/* Copyright (c) 2009 by Juliusz Chroboczek 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. */ /* ansi */ #include #include /* posix */ #include /* sockaddr_in */ #include /* sig_atomic_t */ #include #include #include /* socket(), bind() */ #include /* close() */ /* third party */ #include #include /* libT */ #include "transmission.h" #include "bencode.h" #include "crypto.h" #include "net.h" #include "peer-mgr.h" /* tr_peerMgrCompactToPex() */ #include "platform.h" /* tr_threadNew() */ #include "session.h" #include "torrent.h" /* tr_torrentFindFromHash() */ #include "tr-dht.h" #include "trevent.h" /* tr_runInEventThread() */ #include "utils.h" #include "version.h" static int dht_socket; static struct event dht_event; static tr_port dht_port; static unsigned char myid[20]; static tr_session *session = NULL; static void event_callback(int s, short type, void *ignore); struct bootstrap_closure { tr_session *session; uint8_t *nodes; size_t len; }; static void dht_bootstrap(void *closure) { struct bootstrap_closure *cl = closure; size_t i; if(session != cl->session) return; for(i = 0; i < cl->len; i += 6) { struct timeval tv; tr_port port; struct tr_address addr; int status; memset(&addr, 0, sizeof(addr)); addr.type = TR_AF_INET; memcpy(&addr.addr.addr4, &cl->nodes[i], 4); memcpy(&port, &cl->nodes[i + 4], 2); port = ntohs(port); /* There's no race here -- if we uninit between the test and the AddNode, the AddNode will be ignored. */ status = tr_dhtStatus(cl->session, NULL); if(status == TR_DHT_STOPPED || status >= TR_DHT_FIREWALLED) break; tr_dhtAddNode(cl->session, &addr, port, 1); tv.tv_sec = 2 + tr_cryptoWeakRandInt( 5 ); tv.tv_usec = tr_cryptoWeakRandInt( 1000000 ); select(0, NULL, NULL, NULL, &tv); } tr_free( cl->nodes ); tr_free( closure ); } int tr_dhtInit(tr_session *ss) { struct sockaddr_in sin; struct timeval tv; tr_benc benc; int rc; tr_bool have_id = FALSE; char * dat_file; uint8_t * nodes = NULL; const uint8_t * raw; size_t len; char v[5]; if( session ) /* already initialized */ return -1; dht_socket = socket(PF_INET, SOCK_DGRAM, 0); if(dht_socket < 0) return -1; dht_port = tr_sessionGetPeerPort(ss); if(dht_port <= 0) return -1; memset(&sin, 0, sizeof(sin)); sin.sin_family = AF_INET; sin.sin_port = htons(dht_port); rc = bind(dht_socket, (struct sockaddr*)&sin, sizeof(sin)); if(rc < 0) goto fail; if( getenv( "TR_DHT_VERBOSE" ) != NULL ) dht_debug = stderr; dat_file = tr_buildPath( ss->configDir, "dht.dat", NULL ); rc = tr_bencLoadFile( &benc, TR_FMT_BENC, dat_file ); tr_free( dat_file ); if(rc == 0) { if(( have_id = tr_bencDictFindRaw( &benc, "id", &raw, &len ) && len==20 )) memcpy( myid, raw, len ); if( tr_bencDictFindRaw( &benc, "nodes", &raw, &len ) && !(len%6) ) nodes = tr_memdup( raw, len ); tr_bencFree( &benc ); } if(!have_id) { /* Note that DHT ids need to be distributed uniformly, * so it should be something truly random. */ tr_cryptoRandBuf( myid, 20 ); } v[0] = 'T'; v[1] = 'R'; v[2] = (SVN_REVISION_NUM >> 8) & 0xFF; v[3] = SVN_REVISION_NUM & 0xFF; rc = dht_init( dht_socket, myid, (const unsigned char*)v ); if(rc < 0) goto fail; session = ss; if(nodes) { struct bootstrap_closure * cl = tr_new( struct bootstrap_closure, 1 ); cl->session = session; cl->nodes = nodes; cl->len = len; tr_threadNew( dht_bootstrap, cl ); } tv.tv_sec = 0; tv.tv_usec = tr_cryptoWeakRandInt( 1000000 ); event_set( &dht_event, dht_socket, EV_READ, event_callback, NULL ); event_add( &dht_event, &tv ); return 1; fail: { const int save = errno; close(dht_socket); dht_socket = -1; session = NULL; errno = save; } return -1; } void tr_dhtUninit(tr_session *ss) { if(session != ss) return; event_del(&dht_event); /* Since