/* * Copyright (C) 2021-2022 Purism SPC * * This file is part of Calls. * * Calls 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 3 of the License, or * (at your option) any later version. * * Calls 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 Calls. If not, see . * * Author: Evangelos Ribeiro Tzaras * * SPDX-License-Identifier: GPL-3.0-or-later * */ #define G_LOG_DOMAIN "CallsSipOrigin" #include "calls-account.h" #include "calls-message-source.h" #include "calls-origin.h" #include "calls-sip-call.h" #include "calls-sip-enums.h" #include "calls-sip-origin.h" #include "calls-sip-util.h" #include "calls-sip-media-manager.h" #include "calls-network-watch.h" #include "config.h" #include "enum-types.h" #include #include #include #include #include #include #include #include /** * SECTION:sip-origin * @short_description: A #CallsOrigin for the SIP protocol * @Title: CallsSipOrigin * * #CallsSipOrigin implements the #CallsOriginInterface and is mainly * responsible for managing the sofia-sip callbacks, keeping track of #CallsSipCall * objects and coordinating with #CallsSipMediaManager. */ enum { PROP_0, PROP_NAME, PROP_ID, PROP_ACC_HOST, PROP_ACC_USER, PROP_ACC_PASSWORD, PROP_ACC_DISPLAY_NAME, PROP_ACC_PORT, PROP_ACC_PROTOCOL, PROP_ACC_AUTO_CONNECT, PROP_ACC_DIRECT, PROP_ACC_LOCAL_PORT, PROP_SIP_CONTEXT, PROP_ACC_STATE, PROP_ACC_ADDRESS, PROP_CALLS, PROP_COUNTRY_CODE, PROP_CAN_TEL, PROP_MEDIA_ENCRYPTION, PROP_LAST_PROP, }; static GParamSpec *props[PROP_LAST_PROP]; static gboolean set_contact_header = FALSE; struct _CallsSipOrigin { GObject parent_instance; CallsSipContext *ctx; nua_t *nua; CallsSipHandles *oper; char *contact_header; /* Needed for sofia SIP >= 1.13 */ /* Direct connection mode is useful for debugging purposes */ gboolean use_direct_connection; /* Needed to handle shutdown correctly. See sip_callback and dispose method */ gboolean is_nua_shutdown; gboolean is_shutdown_success; CallsAccountState state; CallsSipMediaManager *media_manager; /* Account information */ char *host; char *user; char *password; char *display_name; gint port; char *transport_protocol; gboolean auto_connect; gboolean direct_mode; gboolean can_tel; SipMediaEncryption media_encryption; char *own_ip; gint local_port; const char *protocol_prefix; char *address; char *name; char *id; GList *calls; GHashTable *call_handles; }; static void calls_sip_origin_message_source_interface_init (CallsOriginInterface *iface); static void calls_sip_origin_origin_interface_init (CallsOriginInterface *iface); static void calls_sip_origin_accounts_interface_init (CallsAccountInterface *iface); G_DEFINE_TYPE_WITH_CODE (CallsSipOrigin, calls_sip_origin, G_TYPE_OBJECT, G_IMPLEMENT_INTERFACE (CALLS_TYPE_MESSAGE_SOURCE, calls_sip_origin_message_source_interface_init) G_IMPLEMENT_INTERFACE (CALLS_TYPE_ORIGIN, calls_sip_origin_origin_interface_init) G_IMPLEMENT_INTERFACE (CALLS_TYPE_ACCOUNT, calls_sip_origin_accounts_interface_init)) static void change_state (CallsSipOrigin *self, CallsAccountState new_state, CallsAccountStateReason reason) { CallsAccountState old_state; g_assert (CALLS_SIP_ORIGIN (self)); if (self->state == new_state && new_state != CALLS_ACCOUNT_STATE_ERROR && !calls_account_state_reason_is_for_ui (reason)) return; old_state = self->state; self->state = new_state; g_object_notify_by_pspec (G_OBJECT (self), props[PROP_ACC_STATE]); g_signal_emit_by_name (self, "account-state-changed", old_state, new_state, reason); calls_account_emit_message_for_state_change (CALLS_ACCOUNT (self), new_state, reason); } static void remove_call (CallsSipOrigin *self, CallsCall *call, const char *reason) { CallsOrigin *origin; CallsSipCall *sip_call; gboolean inbound; nua_handle_t *nh; origin = CALLS_ORIGIN (self); sip_call = CALLS_SIP_CALL (call); self->calls = g_list_remove (self->calls, call); g_object_get (sip_call, "inbound", &inbound, "nua-handle", &nh, NULL); /* TODO support multiple simultaneous calls */ if (self->oper->call_handle == nh) self->oper->call_handle = NULL; g_signal_emit_by_name (origin, "call-removed", call, reason); g_object_unref (call); } static void remove_calls (CallsSipOrigin *self, const char *reason) { CallsCall *call; GList *next; while (self->calls != NULL) { call = self->calls->data; next = self->calls->next; calls_call_hang_up (call); g_list_free_1 (self->calls); self->calls = next; g_signal_emit_by_name (self, "call-removed", call, reason); g_object_unref (call); } g_hash_table_remove_all (self->call_handles); g_clear_pointer (&self->oper->call_handle, nua_handle_unref); } static void on_call_state_changed (CallsSipCall *call, GParamSpec *pspec, CallsSipOrigin *self) { g_assert (CALLS_IS_SIP_ORIGIN (self)); g_assert (CALLS_IS_CALL (call)); if (calls_call_get_state (CALLS_CALL (call)) != CALLS_CALL_STATE_DISCONNECTED) return; remove_call (self, CALLS_CALL (call), "Disconnected"); } static void add_call (CallsSipOrigin *self, const char *address, gboolean inbound, nua_handle_t *handle) { CallsSipCall *sip_call; CallsCall *call; CallsSipMediaPipeline *pipeline; const char *call_address = address; gint rtp_port, rtcp_port; g_auto (GStrv) address_split = NULL; g_autofree char *local_sdp = NULL; pipeline = calls_sip_media_manager_get_pipeline (self->media_manager); rtp_port = calls_sip_media_pipeline_get_rtp_port (pipeline); rtcp_port = calls_sip_media_pipeline_get_rtcp_port (pipeline); if (self->can_tel) { address_split = g_strsplit_set (address, ":@;", -1); if (g_strv_length (address_split) >=2 && g_strcmp0 (address_split[2], self->host) == 0) call_address = address_split[1]; } sip_call = calls_sip_call_new (call_address, inbound, self->own_ip, pipeline, self->media_encryption, handle); g_assert (sip_call != NULL); if (self->oper->call_handle) nua_handle_unref (self->oper->call_handle); self->oper->call_handle = handle; self->calls = g_list_append (self->calls, sip_call); g_hash_table_insert (self->call_handles, handle, sip_call); call = CALLS_CALL (sip_call); g_signal_emit_by_name (CALLS_ORIGIN (self), "call-added", call); g_signal_connect (call, "notify::state", G_CALLBACK (on_call_state_changed), self); if (!inbound) { g_autoptr (GList) crypto_attributes = NULL; g_autoptr (CallsSdpCryptoContext) ctx = calls_sip_call_get_sdp_crypto_context (sip_call); if (self->media_encryption == SIP_MEDIA_ENCRYPTION_FORCED) { if (!calls_sdp_crypto_context_generate_offer (ctx)) { g_warning ("Media encryption must be used, but could not generate offer. Aborting"); calls_call_set_state (CALLS_CALL (sip_call), CALLS_CALL_STATE_DISCONNECTED); return; } } if (self->media_encryption == SIP_MEDIA_ENCRYPTION_PREFERRED) { if (!calls_sdp_crypto_context_generate_offer (ctx)) g_debug ("Media encryption optional, but could not generate offer. Continuing unencrypted"); } crypto_attributes = calls_sdp_crypto_context_get_crypto_candidates (ctx, FALSE); local_sdp = calls_sip_media_manager_static_capabilities (self->media_manager, self->own_ip, rtp_port, rtcp_port, crypto_attributes); g_assert (local_sdp); g_debug ("Setting local SDP for outgoing call to %s:\n%s", address, local_sdp); /* TODO handle IPv4 vs IPv6 for nua_invite (SOATAG_TAG) */ nua_invite (self->oper->call_handle, SOATAG_AF (SOA_AF_IP4_IP6), SOATAG_USER_SDP_STR (local_sdp), SIPTAG_TO_STR (address), TAG_IF (!!self->contact_header, SIPTAG_CONTACT_STR (self->contact_header)), SOATAG_RTP_SORT (SOA_RTP_SORT_REMOTE), SOATAG_RTP_SELECT (SOA_RTP_SELECT_ALL), TAG_END ()); } } static void dial (CallsOrigin *origin, const char *address) { CallsSipOrigin *self; nua_handle_t *nh; g_autofree char *name = NULL; g_autofree char *dial_target = NULL; g_assert (CALLS_ORIGIN (origin)); g_assert (CALLS_IS_SIP_ORIGIN (origin)); name = calls_origin_get_name (origin); if (!address || !*address) { g_warning ("Tried dialing on origin '%s' without an address", name); return; } if (calls_account_get_state (CALLS_ACCOUNT (origin)) != CALLS_ACCOUNT_STATE_ONLINE) { g_warning ("Tried dialing '%s' on origin '%s', but it's not online", address, name); return; } self = CALLS_SIP_ORIGIN (origin); nh = nua_handle (self->nua, self->oper, NUTAG_MEDIA_ENABLE (1), SOATAG_ACTIVE_AUDIO (SOA_ACTIVE_SENDRECV), TAG_END ()); /* Make sure @host is in the dial target */ if (g_strstr_len (address, -1, "@")) dial_target = g_strdup (address); else dial_target = g_strconcat (address, "@", self->host, NULL); g_debug ("Calling `%s' from origin '%s'", address, name); /* We don't require the user to input the prefix */ if (!g_str_has_prefix (address, "sip:") && !g_str_has_prefix (address, "sips:")) { g_autofree char * target_with_prefix = g_strconcat (self->protocol_prefix, ":", dial_target, NULL); add_call (CALLS_SIP_ORIGIN (origin), target_with_prefix, FALSE, nh); } else { add_call (CALLS_SIP_ORIGIN (origin), dial_target, FALSE, nh); } } static void create_inbound (CallsSipOrigin *self, const char *address, nua_handle_t *handle) { g_assert (CALLS_IS_SIP_ORIGIN (self)); g_assert (address != NULL); /* TODO support multiple calls */ if (self->oper->call_handle) nua_handle_unref (self->oper->call_handle); self->oper->call_handle = handle; add_call (self, address, TRUE, handle); } static void sip_authenticate (CallsSipOrigin *self, nua_handle_t *nh, sip_t const *sip) { const char *scheme = NULL; const char *realm = NULL; g_autofree char *auth = NULL; sip_www_authenticate_t *www_auth = sip->sip_www_authenticate; sip_proxy_authenticate_t *proxy_auth = sip->sip_proxy_authenticate; if (www_auth) { scheme = www_auth->au_scheme; realm = msg_params_find (www_auth->au_params, "realm="); } else if (proxy_auth) { scheme = proxy_auth->au_scheme; realm = msg_params_find (proxy_auth->au_params, "realm="); } else { g_warning ("No authentication context found"); return; } g_debug ("need to authenticate to realm %s", realm); /* TODO handle authentication to different realms * https://source.puri.sm/Librem5/calls/-/issues/266 */ auth = g_strdup_printf ("%s:%s:%s:%s", scheme, realm, self->user, self->password); nua_authenticate (nh, NUTAG_AUTH (auth), TAG_END ()); } static void sip_r_invite (int status, char const *phrase, nua_t *nua, CallsSipOrigin *origin, nua_handle_t *nh, CallsSipHandles *op, sip_t const *sip, tagi_t tags[]) { g_debug ("response to outgoing INVITE: %03d %s", status, phrase); /* TODO call states (see i_state) */ if (status == 401 || status == 407) { sip_authenticate (origin, nh, sip); } else if (status == 403) { g_warning ("Response to outgoing INVITE: 403 wrong credentials?"); } else if (status == 904) { g_warning ("Response to outgoing INVITE: 904 unmatched challenge." "Possibly the challenge was already answered?"); } else if (status == 180) { } else if (status == 100) { } else if (status == 200) { } } static void sip_r_register (int status, char const *phrase, nua_t *nua, CallsSipOrigin *origin, nua_handle_t *nh, CallsSipHandles *op, sip_t const *sip, tagi_t tags[]) { g_debug ("response to REGISTER: %03d %s", status, phrase); if (status == 200) { g_debug ("REGISTER successful"); change_state (origin, CALLS_ACCOUNT_STATE_ONLINE, CALLS_ACCOUNT_STATE_REASON_CONNECTED); nua_get_params (nua, TAG_ANY (), TAG_END ()); if (sip->sip_contact && sip->sip_contact->m_url && sip->sip_contact->m_url->url_host) { g_free (origin->own_ip); origin->own_ip = g_strdup (sip->sip_contact->m_url->url_host); g_debug ("Own IP as reported by the registrar: %s", origin->own_ip); } } else if (status == 100) { /* nothing to do; request authorized by cache */ } else if (status == 401 || status == 407) { sip_authenticate (origin, nh, sip); } else if (status == 403) { g_debug ("REGISTER denied: Probably using wrong credentials"); change_state (origin, CALLS_ACCOUNT_STATE_OFFLINE, CALLS_ACCOUNT_STATE_REASON_AUTHENTICATION_FAILURE); } else if (status == 503) { change_state (origin, CALLS_ACCOUNT_STATE_OFFLINE, CALLS_ACCOUNT_STATE_REASON_CONNECTION_DNS_ERROR); } else if (status == 904) { g_warning ("REGISTER: unmatched challenge"); change_state (origin, CALLS_ACCOUNT_STATE_ERROR, CALLS_ACCOUNT_STATE_REASON_INTERNAL_ERROR); } else { g_warning ("REGISTER: %d %s", status, phrase); change_state (origin, CALLS_ACCOUNT_STATE_ERROR, CALLS_ACCOUNT_STATE_REASON_INTERNAL_ERROR); } } static void sip_r_unregister (int status, char const *phrase, nua_t *nua, CallsSipOrigin *origin, nua_handle_t *nh, CallsSipHandles *op, sip_t const *sip, tagi_t tags[]) { g_debug ("response to unregistering: %03d %s", status, phrase); if (status == 200) { g_debug ("Unregistering successful"); change_state (origin, CALLS_ACCOUNT_STATE_OFFLINE, CALLS_ACCOUNT_STATE_REASON_DISCONNECTED); } else if (status == 100) { /* nothing to do; request authorized by cache */ } else if (status == 503) { change_state (origin, CALLS_ACCOUNT_STATE_OFFLINE, CALLS_ACCOUNT_STATE_REASON_CONNECTION_DNS_ERROR); } else { g_warning ("Unregisterung unsuccessful: %03d %s", status, phrase); change_state (origin, CALLS_ACCOUNT_STATE_ERROR, CALLS_ACCOUNT_STATE_REASON_UNKNOWN); } } static void sip_i_state (int status, char const *phrase, nua_t *nua, CallsSipOrigin *origin, nua_handle_t *nh, CallsSipHandles *op, sip_t const *sip, tagi_t tags[]) { const sdp_session_t *r_sdp = NULL; const sdp_session_t *l_sdp = NULL; const char *r_sdp_str = NULL; gint call_state = nua_callstate_init; CallsCallState state; CallsSipCall *call; int offer_sent = 0; int offer_recv = 0; int answer_sent = 0; int answer_recv = 0; g_assert (CALLS_IS_SIP_ORIGIN (origin)); g_debug ("The call state has changed: %03d %s", status, phrase); call = g_hash_table_lookup (origin->call_handles, nh); if (call == NULL) { g_warning ("No call found for the current handle"); return; } tl_gets (tags, SOATAG_LOCAL_SDP_REF (l_sdp), SOATAG_REMOTE_SDP_REF (r_sdp), SOATAG_REMOTE_SDP_STR_REF (r_sdp_str), NUTAG_CALLSTATE_REF (call_state), NUTAG_OFFER_SENT_REF (offer_sent), NUTAG_OFFER_RECV_REF (offer_recv), NUTAG_ANSWER_SENT_REF (answer_sent), NUTAG_ANSWER_RECV_REF (answer_recv), TAG_END ()); if (status == 503) { CALLS_EMIT_MESSAGE (origin, "DNS error", GTK_MESSAGE_ERROR); } if (r_sdp) { g_autoptr (GList) codecs = calls_sip_media_manager_get_codecs_from_sdp (origin->media_manager, r_sdp->sdp_media); g_autoptr (CallsSdpCryptoContext) ctx = NULL; const char *session_ip = NULL; const char *media_ip = NULL; int rtp_port; int rtcp_port = 0; g_debug ("Remote SDP was set to:\n%s", r_sdp_str); if (!codecs) { g_warning ("No common codecs in SDP. Hanging up. Remote SDP:\n%s", r_sdp_str); calls_call_hang_up (CALLS_CALL (call)); return; } ctx = calls_sip_call_get_sdp_crypto_context (call); if (origin->media_encryption == SIP_MEDIA_ENCRYPTION_FORCED) { if (!calls_sdp_crypto_context_set_remote_media (ctx, r_sdp->sdp_media)) { g_warning ("Media encryption is enforced, but remote didn't set crypto attributes.