/* Lziprecover - Data recovery tool for the lzip format
Copyright (C) 2009-2018 Antonio Diaz Diaz.
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 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, see .
*/
#define _FILE_OFFSET_BITS 64
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include "lzip.h"
#include "decoder.h"
#include "block.h"
#include "file_index.h"
namespace {
bool pending_newline = false;
void print_pending_newline()
{ if( pending_newline ) std::fputc( '\n', stdout ); pending_newline = false; }
bool file_crc( uint32_t & crc, const int infd )
{
const int buffer_size = 65536;
crc = 0xFFFFFFFFU;
uint8_t * const buffer = new uint8_t[buffer_size];
bool error = false;
while( true )
{
const int rd = readblock( infd, buffer, buffer_size );
if( rd != buffer_size && errno )
{ show_error( "Error reading input file", errno ); error = true; break; }
if( rd > 0 )
crc32.update_buf( crc, buffer, rd );
if( rd < buffer_size ) break; // EOF
}
delete[] buffer;
crc ^= 0xFFFFFFFFU;
return !error;
}
// Add 'bv' to 'block_vector' splitting blocks as needed to keep all the
// edges (pos and end of every block).
// 'block_vector' contains the result. 'bv' is destroyed.
void combine( std::vector< Block > & block_vector, std::vector< Block > & bv )
{
if( block_vector.empty() ) { block_vector.swap( bv ); return; }
unsigned i1 = 0, i2 = 0;
while( i1 < block_vector.size() && i2 < bv.size() )
{
Block & b1 = block_vector[i1];
Block & b2 = bv[i2];
if( b1.overlaps( b2 ) )
{
if( b1 < b2 )
{
Block b = b1.split( b2.pos() );
block_vector.insert( block_vector.begin() + i1, b ); ++i1;
}
else if( b2 < b1 )
{
Block b( b2.pos(), b1.pos() - b2.pos() );
b2.split( b1.pos() );
block_vector.insert( block_vector.begin() + i1, b ); ++i1;
}
else if( b1.end() < b2.end() ) { b2.split( b1.end() ); ++i1; }
else if( b2.end() < b1.end() )
{
Block b = b1.split( b2.end() );
block_vector.insert( block_vector.begin() + i1, b ); ++i1; ++i2;
}
else { ++i1; ++i2; } // blocks are identical
}
else if( b1 < b2 ) ++i1;
else { block_vector.insert( block_vector.begin() + i1, b2 ); ++i1; ++i2; }
}
if( i2 < bv.size() ) // tail copy
block_vector.insert( block_vector.end(), bv.begin() + i2, bv.end() );
}
// positions in 'block_vector' are absolute file positions.
// blocks in 'block_vector' are ascending and don't overlap.
bool diff_member( const long long mpos, const long long msize,
const std::vector< int > & infd_vector,
std::vector< Block > & block_vector,
std::vector< int > & color_vector )
{
const int files = infd_vector.size();
const int buffer_size = 65536;
uint8_t * const buffer1 = new uint8_t[buffer_size];
uint8_t * const buffer2 = new uint8_t[buffer_size];
int next_color = 1;
bool error = false;
for( int i1 = 0; i1 < files && !error; ++i1 )
{
for( int i2 = i1 + 1; i2 < files && !error; ++i2 )
{
if( color_vector[i1] != 0 && color_vector[i1] == color_vector[i2] )
continue;
std::vector< Block > bv;
long long partial_pos = 0;
const int fd1 = infd_vector[i1], fd2 = infd_vector[i2];
int begin = -1; // begin of block. -1 means no block
bool prev_equal = true;
if( !safe_seek( fd1, mpos ) || !safe_seek( fd2, mpos ) )
{ error = true; break; }
while( partial_pos < msize )
{
const int size = std::min( (long long)buffer_size, msize - partial_pos );
