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unsquash-2.c
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unsquash-2.c
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/*
* Unsquash a squashfs filesystem. This is a highly compressed read only
* filesystem.
*
* Copyright (c) 2009, 2010, 2013
* Phillip Lougher <phillip@squashfs.org.uk>
*
* 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,
* 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, 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
*
* unsquash-2.c
*/
#include "unsquashfs.h"
#include "squashfs_compat.h"
static squashfs_fragment_entry_2 *fragment_table;
void read_block_list_2(unsigned int *block_list, char *block_ptr, int blocks)
{
TRACE("read_block_list: blocks %d\n", blocks);
if(swap) {
unsigned int sblock_list[blocks];
memcpy(sblock_list, block_ptr, blocks * sizeof(unsigned int));
SQUASHFS_SWAP_INTS_3(block_list, sblock_list, blocks);
} else
memcpy(block_list, block_ptr, blocks * sizeof(unsigned int));
}
int read_fragment_table_2(long long *directory_table_end)
{
int res, i;
int bytes = SQUASHFS_FRAGMENT_BYTES_2(sBlk.s.fragments);
int indexes = SQUASHFS_FRAGMENT_INDEXES_2(sBlk.s.fragments);
unsigned int fragment_table_index[indexes];
TRACE("read_fragment_table: %d fragments, reading %d fragment indexes "
"from 0x%llx\n", sBlk.s.fragments, indexes,
sBlk.s.fragment_table_start);
if(sBlk.s.fragments == 0) {
*directory_table_end = sBlk.s.fragment_table_start;
return TRUE;
}
fragment_table = malloc(bytes);
if(fragment_table == NULL)
EXIT_UNSQUASH("read_fragment_table: failed to allocate "
"fragment table\n");
if(swap) {
unsigned int sfragment_table_index[indexes];
res = read_fs_bytes(fd, sBlk.s.fragment_table_start,
SQUASHFS_FRAGMENT_INDEX_BYTES_2(sBlk.s.fragments),
sfragment_table_index);
if(res == FALSE) {
ERROR("read_fragment_table: failed to read fragment "
"table index\n");
return FALSE;
}
SQUASHFS_SWAP_FRAGMENT_INDEXES_2(fragment_table_index,
sfragment_table_index, indexes);
} else {
res = read_fs_bytes(fd, sBlk.s.fragment_table_start,
SQUASHFS_FRAGMENT_INDEX_BYTES_2(sBlk.s.fragments),
fragment_table_index);
if(res == FALSE) {
ERROR("read_fragment_table: failed to read fragment "
"table index\n");
return FALSE;
}
}
for(i = 0; i < indexes; i++) {
int expected = (i + 1) != indexes ? SQUASHFS_METADATA_SIZE :
bytes & (SQUASHFS_METADATA_SIZE - 1);
int length = read_block(fd, fragment_table_index[i], NULL,
expected, ((char *) fragment_table) + (i *
SQUASHFS_METADATA_SIZE));
TRACE("Read fragment table block %d, from 0x%x, length %d\n", i,
fragment_table_index[i], length);
if(length == FALSE) {
ERROR("read_fragment_table: failed to read fragment "
"table block\n");
return FALSE;
}
}
if(swap) {
squashfs_fragment_entry_2 sfragment;
for(i = 0; i < sBlk.s.fragments; i++) {
SQUASHFS_SWAP_FRAGMENT_ENTRY_2((&sfragment),
(&fragment_table[i]));
memcpy((char *) &fragment_table[i], (char *) &sfragment,
sizeof(squashfs_fragment_entry_2));
}
}
*directory_table_end = fragment_table_index[0];
return TRUE;
}
void read_fragment_2(unsigned int fragment, long long *start_block, int *size)
{
TRACE("read_fragment: reading fragment %d\n", fragment);
squashfs_fragment_entry_2 *fragment_entry = &fragment_table[fragment];
*start_block = fragment_entry->start_block;
*size = fragment_entry->size;
}
struct inode *read_inode_2(unsigned int start_block, unsigned int offset)
{
static union squashfs_inode_header_2 header;
long long start = sBlk.s.inode_table_start + start_block;