\n" "Remote SDP: %s", r_sdp_str); calls_call_hang_up (CALLS_CALL (call)); return; } } if (origin->media_encryption == SIP_MEDIA_ENCRYPTION_PREFERRED) { if (!calls_sdp_crypto_context_set_remote_media (ctx, r_sdp->sdp_media)) g_debug ("Remote didn't set crypto attributes. Continuing unencrypted"); } if (origin->media_encryption == SIP_MEDIA_ENCRYPTION_NONE) { gboolean got_crypto = FALSE; for (sdp_attribute_t *attr = r_sdp->sdp_media->m_attributes; attr; attr = attr->a_next) { if (g_strcmp0 (attr->a_name, "crypto") == 0) { got_crypto = TRUE; break; } } if (got_crypto) { g_debug ("Remote peer %s wants to talk using encryption, but not allowed by local policy", calls_call_get_id (CALLS_CALL (call))); calls_call_hang_up (CALLS_CALL (call)); return; } } if (r_sdp->sdp_connection && r_sdp->sdp_connection->c_address) session_ip = r_sdp->sdp_connection->c_address; if (r_sdp->sdp_media && r_sdp->sdp_media->m_connections && r_sdp->sdp_media->m_connections->c_address) media_ip = r_sdp->sdp_media->m_connections->c_address; if (!session_ip && !media_ip) { g_warning ("Could not determine IP of remote peer. Hanging up"); calls_call_hang_up (CALLS_CALL (call)); return; } calls_sip_call_set_codecs (call, codecs); /* TODO This needs to adapt for the ICE case */ rtp_port = r_sdp->sdp_media->m_port; for (sdp_attribute_t *attr = r_sdp->sdp_media->m_attributes; attr; attr = attr->a_next) { if (g_strcmp0 (attr->a_name, "rtcp") == 0) { rtcp_port = atoi (attr->a_value); break; } } /* Legacy fallback */ if (rtcp_port == 0) rtcp_port = rtp_port + 1; calls_sip_call_setup_remote_media_connection (call, media_ip ?: session_ip, rtp_port, rtcp_port); } switch (call_state) { case nua_callstate_init: return; case nua_callstate_calling: state = CALLS_CALL_STATE_DIALING; break; case nua_callstate_received: state = CALLS_CALL_STATE_INCOMING; g_debug ("Call incoming"); break; case nua_callstate_ready: g_debug ("Call ready. Activating media pipeline"); calls_sip_call_activate_media (call, TRUE); state = CALLS_CALL_STATE_ACTIVE; break; case nua_callstate_terminated: g_debug ("Call terminated. Deactivating media pipeline"); calls_sip_call_activate_media (call, FALSE); state = CALLS_CALL_STATE_DISCONNECTED; g_hash_table_remove (origin->call_handles, nh); break; default: return; } calls_call_set_state (CALLS_CALL (call), state); } static void sip_r_get_params (int status, char const *phrase, nua_t *nua, CallsSipOrigin *origin, nua_handle_t *nh, CallsSipHandles *op, sip_t const *sip, tagi_t tags[]) { tagi_t *from = NULL; const char *from_str = NULL; g_debug ("response to get_params: %03d %s", status, phrase); if (!set_contact_header) return; if ((status != 200) || ((from = tl_find (tags, siptag_from_str)) == NULL)) { g_warning ("Could not find 'siptag_from_tag' among the tags"); return; } from_str = (const char *) from->t_value; g_free (origin->contact_header); origin->contact_header = g_strdup (from_str); } static void sip_callback (nua_event_t event, int status, char const *phrase, nua_t *nua, nua_magic_t *magic, nua_handle_t *nh, nua_hmagic_t *hmagic, sip_t const *sip, tagi_t tags[]) { CallsSipOrigin *origin = CALLS_SIP_ORIGIN (magic); CallsSipHandles *op = origin->oper; g_autofree char *from = NULL; switch (event) { case nua_i_invite: if (sip->sip_from && sip->sip_from->a_url && sip->sip_from->a_url->url_scheme && sip->sip_from->a_url->url_user && sip->sip_from->a_url->url_host) from = g_strconcat (sip->sip_from->a_url->url_scheme, ":", sip->sip_from->a_url->url_user, "@", sip->sip_from->a_url->url_host, NULL); else { nua_respond (nh, 400, NULL, TAG_END ()); g_warning ("invalid incoming INVITE request"); break; } g_debug ("incoming call INVITE: %03d %s from %s", status, phrase, from); /* reject if there already is a ongoing call */ if (op->call_handle) { nua_respond (nh, 486, NULL, TAG_END ()); g_debug ("Cannot handle more than one call. Rejecting"); } else { create_inbound (origin, from, nh); } break; case nua_r_invite: sip_r_invite (status, phrase, nua, origin, nh, op, sip, tags); break; case nua_i_ack: g_debug ("incoming ACK: %03d %s", status, phrase); break; case nua_i_bye: g_debug ("incoming BYE: %03d %s", status, phrase); break; case nua_r_bye: g_debug ("response to BYE: %03d %s", status, phrase); if (status == 200) { CallsSipCall *call = CALLS_SIP_CALL (g_hash_table_lookup (origin->call_handles, nh)); if (call == NULL) { g_warning ("BYE response from an unknown call"); return; } } break; case nua_r_register: sip_r_register (status, phrase, nua, origin, nh, op, sip, tags); break; case nua_r_unregister: sip_r_unregister (status, phrase, nua, origin, nh, op, sip, tags); break; case nua_r_get_params: sip_r_get_params (status, phrase, nua, origin, nh, op, sip, tags); break; case nua_r_set_params: g_debug ("response to set_params: %03d %s", status, phrase); break; case nua_i_outbound: g_debug ("status of outbound engine has changed: %03d %s", status, phrase); if (status == 404) { CALLS_EMIT_MESSAGE (origin, "contact not found", GTK_MESSAGE_ERROR); g_warning ("outbound engine changed state to %03d %s", status, phrase); } break; case nua_i_state: sip_i_state (status, phrase, nua, origin, nh, op, sip, tags); break; case nua_r_cancel: g_debug ("response to CANCEL: %03d %s", status, phrase); break; case nua_r_terminate: break; case nua_r_shutdown: /* see also deinit_sip () */ g_debug ("response to nua_shutdown: %03d %s", status, phrase); if (status == 200) { origin->is_nua_shutdown = TRUE; origin->is_shutdown_success = TRUE; } else if (status == 500) { origin->is_nua_shutdown = TRUE; origin->is_shutdown_success = FALSE; } break; /* Deprecated events */ case nua_i_active: break; case nua_i_terminated: break; default: /* unknown event */ g_debug ("unknown event %d: %03d %s", event, status, phrase); if (tags && tags[0].t_tag != NULL) { g_debug ("printing tags"); tl_print (stdout, "", tags); } break; } } static nua_t * setup_nua (CallsSipOrigin *self) { const char *sip_test_env = g_getenv ("CALLS_SIP_TEST"); nua_t *nua; gboolean use_sips = FALSE; gboolean use_ipv6 = FALSE; /* TODO make configurable or use DNS to figure out if ipv6 is supported*/ const char *ipv6_bind = "*"; const char *ipv4_bind = "0.0.0.0"; const char *uuid = NULL; g_autofree char *urn_uuid = NULL; g_autofree char *sip_url = NULL; g_autofree char *sips_url = NULL; g_autofree char *from_str = NULL; if (!sip_test_env || sip_test_env[0] == '\0') { CallsNetworkWatch *nw = calls_network_watch_get_default (); if (nw) { ipv4_bind = calls_network_watch_get_ipv4 (nw); ipv6_bind = calls_network_watch_get_ipv6 (nw); } } uuid = nua_generate_instance_identifier (self->ctx->home); urn_uuid = g_strdup_printf ("urn:uuid:%s", uuid); self->protocol_prefix = get_protocol_prefix (self->transport_protocol); self->address = g_strconcat (self->user, "@", self->host, NULL); from_str = g_strconcat (self->protocol_prefix, ":", self->address, NULL); g_object_notify_by_pspec(G_OBJECT (self), props[PROP_ACC_ADDRESS]); use_sips = check_sips (from_str); use_ipv6 = check_ipv6 (self->host); if (self->local_port > 0) { sip_url = g_strdup_printf ("sip:%s:%d", use_ipv6 ? ipv6_bind : ipv4_bind, self->local_port); sips_url = g_strdup_printf ("sips:%s:%d", use_ipv6 ? ipv6_bind : ipv4_bind, self->local_port); } else { sip_url = g_strdup_printf ("sip:%s:*", use_ipv6 ? ipv6_bind : ipv4_bind); sips_url = g_strdup_printf ("sips:%s:*", use_ipv6 ? ipv6_bind : ipv4_bind); } /** For TLS nua_create() will error if NUTAG_URL includes ";transport=tls" * In that case NUTAG_SIPS_URL should be used and NUTAG_URL should be as usual * Since UDP is the default we only need to append the suffix in the TCP case */ if (g_ascii_strcasecmp (self->transport_protocol, "TCP") == 0) { char *temp = sip_url; sip_url = g_strdup_printf ("%s;transport=%s", temp, self->transport_protocol); g_free (temp); } nua = nua_create (self->ctx->root, sip_callback, self, NUTAG_USER_AGENT (APP_DATA_NAME), NUTAG_URL (sip_url), TAG_IF (use_sips, NUTAG_SIPS_URL (sips_url)), SIPTAG_FROM_STR (from_str), NUTAG_ALLOW ("INVITE, ACK, BYE, CANCEL, OPTIONS, UPDATE"), NUTAG_SUPPORTED ("replaces, gruu, outbound"), NTATAG_MAX_FORWARDS (70), NUTAG_ENABLEINVITE (1), NUTAG_AUTOANSWER (0), NUTAG_AUTOACK (1), NUTAG_PATH_ENABLE (0), NUTAG_MEDIA_ENABLE (1), NUTAG_INSTANCE (urn_uuid), TAG_NULL ()); return nua; } static char * get_registrar_url (CallsSipOrigin *self) { g_assert (CALLS_IS_SIP_ORIGIN (self)); if (self->port > 0 && self->port <= 65535) return g_strdup_printf ("%s:%s:%d", self->protocol_prefix, self->host, self->port); else return g_strconcat (self->protocol_prefix, ":", self->host, NULL); } static CallsSipHandles * setup_sip_handles (CallsSipOrigin *self) { CallsSipHandles *oper; g_autofree char *registrar_url = NULL; g_assert (CALLS_IS_SIP_ORIGIN (self)); if (!(oper = su_zalloc (self->ctx->home, sizeof(CallsSipHandles)))) { g_warning ("cannot create handle"); return NULL; } oper->context = self->ctx; oper->register_handle = nua_handle (self->nua, self->oper, SIPTAG_EXPIRES_STR ("180"), NUTAG_SUPPORTED ("replaces, outbound, gruu"), NUTAG_OUTBOUND ("outbound natify gruuize validate"), // <- janus uses "no-validate" NUTAG_M_PARAMS ("user=phone"), NUTAG_CALLEE_CAPS (1), /* header parameters based on SDP capabilities and Allow header */ TAG_END ()); oper->call_handle = NULL; return oper; } static void go_online (CallsAccount *account, gboolean online) { CallsSipOrigin *self; g_assert (CALLS_IS_ACCOUNT (account)); g_assert (CALLS_IS_SIP_ORIGIN (account)); self = CALLS_SIP_ORIGIN (account); if (self->use_direct_connection) return; if (!self->nua) { g_warning ("Cannot go online: nua handle not initialized"); g_object_notify_by_pspec (G_OBJECT (self), props[PROP_ACC_STATE]); return; } if (online) { g_autofree char *registrar_url = NULL; if (self->state == CALLS_ACCOUNT_STATE_ONLINE) return; registrar_url = get_registrar_url (self); nua_register (self->oper->register_handle, NUTAG_M_USERNAME (self->user), TAG_IF (self->display_name, NUTAG_M_DISPLAY (self->display_name)), NUTAG_REGISTRAR (registrar_url), TAG_END ()); } else { if (self->state == CALLS_ACCOUNT_STATE_OFFLINE) return; nua_unregister (self->oper->register_handle, TAG_END ()); } } static const char * get_address (CallsAccount *account) { CallsSipOrigin *self; g_assert (CALLS_IS_ACCOUNT (account)); g_assert (CALLS_IS_SIP_ORIGIN (account)); self = CALLS_SIP_ORIGIN (account); return self->address; } static void setup_account_for_direct_connection (CallsSipOrigin *self) { g_assert (CALLS_IS_SIP_ORIGIN (self)); /* honour