const int rd = readblock( fd1, buffer1, size );
if( rd != size && errno )
{ show_error( "Error reading input file", errno ); error = true; break; }
if( rd > 0 )
{
if( readblock( fd2, buffer2, rd ) != rd )
{ show_error( "Error reading input file", errno );
error = true; break; }
for( int i = 0; i < rd; ++i )
{
if( buffer1[i] != buffer2[i] )
{
prev_equal = false;
if( begin < 0 ) begin = partial_pos + i; // begin block
}
else if( !prev_equal ) prev_equal = true;
else if( begin >= 0 ) // end block
{
Block b( mpos + begin, partial_pos + i - 1 - begin );
begin = -1;
bv.push_back( b );
}
}
partial_pos += rd;
}
if( rd < buffer_size ) break; // EOF
}
if( begin >= 0 ) // finish last block
{
Block b( mpos + begin, partial_pos - prev_equal - begin );
bv.push_back( b );
}
if( bv.empty() ) // members are identical, set to same color
{
if( color_vector[i1] == 0 )
{
if( color_vector[i2] != 0 ) color_vector[i1] = color_vector[i2];
else color_vector[i1] = color_vector[i2] = next_color++;
}
else if( color_vector[i2] == 0 ) color_vector[i2] = color_vector[i1];
else internal_error( "different colors assigned to identical members." );
}
combine( block_vector, bv );
}
if( color_vector[i1] == 0 ) color_vector[i1] = next_color++;
}
delete[] buffer2; delete[] buffer1;
return !error;
}
long ipow( const unsigned base, const unsigned exponent )
{
unsigned long result = 1;
for( unsigned i = 0; i < exponent; ++i )
{
if( LONG_MAX / base >= result ) result *= base;
else { result = LONG_MAX; break; }
}
return result;
}
int open_input_files( const std::vector< std::string > & filenames,
std::vector< int > & infd_vector,
File_index & file_index, struct stat * const in_statsp )
{
const int files = filenames.size();
for( int i = 0; i + 1 < files; ++i )
for( int j = i + 1; j < files; ++j )
if( filenames[i] == filenames[j] )
{ show_error2( "Input file", filenames[i].c_str(), "given twice." );
return 2; }
{
std::vector< uint32_t > crc_vector( files );
for( int i = 0; i < files; ++i )
{
struct stat in_stats; // not used
infd_vector[i] = open_instream( filenames[i].c_str(),
( i == 0 ) ? in_statsp : &in_stats, true, true );
if( infd_vector[i] < 0 ) return 1;
if( !file_crc( crc_vector[i], infd_vector[i] ) ) return 1;
for( int j = 0; j < i; ++j )
if( crc_vector[i] == crc_vector[j] )
{ show_error4( "Input files", filenames[j].c_str(),
filenames[i].c_str(), "are identical." ); return 2; }
}
}
long long isize = 0;
int good_fi = -1;
for( int i = 0; i < files; ++i )
{
long long tmp;
const File_index fi( infd_vector[i], true, true, true );
if( fi.retval() == 0 ) // file format is intact
{
if( good_fi < 0 ) { good_fi = i; file_index = fi; }
else if( file_index != fi )
{ show_error4( "Input files", filenames[good_fi].c_str(),
filenames[i].c_str(), "are different." ); return 2; }
tmp = file_index.file_size();
}
else // file format is damaged
{
tmp = lseek( infd_vector[i], 0, SEEK_END );
if( tmp < 0 )
{
show_error2( "Input file", filenames[i].c_str(), "is not seekable." );
return 1;
}
}
if( tmp < min_member_size )
{ show_error2( "Input file", filenames[i].c_str(), "is too short." );
return 2; }
if( i == 0 ) isize = tmp;
else if( isize != tmp )
{ show_error4( "Sizes of input files", filenames[0].c_str(),
