/* * This file is part of the Sofia-SIP package * * Copyright (C) 2008 Nokia Corporation. * * Contact: Pekka Pessi * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public License * as published by the Free Software Foundation; either version 2.1 of * the License, or (at your option) any later version. * * This library 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 library; if not, write to the Free Software * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA * 02110-1301 USA * */ /**@CFILE s2sip.c * @brief Check-Based Test Suite for Sofia SIP * * @author Pekka Pessi * * @date Created: Wed Apr 30 12:48:27 EEST 2008 ppessi */ #include "config.h" #undef NDEBUG #define TP_STACK_T struct s2sip #define TP_MAGIC_T struct tp_magic_s #define SU_ROOT_MAGIC_T struct s2sip #include "s2sip.h" #include "s2base.h" #include "s2dns.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include /* -- Module types ------------------------------------------------------ */ struct tp_magic_s { sip_via_t *via; sip_contact_t *contact; }; /* -- Module prototypes ------------------------------------------------- */ static msg_t *s2_msg(int flags); static int s2_complete_response(msg_t *response, int status, char const *phrase, msg_t *request); /* -- Module globals ---------------------------------------------------- */ struct s2sip *s2sip; /* ---------------------------------------------------------------------- */ char * s2_sip_generate_tag(su_home_t *home) { static unsigned s2_tag_generator = 0; return su_sprintf(home, "tag=%s-%s/%u", _s2_suite, _s2_case, ++s2_tag_generator); } /* ---------------------------------------------------------------------- */ /* SIP messages */ struct message * s2_sip_remove_message(struct message *m) { if ((*m->prev = m->next)) m->next->prev = m->prev; m->prev = NULL, m->next = NULL; return m; } void s2_sip_free_message(struct message *m) { if (m) { if (m->prev) { if ((*m->prev = m->next)) m->next->prev = m->prev; } msg_destroy(m->msg); tport_unref(m->tport); free(m); } } void s2_sip_flush_messages(void) { while (s2sip->received) { s2_sip_free_message(s2sip->received); } } struct message * s2_sip_next_response(void) { struct message *m; for (;;) { for (m = s2sip->received; m; m = m->next) { if (m->sip->sip_status) return s2_sip_remove_message(m); } s2_step(); } } struct message * s2_sip_wait_for_response(int status, sip_method_t method, char const *name) { struct message *m; for (;;) { for (m = s2sip->received; m; m = m->next) { if (!m->sip->sip_status) continue; if (status != 0 && m->sip->sip_status->st_status != status) continue; if (method == sip_method_unknown && name == NULL) break; if (m->sip->sip_cseq == NULL) continue; if (m->sip->sip_cseq->cs_method != method) continue; if (name == NULL) break; if (strcmp(m->sip->sip_cseq->cs_method_name, name) == 0) break; } if (m) return s2_sip_remove_message(m); s2_step(); } } int s2_sip_check_response(int status, sip_method_t method, char const *name) { struct message *m = s2_sip_wait_for_response(status, method, name); s2_sip_free_message(m); return m != NULL; } int s2_check_in_response(struct dialog *dialog, int status, sip_method_t method, char const *name) { struct message *m = s2_sip_wait_for_response(status, method, name); s2_sip_update_dialog(dialog, m); s2_sip_free_message(m); return m != NULL; } struct message * s2_sip_next_request(sip_method_t method, char const *name) { struct message *m; for (m = s2sip->received; m; m = m->next) { if (m->sip->sip_request) if (method == sip_method_unknown && name == NULL) return