/* * This file Copyright (C) 2007-2008 Charles Kerr * * This file is licensed by the GPL version 2. Works owned by the * Transmission project are granted a special exemption to clause 2(b) * so that the bulk of its code can remain under the MIT license. * This exemption does not extend to derived works not owned by * the Transmission project. * * $Id$ */ #include #include #include /* INT_MAX */ #include #include #include #include #include "transmission.h" #include "bencode.h" #include "completion.h" #include "crypto.h" #include "inout.h" #include "iobuf.h" #ifdef WIN32 #include "net.h" /* for ECONN */ #endif #include "peer-io.h" #include "peer-mgr.h" #include "peer-mgr-private.h" #include "peer-msgs.h" #include "ratecontrol.h" #include "stats.h" #include "torrent.h" #include "trevent.h" #include "utils.h" /** *** **/ enum { BT_CHOKE = 0, BT_UNCHOKE = 1, BT_INTERESTED = 2, BT_NOT_INTERESTED = 3, BT_HAVE = 4, BT_BITFIELD = 5, BT_REQUEST = 6, BT_PIECE = 7, BT_CANCEL = 8, BT_PORT = 9, BT_SUGGEST = 13, BT_HAVE_ALL = 14, BT_HAVE_NONE = 15, BT_REJECT = 16, BT_LTEP = 20, LTEP_HANDSHAKE = 0, TR_LTEP_PEX = 1, MIN_CHOKE_PERIOD_SEC = ( 10 ), /* idle seconds before we send a keepalive */ KEEPALIVE_INTERVAL_SECS = 100, PEX_INTERVAL = ( 90 * 1000 ), /* msec between sendPex() calls */ PEER_PULSE_INTERVAL = ( 250 ), /* msec between peerPulse() calls */ MAX_QUEUE_SIZE = ( 100 ), /* how long an unsent request can stay queued before it's returned back to the peer-mgr's pool of requests */ QUEUED_REQUEST_TTL_SECS = 20, /* how long a sent request can stay queued before it's returned back to the peer-mgr's pool of requests */ SENT_REQUEST_TTL_SECS = 240, /* used in lowering the outMessages queue period */ IMMEDIATE_PRIORITY_INTERVAL_SECS = 0, HIGH_PRIORITY_INTERVAL_SECS = 2, LOW_PRIORITY_INTERVAL_SECS = 20, /* number of pieces to remove from the bitfield when * lazy bitfields are turned on */ LAZY_PIECE_COUNT = 26 }; /** *** REQUEST MANAGEMENT **/ enum { AWAITING_BT_LENGTH, AWAITING_BT_ID, AWAITING_BT_MESSAGE, AWAITING_BT_PIECE }; struct peer_request { uint32_t index; uint32_t offset; uint32_t length; time_t time_requested; }; static int compareRequest( const void * va, const void * vb ) { const struct peer_request * a = va; const struct peer_request * b = vb; if( a->index != b->index ) return a->index < b->index ? -1 : 1; if( a->offset != b->offset ) return a->offset < b->offset ? -1 : 1; if( a->length != b->length ) return a->length < b->length ? -1 : 1; return 0; } struct request_list { uint16_t count; uint16_t max; struct peer_request * requests; }; static const struct request_list REQUEST_LIST_INIT = { 0, 0, NULL }; static void reqListReserve( struct request_list * list, uint16_t max ) { if( list->max < max ) { list->max = max; list->requests = tr_renew( struct peer_request, list->requests, list->max ); } } static void reqListClear( struct request_list * list ) { tr_free( list->requests ); *list = REQUEST_LIST_INIT; } static void reqListCopy( struct request_list * dest, const struct request_list * src ) { dest->count = dest->max = src->count; dest->requests = tr_memdup( src->requests, dest->count * sizeof( struct peer_request ) ); } static void reqListRemoveOne( struct request_list * list, int i ) { assert( 0 <= i && i < list->count ); memmove( &list->requests[i], &list->requests[i + 1], sizeof( struct peer_request ) * ( --list->count - i ) ); } static void reqListAppend( struct request_list * list, const struct peer_request * req ) { if( ++list->count >= list->max ) reqListReserve( list, list->max + 8 ); list->requests[list->count - 1] = *req; } static int reqListPop( struct request_list * list, struct peer_request * setme ) { int success; if( !list->count ) success = FALSE; else { *setme = list->requests[0]; reqListRemoveOne( list, 0 ); success = TRUE; } return success; } static int reqListFind( struct request_list * list, const struct peer_request * key ) { uint16_t i; for( i = 0; i < list->count; ++i ) if( !compareRequest( key, list->requests + i ) ) return i; return -1; } static int reqListRemove( struct request_list * list, const struct peer_request * key ) { int success; const int i = reqListFind( list, key ); if( i < 0 ) success = FALSE; else { reqListRemoveOne( list, i ); success = TRUE; } return success; } /** *** **/ /* this is raw, unchanged data from the peer regarding * the current message that it's sending us. */ struct tr_incoming { uint8_t id; uint32_t length; /* includes the +1 for id length */ struct peer_request blockReq; /* metadata for incoming blocks */ struct evbuffer * block; /* piece data for incoming blocks */ }; struct tr_peermsgs { tr_bool peerSentBitfield; tr_bool peerSupportsPex; tr_bool clientSentLtepHandshake; tr_bool peerSentLtepHandshake; uint8_t state; uint8_t ut_pex_id; uint16_t pexCount; uint16_t minActiveRequests; uint16_t maxActiveRequests; /* how long the outMessages batch should be allowed to grow before * it's flushed -- some messages (like requests >:) should be sent * very quickly; others aren't as urgent. */ int outMessagesBatchPeriod; tr_peer * info; tr_session * session; tr_torrent * torrent; tr_peerIo * io; tr_publisher_t * publisher; struct evbuffer * outMessages; /* all the non-piece messages */ struct request_list peerAskedFor; struct request_list clientAskedFor; struct request_list clientWillAskFor; tr_timer * pexTimer; time_t clientSentPexAt; time_t clientSentAnythingAt; /* when we started batching the outMessages */ time_t outMessagesBatchedAt; tr_bitfield * peerAllowedPieces; struct tr_incoming incoming; tr_pex * pex; }; /** *** **/ static void myDebug( const char * file, int line, const struct tr_peermsgs * msgs, const char * fmt, ... ) { FILE * fp = tr_getLog( ); if( fp ) { va_list args; char timestr[64]; struct evbuffer * buf = evbuffer_new( ); char * base = tr_basename( file ); evbuffer_add_printf( buf, "[%s] %s - %s [%s]: ", tr_getLogTimeStr( timestr, sizeof( timestr ) ), msgs->torrent->info.name, tr_peerIoGetAddrStr( msgs->io ), msgs->info->client ); va_start( args, fmt ); evbuffer_add_vprintf( buf, fmt, args ); va_end( args ); evbuffer_add_printf( buf, " (%s:%d)\n", base, line ); fwrite( EVBUFFER_DATA( buf ), 1, EVBUFFER_LENGTH( buf ), fp ); tr_free( base ); evbuffer_free( buf ); } } #define dbgmsg( msgs, ... ) \ do { \ if( tr_deepLoggingIsActive( ) ) \ myDebug( __FILE__, __LINE__, msgs, __VA_ARGS__ ); \ } while( 0 ) /** *** **/ static void pokeBatchPeriod( tr_peermsgs * msgs, int interval ) { if( msgs->outMessagesBatchPeriod > interval ) { msgs->outMessagesBatchPeriod = interval; dbgmsg( msgs, "lowering batch interval to %d seconds", interval ); } } static void protocolSendRequest( tr_peermsgs * msgs, const struct peer_request * req ) { tr_peerIo * io = msgs->io; struct evbuffer * out = msgs->outMessages; tr_peerIoWriteUint32( io, out, sizeof( uint8_t ) + 3 * sizeof( uint32_t ) ); tr_peerIoWriteUint8 ( io, out, BT_REQUEST ); tr_peerIoWriteUint32( io, out, req->index ); tr_peerIoWriteUint32( io, out, req->offset ); tr_peerIoWriteUint32( io, out, req->length ); dbgmsg( msgs, "requesting %u:%u->%u... outMessage size is now %d", req->index, req->offset, req->length, (int)EVBUFFER_LENGTH( out ) ); pokeBatchPeriod( msgs, HIGH_PRIORITY_INTERVAL_SECS ); } static void protocolSendCancel( tr_peermsgs * msgs, const struct peer_request * req ) { tr_peerIo * io = msgs->io; struct evbuffer * out = msgs->outMessages; tr_peerIoWriteUint32( io, out, sizeof( uint8_t ) + 3 * sizeof( uint32_t ) ); tr_peerIoWriteUint8 ( io, out, BT_CANCEL ); tr_peerIoWriteUint32( io, out, req->index ); tr_peerIoWriteUint32( io, out, req->offset ); tr_peerIoWriteUint32( io, out, req->length ); dbgmsg( msgs, "cancelling %u:%u->%u... outMessage size is now %d", req->index, req->offset, req->length, (int)EVBUFFER_LENGTH( out ) ); pokeBatchPeriod( msgs, IMMEDIATE_PRIORITY_INTERVAL_SECS ); } static void protocolSendHave( tr_peermsgs * msgs, uint32_t index ) { tr_peerIo * io = msgs->io; struct evbuffer * out = msgs->outMessages; tr_peerIoWriteUint32( io, out, sizeof( uint8_t ) + sizeof( uint32_t ) ); tr_peerIoWriteUint8 ( io, out, BT_HAVE ); tr_peerIoWriteUint32( io, out, index ); dbgmsg( msgs, "sending Have %u.. outMessage size is now %d", index, (int)EVBUFFER_LENGTH( out ) ); pokeBatchPeriod( msgs, LOW_PRIORITY_INTERVAL_SECS ); } static void protocolSendChoke( tr_peermsgs * msgs, int choke ) { tr_peerIo * io = msgs->io; struct evbuffer * out = msgs->outMessages; tr_peerIoWriteUint32( io, out, sizeof( uint8_t ) ); tr_peerIoWriteUint8 ( io, out, choke ? BT_CHOKE : BT_UNCHOKE ); dbgmsg( msgs, "sending %s... outMessage size is now %d", ( choke ? "Choke" : "Unchoke" ), (int)EVBUFFER_LENGTH( out ) ); pokeBatchPeriod( msgs, IMMEDIATE_PRIORITY_INTERVAL_SECS ); } /** *** EVENTS **/ static const tr_peer_event blankEvent = { 0, 0, 0, 0, 0.0f, 0, 0 }; static void publish( tr_peermsgs * msgs, tr_peer_event * e ) { tr_publisherPublish( msgs->publisher, msgs->info, e ); } static void fireError( tr_peermsgs * msgs, int err ) { tr_peer_event e = blankEvent; e.eventType = TR_PEER_ERROR; e.err = err; publish( msgs, &e ); } static void fireNeedReq( tr_peermsgs * msgs ) { tr_peer_event e = blankEvent; e.eventType = TR_PEER_NEED_REQ; publish( msgs, &e ); } static void firePeerProgress( tr_peermsgs * msgs ) { tr_peer_event e = blankEvent; e.eventType = TR_PEER_PEER_PROGRESS; e.progress = msgs->info->progress; publish( msgs, &e ); } static void fireGotBlock( tr_peermsgs * msgs, const struct peer_request * req ) { tr_peer_event e = blankEvent; e.eventType = TR_PEER_CLIENT_GOT_BLOCK; e.pieceIndex = req->index; e.offset = req->offset; e.length = req->length; publish( msgs, &e ); } static void fireClientGotData( tr_peermsgs * msgs, uint32_t length, int wasPieceData ) { tr_peer_event e = blankEvent; e.length = length; e.eventType = TR_PEER_CLIENT_GOT_DATA; e.wasPieceData = wasPieceData; publish( msgs, &e ); } static void firePeerGotData( tr_peermsgs * msgs, uint32_t length, int wasPieceData ) { tr_peer_event e = blankEvent; e.length = length; e.eventType = TR_PEER_PEER_GOT_DATA; e.wasPieceData = wasPieceData; publish( msgs, &e ); } static void fireCancelledReq( tr_peermsgs * msgs, const struct peer_request * req ) { tr_peer_event e = blankEvent; e.eventType = TR_PEER_CANCEL; e.pieceIndex = req->index; e.offset = req->offset; e.length = req->length; publish( msgs, &e ); } /** *** INTEREST **/ static int isPieceInteresting( const tr_peermsgs * peer, tr_piece_index_t piece ) { const tr_torrent * torrent = peer->torrent; return ( !torrent->info.pieces[piece].dnd ) /* we want it */ && ( !tr_cpPieceIsComplete( torrent->completion, piece ) ) /* !have */ && ( tr_bitfieldHas( peer->info->have, piece ) ); /* peer