filenames[i].c_str(), "are different." ); return 2; }
}
if( file_index.retval() != 0 )
{
const File_index fi( infd_vector, isize );
if( fi.retval() == 0 ) // file format could be recovered
file_index = fi;
else
{ show_error( "Format damaged in all input files." ); return 2; }
}
for( int i = 0; i < files; ++i )
{
const int infd = infd_vector[i];
bool error = false;
for( long j = 0; j < file_index.members(); ++j )
{
const long long mpos = file_index.mblock( j ).pos();
const long long msize = file_index.mblock( j ).size();
if( !safe_seek( infd, mpos ) ) return 1;
if( !test_member_from_file( infd, msize ) ) { error = true; break; }
}
if( !error )
{
if( verbosity >= 1 )
std::printf( "File '%s' has no errors. Recovery is not needed.\n",
filenames[i].c_str() );
return 0;
}
}
return -1;
}
void maybe_cluster_blocks( std::vector< Block > & block_vector )
{
const unsigned long old_size = block_vector.size();
if( old_size <= 16 ) return;
do {
int min_gap = INT_MAX;
bool same = true; // all gaps have the same size
for( unsigned i = 1; i < block_vector.size(); ++i )
{
const long long gap = block_vector[i].pos() - block_vector[i-1].end();
if( gap < min_gap )
{ if( min_gap < INT_MAX ) same = false; min_gap = gap; }
else if( gap != min_gap ) same = false;
}
if( min_gap >= INT_MAX || same ) break;
for( unsigned i = block_vector.size() - 1; i > 0; --i )
{
const long long gap = block_vector[i].pos() - block_vector[i-1].end();
if( gap == min_gap )
{
block_vector[i-1].size( block_vector[i-1].size() + gap +
block_vector[i].size() );
block_vector.erase( block_vector.begin() + i );
}
}
} while( block_vector.size() > 16 );
if( verbosity >= 1 && old_size > block_vector.size() )
std::printf( " %lu errors have been grouped in %lu clusters.\n",
old_size, (long)block_vector.size() );
}
bool color_done( const std::vector< int > & color_vector, const int i )
{
for( int j = i - 1; j >= 0; --j )
if( color_vector[j] == color_vector[i] ) return true;
return false;
}
// try dividing blocks in 2 color groups at every gap
bool try_merge_member2( const long long mpos, const long long msize,
const std::vector< Block > & block_vector,
const std::vector< int > & color_vector,
const std::vector< int > & infd_vector )
{
const int blocks = block_vector.size();
const int files = infd_vector.size();
const int variations = files * ( files - 1 );
for( int i1 = 0; i1 < files; ++i1 )
for( int i2 = 0; i2 < files; ++i2 )
{
if( i1 == i2 || color_vector[i1] == color_vector[i2] ||
color_done( color_vector, i1 ) ) continue;
for( int bi = 0; bi < blocks; ++bi )
if( !safe_seek( infd_vector[i2], block_vector[bi].pos() ) ||
!safe_seek( outfd, block_vector[bi].pos() ) ||
!copy_file( infd_vector[i2], outfd, block_vector[bi].size() ) )
cleanup_and_fail( 1 );
const int infd = infd_vector[i1];
const int var = ( i1 * ( files - 1 ) ) + i2 - ( i2 > i1 ) + 1;
for( int bi = 0; bi + 1 < blocks; ++bi )
{
if( verbosity >= 2 )
{
std::printf( " Trying variation %d of %d, block %d \r",
var, variations, bi + 1 );
std::fflush( stdout ); pending_newline = true;
}
if( !safe_seek( infd, block_vector[bi].pos() ) ||
!safe_seek( outfd, block_vector[bi].pos() ) ||
!copy_file( infd, outfd, block_vector[bi].size() ) ||
!safe_seek( outfd, mpos ) )
cleanup_and_fail( 1 );
long long failure_pos = 0;
