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author | Daniel Baumann <mail@daniel-baumann.ch> | 2015-11-07 15:11:49 +0000 |
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committer | Daniel Baumann <mail@daniel-baumann.ch> | 2015-11-07 15:11:49 +0000 |
commit | 6ee23cf581376f09838aed1a2ed6ab497cf51346 (patch) | |
tree | d482012b1260b5025c6b5c38fce528514d3b9130 /compress.cc | |
parent | Adding upstream version 0.3. (diff) | |
download | plzip-6ee23cf581376f09838aed1a2ed6ab497cf51346.tar.xz plzip-6ee23cf581376f09838aed1a2ed6ab497cf51346.zip |
Adding upstream version 0.4.upstream/0.4
Signed-off-by: Daniel Baumann <mail@daniel-baumann.ch>
Diffstat (limited to 'compress.cc')
-rw-r--r-- | compress.cc | 460 |
1 files changed, 460 insertions, 0 deletions
diff --git a/compress.cc b/compress.cc new file mode 100644 index 0000000..e66b537 --- /dev/null +++ b/compress.cc @@ -0,0 +1,460 @@ +/* Plzip - A parallel compressor compatible with lzip + Copyright (C) 2009 Laszlo Ersek. + Copyright (C) 2009, 2010 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 3 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 _FILE_OFFSET_BITS 64 + +#include <algorithm> +#include <cassert> +#include <cerrno> +#include <climits> +#include <csignal> +#include <cstdio> +#include <cstdlib> +#include <cstring> +#include <queue> +#include <string> +#include <vector> +#include <pthread.h> +#include <stdint.h> +#include <unistd.h> +#include <lzlib.h> + +#include "plzip.h" + +#ifndef LLONG_MAX +#define LLONG_MAX 0x7FFFFFFFFFFFFFFFLL +#endif +#ifndef LLONG_MIN +#define LLONG_MIN (-LLONG_MAX - 1LL) +#endif +#ifndef ULLONG_MAX +#define ULLONG_MAX 0xFFFFFFFFFFFFFFFFULL +#endif + + +void xinit( pthread_cond_t * cond, pthread_mutex_t * mutex ) + { + int ret = pthread_mutex_init( mutex, 0 ); + if( ret != 0 ) { show_error( "pthread_mutex_init", ret ); fatal(); } + + ret = pthread_cond_init( cond, 0 ); + if( ret != 0 ) { show_error( "pthread_cond_init", ret ); fatal(); } + } + + +void xdestroy( pthread_cond_t * cond, pthread_mutex_t * mutex ) + { + int ret = pthread_cond_destroy( cond ); + if( ret != 0 ) { show_error( "pthread_cond_destroy", ret ); fatal(); } + + ret = pthread_mutex_destroy( mutex ); + if( ret != 0 ) { show_error( "pthread_mutex_destroy", ret ); fatal(); } + } + + +void xlock( pthread_mutex_t * mutex ) + { + int ret = pthread_mutex_lock( mutex ); + if( ret != 0 ) { show_error( "pthread_mutex_lock", ret ); fatal(); } + } + + +void xunlock( pthread_mutex_t * mutex ) + { + int ret = pthread_mutex_unlock( mutex ); + if( ret != 0 ) { show_error( "pthread_mutex_unlock", ret ); fatal(); } + } + + +void xwait( pthread_cond_t * cond, pthread_mutex_t * mutex ) + { + int ret = pthread_cond_wait( cond, mutex ); + if( ret != 0 ) { show_error( "pthread_cond_wait", ret ); fatal(); } + } + + +void xsignal( pthread_cond_t * cond ) + { + int ret = pthread_cond_signal( cond ); + if( ret != 0 ) { show_error( "pthread_cond_signal", ret ); fatal(); } + } + + +void xbroadcast( pthread_cond_t * cond ) + { + int ret = pthread_cond_broadcast( cond ); + if( ret != 0 ) { show_error( "pthread_cond_broadcast", ret ); fatal(); } + } + + +void xcreate( pthread_t *thread, void *(*routine)(void *), void *arg ) + { + int ret = pthread_create( thread, 0, routine, arg ); + if( ret != 0 ) { show_error( "pthread_create", ret ); fatal(); } + } + + +void xjoin( pthread_t thread ) + { + int ret = pthread_join( thread, 0 ); + if( ret != 0 ) { show_error( "pthread_join", ret ); fatal(); } + } + + +namespace { + +long long in_size = 0; +long long out_size = 0; + + +struct Packet // data block with a serial number + { + unsigned long long id; // serial number assigned as received + int size; // # of bytes in data + uint8_t * data; + }; + + +class Packet_courier // moves packets around + { +public: + unsigned long icheck_counter; + unsigned long iwait_counter; + unsigned long ocheck_counter; + unsigned long owait_counter; +private: + unsigned long long receive_id; // id assigned to next packet received + unsigned long long deliver_id; // id of next packet to be delivered + Slot_tally slot_tally; + std::queue< Packet * > packet_queue; + std::vector< Packet * > circular_buffer; + int num_working; // Number of workers still running + const int num_slots; // max packets in circulation + pthread_mutex_t imutex; + pthread_cond_t iav_or_eof; // input packet available or splitter done + pthread_mutex_t omutex; + pthread_cond_t oav_or_exit; // output packet available or all workers exited + bool eof; // splitter done + +public: + Packet_courier( const int num_workers, const int slots ) + : icheck_counter( 0 ), iwait_counter( 0 ), + ocheck_counter( 0 ), owait_counter( 0 ), + receive_id( 0 ), deliver_id( 0 ), + slot_tally( slots ), circular_buffer( slots, (Packet *) 0 ), + num_working( num_workers ), num_slots( slots ), eof( false ) + { xinit( &iav_or_eof, &imutex ); xinit( &oav_or_exit, &omutex ); } + + ~Packet_courier() + { xdestroy( &iav_or_eof, &imutex ); xdestroy( &oav_or_exit, &omutex ); } + + // make a packet with data received from splitter + void receive_packet( uint8_t * const data, const int size ) + { + Packet * ipacket = new Packet; + ipacket->id = receive_id++; + ipacket->size = size; + ipacket->data = data; + slot_tally.get_slot(); // wait for a free slot + xlock( &imutex ); + packet_queue.push( ipacket ); + xsignal( &iav_or_eof ); + xunlock( &imutex ); + } + + // distribute a packet to a worker + Packet * distribute_packet() + { + Packet * ipacket = 0; + xlock( &imutex ); + ++icheck_counter; + while( packet_queue.empty() && !eof ) + { + ++iwait_counter; + xwait( &iav_or_eof, &imutex ); + } + if( !packet_queue.empty() ) + { + ipacket = packet_queue.front(); + packet_queue.pop(); + } + xunlock( &imutex ); + if( ipacket == 0 ) + { + // Notify muxer when last worker exits + xlock( &omutex ); + if( --num_working == 0 ) + xsignal( &oav_or_exit ); + xunlock( &omutex ); + } + return ipacket; + } + + // collect a packet from a worker + void collect_packet( Packet * const opacket ) + { + xlock( &omutex ); + // id collision shouldn't happen + assert( circular_buffer[opacket->id%num_slots] == 0 ); + // Merge packet into circular buffer + circular_buffer[opacket->id%num_slots] = opacket; + if( opacket->id == deliver_id ) xsignal( &oav_or_exit ); + xunlock( &omutex ); + } + + // deliver a packet to muxer + Packet * deliver_packet() + { + xlock( &omutex ); + ++ocheck_counter; + while( circular_buffer[deliver_id%num_slots] == 0 && num_working > 0 ) + { + ++owait_counter; + xwait( &oav_or_exit, &omutex ); + } + Packet * opacket = circular_buffer[deliver_id%num_slots]; + circular_buffer[deliver_id%num_slots] = 0; + ++deliver_id; + xunlock( &omutex ); + if( opacket != 0 ) + slot_tally.leave_slot(); // return a slot to the tally + return opacket; + } + + void finish() // splitter has no more packets to send + { + xlock( &imutex ); + eof = true; + xbroadcast( &iav_or_eof ); + xunlock( &imutex ); + } + + bool finished() // all packets delivered to muxer + { + if( !slot_tally.all_free() || !eof || !packet_queue.empty() || + num_working != 0 ) return false; + for( int i = 0; i < num_slots; ++i ) + if( circular_buffer[i] != 0 ) return false; + return true; + } + + const Slot_tally & tally() const { return slot_tally; } + }; + + +struct Splitter_arg + { + Packet_courier * courier; + int infd; + int data_size; + }; + + + // split data from input file into chunks and pass them to + // courier for packaging and distribution to workers. +void * splitter( void * arg ) + { + const Splitter_arg & tmp = *(Splitter_arg *)arg; + Packet_courier & courier = *tmp.courier; + const int infd = tmp.infd; + const int data_size = tmp.data_size; + + for( bool first_post = true; ; first_post = false ) + { + uint8_t * data = new( std::nothrow ) uint8_t[data_size]; + if( data == 0 ) { show_error( "not enough memory" ); fatal(); } + const int size = readblock( infd, data, data_size ); + if( size != data_size && errno ) { show_error( "read", errno ); fatal(); } + + if( size > 0 || first_post ) // first packet can be empty + { + in_size += size; + courier.receive_packet( data, size ); + } + else + { + delete[] data; + courier.finish(); // no more packets to send + break; + } + } + return 0; + } + + +struct Worker_arg + { + int dictionary_size; + int match_len_limit; + Packet_courier * courier; + }; + + + // get packets from courier, replace their contents, and return + // them to courier. +void * worker( void * arg ) + { + const Worker_arg & tmp = *(Worker_arg *)arg; + const int dictionary_size = tmp.dictionary_size; + const int match_len_limit = tmp.match_len_limit; + Packet_courier & courier = *tmp.courier; + + while( true ) + { + Packet * packet = courier.distribute_packet(); + if( packet == 0 ) break; // no more packets to process + + const int compr_size = 42 + packet->size + ( ( packet->size + 7 ) / 8 ); + uint8_t * const new_data = new( std::nothrow ) uint8_t[compr_size]; + if( new_data == 0 ) { show_error( "not enough memory" ); fatal(); } + const int dict_size = std::max( LZ_min_dictionary_size(), + std::min( dictionary_size, packet->size ) ); + LZ_Encoder * const encoder = + LZ_compress_open( dict_size, match_len_limit, LLONG_MAX ); + if( !encoder || LZ_compress_errno( encoder ) != LZ_ok ) + { show_error( "LZ_compress_open failed." ); fatal(); } + + int written = 0; + int new_size = 0; + while( true ) + { + if( LZ_compress_write_size( encoder ) > 0 ) + { + if( written < packet->size ) + { + const int wr = LZ_compress_write( encoder, packet->data + written, + packet->size - written ); + if( wr < 0 ) { show_error( "LZ_compress_write failed." ); fatal(); } + written += wr; + } + if( written >= packet->size ) LZ_compress_finish( encoder ); + } + const int rd = LZ_compress_read( encoder, new_data + new_size, + compr_size - new_size ); + if( rd < 0 ) { show_error( "LZ_compress_read failed." ); fatal(); } + new_size += rd; + assert( new_size <= compr_size ); + if( LZ_compress_finished( encoder ) == 1 ) break; + } + + if( LZ_compress_close( encoder ) < 0 ) + { show_error( "LZ_compress_close failed." ); fatal(); } + + delete[] packet->data; + packet->size = new_size; + packet->data = new_data; + courier.collect_packet( packet ); + } + return 0; + } + + + // get from courier the processed and sorted packets, and write + // their contents to the output file. +void muxer( Packet_courier & courier, const int outfd ) + { + while( true ) + { + Packet * opacket = courier.deliver_packet(); + if( opacket == 0 ) break; // queue is empty. all workers exited + + out_size += opacket->size; + + if( outfd >= 0 ) + { + const int wr = writeblock( outfd, opacket->data, opacket->size ); + if( wr != opacket->size ) + { show_error( "write", errno ); fatal(); } + } + delete[] opacket->data; + delete opacket; + } + } + +} // end namespace + + + // init the courier, then start the splitter and the workers and + // call the muxer. +int compress( const int data_size, const int dictionary_size, + const int match_len_limit, const int num_workers, + const int num_slots, const int infd, const int outfd, + const int debug_level ) + { + in_size = 0; + out_size = 0; + Packet_courier courier( num_workers, num_slots ); + + Splitter_arg splitter_arg; + splitter_arg.courier = &courier; + splitter_arg.infd = infd; + splitter_arg.data_size = data_size; + + pthread_t splitter_thread; + xcreate( &splitter_thread, splitter, &splitter_arg ); + + Worker_arg worker_arg; + worker_arg.dictionary_size = dictionary_size; + worker_arg.match_len_limit = match_len_limit; + worker_arg.courier = &courier; + + pthread_t * worker_threads = new( std::nothrow ) pthread_t[num_workers]; + if( worker_threads == 0 ) + { show_error( "not enough memory" ); fatal(); } + for( int i = 0; i < num_workers; ++i ) + xcreate( &worker_threads[i], worker, &worker_arg ); + + muxer( courier, outfd ); + + for( int i = num_workers - 1; i >= 0; --i ) + xjoin(worker_threads[i]); + delete[] worker_threads; worker_threads = 0; + + xjoin( splitter_thread ); + + if( verbosity >= 1 ) + { + if( in_size <= 0 || out_size <= 0 ) + std::fprintf( stderr, "no data compressed.\n" ); + else + std::fprintf( stderr, "%6.3f:1, %6.3f bits/byte, " + "%5.2f%% saved, %lld in, %lld out.\n", + (double)in_size / out_size, + ( 8.0 * out_size ) / in_size, + 100.0 * ( 1.0 - ( (double)out_size / in_size ) ), + in_size, out_size ); + } + + if( debug_level & 1 ) + std::fprintf( stderr, + "splitter tried to send a packet %8lu times\n" + "splitter had to wait %8lu times\n" + "any worker tried to consume from splitter %8lu times\n" + "any worker had to wait %8lu times\n" + "muxer tried to consume from workers %8lu times\n" + "muxer had to wait %8lu times\n", + courier.tally().check_counter, + courier.tally().wait_counter, + courier.icheck_counter, + courier.iwait_counter, + courier.ocheck_counter, + courier.owait_counter ); + + assert( courier.finished() ); + return 0; + } |