/*
File: file_mov.c
Copyright (C) 1998-2007 Christophe GRENIER <grenier@cgsecurity.org>
This software 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 of the License, 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 the Free Software Foundation, Inc., 51
Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
*/
#ifdef HAVE_CONFIG_H
#include <config.h>
#endif
#ifdef HAVE_STRING_H
#include <string.h>
#endif
#include <stdio.h>
#include "types.h"
#include "filegen.h"
#include "common.h"
#include "log.h"
static void register_header_check_mov(file_stat_t *file_stat);
static int header_check_mov(const unsigned char *buffer, const unsigned int buffer_size, const unsigned int safe_header_only, const file_recovery_t *file_recovery, file_recovery_t *file_recovery_new);
#ifdef EXPERIMENTAL
static int data_check_mov(const unsigned char *buffer, const unsigned int buffer_size, file_recovery_t *file_recovery);
#endif
const file_hint_t file_hint_mov= {
.extension="mov",
.description="mov/mp4/3gp/3g2/jp2",
.min_header_distance=0,
.max_filesize=PHOTOREC_MAX_FILE_SIZE,
.recover=1,
.header_check=&header_check_mov,
.register_header_check=®ister_header_check_mov
};
static void register_header_check_mov(file_stat_t *file_stat)
{
register_header_check(0, NULL,0, &header_check_mov, file_stat);
}
static const unsigned char * find_in_mem(const unsigned char *haystack, const unsigned int haystack_size, const unsigned char *needle, const unsigned int needle_size);
static const unsigned char * find_in_mem(const unsigned char *haystack, const unsigned int haystack_size, const unsigned char *needle, const unsigned int needle_size)
{
unsigned int i;
for(i=0;i<haystack_size-needle_size;i++)
if(memcmp(&haystack[i],needle,needle_size)==0)
return &haystack[i];
return NULL;
}
static int header_check_mov(const unsigned char *buffer, const unsigned int buffer_size, const unsigned int safe_header_only, const file_recovery_t *file_recovery, file_recovery_t *file_recovery_new)
{
unsigned int i=0;
unsigned int prev_atom_skip=0;
#ifdef EXPERIMENTAL
if(file_recovery!=0 && file_recovery->file_stat!=0 && file_recovery->file_stat->file_hint==&file_hint_mov)
return 0;
file_recovery_new->calculated_file_size=0;
#endif
while(i<buffer_size-8)
{
unsigned int atom_size;
atom_size=(buffer[i+0]<<24)+(buffer[i+1]<<16)+(buffer[i+2]<<8)+buffer[i+3];
if(atom_size<8 || atom_size>1024*1024*1024)
return 0;
#ifdef EXPERIMENTAL
file_recovery_new->data_check=data_check_mov;
file_recovery_new->file_check=&file_check_file;
file_recovery_new->calculated_file_size=i+atom_size;
#endif
/* check for commun atom type */
if(buffer[i+4]=='p' && buffer[i+5]=='n' && buffer[i+6]=='o' && buffer[i+7]=='t')
{
if(atom_size < 256)
{
reset_file_recovery(file_recovery_new);
file_recovery_new->extension=file_hint_mov.extension;
return 1;
}
else
return 0;
}
if(buffer[i+4]=='w' && buffer[i+5]=='i' && buffer[i+6]=='d' && buffer[i+7]=='e')
{
if(atom_size < 256)
{
reset_file_recovery(file_recovery_new);
file_recovery_new->extension=file_hint_mov.extension;
return 1;
}
else
return 0;
}
if(buffer[i+4]=='m' && buffer[i+5]=='o' && buffer[i+6]=='o' && buffer[i+7]=='v')
{
if(atom_size < 256*256*256)
{
reset_file_recovery(file_recovery_new);
file_recovery_new->extension=file_hint_mov.extension;
return 1;
}
else
return 0;
}
if(buffer[i+4]=='f' && buffer[i+5]=='t' && buffer[i+6]=='y' && buffer[i+7]=='p')
{
if(atom_size>buffer_size-i)
atom_size=buffer_size-i;
if(find_in_mem(&buffer[i+8], atom_size-8, "isom", 4)!=0 ||