s2_sip_remove_message(m); if (m->sip->sip_request->rq_method == method && strcmp(m->sip->sip_request->rq_method_name, name) == 0) return s2_sip_remove_message(m); } return NULL; } struct message * s2_sip_wait_for_request(sip_method_t method, char const *name) { return s2_sip_wait_for_request_timeout(method, name, (unsigned)-1); } struct message * s2_sip_wait_for_request_timeout(sip_method_t method, char const *name, unsigned steps) { struct message *m; for (; steps > 0; steps--, s2_step()) { for (m = s2sip->received; m; m = m->next) { if (m->sip->sip_request) { if (method == sip_method_unknown && name == NULL) return s2_sip_remove_message(m); if (m->sip->sip_request->rq_method == method && strcmp(m->sip->sip_request->rq_method_name, name) == 0) return s2_sip_remove_message(m); } } } return NULL; } int s2_sip_check_request(sip_method_t method, char const *name) { struct message *m = s2_sip_wait_for_request(method, name); if (m) s2_sip_free_message(m); return m != NULL; } int s2_sip_check_request_timeout(sip_method_t method, char const *name, unsigned timeout) { struct message *m = s2_sip_wait_for_request_timeout(method, name, timeout); if (m) s2_sip_free_message(m); return m != NULL; } void s2_sip_save_uas_dialog(struct dialog *d, sip_t *sip) { if (d && !d->local) { assert(sip->sip_request); d->local = sip_from_dup(d->home, sip->sip_to); if (d->local->a_tag == NULL) sip_from_tag(d->home, d->local, s2_sip_generate_tag(d->home)); d->remote = sip_to_dup(d->home, sip->sip_from); d->call_id = sip_call_id_dup(d->home, sip->sip_call_id); d->rseq = sip->sip_cseq->cs_seq; /* d->route = sip_route_dup(d->home, sip->sip_record_route); */ d->target = sip_contact_dup(d->home, sip->sip_contact); } } struct message * s2_sip_respond_to(struct message *m, struct dialog *d, int status, char const *phrase, tag_type_t tag, tag_value_t value, ...) { ta_list ta; msg_t *reply; sip_t *sip; su_home_t *home; tp_name_t tpn[1]; char *rport; assert(m); assert(m->msg); assert(m->tport); assert(100 <= status && status < 700); s2_sip_save_uas_dialog(d, m->sip); ta_start(ta, tag, value); reply = s2_msg(0); sip = sip_object(reply); home = msg_home(reply); assert(reply && home && sip); if (sip_add_tl(reply, sip, ta_tags(ta)) < 0) { abort(); } s2_complete_response(reply, status, phrase, m->msg); if (sip->sip_status && sip->sip_status->st_status > 100 && sip->sip_to && !sip->sip_to->a_tag && sip->sip_cseq && sip->sip_cseq->cs_method != sip_method_cancel) { char const *ltag = NULL; if (d && d->local) ltag = d->local->a_tag; if (ltag == NULL) ltag = s2_sip_generate_tag(home); if (sip_to_tag(msg_home(reply), sip->sip_to, ltag) < 0) { assert(!"add To tag"); } } if (d && !d->contact) { d->contact = sip_contact_dup(d->home, sip->sip_contact); } *tpn = *tport_name(m->tport); rport = su_sprintf(home, "rport=%u", ntohs(((su_sockaddr_t *) msg_addrinfo(m->msg)->ai_addr)->su_port)); if (s2sip->server_uses_rport && sip->sip_via->v_rport && sip->sip_via->v_rport[0] == '\0') { msg_header_add_param(home, sip->sip_via->v_common, rport); } tpn->tpn_port = rport + strlen("rport="); tport_tsend(m->tport, reply, tpn, TPTAG_MTU(INT_MAX), ta_tags(ta)); msg_destroy(reply); ta_end(ta); return m; } /** Add headers from the request to the response message. */ static int s2_complete_response(msg_t *response, int status, char const *phrase, msg_t *request) { su_home_t *home = msg_home(response); sip_t *response_sip = sip_object(response); sip_t const *request_sip = sip_object(request); int incomplete = 0; if (!response_sip || !request_sip || !request_sip->sip_request) return -1; if (!response_sip->sip_status) response_sip->sip_status = sip_status_create(home, status, phrase, NULL); if (!response_sip->sip_via) response_sip->sip_via = sip_via_dup(home, request_sip->sip_via); if (!response_sip->sip_from) response_sip->sip_from = sip_from_dup(home, request_sip->sip_from); if (!response_sip->sip_to) response_sip->sip_to = sip_to_dup(home, request_sip->sip_to); if (!response_sip->sip_call_id) response_sip->sip_call_id = sip_call_id_dup(home, request_sip->sip_call_id); if (!response_sip->sip_cseq) response_sip->sip_cseq = sip_cseq_dup(home, request_sip->sip_cseq); if (!response_sip->sip_record_route && request_sip->sip_record_route) sip_add_dup(response, response_sip, (void*)request_sip->sip_record_route); incomplete = sip_complete_message(response) < 0; msg_serialize(response, (msg_pub_t *)response_sip); if (incomplete || !response_sip->sip_status || !response_sip->sip_via || !response_sip->sip_from || !response_sip->sip_to || !response_sip->sip_call_id || !response_sip->sip_cseq || !response_sip->sip_content_length || !response_sip->sip_separator || (request_sip->sip_record_route && !response_sip->sip_record_route)) return -1; return 0; } /* Send request (updating dialog). * * Return zero upon success, nonzero upon failure. */ int s2_sip_request_to(struct dialog *d, sip_method_t method, char const *name, tport_t *tport, tag_type_t tag, tag_value_t value, ...) { ta_list ta; tagi_t const *tags; msg_t *msg = s2_msg(0); sip_t *sip = sip_object(msg); url_t const *target = NULL; sip_cseq_t cseq[1]; sip_via_t via[1]; char const *v_params[8]; sip_content_length_t l[1]; tp_name_t tpn[1]; tp_magic_t *magic; int user_via = 0; ta_start(ta, tag, value); tags = ta_args(ta); if (sip_add_tagis(msg, sip, &tags) < 0) goto error; if (sip->sip_request) target = sip->sip_request->rq_url; else if (d->target) target = d->target->m_url; else if (s2sip->sut.contact) target = s2sip->sut.contact->m_url; else target = NULL; if (target == NULL) goto error; if (!sip->sip_request) { sip_request_t *rq; rq = sip_request_create(msg_home(msg), method, name, (url_string_t *)target, NULL); sip_header_insert(msg, sip, (sip_header_t *)rq); } if (!d->local && sip->sip_from) d->local = sip_from_dup(d->home, sip->sip_from); if (!d->contact && sip->sip_contact) d->contact = sip_contact_dup(d->home, sip->sip_contact); if (!d->remote && sip->sip_to) d->remote = sip_to_dup(d->home, sip->sip_to); if (!d->target && sip->sip_request) d->target = sip_contact_create(d->home, (url_string_t *)sip->sip_request->rq_url, NULL); if (!d->call_id && sip->sip_call_id) d->call_id = sip_call_id_dup(d->home, sip->sip_call_id); if (!d->lseq && sip->sip_cseq) d->lseq = sip->sip_cseq->cs_seq; if (!d->local) d->local = sip_from_dup(d->home, s2sip->aor); if (!d->contact) d->contact = sip_contact_dup(d->home, s2sip->contact); if (!d->remote) d->remote = sip_to_dup(d->home, s2sip->sut.aor); if (!d->call_id) d->call_id = sip_call_id_create(d->home, NULL); assert(d->local && d->contact); assert(d->remote && d->target); assert(d->call_id); if (tport == NULL) tport = d->tport; if (tport == NULL) tport = s2sip->sut.tport; if (tport == NULL && d->target->m_url->url_type == url_sips) tport = s2sip->tls.tport; if (tport == NULL) tport = s2sip->udp.tport; else if (tport == NULL) tport = s2sip->tcp.tport; else if (tport == NULL) tport = s2sip->tls.tport; assert(tport); *tpn = *tport_name(tport); if (tport_is_primary(tport)) { tpn->tpn_host = target->url_host; tpn->tpn_port = url_port(target); if (!tpn->tpn_port || !tpn->tpn_port[0]) tpn->tpn_port = url_port_default(target->url_type); } magic = tport_magic(tport); assert(magic != NULL); sip_cseq_init(cseq); cseq->cs_method = method; cseq->cs_method_name = name; if (d->invite && (method == sip_method_ack || method == sip_method_cancel)) { cseq->cs_seq = sip_object(d->invite)->sip_cseq->cs_seq; } else { cseq->cs_seq = ++d->lseq; } if (sip->sip_via) { user_via = 1; } else if (d->invite && method == sip_method_cancel) { *via = *sip_object(d->invite)->sip_via; } else { *via = *magic->via; via->v_params = v_params; v_params[0] = su_sprintf(msg_home(msg), "branch=z9hG4bK%lx", ++s2sip->tid); v_params[1] = NULL; } sip_content_length_init(l); if (sip->sip_payload) l->l_length = sip->sip_payload->pl_len; if (d->local->a_tag == NULL) { char const *ltag = s2_sip_generate_tag(d->home); if (sip_from_tag(d->home, d->local, ltag) < 0) { assert(!"add To tag"); } if (sip->sip_from && sip->sip_from->a_tag == NULL) { if (sip_from_tag(msg_home(msg), sip->sip_from, ltag) < 0) { assert(!"add To tag"); } } } sip_add_tl(msg, sip, TAG_IF(!sip->sip_from, SIPTAG_FROM(d->local)), TAG_IF(!sip->sip_contact, SIPTAG_CONTACT(d->contact)), TAG_IF(!sip->sip_to, SIPTAG_TO(d->remote)), TAG_IF(!sip->sip_call_id, SIPTAG_CALL_ID(d->call_id)), TAG_IF(!sip->sip_cseq, SIPTAG_CSEQ(cseq)), TAG_IF(!user_via, SIPTAG_VIA(via)), TAG_IF(!sip->sip_content_length, SIPTAG_CONTENT_LENGTH(l)), TAG_IF(!sip->sip_separator, SIPTAG_SEPARATOR_STR("\r\n")), TAG_END()); msg_serialize(msg, NULL); if (method == sip_method_invite) { msg_destroy(d->invite); d->invite = msg_ref_create(msg); } tport = tport_tsend(tport, msg, tpn, ta_tags(ta)); ta_end(ta); if (d->tport != tport) { tport_unref(d->tport); d->tport = tport_ref(tport); } return tport ? 0 : -1; error: ta_end(ta); return -1; } /** Save information from response. * * Send ACK for error messages to INVITE. */ int s2_sip_update_dialog(struct dialog *d, struct message *m) { int status = 0; if (m->sip->sip_status) status = m->sip->sip_status->st_status; if (100 < status && status < 300) { d->remote = sip_to_dup(d->home, m->sip->sip_to); if (m->sip->sip_contact) d->contact = sip_contact_dup(d->home, m->sip->sip_contact); } if (300 <= status && m->sip->sip_cseq && m->sip->sip_cseq->cs_method == sip_method_invite && d->invite) { msg_t *ack = s2_msg(0); sip_t *sip = sip_object(ack); sip_t *invite = sip_object(d->invite); sip_request_t rq[1]; sip_cseq_t cseq[1]; tp_name_t tpn[1]; *rq = *invite->sip_request; rq->rq_method = sip_method_ack, rq->rq_method_name = "ACK"; *cseq = *invite->sip_cseq; cseq->cs_method = sip_method_ack, cseq->cs_method_name = "ACK"; sip_add_tl(ack, sip, SIPTAG_REQUEST(rq), SIPTAG_VIA(invite->sip_via), SIPTAG_FROM(invite->sip_from), SIPTAG_TO(invite->sip_to), SIPTAG_CALL_ID(invite->sip_call_id), SIPTAG_CSEQ(cseq), SIPTAG_CONTENT_LENGTH_STR("0"), SIPTAG_SEPARATOR_STR("\r\n"), TAG_END()); *tpn = *tport_name(d->tport); if (!tport_is_secondary(d->tport) || !tport_is_clear_to_send(d->tport)) { tpn->tpn_host = rq->rq_url->url_host; tpn->tpn_port = rq->rq_url->url_port; } msg_serialize(ack, NULL); tport_tsend(d->tport, ack, tpn, TAG_END()); } return 0; } /* ---------------------------------------------------------------------- */ /* tport interface */ static void s2_sip_stack_recv(struct s2sip *s2, tport_t *tp, msg_t *msg, tp_magic_t *magic, su_time_t now) { struct message *next = calloc(1, sizeof *next), **prev; next->msg = msg; next->sip = sip_object(msg); next->when = now; next->tport = tport_ref(tp); #if 0 if (next->sip->sip_request) printf("%s: sent: %s\n", s2tester, next->sip->sip_request->rq_method_name); else printf("%s: sent: SIP/2.0 %u %s\n", s2tester, next->sip->sip_status->st_status, next->sip->sip_status->st_phrase); #endif for (prev = &s2->received; *prev; prev = &(*prev)->next) ; next->prev = prev, *prev = next; } static void s2_sip_stack_error(struct s2sip *s2, tport_t *tp, int errcode, char const *remote) { fprintf(stderr, "%s(%p): error %d (%s) from %s\n", "s2_sip_error", (void *)tp, errcode, su_strerror(errcode), remote ? remote : ""); } static msg_t * s2_sip_stack_alloc(struct s2sip *s2sip, int flags, char const data[], usize_t size, tport_t const *tport, tp_client_t *tpc) { return msg_create(s2sip->mclass, flags | s2sip->flags); } static msg_t * s2_msg(int flags) { return msg_create(s2sip->mclass, flags | s2sip->flags); } tp_stack_class_t const s2_sip_stack[1] = {{ /* tpac_size */ (sizeof s2_sip_stack), /* tpac_recv */ s2_sip_stack_recv, /* tpac_error */ s2_sip_stack_error, /* tpac_alloc */ s2_sip_stack_alloc, }}; static char const *default_protocols[] = { "udp", "tcp", NULL }; /** Setup for SIP transports */ void s2_sip_setup(char const *hostname, char const * const *protocols, tag_type_t tag, tag_value_t value, ...) { su_home_t *home; ta_list ta; tp_name_t tpn[1]; int bound; tport_t *tp; assert(s2base != NULL); assert(s2sip == NULL); s2sip = su_home_new(sizeof *s2sip); home = s2sip->home; s2sip->root = su_root_clone(s2base->root, s2sip); s2sip->aor = sip_from_format(home, "Bob ", hostname ? hostname : "example.net"); if (hostname == NULL) hostname = "127.0.0.1"; s2sip->hostname = hostname; s2sip->tid = (unsigned long)time(NULL) * 510633671UL; ta_start(ta, tag, value); s2sip->master = tport_tcreate(s2sip, s2_sip_stack, s2sip->root, TPTAG_LOG(getenv("S2_TPORT_LOG") != NULL), ta_tags(ta)); assert(s2sip->master); s2sip->mclass = sip_default_mclass(); s2sip->flags = 0; memset(tpn, 0, (sizeof tpn)); tpn->tpn_proto = "*"; tpn->tpn_host = "*"; tpn->tpn_port = "*"; if (protocols == NULL) protocols = default_protocols; bound = tport_tbind(s2sip->master, tpn, protocols, TPTAG_SERVER(1), ta_tags(ta)); assert(bound != -1); tp = tport_primaries(s2sip->master); *tpn = *tport_name(tp); s2sip->contact = sip_contact_format(home, "", tpn->tpn_host, tpn->tpn_port); for (;tp; tp = tport_next(tp)) { sip_via_t *v; sip_contact_t *m; tp_magic_t *magic; if (tport_magic(tp)) continue; *tpn = *tport_name(tp); v = sip_via_format(home, "SIP/2.0/%s %s:%s", tpn->tpn_proto, tpn->tpn_host, tpn->tpn_port); assert(v != NULL); if (!su_casenmatch(tpn->tpn_proto, "tls", 3)) { m = sip_contact_format(home, "", tpn->tpn_host, tpn->tpn_port, tpn->tpn_proto); if (s2sip->udp.contact == NULL && su_casematch(tpn->tpn_proto, "udp")) { s2sip->udp.tport = tport_ref(tp); s2sip->udp.contact = m; } if (s2sip->tcp.contact == NULL && su_casematch(tpn->tpn_proto, "tcp")) { s2sip->tcp.tport = tport_ref(tp); s2sip->tcp.contact = m; } } else if (!su_casematch(tpn->tpn_proto, "tls")) { m = sip_contact_format(s2sip->home, "", tpn->tpn_host, tpn->tpn_port, tpn->tpn_proto); } else { m = sip_contact_format(s2sip->home, "", tpn->tpn_host, tpn->tpn_port); if (s2sip->tls.contact == NULL) { s2sip->tls.tport = tport_ref(tp); s2sip->tls.contact = m; } } assert(m != NULL); magic = su_zalloc(home, (sizeof *magic)); magic->via = v, magic->contact = m; if (s2sip->contact == NULL) s2sip->contact = m; tport_set_magic(tp, magic); } } void s2_sip_teardown(void) { if (s2sip) { tport_destroy(s2sip->master), s2sip->master = NULL; su_root_destroy(s2sip->root), s2sip->root = NULL; su_home_unref(s2sip->home); s2sip = NULL; } }