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|
/*
* icount.c --- an efficient inode count abstraction
*
* Copyright (C) 1997 Theodore Ts'o.
*
* %Begin-Header%
* This file may be redistributed under the terms of the GNU Public
* License.
* %End-Header%
*/
#if HAVE_UNISTD_H
#include <unistd.h>
#endif
#include <string.h>
#include <stdio.h>
#include <sys/stat.h>
#include <fcntl.h>
#include <errno.h>
#include "ext2_fs.h"
#include "ext2fs.h"
#include "tdb.h"
/*
* The data storage strategy used by icount relies on the observation
* that most inode counts are either zero (for non-allocated inodes),
* one (for most files), and only a few that are two or more
* (directories and files that are linked to more than one directory).
*
* Also, e2fsck tends to load the icount data sequentially.
*
* So, we use an inode bitmap to indicate which inodes have a count of
* one, and then use a sorted list to store the counts for inodes
* which are greater than one.
*
* We also use an optional bitmap to indicate which inodes are already
* in the sorted list, to speed up the use of this abstraction by
* e2fsck's pass 2. Pass 2 increments inode counts as it finds them,
* so this extra bitmap avoids searching the sorted list to see if a
* particular inode is on the sorted list already.
*/
struct ext2_icount_el {
ext2_ino_t ino;
__u16 count;
};
struct ext2_icount {
errcode_t magic;
ext2fs_inode_bitmap single;
ext2fs_inode_bitmap multiple;
ext2_ino_t count;
ext2_ino_t size;
ext2_ino_t num_inodes;
ext2_ino_t cursor;
struct ext2_icount_el *list;
struct ext2_icount_el *last_lookup;
char *tdb_fn;
TDB_CONTEXT *tdb;
};
void ext2fs_free_icount(ext2_icount_t icount)
{
if (!icount)
return;
icount->magic = 0;
if (icount->list)
ext2fs_free_mem(&icount->list);
if (icount->single)
ext2fs_free_inode_bitmap(icount->single);
if (icount->multiple)
ext2fs_free_inode_bitmap(icount->multiple);
if (icount->tdb)
tdb_close(icount->tdb);
if (icount->tdb_fn) {
unlink(icount->tdb_fn);
free(icount->tdb_fn);
}
ext2fs_free_mem(&icount);
}
static errcode_t alloc_icount(ext2_filsys fs, int flags, ext2_icount_t *ret)
{
ext2_icount_t icount;
errcode_t retval;
*ret = 0;
retval = ext2fs_get_mem(sizeof(struct ext2_icount), &icount);
if (retval)
return retval;
memset(icount, 0, sizeof(struct ext2_icount));
retval = ext2fs_allocate_inode_bitmap(fs, 0, &icount->single);
if (retval)
goto errout;
if (flags & EXT2_ICOUNT_OPT_INCREMENT) {
retval = ext2fs_allocate_inode_bitmap(fs, 0,
&icount->multiple);
if (retval)
goto errout;
} else
icount->multiple = 0;
icount->magic = EXT2_ET_MAGIC_ICOUNT;
icount->num_inodes = fs->super->s_inodes_count;
*ret = icount;
return 0;
errout:
ext2fs_free_icount(icount);
return(retval);
}
struct uuid {
__u32 time_low;
__u16 time_mid;
__u16 time_hi_and_version;
__u16 clock_seq;
__u8 node[6];
};
static void unpack_uuid(void *in, struct uuid *uu)
{
__u8 *ptr = in;
__u32 tmp;
tmp = *ptr++;
tmp = (tmp << 8) | *ptr++;
