/* $Id: events.c,v 1.2 2004/06/10 19:20:08 konst Exp $ */ /* * (C) Copyright 2001-2003 Wojtek Kaniewski * Robert J. Woźny * Arkadiusz Miśkiewicz * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU Lesser General Public License Version * 2.1 as published by the Free Software Foundation. * * 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 Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this program; if not, write to the Free Software * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */ #include #include #include #include #include #include #include "libgadu-config.h" #include "libgadu.h" #include #ifdef __GG_LIBGADU_HAVE_PTHREAD # include #endif #include #include #include #include #include #if defined(HAVE_OPENSSL) || defined(HAVE_NSS_COMPAT) # include # include #elif HAVE_GNUTLS # include #endif #include "compat.h" #include "libgadu.h" /* * gg_event_free() * * zwalnia pamięć zajmowaną przez informację o zdarzeniu. * * - e - wskaźnik do informacji o zdarzeniu */ void gg_event_free(struct gg_event *e) { gg_debug(GG_DEBUG_FUNCTION, "** gg_event_free(%p);\n", e); if (!e) return; if (e->type == GG_EVENT_MSG) { free(e->event.msg.message); free(e->event.msg.formats); free(e->event.msg.recipients); } if (e->type == GG_EVENT_NOTIFY) free(e->event.notify); if (e->type == GG_EVENT_NOTIFY60) { int i; for (i = 0; e->event.notify60[i].uin; i++) free(e->event.notify60[i].descr); free(e->event.notify60); } if (e->type == GG_EVENT_STATUS60) free(e->event.status60.descr); if (e->type == GG_EVENT_STATUS) free(e->event.status.descr); if (e->type == GG_EVENT_NOTIFY_DESCR) { free(e->event.notify_descr.notify); free(e->event.notify_descr.descr); } if (e->type == GG_EVENT_DCC_VOICE_DATA) free(e->event.dcc_voice_data.data); if (e->type == GG_EVENT_PUBDIR50_SEARCH_REPLY || e->type == GG_EVENT_PUBDIR50_READ || e->type == GG_EVENT_PUBDIR50_WRITE) gg_pubdir50_free(e->event.pubdir50); if (e->type == GG_EVENT_USERLIST) free(e->event.userlist.reply); if (e->type == GG_EVENT_IMAGE_REPLY) { free(e->event.image_reply.filename); free(e->event.image_reply.image); } free(e); } /* * gg_image_queue_remove() * * usuwa z kolejki dany wpis. * * - s - sesja * - q - kolejka * - freeq - czy zwolnić kolejkę * * 0/-1 */ int gg_image_queue_remove(struct gg_session *s, struct gg_image_queue *q, int freeq) { if (!s || !q) { errno = EINVAL; return -1; } if (s->images == q) s->images = q->next; else { struct gg_image_queue *qq; for (qq = s->images; qq; qq = qq->next) { if (qq->next == q) { qq->next = q->next; break; } } } if (freeq) { free(q->image); free(q->filename); free(q); } return 0; } /* * gg_image_queue_parse() // funkcja wewnętrzna * * parsuje przychodzący pakiet z obrazkiem. * * - e - opis zdarzenia * - */ static void gg_image_queue_parse(struct gg_event *e, char *p, unsigned int len, struct gg_session *sess, uin_t sender) { struct gg_msg_image_reply *i = (void*) p; struct gg_image_queue *q, *qq; if (!p || !sess || !e) return; /* znajdź dany obrazek w kolejce danej sesji */ for (qq = sess->images, q = NULL; qq; qq = qq->next) { if (sender == qq->sender && i->size == qq->size && i->crc32 == qq->crc32) { q = qq; break; } } if (!q) { gg_debug(GG_DEBUG_MISC, "// gg_image_queue_parse() unknown image from %d, size=%d, crc32=%.8x\n", sender, i->size, i->crc32); return; } if (p[0] == 0x05) { int i, ok = 0; q->done = 0; len -= sizeof(struct gg_msg_image_reply); p += sizeof(struct gg_msg_image_reply); /* sprawdź, czy mamy tekst zakończony \0 */ for (i = 0; i < len; i++) { if (!p[i]) { ok = 1; break; } } if (!ok) { gg_debug(GG_DEBUG_MISC, "// gg_image_queue_parse() malformed packet from %d, unlimited filename\n", sender); return; } if (!(q->filename = strdup(p))) { gg_debug(GG_DEBUG_MISC, "// gg_image_queue_parse() not enough memory for filename\n"); return; } len -= strlen(p) + 1; p += strlen(p) + 1; } else { len -= sizeof(struct gg_msg_image_reply); p += sizeof(struct gg_msg_image_reply); } if (q->done + len > q->size) len = q->size - q->done; memcpy(q->image + q->done, p, len); q->done += len; /* jeśli skończono odbierać obrazek, wygeneruj zdarzenie */ if (q->done >= q->size) { e->type = GG_EVENT_IMAGE_REPLY; e->event.image_reply.sender = sender; e->event.image_reply.size = q->size; e->event.image_reply.crc32 = q->crc32; e->event.image_reply.filename = q->filename; e->event.image_reply.image = q->image; gg_image_queue_remove(sess, q, 0); free(q); } } /* * gg_handle_recv_msg() // funkcja wewnętrzna * * obsługuje pakiet z przychodzącą wiadomością, rozbijając go na dodatkowe * struktury (konferencje, kolorki) w razie potrzeby. * * - h - nagłówek pakietu * - e - opis zdarzenia * * 0, -1. */ static int gg_handle_recv_msg(struct gg_header *h, struct