/* * This file is part of the Nice GLib ICE library. * * (C) 2006-2009 Collabora Ltd. * Contact: Youness Alaoui * (C) 2006-2009 Nokia Corporation. All rights reserved. * Contact: Kai Vehmanen * * The contents of this file are subject to the Mozilla Public License Version * 1.1 (the "License"); you may not use this file except in compliance with * the License. You may obtain a copy of the License at * http://www.mozilla.org/MPL/ * * Software distributed under the License is distributed on an "AS IS" basis, * WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License * for the specific language governing rights and limitations under the * License. * * The Original Code is the Nice GLib ICE library. * * The Initial Developers of the Original Code are Collabora Ltd and Nokia * Corporation. All Rights Reserved. * * Contributors: * Dafydd Harries, Collabora Ltd. * Youness Alaoui, Collabora Ltd. * Kai Vehmanen, Nokia * * Alternatively, the contents of this file may be used under the terms of the * the GNU Lesser General Public License Version 2.1 (the "LGPL"), in which * case the provisions of LGPL are applicable instead of those above. If you * wish to allow use of your version of this file only under the terms of the * LGPL and not to allow others to use your version of this file under the * MPL, indicate your decision by deleting the provisions above and replace * them with the notice and other provisions required by the LGPL. If you do * not delete the provisions above, a recipient may use your version of this * file under either the MPL or the LGPL. */ /* * @file component.c * @brief ICE component functions */ #ifdef HAVE_CONFIG_H # include #endif #include #include "debug.h" #include "component.h" #include "discovery.h" #include "agent-priv.h" static void component_schedule_io_callback (Component *component); static void component_deschedule_io_callback (Component *component); /* Must *not* take the agent lock, since it’s called from within * component_set_io_context(), which holds the Component’s I/O lock. */ static void socket_source_attach (SocketSource *socket_source, GMainContext *context) { GSource *source; /* Create a source. */ source = g_socket_create_source (socket_source->socket->fileno, G_IO_IN, NULL); g_source_set_callback (source, (GSourceFunc) component_io_cb, socket_source, NULL); /* Add the source. */ nice_debug ("Attaching source %p (socket %p, FD %d) to context %p", source, socket_source->socket, g_socket_get_fd (socket_source->socket->fileno), context); g_assert (socket_source->source == NULL); socket_source->source = source; g_source_attach (source, context); } static void socket_source_detach (SocketSource *source) { nice_debug ("Detaching source %p (socket %p, FD %d) from context %p", source->source, source->socket, (source->socket->fileno != NULL) ? g_socket_get_fd (source->socket->fileno) : 0, (source->source != NULL) ? g_source_get_context (source->source) : 0); if (source->source != NULL) { g_source_destroy (source->source); g_source_unref (source->source); } source->source = NULL; } static void socket_source_free (SocketSource *source) { socket_source_detach (source); nice_socket_free (source->socket); g_slice_free (SocketSource, source); } Component * component_new (guint id, NiceAgent *agent, Stream *stream) { Component *component; GSource *src; component = g_slice_new0 (Component); component->id = id; component->state = NICE_COMPONENT_STATE_DISCONNECTED; component->restart_candidate = NULL; component->tcp = NULL; component->agent = agent; component->stream = stream; nice_agent_init_stun_agent (agent, &component->stun_agent); g_mutex_init (&component->io_mutex); g_queue_init (&component->pending_io_messages); component->io_callback_id = 0; component->own_ctx = g_main_context_new (); component->stop_cancellable = g_cancellable_new (); src = g_cancellable_source_new (component->stop_cancellable); g_source_set_dummy_callback (src); g_source_attach (src, component->own_ctx); g_source_unref (src); component->ctx = g_main_context_ref (component->own_ctx); /* Start off with a fresh main context and all I/O paused. This * will be updated when nice_agent_attach_recv() or nice_agent_recv_messages() * are called. */ component_set_io_context (component, NULL); component_set_io_callback (component, NULL, NULL, NULL, 0, NULL); g_queue_init (&component->queued_tcp_packets); return component; } void