tmp = (tmp << 8) | *ptr++;
tmp = (tmp << 8) | *ptr++;
uu->time_low = tmp;
tmp = *ptr++;
tmp = (tmp << 8) | *ptr++;
uu->time_mid = tmp;
tmp = *ptr++;
tmp = (tmp << 8) | *ptr++;
uu->time_hi_and_version = tmp;
tmp = *ptr++;
tmp = (tmp << 8) | *ptr++;
uu->clock_seq = tmp;
memcpy(uu->node, ptr, 6);
}
static void uuid_unparse(void *uu, char *out)
{
struct uuid uuid;
unpack_uuid(uu, &uuid);
sprintf(out,
"%08x-%04x-%04x-%02x%02x-%02x%02x%02x%02x%02x%02x",
uuid.time_low, uuid.time_mid, uuid.time_hi_and_version,
uuid.clock_seq >> 8, uuid.clock_seq & 0xFF,
uuid.node[0], uuid.node[1], uuid.node[2],
uuid.node[3], uuid.node[4], uuid.node[5]);
}
errcode_t ext2fs_create_icount_tdb(ext2_filsys fs, char *tdb_dir,
int flags, ext2_icount_t *ret)
{
ext2_icount_t icount;
errcode_t retval;
char *fn, uuid[40];
int fd;
retval = alloc_icount(fs, flags, &icount);
if (retval)
return retval;
retval = ext2fs_get_mem(strlen(tdb_dir) + 64, &fn);
if (retval)
goto errout;
uuid_unparse(fs->super->s_uuid, uuid);
sprintf(fn, "%s/%s-icount-XXXXXX", tdb_dir, uuid);
fd = mkstemp(fn);
icount->tdb_fn = fn;
icount->tdb = tdb_open(fn, 0, TDB_CLEAR_IF_FIRST,
O_RDWR | O_CREAT | O_TRUNC, 0600);
if (icount->tdb) {
close(fd);
*ret = icount;
return 0;
}
retval = errno;
close(fd);
errout:
ext2fs_free_icount(icount);
return(retval);
}
errcode_t ext2fs_create_icount2(ext2_filsys fs, int flags, unsigned int size,
ext2_icount_t hint, ext2_icount_t *ret)
{
ext2_icount_t icount;
errcode_t retval;
size_t bytes;
ext2_ino_t i;
if (hint) {
EXT2_CHECK_MAGIC(hint, EXT2_ET_MAGIC_ICOUNT);
if (hint->size > size)
size = (size_t) hint->size;
}
retval = alloc_icount(fs, flags, &icount);
if (retval)
return retval;
if (size) {
icount->size = size;
} else {
/*
* Figure out how many special case inode counts we will
* have. We know we will need one for each directory;
* we also need to reserve some extra room for file links
*/
retval = ext2fs_get_num_dirs(fs, &icount->size);
if (retval)
goto errout;
icount->size += fs->super->s_inodes_count / 50;
}
bytes = (size_t) (icount->size * sizeof(struct ext2_icount_el));
#if 0
printf("Icount allocated %u entries, %d bytes.\n",
icount->size, bytes);
#endif
retval = ext2fs_get_mem(bytes, &icount->list);
if (retval)
goto errout;
memset(icount->list, 0, bytes);
icount->count = 0;
icount->cursor = 0;
/*
* Populate the sorted list with those entries which were
* found in the hint icount (since those are ones which will
* likely need to be in the sorted list this time around).
*/
if (hint) {
for (i=0; i < hint->count; i++)
icount->list[i].ino = hint->list[i].ino;
icount->count = hint->count;
}
*ret = icount;
return 0;
errout:
ext2fs_free_icount(icount);
return(retval);
}
errcode_t ext2fs_create_icount(ext2_filsys fs, int flags,
unsigned int size,
ext2_icount_t *ret)
{
return ext2fs_create_icount2(fs, flags, size, 0, ret);
}
/*
* insert_icount_el() --- Insert a new entry into the sorted list at a
* specified position.
