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/* Tarlz - Archiver with multimember lzip compression
Copyright (C) 2013-2019 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 <http://www.gnu.org/licenses/>.
*/
#define max_file_size ( LLONG_MAX - header_size )
enum { header_size = 512 };
typedef uint8_t Tar_header[header_size];
enum Offsets {
name_o = 0, mode_o = 100, uid_o = 108, gid_o = 116, size_o = 124,
mtime_o = 136, chksum_o = 148, typeflag_o = 156, linkname_o = 157,
magic_o = 257, version_o = 263, uname_o = 265, gname_o = 297,
devmajor_o = 329, devminor_o = 337, prefix_o = 345 };
enum Lengths {
name_l = 100, mode_l = 8, uid_l = 8, gid_l = 8, size_l = 12,
mtime_l = 12, chksum_l = 8, typeflag_l = 1, linkname_l = 100,
magic_l = 6, version_l = 2, uname_l = 32, gname_l = 32,
devmajor_l = 8, devminor_l = 8, prefix_l = 155 };
enum Typeflag {
tf_regular = '0', tf_link = '1', tf_symlink = '2', tf_chardev = '3',
tf_blockdev = '4', tf_directory = '5', tf_fifo = '6', tf_hiperf = '7',
tf_global = 'g', tf_extended = 'x' };
const uint8_t ustar_magic[magic_l] =
{ 0x75, 0x73, 0x74, 0x61, 0x72, 0 }; // "ustar\0"
inline bool verify_ustar_magic( const uint8_t * const header )
{ return std::memcmp( header + magic_o, ustar_magic, magic_l ) == 0; }
inline void init_tar_header( Tar_header header ) // set magic and version
{
std::memset( header, 0, header_size );
std::memcpy( header + magic_o, ustar_magic, magic_l - 1 );
header[version_o] = header[version_o+1] = '0';
}
inline void print_octal( uint8_t * const buf, int size, unsigned long long num )
{ while( --size >= 0 ) { buf[size] = '0' + ( num % 8 ); num /= 8; } }
// Round "size" to the next multiple of header size (512).
//
inline unsigned long long round_up( const unsigned long long size )
{
const int rem = size % header_size;
const int padding = rem ? header_size - rem : 0;
return size + padding;
}
inline bool dotdot_at_i( const char * const filename, const int i )
{
return ( filename[i] == '.' && filename[i+1] == '.' &&
( i == 0 || filename[i-1] == '/' ) &&
( filename[i+2] == 0 || filename[i+2] == '/' ) );
}
class Resizable_buffer
{
char * p;
unsigned long size_; // size_ < LONG_MAX
public:
// must be >= 87 for format_member_name
enum { default_initial_size = 2 * header_size };
explicit Resizable_buffer( const unsigned long initial_size =
default_initial_size )
: p( (char *)std::malloc( initial_size ) ), size_( p ? initial_size : 0 ) {}
~Resizable_buffer() { if( p ) std::free( p ); p = 0; size_ = 0; }
bool resize( const unsigned long long new_size )
{
if( new_size >= LONG_MAX ) return false;
if( size_ < new_size )
{
char * const tmp = (char *)std::realloc( p, new_size );
if( !tmp ) return false;
p = tmp; size_ = new_size;
}
return true;
}
char * operator()() const { return p; }
unsigned long size() const { return size_; }
};
class Extended // stores metadata from/for extended records
{
std::string linkpath_; // these are the real metadata
std::string path_;
long long file_size_; // >= 0 && <= max_file_size
// cached sizes; if full_size_ < 0 they must be recalculated
mutable long long edsize_; // extended data size
mutable long long padded_edsize_; // edsize rounded up
mutable long long full_size_; // header + padded edsize
mutable long long linkpath_recsize_;
mutable long long path_recsize_;
mutable int file_size_recsize_;
// true if CRC present in parsed or formatted records
mutable bool crc_present_;
void calculate_sizes() const;
public:
static const std::string crc_record;
Extended()
: file_size_( 0 ), edsize_( 0 ), padded_edsize_( 0 ), full_size_( 0 ),
linkpath_recsize_( 0 ), path_recsize_( 0 ), file_size_recsize_( 0 ),