component_clean_turn_servers (Component *cmp) { GSList *i; g_list_free_full (cmp->turn_servers, (GDestroyNotify) turn_server_unref); cmp->turn_servers = NULL; for (i = cmp->local_candidates; i;) { NiceCandidate *candidate = i->data; GSList *next = i->next; if (candidate->type != NICE_CANDIDATE_TYPE_RELAYED) { i = next; continue; } /* note: do not remove the remote candidate that is * currently part of the 'selected pair', see ICE * 9.1.1.1. "ICE Restarts" (ID-19) * * So what we do instead is that we put the selected candidate * in a special location and keep it "alive" that way. This is * especially important for TURN, because refresh requests to the * server need to keep happening. */ if (candidate == cmp->selected_pair.local) { if (cmp->turn_candidate) { refresh_prune_candidate (cmp->agent, cmp->turn_candidate); component_detach_socket (cmp, cmp->turn_candidate->sockptr); nice_candidate_free (cmp->turn_candidate); } /* Bring the priority down to 0, so that it will be replaced * on the new run. */ cmp->selected_pair.priority = 0; cmp->turn_candidate = candidate; } else { refresh_prune_candidate (cmp->agent, candidate); component_detach_socket (cmp, candidate->sockptr); nice_candidate_free (candidate); } cmp->local_candidates = g_slist_delete_link (cmp->local_candidates, i); i = next; } } static void component_clear_selected_pair (Component *component) { if (component->selected_pair.keepalive.tick_source != NULL) { g_source_destroy (component->selected_pair.keepalive.tick_source); g_source_unref (component->selected_pair.keepalive.tick_source); component->selected_pair.keepalive.tick_source = NULL; } memset (&component->selected_pair, 0, sizeof(CandidatePair)); } /* Must be called with the agent lock held as it touches internal Component * state. */ void component_close (Component *cmp) { GSList *i; IOCallbackData *data; GOutputVector *vec; for (i = cmp->local_candidates; i; i = i->next) { NiceCandidate *candidate = i->data; nice_candidate_free (candidate); } for (i = cmp->remote_candidates; i; i = i->next) { NiceCandidate *candidate = i->data; nice_candidate_free (candidate); } if (cmp->restart_candidate) nice_candidate_free (cmp->restart_candidate), cmp->restart_candidate = NULL; if (cmp->turn_candidate) nice_candidate_free (cmp->turn_candidate), cmp->turn_candidate = NULL; for (i = cmp->incoming_checks; i; i = i->next) { IncomingCheck *icheck = i->data; g_free (icheck->username); g_slice_free (IncomingCheck, icheck); } g_slist_free (cmp->local_candidates); cmp->local_candidates = NULL; g_slist_free (cmp->remote_candidates); cmp->remote_candidates = NULL; component_free_socket_sources (cmp); g_slist_free (cmp->incoming_checks); cmp->incoming_checks = NULL; component_clean_turn_servers (cmp); if (cmp->tcp_clock) { g_source_destroy (cmp->tcp_clock); g_source_unref (cmp->tcp_clock); cmp->tcp_clock = NULL; } if (cmp->tcp_writable_cancellable) { g_cancellable_cancel (cmp->tcp_writable_cancellable); g_clear_object (&cmp->tcp_writable_cancellable); } if (cmp->tcp) { pseudo_tcp_socket_close (cmp->tcp, TRUE); } while ((data = g_queue_pop_head (&cmp->pending_io_messages)) != NULL) io_callback_data_free (data); component_deschedule_io_callback (cmp); g_cancellable_cancel (cmp->stop_cancellable); while ((vec = g_queue_pop_head (&cmp->queued_tcp_packets)) != NULL) { g_free ((gpointer) vec->buffer); g_slice_free (GOutputVector, vec); } } /* Must be called with the agent lock released as it could dispose of * NiceIOStreams. */ void component_free (Component *cmp) { g_clear_object (&cmp->tcp); g_clear_object (&cmp->stop_cancellable); g_clear_object (&cmp->iostream); g_mutex_clear (&cmp->io_mutex); if (cmp->ctx != NULL) { g_main_context_unref (cmp->ctx); cmp->ctx = NULL; } g_main_context_unref (cmp->own_ctx); g_slice_free (Component, cmp); } /* * Finds a candidate pair that has matching foundation ids. * * @return TRUE if pair found, pointer to pair stored at 'pair' */ gboolean component_find_pair (Component *cmp, NiceAgent *agent, const gchar *lfoundation, const gchar *rfoundation, CandidatePair *pair) { GSList *i; CandidatePair result; memset (&result, 0, sizeof(result)); for (i = cmp->local_candidates; i; i = i->next) { NiceCandidate *candidate = i->data; if (strncmp (candidate->foundation, lfoundation, NICE_CANDIDATE_MAX_FOUNDATION) == 0) { result.local = candidate; break; } } for (i = cmp->remote_candidates; i; i = i->next) { NiceCandidate *candidate = i->data; if (strncmp (candidate->foundation, rfoundation, NICE_CANDIDATE_MAX_FOUNDATION) == 0) { result.remote = candidate; break; } } if (result.local && result.remote) { result.priority = agent_candidate_pair_priority (agent, result.local, result.remote); if (pair) *pair = result; return TRUE; } return FALSE; } /* * Resets the component state to that of a ICE restarted * session. */ void component_restart (Component *cmp) { GSList *i; for (i = cmp->remote_candidates; i; i = i->next) { NiceCandidate *candidate = i->data; /* note: do not remove the local candidate that is * currently part of the 'selected pair', see ICE * 9.1.1.1. "ICE Restarts" (ID-19) */ if (candidate == cmp->selected_pair.remote) { if (cmp->restart_candidate) nice_candidate_free (cmp->restart_candidate); cmp->restart_candidate = candidate; } else nice_candidate_free (candidate); } g_slist_free (cmp->remote_candidates), cmp->remote_candidates = NULL; for (i = cmp->incoming_checks; i; i = i->next) { IncomingCheck *icheck = i->data; g_free (icheck->username); g_slice_free (IncomingCheck, icheck); } g_slist_free (cmp->incoming_checks); cmp->incoming_checks = NULL; /* note: component state managed by agent */ } /* * Changes the selected pair for the component to 'pair'. Does not * emit the "selected-pair-changed" signal. */ void component_update_selected_pair (Component *component, const CandidatePair *pair) { g_assert (component); g_assert (pair); nice_debug ("setting SELECTED PAIR for component %u: %s:%s (prio:%" G_GUINT64_FORMAT ").", component->id, pair->local->foundation, pair->remote->foundation, pair->priority); if (component->selected_pair.local && component->selected_pair.local == component->turn_candidate) { refresh_prune_candidate (component->agent, component->turn_candidate); component_detach_socket (component, component->turn_candidate->sockptr); nice_candidate_free (component->turn_candidate); component->turn_candidate = NULL; } component_clear_selected_pair (component); component->selected_pair.local = pair->local; component->selected_pair.remote = pair->remote; component->selected_pair.priority = pair->priority; } /* * Finds a remote candidate with matching address and * transport. * * @return pointer to candidate or NULL if not found */ NiceCandidate * component_find_remote_candidate (const Component *component, const NiceAddress *addr, NiceCandidateTransport transport) { GSList *i; for (i = component->remote_candidates; i; i = i->next) { NiceCandidate *candidate = i->data; if (nice_address_equal(&candidate->addr, addr) && candidate->transport == transport) return candidate; } return NULL; } /* * Sets the desired remote candidate as the selected pair * * It will start sending on the highest priority pair available with * this candidate. */ NiceCandidate * component_set_selected_remote_candidate (NiceAgent *agent, Component *component, NiceCandidate *candidate) { NiceCandidate *local = NULL; NiceCandidate *remote = NULL; guint64 priority = 0; GSList *item = NULL; for (item = component->local_candidates; item; item = g_slist_next (item)) { NiceCandidate *tmp = item->data; guint64 tmp_prio = 0; if (tmp->transport != candidate->transport || tmp->addr.s.addr.sa_family != candidate->addr.s.addr.sa_family || tmp->type != NICE_CANDIDATE_TYPE_HOST) continue; tmp_prio = agent_candidate_pair_priority (agent, tmp, candidate); if (tmp_prio > priority) { priority = tmp_prio; local = tmp; } } if (local == NULL) return NULL; remote = component_find_remote_candidate (component, &candidate->addr, candidate->transport); if (!remote) { remote = nice_candidate_copy (candidate); component->remote_candidates = g_slist_append (component->remote_candidates, remote); agent_signal_new_remote_candidate (agent, remote); } component_clear_selected_pair (component); component->selected_pair.local = local; component->selected_pair.remote = remote; component->selected_pair.priority = priority; return local; } static gint _find_socket_source (gconstpointer a, gconstpointer b) { const SocketSource *source_a = a; const NiceSocket *socket_b = b; return (source_a->socket == socket_b) ? 