has it */ } /* "interested" means we'll ask for piece data if they unchoke us */ static int isPeerInteresting( const tr_peermsgs * msgs ) { tr_piece_index_t i; const tr_torrent * torrent; const tr_bitfield * bitfield; const int clientIsSeed = tr_torrentIsSeed( msgs->torrent ); if( clientIsSeed ) return FALSE; if( !tr_torrentIsPieceTransferAllowed( msgs->torrent, TR_PEER_TO_CLIENT ) ) return FALSE; torrent = msgs->torrent; bitfield = tr_cpPieceBitfield( torrent->completion ); if( !msgs->info->have ) return TRUE; assert( bitfield->byteCount == msgs->info->have->byteCount ); for( i = 0; i < torrent->info.pieceCount; ++i ) if( isPieceInteresting( msgs, i ) ) return TRUE; return FALSE; } static void sendInterest( tr_peermsgs * msgs, int weAreInterested ) { struct evbuffer * out = msgs->outMessages; assert( msgs ); assert( weAreInterested == 0 || weAreInterested == 1 ); msgs->info->clientIsInterested = weAreInterested; dbgmsg( msgs, "Sending %s", weAreInterested ? "Interested" : "Not Interested" ); tr_peerIoWriteUint32( msgs->io, out, sizeof( uint8_t ) ); tr_peerIoWriteUint8 ( msgs->io, out, weAreInterested ? BT_INTERESTED : BT_NOT_INTERESTED ); pokeBatchPeriod( msgs, HIGH_PRIORITY_INTERVAL_SECS ); dbgmsg( msgs, "outMessage size is now %d", (int)EVBUFFER_LENGTH( out ) ); } static void updateInterest( tr_peermsgs * msgs ) { const int i = isPeerInteresting( msgs ); if( i != msgs->info->clientIsInterested ) sendInterest( msgs, i ); if( i ) fireNeedReq( msgs ); } static void cancelAllRequestsToClient( tr_peermsgs * msgs ) { reqListClear( &msgs->peerAskedFor ); } void tr_peerMsgsSetChoke( tr_peermsgs * msgs, int choke ) { const time_t now = time( NULL ); const time_t fibrillationTime = now - MIN_CHOKE_PERIOD_SEC; assert( msgs ); assert( msgs->info ); assert( choke == 0 || choke == 1 ); if( msgs->info->chokeChangedAt > fibrillationTime ) { dbgmsg( msgs, "Not changing choke to %d to avoid fibrillation", choke ); } else if( msgs->info->peerIsChoked != choke ) { msgs->info->peerIsChoked = choke; if( choke ) cancelAllRequestsToClient( msgs ); protocolSendChoke( msgs, choke ); msgs->info->chokeChangedAt = now; } } /** *** **/ void tr_peerMsgsHave( tr_peermsgs * msgs, uint32_t index ) { protocolSendHave( msgs, index ); /* since we have more pieces now, we might not be interested in this peer */ updateInterest( msgs ); } /** *** **/ static int reqIsValid( const tr_peermsgs * peer, uint32_t index, uint32_t offset, uint32_t length ) { return tr_torrentReqIsValid( peer->torrent, index, offset, length ); } static int requestIsValid( const tr_peermsgs * msgs, const struct peer_request * req ) { return reqIsValid( msgs, req->index, req->offset, req->length ); } static void expireOldRequests( tr_peermsgs * msgs, const time_t now ) { int i; time_t oldestAllowed; struct request_list tmp = REQUEST_LIST_INIT; /* cancel requests that have been queued for too long */ oldestAllowed = now - QUEUED_REQUEST_TTL_SECS; reqListCopy( &tmp, &msgs->clientWillAskFor ); for( i = 0; i < tmp.count; ++i ) { const struct peer_request * req = &tmp.requests[i]; if( req->time_requested < oldestAllowed ) tr_peerMsgsCancel( msgs, req->index, req->offset, req->length ); } reqListClear( &tmp ); /* cancel requests that were sent too long ago */ oldestAllowed = now - SENT_REQUEST_TTL_SECS; reqListCopy( &tmp, &msgs->clientAskedFor ); for( i = 0; i < tmp.count; ++i ) { const struct peer_request * req = &tmp.requests[i]; if( req->time_requested < oldestAllowed ) tr_peerMsgsCancel( msgs, req->index, req->offset, req->length ); } reqListClear( &tmp ); } static void pumpRequestQueue( tr_peermsgs * msgs, const time_t now ) { const int max = msgs->maxActiveRequests; const int min = msgs->minActiveRequests; int sent = 0; int count = msgs->clientAskedFor.count; struct peer_request req; if( count > min ) return; if( msgs->info->clientIsChoked ) return; if( !tr_torrentIsPieceTransferAllowed( msgs->torrent, TR_PEER_TO_CLIENT ) ) return; while( ( count < max ) && reqListPop( &msgs->clientWillAskFor, &req ) ) { const tr_block_index_t block = _tr_block( msgs->torrent, req.index, req.offset ); assert( requestIsValid( msgs, &req ) ); assert( tr_bitfieldHas( msgs->info->have, req.index ) ); /* don't ask for it if we've already got it... this block may have * come in from a different peer after we cancelled a request for it */ if( !tr_cpBlockIsComplete( msgs->torrent->completion, block ) ) { protocolSendRequest( msgs, &req ); req.time_requested = now; reqListAppend( &msgs->clientAskedFor, &req ); ++count; ++sent; } } if( sent ) dbgmsg( msgs, "pump sent %d requests, now have %d active and %d queued", sent, msgs->clientAskedFor.count, msgs->clientWillAskFor.count ); if( count < max ) fireNeedReq( msgs ); } static int requestQueueIsFull( const tr_peermsgs * msgs ) { const int req_max = msgs->maxActiveRequests; return msgs->clientWillAskFor.count >= req_max; } tr_addreq_t tr_peerMsgsAddRequest( tr_peermsgs * msgs, uint32_t index, uint32_t offset, uint32_t length ) { struct peer_request req; assert( msgs ); assert( msgs->torrent ); assert( reqIsValid( msgs, index, offset, length ) ); /** *** Reasons to decline the request **/ /* don't send requests to choked clients */ if( msgs->info->clientIsChoked ) { dbgmsg( msgs, "declining request because they're choking us" ); return TR_ADDREQ_CLIENT_CHOKED; } /* peer doesn't