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rufus/src/badblocks.c

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/*
* badblocks.c - Bad blocks checker
*
* Copyright (C) 1992, 1993, 1994 Remy Card <card@masi.ibp.fr>
* Laboratoire MASI, Institut Blaise Pascal
* Universite Pierre et Marie Curie (Paris VI)
*
* Copyright 1995, 1996, 1997, 1998, 1999 by Theodore Ts'o
* Copyright 1999 by David Beattie
* Copyright 2011 by Pete Batard
*
* This file is based on the minix file system programs fsck and mkfs
* written and copyrighted by Linus Torvalds <Linus.Torvalds@cs.helsinki.fi>
*
* %Begin-Header%
* This file may be redistributed under the terms of the GNU Public
* License.
* %End-Header%
*/
/*
* History:
* 93/05/26 - Creation from e2fsck
* 94/02/27 - Made a separate bad blocks checker
* 99/06/30...99/07/26 - Added non-destructive write-testing,
* configurable blocks-at-once parameter,
* loading of badblocks list to avoid testing
* blocks known to be bad, multiple passes to
* make sure that no new blocks are added to the
* list. (Work done by David Beattie)
* 11/12/04 - Windows/Rufus integration (Pete Batard)
*/
#include <errno.h>
#include <stdio.h>
#include <stdlib.h>
#include <malloc.h>
#include <string.h>
#include <time.h>
#include <setjmp.h>
#include <windows.h>
#include "rufus.h"
#include "badblocks.h"
#include "file.h"
/*
*From e2fsprogs/lib/ext2fs/badblocks.c
*/
/*
* Badblocks list
*/
struct ext2_struct_u32_list {
int magic;
int num;
int size;
__u32 *list;
int badblocks_flags;
};
struct ext2_struct_u32_iterate {
int magic;
ext2_u32_list bb;
int ptr;
};
static errcode_t make_u32_list(int size, int num, __u32 *list, ext2_u32_list *ret)
{
ext2_u32_list bb;
bb = calloc(1, sizeof(struct ext2_struct_u32_list));
if (bb == NULL)
return EXT2_ET_NO_MEMORY;
bb->magic = EXT2_ET_MAGIC_BADBLOCKS_LIST;
bb->size = size ? size : 10;
bb->num = num;
bb->list = malloc(sizeof(blk_t) * bb->size);
if (bb->list == NULL) {
free(bb);
bb = NULL;
return EXT2_ET_NO_MEMORY;
}
if (list)
memcpy(bb->list, list, bb->size * sizeof(blk_t));
else
memset(bb->list, 0, bb->size * sizeof(blk_t));
*ret = bb;
return 0;
}
/*
* This procedure creates an empty badblocks list.
*/
static errcode_t ext2fs_badblocks_list_create(ext2_badblocks_list *ret, int size)
{
return make_u32_list(size, 0, 0, (ext2_badblocks_list *) ret);
}
/*
* This procedure adds a block to a badblocks list.
*/
static errcode_t ext2fs_u32_list_add(ext2_u32_list bb, __u32 blk)
{
int i, j;
__u32* old_bb_list = bb->list;
EXT2_CHECK_MAGIC(bb, EXT2_ET_MAGIC_BADBLOCKS_LIST);
if (bb->num >= bb->size) {
bb->size += 100;
bb->list = realloc(bb->list, bb->size * sizeof(__u32));
if (bb->list == NULL) {
bb->list = old_bb_list;
bb->size -= 100;
return EXT2_ET_NO_MEMORY;
}
}
/*
* Add special case code for appending to the end of the list
*/
i = bb->num-1;
if ((bb->num != 0) && (bb->list[i] == blk))
return 0;
if ((bb->num == 0) || (bb->list[i] < blk)) {
bb->list[bb->num++] = blk;
return 0;
}
j = bb->num;
for (i=0; i < bb->num; i++) {
if (bb->list[i] == blk)
return 0;
if (bb->list[i] > blk) {
j = i;
break;
}
}
for (i=bb->num; i > j; i--)
bb->list[i] = bb->list[i-1];
bb->list[j] = blk;
bb->num++;
return 0;
}
static errcode_t ext2fs_badblocks_list_add(ext2_badblocks_list bb, blk_t blk)
{
return ext2fs_u32_list_add((ext2_u32_list) bb, (__u32) blk);
}
/*
* This procedure finds a particular block is on a badblocks
* list.