*/
static struct ext2_icount_el *insert_icount_el(ext2_icount_t icount,
ext2_ino_t ino, int pos)
{
struct ext2_icount_el *el;
errcode_t retval;
ext2_ino_t new_size = 0;
int num;
if (icount->last_lookup && icount->last_lookup->ino == ino)
return icount->last_lookup;
if (icount->count >= icount->size) {
if (icount->count) {
new_size = icount->list[(unsigned)icount->count-1].ino;
new_size = (ext2_ino_t) (icount->count *
((float) icount->num_inodes / new_size));
}
if (new_size < (icount->size + 100))
new_size = icount->size + 100;
#if 0
printf("Reallocating icount %u entries...\n", new_size);
#endif
retval = ext2fs_resize_mem((size_t) icount->size *
sizeof(struct ext2_icount_el),
(size_t) new_size *
sizeof(struct ext2_icount_el),
&icount->list);
if (retval)
return 0;
icount->size = new_size;
}
num = (int) icount->count - pos;
if (num < 0)
return 0; /* should never happen */
if (num) {
memmove(&icount->list[pos+1], &icount->list[pos],
sizeof(struct ext2_icount_el) * num);
}
icount->count++;
el = &icount->list[pos];
el->count = 0;
el->ino = ino;
icount->last_lookup = el;
return el;
}
/*
* get_icount_el() --- given an inode number, try to find icount
* information in the sorted list. If the create flag is set,
* and we can't find an entry, create one in the sorted list.
*/
static struct ext2_icount_el *get_icount_el(ext2_icount_t icount,
ext2_ino_t ino, int create)
{
float range;
int low, high, mid;
ext2_ino_t lowval, highval;
if (!icount || !icount->list)
return 0;
if (create && ((icount->count == 0) ||
(ino > icount->list[(unsigned)icount->count-1].ino))) {
return insert_icount_el(icount, ino, (unsigned) icount->count);
}
if (icount->count == 0)
return 0;
if (icount->cursor >= icount->count)
icount->cursor = 0;
if (ino == icount->list[icount->cursor].ino)
return &icount->list[icount->cursor++];
#if 0
printf("Non-cursor get_icount_el: %u\n", ino);
#endif
low = 0;
high = (int) icount->count-1;
while (low <= high) {
#if 0
mid = (low+high)/2;
#else
if (low == high)
mid = low;
else {
/* Interpolate for efficiency */
lowval = icount->list[low].ino;
highval = icount->list[high].ino;
if (ino < lowval)
range = 0;
else if (ino > highval)
range = 1;
else {
range = ((float) (ino - lowval)) /
(highval - lowval);
if (range > 0.9)
range = 0.9;
if (range < 0.1)
range = 0.1;
}
mid = low + ((int) (range * (high-low)));
}
#endif
if (ino == icount->list[mid].ino) {
icount->cursor = mid+1;
return &icount->list[mid];
}
if (ino < icount->list[mid].ino)
high = mid-1;
else
low = mid+1;
}
/*
* If we need to create a new entry, it should be right at
* low (where high will be left at low-1).
*/
if (create)
return insert_icount_el(icount, ino, low);
return 0;
}
static errcode_t set_inode_count(ext2_icount_t icount, ext2_ino_t ino,
__u16 count)
{
struct ext2_icount_el *el;
TDB_DATA key, data;
if (icount->tdb) {
key.dptr = (unsigned char *) &ino;
key.dsize = sizeof(ext2_ino_t);
data.dptr = (unsigned char *) &count;
data.dsize = sizeof(__u16);
