset;
}
static void operate_on_erase_block(struct erase_block_info *erase_block, int fd)
{
/*
Possible operations:
read from it and verify
write to it
erase it
*/
int work_done = 1;
static int no_work_done_count = 0;
if (!get_random_number(10) && no_work_done_count <= 5) {
check_erase_block(erase_block, fd);
work_done = 0;
} else if (get_random_number(100)) {
if (!write_to_erase_block(erase_block, fd)) {
/* The erase block was full */
if (get_random_number(2) || no_work_done_count > 5)
erase_erase_block(erase_block, fd);
else
work_done = 0;
}
} else
erase_erase_block(erase_block, fd);
if (work_done)
no_work_done_count = 0;
else
no_work_done_count += 1;
}
static void operate_on_open_volume(struct volume_fd *vol_fd)
{
/*
Possible operations:
operate on an erase block
close volume
*/
if (get_random_number(100) == 0)
close_volume(vol_fd);
else {
/* Pick an erase block at random */
int eb_no = get_random_number(vol_fd->volume->info.rsvd_lebs);
operate_on_erase_block(&vol_fd->volume->erase_blocks[eb_no], vol_fd->fd);
}
}
static void operate_on_volume(struct volume_info *vol)
{
/*
Possible operations:
open it
resize it (must close fd's first) <- TODO
delete it (must close fd's first) <- TODO
*/
open_volume(vol);
}
static int ubi_major(const char *device_file_name)
{
struct stat buf;
static int maj = 0;
if (maj)
return maj;
if (stat(device_file_name, &buf) == -1)
error_exit("Failed to stat ubi device file");
maj = major(buf.st_rdev);
return maj;
}
static void operate_on_ubi_device(struct ubi_device_info *ubi_device)
{
/*
TODO:
Possible operations:
create a new volume
operate on existing volume
*/
/*
Simplified operation (i.e. only have 1 volume):
If there are no volumes create 1 volumne
Then operate on the volume
*/
if (ubi_device->info.vol_count == 0) {
/* Create the one-and-only volume we will use */
char dev_name[1024];
int i, n, maj, fd;
struct volume_info *s;
struct ubi_mkvol_request req;
req.vol_id = UBI_VOL_NUM_AUTO;
req.alignment = 1; /* TODO: What is this? */
req.bytes = ubi_device->info.leb_size * max_ebs_per_vol;
if (req.bytes == 0 || req.bytes > ubi_device->info.avail_bytes)
req.bytes = ubi_device->info.avail_bytes;
req.vol_type = UBI_DYNAMIC_VOLUME;
req.name = "integ-test-vol";
if (ubi_mkvol(libubi, ubi_device->device_file_name, &req))
error_exit("ubi_mkvol failed");
s = allocate(sizeof(*s));
s->ubi_device = ubi_device;
if (ubi_get_vol_info1(libubi, ubi_device->info.dev_num, req.vol_id, &s->info))
error_exit("ubi_get_vol_info failed");
n = s->info.rsvd_lebs;
s->erase_blocks = allocate(sizeof(struct erase_block_info) * n);
for (i = 0; i < n; ++i) {
s->erase_blocks[i].volume = s;
s->erase_blocks[i].block_number = i;
s->erase_blocks[i].offset = i * (off_t) s->info.leb_size;
s->erase_blocks[i].top_of_data = s->erase_blocks[i].offset;
}
/* FIXME: Correctly get device file name */
sprintf(dev_name, "%s_%d", ubi_device->device_file_name, req.vol_id);
s->device_file_name = strdup(dev_name);
ubi_device->volumes = s;
ubi_device->info.vol_count += 1;
sleep(1);
fd = open(s->device_file_name, O_RDONLY);
if (fd == -1) {
/* FIXME: Correctly make node */
maj = ubi_major(ubi_device->device_file_name);