*/
static int ext2fs_u32_list_find(ext2_u32_list bb, __u32 blk)
{
int low, high, mid;
if (bb->magic != EXT2_ET_MAGIC_BADBLOCKS_LIST)
return -1;
if (bb->num == 0)
return -1;
low = 0;
high = bb->num-1;
if (blk == bb->list[low])
return low;
if (blk == bb->list[high])
return high;
while (low < high) {
mid = ((unsigned)low + (unsigned)high)/2;
if (mid == low || mid == high)
break;
if (blk == bb->list[mid])
return mid;
if (blk < bb->list[mid])
high = mid;
else
low = mid;
}
return -1;
}
/*
* This procedure tests to see if a particular block is on a badblocks
* list.
*/
static int ext2fs_u32_list_test(ext2_u32_list bb, __u32 blk)
{
if (ext2fs_u32_list_find(bb, blk) < 0)
return 0;
else
return 1;
}
static int ext2fs_badblocks_list_test(ext2_badblocks_list bb, blk_t blk)
{
return ext2fs_u32_list_test((ext2_u32_list) bb, (__u32) blk);
}
static errcode_t ext2fs_u32_list_iterate_begin(ext2_u32_list bb,
ext2_u32_iterate *ret)
{
ext2_u32_iterate iter;
EXT2_CHECK_MAGIC(bb, EXT2_ET_MAGIC_BADBLOCKS_LIST);
iter = malloc(sizeof(struct ext2_struct_u32_iterate));
if (iter == NULL)
return EXT2_ET_NO_MEMORY;
iter->magic = EXT2_ET_MAGIC_BADBLOCKS_ITERATE;
iter->bb = bb;
iter->ptr = 0;
*ret = iter;
return 0;
}
static errcode_t ext2fs_badblocks_list_iterate_begin(ext2_badblocks_list bb,
ext2_badblocks_iterate *ret)
{
return ext2fs_u32_list_iterate_begin((ext2_u32_list) bb,
(ext2_u32_iterate *) ret);
}
static int ext2fs_u32_list_iterate(ext2_u32_iterate iter, __u32 *blk)
{
ext2_u32_list bb;
if (iter->magic != EXT2_ET_MAGIC_BADBLOCKS_ITERATE)
return 0;
bb = iter->bb;
if (bb->magic != EXT2_ET_MAGIC_BADBLOCKS_LIST)
return 0;
if (iter->ptr < bb->num) {
*blk = bb->list[iter->ptr++];
return 1;
}
*blk = 0;
return 0;
}
static int ext2fs_badblocks_list_iterate(ext2_badblocks_iterate iter, blk_t *blk)
{
return ext2fs_u32_list_iterate((ext2_u32_iterate) iter,
(__u32 *) blk);
}
static void ext2fs_u32_list_iterate_end(ext2_u32_iterate iter)
{
if (!iter || (iter->magic != EXT2_ET_MAGIC_BADBLOCKS_ITERATE))
return;
iter->bb = 0;
free(iter);
}
static void ext2fs_badblocks_list_iterate_end(ext2_badblocks_iterate iter)
{
ext2fs_u32_list_iterate_end((ext2_u32_iterate) iter);
}
/*
* from e2fsprogs/misc/badblocks.c
*/
static int v_flag = 1; /* verbose */
static int s_flag = 1; /* show progress of test */
static int t_flag = 0; /* number of test patterns */
static unsigned int *t_patts = NULL; /* test patterns */
static int cancel_ops = 0; /* abort current operation */
static int cur_pattern, nr_pattern;
static int cur_op;
/* Abort test if more than this number of bad blocks has been encountered */
static unsigned int max_bb = EXT2_BAD_BLOCKS_THRESHOLD;
static blk_t currently_testing = 0;
static blk_t num_blocks = 0;
static blk_t num_read_errors = 0;
static blk_t num_write_errors = 0;
static blk_t num_corruption_errors = 0;
static ext2_badblocks_list bb_list = NULL;
static blk_t next_bad = 0;
static ext2_badblocks_iterate bb_iter = NULL;
static __inline void *allocate_buffer(size_t size) {
#ifdef __MINGW32__
return __mingw_aligned_malloc(size, EXT2_SYS_PAGE_SIZE);
#else
return _aligned_malloc(size, EXT2_SYS_PAGE_SIZE);
#endif
}
static __inline void free_buffer(void* p) {
#ifdef __MINGW32__
__mingw_aligned_free(p);
#else
_aligned_free(p);
#endif
}
/*
* This routine reports a new bad block. If the bad block has already
* been seen before, then it returns 0; otherwise it returns 1.
