mirror of https://github.com/ventoy/Ventoy
372 lines
10 KiB
C
372 lines
10 KiB
C
/*
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* Create a squashfs filesystem. This is a highly compressed read only
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* filesystem.
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*
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* Copyright (c) 2014
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* Phillip Lougher <phillip@squashfs.org.uk>
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*
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* This program is free software; you can redistribute it and/or
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* modify it under the terms of the GNU General Public License
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* as published by the Free Software Foundation; either version 2,
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* or (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program; if not, write to the Free Software
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* Foundation, 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
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*
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* process_fragments.c
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*/
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#include <pthread.h>
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#include <sys/ioctl.h>
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#include <unistd.h>
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#include <signal.h>
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#include <sys/time.h>
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#include <string.h>
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#include <stdio.h>
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#include <math.h>
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#include <stdarg.h>
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#include <errno.h>
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#include <stdlib.h>
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#include <dirent.h>
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#include <sys/types.h>
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#include <sys/stat.h>
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#include <fcntl.h>
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#include "caches-queues-lists.h"
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#include "squashfs_fs.h"
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#include "mksquashfs.h"
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#include "error.h"
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#include "progressbar.h"
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#include "info.h"
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#include "compressor.h"
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#include "process_fragments.h"
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#define FALSE 0
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#define TRUE 1
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extern struct queue *to_process_frag;
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extern struct seq_queue *to_main;
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extern int sparse_files;
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extern long long start_offset;
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/*
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* Compute 16 bit BSD checksum over the data, and check for sparseness
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*/
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static int checksum_sparse(struct file_buffer *file_buffer)
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{
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unsigned char *b = (unsigned char *) file_buffer->data;
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unsigned short chksum = 0;
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int bytes = file_buffer->size, sparse = TRUE, value;
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while(bytes --) {
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chksum = (chksum & 1) ? (chksum >> 1) | 0x8000 : chksum >> 1;
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value = *b++;
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if(value) {
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sparse = FALSE;
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chksum += value;
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}
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}
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file_buffer->checksum = chksum;
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return sparse;
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}
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static int read_filesystem(int fd, long long byte, int bytes, void *buff)
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{
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off_t off = byte;
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TRACE("read_filesystem: reading from position 0x%llx, bytes %d\n",
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byte, bytes);
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if(lseek(fd, start_offset + off, SEEK_SET) == -1) {
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ERROR("read_filesystem: Lseek on destination failed because %s, "
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"offset=0x%llx\n", strerror(errno), start_offset + off);
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return 0;
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} else if(read_bytes(fd, buff, bytes) < bytes) {
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ERROR("Read on destination failed\n");
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return 0;
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}
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return 1;
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}
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static struct file_buffer *get_fragment(struct fragment *fragment,
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char *data_buffer, int fd)
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{
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struct squashfs_fragment_entry *disk_fragment;
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struct file_buffer *buffer, *compressed_buffer;
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long long start_block;
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int res, size, index = fragment->index;
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char locked;
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/*
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* Lookup fragment block in cache.
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* If the fragment block doesn't exist, then get the compressed version
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* from the writer cache or off disk, and decompress it.
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*
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* This routine has two things which complicate the code:
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*
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* 1. Multiple threads can simultaneously lookup/create the
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* same buffer. This means a buffer needs to be "locked"
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* when it is being filled in, to prevent other threads from
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* using it when it is not ready. This is because we now do
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* fragment duplicate checking in parallel.
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* 2. We have two caches which need to be checked for the
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* presence of fragment blocks: the normal fragment cache
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* and a "reserve" cache. The reserve cache is used to
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* prevent an unnecessary pipeline stall when the fragment cache
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* is full of fragments waiting to be compressed.
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*/
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pthread_cleanup_push((void *) pthread_mutex_unlock, &dup_mutex);
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pthread_mutex_lock(&dup_mutex);
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again:
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buffer = cache_lookup_nowait(fragment_buffer, index, &locked);
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if(buffer) {
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pthread_mutex_unlock(&dup_mutex);
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if(locked)
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/* got a buffer being filled in. Wait for it */
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cache_wait_unlock(buffer);
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goto finished;
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}
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/* not in fragment cache, is it in the reserve cache? */
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buffer = cache_lookup_nowait(reserve_cache, index, &locked);
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if(buffer) {
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pthread_mutex_unlock(&dup_mutex);
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if(locked)
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/* got a buffer being filled in. Wait for it */
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cache_wait_unlock(buffer);
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goto finished;
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}
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/* in neither cache, try to get it from the fragment cache */
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buffer = cache_get_nowait(fragment_buffer, index);
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if(!buffer) {
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/*
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* no room, get it from the reserve cache, this is
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* dimensioned so it will always have space (no more than
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* processors + 1 can have an outstanding reserve buffer)
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*/
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buffer = cache_get_nowait(reserve_cache, index);
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if(!buffer) {
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/* failsafe */
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ERROR("no space in reserve cache\n");
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goto again;
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}
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}
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pthread_mutex_unlock(&dup_mutex);
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compressed_buffer = cache_lookup(fwriter_buffer, index);
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pthread_cleanup_push((void *) pthread_mutex_unlock, &fragment_mutex);
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pthread_mutex_lock(&fragment_mutex);
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disk_fragment = &fragment_table[index];
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size = SQUASHFS_COMPRESSED_SIZE_BLOCK(disk_fragment->size);
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start_block = disk_fragment->start_block;
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pthread_cleanup_pop(1);
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if(SQUASHFS_COMPRESSED_BLOCK(disk_fragment->size)) {
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int error;
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char *data;
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if(compressed_buffer)
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data = compressed_buffer->data;
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else {