username, if previously set */ if (self->user == NULL) self->user = g_strdup (g_get_user_name ()); g_free (self->host); self->host = g_strdup (g_get_host_name ()); g_clear_pointer (&self->password, g_free); g_free (self->transport_protocol); self->transport_protocol = g_strdup ("UDP"); self->protocol_prefix = get_protocol_prefix ("UDP"); g_debug ("Account changed:\nuser: %s\nhost: %s", self->user, self->host); } static gboolean is_account_complete (CallsSipOrigin *self) { /* we need only need to check for password if needing to authenticate over a proxy/UAS */ if (self->user == NULL || (!self->use_direct_connection && self->password == NULL) || self->host == NULL || self->transport_protocol == NULL) return FALSE; return TRUE; } static gboolean init_sip_account (CallsSipOrigin *self, GError **error) { g_assert (CALLS_IS_SIP_ORIGIN (self)); change_state (self, CALLS_ACCOUNT_STATE_INITIALIZING, CALLS_ACCOUNT_STATE_REASON_INITIALIZATION_STARTED); if (self->use_direct_connection) { g_debug ("Direct connection case. Using user and hostname"); setup_account_for_direct_connection (self); } if (!is_account_complete (self)) { g_set_error (error, G_IO_ERROR, G_IO_ERROR_FAILED, "Must have completed account setup before calling " "init_sip_account (). " "Try again when account is setup"); change_state (self, CALLS_ACCOUNT_STATE_ERROR, CALLS_ACCOUNT_STATE_REASON_NO_CREDENTIALS); return FALSE; } /* setup_nua() and setup_sip_handles() only after account data has been set */ self->nua = setup_nua (self); if (self->nua == NULL) { g_set_error (error, G_IO_ERROR, G_IO_ERROR_FAILED, "Failed setting up nua context"); change_state (self, CALLS_ACCOUNT_STATE_ERROR, CALLS_ACCOUNT_STATE_REASON_INTERNAL_ERROR); return FALSE; } self->oper = setup_sip_handles (self); if (self->oper == NULL) { g_set_error (error, G_IO_ERROR, G_IO_ERROR_FAILED, "Failed setting operation handles"); change_state (self, CALLS_ACCOUNT_STATE_ERROR, CALLS_ACCOUNT_STATE_REASON_INTERNAL_ERROR); return FALSE; } /* In the case of a direct connection we're immediately good to go */ change_state (self, self->use_direct_connection ? CALLS_ACCOUNT_STATE_ONLINE : CALLS_ACCOUNT_STATE_OFFLINE, CALLS_ACCOUNT_STATE_REASON_INITIALIZED); if (self->auto_connect) go_online (CALLS_ACCOUNT (self), TRUE); return TRUE; } static gboolean deinit_sip_account (CallsSipOrigin *self) { g_assert (CALLS_IS_SIP_ORIGIN (self)); if (self->state == CALLS_ACCOUNT_STATE_UNKNOWN) return TRUE; change_state (self, CALLS_ACCOUNT_STATE_DEINITIALIZING, CALLS_ACCOUNT_STATE_REASON_DEINITIALIZATION_STARTED); remove_calls (self, NULL); if (self->nua) { g_debug ("Clearing any handles"); g_clear_pointer (&self->oper->register_handle, nua_handle_destroy); g_debug ("Requesting nua_shutdown ()"); self->is_nua_shutdown = FALSE; self->is_shutdown_success = FALSE; nua_shutdown (self->nua); // need to wait for nua_r_shutdown event before calling nua_destroy () while (!self->is_nua_shutdown) su_root_step (self->ctx->root, 100); if (!self->is_shutdown_success) { g_warning ("nua_shutdown() timed out. Cannot proceed"); change_state (self, CALLS_ACCOUNT_STATE_ERROR, CALLS_ACCOUNT_STATE_REASON_INTERNAL_ERROR); return FALSE; } g_debug ("nua_shutdown() complete. Destroying nua handle"); nua_destroy (self->nua); self->nua = NULL; } g_clear_pointer (&self->own_ip, g_free); change_state (self, CALLS_ACCOUNT_STATE_UNKNOWN, CALLS_ACCOUNT_STATE_REASON_DEINITIALIZED); return TRUE; } static void recreate_sip (CallsSipOrigin *self) { if (deinit_sip_account (self)) init_sip_account (self, NULL); } static gboolean supports_protocol (CallsOrigin *origin, const char *protocol) { CallsSipOrigin *self; g_assert (protocol); g_assert (CALLS_IS_SIP_ORIGIN (origin)); self = CALLS_SIP_ORIGIN (origin); if (g_strcmp0 (protocol, "sip") == 0) return TRUE; if (g_strcmp0 (protocol, "sips") == 0) return g_strcmp0 (self->protocol_prefix, "sips") == 0; if (g_strcmp0 (protocol, "tel") == 0) return self->can_tel; return FALSE; } static void update_name (CallsSipOrigin *self) { g_assert (CALLS_IS_SIP_ORIGIN (self)); if (self->display_name && self->display_name[0] != '\0') self->name = self->display_name; else self->name = self->user; g_object_notify_by_pspec (G_OBJECT (self), props[PROP_NAME]); } static void calls_sip_origin_set_property (GObject *object, guint property_id, const GValue *value, GParamSpec *pspec) { CallsSipOrigin *self = CALLS_SIP_ORIGIN (object); switch (property_id) { case PROP_ID: /* contruct only */ self->id = g_value_dup_string (value); break; case PROP_ACC_HOST: g_free (self->host); self->host = g_value_dup_string (value); break; case PROP_ACC_DISPLAY_NAME: g_free (self->display_name); self->display_name = g_value_dup_string (value); break; case PROP_ACC_USER: g_free (self->user); self->user = g_value_dup_string (value); break; case PROP_ACC_PASSWORD: g_free (self->password); self->password = g_value_dup_string (value); break; case PROP_ACC_PORT: self->port = g_value_get_int (value); break; case PROP_ACC_PROTOCOL: g_free (self->transport_protocol); self->transport_protocol = g_value_dup_string (value); break; case PROP_ACC_AUTO_CONNECT: self->auto_connect = g_value_get_boolean (value); break; case PROP_ACC_DIRECT: self->use_direct_connection = g_value_get_boolean (value); break; case PROP_SIP_CONTEXT: self->ctx = g_value_get_pointer (value); break; case PROP_ACC_LOCAL_PORT: if (g_value_get_int (value) > 0 && g_value_get_int (value) < 1025) { g_warning ("Tried setting a privileged port as the local port to bind to: %d\n" "Continue using old 'local-port' value: %d (using 0 let's the OS decide)", g_value_get_int (value), self->local_port); return; } self->local_port = g_value_get_int (value); break; case PROP_CAN_TEL: self->can_tel = g_value_get_boolean (value); break; case PROP_MEDIA_ENCRYPTION: self->media_encryption = g_value_get_enum (value); break; default: G_OBJECT_WARN_INVALID_PROPERTY_ID (object, property_id, pspec); break; } } static void calls_sip_origin_get_property (GObject *object, guint property_id, GValue *value, GParamSpec *pspec) { CallsSipOrigin *self = CALLS_SIP_ORIGIN (object); switch (property_id) { case PROP_NAME: g_value_set_string (value, self->name); break; case PROP_ID: g_value_set_string (value, self->id); break; case PROP_ACC_HOST: g_value_set_string (value, self->host); break; case PROP_ACC_DISPLAY_NAME: g_value_set_string (value, self->display_name); break; case PROP_ACC_USER: g_value_set_string (value, self->user); break; case PROP_ACC_PASSWORD: g_value_set_string (value, self->password); break; case PROP_ACC_PORT: g_value_set_int (value, self->port); break; case PROP_ACC_PROTOCOL: g_value_set_string (value, self->transport_protocol); break; case PROP_ACC_AUTO_CONNECT: g_value_set_boolean (value, self->auto_connect); break; case PROP_ACC_DIRECT: g_value_set_boolean (value, self->direct_mode); break; case PROP_ACC_LOCAL_PORT: g_value_set_int (value, self->local_port); break; case PROP_CALLS: g_value_set_pointer (value, g_list_copy (self->calls)); break; case PROP_ACC_STATE: g_value_set_enum (value, self->state); break; case PROP_ACC_ADDRESS: g_value_set_string (value, get_address (CALLS_ACCOUNT (self))); break; case PROP_COUNTRY_CODE: g_value_set_string (value, NULL); break; case PROP_CAN_TEL: g_value_set_boolean (value, self->can_tel); break; case PROP_MEDIA_ENCRYPTION: g_value_set_enum (value, self->media_encryption); break; default: G_OBJECT_WARN_INVALID_PROPERTY_ID (object, property_id, pspec); break; } } static void calls_sip_origin_constructed (GObject *object) { CallsSipOrigin *self = CALLS_SIP_ORIGIN (object); g_autoptr (GError) error = NULL; int major = 0; int minor = 0; int patch = 0; if (sscanf (SOFIA_SIP_VERSION, "%d.%d.%d", &major, &minor, &patch) == 3) { if (major > 2 || (major == 1 && minor >= 13)) { /* Sofia 1.13 does no longer include the contact header by default, see #304 */ set_contact_header = TRUE; } } if (!init_sip_account (self, &error)) { g_warning ("Error initializing the SIP account: %s", error->message); } update_name (self); self->media_manager = calls_sip_media_manager_default (); G_OBJECT_CLASS (calls_sip_origin_parent_class)->constructed (object); } static void calls_sip_origin_dispose (GObject *object) { CallsSipOrigin *self = CALLS_SIP_ORIGIN (object); g_clear_pointer (&self->id, g_free); g_clear_pointer (&self->own_ip, g_free); g_clear_pointer (&self->transport_protocol, g_free); g_clear_pointer (&self->display_name, g_free); g_clear_pointer (&self->host, g_free); g_clear_pointer (&self->user, g_free); g_clear_pointer (&self->password, g_free); if (!self->use_direct_connection && self->state == CALLS_ACCOUNT_STATE_ONLINE) go_online (CALLS_ACCOUNT (self), FALSE); deinit_sip_account (self); G_OBJECT_CLASS (calls_sip_origin_parent_class)->dispose (object); } static void calls_sip_origin_finalize (GObject *object) { CallsSipOrigin *self = CALLS_SIP_ORIGIN (object); g_hash_table_destroy (self->call_handles); G_OBJECT_CLASS (calls_sip_origin_parent_class)->finalize (object); } static void calls_sip_origin_class_init (CallsSipOriginClass *klass) { GObjectClass *object_class = G_OBJECT_CLASS (klass); object_class->constructed = calls_sip_origin_constructed; object_class->dispose = calls_sip_origin_dispose; object_class->finalize = calls_sip_origin_finalize; object_class->get_property = calls_sip_origin_get_property; object_class->set_property = calls_sip_origin_set_property; props[PROP_ACC_HOST] = g_param_spec_string ("host", "Host", "The host to connect to", NULL, G_PARAM_READWRITE | G_PARAM_CONSTRUCT | G_PARAM_STATIC_STRINGS); g_object_class_install_property (object_class, PROP_ACC_HOST, props[PROP_ACC_HOST]); props[PROP_ACC_USER] = g_param_spec_string ("user", "User", "The username", NULL, G_PARAM_READWRITE | G_PARAM_CONSTRUCT | G_PARAM_STATIC_STRINGS); g_object_class_install_property (object_class, PROP_ACC_USER, props[PROP_ACC_USER]); props[PROP_ACC_PASSWORD] = g_param_spec_string ("password", "Password", "The password", NULL, G_PARAM_READWRITE | G_PARAM_CONSTRUCT | G_PARAM_STATIC_STRINGS); g_object_class_install_property (object_class, PROP_ACC_PASSWORD, props[PROP_ACC_PASSWORD]); props[PROP_ACC_DISPLAY_NAME] = g_param_spec_string ("display-name", "Display name", "The display name", NULL, G_PARAM_READWRITE | G_PARAM_CONSTRUCT | G_PARAM_STATIC_STRINGS); g_object_class_install_property (object_class, PROP_ACC_DISPLAY_NAME, props[PROP_ACC_DISPLAY_NAME]); props[PROP_ACC_PORT] = g_param_spec_int ("port", "Port", "The port to connect to", 0, 65535, 0, G_PARAM_READWRITE | G_PARAM_CONSTRUCT | G_PARAM_STATIC_STRINGS); g_object_class_install_property (object_class, PROP_ACC_PORT, props[PROP_ACC_PORT]); props[PROP_ACC_PROTOCOL] = g_param_spec_string ("transport-protocol", "Transport protocol", "The transport protocol to use for the connection", NULL, G_PARAM_READWRITE | G_PARAM_CONSTRUCT | G_PARAM_STATIC_STRINGS); g_object_class_install_property (object_class, PROP_ACC_PROTOCOL, props[PROP_ACC_PROTOCOL]); props[PROP_ACC_AUTO_CONNECT] = g_param_spec_boolean ("auto-connect", "Auto connect", "Whether to connect automatically", TRUE, G_PARAM_READWRITE | G_PARAM_CONSTRUCT | G_PARAM_STATIC_STRINGS); g_object_class_install_property (object_class, PROP_ACC_AUTO_CONNECT, props[PROP_ACC_AUTO_CONNECT]); props[PROP_ACC_DIRECT] = g_param_spec_boolean ("direct-mode", "Direct mode", "Whether to use a direct connection (no SIP server)", FALSE, G_PARAM_READWRITE | G_PARAM_CONSTRUCT_ONLY | G_PARAM_STATIC_STRINGS); g_object_class_install_property (object_class, PROP_ACC_DIRECT, props[PROP_ACC_DIRECT]); props[PROP_ACC_LOCAL_PORT] = g_param_spec_int ("local-port", "Local port", "The local port to which the SIP stack binds to", 0, 65535, 0, G_PARAM_READWRITE | G_PARAM_CONSTRUCT_ONLY); g_object_class_install_property (object_class, PROP_ACC_LOCAL_PORT, props[PROP_ACC_LOCAL_PORT]); props[PROP_SIP_CONTEXT] = g_param_spec_pointer ("sip-context", "SIP context", "The SIP context (sofia) used for our sip handles", G_PARAM_WRITABLE | G_PARAM_CONSTRUCT_ONLY); g_object_class_install_property (object_class, PROP_SIP_CONTEXT, props[PROP_SIP_CONTEXT]); props[PROP_CAN_TEL] = g_param_spec_boolean ("can-tel", "Can telephone", "Whether to this account can be used for PSTN telephony", FALSE, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS); g_object_class_install_property (object_class, PROP_CAN_TEL, props[PROP_CAN_TEL]); props[PROP_MEDIA_ENCRYPTION] = g_param_spec_enum ("media-encryption", "Media encryption", "The media encryption mode", SIP_TYPE_MEDIA_ENCRYPTION, SIP_MEDIA_ENCRYPTION_NONE, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS); g_object_class_install_property (object_class, PROP_MEDIA_ENCRYPTION, props[PROP_MEDIA_ENCRYPTION]); #define IMPLEMENTS(ID, NAME) \ g_object_class_override_property (object_class, ID, NAME); \ props[ID] = g_object_class_find_property(object_class, NAME); IMPLEMENTS (PROP_ID, "id"); IMPLEMENTS (PROP_NAME, "name"); IMPLEMENTS (PROP_CALLS, "calls"); IMPLEMENTS (PROP_COUNTRY_CODE, "country-code"); IMPLEMENTS (PROP_ACC_STATE, "account-state"); IMPLEMENTS (PROP_ACC_ADDRESS, "address"); #undef IMPLEMENTS } static void calls_sip_origin_message_source_interface_init (CallsOriginInterface *iface) { } static void calls_sip_origin_origin_interface_init (CallsOriginInterface *iface) { iface->dial = dial; iface->supports_protocol = supports_protocol; } static void calls_sip_origin_accounts_interface_init (CallsAccountInterface *iface) { iface->go_online = go_online; iface->get_address = get_address; } static void calls_sip_origin_init (CallsSipOrigin *self) { const char *sip_test_env = g_getenv ("CALLS_SIP_TEST"); if (!sip_test_env || sip_test_env[0] == '\0') { CallsNetworkWatch *nw = calls_network_watch_get_default (); if (nw) g_signal_connect_swapped (calls_network_watch_get_default (), "network-changed", G_CALLBACK (recreate_sip), self); else g_warning ("Network watch unavailable. Unable to detect network changes."); } self->call_handles = g_hash_table_new (NULL, NULL); } void calls_sip_origin_set_credentials (CallsSipOrigin *self, const char *host, const char *user, const char *password, const char *display_name, const char *transport_protocol, gint port, SipMediaEncryption media_encryption, gboolean can_tel, gboolean auto_connect) { g_return_if_fail (CALLS_IS_SIP_ORIGIN (self)); if (self->direct_mode) { g_warning ("Not allowed to update credentials when using direct mode"); return; } g_return_if_fail (host); g_return_if_fail (user); g_return_if_fail (password); if (transport_protocol) g_return_if_fail (protocol_is_valid (transport_protocol)); g_free (self->host); self->host = g_strdup (host); g_free (self->user); self->user = g_strdup (user); g_free (self->password); self->password = g_strdup (password); g_clear_pointer (&self->display_name, g_free); if (display_name) self->display_name = g_strdup (display_name); g_free (self->transport_protocol); if (transport_protocol) self->transport_protocol = g_strdup (transport_protocol); else self->transport_protocol = g_strdup ("UDP"); self->port = port; self->can_tel = can_tel; self->media_encryption = media_encryption; update_name (self); recreate_sip (self); }