gg_event *e, struct gg_session *sess) { struct gg_recv_msg *r = (struct gg_recv_msg*) ((char*) h + sizeof(struct gg_header)); char *p, *packet_end = (char*) r + h->length; gg_debug(GG_DEBUG_FUNCTION, "** gg_handle_recv_msg(%p, %p);\n", h, e); if (!r->seq && !r->msgclass) { gg_debug(GG_DEBUG_MISC, "// gg_handle_recv_msg() oops, silently ignoring the bait\n"); e->type = GG_EVENT_NONE; return 0; } for (p = (char*) r + sizeof(*r); *p; p++) { if (*p == 0x02 && p == packet_end - 1) { gg_debug(GG_DEBUG_MISC, "// gg_handle_recv_msg() received ctcp packet\n"); break; } if (p >= packet_end) { gg_debug(GG_DEBUG_MISC, "// gg_handle_recv_msg() malformed packet, message out of bounds (0)\n"); goto malformed; } } p++; /* przeanalizuj dodatkowe opcje */ while (p < packet_end) { switch (*p) { case 0x01: /* konferencja */ { struct gg_msg_recipients *m = (void*) p; uint32_t i, count; p += sizeof(*m); if (p > packet_end) { gg_debug(GG_DEBUG_MISC, "// gg_handle_recv_msg() packet out of bounds (1)\n"); goto malformed; } count = gg_fix32(m->count); if (p + count * sizeof(uin_t) > packet_end || p + count * sizeof(uin_t) < p || count > 0xffff) { gg_debug(GG_DEBUG_MISC, "// gg_handle_recv_msg() packet out of bounds (1.5)\n"); goto malformed; } if (!(e->event.msg.recipients = (void*) malloc(count * sizeof(uin_t)))) { gg_debug(GG_DEBUG_MISC, "// gg_handle_recv_msg() not enough memory for recipients data\n"); errno = ENOMEM; goto fail; } for (i = 0; i < count; i++, p += sizeof(uint32_t)) { uint32_t u; memcpy(&u, p, sizeof(uint32_t)); e->event.msg.recipients[i] = gg_fix32(u); } e->event.msg.recipients_count = count; break; } case 0x02: /* richtext */ { uint16_t len; char *buf; if (p + 3 > packet_end) { gg_debug(GG_DEBUG_MISC, "// gg_handle_recv_msg() packet out of bounds (2)\n"); goto malformed; } memcpy(&len, p + 1, sizeof(uint16_t)); len = gg_fix16(len); if (!(buf = malloc(len))) { gg_debug(GG_DEBUG_MISC, "// gg_handle_recv_msg() not enough memory for richtext data\n"); errno = ENOMEM; goto fail; } p += 3; if (p + len > packet_end) { gg_debug(GG_DEBUG_MISC, "// gg_handle_recv_msg() packet out of bounds (3)\n"); free(buf); goto malformed; } memcpy(buf, p, len); e->event.msg.formats = buf; e->event.msg.formats_length = len; p += len; break; } case 0x04: /* image_request */ { struct gg_msg_image_request *i = (void*) p; if (p + sizeof(*i) > packet_end) { gg_debug(GG_DEBUG_MISC, "// gg_handle_recv_msg() packet out of bounds (3)\n"); goto malformed; } e->event.image_request.sender = gg_fix32(r->sender); e->event.image_request.size = gg_fix32(i->size); e->event.image_request.crc32 = gg_fix32(i->crc32); e->type = GG_EVENT_IMAGE_REQUEST; return 0; } case 0x05: /* image_reply */ case 0x06: { struct gg_msg_image_reply *rep = (void*)p; if (p + sizeof(struct gg_msg_image_reply) == packet_end) { e->type = GG_EVENT_IMAGE_REPLY; e->event.image_reply.sender = gg_fix32(r->sender); e->event.image_reply.size = 0; e->event.image_reply.crc32 = gg_fix32(rep->crc32); e->event.image_reply.filename = NULL; e->event.image_reply.image = NULL; } else if (p + sizeof(struct gg_msg_image_reply) + 1 > packet_end) { gg_debug(GG_DEBUG_MISC, "// gg_handle_recv_msg() packet out of bounds (4)\n"); goto malformed; } rep->size = gg_fix32(rep->size); rep->crc32 = gg_fix32(rep->crc32); gg_image_queue_parse(e, p, (unsigned int)(packet_end - p), sess, gg_fix32(r->sender)); return 0; } default: { gg_debug(GG_DEBUG_MISC, "// gg_handle_recv_msg() unknown payload 0x%.2x\n", *p); p = packet_end; } } } e->type = GG_EVENT_MSG; e->event.msg.msgclass = gg_fix32(r->msgclass); e->event.msg.sender = gg_fix32(r->sender); e->event.msg.time = gg_fix32(r->time); e->event.msg.message = strdup((char*) r + sizeof(*r)); return 0; malformed: e->type = GG_EVENT_NONE; free(e->event.msg.recipients); free(e->event.msg.formats); return 0; fail: free(e->event.msg.recipients); free(e->event.msg.formats); return -1; } /* * gg_watch_fd_connected() // funkcja wewnętrzna * * patrzy na gniazdo, odbiera pakiet i wypełnia strukturę zdarzenia. * * - sess - struktura opisująca sesję * - e - opis zdarzenia * * 0, -1. */ static int gg_watch_fd_connected(struct gg_session *sess, struct gg_event *e) { struct gg_header *h = NULL; char *p; gg_debug(GG_DEBUG_FUNCTION, "** gg_watch_fd_connected(%p, %p);\n", sess, e); if (!sess) { errno = EFAULT; return -1; } if (!