*/
static int bb_output (blk_t bad, enum error_types error_type)
{
errcode_t error_code;
if (ext2fs_badblocks_list_test(bb_list, bad))
return 0;
uprintf("%lu\n", (unsigned long) bad);
error_code = ext2fs_badblocks_list_add(bb_list, bad);
if (error_code) {
uprintf("Error %d adding to in-memory bad block list", error_code);
return 0;
}
/* kludge:
increment the iteration through the bb_list if
an element was just added before the current iteration
position. This should not cause next_bad to change. */
if (bb_iter && bad < next_bad)
ext2fs_badblocks_list_iterate (bb_iter, &next_bad);
if (error_type == READ_ERROR) {
num_read_errors++;
} else if (error_type == WRITE_ERROR) {
num_write_errors++;
} else if (error_type == CORRUPTION_ERROR) {
num_corruption_errors++;
}
return 1;
}
static float calc_percent(unsigned long current, unsigned long total) {
float percent = 0.0;
if (total <= 0)
return percent;
if (current >= total) {
percent = 100.0f;
} else {
percent=(100.0f*(float)current/(float)total);
}
return percent;
}
static void print_status(void)
{
float percent;
percent = calc_percent((unsigned long) currently_testing,
(unsigned long) num_blocks);
percent = (percent/2.0f) + ((cur_op==OP_READ)? 50.0f : 0.0f);
PrintStatus(0, "PASS %d/%d(%c): %6.2f%% done. (%d/%d/%d errors)",
cur_pattern, nr_pattern,
(cur_op==OP_READ)?'R':'W',
percent,
num_read_errors,
num_write_errors,
num_corruption_errors);
PostMessage(hMainDialog, UM_FORMAT_PROGRESS, (WPARAM)(DWORD)percent, (LPARAM)0);
}
static void CALLBACK alarm_intr(HWND hwnd, UINT uMsg, UINT_PTR idEvent, DWORD dwTime)
{
if (!num_blocks)
return;
if (FormatStatus) {
uprintf("Interrupting at block %llu\n",
(unsigned long long) currently_testing);
cancel_ops = -1;
}
print_status();
}
static void pattern_fill(unsigned char *buffer, unsigned int pattern,
size_t n)
{
unsigned int i, nb;
unsigned char bpattern[sizeof(pattern)], *ptr;
if (pattern == (unsigned int) ~0) {
for (ptr = buffer; ptr < buffer + n; ptr++) {
(*ptr) = rand() % (1 << (8 * sizeof(char)));
}
PrintStatus(3500, "Testing with random pattern: ");
uprintf("Testing with random pattern: ");
} else {
bpattern[0] = 0;
for (i = 0; i < sizeof(bpattern); i++) {
if (pattern == 0)
break;
bpattern[i] = pattern & 0xFF;
pattern = pattern >> 8;
}
nb = i ? (i-1) : 0;
for (ptr = buffer, i = nb; ptr < buffer + n; ptr++) {
*ptr = bpattern[i];
if (i == 0)
i = nb;
else
i--;
}
PrintStatus(3500, "Testing with pattern 0x%02X", bpattern[i]);
uprintf("Testing with pattern 0x%02X", bpattern[i]);
cur_pattern++;
}
}
/*
* Perform a read of a sequence of blocks; return the number of blocks
* successfully sequentially read.
