/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2006 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #pragma ident "%Z%%M% %I% %E% SMI" #include "sip_parse_uri.h" #include "sip_msg.h" #include "sip_hash.h" #include "sip_miscdefs.h" #include "sip_dialog.h" #include "sip_parse_generic.h" #define SIP_DLG_XCHG_FROM 0 #define SIP_DLG_XCHG_TO 1 /* * Dialog state change callback function */ void (*sip_dlg_ulp_state_cb)(sip_dialog_t, sip_msg_t, int, int) = NULL; void (*sip_ulp_dlg_del_cb)(sip_dialog_t, sip_msg_t, void *) = NULL; boolean_t sip_incomplete_dialog(sip_dialog_t); /* * Exchange From/To header */ _sip_header_t *sip_dlg_xchg_from_to(sip_msg_t, int); /* * Complete dialog hash table */ sip_hash_t sip_dialog_hash[SIP_HASH_SZ]; /* * Partial dialog hash table */ sip_hash_t sip_dialog_phash[SIP_HASH_SZ]; /* * Route set structure */ typedef struct sip_dlg_route_set_s { char *sip_dlg_route; sip_str_t sip_dlg_ruri; boolean_t sip_dlg_route_lr; struct sip_dlg_route_set_s *sip_dlg_route_next; }sip_dlg_route_set_t; sip_dialog_t sip_seed_dialog(sip_conn_object_t, _sip_msg_t *, boolean_t, int); sip_dialog_t sip_complete_dialog(_sip_msg_t *, _sip_dialog_t *); int sip_dialog_process(_sip_msg_t *, sip_dialog_t *); void sip_dialog_delete(_sip_dialog_t *); void sip_dialog_init(); sip_dialog_t sip_dialog_find(_sip_msg_t *); boolean_t sip_dialog_match(void *, void *); boolean_t sip_dialog_free(void *, void *, int *); sip_dialog_t sip_update_dialog(sip_dialog_t, _sip_msg_t *); char *sip_dialog_req_uri(sip_dialog_t); static void sip_release_dialog_res(_sip_dialog_t *); void sip_dlg_self_destruct(void *); static int sip_dialog_get_route_set(_sip_dialog_t *, _sip_msg_t *, int); static void sip_dialog_free_rset(sip_dlg_route_set_t *); /* * Timer object for partial dialogs */ typedef struct sip_dialog_timer_obj_s { _sip_dialog_t *dialog; void (*func)(sip_dialog_t, sip_msg_t, void *); } sip_dialog_timer_obj_t; /* * To avoid duplication all over the place */ static void sip_release_dialog_res(_sip_dialog_t *dialog) { assert(dialog->sip_dlg_ref_cnt == 0); if (SIP_IS_TIMER_RUNNING(dialog->sip_dlg_timer)) SIP_CANCEL_TIMER(dialog->sip_dlg_timer); if (dialog->sip_dlg_call_id != NULL) sip_free_header(dialog->sip_dlg_call_id); if (dialog->sip_dlg_local_uri_tag != NULL) sip_free_header(dialog->sip_dlg_local_uri_tag); if (dialog->sip_dlg_remote_uri_tag != NULL) sip_free_header(dialog->sip_dlg_remote_uri_tag); if (dialog->sip_dlg_remote_target != NULL) sip_free_header(dialog->sip_dlg_remote_target); if (dialog->sip_dlg_route_set != NULL) sip_free_header(dialog->sip_dlg_route_set); if (dialog->sip_dlg_event != NULL) sip_free_header(dialog->sip_dlg_event); if (dialog->sip_dlg_req_uri.sip_str_ptr != NULL) { free(dialog->sip_dlg_req_uri.sip_str_ptr); dialog->sip_dlg_req_uri.sip_str_ptr = NULL; dialog->sip_dlg_req_uri.sip_str_len = 0; } if (dialog->sip_dlg_rset.sip_str_ptr != NULL) { free(dialog->sip_dlg_rset.sip_str_ptr); dialog->sip_dlg_rset.sip_str_len = 0; dialog->sip_dlg_rset.sip_str_ptr = NULL; } (void) pthread_mutex_destroy(&dialog->sip_dlg_mutex); free(dialog); } /* * Get the route information from the 'value' and add it to the route * set. */ static sip_dlg_route_set_t * sip_add_route_to_set(sip_hdr_value_t *value) { int vlen = 0; sip_dlg_route_set_t *rset; char *crlf; const sip_param_t *uri_param; int error; rset = calloc(1, sizeof (*rset)); if (rset == NULL) return (NULL); rset->sip_dlg_route_next = NULL; vlen = value->sip_value_end - value->sip_value_start; /* * check for CRLF */ crlf = value->sip_value_end - strlen(SIP_CRLF); while (crlf != NULL && strncmp(crlf, SIP_CRLF, strlen(SIP_CRLF)) == 0) { vlen -= strlen(SIP_CRLF); crlf -= strlen(SIP_CRLF); } rset->sip_dlg_route = calloc(1, vlen + 1); if (rset->sip_dlg_route == NULL) { free(rset); return (NULL); } /* * loose routing */ rset->sip_dlg_route_lr = B_FALSE; (void) strncpy(rset->sip_dlg_route, value->sip_value_start, vlen); rset->sip_dlg_ruri.sip_str_ptr = rset->sip_dlg_route + (value->cftr_uri.sip_str_ptr - value->sip_value_start); rset->sip_dlg_ruri.sip_str_len = value->cftr_uri.sip_str_len; rset->sip_dlg_route[vlen] = '\0'; assert(value->sip_value_parsed_uri != NULL); /* * Check if the 'lr' param is present for this route. */ uri_param = sip_get_uri_params(value->sip_value_parsed_uri, &error); if (error != 0) { free(rset->sip_dlg_route); free(rset); return (NULL); } if (uri_param != NULL) { rset->sip_dlg_route_lr = sip_is_param_present(uri_param, "lr", strlen("lr")); } return (rset); } /* * Depending on the route-set, determine the request URI. */ char * sip_dialog_req_uri(sip_dialog_t dialog) { const sip_str_t *req_uri; char *uri; _sip_dialog_t *_dialog; _dialog = (_sip_dialog_t *)dialog; if (_dialog->sip_dlg_route_set == NULL || _dialog->sip_dlg_req_uri.sip_str_ptr == NULL) { const struct sip_value *val; val = sip_get_header_value(_dialog->sip_dlg_remote_target, NULL); if (val == NULL) return (NULL); req_uri = &((sip_hdr_value_t *)val)->cftr_uri; } else { req_uri = &_dialog->sip_dlg_req_uri; } uri = (char *)malloc(req_uri->sip_str_len + 1); if (uri == NULL) return (NULL); (void) strncpy(uri, req_uri->sip_str_ptr, req_uri->sip_str_len); uri[req_uri->sip_str_len] = '\0'; return (uri); } /* * Free the route set. */ void sip_dialog_free_rset(sip_dlg_route_set_t *rset) { sip_dlg_route_set_t *next; while (rset != NULL) { next = rset->sip_dlg_route_next; rset->sip_dlg_route_next = NULL; free(rset->sip_dlg_route); free(rset); rset = next; } } /* * Recompute route-set */ static int sip_dlg_recompute_rset(_sip_dialog_t *dialog, _sip_msg_t *sip_msg, int what) { int ret; if (dialog->sip_dlg_route_set != NULL) { sip_free_header(dialog->sip_dlg_route_set); dialog->sip_dlg_route_set = NULL; } if (dialog->sip_dlg_req_uri.sip_str_ptr != NULL) { free(dialog->sip_dlg_req_uri.sip_str_ptr); dialog->sip_dlg_req_uri.sip_str_ptr = NULL; dialog->sip_dlg_req_uri.sip_str_len = 0; } if (dialog->sip_dlg_rset.sip_str_ptr != NULL) { free(dialog->sip_dlg_rset.sip_str_ptr); dialog->sip_dlg_rset.sip_str_ptr = NULL; dialog->sip_dlg_rset.sip_str_len = 0; } ret = sip_dialog_get_route_set(dialog, sip_msg, what); return (ret); } /* * If the route set is empty, the UAC MUST place the remote target URI * into the Request-URI. The UAC MUST NOT add a Route header field to * the request. * * If the route set is not empty, and the first URI in the route set * contains the lr parameter (see Section 19.1.1), the UAC MUST place * the remote target URI into the Request-URI and MUST include a Route * header field containing the route set values in order, including all * parameters. * * If the route set is not empty, and its first URI does not contain the * lr parameter, the UAC MUST place the first URI from the route set * into the Request-URI, stripping any parameters that are not allowed * in a Request-URI. The UAC MUST add a Route header field containing * the remainder of the route set values in order, including all * parameters. The UAC MUST then place the remote target URI into the * Route header field as the last value. */ int sip_dialog_set_route_hdr(_sip_dialog_t *dialog, sip_dlg_route_set_t *rset_head, int rcnt, int rlen) { size_t rset_len; _sip_header_t *rhdr; char *rset; char *rp; char *rsp; int count; sip_dlg_route_set_t *route; boolean_t first = B_TRUE; const sip_str_t *to_uri; char *uri = NULL; int rspl; int rpl; assert(rcnt > 0); dialog->sip_dlg_rset.sip_str_len = rlen + rcnt - 1; dialog->sip_dlg_rset.sip_str_ptr = malloc(rlen + rcnt); if (dialog->sip_dlg_rset.sip_str_ptr == NULL) return (ENOMEM); rsp = dialog->sip_dlg_rset.sip_str_ptr; rspl = rlen + rcnt; route = rset_head; rset_len = rlen; if (!route->sip_dlg_route_lr) { const struct sip_value *val; val = sip_get_header_value(dialog->sip_dlg_remote_target, NULL); to_uri = &((sip_hdr_value_t *)val)->cftr_uri; uri = (char *)malloc(to_uri->sip_str_len + 1); if (uri == NULL) { free(dialog->sip_dlg_rset.sip_str_ptr); dialog->sip_dlg_rset.sip_str_len = 0; dialog->sip_dlg_rset.sip_str_ptr = NULL; return (ENOMEM); } (void) strncpy(uri, to_uri->sip_str_ptr, to_uri->sip_str_len); uri[to_uri->sip_str_len] = '\0'; rset_len = rlen - strlen(route->sip_dlg_route) + strlen(uri) + SIP_SPACE_LEN + sizeof (char) + SIP_SPACE_LEN + sizeof (char); count = snprintf(rsp, rspl, "%s", route->sip_dlg_route); dialog->sip_dlg_req_uri.sip_str_ptr = malloc( route->sip_dlg_ruri.sip_str_len + 1); if (dialog->sip_dlg_req_uri.sip_str_ptr == NULL) { free(uri); free(dialog->sip_dlg_rset.sip_str_ptr); dialog->sip_dlg_rset.sip_str_len = 0; dialog->sip_dlg_rset.sip_str_ptr = NULL; return (ENOMEM); } (void) strncpy(dialog->sip_dlg_req_uri.sip_str_ptr, rsp + (route->sip_dlg_ruri.sip_str_ptr - route->sip_dlg_route), route->sip_dlg_ruri.sip_str_len); dialog->sip_dlg_req_uri.sip_str_ptr[ route->sip_dlg_ruri.sip_str_len] = '\0'; dialog->sip_dlg_req_uri.sip_str_len = route->sip_dlg_ruri.sip_str_len; rsp += count; rspl -= count; route = route->sip_dlg_route_next; } /* * rcnt - 1 is for the number of COMMAs */ rset_len += strlen(SIP_ROUTE) + SIP_SPACE_LEN + sizeof (char) + SIP_SPACE_LEN + rcnt - 1; rset = malloc(rset_len + 1); if (rset == NULL) { free(dialog->sip_dlg_rset.sip_str_ptr); dialog->sip_dlg_rset.sip_str_len = 0; dialog->sip_dlg_rset.sip_str_ptr = NULL; return (ENOMEM); } rhdr = sip_new_header(rset_len + strlen(SIP_CRLF)); if (rhdr == NULL) { free(rset); free(dialog->sip_dlg_rset.sip_str_ptr); dialog->sip_dlg_rset.sip_str_len = 0; dialog->sip_dlg_rset.sip_str_ptr = NULL; return (ENOMEM); } rp = rset; rpl = rset_len + 1; count = snprintf(rp, rpl, "%s %c ", SIP_ROUTE, SIP_HCOLON); rp += count; rpl -= count; while (route != NULL) { if (first) { count = snprintf(rp, rpl, "%s", route->sip_dlg_route); rp += count; rpl -= count; first = B_FALSE; if (uri != NULL) { count = snprintf(rsp, rspl, "%c%s", SIP_COMMA, route->sip_dlg_route); } else { count = snprintf(rsp, rspl, "%s", route->sip_dlg_route); } rsp += count; rspl -= count; } else { count = snprintf(rp, rpl, "%c%s", SIP_COMMA, route->sip_dlg_route); rp += count; rpl -= count; count = snprintf(rsp, rspl, "%c%s", SIP_COMMA, route->sip_dlg_route); rsp += count; rspl -= count; } route = route->sip_dlg_route_next; } assert(rsp <= dialog->sip_dlg_rset.sip_str_ptr + dialog->sip_dlg_rset.sip_str_len); dialog->sip_dlg_rset.sip_str_ptr[dialog->sip_dlg_rset.sip_str_len] = '\0'; if (uri != NULL) { if (first) { count = snprintf(rp, rpl, "%c %s %c", SIP_LAQUOT, uri, SIP_RAQUOT); } else { count = snprintf(rp, rpl, "%c%c %s %c", SIP_COMMA, SIP_LAQUOT, uri, SIP_RAQUOT); } rp += count; rpl -= count; free(uri); } assert(rp <= rset + rset_len); (void) snprintf(rhdr->sip_hdr_start, rset_len + strlen(SIP_CRLF) + 1, "%s%s", rset, SIP_CRLF); free(rset); dialog->sip_dlg_route_set = (sip_header_t)rhdr; sip_dialog_free_rset(rset_head); return (0); } /* * UAC Behavior * The route set MUST be set to the list of URIs in the Record-Route * header field from the response, taken in reverse order and preserving * all URI parameters. * * UAS behavior * The route set MUST be set to the list of URIs in the Record-Route * header field from the request, taken in order and preserving all URI * parameters. */ static int sip_dialog_get_route_set(_sip_dialog_t *dialog, _sip_msg_t *sip_msg, int what) { sip_header_t