we only save known good nodes, avoid erasing older data if we don't know enough nodes. */ if(tr_dhtStatus(ss, NULL) >= TR_DHT_FIREWALLED) { tr_benc benc; struct sockaddr_in sins[300]; char compact[300 * 6]; char *dat_file; int i; int n = dht_get_nodes(sins, 300); int j = 0; for( i=0; iconfigDir, "dht.dat", NULL ); tr_bencToFile( &benc, TR_FMT_BENC, dat_file ); tr_free( dat_file ); } dht_uninit( dht_socket, 0 ); EVUTIL_CLOSESOCKET( dht_socket ); session = NULL; } tr_bool tr_dhtEnabled( const tr_session * ss ) { return ss && ( ss == session ); } struct getstatus_closure { sig_atomic_t status; sig_atomic_t count; }; static void getstatus( void * closure ) { struct getstatus_closure * ret = closure; int good, dubious, incoming; dht_nodes( &good, &dubious, NULL, &incoming ); ret->count = good + dubious; if( good < 4 || good + dubious <= 8 ) ret->status = TR_DHT_BROKEN; else if( good < 40 ) ret->status = TR_DHT_POOR; else if( incoming < 8 ) ret->status = TR_DHT_FIREWALLED; else ret->status = TR_DHT_GOOD; } int tr_dhtStatus( tr_session * ss, int * nodes_return ) { struct getstatus_closure ret = { -1, - 1 }; if( !tr_dhtEnabled( ss ) ) return TR_DHT_STOPPED; tr_runInEventThread( ss, getstatus, &ret ); while( ret.status < 0 ) tr_wait( 10 /*msec*/ ); if( nodes_return ) *nodes_return = ret.count; return ret.status; } tr_port tr_dhtPort( const tr_session *ss ) { return tr_dhtEnabled( ss ) ? dht_port : 0; } int tr_dhtAddNode(tr_session *ss, tr_address *address, tr_port port, tr_bool bootstrap) { struct sockaddr_in sin; if( !tr_dhtEnabled( ss ) ) return 0; if( address->type != TR_AF_INET ) return 0; /* Since we don't want to abuse our bootstrap nodes, * we don't ping them if the DHT is in a good state. */ if(bootstrap) { if(tr_dhtStatus(ss, NULL) >= TR_DHT_FIREWALLED) return 0; } memset(&sin, 0, sizeof(sin)); sin.sin_family = AF_INET; memcpy(&sin.sin_addr, &address->addr.addr4, 4); sin.sin_port = htons(port); dht_ping_node(dht_socket, &sin); return 1; } static void callback( void *ignore UNUSED, int event, unsigned char *info_hash, void *data, size_t data_len ) { if( event == DHT_EVENT_VALUES ) { tr_torrent *tor; tr_globalLock( session ); tor = tr_torrentFindFromHash( session, info_hash ); if( tor && tr_torrentAllowsDHT( tor )) { size_t i, n; tr_pex * pex = tr_peerMgrCompactToPex(data, data_len, NULL, 0, &n); for( i=0; idhtAnnounceInProgress = 0; } } int tr_dhtAnnounce(tr_torrent *tor, tr_bool announce) { int rc; if( !tr_torrentAllowsDHT( tor ) ) return -1; if( tr_dhtStatus( tor->session, NULL ) < TR_DHT_POOR ) return 0; rc = dht_search( dht_socket, tor->info.hash, announce ? tr_sessionGetPeerPort(session) : 0, callback, NULL); if( rc >= 1 ) tor->dhtAnnounceInProgress = TRUE; return 1; } static void event_callback(int s, short type, void *ignore UNUSED ) { time_t tosleep; struct timeval tv; if( dht_periodic(s, type == EV_READ, &tosleep, callback, NULL) < 0 ) { if(errno == EINTR) { tosleep = 0; } else { perror("dht_periodic"); if(errno == EINVAL || errno == EFAULT) abort(); tosleep = 1; } } /* Being slightly late is fine, and has the added benefit of adding some jitter. */ tv.tv_sec = tosleep; tv.tv_usec = tr_cryptoWeakRandInt( 1000000 ); event_add(&dht_event, &tv); } void dht_hash(void *hash_return, int hash_size, const void *v1, int len1, const void *v2, int len2, const void *v3, int len3) { unsigned char sha1[SHA_DIGEST_LENGTH]; tr_sha1( sha1, v1, len1, v2, len2, v3, len3, NULL ); memset( hash_return, 0, hash_size ); memcpy( hash_return, sha1, MIN( hash_size, SHA_DIGEST_LENGTH ) ); } int dht_random_bytes( void * buf, size_t size ) { tr_cryptoRandBuf( buf, size ); return size; }