if (count) {
if (tdb_store(icount->tdb, key, data, TDB_REPLACE))
return tdb_error(icount->tdb) +
EXT2_ET_TDB_SUCCESS;
} else {
if (tdb_delete(icount->tdb, key))
return tdb_error(icount->tdb) +
EXT2_ET_TDB_SUCCESS;
}
return 0;
}
el = get_icount_el(icount, ino, 1);
if (!el)
return EXT2_ET_NO_MEMORY;
el->count = count;
return 0;
}
static errcode_t get_inode_count(ext2_icount_t icount, ext2_ino_t ino,
__u16 *count)
{
struct ext2_icount_el *el;
TDB_DATA key, data;
if (icount->tdb) {
key.dptr = (unsigned char *) &ino;
key.dsize = sizeof(ext2_ino_t);
data = tdb_fetch(icount->tdb, key);
if (data.dptr == NULL) {
*count = 0;
return tdb_error(icount->tdb) + EXT2_ET_TDB_SUCCESS;
}
*count = *((__u16 *) data.dptr);
free(data.dptr);
return 0;
}
el = get_icount_el(icount, ino, 0);
if (!el) {
*count = 0;
return ENOENT;
}
*count = el->count;
return 0;
}
errcode_t ext2fs_icount_validate(ext2_icount_t icount, FILE *out)
{
errcode_t ret = 0;
unsigned int i;
const char *bad = "bad icount";
EXT2_CHECK_MAGIC(icount, EXT2_ET_MAGIC_ICOUNT);
if (icount->count > icount->size) {
fprintf(out, "%s: count > size\n", bad);
return EXT2_ET_INVALID_ARGUMENT;
}
for (i=1; i < icount->count; i++) {
if (icount->list[i-1].ino >= icount->list[i].ino) {
fprintf(out, "%s: list[%d].ino=%u, list[%d].ino=%u\n",
bad, i-1, icount->list[i-1].ino,
i, icount->list[i].ino);
ret = EXT2_ET_INVALID_ARGUMENT;
}
}
return ret;
}
errcode_t ext2fs_icount_fetch(ext2_icount_t icount, ext2_ino_t ino, __u16 *ret)
{
EXT2_CHECK_MAGIC(icount, EXT2_ET_MAGIC_ICOUNT);
if (!ino || (ino > icount->num_inodes))
return EXT2_ET_INVALID_ARGUMENT;
if (ext2fs_test_inode_bitmap(icount->single, ino)) {
*ret = 1;
return 0;
}
if (icount->multiple &&
!ext2fs_test_inode_bitmap(icount->multiple, ino)) {
*ret = 0;
return 0;
}
get_inode_count(icount, ino, ret);
return 0;
}
errcode_t ext2fs_icount_increment(ext2_icount_t icount, ext2_ino_t ino,
__u16 *ret)
{
__u16 curr_value;
EXT2_CHECK_MAGIC(icount, EXT2_ET_MAGIC_ICOUNT);
if (!ino || (ino > icount->num_inodes))
return EXT2_ET_INVALID_ARGUMENT;
if (ext2fs_test_inode_bitmap(icount->single, ino)) {
/*
* If the existing count is 1, then we know there is
* no entry in the list.
*/
if (set_inode_count(icount, ino, 2))
return EXT2_ET_NO_MEMORY;
curr_value = 2;
ext2fs_unmark_inode_bitmap(icount->single, ino);
} else if (icount->multiple) {
/*
* The count is either zero or greater than 1; if the
* inode is set in icount->multiple, then there should
* be an entry in the list, so we need to fix it.
*/
if (ext2fs_test_inode_bitmap(icount->multiple, ino)) {
get_inode_count(icount, ino, &curr_value);
curr_value++;
if (set_inode_count(icount, ino, curr_value))
return EXT2_ET_NO_MEMORY;
} else {
/*
* The count was zero; mark the single bitmap
* and return.
*/
ext2fs_mark_inode_bitmap(icount->single, ino);
if (ret)
*ret = 1;
return 0;
}
} else {
/*
* The count is either zero or greater than 1; try to
* find an entry in the list to determine which.