crc_present_( false ) {}
void reset()
{ linkpath_.clear(); path_.clear(); file_size_ = 0; edsize_ = 0;
padded_edsize_ = 0; full_size_ = 0; linkpath_recsize_ = 0;
path_recsize_ = 0; file_size_recsize_ = 0; crc_present_ = false; }
bool empty() const
{ return linkpath_.empty() && path_.empty() && file_size_ == 0; }
const std::string & linkpath() const { return linkpath_; }
const std::string & path() const { return path_; }
long long file_size() const { return file_size_; }
long long get_file_size_and_reset( const Tar_header header );
void linkpath( const char * const lp ) { linkpath_ = lp; full_size_ = -1; }
void path( const char * const p ) { path_ = p; full_size_ = -1; }
void file_size( const long long fs ) { full_size_ = -1;
file_size_ = ( fs >= 0 && fs <= max_file_size ) ? fs : 0; }
long long full_size() const
{ if( full_size_ < 0 ) calculate_sizes(); return full_size_; }
bool crc_present() const { return crc_present_; }
long long format_block( Resizable_buffer & rbuf ) const;
bool parse( const char * const buf, const unsigned long long edsize,
const bool permissive );
void fill_from_ustar( const Tar_header header );
};
enum {
min_dictionary_bits = 12,
min_dictionary_size = 1 << min_dictionary_bits,
max_dictionary_bits = 29,
max_dictionary_size = 1 << max_dictionary_bits,
min_member_size = 36,
min_data_size = 2 * min_dictionary_size,
max_data_size = 2 * max_dictionary_size };
inline bool isvalid_ds( const unsigned dictionary_size )
{ return ( dictionary_size >= min_dictionary_size &&
dictionary_size <= max_dictionary_size ); }
const uint8_t lzip_magic[4] = { 0x4C, 0x5A, 0x49, 0x50 }; // "LZIP"
struct Lzip_header
{
uint8_t data[6]; // 0-3 magic bytes
// 4 version
// 5 coded_dict_size
enum { size = 6 };
bool verify_magic() const
{ return ( std::memcmp( data, lzip_magic, 4 ) == 0 ); }
bool verify_prefix( const int sz ) const // detect (truncated) header
{
for( int i = 0; i < sz && i < 4; ++i )
if( data[i] != lzip_magic[i] ) return false;
return ( sz > 0 );
}
bool verify_corrupt() const // detect corrupt header
{
int matches = 0;
for( int i = 0; i < 4; ++i )
if( data[i] == lzip_magic[i] ) ++matches;
return ( matches > 1 && matches < 4 );
}
uint8_t version() const { return data[4]; }
bool verify_version() const { return ( data[4] == 1 ); }
unsigned dictionary_size() const
{
unsigned sz = ( 1 << ( data[5] & 0x1F ) );
if( sz > min_dictionary_size )
sz -= ( sz / 16 ) * ( ( data[5] >> 5 ) & 7 );
return sz;
}
};
struct Lzip_trailer
{
uint8_t data[20]; // 0-3 CRC32 of the uncompressed data
// 4-11 size of the uncompressed data
// 12-19 member size including header and trailer
enum { size = 20 };
unsigned data_crc() const
{
unsigned tmp = 0;
for( int i = 3; i >= 0; --i ) { tmp <<= 8; tmp += data[i]; }
return tmp;
}
unsigned long long data_size() const
{
unsigned long long tmp = 0;
for( int i = 11; i >= 4; --i ) { tmp <<= 8; tmp += data[i]; }
return tmp;
}
unsigned long long member_size() const
{
unsigned long long tmp = 0;
for( int i = 19; i >= 12; --i ) { tmp <<= 8; tmp += data[i]; }
return tmp;
}
bool verify_consistency() const // check internal consistency
{
const unsigned crc = data_crc();
const unsigned long long dsize = data_size();
if( ( crc == 0 ) != ( dsize == 0 ) ) return false;
const unsigned long long msize = member_size();
if( msize < min_member_size ) return false;
const unsigned long long mlimit = ( 9 * dsize + 7 ) / 8 + min_member_size;
if( mlimit > dsize && msize > mlimit ) return false;
const unsigned long long dlimit = 7090 * ( msize - 26 ) - 1;
if( dlimit > msize && dsize > dlimit ) return false;
return true;
}
};
class CRC32
{
uint32_t data[256]; // Table of CRCs of all 8-bit messages.
