/* * This file Copyright (C) 2010-2014 Mnemosyne LLC * * It may be used under the GNU GPL versions 2 or 3 * or any future license endorsed by Mnemosyne LLC. * */ #include /* errno, EAFNOSUPPORT */ #include /* memcpy(), memset() */ #include #include #include #define LIBTRANSMISSION_ANNOUNCER_MODULE #include "transmission.h" #include "announcer.h" #include "announcer-common.h" #include "crypto-utils.h" /* tr_rand_buffer() */ #include "log.h" #include "peer-io.h" #include "peer-mgr.h" /* tr_peerMgrCompactToPex() */ #include "ptrarray.h" #include "tr-assert.h" #include "tr-udp.h" #include "utils.h" #define dbgmsg(name, ...) tr_logAddDeepNamed(name, __VA_ARGS__) /**** ***** ****/ static void tau_sockaddr_setport(struct sockaddr* sa, tr_port port) { if (sa->sa_family == AF_INET) { TR_DISCARD_ALIGN(sa, struct sockaddr_in*)->sin_port = htons(port); } else if (sa->sa_family == AF_INET6) { TR_DISCARD_ALIGN(sa, struct sockaddr_in6*)->sin6_port = htons(port); } } static int tau_sendto(tr_session const* session, struct evutil_addrinfo* ai, tr_port port, void const* buf, size_t buflen) { tr_socket_t sockfd; if (ai->ai_addr->sa_family == AF_INET) { sockfd = session->udp_socket; } else if (ai->ai_addr->sa_family == AF_INET6) { sockfd = session->udp6_socket; } else { sockfd = TR_BAD_SOCKET; } if (sockfd == TR_BAD_SOCKET) { errno = EAFNOSUPPORT; return -1; } tau_sockaddr_setport(ai->ai_addr, port); return sendto(sockfd, buf, buflen, 0, ai->ai_addr, ai->ai_addrlen); } /**** ***** ****/ static uint32_t evbuffer_read_ntoh_32(struct evbuffer* buf) { uint32_t val; evbuffer_remove(buf, &val, sizeof(uint32_t)); return ntohl(val); } static uint64_t evbuffer_read_ntoh_64(struct evbuffer* buf) { uint64_t val; evbuffer_remove(buf, &val, sizeof(uint64_t)); return tr_ntohll(val); } /**** ***** ****/ typedef uint64_t tau_connection_t; enum { TAU_CONNECTION_TTL_SECS = 60 }; typedef uint32_t tau_transaction_t; static tau_transaction_t tau_transaction_new(void) { tau_transaction_t tmp; tr_rand_buffer(&tmp, sizeof(tau_transaction_t)); return tmp; } /* used in the "action" field of a request */ typedef enum { TAU_ACTION_CONNECT = 0, TAU_ACTION_ANNOUNCE = 1, TAU_ACTION_SCRAPE = 2, TAU_ACTION_ERROR = 3 } tau_action_t; static bool is_tau_response_message(tau_action_t action, size_t msglen) { if (action == TAU_ACTION_CONNECT) { return msglen == 16; } if (action == TAU_ACTION_ANNOUNCE) { return msglen >= 20; } if (action == TAU_ACTION_SCRAPE) { return msglen >= 20; } if (action == TAU_ACTION_ERROR) { return msglen >= 8; } return false; } enum { TAU_REQUEST_TTL = 60 }; /**** ***** ***** SCRAPE ***** ****/ struct tau_scrape_request { void* payload; size_t payload_len; time_t sent_at; time_t created_at; tau_transaction_t transaction_id; tr_scrape_response response; tr_scrape_response_func callback; void* user_data; }; static struct tau_scrape_request* tau_scrape_request_new( tr_scrape_request const* in, tr_scrape_response_func callback, void* user_data) { struct evbuffer* buf; struct tau_scrape_request* req; tau_transaction_t const transaction_id = tau_transaction_new(); /* build the payload */ buf = evbuffer_new(); evbuffer_add_hton_32(buf, TAU_ACTION_SCRAPE); evbuffer_add_hton_32(buf, transaction_id); for (int i = 0; i < in->info_hash_count; ++i) { evbuffer_add(buf, in->info_hash[i], SHA_DIGEST_LENGTH); } /* build the tau_scrape_request */ req = tr_new0(struct