/****************************************************************************** * $Id$ * * Copyright (c) 2005-2006 Transmission authors and contributors * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the "Software"), * to deal in the Software without restriction, including without limitation * the rights to use, copy, modify, merge, publish, distribute, sublicense, * and/or sell copies of the Software, and to permit persons to whom the * Software is furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER * DEALINGS IN THE SOFTWARE. *****************************************************************************/ /*********************************************************************** * Fast resume *********************************************************************** * The format of the resume file is a 4 byte format version (currently 1), * followed by several variable-sized blocks of data. Each block is * preceded by a 1 byte ID and a 4 byte length. The currently recognized * IDs are defined below by the FR_ID_* macros. The length does not include * the 5 bytes for the ID and length. * * The name of the resume file is "resume.". * * All values are stored in the native endianness. Moving a * libtransmission resume file from an architecture to another will not * work, although it will not hurt either (the version will be wrong, * so the resume file will not be read). **********************************************************************/ /* progress data: * - 4 bytes * number of files: mtimes of files * - 1 bit * number of blocks: whether we have the block or not * - 4 bytes * number of pieces (byte aligned): the pieces that have * been completed or started in each slot */ #define FR_ID_PROGRESS 0x01 /* number of bytes downloaded */ #define FR_ID_DOWNLOADED 0x02 /* number of bytes uploaded */ #define FR_ID_UPLOADED 0x03 /* IPs and ports of connectable peers */ #define FR_ID_PEERS 0x04 /* macros for the length of various pieces of the progress data */ #define FR_MTIME_LEN( t ) \ ( 4 * (t)->info.fileCount ) #define FR_BLOCK_BITFIELD_LEN( t ) \ ( ( (t)->blockCount + 7 ) / 8 ) #define FR_SLOTPIECE_LEN( t ) \ ( 4 * (t)->info.pieceCount ) #define FR_PROGRESS_LEN( t ) \ ( FR_MTIME_LEN( t ) + FR_BLOCK_BITFIELD_LEN( t ) + FR_SLOTPIECE_LEN( t ) ) static char * fastResumeFileName( tr_io_t * io ) { char * ret; asprintf( &ret, "%s/resume.%s", tr_getCacheDirectory(), io->tor->info.hashString ); return ret; } static int fastResumeMTimes( tr_io_t * io, int * tab ) { tr_torrent_t * tor = io->tor; tr_info_t * inf = &tor->info; int i; char * path; struct stat sb; for( i = 0; i < inf->fileCount; i++ ) { asprintf( &path, "%s/%s", tor->destination, inf->files[i].name ); if( stat( path, &sb ) ) { tab[i] = 0xFFFFFFFF; } else if( !S_ISREG( sb.st_mode ) ) { #ifdef SYS_DARWIN tab[i] = ( sb.st_mtimespec.tv_sec & 0x7FFFFFFF ); #else tab[i] = ( sb.st_mtime & 0x7FFFFFFF ); #endif } else { /* Empty folder */ tab[i] = 0; } free( path ); } return 0; } static inline void fastResumeWriteData( uint8_t id, void * data, uint32_t size, uint32_t count, FILE * file ) { uint32_t datalen = size * count; fwrite( &id, 1, 1, file ); fwrite( &datalen, 4, 1, file ); fwrite( data, size, count, file ); } static void fastResumeSave( tr_io_t * io ) { tr_torrent_t * tor = io->tor; FILE * file; int version = 1; char * path; uint8_t * buf; uint64_t total; int size; buf = malloc( FR_PROGRESS_LEN( tor ) ); /* Get file sizes */ if( fastResumeMTimes( io, (int*)buf ) ) { free( buf ); return; } /* Create/overwrite the resume file */ path = fastResumeFileName( io ); if( !