/* $Id$ */ /* * Copyright (C) 2008-2011 Teluu Inc. (http://www.teluu.com) * Copyright (C) 2003-2008 Benny Prijono * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * 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 General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #include #include #include #include #include #include #include #define THIS_FILE "stun_transaction.c" #define TIMER_INACTIVE 0 #define TIMER_ACTIVE 1 struct pj_stun_client_tsx { char obj_name[PJ_MAX_OBJ_NAME]; pj_stun_tsx_cb cb; void *user_data; pj_grp_lock_t *grp_lock; pj_bool_t complete; pj_bool_t require_retransmit; unsigned rto_msec; pj_timer_entry retransmit_timer; unsigned transmit_count; pj_time_val retransmit_time; pj_timer_heap_t *timer_heap; pj_timer_entry destroy_timer; void *last_pkt; unsigned last_pkt_size; }; #if 1 # define TRACE_(expr) PJ_LOG(5,expr) #else # define TRACE_(expr) #endif static void retransmit_timer_callback(pj_timer_heap_t *timer_heap, pj_timer_entry *timer); static void destroy_timer_callback(pj_timer_heap_t *timer_heap, pj_timer_entry *timer); /* * Create a STUN client transaction. */ PJ_DEF(pj_status_t) pj_stun_client_tsx_create(pj_stun_config *cfg, pj_pool_t *pool, pj_grp_lock_t *grp_lock, const pj_stun_tsx_cb *cb, pj_stun_client_tsx **p_tsx) { pj_stun_client_tsx *tsx; PJ_ASSERT_RETURN(cfg && cb && p_tsx, PJ_EINVAL); PJ_ASSERT_RETURN(cb->on_send_msg, PJ_EINVAL); tsx = PJ_POOL_ZALLOC_T(pool, pj_stun_client_tsx); tsx->rto_msec = cfg->rto_msec; tsx->timer_heap = cfg->timer_heap; tsx->grp_lock = grp_lock; pj_memcpy(&tsx->cb, cb, sizeof(*cb)); tsx->retransmit_timer.cb = &retransmit_timer_callback; tsx->retransmit_timer.user_data = tsx; tsx->destroy_timer.cb = &destroy_timer_callback; tsx->destroy_timer.user_data = tsx; pj_ansi_snprintf(tsx->obj_name, sizeof(tsx->obj_name), "utsx%p", tsx); *p_tsx = tsx; PJ_LOG(5,(tsx->obj_name, "STUN client transaction created")); return PJ_SUCCESS; } PJ_DEF(pj_status_t) pj_stun_client_tsx_schedule_destroy( pj_stun_client_tsx *tsx, const pj_time_val *delay) { pj_status_t status; PJ_ASSERT_RETURN(tsx && delay, PJ_EINVAL); PJ_ASSERT_RETURN(tsx->cb.on_destroy, PJ_EINVAL); pj_grp_lock_acquire(tsx->grp_lock); /* Cancel previously registered timer */ pj_timer_heap_cancel_if_active(tsx->timer_heap, &tsx->destroy_timer, TIMER_INACTIVE); /* Stop retransmission, just in case */ pj_timer_heap_cancel_if_active(tsx->timer_heap, &tsx->retransmit_timer, TIMER_INACTIVE); status = pj_timer_heap_schedule_w_grp_lock(tsx->timer_heap, &tsx->destroy_timer, delay, TIMER_ACTIVE, tsx->grp_lock); if (status != PJ_SUCCESS) { pj_grp_lock_release(tsx->grp_lock); return status; } tsx->cb.on_complete = NULL; pj_grp_lock_release(tsx->grp_lock); TRACE_((tsx->obj_name, "STUN transaction %p schedule destroy", tsx)); return PJ_SUCCESS; } PJ_DEF(pj_status_t) pj_stun_client_tsx_destroy(pj_stun_client_tsx *tsx) { /* * Currently tsx has no objects to destroy so we don't need to do anything * here. */ /* pj_stun_client_tsx_stop(tsx); */ PJ_UNUSED_ARG(tsx); return PJ_SUCCESS; } /* * Destroy transaction immediately. */ PJ_DEF(pj_status_t) pj_stun_client_tsx_stop(pj_stun_client_tsx *tsx) { PJ_ASSERT_RETURN(tsx, PJ_EINVAL); /* Don't call grp_lock_acquire() because we might be called on * group lock's destructor. */ pj_timer_heap_cancel_if_active(tsx->timer_heap, &tsx->retransmit_timer, TIMER_INACTIVE); pj_timer_heap_cancel_if_active(tsx->timer_heap, &tsx->destroy_timer, TIMER_INACTIVE); PJ_LOG(5,(tsx->obj_name, "STUN client transaction %p stopped, ref_cnt=%d", tsx, pj_grp_lock_get_ref(tsx->grp_lock))); return PJ_SUCCESS; } /* * Check if transaction has completed. */ PJ_DEF(pj_bool_t) pj_stun_client_tsx_is_complete(pj_stun_client_tsx *tsx) { PJ_ASSERT_RETURN(tsx, PJ_FALSE); return tsx->complete; } /* * Set user data. */ PJ_DEF(pj_status_t) pj_stun_client_tsx_set_data(pj_stun_client_tsx *tsx, void *data) { PJ_ASSERT_RETURN(tsx, PJ_EINVAL); tsx->user_data = data; return PJ_SUCCESS; } /* * Get the user data */ PJ_DEF(void*) pj_stun_client_tsx_get_data(pj_stun_client_tsx *tsx) { PJ_ASSERT_RETURN(tsx, NULL); return tsx->user_data; } /* * Transmit message. */ static pj_status_t tsx_transmit_msg(pj_stun_client_tsx *tsx, pj_bool_t mod_count) { pj_status_t status; PJ_ASSERT_RETURN(tsx->retransmit_timer.id == TIMER_INACTIVE || !tsx->require_retransmit || !mod_count, PJ_EBUSY); if (tsx->require_retransmit && mod_count) { /* Calculate retransmit/timeout delay */ if (tsx->transmit_count == 0) { tsx->retransmit_time.sec = 0; tsx->retransmit_time.msec = tsx->rto_msec; } else if (tsx->transmit_count < PJ_STUN_MAX_TRANSMIT_COUNT-1) { unsigned msec; msec = PJ_TIME_VAL_MSEC(tsx->retransmit_time); msec <<= 1; tsx->retransmit_time.sec = msec / 1000; tsx->retransmit_time.msec = msec % 1000; } else { tsx->retransmit_time.sec = PJ_STUN_TIMEOUT_VALUE / 1000; tsx->retransmit_time.msec = PJ_STUN_TIMEOUT_VALUE % 1000; } /* Schedule timer first because when send_msg() failed we can * cancel it (as opposed to when schedule_timer() failed we cannot * cancel transmission). */; status = pj_timer_heap_schedule_w_grp_lock(tsx->timer_heap, &tsx->retransmit_timer, &tsx->retransmit_time, TIMER_ACTIVE, tsx->grp_lock); if (status != PJ_SUCCESS) { tsx->retransmit_timer.id = TIMER_INACTIVE; return status; } } if (mod_count) tsx->transmit_count++; PJ_LOG(5,(tsx->obj_name, "STUN sending message (transmit count=%d)", tsx->transmit_count)); pj_log_push_indent(); /* Send message */ status = tsx->cb.on_send_msg(tsx, tsx->last_pkt, tsx->last_pkt_size); if (status == PJ_EPENDING || status == PJ_EBUSY) status = PJ_SUCCESS; if (status == PJNATH_ESTUNDESTROYED) { /* We've been destroyed, don't access the object. */ } else if (status != PJ_SUCCESS) { if (mod_count || status == PJ_EINVALIDOP) { pj_timer_heap_cancel_if_active( tsx->timer_heap, &tsx->retransmit_timer, TIMER_INACTIVE); } PJ_PERROR(4, (tsx->obj_name, status, "STUN error sending message")); } pj_log_pop_indent(); return status; } /* * Send outgoing message and start STUN transaction. */ PJ_DEF(pj_status_t) pj_stun_client_tsx_send_msg(pj_stun_client_tsx *tsx, pj_bool_t retransmit, void *pkt, unsigned pkt_len) { pj_status_t status; PJ_ASSERT_RETURN(tsx && pkt && pkt_len, PJ_EINVAL); PJ_ASSERT_RETURN(tsx->retransmit_timer.id == 0, PJ_EBUSY); pj_grp_lock_acquire(tsx->grp_lock); /* Encode message */ tsx->last_pkt = pkt; tsx->last_pkt_size = pkt_len; /* Update STUN retransmit flag */ tsx->require_retransmit = retransmit; /* For TCP, schedule timeout timer after PJ_STUN_TIMEOUT_VALUE. * Since we don't have timeout timer, simulate this by using * retransmit timer. */ if (!retransmit) { unsigned timeout; pj_assert(tsx->retransmit_timer.id == 0); tsx->transmit_count = PJ_STUN_MAX_TRANSMIT_COUNT; timeout = tsx->rto_msec * 16; tsx->retransmit_time.sec = timeout / 1000; tsx->retransmit_time.msec = timeout % 1000; /* Schedule timer first because when send_msg() failed we can * cancel it (as opposed to when schedule_timer() failed we cannot * cancel transmission). */; status = pj_timer_heap_schedule_w_grp_lock(tsx->timer_heap, &tsx->retransmit_timer, &tsx->retransmit_time, TIMER_ACTIVE, tsx->grp_lock); if (status != PJ_SUCCESS) { tsx->retransmit_timer.id = TIMER_INACTIVE; pj_grp_lock_release(tsx->grp_lock); return status; } } /* Send the message */ status = tsx_transmit_msg(tsx, PJ_TRUE); if (status != PJ_SUCCESS) { pj_timer_heap_cancel_if_active(tsx->timer_heap, &tsx->retransmit_timer, TIMER_INACTIVE); pj_grp_lock_release(tsx->grp_lock); return status; } pj_grp_lock_release(tsx->grp_lock); return PJ_SUCCESS; } /* Retransmit timer callback */ static void retransmit_timer_callback(pj_timer_heap_t *timer_heap, pj_timer_entry *timer) { pj_stun_client_tsx *tsx = (pj_stun_client_tsx *) timer->user_data; pj_status_t status; PJ_UNUSED_ARG(timer_heap); pj_grp_lock_acquire(tsx->grp_lock); if (tsx->transmit_count >= PJ_STUN_MAX_TRANSMIT_COUNT) { /* tsx may be destroyed when calling the callback below */ pj_grp_lock_t *grp_lock = tsx->grp_lock; /* Retransmission count exceeded. Transaction has failed */ tsx->retransmit_timer.id = 0; PJ_LOG(4,(tsx->obj_name, "STUN timeout waiting for response")); pj_log_push_indent(); if (!tsx->complete) { tsx->complete = PJ_TRUE; if (tsx->cb.on_complete) { tsx->cb.on_complete(tsx, PJNATH_ESTUNTIMEDOUT, NULL, NULL, 0); } } pj_grp_lock_release(grp_lock); /* We might have been destroyed, don't try to access the object */ pj_log_pop_indent(); return; } tsx->retransmit_timer.id = 0; status = tsx_transmit_msg(tsx, PJ_TRUE); if (status != PJ_SUCCESS) { tsx->retransmit_timer.id = 0; if (!tsx->complete) { tsx->complete = PJ_TRUE; if (tsx->cb.on_complete) { tsx->cb.on_complete(tsx, status, NULL, NULL, 0); } } } pj_grp_lock_release(tsx->grp_lock); /* We might have been destroyed, don't try to access the object */ } /* * Request to retransmit the request. */ PJ_DEF(pj_status_t) pj_stun_client_tsx_retransmit(pj_stun_client_tsx *tsx, pj_bool_t mod_count) { if (tsx->destroy_timer.id != 0) { return PJ_SUCCESS; } if (mod_count) { pj_timer_heap_cancel_if_active(tsx->timer_heap, &tsx->retransmit_timer, TIMER_INACTIVE); } return tsx_transmit_msg(tsx, mod_count); } /* Timer callback to destroy transaction */ static void destroy_timer_callback(pj_timer_heap_t *timer_heap, pj_timer_entry *timer) { pj_stun_client_tsx *tsx = (pj_stun_client_tsx *) timer->user_data; PJ_UNUSED_ARG(timer_heap); tsx->destroy_timer.id = PJ_FALSE; tsx->cb.on_destroy(tsx); /* Don't access transaction after this */ } /* * Notify the STUN transaction about the arrival of STUN response. */ PJ_DEF(pj_status_t) pj_stun_client_tsx_on_rx_msg(pj_stun_client_tsx *tsx, const pj_stun_msg *msg, const pj_sockaddr_t *src_addr, unsigned src_addr_len) { pj_stun_errcode_attr *err_attr; pj_status_t status; /* Must be STUN response message */ if (!PJ_STUN_IS_SUCCESS_RESPONSE(msg->hdr.type) && !PJ_STUN_IS_ERROR_RESPONSE(msg->hdr.type)) { PJ_LOG(4,(tsx->obj_name, "STUN rx_msg() error: not response message")); return PJNATH_EINSTUNMSGTYPE; } /* We have a response with matching transaction ID. * We can cancel retransmit timer now. */ pj_timer_heap_cancel_if_active(tsx->timer_heap, &tsx->retransmit_timer, TIMER_INACTIVE); /* Find STUN error code attribute */ err_attr = (pj_stun_errcode_attr*) pj_stun_msg_find_attr(msg, PJ_STUN_ATTR_ERROR_CODE, 0); if (err_attr && err_attr->err_code <= 200) { /* draft-ietf-behave-rfc3489bis-05.txt Section 8.3.2: * Any response between 100 and 299 MUST result in the cessation * of request retransmissions, but otherwise is discarded. */ PJ_LOG(4,(tsx->obj_name, "STUN rx_msg() error: received provisional %d code (%.*s)", err_attr->err_code, (int)err_attr->reason.slen, err_attr->reason.ptr)); return PJ_SUCCESS; } if (err_attr == NULL) { status = PJ_SUCCESS; } else { status = PJ_STATUS_FROM_STUN_CODE(err_attr->err_code); } /* Call callback */ if (!tsx->complete) { tsx->complete = PJ_TRUE; if (tsx->cb.on_complete) { tsx->cb.on_complete(tsx, status, msg, src_addr, src_addr_len); } /* We might have been destroyed, don't try to access the object */ } return PJ_SUCCESS; }