tau_scrape_request, 1); req->created_at = tr_time(); req->transaction_id = transaction_id; req->callback = callback; req->user_data = user_data; req->response.url = tr_strdup(in->url); req->response.row_count = in->info_hash_count; req->payload_len = evbuffer_get_length(buf); req->payload = tr_memdup(evbuffer_pullup(buf, -1), req->payload_len); for (int i = 0; i < req->response.row_count; ++i) { req->response.rows[i].seeders = -1; req->response.rows[i].leechers = -1; req->response.rows[i].downloads = -1; memcpy(req->response.rows[i].info_hash, in->info_hash[i], SHA_DIGEST_LENGTH); } /* cleanup */ evbuffer_free(buf); return req; } static void tau_scrape_request_free(struct tau_scrape_request* req) { tr_free(req->response.errmsg); tr_free(req->response.url); tr_free(req->payload); tr_free(req); } static void tau_scrape_request_finished(struct tau_scrape_request const* request) { if (request->callback != NULL) { request->callback(&request->response, request->user_data); } } static void tau_scrape_request_fail(struct tau_scrape_request* request, bool did_connect, bool did_timeout, char const* errmsg) { request->response.did_connect = did_connect; request->response.did_timeout = did_timeout; request->response.errmsg = tr_strdup(errmsg); tau_scrape_request_finished(request); } static void on_scrape_response(struct tau_scrape_request* request, tau_action_t action, struct evbuffer* buf) { request->response.did_connect = true; request->response.did_timeout = false; if (action == TAU_ACTION_SCRAPE) { for (int i = 0; i < request->response.row_count; ++i) { struct tr_scrape_response_row* row; if (evbuffer_get_length(buf) < sizeof(uint32_t) * 3) { break; } row = &request->response.rows[i]; row->seeders = evbuffer_read_ntoh_32(buf); row->downloads = evbuffer_read_ntoh_32(buf); row->leechers = evbuffer_read_ntoh_32(buf); } tau_scrape_request_finished(request); } else { char* errmsg; size_t const buflen = evbuffer_get_length(buf); if (action == TAU_ACTION_ERROR && buflen > 0) { errmsg = tr_strndup(evbuffer_pullup(buf, -1), buflen); } else { errmsg = tr_strdup(_("Unknown error")); } tau_scrape_request_fail(request, true, false, errmsg); tr_free(errmsg); } } /**** ***** ***** ANNOUNCE ***** ****/ struct tau_announce_request { void* payload; size_t payload_len; time_t created_at; time_t sent_at; tau_transaction_t transaction_id; tr_announce_response response; tr_announce_response_func callback; void* user_data; }; typedef enum { /* used in the "event" field of an announce request */ TAU_ANNOUNCE_EVENT_NONE = 0, TAU_ANNOUNCE_EVENT_COMPLETED = 1, TAU_ANNOUNCE_EVENT_STARTED = 2, TAU_ANNOUNCE_EVENT_STOPPED = 3 } tau_announce_event; static tau_announce_event get_tau_announce_event(tr_announce_event e) { switch (e) { case TR_ANNOUNCE_EVENT_COMPLETED: return TAU_ANNOUNCE_EVENT_COMPLETED; case TR_ANNOUNCE_EVENT_STARTED: return TAU_ANNOUNCE_EVENT_STARTED; case TR_ANNOUNCE_EVENT_STOPPED: return TAU_ANNOUNCE_EVENT_STOPPED; default: return TAU_ANNOUNCE_EVENT_NONE; } } static struct tau_announce_request* tau_announce_request_new( tr_announce_request const* in, tr_announce_response_func callback, void* user_data) { struct evbuffer* buf; struct tau_announce_request* req; tau_transaction_t const transaction_id = tau_transaction_new(); /* build the payload */ buf = evbuffer_new(); evbuffer_add_hton_32(buf, TAU_ACTION_ANNOUNCE); evbuffer_add_hton_32(buf, transaction_id); evbuffer_add(buf, in->info_hash, SHA_DIGEST_LENGTH); evbuffer_add(buf, in->peer_id, PEER_ID_LEN); evbuffer_add_hton_64(buf, in->down); evbuffer_add_hton_64(buf, in->leftUntilComplete); evbuffer_add_hton_64(buf, in->up); evbuffer_add_hton_32(buf, get_tau_announce_event(in->event)); evbuffer_add_hton_32(buf, 0); evbuffer_add_hton_32(buf, in->key); evbuffer_add_hton_32(buf, in->numwant); evbuffer_add_hton_16(buf, in->port); /* build the tau_announce_request */ req = tr_new0(struct tau_announce_request, 1); req->created_at = tr_time(); req->transaction_id = transaction_id; req->callback = callback; req->user_data = user_data; req->payload_len = evbuffer_get_length(buf); req->payload = tr_memdup(evbuffer_pullup(buf, -1), req->payload_len); req->response.seeders = -1; req->response.leechers = -1; req->response.downloads = -1; memcpy(req->response.info_hash, in->info_hash, SHA_DIGEST_LENGTH); evbuffer_free(buf); return req; } static void tau_announce_request_free(struct tau_announce_request* req) { tr_free(req->response.tracker_id_str); tr_free(req->response.warning); tr_free(req->response.errmsg); tr_free(req->response.pex6); tr_free(req->response.pex); tr_free(req->payload); tr_free(req); } static void tau_announce_request_finished(struct tau_announce_request const* request) { if (request->callback != NULL) { request->callback(&request->response, request->user_data); } } static void tau_announce_request_fail( struct tau_announce_request* request, bool did_connect, bool did_timeout, char const* errmsg) { request->response.did_connect = did_connect; request->response.did_timeout = did_timeout; request->response.errmsg = tr_strdup(errmsg); tau_announce_request_finished(request); } static void on_announce_response(struct tau_announce_request* request, tau_action_t action, struct evbuffer* buf) { size_t const buflen = evbuffer_get_length(buf); request->response.did_connect = true; request->response.did_timeout = false; if (action == TAU_ACTION_ANNOUNCE && buflen >= 3 * sizeof(uint32_t)) { tr_announce_response* resp = &request->response; resp->interval = evbuffer_read_ntoh_32(buf); resp->leechers = evbuffer_read_ntoh_32(buf); resp->seeders = evbuffer_read_ntoh_32(buf); resp->pex = tr_peerMgrCompactToPex( evbuffer_pullup(buf, -1), evbuffer_get_length(buf), NULL, 0, &request->response.pex_count); tau_announce_request_finished(request); } else { char* errmsg; if (action == TAU_ACTION_ERROR && buflen > 0) { errmsg = tr_strndup(evbuffer_pullup(buf, -1), buflen); } else { errmsg = tr_strdup(_("Unknown error")); } tau_announce_request_fail(request, true, false, errmsg); tr_free(errmsg); } } /**** ***** ***** TRACKERS ***** ****/ struct tau_tracker { tr_session* session; char* key; char* host; int port; struct evdns_getaddrinfo_request* dns_request; struct evutil_addrinfo* addr; time_t addr_expiration_time; time_t connecting_at; time_t connection_expiration_time; tau_connection_t connection_id; tau_transaction_t connection_transaction_id; time_t close_at; tr_ptrArray announces; tr_ptrArray scrapes; }; static void tau_tracker_upkeep(struct tau_tracker*); static void tau_tracker_free(struct tau_tracker* t) { TR_ASSERT(t->dns_request == NULL); if (t->addr != NULL) { evutil_freeaddrinfo(t->addr); } tr_ptrArrayDestruct(&t->announces, (PtrArrayForeachFunc)tau_announce_request_free); tr_ptrArrayDestruct(&t->scrapes, (PtrArrayForeachFunc)tau_scrape_request_free); tr_free(t->host); tr_free(t->key); tr_free(t); } static