(h = gg_recv_packet(sess))) { gg_debug(GG_DEBUG_MISC, "// gg_watch_fd_connected() gg_recv_packet failed (errno=%d, %s)\n", errno, strerror(errno)); goto fail; } p = (char*) h + sizeof(struct gg_header); switch (h->type) { case GG_RECV_MSG: { if (h->length >= sizeof(struct gg_recv_msg)) if (gg_handle_recv_msg(h, e, sess)) goto fail; break; } case GG_NOTIFY_REPLY: { struct gg_notify_reply *n = (void*) p; unsigned int count, i; char *tmp; gg_debug(GG_DEBUG_MISC, "// gg_watch_fd_connected() received a notify reply\n"); if (h->length < sizeof(*n)) { gg_debug(GG_DEBUG_MISC, "// gg_watch_fd_connected() incomplete packet\n"); errno = EINVAL; goto fail; } if (gg_fix32(n->status) == GG_STATUS_BUSY_DESCR || gg_fix32(n->status) == GG_STATUS_NOT_AVAIL_DESCR || gg_fix32(n->status) == GG_STATUS_AVAIL_DESCR) { e->type = GG_EVENT_NOTIFY_DESCR; if (!(e->event.notify_descr.notify = (void*) malloc(sizeof(*n) * 2))) { gg_debug(GG_DEBUG_MISC, "// gg_watch_fd_connected() not enough memory for notify data\n"); errno = ENOMEM; goto fail; } e->event.notify_descr.notify[1].uin = 0; memcpy(e->event.notify_descr.notify, p, sizeof(*n)); e->event.notify_descr.notify[0].uin = gg_fix32(e->event.notify_descr.notify[0].uin); e->event.notify_descr.notify[0].status = gg_fix32(e->event.notify_descr.notify[0].status); e->event.notify_descr.notify[0].remote_port = gg_fix16(e->event.notify_descr.notify[0].remote_port); count = h->length - sizeof(*n); if (!(tmp = malloc(count + 1))) { gg_debug(GG_DEBUG_MISC, "// gg_watch_fd_connected() not enough memory for notify data\n"); errno = ENOMEM; goto fail; } memcpy(tmp, p + sizeof(*n), count); tmp[count] = 0; e->event.notify_descr.descr = tmp; } else { e->type = GG_EVENT_NOTIFY; if (!(e->event.notify = (void*) malloc(h->length + 2 * sizeof(*n)))) { gg_debug(GG_DEBUG_MISC, "// gg_watch_fd_connected() not enough memory for notify data\n"); errno = ENOMEM; goto fail; } memcpy(e->event.notify, p, h->length); count = h->length / sizeof(*n); e->event.notify[count].uin = 0; for (i = 0; i < count; i++) { e->event.notify[i].uin = gg_fix32(e->event.notify[i].uin); e->event.notify[i].status = gg_fix32(e->event.notify[i].status); e->event.notify[i].remote_port = gg_fix16(e->event.notify[i].remote_port); } } break; } case GG_STATUS: { struct gg_status *s = (void*) p; gg_debug(GG_DEBUG_MISC, "// gg_watch_fd_connected() received a status change\n"); if (h->length >= sizeof(*s)) { e->type = GG_EVENT_STATUS; memcpy(&e->event.status, p, sizeof(*s)); e->event.status.uin = gg_fix32(e->event.status.uin); e->event.status.status = gg_fix32(e->event.status.status); if (h->length > sizeof(*s)) { int len = h->length - sizeof(*s); char *buf = malloc(len + 1); if (buf) { memcpy(buf, p + sizeof(*s), len); buf[len] = 0; } e->event.status.descr = buf; } else e->event.status.descr = NULL; } break; } case GG_NOTIFY_REPLY60: { struct gg_notify_reply60 *n = (void*) p; unsigned int length = h->length, i = 0; gg_debug(GG_DEBUG_MISC, "// gg_watch_fd_connected() received a notify reply\n"); e->type = GG_EVENT_NOTIFY60; e->event.notify60 = malloc(sizeof(*e->event.notify60)); if (!e->event.notify60) { gg_debug(GG_DEBUG_MISC, "// gg_watch_fd_connected() not enough memory for notify data\n"); goto fail; } e->event.notify60[0].uin = 0; while (length >= sizeof(struct gg_notify_reply60)) { uin_t uin = gg_fix32(n->uin); char *tmp; e->event.notify60[i].uin = uin & 0x00ffffff; e->event.notify60[i].status = n->status; e->event.notify60[i].remote_ip = n->remote_ip; e->event.notify60[i].remote_port = gg_fix16(n->remote_port); e->event.notify60[i].version = n->version; e->event.notify60[i].image_size = n->image_size; e->event.notify60[i].descr = NULL; e->event.notify60[i].time = 0; if (uin & 0x40000000) e->event.notify60[i].version |= GG_HAS_AUDIO_MASK; if (GG_S_D(n->status)) { unsigned char descr_len = *((char*) n + sizeof(struct gg_notify_reply60)); if (descr_len < length) { if (!(e->event.notify60[i].descr = malloc(descr_len + 1))) { gg_debug(GG_DEBUG_MISC, "// gg_watch_fd_connected() not enough memory for notify data\n"); goto fail; } memcpy(e->event.notify60[i].descr, (char*) n + sizeof(struct gg_notify_reply60) + 1, descr_len); e->event.notify60[i].descr[descr_len] = 0; /* XXX czas */ } length -= sizeof(struct gg_notify_reply60) + descr_len + 1; n = (void*) ((char*) n + sizeof(struct gg_notify_reply60) + descr_len + 1); } else { length -= sizeof(struct gg_notify_reply60); n = (void*) ((char*) n + sizeof(struct gg_notify_reply60)); } if (!