*/
get_inode_count(icount, ino, &curr_value);
curr_value++;
if (set_inode_count(icount, ino, curr_value))
return EXT2_ET_NO_MEMORY;
}
if (icount->multiple)
ext2fs_mark_inode_bitmap(icount->multiple, ino);
if (ret)
*ret = curr_value;
return 0;
}
errcode_t ext2fs_icount_decrement(ext2_icount_t icount, ext2_ino_t ino,
__u16 *ret)
{
__u16 curr_value;
if (!ino || (ino > icount->num_inodes))
return EXT2_ET_INVALID_ARGUMENT;
EXT2_CHECK_MAGIC(icount, EXT2_ET_MAGIC_ICOUNT);
if (ext2fs_test_inode_bitmap(icount->single, ino)) {
ext2fs_unmark_inode_bitmap(icount->single, ino);
if (icount->multiple)
ext2fs_unmark_inode_bitmap(icount->multiple, ino);
else {
set_inode_count(icount, ino, 0);
}
if (ret)
*ret = 0;
return 0;
}
if (icount->multiple &&
!ext2fs_test_inode_bitmap(icount->multiple, ino))
return EXT2_ET_INVALID_ARGUMENT;
get_inode_count(icount, ino, &curr_value);
if (!curr_value)
return EXT2_ET_INVALID_ARGUMENT;
curr_value--;
if (set_inode_count(icount, ino, curr_value))
return EXT2_ET_NO_MEMORY;
if (curr_value == 1)
ext2fs_mark_inode_bitmap(icount->single, ino);
if ((curr_value == 0) && icount->multiple)
ext2fs_unmark_inode_bitmap(icount->multiple, ino);
if (ret)
*ret = curr_value;
return 0;
}
errcode_t ext2fs_icount_store(ext2_icount_t icount, ext2_ino_t ino,
__u16 count)
{
if (!ino || (ino > icount->num_inodes))
return EXT2_ET_INVALID_ARGUMENT;
EXT2_CHECK_MAGIC(icount, EXT2_ET_MAGIC_ICOUNT);
if (count == 1) {
ext2fs_mark_inode_bitmap(icount->single, ino);
if (icount->multiple)
ext2fs_unmark_inode_bitmap(icount->multiple, ino);
return 0;
}
if (count == 0) {
ext2fs_unmark_inode_bitmap(icount->single, ino);
if (icount->multiple) {
/*
* If the icount->multiple bitmap is enabled,
* we can just clear both bitmaps and we're done
*/
ext2fs_unmark_inode_bitmap(icount->multiple, ino);
} else
set_inode_count(icount, ino, 0);
return 0;
}
if (set_inode_count(icount, ino, count))
return EXT2_ET_NO_MEMORY;
ext2fs_unmark_inode_bitmap(icount->single, ino);
if (icount->multiple)
ext2fs_mark_inode_bitmap(icount->multiple, ino);
return 0;
}
ext2_ino_t ext2fs_get_icount_size(ext2_icount_t icount)
{
if (!icount || icount->magic != EXT2_ET_MAGIC_ICOUNT)
return 0;
return icount->size;
}
#ifdef DEBUG
ext2_filsys test_fs;
ext2_icount_t icount;
#define EXIT 0x00
#define FETCH 0x01
#define STORE 0x02
#define INCREMENT 0x03
#define DECREMENT 0x04
struct test_program {
int cmd;
ext2_ino_t ino;
__u16 arg;
__u16 expected;
};
struct test_program prog[] = {
{ STORE, 42, 42, 42 },
{ STORE, 1, 1, 1 },
{ STORE, 2, 2, 2 },
{ STORE, 3, 3, 3 },
{ STORE, 10, 1, 1 },
{ STORE, 42, 0, 0 },
{ INCREMENT, 5, 0, 1 },
{ INCREMENT, 5, 0, 2 },
{ INCREMENT, 5, 0, 3 },
{ INCREMENT, 5, 0, 4 },
{ DECREMENT, 5, 0, 3 },
{ DECREMENT, 5, 0, 2 },
{ DECREMENT, 5, 0, 1 },
{ DECREMENT, 5, 0, 0 },
{ FETCH, 10, 0, 1 },
{ FETCH, 1, 0, 1 },
{ FETCH, 2, 0, 2 },
{ FETCH, 3, 0, 3 },
{ INCREMENT, 1, 0, 2 },
{ DECREMENT, 2, 0, 1 },
{ DECREMENT, 2, 0, 0 },
{ FETCH, 12, 0, 0 },
{ EXIT, 0, 0, 0 }
};
struct test_program extended[] = {
{ STORE, 1, 1, 1 },
{ STORE, 2, 2, 2 },
{ STORE, 3, 3, 3 },
{ STORE, 4, 4, 4 },
{ STORE, 5, 5, 5 },
{ STORE, 6, 1, 1 },
{ STORE, 7, 2, 2 },
{ STORE, 8, 3, 3 },
{ STORE, 9, 4, 4 },
{ STORE, 10, 5, 5 },
{ STORE, 11, 1, 1 },
{ STORE, 12, 2, 2 },
{ STORE, 13, 3, 3 },
{ STORE, 14, 4, 4 },
{ STORE, 15, 5, 5 },
{ STORE, 16, 1, 1 },
{ STORE, 17, 2, 2 },
{ STORE, 18, 3, 3 },
{ STORE, 19, 4, 4 },
{ STORE, 20, 5, 5 },
{ STORE, 21, 1, 1 },
{ STORE, 22, 2, 2 },
{ STORE, 23, 3, 3 },
{ STORE, 24, 4, 4 },
{ STORE, 25, 5, 5 },
{ STORE, 26, 1, 1 },
{ STORE, 27, 2, 2 },
{ STORE, 28, 3, 3 },
{ STORE, 29, 4, 4 },
{ STORE, 30, 5, 5 },
{ EXIT, 0, 0, 0 }
};
/*
* Setup the variables for doing the inode scan test.