int bytes = lookup_entry(inode_table_hash, start);
char *block_ptr = inode_table + bytes + offset;
static struct inode i;
TRACE("read_inode: reading inode [%d:%d]\n", start_block, offset);
if(bytes == -1)
EXIT_UNSQUASH("read_inode: inode table block %lld not found\n",
start);
if(swap) {
squashfs_base_inode_header_2 sinode;
memcpy(&sinode, block_ptr, sizeof(header.base));
SQUASHFS_SWAP_BASE_INODE_HEADER_2(&header.base, &sinode,
sizeof(squashfs_base_inode_header_2));
} else
memcpy(&header.base, block_ptr, sizeof(header.base));
i.xattr = SQUASHFS_INVALID_XATTR;
i.uid = (uid_t) uid_table[header.base.uid];
i.gid = header.base.guid == SQUASHFS_GUIDS ? i.uid :
(uid_t) guid_table[header.base.guid];
i.mode = lookup_type[header.base.inode_type] | header.base.mode;
i.type = header.base.inode_type;
i.time = sBlk.s.mkfs_time;
i.inode_number = inode_number++;
switch(header.base.inode_type) {
case SQUASHFS_DIR_TYPE: {
squashfs_dir_inode_header_2 *inode = &header.dir;
if(swap) {
squashfs_dir_inode_header_2 sinode;
memcpy(&sinode, block_ptr, sizeof(header.dir));
SQUASHFS_SWAP_DIR_INODE_HEADER_2(&header.dir,
&sinode);
} else
memcpy(&header.dir, block_ptr,
sizeof(header.dir));
i.data = inode->file_size;
i.offset = inode->offset;
i.start = inode->start_block;
i.time = inode->mtime;
break;
}
case SQUASHFS_LDIR_TYPE: {
squashfs_ldir_inode_header_2 *inode = &header.ldir;
if(swap) {
squashfs_ldir_inode_header_2 sinode;
memcpy(&sinode, block_ptr, sizeof(header.ldir));
SQUASHFS_SWAP_LDIR_INODE_HEADER_2(&header.ldir,
&sinode);
} else
memcpy(&header.ldir, block_ptr,
sizeof(header.ldir));
i.data = inode->file_size;
i.offset = inode->offset;
i.start = inode->start_block;
i.time = inode->mtime;
break;
}
case SQUASHFS_FILE_TYPE: {
squashfs_reg_inode_header_2 *inode = &header.reg;
if(swap) {
squashfs_reg_inode_header_2 sinode;
memcpy(&sinode, block_ptr, sizeof(sinode));
SQUASHFS_SWAP_REG_INODE_HEADER_2(inode,
&sinode);
} else
memcpy(inode, block_ptr, sizeof(*inode));
i.data = inode->file_size;
i.time = inode->mtime;
i.frag_bytes = inode->fragment == SQUASHFS_INVALID_FRAG
? 0 : inode->file_size % sBlk.s.block_size;
i.fragment = inode->fragment;
i.offset = inode->offset;
i.blocks = inode->fragment == SQUASHFS_INVALID_FRAG ?
(i.data + sBlk.s.block_size - 1) >>
sBlk.s.block_log : i.data >>
sBlk.s.block_log;
i.start = inode->start_block;
i.sparse = 0;
i.block_ptr = block_ptr + sizeof(*inode);
break;
}
case SQUASHFS_SYMLINK_TYPE: {
squashfs_symlink_inode_header_2 *inodep =
&header.symlink;
if(swap) {
squashfs_symlink_inode_header_2 sinodep;
memcpy(&sinodep, block_ptr, sizeof(sinodep));
SQUASHFS_SWAP_SYMLINK_INODE_HEADER_2(inodep,
&sinodep);
} else
memcpy(inodep, block_ptr, sizeof(*inodep));
i.symlink = malloc(inodep->symlink_size + 1);
if(i.symlink == NULL)
EXIT_UNSQUASH("read_inode: failed to malloc "
"symlink data\n");
strncpy(i.symlink, block_ptr +
sizeof(squashfs_symlink_inode_header_2),
inodep->symlink_size);
i.symlink[inodep->symlink_size] = '\0';
i.data = inodep->symlink_size;
break;
}
case SQUASHFS_BLKDEV_TYPE:
case SQUASHFS_CHRDEV_TYPE: {
squashfs_dev_inode_header_2 *inodep = &header.dev;
if(swap) {
squashfs_dev_inode_header_2 sinodep;
memcpy(&sinodep, block_ptr, sizeof(sinodep));
SQUASHFS_SWAP_DEV_INODE_HEADER_2(inodep,
&sinodep);
} else
memcpy(inodep, block_ptr, sizeof(*inodep));
i.data = inodep->rdev;
break;
}
case SQUASHFS_FIFO_TYPE:
case SQUASHFS_SOCKET_TYPE:
i.data = 0;
break;
default:
EXIT_UNSQUASH("Unknown inode type %d in "
"read_inode_header_2!\n",
header.base.inode_type);
}
return &i;
}