(tmp = realloc(e->event.notify60, (i + 2) * sizeof(*e->event.notify60)))) { gg_debug(GG_DEBUG_MISC, "// gg_watch_fd_connected() not enough memory for notify data\n"); free(e->event.notify60); goto fail; } e->event.notify60 = (void*) tmp; e->event.notify60[++i].uin = 0; } break; } case GG_STATUS60: { struct gg_status60 *s = (void*) p; uint32_t uin; gg_debug(GG_DEBUG_MISC, "// gg_watch_fd_connected() received a status change\n"); if (h->length < sizeof(*s)) break; uin = gg_fix32(s->uin); e->type = GG_EVENT_STATUS60; e->event.status60.uin = uin & 0x00ffffff; e->event.status60.status = s->status; e->event.status60.remote_ip = s->remote_ip; e->event.status60.remote_port = gg_fix16(s->remote_port); e->event.status60.version = s->version; e->event.status60.image_size = s->image_size; e->event.status60.descr = NULL; e->event.status60.time = 0; if (uin & 0x40000000) e->event.status60.version |= GG_HAS_AUDIO_MASK; if (h->length > sizeof(*s)) { int len = h->length - sizeof(*s); char *buf = malloc(len + 1); if (buf) { memcpy(buf, (char*) p + sizeof(*s), len); buf[len] = 0; } e->event.status60.descr = buf; if (len > 4 && p[h->length - 5] == 0) { uint32_t t; memcpy(&t, p + h->length - 4, sizeof(uint32_t)); e->event.status60.time = gg_fix32(t); } } break; } case GG_SEND_MSG_ACK: { struct gg_send_msg_ack *s = (void*) p; gg_debug(GG_DEBUG_MISC, "// gg_watch_fd_connected() received a message ack\n"); if (h->length < sizeof(*s)) break; e->type = GG_EVENT_ACK; e->event.ack.status = gg_fix32(s->status); e->event.ack.recipient = gg_fix32(s->recipient); e->event.ack.seq = gg_fix32(s->seq); break; } case GG_PONG: { gg_debug(GG_DEBUG_MISC, "// gg_watch_fd_connected() received a pong\n"); e->type = GG_EVENT_PONG; sess->last_pong = time(NULL); break; } case GG_DISCONNECTING: { gg_debug(GG_DEBUG_MISC, "// gg_watch_fd_connected() received disconnection warning\n"); e->type = GG_EVENT_DISCONNECT; break; } case GG_PUBDIR50_REPLY: { gg_debug(GG_DEBUG_MISC, "// gg_watch_fd_connected() received pubdir/search reply\n"); if (gg_pubdir50_handle_reply(e, p, h->length) == -1) goto fail; break; } case GG_USERLIST_REPLY: { gg_debug(GG_DEBUG_MISC, "// gg_watch_fd_connected() received userlist reply\n"); if (h->length < 1) break; /* jeśli odpowiedź na eksport, wywołaj zdarzenie tylko * gdy otrzymano wszystkie odpowiedzi */ if (p[0] == GG_USERLIST_PUT_REPLY || p[0] == GG_USERLIST_PUT_MORE_REPLY) { if (--sess->userlist_blocks) break; p[0] = GG_USERLIST_PUT_REPLY; } if (h->length > 1) { char *tmp; unsigned int len = (sess->userlist_reply) ? strlen(sess->userlist_reply) : 0; gg_debug(GG_DEBUG_MISC, "userlist_reply=%p, len=%d\n", sess->userlist_reply, len); if (!(tmp = realloc(sess->userlist_reply, len + h->length))) { gg_debug(GG_DEBUG_MISC, "// gg_watch_fd_connected() not enough memory for userlist reply\n"); free(sess->userlist_reply); sess->userlist_reply = NULL; goto fail; } sess->userlist_reply = tmp; sess->userlist_reply[len + h->length - 1] = 0; memcpy(sess->userlist_reply + len, p + 1, h->length - 1); } if (p[0] == GG_USERLIST_GET_MORE_REPLY) break; e->type = GG_EVENT_USERLIST; e->event.userlist.type = p[0]; e->event.userlist.reply = sess->userlist_reply; sess->userlist_reply = NULL; break; } default: gg_debug(GG_DEBUG_MISC, "// gg_watch_fd_connected() received unknown packet 0x%.2x\n", h->type); } free(h); return 0; fail: free(h); return -1; } /* * gg_watch_fd() * * funkcja, którą należy wywołać, gdy coś się stanie z obserwowanym * deskryptorem. zwraca klientowi informację o tym, co się dzieje. * * - sess - opis sesji * * wskaźnik do struktury gg_event, którą trzeba zwolnić później * za pomocą gg_event_free(). jesli rodzaj zdarzenia jest równy * GG_EVENT_NONE, należy je zignorować. jeśli zwróciło NULL, * stało się coś niedobrego -- albo zabrakło pamięci albo zerwało * połączenie. */ struct gg_event *gg_watch_fd(struct gg_session *sess) { struct gg_event *e; int res = 0; int port = 0; gg_debug(GG_DEBUG_FUNCTION, "** gg_watch_fd(%p);\n", sess); if (!sess) { errno = EFAULT; return NULL; } if (!(e = (void*) calloc(1, sizeof(*e)))) { gg_debug(GG_DEBUG_MISC, "// gg_watch_fd() not enough memory for event data\n"); return NULL; } e->type = GG_EVENT_NONE; switch (sess->state) { case GG_STATE_RESOLVING: { struct in_addr addr; int failed = 0; gg_debug(GG_DEBUG_MISC, "// gg_watch_fd() GG_STATE_RESOLVING\n"); if (read(sess->fd, &addr, sizeof(addr)) < (signed)sizeof(addr) || addr.s_addr == INADDR_NONE) { gg_debug(GG_DEBUG_MISC, "// gg_watch_fd() resolving failed\n"); failed = 1; } close(sess->fd); sess->fd = -1; #ifndef __GG_LIBGADU_HAVE_PTHREAD waitpid(sess->pid, NULL, 0); sess->pid = -1; #else if (sess->resolver) { pthread_cancel(*((pthread_t*) sess->resolver)); free(sess->resolver); sess->resolver = NULL; } #endif if (failed) goto fail_resolving; /* jeśli jesteśmy w resolverze i mamy ustawiony port * proxy, znaczy, że resolvowaliśmy proxy. zatem * wpiszmy jego adres. */ if (sess->proxy_port) sess->proxy_addr = addr.s_addr; /* zapiszmy sobie adres huba i adres serwera (do * bezpośredniego połączenia, jeśli hub leży) * z resolvera. */ if (sess->proxy_addr && sess->proxy_port) port = sess->proxy_port; else { sess->server_addr = sess->hub_addr = addr.s_addr; port = GG_APPMSG_PORT; } gg_debug(GG_DEBUG_MISC, "// gg_watch_fd() resolved, connecting