have this piece */ if( !tr_bitfieldHas( msgs->info->have, index ) ) return TR_ADDREQ_MISSING; /* peer's queue is full */ if( requestQueueIsFull( msgs ) ) { dbgmsg( msgs, "declining request because we're full" ); return TR_ADDREQ_FULL; } /* have we already asked for this piece? */ req.index = index; req.offset = offset; req.length = length; if( reqListFind( &msgs->clientAskedFor, &req ) != -1 ) { dbgmsg( msgs, "declining because it's a duplicate" ); return TR_ADDREQ_DUPLICATE; } if( reqListFind( &msgs->clientWillAskFor, &req ) != -1 ) { dbgmsg( msgs, "declining because it's a duplicate" ); return TR_ADDREQ_DUPLICATE; } /** *** Accept this request **/ dbgmsg( msgs, "adding req for %"PRIu32":%"PRIu32"->%"PRIu32" to our `will request' list", index, offset, length ); req.time_requested = time( NULL ); reqListAppend( &msgs->clientWillAskFor, &req ); return TR_ADDREQ_OK; } static void cancelAllRequestsToPeer( tr_peermsgs * msgs ) { int i; struct request_list a = msgs->clientWillAskFor; struct request_list b = msgs->clientAskedFor; dbgmsg( msgs, "cancelling all requests to peer" ); msgs->clientAskedFor = REQUEST_LIST_INIT; msgs->clientWillAskFor = REQUEST_LIST_INIT; for( i=0; i 0 ); /* have we asked the peer for this piece? */ req.index = pieceIndex; req.offset = offset; req.length = length; /* if it's only in the queue and hasn't been sent yet, free it */ if( reqListRemove( &msgs->clientWillAskFor, &req ) ) { dbgmsg( msgs, "cancelling %"PRIu32":%"PRIu32"->%"PRIu32"\n", pieceIndex, offset, length ); fireCancelledReq( msgs, &req ); } /* if it's already been sent, send a cancel message too */ if( reqListRemove( &msgs->clientAskedFor, &req ) ) { dbgmsg( msgs, "cancelling %"PRIu32":%"PRIu32"->%"PRIu32"\n", pieceIndex, offset, length ); protocolSendCancel( msgs, &req ); fireCancelledReq( msgs, &req ); } } /** *** **/ static void sendLtepHandshake( tr_peermsgs * msgs ) { tr_benc val, *m; char * buf; int len; int pex; struct evbuffer * out = msgs->outMessages; if( msgs->clientSentLtepHandshake ) return; dbgmsg( msgs, "sending an ltep handshake" ); msgs->clientSentLtepHandshake = 1; /* decide if we want to advertise pex support */ if( !tr_torrentAllowsPex( msgs->torrent ) ) pex = 0; else if( msgs->peerSentLtepHandshake ) pex = msgs->peerSupportsPex ? 1 : 0; else pex = 1; tr_bencInitDict( &val, 4 ); tr_bencDictAddInt( &val, "e", msgs->session->encryptionMode != TR_CLEAR_PREFERRED ); tr_bencDictAddInt( &val, "p", tr_sessionGetPeerPort( msgs->session ) ); tr_bencDictAddStr( &val, "v", TR_NAME " " USERAGENT_PREFIX ); m = tr_bencDictAddDict( &val, "m", 1 ); if( pex ) tr_bencDictAddInt( m, "ut_pex", TR_LTEP_PEX ); buf = tr_bencSave( &val, &len ); tr_peerIoWriteUint32( msgs->io, out, 2 * sizeof( uint8_t ) + len ); tr_peerIoWriteUint8 ( msgs->io, out, BT_LTEP ); tr_peerIoWriteUint8 ( msgs->io, out, LTEP_HANDSHAKE ); tr_peerIoWriteBytes ( msgs->io, out, buf, len ); pokeBatchPeriod( msgs, IMMEDIATE_PRIORITY_INTERVAL_SECS ); dbgmsg( msgs, "outMessage size is now %d", (int)EVBUFFER_LENGTH( out ) ); /* cleanup */ tr_bencFree( &val ); tr_free( buf ); } static void parseLtepHandshake( tr_peermsgs * msgs, int len, struct evbuffer * inbuf ) { int64_t i; tr_benc val, * sub; uint8_t * tmp = tr_new( uint8_t, len ); tr_peerIoReadBytes( msgs->io, inbuf, tmp, len ); msgs->peerSentLtepHandshake = 1; if( tr_bencLoad( tmp, len, &val, NULL ) || val.type != TYPE_DICT ) { dbgmsg( msgs, "GET extended-handshake, couldn't get dictionary" ); tr_free( tmp ); return; } dbgmsg( msgs, "here is the handshake: [%*.*s]", len, len, tmp ); /* does the peer prefer encrypted connections? */ if( tr_bencDictFindInt( &val, "e", &i ) ) msgs->info->encryption_preference = i ? ENCRYPTION_PREFERENCE_YES : ENCRYPTION_PREFERENCE_NO; /* check supported messages for utorrent pex */ msgs->peerSupportsPex = 0; if( tr_bencDictFindDict( &val, "m", &sub ) ) { if( tr_bencDictFindInt( sub, "ut_pex", &i ) ) { msgs->ut_pex_id = (uint8_t) i; msgs->peerSupportsPex = msgs->ut_pex_id == 0 ? 0 : 1; dbgmsg( msgs, "msgs->ut_pex is %d", (int)msgs->ut_pex_id ); } } /* get peer's listening port */ if( tr_bencDictFindInt( &val, "p", &i ) ) { msgs->info->port = htons( (uint16_t)i ); dbgmsg( msgs, "msgs->port is now %hu", msgs->info->port ); } tr_bencFree( &val ); tr_free( tmp ); } static void parseUtPex( tr_peermsgs * msgs, int msglen, struct evbuffer * inbuf ) { int loaded = 0; uint8_t * tmp = tr_new( uint8_t, msglen ); tr_benc val; const tr_torrent * tor = msgs->torrent; const uint8_t * added; size_t added_len; tr_peerIoReadBytes( msgs->io, inbuf, tmp, msglen ); if( tr_torrentAllowsPex( tor ) && ( ( loaded = !tr_bencLoad( tmp, msglen, &val, NULL ) ) ) && tr_bencDictFindRaw( &val, "added", &added, &added_len ) ) { const uint8_t * added_f = NULL; tr_pex * pex; size_t i, n; size_t added_f_len = 0; tr_bencDictFindRaw( &val, "added.f", &added_f, &added_f_len ); pex = tr_peerMgrCompactToPex( added, added_len, added_f, added_f_len, &n ); for( i = 0; i < n; ++i ) tr_peerMgrAddPex( msgs->session->peerMgr, tor->info.hash, TR_PEER_FROM_PEX, pex + i ); tr_free( pex ); } if( loaded ) tr_bencFree( &val ); tr_free( tmp ); } static void sendPex( tr_peermsgs * msgs ); static void parseLtep( tr_peermsgs * msgs, int msglen, struct evbuffer * inbuf ) { uint8_t ltep_msgid; tr_peerIoReadUint8( msgs->io, inbuf, <ep_msgid ); msglen--; if( ltep_msgid == LTEP_HANDSHAKE ) { dbgmsg( msgs, "got ltep handshake" ); parseLtepHandshake( msgs, msglen, inbuf ); if( tr_peerIoSupportsLTEP( msgs->io ) ) { sendLtepHandshake( msgs ); sendPex( msgs ); } } else if( ltep_msgid == TR_LTEP_PEX ) { dbgmsg( msgs, "got ut pex" ); msgs->peerSupportsPex = 1; parseUtPex( msgs, msglen, inbuf ); } else { dbgmsg( msgs, "skipping unknown ltep message (%d)", (int)ltep_msgid ); evbuffer_drain( inbuf, msglen ); } } static int readBtLength( tr_peermsgs * msgs, struct evbuffer * inbuf, size_t inlen ) { uint32_t len; if( inlen < sizeof( len ) ) return READ_LATER; tr_peerIoReadUint32( msgs->io, inbuf, &len ); if( len == 0 ) /* peer sent us a keepalive message */ dbgmsg( msgs, "got KeepAlive" ); else { msgs->incoming.length = len; msgs->state = AWAITING_BT_ID; } return READ_NOW; } static int readBtMessage( tr_peermsgs * msgs, struct evbuffer * inbuf, size_t inlen ); static int readBtId( tr_peermsgs * msgs, struct evbuffer * inbuf, size_t inlen ) { uint8_t id; if( inlen < sizeof( uint8_t ) ) return READ_LATER; tr_peerIoReadUint8( msgs->io, inbuf, &id ); msgs->incoming.id = id; if( id == BT_PIECE ) { msgs->state = AWAITING_BT_PIECE; return READ_NOW; } else if( msgs->incoming.length != 1 ) { msgs->state = AWAITING_BT_MESSAGE; return READ_NOW; } else return readBtMessage( msgs, inbuf, inlen - 1 ); } static void updatePeerProgress( tr_peermsgs * msgs ) { msgs->info->progress = tr_bitfieldCountTrueBits( msgs->info->have ) / (float)msgs->torrent->info.pieceCount; dbgmsg( msgs, "peer progress is %f", msgs->info->progress ); updateInterest( msgs ); firePeerProgress( msgs ); } static void peerMadeRequest( tr_peermsgs * msgs, const struct peer_request * req ) { const int reqIsValid = requestIsValid( msgs, req ); const int clientHasPiece = reqIsValid && tr_cpPieceIsComplete( msgs->torrent->completion, req->index ); const int peerIsChoked = msgs->info->peerIsChoked; if( !reqIsValid ) /* bad request */ { dbgmsg( msgs, "rejecting an invalid request." ); } else if( !clientHasPiece ) /* we don't have it */ { dbgmsg( msgs, "rejecting request for a piece we don't have." ); } else if( peerIsChoked ) /* doesn't he know he's choked? */ { tr_peerMsgsSetChoke( msgs, 1 ); } else /* YAY */ { reqListAppend( &msgs->peerAskedFor, req ); } } static int messageLengthIsCorrect( const tr_peermsgs * msg, uint8_t id, uint32_t len ) { switch( id ) { case BT_CHOKE: case BT_UNCHOKE: case BT_INTERESTED: case BT_NOT_INTERESTED: case BT_HAVE_ALL: case BT_HAVE_NONE: return len == 1; case BT_HAVE: case BT_SUGGEST: case BT_BITFIELD: return len == ( msg->torrent->info.pieceCount + 7u ) / 8u + 1u; case BT_REQUEST: case BT_CANCEL: case BT_REJECT: return len == 13; case BT_PIECE: return len > 9 && len <= 16393; case BT_PORT: return len == 3; case BT_LTEP: return len >= 2; default: return FALSE; } } static int clientGotBlock( tr_peermsgs * msgs, const uint8_t * block, const struct peer_request * req ); static int readBtPiece( tr_peermsgs * msgs, struct evbuffer * inbuf, size_t inlen, size_t * setme_piece_bytes_read ) { struct peer_request * req = &msgs->incoming.blockReq; assert( EVBUFFER_LENGTH( inbuf ) >= inlen ); dbgmsg( msgs, "In readBtPiece" ); if( !req->length ) { if( inlen < 8 ) return READ_LATER; tr_peerIoReadUint32( msgs->io, inbuf, &req->index ); tr_peerIoReadUint32( msgs->io, inbuf, &req->offset ); req->length = msgs->incoming.length - 9; dbgmsg( msgs, "got incoming block header %u:%u->%u", req->index, req->offset, req->length ); return READ_NOW; } else { int err; /* read in another chunk of data */ const size_t nLeft = req->length - EVBUFFER_LENGTH( msgs->incoming.block ); size_t n = MIN( nLeft, inlen ); uint8_t * buf = tr_new( uint8_t, n ); assert( EVBUFFER_LENGTH( inbuf ) >= n ); tr_peerIoReadBytes( msgs->io, inbuf, buf, n ); evbuffer_add( msgs->incoming.block, buf, n ); fireClientGotData( msgs, n, TRUE ); *setme_piece_bytes_read += n; tr_free( buf ); dbgmsg( msgs, "got %d bytes for block %u:%u->%u ... %d remain", (int)n, req->index, req->offset, req->length, (int)( req->length - EVBUFFER_LENGTH( msgs->incoming.block ) ) ); if( EVBUFFER_LENGTH( msgs->incoming.block ) < req->length ) return READ_LATER; /* we've got the whole block ... process it */ err = clientGotBlock( msgs, EVBUFFER_DATA( msgs->incoming.block ), req ); /* cleanup */ evbuffer_drain( msgs->incoming.block, EVBUFFER_LENGTH( msgs->incoming.block ) ); req->length = 0; msgs->state = AWAITING_BT_LENGTH; if( !err ) return READ_NOW; else { fireError( msgs, err ); return READ_ERR; } } } static int readBtMessage( tr_peermsgs * msgs, struct evbuffer * inbuf, size_t inlen ) { uint32_t ui32; uint32_t msglen = msgs->incoming.length; const uint8_t id = msgs->incoming.id; const size_t startBufLen = EVBUFFER_LENGTH( inbuf ); --msglen; /* id length */ if( inlen < msglen ) return READ_LATER; dbgmsg( msgs, "got BT id %d, len %d, buffer size is %d", (int)id, (int)msglen, (int)inlen ); if( !messageLengthIsCorrect( msgs, id, msglen + 1 ) ) { dbgmsg( msgs, "bad packet - BT message #%d with a length of %d", (int)id, (int)msglen ); fireError( msgs, EMSGSIZE ); return READ_ERR; } switch( id ) { case BT_CHOKE: dbgmsg( msgs, "got Choke" ); msgs->info->clientIsChoked = 1; cancelAllRequestsToPeer( msgs ); cancelAllRequestsToClient( msgs ); break; case BT_UNCHOKE: dbgmsg( msgs, "got Unchoke" ); msgs->info->clientIsChoked = 0; fireNeedReq( msgs ); break; case BT_INTERESTED: dbgmsg( msgs, "got Interested" ); msgs->info->peerIsInterested = 1; break; case BT_NOT_INTERESTED: dbgmsg( msgs, "got Not Interested" ); msgs->info->peerIsInterested = 0; break; case BT_HAVE: tr_peerIoReadUint32( msgs->io, inbuf, &ui32 ); dbgmsg( msgs, "got Have: %u", ui32 ); if( tr_bitfieldAdd( msgs->info->have, ui32 ) ) { fireError( msgs, ERANGE ); return READ_ERR; } updatePeerProgress( msgs ); tr_rcTransferred( msgs->torrent->swarmSpeed, msgs->torrent->info.pieceSize ); break; case BT_BITFIELD: { dbgmsg( msgs, "got a bitfield" ); msgs->peerSentBitfield = 1; tr_peerIoReadBytes( msgs->io, inbuf, msgs->info->have->bits, msglen ); updatePeerProgress( msgs ); fireNeedReq( msgs ); break; } case BT_REQUEST: { struct peer_request r; tr_peerIoReadUint32( msgs->io, inbuf, &r.index ); tr_peerIoReadUint32( msgs->io, inbuf, &r.offset ); tr_peerIoReadUint32( msgs->io, inbuf, &r.length ); dbgmsg( msgs, "got Request: %u:%u->%u", r.index, r.offset, r.length ); peerMadeRequest( msgs, &r ); break; } case BT_CANCEL: { struct peer_request r; tr_peerIoReadUint32( msgs->io, inbuf, &r.index ); tr_peerIoReadUint32( msgs->io, inbuf, &r.offset ); tr_peerIoReadUint32( msgs->io, inbuf, &r.length ); dbgmsg( msgs, "got a Cancel %u:%u->%u", r.index, r.offset, r.length ); reqListRemove( &msgs->peerAskedFor, &r ); break; } case BT_PIECE: assert( 0 ); /* handled elsewhere! */ break; case BT_PORT: dbgmsg( msgs, "Got a BT_PORT" ); tr_peerIoReadUint16( msgs->io, inbuf, &msgs->info->port ); break; case BT_SUGGEST: { dbgmsg( msgs, "Got a BT_SUGGEST" ); tr_peerIoReadUint32( msgs->io, inbuf, &ui32 ); /* we don't do anything with this yet */ break; } case BT_HAVE_ALL: dbgmsg( msgs, "Got a BT_HAVE_ALL" ); tr_bitfieldAddRange( msgs->info->have, 0, msgs->torrent->info.pieceCount ); updatePeerProgress( msgs ); break; case BT_HAVE_NONE: dbgmsg( msgs, "Got a BT_HAVE_NONE" ); tr_bitfieldClear( msgs->info->have ); updatePeerProgress( msgs ); break; case BT_REJECT: { struct peer_request r; dbgmsg( msgs, "Got a BT_REJECT" ); tr_peerIoReadUint32( msgs->io, inbuf, &r.index ); tr_peerIoReadUint32( msgs->io, inbuf, &r.offset ); tr_peerIoReadUint32( msgs->io, inbuf, &r.length ); reqListRemove( &msgs->clientAskedFor, &r ); break; } case BT_LTEP: dbgmsg( msgs, "Got a BT_LTEP" ); parseLtep( msgs, msglen, inbuf ); break; default: dbgmsg( msgs, "peer sent us an UNKNOWN: %d", (int)id ); tr_peerIoDrain( msgs->io, inbuf, msglen ); break; } assert( msglen + 1 == msgs->incoming.length ); assert( EVBUFFER_LENGTH( inbuf ) == startBufLen - msglen ); msgs->state = AWAITING_BT_LENGTH; return READ_NOW; } static void decrementDownloadedCount( tr_peermsgs * msgs, uint32_t byteCount ) { tr_torrent * tor = msgs->torrent; tor->downloadedCur -= MIN( tor->downloadedCur, byteCount ); } static void clientGotUnwantedBlock( tr_peermsgs * msgs, const struct peer_request * req ) { decrementDownloadedCount( msgs, req->length ); } static void addPeerToBlamefield( tr_peermsgs * msgs, uint32_t index ) { if( !msgs->info->blame ) msgs->info->blame = tr_bitfieldNew( msgs->torrent->info.pieceCount ); tr_bitfieldAdd( msgs->info->blame, index ); } /* returns 0 on success, or an errno on failure */ static int clientGotBlock( tr_peermsgs * msgs, const uint8_t * data, const struct peer_request * req ) { int err; tr_torrent * tor = msgs->torrent; const tr_block_index_t block = _tr_block( tor, req->index, req->offset ); assert( msgs ); assert( req ); if( req->length != tr_torBlockCountBytes( msgs->torrent, block ) ) { dbgmsg( msgs, "wrong block size -- expected %u, got %d", tr_torBlockCountBytes( msgs->torrent, block ), req->length ); return EMSGSIZE; } /* save the block */ dbgmsg( msgs, "got block %u:%u->%u", req->index, req->offset, req->length ); /** *** Remove the block from our `we asked for this' list **/ if( !reqListRemove( &msgs->clientAskedFor, req ) ) { clientGotUnwantedBlock( msgs, req ); dbgmsg( msgs, "we didn't ask for this message..." ); return 0; } dbgmsg( msgs, "peer has %d more blocks we've asked for", msgs->clientAskedFor.count ); /** *** Error checks **/ if( tr_cpBlockIsComplete( tor->completion, block ) ) { dbgmsg( msgs, "we have this block already..." ); clientGotUnwantedBlock( msgs, req ); return 0; } /** *** Save the block **/ msgs->info->peerSentPieceDataAt = time( NULL ); if(( err = tr_ioWrite( tor, req->index, req->offset, req->length, data ))) return err; addPeerToBlamefield( msgs, req->index ); fireGotBlock( msgs, req ); return 0; } static int peerPulse( void * vmsgs ); static void didWrite( tr_peerIo * io UNUSED, size_t bytesWritten, int wasPieceData, void * vmsgs ) { tr_peermsgs * msgs = vmsgs; firePeerGotData( msgs, bytesWritten, wasPieceData ); peerPulse( msgs ); } static ReadState canRead( struct tr_iobuf * iobuf, void * vmsgs, size_t * piece ) { ReadState ret; tr_peermsgs * msgs = vmsgs; struct evbuffer * in = tr_iobuf_input( iobuf ); const size_t inlen = EVBUFFER_LENGTH( in ); if( !inlen ) { ret = READ_LATER; } else if( msgs->state == AWAITING_BT_PIECE ) { ret = inlen ? readBtPiece( msgs, in, inlen, piece ) : READ_LATER; } else switch( msgs->state ) { case AWAITING_BT_LENGTH: ret = readBtLength ( msgs, in, inlen ); break; case AWAITING_BT_ID: ret = readBtId ( msgs, in, inlen ); break; case AWAITING_BT_MESSAGE: ret = readBtMessage( msgs, in, inlen ); break; default: assert( 0 ); } /* log the raw data that was read */ if( ( ret != READ_ERR ) && ( EVBUFFER_LENGTH( in ) != inlen ) ) fireClientGotData( msgs, inlen - EVBUFFER_LENGTH( in ), FALSE ); return ret; } /** *** **/ static int ratePulse( void * vpeer ) { tr_peermsgs * peer = vpeer; const double rateToClient = tr_peerGetPieceSpeed( peer->info, TR_PEER_TO_CLIENT ); const int estimatedBlocksInNext30Seconds = ( rateToClient * 30 * 1024 ) / peer->torrent->blockSize; peer->minActiveRequests = 8; peer->maxActiveRequests = peer->minActiveRequests + estimatedBlocksInNext30Seconds; return TRUE; } static int popNextRequest( tr_peermsgs * msgs, struct peer_request * setme ) { return reqListPop( &msgs->peerAskedFor, setme ); } static size_t fillOutputBuffer( tr_peermsgs * msgs, time_t now ) { size_t bytesWritten = 0; struct peer_request req; const int haveMessages = EVBUFFER_LENGTH( msgs->outMessages ) != 0; /** *** Protocol messages **/ if( haveMessages && !msgs->outMessagesBatchedAt ) /* fresh batch */ { dbgmsg( msgs, "started an outMessages batch (length is %zu)", EVBUFFER_LENGTH( msgs->outMessages ) ); msgs->outMessagesBatchedAt = now; } else if( haveMessages && ( ( now - msgs->outMessagesBatchedAt ) >= msgs->outMessagesBatchPeriod ) ) { const size_t len = EVBUFFER_LENGTH( msgs->outMessages ); /* flush the protocol messages */ dbgmsg( msgs, "flushing outMessages... to %p (length is %zu)", msgs->io, len ); tr_peerIoWriteBuf( msgs->io, msgs->outMessages, FALSE ); msgs->clientSentAnythingAt = now; msgs->outMessagesBatchedAt = 0; msgs->outMessagesBatchPeriod = LOW_PRIORITY_INTERVAL_SECS; bytesWritten += len; } /** *** Blocks **/ if( ( tr_peerIoGetWriteBufferSpace( msgs->io ) >= msgs->torrent->blockSize ) && popNextRequest( msgs, &req ) && requestIsValid( msgs, &req ) && tr_cpPieceIsComplete( msgs->torrent->completion, req.index ) ) { /* send a block */ uint8_t * buf = tr_new( uint8_t, req.length ); const int err = tr_ioRead( msgs->torrent, req.index, req.offset, req.length, buf ); if( err ) { fireError( msgs, err ); bytesWritten = 0; msgs = NULL; } else { tr_peerIo * io = msgs->io; struct evbuffer * out = evbuffer_new( ); dbgmsg( msgs, "sending block %u:%u->%u", req.index, req.offset, req.length ); tr_peerIoWriteUint32( io, out, sizeof( uint8_t ) + 2 * sizeof( uint32_t ) + req.length ); tr_peerIoWriteUint8 ( io, out, BT_PIECE ); tr_peerIoWriteUint32( io, out, req.index ); tr_peerIoWriteUint32( io, out, req.offset ); tr_peerIoWriteBytes ( io, out, buf, req.length ); tr_peerIoWriteBuf( io, out, TRUE ); bytesWritten += EVBUFFER_LENGTH( out ); evbuffer_free( out ); msgs->clientSentAnythingAt = now; } tr_free( buf ); } /** *** Keepalive **/ if( ( msgs != NULL ) && ( msgs->clientSentAnythingAt != 0 ) && ( ( now - msgs->clientSentAnythingAt ) > KEEPALIVE_INTERVAL_SECS ) ) { dbgmsg( msgs, "sending a keepalive message" ); tr_peerIoWriteUint32( msgs->io, msgs->outMessages, 0 ); pokeBatchPeriod( msgs, IMMEDIATE_PRIORITY_INTERVAL_SECS ); } return bytesWritten; } static int peerPulse( void * vmsgs ) { tr_peermsgs * msgs = vmsgs; const time_t now = time( NULL ); ratePulse( msgs ); pumpRequestQueue( msgs, now ); expireOldRequests( msgs, now ); for( ;; ) if( fillOutputBuffer( msgs, now ) < 1 ) break; return TRUE; /* loop forever */ } void tr_peerMsgsPulse( tr_peermsgs * msgs ) { if( msgs != NULL ) peerPulse( msgs ); } static void gotError( struct tr_iobuf * iobuf UNUSED, short what, void * vmsgs ) { if( what & EVBUFFER_TIMEOUT ) dbgmsg( vmsgs, "libevent got a timeout, what=%hd", what ); if( what & ( EVBUFFER_EOF | EVBUFFER_ERROR ) ) dbgmsg( vmsgs, "libevent got an error! what=%hd, errno=%d (%s)", what, errno, tr_strerror( errno ) ); fireError( vmsgs, ENOTCONN ); } static void sendBitfield( tr_peermsgs * msgs ) { struct evbuffer * out = msgs->outMessages; tr_bitfield * field; tr_piece_index_t lazyPieces[LAZY_PIECE_COUNT]; size_t i; size_t lazyCount = 0; field = tr_bitfieldDup( tr_cpPieceBitfield( msgs->torrent->completion ) ); if( tr_sessionIsLazyBitfieldEnabled( msgs->session ) ) { /** Lazy bitfields aren't a high priority or secure, so I'm opting for speed over a truly random sample -- let's limit the pool size to the first 1000 pieces so large torrents don't bog things down */ size_t poolSize; const size_t maxPoolSize = MIN( msgs->torrent->info.pieceCount, 1000 ); tr_piece_index_t * pool = tr_new( tr_piece_index_t, maxPoolSize ); /* build the pool */ for( i=poolSize=0; i 0 ) && ( lazyCount < LAZY_PIECE_COUNT ) ) { const int pos = tr_cryptoWeakRandInt( poolSize ); const tr_piece_index_t piece = pool[pos]; tr_bitfieldRem( field, piece ); lazyPieces[lazyCount++] = piece; pool[pos] = pool[--poolSize]; } /* cleanup */ tr_free( pool ); } tr_peerIoWriteUint32( msgs->io, out, sizeof( uint8_t ) + field->byteCount ); tr_peerIoWriteUint8 ( msgs->io, out, BT_BITFIELD ); tr_peerIoWriteBytes ( msgs->io, out, field->bits, field->byteCount ); dbgmsg( msgs, "sending bitfield... outMessage size is now %d", (int)EVBUFFER_LENGTH( out ) ); pokeBatchPeriod( msgs, IMMEDIATE_PRIORITY_INTERVAL_SECS ); for( i = 0; i < lazyCount; ++i ) protocolSendHave( msgs, lazyPieces[i] ); tr_bitfieldFree( field ); } /** *** **/ /* some peers give us error messages if we send more than this many peers in a single pex message http://wiki.theory.org/BitTorrentPeerExchangeConventions */ #define MAX_PEX_ADDED 