void tau_tracker_fail_all(struct tau_tracker* tracker, bool did_connect, bool did_timeout, char const* errmsg) { tr_ptrArray* reqs; /* fail all the scrapes */ reqs = &tracker->scrapes; for (int i = 0, n = tr_ptrArraySize(reqs); i < n; ++i) { tau_scrape_request_fail(tr_ptrArrayNth(reqs, i), did_connect, did_timeout, errmsg); } tr_ptrArrayDestruct(reqs, (PtrArrayForeachFunc)tau_scrape_request_free); *reqs = TR_PTR_ARRAY_INIT; /* fail all the announces */ reqs = &tracker->announces; for (int i = 0, n = tr_ptrArraySize(reqs); i < n; ++i) { tau_announce_request_fail(tr_ptrArrayNth(reqs, i), did_connect, did_timeout, errmsg); } tr_ptrArrayDestruct(reqs, (PtrArrayForeachFunc)tau_announce_request_free); *reqs = TR_PTR_ARRAY_INIT; } static void tau_tracker_on_dns(int errcode, struct evutil_addrinfo* addr, void* vtracker) { struct tau_tracker* tracker = vtracker; tracker->dns_request = NULL; if (errcode != 0) { char* errmsg = tr_strdup_printf(_("DNS Lookup failed: %s"), evutil_gai_strerror(errcode)); dbgmsg(tracker->key, "%s", errmsg); tau_tracker_fail_all(tracker, false, false, errmsg); tr_free(errmsg); } else { dbgmsg(tracker->key, "DNS lookup succeeded"); tracker->addr = addr; tracker->addr_expiration_time = tr_time() + 60 * 60; /* one hour */ tau_tracker_upkeep(tracker); } } static void tau_tracker_send_request(struct tau_tracker* tracker, void const* payload, size_t payload_len) { struct evbuffer* buf = evbuffer_new(); dbgmsg(tracker->key, "sending request w/connection id %" PRIu64 "\n", tracker->connection_id); evbuffer_add_hton_64(buf, tracker->connection_id); evbuffer_add_reference(buf, payload, payload_len, NULL, NULL); (void)tau_sendto(tracker->session, tracker->addr, tracker->port, evbuffer_pullup(buf, -1), evbuffer_get_length(buf)); evbuffer_free(buf); } static void tau_tracker_send_reqs(struct tau_tracker* tracker) { TR_ASSERT(tracker->dns_request == NULL); TR_ASSERT(tracker->connecting_at == 0); TR_ASSERT(tracker->addr != NULL); time_t const now = tr_time(); TR_ASSERT(tracker->connection_expiration_time > now); tr_ptrArray* reqs = &tracker->announces; for (int i = 0, n = tr_ptrArraySize(reqs); i < n; ++i) { struct tau_announce_request* req = tr_ptrArrayNth(reqs, i); if (req->sent_at == 0) { dbgmsg(tracker->key, "sending announce req %p", (void*)req); req->sent_at = now; tau_tracker_send_request(tracker, req->payload, req->payload_len); if (req->callback == NULL) { tau_announce_request_free(req); tr_ptrArrayRemove(reqs, i); --i; --n; } } } reqs = &tracker->scrapes; for (int i = 0, n = tr_ptrArraySize(reqs); i < n; ++i) { struct tau_scrape_request* req = tr_ptrArrayNth(reqs, i); if (req->sent_at == 0) { dbgmsg(tracker->key, "sending scrape req %p", (void*)req); req->sent_at = now; tau_tracker_send_request(tracker, req->payload, req->payload_len); if (req->callback == NULL) { tau_scrape_request_free(req); tr_ptrArrayRemove(reqs, i); --i; --n; } } } } static void on_tracker_connection_response(struct tau_tracker* tracker, tau_action_t action, struct evbuffer* buf) { time_t const now = tr_time(); tracker->connecting_at = 0; tracker->connection_transaction_id = 0; if (action == TAU_ACTION_CONNECT) { tracker->connection_id = evbuffer_read_ntoh_64(buf); tracker->connection_expiration_time = now + TAU_CONNECTION_TTL_SECS; dbgmsg(tracker->key, "Got a new connection ID from tracker: %" PRIu64, tracker->connection_id); } else { char* errmsg; size_t const buflen = buf != NULL ? evbuffer_get_length(buf) : 0; if (action == TAU_ACTION_ERROR && buflen > 0) { errmsg = tr_strndup(evbuffer_pullup(buf, -1), buflen); } else { errmsg = tr_strdup(_("Connection failed")); } dbgmsg(tracker->key, "%s", errmsg); tau_tracker_fail_all(tracker, true, false, errmsg); tr_free(errmsg); } tau_tracker_upkeep(tracker); } static void tau_tracker_timeout_reqs(struct tau_tracker* tracker) { tr_ptrArray* reqs; time_t const now = time(NULL); bool const cancel_all = tracker->close_at != 0 && (tracker->close_at <= now); if (tracker->connecting_at != 0 && tracker->connecting_at + TAU_REQUEST_TTL < now) { on_tracker_connection_response(tracker, TAU_ACTION_ERROR, NULL); } reqs = &tracker->announces; for (int i = 0, n = tr_ptrArraySize(reqs); i < n; ++i) { struct tau_announce_request* req = tr_ptrArrayNth(reqs, i); if (cancel_all || req->created_at + TAU_REQUEST_TTL < now) { dbgmsg(tracker->key, "timeout announce req %p", (void*)req); tau_announce_request_fail(req, false, true, NULL); tau_announce_request_free(req); tr_ptrArrayRemove(reqs, i); --i; --n; } } reqs = &tracker->scrapes; for (int i = 0, n = tr_ptrArraySize(reqs); i < n; ++i) { struct tau_scrape_request* req = tr_ptrArrayNth(reqs, i); if (cancel_all || req->created_at + TAU_REQUEST_TTL < now) { dbgmsg(tracker->key, "timeout scrape req %p", (void*)req); tau_scrape_request_fail(req, false, true, NULL); tau_scrape_request_free(req); tr_ptrArrayRemove(reqs, i); --i; --n; } } } static bool tau_tracker_is_idle(struct tau_tracker const* tracker) { return tr_ptrArrayEmpty(&tracker->announces) && tr_ptrArrayEmpty(&tracker->scrapes) && tracker->dns_request == NULL; } static void tau_tracker_upkeep_ex(struct tau_tracker* tracker, bool timeout_reqs) { time_t const now = tr_time(); bool const closing = tracker->close_at != 0; /* if the address info is too old, expire it */ if (tracker->addr != NULL && (closing || tracker->addr_expiration_time <= now)) { dbgmsg(tracker->host, "Expiring old DNS result"); evutil_freeaddrinfo(tracker->addr); tracker->addr = NULL; } /* are there any requests pending? */ if (tau_tracker_is_idle(tracker)) { return; } /* if we don't have an address yet, try & get one now. */ if (!closing && tracker->addr == NULL && tracker->dns_request == NULL) { struct evutil_addrinfo hints; memset(&hints, 0, sizeof(hints)); hints.ai_family = AF_UNSPEC; hints.ai_socktype = SOCK_DGRAM; hints.ai_protocol = IPPROTO_UDP; dbgmsg(tracker->host, "Trying a new DNS lookup"); tracker->dns_request = evdns_getaddrinfo( tracker->session->evdns_base, tracker->host, NULL, &hints, tau_tracker_on_dns, tracker); return; } dbgmsg( tracker->key, "addr %p -- connected %d (%zu %zu) -- connecting_at %zu", (void*)tracker->addr, (int)(tracker->connection_expiration_time > now), (size_t)tracker->connection_expiration_time, (size_t)now, (size_t)tracker->connecting_at); /* also need a valid connection ID... */ if (tracker->addr != NULL && tracker->connection_expiration_time <= now && tracker->connecting_at == 0) { struct evbuffer* buf = evbuffer_new(); tracker->connecting_at = now; tracker->connection_transaction_id = tau_transaction_new(); dbgmsg(tracker->key, "Trying to connect. Transaction ID is %u", tracker->connection_transaction_id); evbuffer_add_hton_64(buf, 0x41727101980LL); evbuffer_add_hton_32(buf, TAU_ACTION_CONNECT); evbuffer_add_hton_32(buf, tracker->connection_transaction_id); (void)tau_sendto(tracker->session, tracker->addr, tracker->port, evbuffer_pullup(buf, -1), evbuffer_get_length(buf)); evbuffer_free(buf); return; } if (timeout_reqs) { tau_tracker_timeout_reqs(tracker); } if (tracker->addr != NULL && tracker->connection_expiration_time > now) { tau_tracker_send_reqs(tracker); } } static void tau_tracker_upkeep(struct tau_tracker* tracker) { tau_tracker_upkeep_ex(tracker, true); } /**** ***** ***** SESSION ***** ****/ struct tr_announcer_udp { /* tau_tracker */ tr_ptrArray trackers; tr_session* session; }; static struct tr_announcer_udp* announcer_udp_get(tr_session* session) { struct tr_announcer_udp* tau; if (session->announcer_udp != NULL) { return session->announcer_udp; } tau = tr_new0(struct tr_announcer_udp, 1); tau->trackers = TR_PTR_ARRAY_INIT; tau->session = session; session->announcer_udp = tau; return tau; } /* Finds the tau_tracker struct that corresponds to this url. If it doesn't exist yet, create one. */ static struct tau_tracker* tau_session_get_tracker(struct tr_announcer_udp* tau, char const* url) { int port; char* host; char* key; struct tau_tracker* tracker = NULL; /* see if we've already got a tracker that matches this host + port */ tr_urlParse(url, TR_BAD_SIZE, NULL, &host, &port, NULL); key = tr_strdup_printf("%s:%d", host, port); for (int i = 0, n = tr_ptrArraySize(&tau->trackers); tracker == NULL && i < n; ++i) { struct tau_tracker* tmp = tr_ptrArrayNth(&tau->trackers, i); if (tr_strcmp0(tmp->key, key) == 0) { tracker = tmp; } } /* if we don't have a match, build a new tracker */ if (tracker == NULL) { tracker = tr_new0(struct tau_tracker, 1); tracker->session = tau->session; tracker->key = key; tracker->host = host; tracker->port = port; tracker->scrapes = TR_PTR_ARRAY_INIT; tracker->announces = TR_PTR_ARRAY_INIT; tr_ptrArrayAppend(&tau->trackers, tracker); dbgmsg(tracker->key, "New tau_tracker created"); } else { tr_free(key); tr_free(host); } return tracker; } /**** ***** ***** PUBLIC API ***** ****/ void tr_tracker_udp_upkeep(tr_session* session) { struct tr_announcer_udp* tau = session->announcer_udp; if (tau != NULL) { tr_ptrArrayForeach(&tau->trackers, (PtrArrayForeachFunc)tau_tracker_upkeep); } } bool tr_tracker_udp_is_idle(tr_session const* session) { struct tr_announcer_udp* tau = session->announcer_udp; if (tau != NULL) { for (int i = 0, n = tr_ptrArraySize(&tau->trackers); i < n; ++i) { if (!tau_tracker_is_idle(tr_ptrArrayNth(&tau->trackers, i))) { return false; } } } return true; } /* drop dead now. */ void tr_tracker_udp_close(tr_session* session) { struct tr_announcer_udp* tau = session->announcer_udp; if (tau != NULL) { session->announcer_udp = NULL; tr_ptrArrayDestruct(&tau->trackers, (PtrArrayForeachFunc)tau_tracker_free); tr_free(tau); } } /* start shutting down. This doesn't destroy everything if there are requests, but sets a deadline on how much longer to wait for the remaining ones */ void tr_tracker_udp_start_shutdown(tr_session* session) { time_t const now = time(NULL); struct tr_announcer_udp* tau = session->announcer_udp; if (tau != NULL) { for (int i = 0, n = tr_ptrArraySize(&tau->trackers); i < n; ++i) { struct tau_tracker* tracker = tr_ptrArrayNth(&tau->trackers, i); if (tracker->dns_request != NULL) { evdns_getaddrinfo_cancel(tracker->dns_request); } tracker->close_at = now + 3; tau_tracker_upkeep(tracker); } } } /* @brief process an incoming udp message if it's a tracker response. * @return true if msg was a tracker response; false otherwise */ bool tau_handle_message(tr_session* session, uint8_t const* msg, size_t msglen) { struct tr_announcer_udp* tau; tau_action_t action_id; tau_transaction_t transaction_id; struct evbuffer* buf; if (session == NULL || session->announcer_udp == NULL) { return false; } if (msglen < sizeof(uint32_t) * 2) { return false; } /* extract the action_id and see if it makes sense */ buf = evbuffer_new(); evbuffer_add_reference(buf, msg, msglen, NULL, NULL); action_id = evbuffer_read_ntoh_32(buf); if (!is_tau_response_message(action_id, msglen)) { evbuffer_free(buf); return false; } /* extract the transaction_id and look for a match */ tau = session->announcer_udp; transaction_id = evbuffer_read_ntoh_32(buf); for (int i = 0, n = tr_ptrArraySize(&tau->trackers); i < n; ++i) { tr_ptrArray* reqs; struct tau_tracker* tracker = tr_ptrArrayNth(&tau->trackers, i); /* is it a connection response? */ if (tracker->connecting_at != 0 && transaction_id == tracker->connection_transaction_id) { dbgmsg(tracker->key, "%" PRIu32 " is my connection request!", transaction_id); on_tracker_connection_response(tracker, action_id, buf); evbuffer_free(buf); return true; } /* is it a response to one of this tracker's announces? */ reqs = &tracker->announces; for (int j = 0, jn = tr_ptrArraySize(reqs); j < jn; ++j) { struct tau_announce_request* req = tr_ptrArrayNth(reqs, j); if (req->sent_at != 0 && transaction_id == req->transaction_id) { dbgmsg(tracker->key, "%" PRIu32 " is an announce request!", transaction_id); tr_ptrArrayRemove(reqs, j); on_announce_response(req, action_id, buf); tau_announce_request_free(req); evbuffer_free(buf); return true; } } /* is it a response to one of this tracker's scrapes? */ reqs = &tracker->scrapes; for (int j = 0, jn = tr_ptrArraySize(reqs); j < jn; ++j) { struct tau_scrape_request* req = tr_ptrArrayNth(reqs, j); if (req->sent_at != 0 && transaction_id == req->transaction_id) { dbgmsg(tracker->key, "%" PRIu32 " is a scrape request!", transaction_id); tr_ptrArrayRemove(reqs, j); on_scrape_response(req, action_id, buf); tau_scrape_request_free(req); evbuffer_free(buf); return true; } } } /* no match... */ evbuffer_free(buf); return false; } void tr_tracker_udp_announce( tr_session* session, tr_announce_request const* request, tr_announce_response_func response_func, void* user_data) { struct tr_announcer_udp* tau = announcer_udp_get(session); struct tau_tracker* tracker = tau_session_get_tracker(tau, request->url); struct tau_announce_request* r = tau_announce_request_new(request, response_func, user_data); tr_ptrArrayAppend(&tracker->announces, r); tau_tracker_upkeep_ex(tracker, false); } void tr_tracker_udp_scrape( tr_session* session, tr_scrape_request const* request, tr_scrape_response_func response_func, void* user_data) { struct tr_announcer_udp* tau = announcer_udp_get(session); struct tau_tracker* tracker = tau_session_get_tracker(tau, request->url); struct tau_scrape_request* r = tau_scrape_request_new(request, response_func, user_data); tr_ptrArrayAppend(&tracker->scrapes, r); tau_tracker_upkeep_ex(tracker, false); }