to %s:%d\n", inet_ntoa(addr), port); /* łączymy się albo z hubem, albo z proxy, zależnie * od tego, co resolvowaliśmy. */ if ((sess->fd = gg_connect(&addr, port, sess->async)) == -1) { /* jeśli w trybie asynchronicznym gg_connect() * zwróci błąd, nie ma sensu próbować dalej. */ gg_debug(GG_DEBUG_MISC, "// gg_watch_fd() connection failed (errno=%d, %s), critical\n", errno, strerror(errno)); goto fail_connecting; } /* jeśli podano serwer i łączmy się przez proxy, * jest to bezpośrednie połączenie, inaczej jest * do huba. */ sess->state = (sess->proxy_addr && sess->proxy_port && sess->server_addr) ? GG_STATE_CONNECTING_GG : GG_STATE_CONNECTING_HUB; sess->check = GG_CHECK_WRITE; sess->timeout = GG_DEFAULT_TIMEOUT; break; } case GG_STATE_CONNECTING_HUB: { char buf[1024], *client; int res = 0, res_size = sizeof(res); const char *host, *appmsg; gg_debug(GG_DEBUG_MISC, "// gg_watch_fd() GG_STATE_CONNECTING_HUB\n"); /* jeśli asynchroniczne, sprawdzamy, czy nie wystąpił * przypadkiem jakiś błąd. */ if (sess->async && (getsockopt(sess->fd, SOL_SOCKET, SO_ERROR, &res, &res_size) || res)) { /* no tak, nie udało się połączyć z proxy. nawet * nie próbujemy dalej. */ if (sess->proxy_addr && sess->proxy_port) { gg_debug(GG_DEBUG_MISC, "// gg_watch_fd() connection to proxy failed (errno=%d, %s)\n", res, strerror(res)); goto fail_connecting; } gg_debug(GG_DEBUG_MISC, "// gg_watch_fd() connection to hub failed (errno=%d, %s), trying direct connection\n", res, strerror(res)); close(sess->fd); if ((sess->fd = gg_connect(&sess->hub_addr, GG_DEFAULT_PORT, sess->async)) == -1) { /* przy asynchronicznych, gg_connect() * zwraca -1 przy błędach socket(), * ioctl(), braku routingu itd. dlatego * nawet nie próbujemy dalej. */ gg_debug(GG_DEBUG_MISC, "// gg_watch_fd() direct connection failed (errno=%d, %s), critical\n", errno, strerror(errno)); goto fail_connecting; } sess->state = GG_STATE_CONNECTING_GG; sess->check = GG_CHECK_WRITE; sess->timeout = GG_DEFAULT_TIMEOUT; break; } gg_debug(GG_DEBUG_MISC, "// gg_watch_fd() connected to hub, sending query\n"); if (!(client = gg_urlencode((sess->client_version) ? sess->client_version : GG_DEFAULT_CLIENT_VERSION))) { gg_debug(GG_DEBUG_MISC, "// gg_watch_fd() out of memory for client version\n"); goto fail_connecting; } if (!gg_proxy_http_only && sess->proxy_addr && sess->proxy_port) host = "http://" GG_APPMSG_HOST; else host = ""; #if defined(HAVE_OPENSSL) || defined(HAVE_NSS_COMPAT) if (sess->ssl) appmsg = "appmsg3.asp"; else #elif HAVE_GNUTLS if (sess->session) appmsg = "appmsg3.asp"; else #endif appmsg = "appmsg2.asp"; snprintf(buf, sizeof(buf) - 1, "GET %s/appsvc/%s?fmnumber=%u&version=%s&lastmsg=%d HTTP/1.0\r\n" "Host: " GG_APPMSG_HOST "\r\n" "User-Agent: " GG_HTTP_USERAGENT "\r\n" "Pragma: no-cache\r\n" "\r\n", host, appmsg, sess->uin, client, sess->last_sysmsg); free(client); /* zwolnij pamięć po wersji klienta. */ if (sess->client_version) { free(sess->client_version); sess->client_version = NULL; } gg_debug(GG_DEBUG_MISC, "=> -----BEGIN-HTTP-QUERY-----\n%s\n=> -----END-HTTP-QUERY-----\n", buf); /* zapytanie jest krótkie, więc zawsze zmieści się * do bufora gniazda. jeśli write() zwróci mniej, * stało się coś złego. */ if (write(sess->fd, buf, strlen(buf)) < (signed)strlen(buf)) { gg_debug(GG_DEBUG_MISC, "// gg_watch_fd() sending query failed\n"); e->type = GG_EVENT_CONN_FAILED; e->event.failure = GG_FAILURE_WRITING; sess->state = GG_STATE_IDLE; close(sess->fd); sess->fd = -1; break; } sess->state = GG_STATE_READING_DATA; sess->check = GG_CHECK_READ; sess->timeout = GG_DEFAULT_TIMEOUT; break; } case GG_STATE_READING_DATA: { char buf[1024], *tmp, *host; int port = GG_DEFAULT_PORT; struct in_addr addr; gg_debug(GG_DEBUG_MISC, "// gg_watch_fd() GG_STATE_READING_DATA\n"); /* czytamy linię z gniazda i obcinamy \r\n. */ gg_read_line(sess->fd, buf, sizeof(buf) - 1); gg_chomp(buf); gg_debug(GG_DEBUG_TRAFFIC, "// gg_watch_fd() received http header (%s)\n", buf); /* sprawdzamy, czy wszystko w porządku. */ if (strncmp(buf, "HTTP/1.", 7) || strncmp(buf + 9, "200", 3)) { gg_debug(GG_DEBUG_MISC, "// gg_watch_fd() that's not what we've expected, trying direct connection\n"); close(sess->fd); /* jeśli otrzymaliśmy jakieś dziwne informacje, * próbujemy się łączyć z pominięciem huba. */ if (sess->proxy_addr && sess->proxy_port) { if ((sess->fd = gg_connect(&sess->proxy_addr, sess->proxy_port, sess->async)) == -1) { /* trudno. nie wyszło. */ gg_debug(GG_DEBUG_MISC, "// gg_watch_fd() connection to proxy failed (errno=%d, %s)\n", errno, strerror(errno)); goto fail_connecting; } sess->state = GG_STATE_CONNECTING_GG; sess->check = GG_CHECK_WRITE; sess->timeout = GG_DEFAULT_TIMEOUT; break; } sess->port = GG_DEFAULT_PORT; /* łączymy się na port 8074 huba. */ if ((sess->fd = gg_connect(&sess->hub_addr, sess->port, sess->async)) == -1) { gg_debug(GG_DEBUG_MISC, "// gg_watch_fd() connection failed (errno=%d, %s), trying https\n", errno, strerror(errno)); sess->port = GG_HTTPS_PORT; /* łączymy się na port 443. */ if ((sess->fd = gg_connect(&sess->hub_addr, sess->port, sess->async)) == -1) { gg_debug(GG_DEBUG_MISC, "// gg_watch_fd() connection failed (errno=%d, %s)\n", errno, strerror(errno)); goto fail_connecting; } } sess->state = GG_STATE_CONNECTING_GG; sess->check = GG_CHECK_WRITE; sess->timeout = GG_DEFAULT_TIMEOUT; break; } /* ignorujemy resztę nagłówka. */ while (strcmp(buf, "\r\n") && strcmp(buf, "")) gg_read_line(sess->fd, buf, sizeof(buf) - 1); /* czytamy pierwszą linię danych. */ gg_read_line(sess->fd, buf, sizeof(buf) - 1); gg_chomp(buf); /* jeśli pierwsza liczba w linii nie jest równa zeru, * oznacza to, że mamy wiadomość systemową. */ if (atoi(buf)) { char tmp[1024], *foo, *sysmsg_buf = NULL; int len = 0; while (gg_read_line(sess->fd, tmp, sizeof(tmp) - 1)) { if (!(foo = realloc(sysmsg_buf, len + strlen(tmp) + 2))) { gg_debug(GG_DEBUG_MISC, "// gg_watch_fd() out of memory for system message, ignoring\n"); break; } sysmsg_buf = foo; if (!len) strcpy(sysmsg_buf, tmp); else strcat(sysmsg_buf, tmp); len += strlen(tmp); } e->type = GG_EVENT_MSG; e->event.msg.msgclass = atoi(buf); e->event.msg.sender = 0; e->event.msg.message = sysmsg_buf; } close(sess->fd); gg_debug(GG_DEBUG_TRAFFIC, "// gg_watch_fd() received http data (%s)\n", buf); /* analizujemy otrzymane dane. */ tmp = buf; while (*tmp && *tmp != ' ') tmp++; while (*tmp && *tmp == ' ') tmp++; host = tmp; while (*tmp && *tmp != ' ') tmp++; *tmp = 0; if ((tmp = strchr(host, ':'))) { *tmp = 0; port = atoi(tmp+1); } addr.s_addr = inet_addr(host); sess->server_addr = addr.s_addr; if (!gg_proxy_http_only && sess->proxy_addr && sess->proxy_port) { /* jeśli mamy proxy, łączymy się z nim. */ if ((sess->fd = gg_connect(&sess->proxy_addr, sess->proxy_port, sess->async)) == -1) { /* nie wyszło? trudno. */ gg_debug(GG_DEBUG_MISC, "// gg_watch_fd() connection to proxy failed (errno=%d, %s)\n", errno, strerror(errno)); goto fail_connecting; } sess->state = GG_STATE_CONNECTING_GG; sess->check = GG_CHECK_WRITE; sess->timeout = GG_DEFAULT_TIMEOUT; break; } sess->port = port; /* łączymy się z właściwym serwerem. */ if ((sess->fd = gg_connect(&addr, sess->port, sess->async)) == -1) { gg_debug(GG_DEBUG_MISC, "// gg_watch_fd() connection failed (errno=%d, %s), trying https\n", errno, strerror(errno)); sess->port = GG_HTTPS_PORT; /* nie wyszło? próbujemy portu 443. */ if ((sess->fd = gg_connect(&addr, GG_HTTPS_PORT, sess->async)) == -1) { /* ostatnia deska ratunku zawiodła? * w takim razie zwijamy manatki. */ gg_debug(GG_DEBUG_MISC, "// gg_watch_fd() connection failed (errno=%d, %s)\n", errno, strerror(errno)); goto fail_connecting; } } sess->state = GG_STATE_CONNECTING_GG; sess->check = GG_CHECK_WRITE; sess->timeout = GG_DEFAULT_TIMEOUT; break; } case GG_STATE_CONNECTING_GG: { int res = 0, res_size = sizeof(res); gg_debug(GG_DEBUG_MISC, "// gg_watch_fd() GG_STATE_CONNECTING_GG\n"); /* jeśli wystąpił błąd podczas łączenia się... */ if (sess->async && (sess->timeout == 0 || getsockopt(sess->fd, SOL_SOCKET, SO_ERROR, &res, &res_size) || res)) { /* jeśli nie udało się połączenie z proxy, * nie mamy czego próbować więcej. */ if (sess->proxy_addr && sess->proxy_port) { gg_debug(GG_DEBUG_MISC, "// gg_watch_fd() connection to proxy failed (errno=%d, %s)\n", res, strerror(res)); goto fail_connecting; } close(sess->fd); sess->fd = -1; #ifdef ETIMEDOUT if (sess->timeout == 0) errno = ETIMEDOUT; #endif #if defined(HAVE_OPENSSL) || defined(HAVE_NSS_COMPAT) /* jeśli logujemy się po TLS, nie próbujemy * się łączyć już z niczym innym w przypadku * błędu. nie dość, że nie ma sensu, to i * trzeba by się bawić w tworzenie na nowo * SSL i SSL_CTX. */ if (sess->ssl) { gg_debug(GG_DEBUG_MISC, "// gg_watch_fd() connection failed (errno=%d, %s)\n", res, strerror(res)); goto fail_connecting; } #elif HAVE_GNUTLS if (sess->session) { gg_debug(GG_DEBUG_MISC, "// gg_watch_fd() connection failed (errno=%d, %s)\n", res, strerror(res)); goto fail_connecting; } #endif gg_debug(GG_DEBUG_MISC, "// gg_watch_fd() connection failed (errno=%d, %s), trying https\n", res, strerror(res)); sess->port = GG_HTTPS_PORT; /* próbujemy na port 443. */ if ((sess->fd = gg_connect(&sess->server_addr, sess->port, sess->async)) == -1) { gg_debug(GG_DEBUG_MISC, "// gg_watch_fd() connection failed (errno=%d, %s)\n", errno, strerror(errno)); goto fail_connecting; } } gg_debug(GG_DEBUG_MISC, "// gg_watch_fd() connected\n"); if (gg_proxy_http_only) sess->proxy_port = 0; /* jeśli mamy proxy, wyślijmy zapytanie. */ if (sess->proxy_addr && sess->proxy_port) { char buf[100], *auth = gg_proxy_auth(); snprintf(buf, sizeof(buf), "CONNECT %s:%d HTTP/1.0\r\n", inet_ntoa(*((struct in_addr*) &sess->server_addr)), sess->port); gg_debug(GG_DEBUG_MISC, "// gg_watch_fd() proxy request:\n// %s", buf); /* wysyłamy zapytanie. jest ono na tyle krótkie, * że musi się zmieścić w buforze gniazda. jeśli * write() zawiedzie, stało się coś złego. */ if (write(sess->fd, buf, strlen(buf)) < (signed)strlen(buf)) { gg_debug(GG_DEBUG_MISC, "// gg_watch_fd() can't send proxy request\n"); goto fail_connecting; } if (auth) { gg_debug(GG_DEBUG_MISC, "// %s", auth); if (write(sess->fd, auth, strlen(auth)) < (signed)strlen(auth)) { gg_debug(GG_DEBUG_MISC, "// gg_watch_fd() can't send proxy request\n"); goto fail_connecting; } free(auth); } if (write(sess->fd, "\r\n", 2) < 2) { gg_debug(GG_DEBUG_MISC, "// gg_watch_fd() can't send proxy request\n"); goto fail_connecting; } } #if defined(HAVE_OPENSSL) || defined(HAVE_NSS_COMPAT) if (sess->ssl) { SSL_set_fd(sess->ssl, sess->fd); sess->state = GG_STATE_TLS_NEGOTIATION; sess->check = GG_CHECK_WRITE; sess->timeout = GG_DEFAULT_TIMEOUT; break; } #elif HAVE_GNUTLS if (sess->session) { gnutls_transport_set_ptr(sess->session,(gnutls_transport_ptr_t)sess->fd); sess->state = GG_STATE_TLS_NEGOTIATION; sess->check = GG_CHECK_WRITE; sess->timeout = GG_DEFAULT_TIMEOUT; break; } #endif sess->state = GG_STATE_READING_KEY; sess->check = GG_CHECK_READ; sess->timeout = GG_DEFAULT_TIMEOUT; break; } #if defined(HAVE_OPENSSL) || defined(HAVE_NSS_COMPAT) case GG_STATE_TLS_NEGOTIATION: { int res; X509 *peer; gg_debug(GG_DEBUG_MISC, "// gg_watch_fd() GG_STATE_TLS_NEGOTIATION\n"); if ((res = SSL_connect(sess->ssl)) <= 0) { int err = SSL_get_error(sess->ssl, res); if (res == 0) { gg_debug(GG_DEBUG_MISC, "// gg_watch_fd() disconnected during TLS negotiation\n"); e->type = GG_EVENT_CONN_FAILED; e->event.failure = GG_FAILURE_TLS; sess->state = GG_STATE_IDLE; close(sess->fd); sess->fd = -1; break; } if (err == SSL_ERROR_WANT_READ) { gg_debug(GG_DEBUG_MISC, "// gg_watch_fd() SSL_connect() wants to read\n"); sess->state = GG_STATE_TLS_NEGOTIATION; sess->check = GG_CHECK_READ; sess->timeout = GG_DEFAULT_TIMEOUT; break; } else if (err == SSL_ERROR_WANT_WRITE) { gg_debug(GG_DEBUG_MISC, "// gg_watch_fd() SSL_connect() wants to write\n"); sess->state = GG_STATE_TLS_NEGOTIATION; sess->check = GG_CHECK_WRITE; sess->timeout = GG_DEFAULT_TIMEOUT; break; } else { char buf[1024]; ERR_error_string_n(ERR_get_error(), buf, sizeof(buf)); gg_debug(GG_DEBUG_MISC, "// gg_watch_fd() SSL_connect() bailed out: %s\n", buf); e->type = GG_EVENT_CONN_FAILED; e->event.failure = GG_FAILURE_TLS; sess->state = GG_STATE_IDLE; close(sess->fd); sess->fd = -1; break; } } gg_debug(GG_DEBUG_MISC, "// gg_watch_fd() TLS negotiation succeded:\n// cipher: %s\n", SSL_get_cipher_name(sess->ssl)); peer = SSL_get_peer_certificate(sess->ssl); if (!peer) gg_debug(GG_DEBUG_MISC, "// WARNING! unable to get peer certificate!\n"); else { char buf[1024]; X509_NAME_oneline(X509_get_subject_name(peer), buf, sizeof(buf)); gg_debug(GG_DEBUG_MISC, "// cert subject: %s\n", buf); X509_NAME_oneline(X509_get_issuer_name(peer), buf, sizeof(buf)); gg_debug(GG_DEBUG_MISC, "// cert issuer: %s\n", buf); } sess->state = GG_STATE_READING_KEY; sess->check = GG_CHECK_READ; sess->timeout = GG_DEFAULT_TIMEOUT; break; } #elif HAVE_GNUTLS case GG_STATE_TLS_NEGOTIATION: { int res; do{ res = gnutls_handshake(sess->session); }while ((res == GNUTLS_E_AGAIN) || (res == GNUTLS_E_INTERRUPTED)); if (res < 0) { gnutls_deinit(sess->session); gnutls_perror (res); e->type = GG_EVENT_CONN_FAILED; e->event.failure = GG_FAILURE_TLS; sess->state = GG_STATE_IDLE; close(sess->fd); sess->fd = -1; break; } sess->state = GG_STATE_READING_KEY; sess->check = GG_CHECK_READ; sess->timeout = GG_DEFAULT_TIMEOUT; break; } #endif case GG_STATE_READING_KEY: { struct gg_header *h; struct gg_welcome *w; struct gg_login60 l; unsigned int hash; unsigned char *password = sess->password; int ret; gg_debug(GG_DEBUG_MISC, "// gg_watch_fd() GG_STATE_READING_KEY\n"); memset(&l, 0, sizeof(l)); l.dunno2 = 0xbe; /* XXX bardzo, bardzo, bardzo głupi pomysł na pozbycie * się tekstu wrzucanego przez proxy. */ if (sess->proxy_addr && sess->proxy_port) { char buf[100]; strcpy(buf, ""); gg_read_line(sess->fd, buf, sizeof(buf) - 1); gg_chomp(buf); gg_debug(GG_DEBUG_MISC, "// gg_watch_fd() proxy response:\n// %s\n", buf); while (strcmp(buf, "")) { gg_read_line(sess->fd, buf, sizeof(buf) - 1); gg_chomp(buf); if (strcmp(buf, "")) gg_debug(GG_DEBUG_MISC, "// %s\n", buf); } /* XXX niech czeka jeszcze raz w tej samej * fazie. głupio, ale działa. */ sess->proxy_port = 0; break; } /* czytaj pierwszy pakiet. */ if (!