*/
static int do_read (HANDLE hDrive, unsigned char * buffer, int tryout, int block_size,
blk_t current_block)
{
long got;
if (v_flag > 1)
print_status();
/* Try the read */
got = read_sectors(hDrive, block_size, current_block, tryout, buffer);
if (got < 0)
got = 0;
if (got & 511)
uprintf("Weird value (%ld) in do_read\n", got);
got /= block_size;
return got;
}
/*
* Perform a write of a sequence of blocks; return the number of blocks
* successfully sequentially written.
*/
static int do_write(HANDLE hDrive, unsigned char * buffer, int tryout, int block_size,
unsigned long current_block)
{
long got;
if (v_flag > 1)
print_status();
/* Try the write */
got = write_sectors(hDrive, block_size, current_block, tryout, buffer);
if (got < 0)
got = 0;
if (got & 511)
uprintf("Weird value (%ld) in do_write\n", got);
got /= block_size;
return got;
}
static unsigned int test_ro (HANDLE hDrive, blk_t last_block,
int block_size, blk_t first_block,
unsigned int blocks_at_once)
{
unsigned char * blkbuf;
int tryout;
int got;
unsigned int bb_count = 0;
errcode_t error_code;
blk_t recover_block = ~0;
error_code = ext2fs_badblocks_list_iterate_begin(bb_list,&bb_iter);
if (error_code) {
// TODO: set FormatStatus
uprintf("errcode %d while beginning bad block list iteration\n", error_code);
return 0;
}
do {
ext2fs_badblocks_list_iterate (bb_iter, &next_bad);
} while (next_bad && next_bad < first_block);
if (t_flag) {
blkbuf = allocate_buffer((blocks_at_once + 1) * block_size);
} else {
blkbuf = allocate_buffer(blocks_at_once * block_size);
}
if (!blkbuf)
{
uprintf("could not allocate buffers\n");
cancel_ops = -1;
return 0;
}
if (t_flag) {
uprintf("Checking for bad blocks in read-only mode\n");
pattern_fill(blkbuf + blocks_at_once * block_size,
t_patts[0], block_size);
}
tryout = blocks_at_once;
currently_testing = first_block;
num_blocks = last_block - 1;
if (!t_flag && (s_flag || v_flag)) {
// Printstatus
uprintf("Checking for bad blocks (read-only test): \n");
}
while (currently_testing < last_block)
{
if (max_bb && bb_count >= max_bb) {
if (s_flag || v_flag) {
uprintf("Too many bad blocks, aborting test\n");
}
cancel_ops = -1;
break;
}
if (next_bad) {
if (currently_testing == next_bad) {
/* fprintf (out, "%lu\n", nextbad); */
ext2fs_badblocks_list_iterate (bb_iter, &next_bad);
currently_testing++;
continue;
}
else if (currently_testing + tryout > next_bad)
tryout = next_bad - currently_testing;
}
if (currently_testing + tryout > last_block)
tryout = last_block - currently_testing;
got = do_read(hDrive, blkbuf, tryout, block_size, currently_testing);
if (t_flag) {
/* test the comparison between all the
blocks successfully read */
int i;
for (i = 0; i < got; ++i)
if (memcmp (blkbuf+i*block_size,
blkbuf+blocks_at_once*block_size,
block_size))
bb_count += bb_output(currently_testing + i, CORRUPTION_ERROR);
}
if (got == 0 && tryout == 1)
bb_count += bb_output(currently_testing++, READ_ERROR);
currently_testing += got;
if (got != tryout) {
tryout = 1;
if (recover_block == ~0)
recover_block = currently_testing - got +
blocks_at_once;
continue;
} else if (currently_testing == recover_block) {
tryout = blocks_at_once;
recover_block = ~0;
}
}
num_blocks = 0;
// alarm(0);