public:
CRC32( const bool castagnoli = false )
{
const unsigned cpol = 0x82F63B78U; // CRC32-C Castagnoli polynomial.
const unsigned ipol = 0xEDB88320U; // IEEE 802.3 Ethernet polynomial.
const unsigned poly = castagnoli ? cpol : ipol;
for( unsigned n = 0; n < 256; ++n )
{
unsigned c = n;
for( int k = 0; k < 8; ++k )
{ if( c & 1 ) c = poly ^ ( c >> 1 ); else c >>= 1; }
data[n] = c;
}
}
void update_byte( uint32_t & crc, const uint8_t byte ) const
{ crc = data[(crc^byte)&0xFF] ^ ( crc >> 8 ); }
void update_buf( uint32_t & crc, const uint8_t * const buffer,
const int size ) const
{
uint32_t c = crc;
for( int i = 0; i < size; ++i )
c = data[(c^buffer[i])&0xFF] ^ ( c >> 8 );
crc = c;
}
// Calculates the crc of size bytes except a window of 8 bytes at pos
uint32_t windowed_crc( const uint8_t * const buffer, const int pos,
const int size ) const
{
uint32_t crc = 0xFFFFFFFFU;
update_buf( crc, buffer, pos );
update_buf( crc, buffer + pos + 8, size - pos - 8 );
return crc ^ 0xFFFFFFFFU;
}
};
extern const CRC32 crc32c;
const char * const bad_magic_msg = "Bad magic number (file not in lzip format).";
const char * const bad_dict_msg = "Invalid dictionary size in member header.";
const char * const corrupt_mm_msg = "Corrupt header in multimember file.";
const char * const trailing_msg = "Trailing data not allowed.";
const char * const bad_hdr_msg = "Corrupt or invalid tar header.";
const char * const gblrec_msg = "Error in global extended records.";
const char * const extrec_msg = "Error in extended records.";
const char * const mcrc_msg = "Missing CRC in extended records.";
const char * const end_msg = "Archive ends unexpectedly.";
const char * const mem_msg = "Not enough memory.";
const char * const mem_msg2 = "Not enough memory. Try a lower compression level.";
const char * const fv_msg1 = "Format violation: extended header followed by EOF blocks.";
const char * const fv_msg2 = "Format violation: extended header followed by global header.";
const char * const fv_msg3 = "Format violation: consecutive extended headers found.";
const char * const posix_msg = "This does not look like a POSIX tar archive.";
const char * const posix_lz_msg = "This does not look like a POSIX tar.lz archive.";
// defined in common.cc
void xinit_mutex( pthread_mutex_t * const mutex );
void xinit_cond( pthread_cond_t * const cond );
void xdestroy_mutex( pthread_mutex_t * const mutex );
void xdestroy_cond( pthread_cond_t * const cond );
void xlock( pthread_mutex_t * const mutex );
void xunlock( pthread_mutex_t * const mutex );
void xwait( pthread_cond_t * const cond, pthread_mutex_t * const mutex );
void xsignal( pthread_cond_t * const cond );
void xbroadcast( pthread_cond_t * const cond );
unsigned long long parse_octal( const uint8_t * const ptr, const int size );
int readblock( const int fd, uint8_t * const buf, const int size );
int writeblock( const int fd, const uint8_t * const buf, const int size );
// defined in common_decode.cc
class Arg_parser;
bool block_is_zero( const uint8_t * const buf, const int size );
bool format_member_name( const Extended & extended, const Tar_header header,
Resizable_buffer & rbuf, const bool long_format );
bool show_member_name( const Extended & extended, const Tar_header header,
const int vlevel, Resizable_buffer & rbuf );
bool check_skip_filename( const Arg_parser & parser,
std::vector< char > & name_pending,
const char * const filename, const int filenames );
// defined in create.cc
enum Solidity { no_solid, bsolid, dsolid, asolid, solid };
extern int cl_owner;
extern int cl_group;
extern int cl_data_size;
extern Solidity solidity;
bool copy_file( const int infd, const int outfd, const long long max_size = -1 );
bool writeblock_wrapper( const int outfd, const uint8_t * const buffer,
const int size );
bool write_eof_records( const int outfd, const bool compressed );
const char * remove_leading_dotslash( const char * const filename,
const bool dotdot = false );
bool fill_headers( const char * const filename, Extended & extended,
Tar_header header, long long & file_size, const int flag );