sprintf(dev_name, "mknod %s c %d %d", s->device_file_name, maj, req.vol_id + 1);
system(dev_name);
} else if (close(fd) == -1)
error_exit("Failed to close volume device file");
}
operate_on_volume(ubi_device->volumes);
}
static void do_an_operation(void)
{
int too_few = (open_volume_count < info.dev_count * 3);
int too_many = (open_volume_count > info.dev_count * 5);
if (too_many || (!too_few && get_random_number(1000) > 0)) {
/* Operate on an open volume */
size_t pos;
struct open_volume_fd *ofd;
pos = get_random_number(open_volume_count);
for (ofd = open_volumes; pos && ofd && ofd->next; --pos)
ofd = ofd->next;
operate_on_open_volume(ofd->vol_fd);
} else if (info.dev_count > 0) {
/* Operate on a ubi device */
size_t ubi_pos = 0;
if (info.dev_count > 1)
ubi_pos = get_random_number(info.dev_count - 1);
operate_on_ubi_device(&ubi_array[ubi_pos]);
} else
error_exit("Internal error");
}
static void get_ubi_devices_info(void)
{
int i, ubi_pos = 0;
char dev_name[1024];
ssize_t buf_size = 1024 * 128;
if (ubi_get_info(libubi, &info))
error_exit("ubi_get_info failed");
if (info.dev_count > MAX_UBI_DEVICES)
error_exit("Too many ubi devices");
for (i = info.lowest_dev_num; i <= info.highest_dev_num; ++i) {
struct ubi_device_info *s;
s = &ubi_array[ubi_pos++];
if (ubi_get_dev_info1(libubi, i, &s->info))
error_exit("ubi_get_dev_info1 failed");
if (s->info.vol_count)
error_exit("There are existing volumes");
/* FIXME: Correctly get device file name */
sprintf(dev_name, "/dev/ubi%d", i);
s->device_file_name = strdup(dev_name);
if (buf_size < s->info.leb_size)
buf_size = s->info.leb_size;
if (max_ebs_per_vol && s->info.leb_size * max_ebs_per_vol < s->info.avail_bytes)
total_space += s->info.leb_size * max_ebs_per_vol;
else
total_space += s->info.avail_bytes;
}
write_buffer = allocate(buf_size);
read_buffer = allocate(buf_size);
}
static void load_ubi(void)
{
system("rmmod ubi");
if (system(ubi_module_load_string) != 0)
error_exit("Failed to load UBI module");
sleep(1);
}
static void do_some_operations(void)
{
unsigned i = 0;
total_written = 0;
printf("Total space: %llu\n", (unsigned long long) total_space);
while (total_written < total_space * 3) {
do_an_operation();
if (i++ % 10000 == 0)
printf("Total written: %llu\n", (unsigned long long) total_written);
}
printf("Total written: %llu\n", (unsigned long long) total_written);
}
static void reload_ubi(void)
{
/* Remove module */
if (system("rmmod ubi") != 0)
error_exit("Failed to remove UBI module");
/* Install module */
if (system(ubi_module_load_string) != 0)
error_exit("Failed to load UBI module");
sleep(1);
}
static void integ_check_volume(struct volume_info *vol)
{
struct erase_block_info *eb = vol->erase_blocks;
int pos;
int fd;
fd = open(vol->device_file_name, O_RDWR | O_LARGEFILE);
if (fd == -1)
error_exit("Failed to open volume device file");
for (pos = 0; pos < vol->info.rsvd_lebs; ++pos)
check_erase_block(eb++, fd);
if (close(fd) == -1)
error_exit("Failed to close volume device file");
}
static void check_ubi_device(struct ubi_device_info *ubi_device)
{
struct volume_info *vol;
vol = ubi_device->volumes;
while (vol) {
integ_check_volume(vol);
vol = vol->next;
}
}
static void check_ubi(void)
{
int i;