rrhdr; sip_hdr_value_t *value; int error; sip_dlg_route_set_t *rset_head = NULL; sip_dlg_route_set_t *rset_tail = NULL; sip_dlg_route_set_t *rset; int rset_cnt = 0; int rset_len = 0; (void) pthread_mutex_lock(&sip_msg->sip_msg_mutex); rrhdr = sip_search_for_header(sip_msg, SIP_RECORD_ROUTE, NULL); while (rrhdr != NULL) { (void) pthread_mutex_unlock(&sip_msg->sip_msg_mutex); value = (sip_hdr_value_t *)sip_get_header_value(rrhdr, &error); while (value != NULL && error == 0) { char *crlf; if (value->sip_value_state == SIP_VALUE_BAD) { value = (sip_hdr_value_t *)sip_get_next_value( (sip_header_value_t)value, &error); continue; } rset = sip_add_route_to_set(value); if (rset == NULL) goto r_error; /* * Add one for COMMA */ rset_cnt++; rset_len += (value->sip_value_end - value->sip_value_start); /* * Check for CRLF */ crlf = value->sip_value_end - strlen(SIP_CRLF); while (crlf != NULL && strncmp(crlf, SIP_CRLF, strlen(SIP_CRLF)) == 0) { rset_len -= strlen(SIP_CRLF); crlf -= strlen(SIP_CRLF); } if (rset_head == NULL) { assert(rset_tail == NULL); rset_head = rset_tail = rset; } else if (what == SIP_UAS_DIALOG) { rset_tail->sip_dlg_route_next = rset; rset_tail = rset; } else if (what == SIP_UAC_DIALOG) { rset->sip_dlg_route_next = rset_head; rset_head = rset; } else { assert(0); } value = (sip_hdr_value_t *)sip_get_next_value( (sip_header_value_t)value, &error); } (void) pthread_mutex_lock(&sip_msg->sip_msg_mutex); rrhdr = sip_search_for_header(sip_msg, SIP_RECORD_ROUTE, rrhdr); } (void) pthread_mutex_unlock(&sip_msg->sip_msg_mutex); if (rset_cnt == 0) return (0); if (sip_dialog_set_route_hdr(dialog, rset_head, rset_cnt, rset_len) != 0) { goto r_error; } return (0); r_error: sip_dialog_free_rset(rset_head); return (ENOMEM); } /* * UAS behavior: * The remote sequence number MUST be set to the value of the sequence * number in the CSeq header field of the request. The local sequence * number MUST be empty. The call identifier component of the dialog ID * MUST be set to the value of the Call-ID in the request. The local * tag component of the dialog ID MUST be set to the tag in the To field * in the response to the request (which always includes a tag), and the * remote tag component of the dialog ID MUST be set to the tag from the * From field in the request. A UAS MUST be prepared to receive a * request without a tag in the From field, in which case the tag is * considered to have a value of null. * The remote URI MUST be set to the URI in the From field, and the * local URI MUST be set to the URI in the To field. * The remote target MUST be set to the URI from the Contact header field * of the request. * * UAC behavior: * The local sequence number MUST be set to the value of the sequence * number in the CSeq header field of the request. The remote sequence * number MUST be empty (it is established when the remote UA sends a * request within the dialog). The call identifier component of the * dialog ID MUST be set to the value of the Call-ID in the request. * The local tag component of the dialog ID MUST be set to the tag in * the From field in the request, and the remote tag component of the * dialog ID MUST be set to the tag in the To field of the response. A * UAC MUST be prepared to receive a response without a tag in the To * field, in which case the tag is considered to have a value of null. * The remote URI MUST be set to the URI in the To field, and the local * URI MUST be set to the URI in the From field. * The remote target MUST be set to the URI from the Contact header field * of the response. */ /* * This is the routine that seeds a dialog. */ sip_dialog_t sip_seed_dialog(sip_conn_object_t obj, _sip_msg_t *sip_msg, boolean_t dlg_on_fork, int dlg_type) { _sip_dialog_t *dialog; int cseq; sip_header_t fhdr = NULL; sip_header_t thdr = NULL; sip_header_t chdr; sip_header_t cihdr; sip_header_t evhdr = NULL; const struct sip_value *value; sip_dialog_timer_obj_t *tim_obj = NULL; const sip_str_t *callid; sip_method_t method; int timer1 = sip_timer_T1; int error; if (!sip_msg_is_request((sip_msg_t)sip_msg, &error)) return (NULL); method = sip_get_request_method((sip_msg_t)sip_msg, &error); /* * Only INVITE and SUBSCRIBE supported */ if (error != 0 || (method != INVITE && method != SUBSCRIBE)) return (NULL); /* * A request outside of a dialog MUST NOT contain a To tag */ if (sip_get_to_tag((sip_msg_t)sip_msg, NULL) != NULL) return (NULL); if (dlg_type == SIP_UAS_DIALOG) { thdr = sip_dlg_xchg_from_to((sip_msg_t)sip_msg, SIP_DLG_XCHG_FROM); (void) pthread_mutex_lock(&sip_msg->sip_msg_mutex); } else { (void) pthread_mutex_lock(&sip_msg->sip_msg_mutex); fhdr = sip_search_for_header(sip_msg, SIP_FROM, NULL); } cihdr = sip_search_for_header(sip_msg, SIP_CALL_ID, NULL); chdr = sip_search_for_header(sip_msg, SIP_CONTACT, NULL); if (method == SUBSCRIBE) evhdr = sip_search_for_header(sip_msg, SIP_EVENT, NULL); (void) pthread_mutex_unlock(&sip_msg->sip_msg_mutex); if ((fhdr == NULL && thdr == NULL) || cihdr == NULL || chdr == NULL || (method == SUBSCRIBE && evhdr == NULL)) { if (thdr != NULL) sip_free_header(thdr); return (NULL); } /* * Sanity check since we just store the headers in the dialog */ if (sip_get_from_tag((sip_msg_t)sip_msg, NULL) == NULL || sip_get_from_uri_str((sip_msg_t)sip_msg, NULL) == NULL || ((cseq = sip_get_callseq_num((sip_msg_t)sip_msg, NULL)) == -1) || (callid = sip_get_callid((sip_msg_t)sip_msg, NULL)) == NULL || sip_get_to_uri_str((sip_msg_t)sip_msg, NULL) == NULL || ((value = sip_get_header_value(chdr, NULL)) == NULL) || sip_get_contact_uri_str((sip_header_value_t)value, NULL) == NULL) { if (thdr != NULL) sip_free_header(thdr); return (NULL); } tim_obj = calloc(1, sizeof (sip_dialog_timer_obj_t)); if (tim_obj == NULL) { if (thdr != NULL) sip_free_header(thdr); return (NULL); } dialog = calloc(1, sizeof (_sip_dialog_t)); if (dialog == NULL) { if (thdr != NULL) sip_free_header(thdr); return (NULL); } /* * We will take the TO header with the tag when we complete this * dialog */ if (dlg_type == SIP_UAS_DIALOG) { dialog->sip_dlg_remote_uri_tag = thdr; /* * We take the remote target from the incoming request on the * UAS. For the UAC, we will take it from the response. */ if ((dialog->sip_dlg_remote_target = sip_dup_header(chdr)) == NULL) { goto dia_err; } } else { if ((dialog->sip_dlg_local_uri_tag = sip_dup_header(fhdr)) == NULL) { goto dia_err; } } if ((dialog->sip_dlg_call_id = sip_dup_header(cihdr)) == NULL) goto dia_err; if (method == SUBSCRIBE) { dialog->sip_dlg_event = sip_dup_header(evhdr); if (dialog->sip_dlg_event == NULL) { goto dia_err; } } dialog->sip_dlg_rset.sip_str_ptr = NULL; dialog->sip_dlg_rset.sip_str_len = 0; dialog->sip_dlg_req_uri.sip_str_ptr = NULL; dialog->sip_dlg_req_uri.sip_str_len = 0; /* * Get the route set from the request, if present */ if (dlg_type == SIP_UAS_DIALOG && sip_dialog_get_route_set(dialog, sip_msg, dlg_type) != 0) { goto dia_err; } if (dlg_type == SIP_UAC_DIALOG) dialog->sip_dlg_local_cseq = cseq; else dialog->sip_dlg_remote_cseq = cseq; dialog->sip_dlg_type = dlg_type; dialog->sip_dlg_on_fork = dlg_on_fork; dialog->sip_dlg_method = method; /* * Set the partial dialog timer with the INVITE timeout val */ if (sip_conn_timer1 != NULL) timer1 = sip_conn_timer1(obj); SIP_INIT_TIMER(dialog->sip_dlg_timer, 64 * timer1); tim_obj->dialog = dialog; /* * Since at the client we never pass the partial dialog, we need not * invoke the callback when the partial dialog self-destructs. */ if (dlg_type == SIP_UAS_DIALOG) tim_obj->func = sip_ulp_dlg_del_cb; SIP_SCHED_TIMER(dialog->sip_dlg_timer, (void *)tim_obj, sip_dlg_self_destruct); if (!SIP_IS_TIMER_RUNNING(dialog->sip_dlg_timer)) goto dia_err; (void) pthread_mutex_init(&dialog->sip_dlg_mutex, NULL); if (dlg_type == SIP_UAC_DIALOG) { const sip_str_t *local_tag; local_tag = sip_get_from_tag((sip_msg_t)sip_msg, NULL); assert(local_tag != NULL); sip_md5_hash(local_tag->sip_str_ptr, local_tag->sip_str_len, callid->sip_str_ptr, callid->sip_str_len, NULL, 0, NULL, 0, NULL, 0, NULL, 0, (uchar_t *)dialog->sip_dlg_id); /* * Add it to the partial hash table */ if (sip_hash_add(sip_dialog_phash, (void *)dialog, SIP_DIGEST_TO_HASH(dialog->sip_dlg_id)) != 0) { goto dia_err; } } SIP_DLG_REFCNT_INCR(dialog); return ((sip_dialog_t)dialog); dia_err: sip_release_dialog_res(dialog); if (SIP_IS_TIMER_RUNNING(dialog->sip_dlg_timer)) SIP_CANCEL_TIMER(dialog->sip_dlg_timer); if (tim_obj != NULL) free(tim_obj); return (NULL); } /* * When creating a dialog from a NOTIFY request, we need to get the FROM * header for the dialog from the TO header of the NOTIFY. */ _sip_header_t * sip_dlg_xchg_from_to(sip_msg_t sip_msg, int what) { int len; _sip_header_t *newhdr; int cnt; const struct sip_header *hdr; int hdrsize; int error; hdr = sip_get_header(sip_msg, what == SIP_DLG_XCHG_FROM ? SIP_FROM : SIP_TO, NULL, &error); if (error != 0 || hdr == NULL) return (NULL); if (sip_parse_goto_values((_sip_header_t *)hdr) != 0) return (NULL); len = hdr->sip_hdr_end - hdr->sip_hdr_current; if (what == SIP_DLG_XCHG_FROM) { hdrsize = len + strlen(SIP_TO) + SIP_SPACE_LEN + sizeof (char) + SIP_SPACE_LEN; } else { hdrsize = len + strlen(SIP_FROM) + SIP_SPACE_LEN + sizeof (char) + SIP_SPACE_LEN; } newhdr = sip_new_header(hdrsize); if (newhdr == NULL) return (NULL); if (what == SIP_DLG_XCHG_FROM) { cnt = snprintf(newhdr->sip_hdr_current, hdrsize + 1, "%s %c ", SIP_TO, SIP_HCOLON); } else { cnt = snprintf(newhdr->sip_hdr_current, hdrsize + 1, "%s %c ", SIP_FROM, SIP_HCOLON); } newhdr->sip_hdr_current += cnt; (void) strncpy(newhdr->sip_hdr_current, hdr->sip_hdr_current, len); newhdr->sip_hdr_current += len; assert(newhdr->sip_hdr_current == newhdr->sip_hdr_end); assert(hdr->sip_header_functions != NULL); /* * FROM and TO have common parsing functions */ newhdr->sip_header_functions = hdr->sip_header_functions; newhdr->sip_hdr_current = newhdr->sip_hdr_start; return (newhdr); } /* * This is the response that completes the dialog that was created * in sip_seed_dialog(). */ sip_dialog_t sip_complete_dialog(_sip_msg_t *sip_msg, _sip_dialog_t *dialog) { _sip_header_t *thdr; _sip_header_t *evhdr = NULL; _sip_header_t *substate = NULL; sip_header_t chdr = NULL; int resp_code; const sip_str_t *ttag; const sip_str_t *remtag; const sip_str_t *callid; const struct sip_value *val; sip_method_t method; int error = 0; int prev_state; boolean_t alloc_thdr = B_FALSE; if (sip_msg_is_request((sip_msg_t)sip_msg, &error) && error == 0) method = sip_get_request_method((sip_msg_t)sip_msg, &error); else method = sip_get_callseq_method((sip_msg_t)sip_msg, &error); if (error != 0 || dialog == NULL || (sip_msg_is_request((sip_msg_t)sip_msg, &error) && (dialog->sip_dlg_method == INVITE || method != NOTIFY))) { return (NULL); } if ((dialog->sip_dlg_type == SIP_UAC_DIALOG && method != NOTIFY && sip_get_callseq_num((sip_msg_t)sip_msg, NULL) != dialog->sip_dlg_local_cseq) || (dialog->sip_dlg_type == SIP_UAS_DIALOG && method != NOTIFY && sip_get_callseq_num((sip_msg_t)sip_msg, NULL) != dialog->sip_dlg_remote_cseq)) { return (NULL); } if (method == NOTIFY) { const sip_str_t *sstate; thdr = sip_dlg_xchg_from_to((sip_msg_t)sip_msg, SIP_DLG_XCHG_FROM); if (thdr == NULL) return (NULL); alloc_thdr = B_TRUE; (void) pthread_mutex_lock(&sip_msg->sip_msg_mutex); chdr = sip_search_for_header(sip_msg, SIP_CONTACT, NULL); if (chdr == NULL) { (void) pthread_mutex_unlock(&sip_msg->sip_msg_mutex); sip_free_header(thdr); return (NULL); } evhdr = sip_search_for_header(sip_msg, SIP_EVENT, NULL); if (evhdr == NULL) { (void) pthread_mutex_unlock(&sip_msg->sip_msg_mutex); sip_free_header(thdr); return (NULL); } substate = sip_search_for_header(sip_msg, SIP_SUBSCRIPTION_STATE, NULL); if (substate == NULL) { (void) pthread_mutex_unlock(&sip_msg->sip_msg_mutex); sip_free_header(thdr); return (NULL); } (void) pthread_mutex_unlock(&sip_msg->sip_msg_mutex); sstate = sip_get_substate((sip_msg_t)sip_msg, &error); if (sstate == NULL || error != 0) { sip_free_header(thdr); return (NULL); } if ((sstate->sip_str_len != strlen("pending") && sstate->sip_str_len != strlen("active")) || ((sstate->sip_str_len == strlen("pending") && strncasecmp(sstate->sip_str_ptr, "pending", strlen("pending")) != 0) || (sstate->sip_str_len == strlen("active") && strncasecmp(sstate->sip_str_ptr, "active", strlen("active")) != 0))) { sip_free_header(thdr); return (NULL); } ttag = sip_get_from_tag((sip_msg_t)sip_msg, NULL); } else { if (dialog->sip_dlg_type == SIP_UAS_DIALOG) { thdr = sip_dlg_xchg_from_to((sip_msg_t)sip_msg, SIP_DLG_XCHG_TO); alloc_thdr = B_TRUE; } else { (void) pthread_mutex_lock(&sip_msg->sip_msg_mutex); thdr = sip_search_for_header(sip_msg, SIP_TO, NULL); if (dialog->sip_dlg_remote_target == NULL) { chdr = sip_search_for_header(sip_msg, SIP_CONTACT, NULL); } (void) pthread_mutex_unlock(&sip_msg->sip_msg_mutex); } if (thdr == NULL) { (void) pthread_mutex_unlock(&sip_msg->sip_msg_mutex); return (NULL); } ttag = sip_get_to_tag((sip_msg_t)sip_msg, NULL); } if (ttag == NULL) { if (alloc_thdr) sip_free_header(thdr); return (NULL); } prev_state = dialog->sip_dlg_state; if (method == NOTIFY) { int error; const sip_str_t *dlg_id_val = NULL; const sip_str_t *event; const sip_str_t *id_val = NULL; sip_header_value_t ev_val; sip_hdr_value_t *dlg_ev_val = NULL; event = sip_get_event((sip_msg_t)sip_msg, &error); if (event == NULL || error != 0) { sip_free_header(thdr); return (NULL); } ev_val = (sip_header_value_t)sip_get_header_value(evhdr, &error); if (ev_val != NULL) id_val = sip_get_param_value(ev_val, "id", &error); if (error == 0) { dlg_ev_val = (sip_hdr_value_t *)sip_get_header_value( dialog->sip_dlg_event, &error); } if (dlg_ev_val == NULL || error != 0) { sip_free_header(thdr); return (NULL); } dlg_id_val = sip_get_param_value((sip_header_value_t)dlg_ev_val, "id", &error); if (error != 0 || dlg_ev_val->str_val_len != event->sip_str_len || strncmp(dlg_ev_val->str_val_ptr, event->sip_str_ptr, event->sip_str_len != 0)) { sip_free_header(thdr); return (NULL); } if ((dlg_id_val == NULL && id_val != NULL) || (dlg_id_val != NULL && id_val == NULL)) { sip_free_header(thdr); return (NULL); } else if (dlg_id_val != NULL && id_val != NULL) { if (dlg_id_val->sip_str_len != id_val->sip_str_len || strncasecmp(dlg_id_val->sip_str_ptr, id_val->sip_str_ptr, dlg_id_val->sip_str_len) != 0) { sip_free_header(thdr); return (NULL); } } if (dialog->sip_dlg_type == SIP_UAC_DIALOG) { dialog->sip_dlg_remote_uri_tag = thdr; if ((dialog->sip_dlg_remote_target = sip_dup_header(chdr)) == NULL) { sip_free_header(thdr); return (NULL); } } else { dialog->sip_dlg_local_uri_tag = thdr; } dialog->sip_dlg_state = SIP_DLG_CONFIRMED; } else { resp_code = sip_get_response_code((sip_msg_t)sip_msg, &error); (void) pthread_mutex_lock(&dialog->sip_dlg_mutex); assert(dialog->sip_dlg_state == SIP_DLG_NEW); if (dialog->sip_dlg_remote_target == NULL && chdr != NULL) { assert(dialog->sip_dlg_type == SIP_UAC_DIALOG); if ((dialog->sip_dlg_remote_target = sip_dup_header(chdr)) == NULL) { (void) pthread_mutex_unlock( &dialog->sip_dlg_mutex); sip_dialog_terminate(dialog, (sip_msg_t)sip_msg); if (alloc_thdr) sip_free_header(thdr); return (NULL); } if (sip_dialog_get_route_set(dialog, sip_msg, dialog->sip_dlg_type) != 0) { (void) pthread_mutex_unlock( &dialog->sip_dlg_mutex); sip_dialog_terminate(dialog, (sip_msg_t)sip_msg); if (alloc_thdr) sip_free_header(thdr); return (NULL); } } if (SIP_PROVISIONAL_RESP(resp_code)) { dialog->sip_dlg_state = SIP_DLG_EARLY; } else if (SIP_OK_RESP(resp_code)) { /* * Per 12.1 the UAS must include the contact header * for a dialog establishing response, so if we * don't find one, we terminate it. */ if (dialog->sip_dlg_remote_target == NULL) { (void) pthread_mutex_unlock( &dialog->sip_dlg_mutex); if (sip_ulp_dlg_del_cb != NULL) { sip_ulp_dlg_del_cb(dialog, (sip_msg_t)sip_msg, NULL); } sip_dialog_terminate(dialog, (sip_msg_t)sip_msg); if (alloc_thdr) sip_free_header(thdr); return (NULL); } dialog->sip_dlg_state = SIP_DLG_CONFIRMED; } else { (void) pthread_mutex_unlock(&dialog->sip_dlg_mutex); if (sip_ulp_dlg_del_cb != NULL) { sip_ulp_dlg_del_cb(dialog, (sip_msg_t)sip_msg, NULL); } sip_dialog_terminate(dialog, (sip_msg_t)sip_msg); if (alloc_thdr) sip_free_header(thdr); return (NULL); } if (dialog->sip_dlg_type == SIP_UAS_DIALOG) { dialog->sip_dlg_local_uri_tag = thdr; } else { if ((dialog->sip_dlg_remote_uri_tag = sip_dup_header(thdr)) == NULL) { (void) pthread_mutex_unlock( &dialog->sip_dlg_mutex); sip_dialog_terminate(dialog, (sip_msg_t)sip_msg); return (NULL); } } } /* * Cancel the partial dialog timer */ if (SIP_IS_TIMER_RUNNING(dialog->sip_dlg_timer)) SIP_CANCEL_TIMER(dialog->sip_dlg_timer); if (dialog->sip_dlg_type == SIP_UAC_DIALOG) { val = sip_get_header_value(dialog->sip_dlg_local_uri_tag, &error); } else { val = sip_get_header_value(dialog->sip_dlg_remote_uri_tag, &error); } assert(val != NULL && error == 0); remtag = sip_get_param_value((sip_header_value_t)val, "tag", &error); val = sip_get_header_value(dialog->sip_dlg_call_id, &error); callid = &((sip_hdr_value_t *)val)->str_val; /* * Get an ID for this dialog */ if (dialog->sip_dlg_type == SIP_UAC_DIALOG) { sip_md5_hash(remtag->sip_str_ptr, remtag->sip_str_len, ttag->sip_str_ptr, ttag->sip_str_len, callid->sip_str_ptr, callid->sip_str_len, NULL, 0, NULL, 0, NULL, 0, (uchar_t *)dialog->sip_dlg_id); } else { sip_md5_hash(ttag->sip_str_ptr, ttag->sip_str_len, remtag->sip_str_ptr, remtag->sip_str_len, callid->sip_str_ptr, callid->sip_str_len, NULL, 0, NULL, 0, NULL, 0, (uchar_t *)dialog->sip_dlg_id); } SIP_DLG_REFCNT_INCR(dialog); (void) pthread_mutex_unlock(&dialog->sip_dlg_mutex); /* * Add it to the hash table */ if (sip_hash_add(sip_dialog_hash, (void *)dialog, SIP_DIGEST_TO_HASH(dialog->sip_dlg_id)) != 0) { /* * So that sip_dialog_delete() does not try to remove * this from the hash table. */ (void) pthread_mutex_lock(&dialog->sip_dlg_mutex); if (dialog->sip_dlg_type == SIP_UAS_DIALOG) { sip_free_header(dialog->sip_dlg_local_uri_tag); dialog->sip_dlg_local_uri_tag = NULL; } else { sip_free_header(dialog->sip_dlg_remote_uri_tag); dialog->sip_dlg_remote_uri_tag = NULL; } (void) pthread_mutex_unlock(&dialog->sip_dlg_mutex); sip_dialog_terminate(dialog, (sip_msg_t)sip_msg); return (NULL); } if (sip_dlg_ulp_state_cb != NULL) { sip_dlg_ulp_state_cb((sip_dialog_t)dialog, (sip_msg_t)sip_msg, prev_state, dialog->sip_dlg_state); } return ((sip_dialog_t)dialog); } /* * Check if this dialog is a match. */ boolean_t sip_dialog_match(void *obj, void *hindex) { _sip_dialog_t *dialog = (_sip_dialog_t *)obj; (void) pthread_mutex_lock(&dialog->sip_dlg_mutex); if (dialog->sip_dlg_state == SIP_DLG_DESTROYED) { (void) pthread_mutex_unlock(&dialog->sip_dlg_mutex); return (B_FALSE); } if (bcmp(dialog->sip_dlg_id, hindex, sizeof (dialog->sip_dlg_id)) == 0) { SIP_DLG_REFCNT_INCR(dialog); (void) pthread_mutex_unlock(&dialog->sip_dlg_mutex); return (B_TRUE); } (void) pthread_mutex_unlock(&dialog->sip_dlg_mutex); return (B_FALSE); } /* * Don't delete, just take it out of the hash */ boolean_t sip_dialog_dontfree(void *obj, void *hindex, int *found) { _sip_dialog_t *dialog = (_sip_dialog_t *)obj; *found = 0; (void) pthread_mutex_lock(&dialog->sip_dlg_mutex); if (bcmp(dialog->sip_dlg_id, hindex, sizeof (dialog->sip_dlg_id)) == 0) { *found = 1; (void) pthread_mutex_unlock(&dialog->sip_dlg_mutex); return (B_TRUE); } (void) pthread_mutex_unlock(&dialog->sip_dlg_mutex); return (B_FALSE); } /* * Free resources associated with the dialog, the object will be removed * from the hash list by sip_hash_delete. */ boolean_t sip_dialog_free(void *obj, void *hindex, int *found) { _sip_dialog_t *dialog = (_sip_dialog_t *)obj; *found = 0; (void) pthread_mutex_lock(&dialog->sip_dlg_mutex); if (bcmp(dialog->sip_dlg_id, hindex, sizeof (dialog->sip_dlg_id)) == 0) { *found = 1; assert(dialog->sip_dlg_state == SIP_DLG_DESTROYED); if (dialog->sip_dlg_ref_cnt != 0) { (void) pthread_mutex_unlock(&dialog->sip_dlg_mutex); return (B_FALSE); } sip_release_dialog_res(dialog); return (B_TRUE); } (void) pthread_mutex_unlock(&dialog->sip_dlg_mutex); return (B_FALSE); } /* * The UAS will receive the request from the transaction layer. If the * request has a tag in the To header field, the UAS core computes the * dialog identifier corresponding to the request and compares it with * existing dialogs. If there is a match, this is a mid-dialog request. */ sip_dialog_t sip_dialog_find(_sip_msg_t *sip_msg) { const sip_str_t *localtag; const sip_str_t *remtag; const sip_str_t *callid; uint16_t digest[8]; _sip_dialog_t *dialog; boolean_t is_request; int error; is_request = sip_msg_is_request((sip_msg_t)sip_msg, &error); if (error != 0) return (NULL); if (is_request) { localtag = sip_get_to_tag((sip_msg_t)sip_msg, &error); if (error == 0) remtag = sip_get_from_tag((sip_msg_t)sip_msg, &error); } else { remtag = sip_get_to_tag((sip_msg_t)sip_msg, &error); if (error == 0) localtag = sip_get_from_tag((sip_msg_t)sip_msg, &error); } if (error != 0) return (NULL); callid = sip_get_callid((sip_msg_t)sip_msg, &error); if (error != 0 || remtag == NULL || localtag == NULL || callid == NULL) { return (NULL); } sip_md5_hash(localtag->sip_str_ptr, localtag->sip_str_len, remtag->sip_str_ptr, remtag->sip_str_len, callid->sip_str_ptr, callid->sip_str_len, NULL, 0, NULL, 0, NULL, 0, (uchar_t *)digest); dialog = (_sip_dialog_t *)sip_hash_find(sip_dialog_hash, (void *)digest, SIP_DIGEST_TO_HASH(digest), sip_dialog_match); if (dialog == NULL) { sip_md5_hash(localtag->sip_str_ptr, localtag->sip_str_len, NULL, 0, callid->sip_str_ptr, callid->sip_str_len, NULL, 0, NULL, 0, NULL, 0, (uchar_t *)digest); dialog = (_sip_dialog_t *)sip_hash_find(sip_dialog_phash, (void *)digest, SIP_DIGEST_TO_HASH(digest), sip_dialog_match); } return ((sip_dialog_t)dialog); } /* * We keep this partial dialog for the duration of the INVITE * transaction timeout duration, i.e. Timer B. */ void sip_dlg_self_destruct(void *args) { sip_dialog_timer_obj_t *tim_obj = (sip_dialog_timer_obj_t *)args; _sip_dialog_t *dialog = (_sip_dialog_t *)tim_obj->dialog; int index; (void) pthread_mutex_lock(&dialog->sip_dlg_mutex); assert(dialog->sip_dlg_state == SIP_DLG_NEW); dialog->sip_dlg_state = SIP_DLG_DESTROYED; if (dialog->sip_dlg_type == SIP_UAC_DIALOG) { index = SIP_DIGEST_TO_HASH(dialog->sip_dlg_id); (void) pthread_mutex_unlock(&dialog->sip_dlg_mutex); sip_hash_delete(sip_dialog_phash, (void *)dialog->sip_dlg_id, index, sip_dialog_dontfree); } else { (void) pthread_mutex_unlock(&dialog->sip_dlg_mutex); } if (tim_obj->func != NULL) tim_obj->func(dialog, NULL, NULL); free(tim_obj); SIP_DLG_REFCNT_DECR(dialog); } /* * Terminate a dialog */ void sip_dialog_terminate(_sip_dialog_t *dialog, sip_msg_t sip_msg) { int prev_state; (void) pthread_mutex_lock(&dialog->sip_dlg_mutex); prev_state = dialog->sip_dlg_state; dialog->sip_dlg_state = SIP_DLG_DESTROYED; (void) pthread_mutex_unlock(&dialog->sip_dlg_mutex); if (sip_dlg_ulp_state_cb != NULL) { sip_dlg_ulp_state_cb((sip_dialog_t)dialog, sip_msg, prev_state, dialog->sip_dlg_state); } SIP_DLG_REFCNT_DECR(dialog); } /* * Delete a dialog */ void sip_dialog_delete(_sip_dialog_t *dialog) { int index; /* * partial dialog, not in the hash table */ if (dialog->sip_dlg_local_uri_tag == NULL || dialog->sip_dlg_remote_uri_tag == NULL) { /* * Cancel the partial dialog timer */ if (SIP_IS_TIMER_RUNNING(dialog->sip_dlg_timer)) SIP_CANCEL_TIMER(dialog->sip_dlg_timer); sip_release_dialog_res(dialog); return; } index = SIP_DIGEST_TO_HASH(dialog->sip_dlg_id); sip_hash_delete(sip_dialog_hash, (void *)dialog->sip_dlg_id, index, sip_dialog_free); } /* * Get the remote target from the CONTACT header from the 200 OK response */ static boolean_t sip_get_rtarg(_sip_dialog_t *dialog, _sip_msg_t *sip_msg) { sip_header_t chdr; if (dialog->sip_dlg_remote_target != NULL) return (B_TRUE); (void) pthread_mutex_lock(&sip_msg->sip_msg_mutex); chdr = sip_search_for_header(sip_msg, SIP_CONTACT, NULL); (void) pthread_mutex_unlock(&sip_msg->sip_msg_mutex); if (chdr == NULL) return (B_FALSE); if ((dialog->sip_dlg_remote_target = sip_dup_header(chdr)) == NULL) return (B_FALSE); return (B_TRUE); } /* * Process an incoming request/response */ /* ARGSUSED */ int sip_dialog_process(_sip_msg_t *sip_msg, sip_dialog_t *sip_dialog) { boolean_t request; _sip_dialog_t *_dialog; int error; request = sip_msg_is_request((sip_msg_t)sip_msg, &error); if (error != 0) return (EINVAL); _dialog = (_sip_dialog_t *)*sip_dialog; if (request) { uint32_t cseq; sip_method_t method; cseq = sip_get_callseq_num((sip_msg_t)sip_msg, &error); if (error != 0) return (EINVAL); method = sip_get_callseq_method((sip_msg_t)sip_msg, &error); if (error != 0) return (EINVAL); if (sip_get_request_method((sip_msg_t)sip_msg, &error) != method) { return (EINVAL); } (void) pthread_mutex_lock(&_dialog->sip_dlg_mutex); /* * Requests that do not change in any way the state * of a dialog may be received within a dialog. * They are processed as if they had been received * outside the dialog. * For dialogs that have been established with an * INVITE, the only target refresh request defined is * re-INVITE. */ if (_dialog->sip_dlg_method == INVITE && method == INVITE && _dialog->sip_dlg_remote_cseq != 0 && SIP_CSEQ_LT(cseq, _dialog->sip_dlg_remote_cseq)) { (void) pthread_mutex_unlock(&_dialog->sip_dlg_mutex); return (EPROTO); } /* * Target-Refresh request */ if (_dialog->sip_dlg_method == INVITE && method == INVITE) { sip_header_t chdr; sip_header_t nchdr; (void) pthread_mutex_lock(&sip_msg->sip_msg_mutex); chdr = sip_search_for_header(sip_msg, SIP_CONTACT, NULL); (void) pthread_mutex_unlock(&sip_msg->sip_msg_mutex); if (chdr != NULL && (nchdr = sip_dup_header(chdr)) != NULL) { if (_dialog->sip_dlg_remote_target != NULL) { sip_free_header( _dialog->sip_dlg_remote_target); } _dialog->sip_dlg_remote_target = nchdr; } } _dialog->sip_dlg_remote_cseq = cseq; (void) pthread_mutex_unlock(&_dialog->sip_dlg_mutex); } else { int resp_code; sip_method_t method; int error; resp_code = sip_get_response_code((sip_msg_t)sip_msg, &error); if (error == 0) { method = sip_get_callseq_method((sip_msg_t)sip_msg, &error); } if (error != 0) return (error); (void) pthread_mutex_lock(&_dialog->sip_dlg_mutex); assert(_dialog->sip_dlg_state == SIP_DLG_EARLY || _dialog->sip_dlg_state == SIP_DLG_CONFIRMED); /* * Let the user delete the dialog if it is not a 1XX/2XX resp * for an early INVITE dialog. */ if (SIP_OK_RESP(resp_code)) { if (method == INVITE) { if (!sip_get_rtarg(_dialog, sip_msg)) { (void) pthread_mutex_unlock( &_dialog->sip_dlg_mutex); if (sip_ulp_dlg_del_cb != NULL) { sip_ulp_dlg_del_cb( (sip_dialog_t)_dialog, (sip_msg_t)sip_msg, NULL); } sip_dialog_terminate(_dialog, (sip_msg_t)sip_msg); return (0); } if (_dialog->sip_dlg_state == SIP_DLG_EARLY) { _dialog->sip_dlg_state = SIP_DLG_CONFIRMED; (void) pthread_mutex_unlock( &_dialog->sip_dlg_mutex); (void) sip_dlg_recompute_rset(_dialog, sip_msg, SIP_UAC_DIALOG); if (sip_dlg_ulp_state_cb != NULL) { sip_dlg_ulp_state_cb( (sip_dialog_t)_dialog, sip_msg, SIP_DLG_EARLY, _dialog->sip_dlg_state); } return (0); } } } (void) pthread_mutex_unlock(&_dialog->sip_dlg_mutex); } return (0); } /* * Copy partial dialog to create a complete dialog */ _sip_dialog_t * sip_copy_partial_dialog(_sip_dialog_t *dialog) { _sip_dialog_t *new_dlg; new_dlg = calloc(1, sizeof (_sip_dialog_t)); if (new_dlg == NULL) return (NULL); if (dialog->sip_dlg_req_uri.sip_str_ptr != NULL) { new_dlg->sip_dlg_req_uri.sip_str_ptr = malloc(dialog->sip_dlg_req_uri.sip_str_len + 1); if (new_dlg->sip_dlg_req_uri.sip_str_ptr == NULL) { free(new_dlg); return (NULL); } (void) strncpy(new_dlg->sip_dlg_req_uri.sip_str_ptr, dialog->sip_dlg_req_uri.sip_str_ptr, dialog->sip_dlg_req_uri.sip_str_len); new_dlg->sip_dlg_req_uri.sip_str_ptr[ dialog->sip_dlg_req_uri.sip_str_len] = '\0'; new_dlg->sip_dlg_req_uri.sip_str_len = dialog->sip_dlg_req_uri.sip_str_len; } if (dialog->sip_dlg_route_set != NULL) { assert(dialog->sip_dlg_rset.sip_str_ptr != NULL); new_dlg->sip_dlg_rset.sip_str_ptr = malloc(dialog->sip_dlg_rset.sip_str_len + 1); if (new_dlg->sip_dlg_rset.sip_str_ptr == NULL) { if (new_dlg->sip_dlg_req_uri.sip_str_ptr != NULL) free(new_dlg->sip_dlg_req_uri.sip_str_ptr); free(new_dlg); return (NULL); } (void) strncpy(new_dlg->sip_dlg_rset.sip_str_ptr, dialog->sip_dlg_rset.sip_str_ptr, dialog->sip_dlg_rset.sip_str_len); new_dlg->sip_dlg_rset.sip_str_ptr[ dialog->sip_dlg_rset.sip_str_len] = '\0'; new_dlg->sip_dlg_rset.sip_str_len = dialog->sip_dlg_rset.sip_str_len; new_dlg->sip_dlg_route_set = sip_dup_header(dialog->sip_dlg_route_set); if (new_dlg->sip_dlg_route_set == NULL) { free(new_dlg->sip_dlg_rset.sip_str_ptr); if (new_dlg->sip_dlg_req_uri.sip_str_ptr != NULL) free(new_dlg->sip_dlg_req_uri.sip_str_ptr); free(new_dlg); return (NULL); } } if ((new_dlg->sip_dlg_local_uri_tag = sip_dup_header(dialog->sip_dlg_local_uri_tag)) == NULL || (new_dlg->sip_dlg_remote_target = sip_dup_header(dialog->sip_dlg_remote_target)) == NULL || (new_dlg->sip_dlg_call_id = sip_dup_header(dialog->sip_dlg_call_id)) == NULL) { sip_release_dialog_res(new_dlg); return (NULL); } if (dialog->sip_dlg_event != NULL) { new_dlg->sip_dlg_event = sip_dup_header(dialog->sip_dlg_event); if (new_dlg->sip_dlg_event == NULL) { sip_release_dialog_res(new_dlg); return (NULL); } } new_dlg->sip_dlg_local_cseq = dialog->sip_dlg_local_cseq; new_dlg->sip_dlg_type = dialog->sip_dlg_type; new_dlg->sip_dlg_on_fork = B_FALSE; (void) pthread_mutex_init(&new_dlg->sip_dlg_mutex, NULL); return (new_dlg); } /* * Update the dialog using the response */ sip_dialog_t sip_update_dialog(sip_dialog_t dialog, _sip_msg_t *sip_msg) { _sip_dialog_t *_dialog; boolean_t isreq; sip_method_t method; int resp_code = 0; int prev_state; boolean_t decr_ref = B_FALSE; int error; isreq = sip_msg_is_request((sip_msg_t)sip_msg, &error); if (error != 0) return (dialog); _dialog = (_sip_dialog_t *)dialog; (void) pthread_mutex_lock(&_dialog->sip_dlg_mutex); if (isreq) { method = sip_get_request_method((sip_msg_t)sip_msg, &error); if (error != 0 || _dialog->sip_dlg_method != SUBSCRIBE || method != NOTIFY) { (void) pthread_mutex_unlock(&_dialog->sip_dlg_mutex); return (dialog); } } else { resp_code = sip_get_response_code((sip_msg_t)sip_msg, &error); if (error != 0) { (void) pthread_mutex_unlock(&_dialog->sip_dlg_mutex); return (dialog); } } prev_state = _dialog->sip_dlg_state; if (_dialog->sip_dlg_state == SIP_DLG_CONFIRMED) { (void) pthread_mutex_unlock(&_dialog->sip_dlg_mutex); } else if (_dialog->sip_dlg_state == SIP_DLG_EARLY) { /* * Let the user delete the dialog if it is not a 1XX/2XX resp * for an early dialog. */ assert(!isreq); if (SIP_OK_RESP(resp_code)) { _dialog->sip_dlg_state = SIP_DLG_CONFIRMED; (void) pthread_mutex_unlock(&_dialog->sip_dlg_mutex); (void) sip_dlg_recompute_rset(_dialog, sip_msg, SIP_UAS_DIALOG); if (sip_dlg_ulp_state_cb != NULL) { sip_dlg_ulp_state_cb(dialog, (sip_msg_t)sip_msg, prev_state, dialog->sip_dlg_state); } } else { (void) pthread_mutex_unlock(&_dialog->sip_dlg_mutex); } } else if (_dialog->sip_dlg_state == SIP_DLG_NEW) { if (!isreq && _dialog->sip_dlg_method == SUBSCRIBE && SIP_PROVISIONAL_RESP(resp_code)) { (void) pthread_mutex_unlock(&_dialog->sip_dlg_mutex); return (dialog); } if (_dialog->sip_dlg_type == SIP_UAC_DIALOG) { _sip_dialog_t *new_dlg; if (_dialog->sip_dlg_on_fork) { new_dlg = sip_copy_partial_dialog(_dialog); if (new_dlg == NULL) { (void) pthread_mutex_unlock( &_dialog->sip_dlg_mutex); return (dialog); } /* * This decr/incr dance is because the caller * has incremented the ref on the partial * dialog, we release it here and incr the * ref on the new dialog which will be * released by the caller. */ (void) pthread_mutex_unlock( &_dialog->sip_dlg_mutex); SIP_DLG_REFCNT_DECR(_dialog); _dialog = new_dlg; (void) pthread_mutex_lock( &_dialog->sip_dlg_mutex); SIP_DLG_REFCNT_INCR(_dialog); } else { int index; /* * take it out of the list so that further * responses will not result in a dialog. * We will have an extra refcount when we * come back from sip_complete_dialog(), i.e. * one when the partial dialog was created - * in sip_seed_dialog(), one held by the caller * and one that will be added by * sip_complete_dialog(). We need to release * the one added by the sip_seed_dialog(), * since the one in sip_complete_dialog() * is for the same purpose. */ if (SIP_IS_TIMER_RUNNING( _dialog->sip_dlg_timer)) { SIP_CANCEL_TIMER( _dialog->sip_dlg_timer); } index = SIP_DIGEST_TO_HASH(dialog->sip_dlg_id); (void) pthread_mutex_unlock( &_dialog->sip_dlg_mutex); sip_hash_delete(sip_dialog_phash, (void *)_dialog->sip_dlg_id, index, sip_dialog_dontfree); (void) pthread_mutex_lock( &_dialog->sip_dlg_mutex); decr_ref = B_TRUE; } } else { decr_ref = B_TRUE; } (void) pthread_mutex_unlock(&_dialog->sip_dlg_mutex); if ((dialog = sip_complete_dialog(sip_msg, _dialog)) == NULL) { return (NULL); } if (decr_ref) SIP_DLG_REFCNT_DECR(_dialog); } else { (void) pthread_mutex_unlock(&_dialog->sip_dlg_mutex); } return (dialog); } /* * Initialize the hash table */ void sip_dialog_init(void (*ulp_dlg_del) (sip_dialog_t, sip_msg_t, void *), void (*ulp_state_cb)(sip_dialog_t, sip_msg_t, int, int)) { int cnt; for (cnt = 0; cnt < SIP_HASH_SZ; cnt++) { sip_dialog_hash[cnt].hash_count = 0; sip_dialog_hash[cnt].hash_head = NULL; sip_dialog_hash[cnt].hash_tail = NULL; (void) pthread_mutex_init( &sip_dialog_hash[cnt].sip_hash_mutex, NULL); sip_dialog_phash[cnt].hash_count = 0; sip_dialog_phash[cnt].hash_head = NULL; sip_dialog_phash[cnt].hash_tail = NULL; (void) pthread_mutex_init( &sip_dialog_phash[cnt].sip_hash_mutex, NULL); } if (ulp_dlg_del != NULL) sip_ulp_dlg_del_cb = ulp_dlg_del; if (ulp_state_cb != NULL) sip_dlg_ulp_state_cb = ulp_state_cb; }