*/
static void setup(void)
{
errcode_t retval;
struct ext2_super_block param;
initialize_ext2_error_table();
memset(¶m, 0, sizeof(param));
param.s_blocks_count = 12000;
retval = ext2fs_initialize("test fs", 0, ¶m,
test_io_manager, &test_fs);
if (retval) {
com_err("setup", retval,
"while initializing filesystem");
exit(1);
}
retval = ext2fs_allocate_tables(test_fs);
if (retval) {
com_err("setup", retval,
"while allocating tables for test filesystem");
exit(1);
}
}
int run_test(int flags, int size, char *dir, struct test_program *prog)
{
errcode_t retval;
ext2_icount_t icount;
struct test_program *pc;
__u16 result;
int problem = 0;
if (dir) {
retval = ext2fs_create_icount_tdb(test_fs, dir,
flags, &icount);
if (retval) {
com_err("run_test", retval,
"while creating icount using tdb");
exit(1);
}
} else {
retval = ext2fs_create_icount2(test_fs, flags, size, 0,
&icount);
if (retval) {
com_err("run_test", retval, "while creating icount");
exit(1);
}
}
for (pc = prog; pc->cmd != EXIT; pc++) {
switch (pc->cmd) {
case FETCH:
printf("icount_fetch(%u) = ", pc->ino);
break;
case STORE:
retval = ext2fs_icount_store(icount, pc->ino, pc->arg);
if (retval) {
com_err("run_test", retval,
"while calling icount_store");
exit(1);
}
printf("icount_store(%u, %u) = ", pc->ino, pc->arg);
break;
case INCREMENT:
retval = ext2fs_icount_increment(icount, pc->ino, 0);
if (retval) {
com_err("run_test", retval,
"while calling icount_increment");
exit(1);
}
printf("icount_increment(%u) = ", pc->ino);
break;
case DECREMENT:
retval = ext2fs_icount_decrement(icount, pc->ino, 0);
if (retval) {
com_err("run_test", retval,
"while calling icount_decrement");
exit(1);
}
printf("icount_decrement(%u) = ", pc->ino);
break;
}
retval = ext2fs_icount_fetch(icount, pc->ino, &result);
if (retval) {
com_err("run_test", retval,
"while calling icount_fetch");
exit(1);
}
printf("%u (%s)\n", result, (result == pc->expected) ?
"OK" : "NOT OK");
if (result != pc->expected)
problem++;
}
printf("icount size is %u\n", ext2fs_get_icount_size(icount));
retval = ext2fs_icount_validate(icount, stdout);
if (retval) {
com_err("run_test", retval, "while calling icount_validate");
exit(1);
}
ext2fs_free_icount(icount);
return problem;
}
int main(int argc, char **argv)
{
int failed = 0;
setup();
printf("Standard icount run:\n");
failed += run_test(0, 0, 0, prog);
printf("\nMultiple bitmap test:\n");
failed += run_test(EXT2_ICOUNT_OPT_INCREMENT, 0, 0, prog);
printf("\nResizing icount:\n");
failed += run_test(0, 3, 0, extended);
printf("\nStandard icount run with tdb:\n");
failed += run_test(0, 0, ".", prog);
printf("\nMultiple bitmap test with tdb:\n");
failed += run_test(EXT2_ICOUNT_OPT_INCREMENT, 0, ".", prog);
if (failed)
printf("FAILED!\n");
return failed;
}
#endif
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