if( test_member_from_file( outfd, msize, &failure_pos ) ) return true;
if( mpos + failure_pos < block_vector[bi].end() ) break;
}
}
return false;
}
// merge block by block
bool try_merge_member( const long long mpos, const long long msize,
const std::vector< Block > & block_vector,
const std::vector< int > & color_vector,
const std::vector< int > & infd_vector )
{
const int blocks = block_vector.size();
const int files = infd_vector.size();
const long variations = ipow( files, blocks );
if( variations >= LONG_MAX )
{
if( files > 2 )
show_error( "Too many damaged blocks. Try merging fewer files." );
else
show_error( "Too many damaged blocks. Merging is not possible." );
cleanup_and_fail( 2 );
}
int bi = 0; // block index
std::vector< int > file_idx( blocks, 0 ); // file to read each block from
while( bi >= 0 )
{
if( verbosity >= 2 )
{
long var = 0;
for( int i = 0; i < blocks; ++i )
var = ( var * files ) + file_idx[i];
std::printf( " Trying variation %ld of %ld \r", var + 1, variations );
std::fflush( stdout ); pending_newline = true;
}
while( bi < blocks )
{
const int infd = infd_vector[file_idx[bi]];
if( !safe_seek( infd, block_vector[bi].pos() ) ||
!safe_seek( outfd, block_vector[bi].pos() ) ||
!copy_file( infd, outfd, block_vector[bi].size() ) )
cleanup_and_fail( 1 );
++bi;
}
if( !safe_seek( outfd, mpos ) )
cleanup_and_fail( 1 );
long long failure_pos = 0;
if( test_member_from_file( outfd, msize, &failure_pos ) ) return true;
while( bi > 0 && mpos + failure_pos < block_vector[bi-1].pos() ) --bi;
while( --bi >= 0 )
{
while( ++file_idx[bi] < files &&
color_done( color_vector, file_idx[bi] ) );
if( file_idx[bi] < files ) break;
file_idx[bi] = 0;
}
}
return false;
}
// merge a single block split at every possible position
bool try_merge_member1( const long long mpos, const long long msize,
const std::vector< Block > & block_vector,
const std::vector< int > & color_vector,
const std::vector< int > & infd_vector )
{
if( block_vector.size() != 1 || block_vector[0].size() <= 1 ) return false;
const long long pos = block_vector[0].pos();
const long long size = block_vector[0].size();
const int files = infd_vector.size();
const int variations = files * ( files - 1 );
uint8_t byte;
for( int i1 = 0; i1 < files; ++i1 )
for( int i2 = 0; i2 < files; ++i2 )
{
if( i1 == i2 || color_vector[i1] == color_vector[i2] ||
color_done( color_vector, i1 ) ) continue;
const int infd = infd_vector[i1];
if( !safe_seek( infd, pos ) ||
!safe_seek( infd_vector[i2], pos ) ||
!safe_seek( outfd, pos ) ||
!copy_file( infd_vector[i2], outfd, size ) )
cleanup_and_fail( 1 );
const int var = ( i1 * ( files - 1 ) ) + i2 - ( i2 > i1 ) + 1;
for( long long i = 0; i + 1 < size; ++i )
{
if( verbosity >= 2 )
{
std::printf( " Trying variation %d of %d, position %lld \r",
var, variations, pos + i );
std::fflush( stdout ); pending_newline = true;
}
if( !safe_seek( outfd, pos + i ) ||
readblock( infd, &byte, 1 ) != 1 ||
writeblock( outfd, &byte, 1 ) != 1 ||
!safe_seek( outfd, mpos ) )
cleanup_and_fail( 1 );
long long failure_pos = 0;
if( test_member_from_file( outfd, msize, &failure_pos ) ) return true;
if( mpos + failure_pos <= pos + i ) break;
}
}
return false;
}
} // end namespace
// max_size < 0 means no size limit.