( file = fopen( path, "w" ) ) ) { tr_err( "Could not open '%s' for writing", path ); free( buf ); free( path ); return; } /* Write format version */ fwrite( &version, 4, 1, file ); /* Build and copy the bitfield for blocks */ memcpy(buf + FR_MTIME_LEN( tor ), tr_cpBlockBitfield( tor->completion ), FR_BLOCK_BITFIELD_LEN( tor ) ); /* Copy the 'slotPiece' table */ memcpy(buf + FR_MTIME_LEN( tor ) + FR_BLOCK_BITFIELD_LEN( tor ), io->slotPiece, FR_SLOTPIECE_LEN( tor ) ); /* Write progress data */ fastResumeWriteData( FR_ID_PROGRESS, buf, 1, FR_PROGRESS_LEN( tor ), file ); free( buf ); /* Write download and upload totals */ total = tor->downloadedCur + tor->downloadedPrev; fastResumeWriteData( FR_ID_DOWNLOADED, &total, 8, 1, file ); total = tor->uploadedCur + tor->uploadedPrev; fastResumeWriteData( FR_ID_UPLOADED, &total, 8, 1, file ); /* Write IPs and ports of connectable peers, if any */ if( ( size = tr_peerGetConnectable( tor, &buf ) ) > 0 ) { fastResumeWriteData( FR_ID_PEERS, buf, size, 1, file ); free( buf ); } fclose( file ); tr_dbg( "Resume file '%s' written", path ); free( path ); } static int fastResumeLoadProgress( tr_io_t * io, FILE * file ) { tr_torrent_t * tor = io->tor; tr_info_t * inf = &tor->info; int * fileMTimes; int i, j; uint8_t * buf; size_t len; len = FR_PROGRESS_LEN( tor ); buf = calloc( len, 1 ); if( len != fread( buf, 1, len, file ) ) { tr_inf( "Could not read from resume file" ); free( buf ); return 1; } /* Compare file mtimes */ fileMTimes = malloc( FR_MTIME_LEN( tor ) ); if( fastResumeMTimes( io, fileMTimes ) ) { free( buf ); free( fileMTimes ); return 1; } if( memcmp( fileMTimes, buf, FR_MTIME_LEN( tor ) ) ) { tr_inf( "File mtimes don't match" ); free( buf ); free( fileMTimes ); return 1; } free( fileMTimes ); /* Copy the bitfield for blocks and fill blockHave */ tr_cpBlockBitfieldSet( tor->completion, buf + FR_MTIME_LEN( tor ) ); /* Copy the 'slotPiece' table */ memcpy( io->slotPiece, buf + FR_MTIME_LEN( tor ) + FR_BLOCK_BITFIELD_LEN( tor ), FR_SLOTPIECE_LEN( tor ) ); free( buf ); /* Update io->pieceSlot, io->slotsUsed, and tor->bitfield */ io->slotsUsed = 0; for( i = 0; i < inf->pieceCount; i++ ) { io->pieceSlot[i] = -1; for( j = 0; j < inf->pieceCount; j++ ) { if( io->slotPiece[j] == i ) { // tr_dbg( "Has piece %d in slot %d", i, j ); io->pieceSlot[i] = j; io->slotsUsed = MAX( io->slotsUsed, j + 1 ); break; } } } // tr_dbg( "Slot used: %d", io->slotsUsed ); return 0; } static int fastResumeLoadOld( tr_io_t * io, FILE * file ) { tr_torrent_t * tor = io->tor; int size; /* Check the size */ size = 4 + FR_PROGRESS_LEN( tor ); fseek( file, 0, SEEK_END ); if( ftell( file ) != size ) { tr_inf( "Wrong size for resume file (%d bytes, %d expected)", (int)ftell( file ), size ); fclose( file ); return 1; } /* load progress information */ fseek( file, 4, SEEK_SET ); if( fastResumeLoadProgress( io, file ) ) { fclose( file ); return 1; } fclose( file ); tr_inf( "Fast resuming successful (version 0)" ); return 0; } static int fastResumeLoad( tr_io_t * io ) { tr_torrent_t * tor = io->tor; FILE * file; int version = 0; char * path; uint8_t id; uint32_t len; int ret; /* Open resume file */ path = fastResumeFileName( io ); if( !( file = fopen( path, "r" ) ) ) { tr_inf( "Could not open '%s' for reading", path ); free( path ); return 1; } tr_dbg( "Resume file '%s' loaded", path ); free( path ); /* Check format version */ fread( &version, 4, 1, file ); if( 0 == version ) { return fastResumeLoadOld( io, file ); } if( 1 != version ) { tr_inf( "Resume file has version %d, not supported", version ); fclose( file ); return 1; } ret = 1; /* read each block of data */ while( 1 == fread( &id, 1, 1, file ) && 1 == fread( &len, 4, 1, file ) ) { switch( id ) { case FR_ID_PROGRESS: /* read progress data */ if( (uint32_t)FR_PROGRESS_LEN( tor ) == len ) { if( fastResumeLoadProgress( io, file ) ) { if( feof( file ) || ferror( file ) ) { fclose( file ); return 1; } } else { ret = 0; } continue; } break; case FR_ID_DOWNLOADED: /* read download total */ if( 8 == len) { if( 1 != fread( &tor->downloadedPrev, 8, 1, file ) ) { fclose( file ); return 1; } continue; } break; case FR_ID_UPLOADED: /* read upload total */ if( 8 == len) { if( 1 != fread( &tor->uploadedPrev, 8, 1, file ) ) { fclose( file ); return 1; } continue; } break; case FR_ID_PEERS: { uint8_t * buf = malloc( len ); if( 1 != fread( buf, len, 1, file ) ) { free( buf ); fclose( file ); return 1; } tr_peerAddCompactMany( tor, buf, len ); free( buf ); continue; } default: break; } /* if we didn't read the data, seek past it */ tr_inf( "Skipping resume data type %02x, %u bytes", id, len ); fseek( file, len, SEEK_CUR ); } fclose( file ); if( !ret ) { tr_inf( "Fast resuming successful" ); } return ret; }