/****************************************************************************** * $Id$ * * Copyright (c) 2005-2007 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. *****************************************************************************/ static void updateInterest( tr_torrent_t * tor, tr_peer_t * peer ); /*********************************************************************** * peerInit *********************************************************************** * Allocates a new tr_peer_t and returns a pointer to it. **********************************************************************/ static tr_peer_t * peerInit() { tr_peer_t * peer; peer = calloc( sizeof( tr_peer_t ), 1 ); peertreeInit( &peer->sentPeers ); peer->amChoking = 1; peer->peerChoking = 1; peer->date = tr_date(); peer->keepAlive = peer->date; peer->download = tr_rcInit(); peer->upload = tr_rcInit(); return peer; } static int peerCmp( tr_peer_t * peer1, tr_peer_t * peer2 ) { /* Wait until we got the peers' ids */ if( peer1->status <= PEER_STATUS_HANDSHAKE || peer2->status <= PEER_STATUS_HANDSHAKE ) { return 1; } return memcmp( peer1->id, peer2->id, 20 ); } static int checkPeer( tr_peer_t * peer ) { tr_torrent_t * tor = peer->tor; uint64_t now; int ret; int peersWanted; int idleTime; int sizeOfRange; now = tr_date(); idleTime = now - peer->date; if ( idleTime > MIN_CON_TIMEOUT ) /* get rid of clients with timeout less than 8 seconds and saves on a check later */ { peersWanted = TR_MAX_PEER_COUNT * PERCENT_PEER_WANTED / 100; if ( tor->peerCount > peersWanted ) { /* strict requirements for connecting timeout */ if ( peer->status < PEER_STATUS_CONNECTED ) { peer_dbg( "connection timeout, idled %i seconds", (idleTime / 1000) ); return TR_ERROR; } /* strict requirements for idle uploading timeout */ if ( peer->inRequestCount && idleTime > MIN_UPLOAD_IDLE ) { peer_dbg( "idle uploader timeout, idled %i seconds", (idleTime / 1000) ); return TR_ERROR; } /* strict requirements for keep-alive timeout */ if ( idleTime > MIN_KEEP_ALIVE ) { peer_dbg( "peer timeout, idled %i seconds", (idleTime / 1000) ); return TR_ERROR; } } else /* if we are tight for peers be more relaxed on enforcing timeouts, basic equation min + ((max-min) / sizeOfRange) * tor->peerCount */ { sizeOfRange = TR_MAX_PEER_COUNT - peersWanted; /* relax requirements for connecting timeout */ if ( peer->status < PEER_STATUS_CONNECTED && idleTime > MIN_CON_TIMEOUT + (MAX_CON_TIMEOUT - MIN_CON_TIMEOUT) * tor->peerCount / sizeOfRange) { peer_dbg( "connection timeout, idled %i seconds", (idleTime / 1000) ); return TR_ERROR; } /* relax requirements for idle uploading timeout */ if ( peer->inRequestCount && idleTime > MIN_UPLOAD_IDLE + (MAX_UPLOAD_IDLE - MIN_UPLOAD_IDLE) * tor->peerCount / sizeOfRange) { peer_dbg( "idle uploader timeout, idled %i seconds", (idleTime / 1000) ); return TR_ERROR; } /* relax requirements for keep-alive timeout */ if ( idleTime > MIN_KEEP_ALIVE + (MAX_KEEP_ALIVE - MIN_KEEP_ALIVE) * tor->peerCount / sizeOfRange) { peer_dbg( "peer timeout, idled %i seconds", (idleTime / 1000) ); return TR_ERROR; } } } if( PEER_STATUS_CONNECTED == peer->status ) { /* Send keep-alive every 1 minute and 45 seconds */ if( now > peer->keepAlive + 105000 ) { sendKeepAlive( peer ); peer->keepAlive = now; } /* Resend extended handshake if our public port changed */ if( EXTENDED_HANDSHAKE == peer->extStatus && tor->publicPort != peer->advertisedPort ) { sendExtended( tor, peer, EXTENDED_HANDSHAKE_ID ); } /* Send peer list */ if( !peer->private && 0 < peer->pexStatus ) { if( 0 == peer->lastPex ) { /* randomize time when first pex message is sent */ peer->lastPex = now - 1000 * tr_rand( PEX_INTERVAL ); } if( now > peer->lastPex + 1000 * PEX_INTERVAL ) { if( EXTENDED_HANDSHAKE == peer->extStatus ) { ret = sendExtended( tor, peer, EXTENDED_PEX_ID ); } else if( peer->azproto ) { ret = sendAZPex( tor, peer ); } else { assert( 0 ); ret = TR_ERROR; } if( ret ) { return ret; } peer->lastPex = now + 1000 * ( PEX_INTERVAL + tr_rand( PEX_INTERVAL / 10 ) ); } } } return TR_OK; } /*********************************************************************** * isInteresting *********************************************************************** * Returns 1 if 'peer' has at least one piece that we haven't completed, * or 0 otherwise. **********************************************************************/ static int isInteresting( tr_torrent_t * tor, tr_peer_t * peer ) { int ii; tr_bitfield_t * bitfield = tr_cpPieceBitfield( tor->completion ); if( !peer->bitfield ) { /* We don't know what this peer has */ return 0; } assert( bitfield->len == peer->bitfield->len ); for( ii = 0; ii < bitfield->len; ii++ ) { if( ( peer->bitfield->bits[ii] & ~(bitfield->bits[ii]) ) & 0xFF ) { return 1; } } return 0; } static void updateInterest( tr_torrent_t * tor, tr_peer_t * peer ) { int interested = isInteresting( tor, peer ); if( interested && !peer->amInterested ) { sendInterest( peer, 1 ); } if( !interested && peer->amInterested ) { sendInterest( peer, 0 ); } } /*********************************************************************** * chooseBlock *********************************************************************** * At this point, we know the peer has at least one block we have an * interest in. If he has more than one, we choose which one we are * going to ask first. * Our main goal is to complete pieces, so we look the pieces which are * missing less blocks. **********************************************************************/ static inline int chooseBlock( tr_torrent_t * tor, tr_peer_t * peer ) { tr_info_t * inf = &tor->info; int i; int missingBlocks, minMissing; int poolSize, * pool; int block, minDownloading; /* Choose a piece */ pool = malloc( inf->pieceCount * sizeof( int ) ); poolSize = 0; minMissing = tor->blockCount + 1; for( i = 0; i < inf->pieceCount; i++ ) { missingBlocks = tr_cpMissingBlocksForPiece( tor->completion, i ); if( missingBlocks < 1 ) { /* We already have or are downloading all blocks */ continue; } if( !tr_bitfieldHas( peer->bitfield, i ) ) { /* The peer doesn't have this piece */ continue; } if( peer->banfield && tr_bitfieldHas( peer->banfield, i ) ) { /* The peer is banned for this piece */ continue; } /* We are interested in this piece, remember it */ if( missingBlocks < minMissing ) { minMissing = missingBlocks; poolSize = 0; } if( missingBlocks <= minMissing ) { pool[poolSize++] = i; } } if( poolSize ) { /* All pieces in 'pool' have 'minMissing' missing blocks. Find the rarest ones. */ tr_bitfield_t * bitfield; int piece; int min, foo, j; int * pool2; int pool2Size; pool2 = malloc( poolSize * sizeof( int ) ); pool2Size = 0; min = TR_MAX_PEER_COUNT + 1; for( i = 0; i < poolSize; i++ ) { foo = 0; for( j = 0; j < tor->peerCount; j++ ) { bitfield = tor->peers[j]->bitfield; if( bitfield && tr_bitfieldHas( bitfield, pool[i] ) ) { foo++; } } if( foo < min ) { min = foo; pool2Size = 0; } if( foo <= min ) { pool2[pool2Size++] = pool[i]; } } free( pool ); if( pool2Size < 1 ) { /* Shouldn't happen */ free( pool2 ); return -1; } /* All pieces in pool2 have the same number of missing blocks, and are availabme from the same number of peers. Pick a random one */ piece = pool2[tr_rand(pool2Size)]; free( pool2 ); /* Pick a block in this piece */ block = tr_cpMissingBlockInPiece( tor->completion, piece ); goto check; } free( pool ); /* "End game" mode */ minDownloading = 255; block = -1; for( i = 0; i < inf->pieceCount; i++ ) { int downloaders, block2; if( !tr_bitfieldHas( peer->bitfield, i ) ) { /* The peer doesn't have this piece */ continue; } if( peer->banfield && tr_bitfieldHas( peer->banfield, i ) ) { /* The peer is banned for this piece */ continue; } if( tr_cpPieceIsComplete( tor->completion, i ) ) { /* We already have it */ continue; } block2 = tr_cpMostMissingBlockInPiece( tor->completion, i, &downloaders ); if( block2 > -1 && downloaders < minDownloading ) { block = block2; minDownloading = downloaders; } } check: if( block < 0 ) { /* Shouldn't happen */ return -1; } for( i = 0; i < peer->inRequestCount; i++ ) { tr_request_t * r; r = &peer->inRequests[i]; if( tr_block( r->index, r->begin ) == block ) { /* We are already asking this peer for this block */ return -1; } } return block; }