50 #define MAX_PEX_DROPPED 50 typedef struct { tr_pex * added; tr_pex * dropped; tr_pex * elements; int addedCount; int droppedCount; int elementCount; } PexDiffs; static void pexAddedCb( void * vpex, void * userData ) { PexDiffs * diffs = userData; tr_pex * pex = vpex; if( diffs->addedCount < MAX_PEX_ADDED ) { diffs->added[diffs->addedCount++] = *pex; diffs->elements[diffs->elementCount++] = *pex; } } static void pexDroppedCb( void * vpex, void * userData ) { PexDiffs * diffs = userData; tr_pex * pex = vpex; if( diffs->droppedCount < MAX_PEX_DROPPED ) { diffs->dropped[diffs->droppedCount++] = *pex; } } static void pexElementCb( void * vpex, void * userData ) { PexDiffs * diffs = userData; tr_pex * pex = vpex; diffs->elements[diffs->elementCount++] = *pex; } /* TODO: ipv6 pex */ static void sendPex( tr_peermsgs * msgs ) { if( msgs->peerSupportsPex && tr_torrentAllowsPex( msgs->torrent ) ) { PexDiffs diffs; tr_pex * newPex = NULL; const int newCount = tr_peerMgrGetPeers( msgs->session->peerMgr, msgs->torrent->info.hash, &newPex ); /* build the diffs */ diffs.added = tr_new( tr_pex, newCount ); diffs.addedCount = 0; diffs.dropped = tr_new( tr_pex, msgs->pexCount ); diffs.droppedCount = 0; diffs.elements = tr_new( tr_pex, newCount + msgs->pexCount ); diffs.elementCount = 0; tr_set_compare( msgs->pex, msgs->pexCount, newPex, newCount, tr_pexCompare, sizeof( tr_pex ), pexDroppedCb, pexAddedCb, pexElementCb, &diffs ); dbgmsg( msgs, "pex: old peer count %d, new peer count %d, added %d, removed %d", msgs->pexCount, newCount, diffs.addedCount, diffs.droppedCount ); if( diffs.addedCount || diffs.droppedCount ) { int i; tr_benc val; char * benc; int bencLen; uint8_t * tmp, *walk; struct evbuffer * out = msgs->outMessages; /* update peer */ tr_free( msgs->pex ); msgs->pex = diffs.elements; msgs->pexCount = diffs.elementCount; /* build the pex payload */ tr_bencInitDict( &val, 3 ); /* "added" */ tmp = walk = tr_new( uint8_t, diffs.addedCount * 6 ); for( i = 0; i < diffs.addedCount; ++i ) { memcpy( walk, &diffs.added[i].addr.addr, 4 ); walk += 4; memcpy( walk, &diffs.added[i].port, 2 ); walk += 2; } assert( ( walk - tmp ) == diffs.addedCount * 6 ); tr_bencDictAddRaw( &val, "added", tmp, walk - tmp ); tr_free( tmp ); /* "added.f" */ tmp = walk = tr_new( uint8_t, diffs.addedCount ); for( i = 0; i < diffs.addedCount; ++i ) *walk++ = diffs.added[i].flags; assert( ( walk - tmp ) == diffs.addedCount ); tr_bencDictAddRaw( &val, "added.f", tmp, walk - tmp ); tr_free( tmp ); /* "dropped" */ tmp = walk = tr_new( uint8_t, diffs.droppedCount * 6 ); for( i = 0; i < diffs.droppedCount; ++i ) { memcpy( walk, &diffs.dropped[i].addr.addr, 4 ); walk += 4; memcpy( walk, &diffs.dropped[i].port, 2 ); walk += 2; } assert( ( walk - tmp ) == diffs.droppedCount * 6 ); tr_bencDictAddRaw( &val, "dropped", tmp, walk - tmp ); tr_free( tmp ); /* write the pex message */ benc = tr_bencSave( &val, &bencLen ); tr_peerIoWriteUint32( msgs->io, out, 2 * sizeof( uint8_t ) + bencLen ); tr_peerIoWriteUint8 ( msgs->io, out, BT_LTEP ); tr_peerIoWriteUint8 ( msgs->io, out, msgs->ut_pex_id ); tr_peerIoWriteBytes ( msgs->io, out, benc, bencLen ); pokeBatchPeriod( msgs, HIGH_PRIORITY_INTERVAL_SECS ); dbgmsg( msgs, "sending a pex message; outMessage size is now %zu", EVBUFFER_LENGTH( out ) ); tr_free( benc ); tr_bencFree( &val ); } /* cleanup */ tr_free( diffs.added ); tr_free( diffs.dropped ); tr_free( newPex ); msgs->clientSentPexAt = time( NULL ); } } static int pexPulse( void * vpeer ) { sendPex( vpeer ); return TRUE; } /** *** **/ tr_peermsgs* tr_peerMsgsNew( struct tr_torrent * torrent, struct tr_peer * info, tr_delivery_func func, void * userData, tr_publisher_tag * setme ) { tr_peermsgs * m; assert( info ); assert( info->io ); m = tr_new0( tr_peermsgs, 1 ); m->publisher = tr_publisherNew( ); m->info = info; m->session = torrent->session; m->torrent = torrent; m->io = info->io; m->info->clientIsChoked = 1; m->info->peerIsChoked = 1; m->info->clientIsInterested = 0; m->info->peerIsInterested = 0; m->info->have = tr_bitfieldNew( torrent->info.pieceCount ); m->state = AWAITING_BT_LENGTH; m->pexTimer = tr_timerNew( m->session, pexPulse, m, PEX_INTERVAL ); m->outMessages = evbuffer_new( ); m->outMessagesBatchedAt = 0; m->outMessagesBatchPeriod = LOW_PRIORITY_INTERVAL_SECS; m->incoming.block = evbuffer_new( ); m->peerAllowedPieces = NULL; m->peerAskedFor = REQUEST_LIST_INIT; m->clientAskedFor = REQUEST_LIST_INIT; m->clientWillAskFor = REQUEST_LIST_INIT; *setme = tr_publisherSubscribe( m->publisher, func, userData ); if( tr_peerIoSupportsLTEP( m->io ) ) sendLtepHandshake( m ); sendBitfield( m ); tr_peerIoSetTimeoutSecs( m->io, 150 ); /* timeout after N seconds of inactivity */ tr_peerIoSetIOFuncs( m->io, canRead, didWrite, gotError, m ); ratePulse( m ); return m; } void tr_peerMsgsFree( tr_peermsgs* msgs ) { if( msgs ) { tr_timerFree( &msgs->pexTimer ); tr_publisherFree( &msgs->publisher ); reqListClear( &msgs->clientWillAskFor ); reqListClear( &msgs->clientAskedFor ); tr_bitfieldFree( msgs->peerAllowedPieces ); evbuffer_free( msgs->incoming.block ); evbuffer_free( msgs->outMessages ); tr_free( msgs->pex ); memset( msgs, ~0, sizeof( tr_peermsgs ) ); tr_free( msgs ); } } void tr_peerMsgsUnsubscribe( tr_peermsgs * peer, tr_publisher_tag tag ) { tr_publisherUnsubscribe( peer->publisher, tag ); }