// if (s_flag || v_flag)
// fputs(_(done_string), stderr);
fflush (stderr);
free_buffer(blkbuf);
ext2fs_badblocks_list_iterate_end(bb_iter);
return bb_count;
}
static unsigned int test_rw(HANDLE hDrive, blk_t last_block, int block_size, blk_t first_block, unsigned int blocks_at_once)
{
unsigned char *buffer = NULL, *read_buffer;
const unsigned int patterns[] = {0xaa, 0x55, 0xff, 0x00};
const unsigned int *pattern;
int i, tryout, got, pat_idx;
unsigned int bb_count = 0;
blk_t recover_block = ~0;
buffer = allocate_buffer(2 * blocks_at_once * block_size);
read_buffer = buffer + blocks_at_once * block_size;
if (!buffer) {
uprintf("Error while allocating buffers");
cancel_ops = -1;
return 0;
}
uprintf("Checking for bad blocks in read-write mode\n");
uprintf("From block %lu to %lu\n", (unsigned long) first_block, (unsigned long) last_block - 1);
if (t_flag) {
pattern = t_patts;
nr_pattern = t_flag;
} else {
pattern = patterns;
nr_pattern = ARRAYSIZE(patterns);
}
cur_pattern = 0;
for (pat_idx = 0; pat_idx < nr_pattern; pat_idx++) {
if (cancel_ops) goto out;
pattern_fill(buffer, pattern[pat_idx], blocks_at_once * block_size);
num_blocks = last_block - 1;
currently_testing = first_block;
if (s_flag | v_flag)
uprintf("Writing\n");
cur_op = OP_WRITE;
tryout = blocks_at_once;
while (currently_testing < last_block) {
if (max_bb && bb_count >= max_bb) {
if (s_flag || v_flag) {
uprintf("Too many bad blocks, aborting test\n");
}
cancel_ops = -1;
break;
}
if (cancel_ops) goto out;
if (currently_testing + tryout > last_block)
tryout = last_block - currently_testing;
got = do_write(hDrive, buffer, tryout, block_size, currently_testing);
if (v_flag > 1)
print_status();
if (got == 0 && tryout == 1)
bb_count += bb_output(currently_testing++, WRITE_ERROR);
currently_testing += got;
if (got != tryout) {
tryout = 1;
if (recover_block == ~0)
recover_block = currently_testing -
got + blocks_at_once;
continue;
} else if (currently_testing == recover_block) {
tryout = blocks_at_once;
recover_block = ~0;
}
}
num_blocks = 0;
if (s_flag | v_flag)
uprintf("Reading and comparing\n");
cur_op = OP_READ;
num_blocks = last_block;
currently_testing = first_block;
tryout = blocks_at_once;
while (currently_testing < last_block) {
if (cancel_ops) goto out;
if (max_bb && bb_count >= max_bb) {
if (s_flag || v_flag) {
uprintf("Too many bad blocks, aborting test\n");
}
break;
}
if (currently_testing + tryout > last_block)
tryout = last_block - currently_testing;
got = do_read(hDrive, read_buffer, tryout, block_size,
currently_testing);
if (got == 0 && tryout == 1)
bb_count += bb_output(currently_testing++, READ_ERROR);
currently_testing += got;
if (got != tryout) {
tryout = 1;
if (recover_block == ~0)
recover_block = currently_testing -
got + blocks_at_once;
continue;
} else if (currently_testing == recover_block) {
tryout = blocks_at_once;
recover_block = ~0;
}
for (i=0; i < got; i++) {
if (memcmp(read_buffer + i * block_size,
buffer + i * block_size,
block_size))
bb_count += bb_output(currently_testing+i, CORRUPTION_ERROR);
}
if (v_flag > 1)
print_status();
}
num_blocks = 0;
}
out:
free_buffer(buffer);
return bb_count;
}
struct saved_blk_record {
blk_t block;
int num;
};
// TODO: this is untested!