find_in_mem(&buffer[i+8], atom_size-8, "mp41", 4)!=0 ||
find_in_mem(&buffer[i+8], atom_size-8, "mp42", 4)!=0 ||
find_in_mem(&buffer[i+8], atom_size-8, "mmp4", 4)!=0 ||
find_in_mem(&buffer[i+8], atom_size-8, "M4A", 3)!=0 ||
find_in_mem(&buffer[i+8], atom_size-8, "M4B", 3)!=0 ||
find_in_mem(&buffer[i+8], atom_size-8, "M4P", 3)!=0)
{
reset_file_recovery(file_recovery_new);
file_recovery_new->extension="mp4";
return 1;
}
else if(find_in_mem(&buffer[i+8], atom_size-8, "3gp", 3)!=0)
{
reset_file_recovery(file_recovery_new);
file_recovery_new->extension="3gp";
return 1;
}
else if(find_in_mem(&buffer[i+8], atom_size-8, "3g2", 3)!=0)
{
reset_file_recovery(file_recovery_new);
file_recovery_new->extension="3g2";
return 1;
}
else if(find_in_mem(&buffer[i+8], atom_size-8, "jp2", 3)!=0)
{
reset_file_recovery(file_recovery_new);
file_recovery_new->extension="jp2";
return 1;
}
else if(find_in_mem(&buffer[i+8], atom_size-8, "qt", 2)!=0)
{
reset_file_recovery(file_recovery_new);
file_recovery_new->extension="mov";
return 1;
}
}
if(prev_atom_skip==1 && buffer[i+4]=='m' && buffer[i+5]=='d' && buffer[i+6]=='a' && buffer[i+7]=='t')
{
reset_file_recovery(file_recovery_new);
file_recovery_new->extension=file_hint_mov.extension;
return 1;
}
if(buffer[i+4]=='s' && buffer[i+5]=='k' && buffer[i+6]=='i' && buffer[i+7]=='p')
prev_atom_skip=1;
else
prev_atom_skip=0;
i+=atom_size;
}
return 0;
}
#ifdef EXPERIMENTAL
/* There are too much atom types */
static int data_check_mov(const unsigned char *buffer, const unsigned int buffer_size, file_recovery_t *file_recovery)
{
while(file_recovery->calculated_file_size + 8 < file_recovery->file_size + buffer_size/2)
{
unsigned int atom_size;
unsigned int i;
i=file_recovery->calculated_file_size - file_recovery->file_size + buffer_size/2;
atom_size=(buffer[i+0]<<24)+(buffer[i+1]<<16)+(buffer[i+2]<<8)+buffer[i+3];
// log_trace("file_mov.c: atom %c%c%c%c size %u\n", buffer[i+4],buffer[i+5],buffer[i+6],buffer[i+7], atom_size);
if(atom_size>=8 && atom_size<1024*1024*1024 &&
((buffer[i+4]=='f' && buffer[i+5]=='r' && buffer[i+6]=='e' && buffer[i+7]=='e') ||
(buffer[i+4]=='s' && buffer[i+5]=='k' && buffer[i+6]=='i' && buffer[i+7]=='p') ||
(buffer[i+4]=='w' && buffer[i+5]=='i' && buffer[i+6]=='d' && buffer[i+7]=='e') ||
(buffer[i+4]=='p' && buffer[i+5]=='n' && buffer[i+6]=='o' && buffer[i+7]=='t') ||
(buffer[i+4]=='m' && buffer[i+5]=='o' && buffer[i+6]=='o' && buffer[i+7]=='v') ||
(buffer[i+4]=='m' && buffer[i+5]=='d' && buffer[i+6]=='a' && buffer[i+7]=='t') ||
(buffer[i+4]=='f' && buffer[i+5]=='t' && buffer[i+6]=='y' && buffer[i+7]=='p') ||
(buffer[i+4]=='t' && buffer[i+5]=='r' && buffer[i+6]=='a' && buffer[i+7]=='k') ||
(buffer[i+4]=='m' && buffer[i+5]=='d' && buffer[i+6]=='i' && buffer[i+7]=='a') ||
(buffer[i+4]=='s' && buffer[i+5]=='t' && buffer[i+6]=='b' && buffer[i+7]=='l') ||
(buffer[i+4]=='c' && buffer[i+5]=='m' && buffer[i+6]=='o' && buffer[i+7]=='v') ||
(buffer[i+4]=='d' && buffer[i+5]=='c' && buffer[i+6]=='o' && buffer[i+7]=='m') ||
(buffer[i+4]=='c' && buffer[i+5]=='m' && buffer[i+6]=='v' && buffer[i+7]=='d') ||
(buffer[i+4]=='j' && buffer[i+5]=='p' && buffer[i+6]=='2' && buffer[i+7]=='h')
)
)
{
file_recovery->calculated_file_size+=atom_size;
}
else
{
log_warning("file_mov.c: unknown atom %c%c%c%c\n", buffer[i+4],buffer[i+5],buffer[i+6],buffer[i+7]);
return 2;
}
}
file_recovery->calculated_file_size=file_recovery->file_size+(buffer_size/2);
return 1;
}
#endif
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