for (i = 0; i < info.dev_count; ++i)
check_ubi_device(&ubi_array[i]);
}
static int is_all_digits(const char *s)
{
const char *digits = "0123456789";
if (!s || !*s)
return 0;
for (;*s;++s)
if (!strchr(digits,*s))
return 0;
return 1;
}
static int get_short_arg(int *pos,const char *name,long long *result,int argc,char *argv[])
{
const char *p = NULL;
int i = *pos;
size_t n = strlen(name);
if (strlen(argv[i]) > n)
p = argv[i] + n;
else if (++i < argc)
p = argv[i];
if (!is_all_digits(p))
return 1;
*result = atoll(p);
*pos = i;
return 0;
}
static int get_long_arg(int *pos,const char *name,long long *result,int argc,char *argv[])
{
const char *p = NULL;
int i = *pos;
size_t n = strlen(name);
if (strlen(argv[i]) > n)
p = argv[i] + n;
else if (++i < argc)
p = argv[i];
if (p && *p == '=') {
p += 1;
if (!*p && ++i < argc)
p = argv[i];
}
if (!is_all_digits(p))
return 1;
*result = atoll(p);
*pos = i;
return 0;
}
static int remove_all_volumes(void)
{
int i;
for (i = 0; i < info.dev_count; ++i) {
struct ubi_device_info *ubi_device = &ubi_array[i];
struct volume_info *vol;
vol = ubi_device->volumes;
while (vol) {
int res = ubi_rmvol(libubi,
ubi_device->device_file_name,
vol->info.vol_id);
if (res)
return res;
vol = vol->next;
}
}
return 0;
}
int main(int argc,char *argv[])
{
int i;
long long r, repeat = 1;
int initial_seed = 1, args_ok = 1;
printf("UBI Integrity Test\n");
/* Get arguments */
ubi_module_load_string = 0;
for (i = 1; i < argc; ++i) {
if (strncmp(argv[i], "-h", 2) == 0)
args_ok = 0;
else if (strncmp(argv[i], "--help", 6) == 0)
args_ok = 0;
else if (strncmp(argv[i], "-n", 2) == 0) {
if (get_short_arg(&i, "-n", &repeat, argc, argv))
args_ok = 0;
} else if (strncmp(argv[i], "--repeat", 8) == 0) {
if (get_long_arg(&i, "--repeat", &repeat, argc, argv))
args_ok = 0;
} else if (strncmp(argv[i], "-m", 2) == 0) {
if (get_short_arg(&i,"-m", &max_ebs_per_vol, argc, argv))
args_ok = 0;
} else if (strncmp(argv[i], "--maxebs", 8) == 0) {
if (get_long_arg(&i, "--maxebs", &max_ebs_per_vol, argc, argv))
args_ok = 0;
} else if (!ubi_module_load_string)
ubi_module_load_string = argv[i];
else
args_ok = 0;
}
if (!args_ok || !ubi_module_load_string) {
fprintf(stderr, "Usage is: ubi_integ [<options>] <UBI Module load command>\n");
fprintf(stderr, " Options: \n");
fprintf(stderr, " -h, --help Help\n");
fprintf(stderr, " -n arg, --repeat=arg Repeat test arg times\n");
fprintf(stderr, " -m arg, --maxebs=arg Max no. of erase blocks\n");
return 1;
}
next_seed = initial_seed = seed_random_generator();
printf("Initial seed = %u\n", (unsigned) initial_seed);
load_ubi();
libubi = libubi_open();
if (!libubi)
error_exit("Failed to open libubi");
get_ubi_devices_info();
r = 0;
while (repeat == 0 || r++ < repeat) {
printf("Cycle %lld\n", r);
do_some_operations();
/* Close all volumes */
while (open_volumes)
close_volume(open_volumes->vol_fd);
check_ubi();
libubi_close(libubi);
reload_ubi();
libubi = libubi_open();
if (!libubi)
error_exit("Failed to open libubi");
check_ubi();
}
if (remove_all_volumes())
error_exit("Failed to remove all volumes");
libubi_close(libubi);
printf("UBI Integrity Test completed ok\n");
return 0;
}
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