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res = read_filesystem(fd, start_block, size, data_buffer);
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if(res == 0) {
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ERROR("Failed to read fragment from output"
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" filesystem\n");
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BAD_ERROR("Output filesystem corrupted?\n");
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}
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data = data_buffer;
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}
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res = compressor_uncompress(comp, buffer->data, data, size,
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block_size, &error);
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if(res == -1)
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BAD_ERROR("%s uncompress failed with error code %d\n",
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comp->name, error);
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} else if(compressed_buffer)
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memcpy(buffer->data, compressed_buffer->data, size);
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else {
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res = read_filesystem(fd, start_block, size, buffer->data);
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if(res == 0) {
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ERROR("Failed to read fragment from output "
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"filesystem\n");
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BAD_ERROR("Output filesystem corrupted?\n");
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}
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}
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cache_unlock(buffer);
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cache_block_put(compressed_buffer);
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finished:
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pthread_cleanup_pop(0);
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return buffer;
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}
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struct file_buffer *get_fragment_cksum(struct file_info *file,
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char *data_buffer, int fd, unsigned short *checksum)
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{
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struct file_buffer *frag_buffer;
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struct append_file *append;
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int index = file->fragment->index;
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frag_buffer = get_fragment(file->fragment, data_buffer, fd);
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pthread_cleanup_push((void *) pthread_mutex_unlock, &dup_mutex);
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for(append = file_mapping[index]; append; append = append->next) {
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int offset = append->file->fragment->offset;
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int size = append->file->fragment->size;
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char *data = frag_buffer->data + offset;
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unsigned short cksum = get_checksum_mem(data, size);
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if(file == append->file)
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*checksum = cksum;
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pthread_mutex_lock(&dup_mutex);
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append->file->fragment_checksum = cksum;
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append->file->have_frag_checksum = TRUE;
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pthread_mutex_unlock(&dup_mutex);
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}
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pthread_cleanup_pop(0);
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return frag_buffer;
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}
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void *frag_thrd(void *destination_file)
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{
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sigset_t sigmask, old_mask;
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char *data_buffer;
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int fd;
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sigemptyset(&sigmask);
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sigaddset(&sigmask, SIGINT);
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sigaddset(&sigmask, SIGTERM);
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sigaddset(&sigmask, SIGUSR1);
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pthread_sigmask(SIG_BLOCK, &sigmask, &old_mask);
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fd = open(destination_file, O_RDONLY);
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if(fd == -1)
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BAD_ERROR("frag_thrd: can't open destination for reading\n");
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data_buffer = malloc(SQUASHFS_FILE_MAX_SIZE);
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if(data_buffer == NULL)
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MEM_ERROR();
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pthread_cleanup_push((void *) pthread_mutex_unlock, &dup_mutex);
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while(1) {
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struct file_buffer *file_buffer = queue_get(to_process_frag);
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struct file_buffer *buffer;
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int sparse = checksum_sparse(file_buffer);
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struct file_info *dupl_ptr;
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long long file_size;
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unsigned short checksum;
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char flag;
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int res;
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if(sparse_files && sparse) {
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file_buffer->c_byte = 0;
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file_buffer->fragment = FALSE;
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} else
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file_buffer->c_byte = file_buffer->size;
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/*
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* Specutively pull into the fragment cache any fragment blocks
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* which contain fragments which *this* fragment may be
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* be a duplicate.
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*
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* By ensuring the fragment block is in cache ahead of time
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* should eliminate the parallelisation stall when the
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* main thread needs to read the fragment block to do a
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* duplicate check on it.
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*
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* If this is a fragment belonging to a larger file
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* (with additional blocks) then ignore it. Here we're
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* interested in the "low hanging fruit" of files which
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* consist of only a fragment
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*/
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if(file_buffer->file_size != file_buffer->size) {
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seq_queue_put(to_main, file_buffer);
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continue;
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}
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file_size = file_buffer->file_size;
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pthread_mutex_lock(&dup_mutex);
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dupl_ptr = dupl[DUP_HASH(file_size)];
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pthread_mutex_unlock(&dup_mutex);
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file_buffer->dupl_start = dupl_ptr;
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file_buffer->duplicate = FALSE;
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for(; dupl_ptr; dupl_ptr = dupl_ptr->next) {
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if(file_size != dupl_ptr->file_size ||
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file_size != dupl_ptr->fragment->size)
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continue;
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pthread_mutex_lock(&dup_mutex);
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flag = dupl_ptr->have_frag_checksum;
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checksum = dupl_ptr->fragment_checksum;
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pthread_mutex_unlock(&dup_mutex);
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/*
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* If we have the checksum and it matches then
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* read in the fragment block.
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*
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* If we *don't* have the checksum, then we are
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* appending, and the fragment block is on the
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* "old" filesystem. Read it in and checksum
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* the entire fragment buffer
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*/
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if(!flag) {
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buffer = get_fragment_cksum(dupl_ptr,
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data_buffer, fd, &checksum);
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if(checksum != file_buffer->checksum) {
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cache_block_put(buffer);
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continue;
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}
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} else if(checksum == file_buffer->checksum)
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buffer = get_fragment(dupl_ptr->fragment,
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data_buffer, fd);
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else
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continue;
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res = memcmp(file_buffer->data, buffer->data +
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dupl_ptr->fragment->offset, file_size);
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cache_block_put(buffer);
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if(res == 0) {
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struct file_buffer *dup = malloc(sizeof(*dup));
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if(dup == NULL)
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MEM_ERROR();
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memcpy(dup, file_buffer, sizeof(*dup));
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cache_block_put(file_buffer);
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dup->dupl_start = dupl_ptr;
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dup->duplicate = TRUE;
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file_buffer = dup;
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break;
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}
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}
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seq_queue_put(to_main, file_buffer);
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}
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pthread_cleanup_pop(0);
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}
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