static unsigned int test_nd(HANDLE hDrive, blk_t last_block,
int block_size, blk_t first_block,
unsigned int blocks_at_once)
{
unsigned char *blkbuf, *save_ptr, *test_ptr, *read_ptr;
unsigned char *test_base, *save_base, *read_base;
int tryout, i;
const unsigned int patterns[] = { ~0 };
const unsigned int *pattern;
int pat_idx;
int got, used2, written;
blk_t save_currently_testing;
struct saved_blk_record *test_record;
/* This is static to prevent being clobbered by the longjmp */
static int num_saved;
jmp_buf terminate_env;
errcode_t error_code;
unsigned long buf_used;
static unsigned int bb_count;
int granularity = blocks_at_once;
blk_t recover_block = ~0;
bb_count = 0;
error_code = ext2fs_badblocks_list_iterate_begin(bb_list,&bb_iter);
if (error_code) {
uprintf("Error %d while beginning bad block list iteration", error_code);
// TODO
exit (1);
}
do {
ext2fs_badblocks_list_iterate (bb_iter, &next_bad);
} while (next_bad && next_bad < first_block);
blkbuf = allocate_buffer(3 * blocks_at_once * block_size);
test_record = malloc (blocks_at_once*sizeof(struct saved_blk_record));
if (!blkbuf || !test_record) {
uprintf("Error while allocating buffers");
cancel_ops = -1;
return 0;
}
save_base = blkbuf;
test_base = blkbuf + (blocks_at_once * block_size);
read_base = blkbuf + (2 * blocks_at_once * block_size);
num_saved = 0;
if (v_flag) {
uprintf("Checking for bad blocks in non-destructive read-write mode\n");
uprintf("From block %lu to %lu\n",
(unsigned long) first_block,
(unsigned long) last_block - 1);
}
if (s_flag || v_flag > 1) {
uprintf("Checking for bad blocks (non-destructive read-write test)\n");
}
if (setjmp(terminate_env)) {
/*
* Abnormal termination by a signal is handled here.
*/
// signal (SIGALRM, SIG_IGN);
uprintf("Interrupt caught, cleaning up\n");
save_ptr = save_base;
for (i=0; i < num_saved; i++) {
do_write(hDrive, save_ptr, test_record[i].num,
block_size, test_record[i].block);
save_ptr += test_record[i].num * block_size;
}
// TODO
exit(1);
}
if (t_flag) {
pattern = t_patts;
nr_pattern = t_flag;
} else {
pattern = patterns;
nr_pattern = sizeof(patterns) / sizeof(patterns[0]);
}
for (pat_idx = 0; pat_idx < nr_pattern; pat_idx++) {
pattern_fill(test_base, pattern[pat_idx],
blocks_at_once * block_size);
buf_used = 0;
bb_count = 0;
save_ptr = save_base;
test_ptr = test_base;
currently_testing = first_block;
num_blocks = last_block - 1;
// if (s_flag && v_flag <= 1)
// alarm_intr(SIGALRM);
while (currently_testing < last_block) {
if (max_bb && bb_count >= max_bb) {
if (s_flag || v_flag) {
uprintf("Too many bad blocks, aborting test\n");
}
cancel_ops = -1;
break;
}
tryout = granularity - buf_used;
if (next_bad) {
if (currently_testing == next_bad) {
/* fprintf (out, "%lu\n", nextbad); */
ext2fs_badblocks_list_iterate (bb_iter, &next_bad);
currently_testing++;
goto check_for_more;
}
else if (currently_testing + tryout > next_bad)
tryout = next_bad - currently_testing;
}
if (currently_testing + tryout > last_block)
tryout = last_block - currently_testing;
got = do_read(hDrive, save_ptr, tryout, block_size,
currently_testing);
if (got == 0) {
if (recover_block == ~0)
recover_block = currently_testing +
blocks_at_once;
if (granularity != 1) {
granularity = 1;
continue;
}
/* First block must have been bad. */
bb_count += bb_output(currently_testing++, READ_ERROR);
goto check_for_more;
}
/*
* Note the fact that we've saved this much data
* *before* we overwrite it with test data
*/
test_record[num_saved].block = currently_testing;
test_record[num_saved].num = got;
num_saved++;
/* Write the test data */
written = do_write(hDrive, test_ptr, got, block_size,
currently_testing);
if (written != got)
uprintf("Error %d during test data write, block %lu", errno,
(unsigned long) currently_testing +
written);
buf_used += got;
save_ptr += got * block_size;
test_ptr += got * block_size;
currently_testing += got;
if (got != tryout) {
if (recover_block == ~0)
recover_block = currently_testing -
got + blocks_at_once;
continue;
}
check_for_more:
/*
* If there's room for more blocks to be tested this
* around, and we're not done yet testing the disk, go
* back and get some more blocks.