(h = gg_recv_packet(sess))) { gg_debug(GG_DEBUG_MISC, "// gg_watch_fd() didn't receive packet (errno=%d, %s)\n", errno, strerror(errno)); e->type = GG_EVENT_CONN_FAILED; e->event.failure = GG_FAILURE_READING; sess->state = GG_STATE_IDLE; close(sess->fd); sess->fd = -1; break; } if (h->type != GG_WELCOME) { gg_debug(GG_DEBUG_MISC, "// gg_watch_fd() invalid packet received\n"); free(h); close(sess->fd); sess->fd = -1; errno = EINVAL; e->type = GG_EVENT_CONN_FAILED; e->event.failure = GG_FAILURE_INVALID; sess->state = GG_STATE_IDLE; break; } w = (struct gg_welcome*) ((char*) h + sizeof(struct gg_header)); w->key = gg_fix32(w->key); hash = gg_login_hash(password, w->key); gg_debug(GG_DEBUG_DUMP, "// gg_watch_fd() challenge %.4x --> hash %.8x\n", w->key, hash); free(h); free(sess->password); sess->password = NULL; { struct in_addr dcc_ip; dcc_ip.s_addr = gg_dcc_ip; gg_debug(GG_DEBUG_MISC, "// gg_watch_fd() gg_dcc_ip = %s\n", inet_ntoa(dcc_ip)); } if (gg_dcc_ip == (unsigned long) inet_addr("255.255.255.255")) { struct sockaddr_in sin; int sin_len = sizeof(sin); gg_debug(GG_DEBUG_MISC, "// gg_watch_fd() detecting address\n"); if (!getsockname(sess->fd, (struct sockaddr*) &sin, &sin_len)) { gg_debug(GG_DEBUG_MISC, "// gg_watch_fd() detected address to %s\n", inet_ntoa(sin.sin_addr)); l.local_ip = sin.sin_addr.s_addr; } else { gg_debug(GG_DEBUG_MISC, "// gg_watch_fd() unable to detect address\n"); l.local_ip = 0; } } else l.local_ip = gg_dcc_ip; l.uin = gg_fix32(sess->uin); l.hash = gg_fix32(hash); l.status = gg_fix32(sess->initial_status ? sess->initial_status : GG_STATUS_AVAIL); l.version = gg_fix32(sess->protocol_version); l.local_port = gg_fix16(gg_dcc_port); l.image_size = sess->image_size; if (sess->external_addr && sess->external_port > 1023) { l.external_ip = sess->external_addr; l.external_port = gg_fix16(sess->external_port); } gg_debug(GG_DEBUG_TRAFFIC, "// gg_watch_fd() sending GG_LOGIN60 packet\n"); ret = gg_send_packet(sess, GG_LOGIN60, &l, sizeof(l), sess->initial_descr, (sess->initial_descr) ? strlen(sess->initial_descr) : 0, NULL); free(sess->initial_descr); sess->initial_descr = NULL; if (ret == -1) { gg_debug(GG_DEBUG_TRAFFIC, "// gg_watch_fd() sending packet failed. (errno=%d, %s)\n", errno, strerror(errno)); close(sess->fd); sess->fd = -1; e->type = GG_EVENT_CONN_FAILED; e->event.failure = GG_FAILURE_WRITING; sess->state = GG_STATE_IDLE; break; } sess->state = GG_STATE_READING_REPLY; break; } case GG_STATE_READING_REPLY: { struct gg_header *h; gg_debug(GG_DEBUG_MISC, "// gg_watch_fd() GG_STATE_READING_REPLY\n"); if (!(h = gg_recv_packet(sess))) { gg_debug(GG_DEBUG_MISC, "// gg_watch_fd() didn't receive packet (errno=%d, %s)\n", errno, strerror(errno)); e->type = GG_EVENT_CONN_FAILED; e->event.failure = GG_FAILURE_READING; sess->state = GG_STATE_IDLE; close(sess->fd); sess->fd = -1; break; } if (h->type == GG_LOGIN_OK) { gg_debug(GG_DEBUG_MISC, "// gg_watch_fd() login succeded\n"); e->type = GG_EVENT_CONN_SUCCESS; sess->state = GG_STATE_CONNECTED; sess->timeout = -1; sess->status = (sess->initial_status) ? sess->initial_status : GG_STATUS_AVAIL; free(h); break; } if (h->type == GG_LOGIN_FAILED) { gg_debug(GG_DEBUG_MISC, "// gg_watch_fd() login failed\n"); e->event.failure = GG_FAILURE_PASSWORD; errno = EACCES; } else if (h->type == GG_NEED_EMAIL) { gg_debug(GG_DEBUG_MISC, "// gg_watch_fd() email change needed\n"); e->event.failure = GG_FAILURE_NEED_EMAIL; errno = EACCES; } else { gg_debug(GG_DEBUG_MISC, "// gg_watch_fd() invalid packet\n"); e->event.failure = GG_FAILURE_INVALID; errno = EINVAL; } e->type = GG_EVENT_CONN_FAILED; sess->state = GG_STATE_IDLE; close(sess->fd); sess->fd = -1; free(h); break; } case GG_STATE_CONNECTED: { gg_debug(GG_DEBUG_MISC, "// gg_watch_fd() GG_STATE_CONNECTED\n"); sess->last_event = time(NULL); if ((res = gg_watch_fd_connected(sess, e)) == -1) { gg_debug(GG_DEBUG_MISC, "// gg_watch_fd() watch_fd_connected failed (errno=%d, %s)\n", errno, strerror(errno)); if (errno == EAGAIN) { e->type = GG_EVENT_NONE; res = 0; } else res = -1; } break; } } done: if (res == -1) { free(e); e = NULL; } return e; fail_connecting: if (sess->fd != -1) { close(sess->fd); sess->fd = -1; } e->type = GG_EVENT_CONN_FAILED; e->event.failure = GG_FAILURE_CONNECTING; sess->state = GG_STATE_IDLE; goto done; fail_resolving: e->type = GG_EVENT_CONN_FAILED; e->event.failure = GG_FAILURE_RESOLVING; sess->state = GG_STATE_IDLE; goto done; } /* * Local variables: * c-indentation-style: k&r * c-basic-offset: 8 * indent-tabs-mode: notnil * End: * * vim: shiftwidth=8: */