bool copy_file( const int infd, const int outfd, const long long max_size )
{
const int buffer_size = 65536;
// remaining number of bytes to copy
long long rest = ( ( max_size >= 0 ) ? max_size : buffer_size );
uint8_t * const buffer = new uint8_t[buffer_size];
bool error = false;
while( rest > 0 )
{
const int size = std::min( (long long)buffer_size, rest );
if( max_size >= 0 ) rest -= size;
const int rd = readblock( infd, buffer, size );
if( rd != size && errno )
{ show_error( "Error reading input file", errno ); error = true; break; }
if( rd > 0 )
{
const int wr = writeblock( outfd, buffer, rd );
if( wr != rd )
{ show_error( "Error writing output file", errno );
error = true; break; }
}
if( rd < size ) break; // EOF
}
delete[] buffer;
return !error;
}
bool test_member_from_file( const int infd, const unsigned long long msize,
long long * const failure_posp )
{
Range_decoder rdec( infd );
File_header header;
rdec.read_data( header.data, File_header::size );
const unsigned dictionary_size = header.dictionary_size();
if( !rdec.finished() && header.verify_magic() &&
header.verify_version() && isvalid_ds( dictionary_size ) )
{
LZ_decoder decoder( rdec, dictionary_size, -1 );
const int old_verbosity = verbosity;
verbosity = -1; // suppress all messages
Pretty_print dummy( "" );
const bool done = ( decoder.decode_member( dummy ) == 0 &&
rdec.member_position() == msize );
verbosity = old_verbosity; // restore verbosity level
if( done ) return true;
}
if( failure_posp ) *failure_posp = rdec.member_position();
return false;
}
int merge_files( const std::vector< std::string > & filenames,
const std::string & default_output_filename,
const bool force )
{
const int files = filenames.size();
std::vector< int > infd_vector( files );
File_index file_index;
struct stat in_stats;
const int retval =
open_input_files( filenames, infd_vector, file_index, &in_stats );
if( retval >= 0 ) return retval;
if( !safe_seek( infd_vector[0], 0 ) ) return 1;
output_filename = default_output_filename.empty() ?
insert_fixed( filenames[0] ) : default_output_filename;
if( !open_outstream( force, false, true, false ) ) return 1;
if( !copy_file( infd_vector[0], outfd ) ) // copy whole file
cleanup_and_fail( 1 );
for( long j = 0; j < file_index.members(); ++j )
{
const long long mpos = file_index.mblock( j ).pos();
const long long msize = file_index.mblock( j ).size();
// vector of data blocks differing among the copies of the current member
std::vector< Block > block_vector;
// different color means members are different
std::vector< int > color_vector( files, 0 );
if( !diff_member( mpos, msize, infd_vector, block_vector, color_vector ) ||
!safe_seek( outfd, mpos ) )
cleanup_and_fail( 1 );
if( block_vector.empty() )
{
if( file_index.members() > 1 && test_member_from_file( outfd, msize ) )
continue;
if( verbosity >= 0 )
std::fprintf( stderr, "Member %ld is damaged and identical in all files."
" Merging is not possible.\n", j + 1 );
cleanup_and_fail( 2 );
}
if( verbosity >= 2 )
{
std::printf( "Merging member %ld of %ld (%lu error%s)\n",
j + 1, file_index.members(), (long)block_vector.size(),
( block_vector.size() == 1 ) ? "" : "s" );
std::fflush( stdout );
}
bool done = false;
if( file_index.members() > 1 || block_vector.size() > 1 )
{
if( block_vector.size() > 1 )
{
maybe_cluster_blocks( block_vector );
done = try_merge_member2( mpos, msize, block_vector, color_vector,
infd_vector );
print_pending_newline();
}
if( !done )
{
done = try_merge_member( mpos, msize, block_vector, color_vector,
infd_vector );
print_pending_newline();
}
}
if( !done )
{
done = try_merge_member1( mpos, msize, block_vector, color_vector,
infd_vector );
print_pending_newline();
}
if( !done )
{
if( verbosity >= 3 )
for( unsigned i = 0; i < block_vector.size(); ++i )
std::fprintf( stderr, "area %2d from position %6lld to %6lld\n", i + 1,
block_vector[i].pos(), block_vector[i].end() - 1 );
show_error( "Some error areas overlap. Can't recover input file." );
cleanup_and_fail( 2 );
}
}
if( close_outstream( &in_stats ) != 0 ) return 1;
if( verbosity >= 1 )
std::fputs( "Input files merged successfully.\n", stdout );
return 0;
}