bool block_is_full( const Extended & extended,
const unsigned long long file_size,
unsigned long long & partial_data_size );
void set_error_status( const int retval );
int final_exit_status( int retval, const bool show_msg = true );
unsigned ustar_chksum( const uint8_t * const header );
bool verify_ustar_chksum( const uint8_t * const header );
bool has_lz_ext( const std::string & name );
int concatenate( const std::string & archive_name, const Arg_parser & parser,
const int filenames );
int encode( const std::string & archive_name, const Arg_parser & parser,
const int filenames, const int level, const int num_workers,
const int out_slots, const int debug_level, const bool append,
const bool dereference );
// defined in create_lz.cc
int encode_lz( const char * const archive_namep, const Arg_parser & parser,
const int dictionary_size, const int match_len_limit,
const int num_workers, const int outfd, const int out_slots,
const int debug_level, const bool dereference );
// defined in delete.cc
class Lzip_index;
bool safe_seek( const int fd, const long long pos );
int tail_copy( const char * const archive_namep, const Arg_parser & parser,
std::vector< char > & name_pending,
const Lzip_index & lzip_index, const long long istream_pos,
const int infd, const int outfd, int retval );
int delete_members( const std::string & archive_name, const Arg_parser & parser,
const int filenames, const bool missing_crc,
const bool permissive );
// defined in delete_lz.cc
int delete_members_lz( const char * const archive_namep,
const Arg_parser & parser,
std::vector< char > & name_pending,
const Lzip_index & lzip_index,
const int filenames, const int infd, const int outfd,
const bool missing_crc, const bool permissive );
// defined in exclude.cc
namespace Exclude {
void add_pattern( const std::string & arg );
bool excluded( const char * const filename );
} // end namespace Exclude
// defined in extract.cc
enum Program_mode { m_none, m_append, m_concatenate, m_create, m_delete,
m_diff, m_extract, m_list };
int decode( const std::string & archive_name, const Arg_parser & parser,
const int filenames, const int num_workers, const int debug_level,
const Program_mode program_mode, const bool ignore_ids,
const bool keep_damaged, const bool missing_crc,
const bool permissive );
// defined in list_lz.cc
struct LZ_Decoder;
int archive_read_lz( LZ_Decoder * const decoder, const int infd,
long long & file_pos, const long long member_end,
const long long cdata_size, uint8_t * const buf,
const int size, const char ** msg );
int parse_records_lz( LZ_Decoder * const decoder, const int infd,
long long & file_pos, const long long member_end,
const long long cdata_size, long long & data_pos,
Extended & extended, const Tar_header header,
Resizable_buffer & rbuf, const char ** msg,
const bool permissive );
int skip_member_lz( LZ_Decoder * const decoder, const int infd,
long long & file_pos, const long long member_end,
const long long cdata_size, long long & data_pos,
long long rest, const char ** msg );
int list_lz( const char * const archive_namep, const Arg_parser & parser,
std::vector< char > & name_pending, const Lzip_index & lzip_index,
const int filenames, const int debug_level, const int infd,
const int num_workers, const bool missing_crc,
const bool permissive );
// defined in lzip_index.cc
int seek_read( const int fd, uint8_t * const buf, const int size,
const long long pos );
// defined in main.cc
extern int verbosity;
struct stat;
int hstat( const char * const filename, struct stat * const st );
int open_instream( const std::string & name );
int open_outstream( const std::string & name, const bool create = true );
void cleanup_and_fail( const int retval = 1 ); // terminate the program
void show_error( const char * const msg, const int errcode = 0,
const bool help = false );
void show_file_error( const char * const filename, const char * const msg,
const int errcode = 0 );
void internal_error( const char * const msg );
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