*/
if ((buf_used != granularity) &&
(currently_testing < last_block))
continue;
if (currently_testing >= recover_block) {
granularity = blocks_at_once;
recover_block = ~0;
}
save_currently_testing = currently_testing;
/*
* for each contiguous block that we read into the
* buffer (and wrote test data into afterwards), read
* it back (looping if necessary, to get past newly
* discovered unreadable blocks, of which there should
* be none, but with a hard drive which is unreliable,
* it has happened), and compare with the test data
* that was written; output to the bad block list if
* it doesn't match.
*/
used2 = 0;
save_ptr = save_base;
test_ptr = test_base;
read_ptr = read_base;
tryout = 0;
while (1) {
if (tryout == 0) {
if (used2 >= num_saved)
break;
currently_testing = test_record[used2].block;
tryout = test_record[used2].num;
used2++;
}
got = do_read(hDrive, read_ptr, tryout,
block_size, currently_testing);
/* test the comparison between all the
blocks successfully read */
for (i = 0; i < got; ++i)
if (memcmp (test_ptr+i*block_size,
read_ptr+i*block_size, block_size))
bb_count += bb_output(currently_testing + i, CORRUPTION_ERROR);
if (got < tryout) {
bb_count += bb_output(currently_testing + got, READ_ERROR);
got++;
}
/* write back original data */
do_write(hDrive, save_ptr, got,
block_size, currently_testing);
save_ptr += got * block_size;
currently_testing += got;
test_ptr += got * block_size;
read_ptr += got * block_size;
tryout -= got;
}
/* empty the buffer so it can be reused */
num_saved = 0;
buf_used = 0;
save_ptr = save_base;
test_ptr = test_base;
currently_testing = save_currently_testing;
}
num_blocks = 0;
// alarm(0);
// if (s_flag || v_flag > 1)
// fputs(_(done_string), stderr);
}
free_buffer(blkbuf);
free(test_record);
ext2fs_badblocks_list_iterate_end(bb_iter);
return bb_count;
}
BOOL BadBlocks(HANDLE hPhysicalDrive, ULONGLONG disk_size, int block_size,
int test_type, badblocks_report *report)
{
errcode_t error_code;
unsigned int (*test_func)(HANDLE, blk_t, int, blk_t, unsigned int);
blk_t first_block = 0, last_block = (blk_t)disk_size/block_size;
if (report == NULL) return FALSE;
report->bb_count = 0;
error_code = ext2fs_badblocks_list_create(&bb_list, 0);
if (error_code) {
uprintf("Error %d while creating in-memory bad blocks list", error_code);
return FALSE;
}
switch(test_type) {
case BADBLOCKS_RW:
test_func = test_rw;
break;
case BADBLOCKS_ND:
test_func = test_nd;
break;
default:
test_func = test_ro;
break;
}
cancel_ops = 0;
/* use a timer to update status every second */
SetTimer(hMainDialog, BADBLOCK_TIMER_ID, 1000, alarm_intr);
report->bb_count = test_func(hPhysicalDrive, last_block, block_size, first_block, EXT2_BLOCKS_AT_ONCE);
KillTimer(hMainDialog, BADBLOCK_TIMER_ID);
free(t_patts);
free(bb_list->list);
free(bb_list);
// TODO: report first problem block for each error or create a report file
report->num_read_errors = num_read_errors;
report->num_write_errors = num_write_errors;
report->num_corruption_errors = num_corruption_errors;
if ((cancel_ops) && (!report->bb_count))
return FALSE;
return TRUE;
}