/*************************************************************************** * Copyright (C) 2005 by Joris Guisson * * joris.guisson@gmail.com * * * * 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, write to the * * Free Software Foundation, Inc., * * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. * ***************************************************************************/ #include #include #include #include #include #include #include #include #include "multicachechecker.h" using namespace bt; namespace ktdebug { MultiCacheChecker::MultiCacheChecker(bt::Torrent& tor): CacheChecker(tor) {} MultiCacheChecker::~MultiCacheChecker() {} void MultiCacheChecker::check(const TQString& cache_dir, const TQString& index) { loadIndex(index); TQString cache = cache_dir; if (!cache.endsWith(bt::DirSeparator())) cache += bt::DirSeparator(); Uint32 num_chunks = tor.getNumChunks(); Uint64 curr_file_off = 0; Uint32 curr_file = 0; Uint64 chunk_size = tor.getChunkSize(); Array buf((Uint32)tor.getChunkSize()); Uint32 num_ok = 0,num_not_ok = 0,num_not_downloaded = 0,extra_ok = 0; for (Uint32 i = 0;i < num_chunks;i++) { if (i % 100 == 0) Out() << "Checked " << i << " chunks" << endl; Uint64 size = chunk_size; if (i == tor.getNumChunks() - 1 && tor.getFileLength() % chunk_size != 0) size = tor.getFileLength() % chunk_size; //Out() << "Loading chunk (size = " << size << ")" << endl; Uint64 bytes_offset = 0; while (bytes_offset < size) { TorrentFile & tf = tor.getFile(curr_file); // Out() << "Current file : " << tf.getPath() << " (" << curr_file << ")" << endl; Uint64 to_read = size - bytes_offset; // Out() << "to_read = " << to_read << endl; if (to_read <= tf.getSize() - curr_file_off) { // we can read the chunk from this file File fptr; if (!fptr.open(cache + tf.getPath(),"rb")) throw Error(TQString("Cannot open %1 : %2").tqarg(cache + tf.getPath()).tqarg(fptr.errorString())); fptr.seek(File::BEGIN,curr_file_off); fptr.read(buf + bytes_offset,to_read); bytes_offset += to_read; curr_file_off += to_read; } else { // read partially the data which can be read to_read = tf.getSize() - curr_file_off; // Out() << "Partially reading " << to_read << endl; File fptr; if (!fptr.open(cache + tf.getPath(),"rb")) throw Error(TQString("Cannot open %1 : %2").tqarg(cache + tf.getPath()).tqarg(fptr.errorString())); fptr.seek(File::BEGIN,curr_file_off); fptr.read(buf + bytes_offset,to_read); bytes_offset += to_read; // update curr_file and offset curr_file++; curr_file_off = 0; } } // end file reading while // calculate hash and check it SHA1Hash h = SHA1Hash::generate(buf,size); if (h != tor.getHash(i)) { if (downloaded_chunks.count(i) == 0) { num_not_downloaded++; continue; } Out() << "Chunk " << i << " Failed :" << endl; Out() << "\tShould be : " << tor.getHash(i).toString() << endl; Out() << "\tIs : " << h.toString() << endl; num_not_ok++; failed_chunks.insert(i); } else { if (downloaded_chunks.count(i) == 0) { extra_ok++; extra_chunks.insert(i); continue; } num_ok++; } } Out() << "Cache Check Summary" << endl; Out() << "===================" << endl; Out() << "Extra Chunks : " << extra_ok << endl; Out() << "Chunks OK : " << num_ok << endl; Out() << "Chunks Not Downloaded : " << num_not_downloaded << endl; Out() << "Chunks Failed : " << num_not_ok << endl; } }