0 : 1; } /* This takes ownership of the socket. * It creates and attaches a source to the component’s context. */ void component_attach_socket (Component *component, NiceSocket *nicesock) { GSList *l; SocketSource *socket_source; g_assert (component != NULL); g_assert (nicesock != NULL); g_assert (component->ctx != NULL); if (nicesock->fileno == NULL) return; /* Find an existing SocketSource in the component which contains @socket, or * create a new one. * * Whenever a source is added or remove to socket_sources, socket_sources_age * must be incremented. */ l = g_slist_find_custom (component->socket_sources, nicesock, _find_socket_source); if (l != NULL) { socket_source = l->data; } else { socket_source = g_slice_new0 (SocketSource); socket_source->socket = nicesock; socket_source->component = component; component->socket_sources = g_slist_prepend (component->socket_sources, socket_source); component->socket_sources_age++; } /* Create and attach a source */ nice_debug ("Component %p (agent %p): Attach source (stream %u).", component, component->agent, component->stream->id); socket_source_attach (socket_source, component->ctx); } /* Reattaches socket handles of @component to the main context. * * Must *not* take the agent lock, since it’s called from within * component_set_io_context(), which holds the Component’s I/O lock. */ static void component_reattach_all_sockets (Component *component) { GSList *i; for (i = component->socket_sources; i != NULL; i = i->next) { SocketSource *socket_source = i->data; nice_debug ("Reattach source %p.", socket_source->source); socket_source_detach (socket_source); socket_source_attach (socket_source, component->ctx); } } /** * component_detach_socket: * @component: a #Component * @socket: the socket to detach the source for * * Detach the #GSource for the single specified @socket. It also closes it * and frees it! * * If the @socket doesn’t exist in this @component, do nothing. */ void component_detach_socket (Component *component, NiceSocket *nicesock) { GSList *l; SocketSource *socket_source; nice_debug ("Detach socket %p.", nicesock); /* Find the SocketSource for the socket. */ l = g_slist_find_custom (component->socket_sources, nicesock, _find_socket_source); if (l == NULL) return; /* Detach the source. */ socket_source = l->data; component->socket_sources = g_slist_delete_link (component->socket_sources, l); component->socket_sources_age++; socket_source_detach (socket_source); socket_source_free (socket_source); } /* * Detaches socket handles of @component from the main context. Leaves the * sockets themselves untouched. * * Must *not* take the agent lock, since it’s called from within * component_set_io_context(), which holds the Component’s I/O lock. */ void component_detach_all_sockets (Component *component) { GSList *i; for (i = component->socket_sources; i != NULL; i = i->next) { SocketSource *socket_source = i->data; nice_debug ("Detach source %p, socket %p.", socket_source->source, socket_source->socket); socket_source_detach (socket_source); } } void component_free_socket_sources (Component *component) { nice_debug ("Free socket sources for component %p.", component); g_slist_free_full (component->socket_sources, (GDestroyNotify) socket_source_free); component->socket_sources = NULL; component->socket_sources_age++; component_clear_selected_pair (component); } GMainContext * component_dup_io_context (Component *component) { return g_main_context_ref (component->own_ctx); } /* If @context is %NULL, it's own context is used, so component->ctx is always * guaranteed to be non-%NULL. */ void component_set_io_context (Component *component, GMainContext *context) { g_mutex_lock (&component->io_mutex); if (component->ctx != context) { if (context == NULL) context = g_main_context_ref (component->own_ctx); else g_main_context_ref (context); component_detach_all_sockets (component); g_main_context_unref (component->ctx); component->ctx = context; component_reattach_all_sockets (component); } g_mutex_unlock (&component->io_mutex); } /* (func, user_data) and (recv_messages, n_recv_messages) are mutually * exclusive. At most one of the two must be specified; if both are NULL, the * Component will not receive any data (i.e. reception is paused). * * Apart from during setup, this must always be called with the agent lock held, * and the I/O lock released (because it takes the I/O lock itself). Requiring * the agent lock to be held means it can’t be called between a packet being * dequeued from the kernel buffers in agent.c, and an I/O callback being * emitted for it (which could cause data loss if the I/O callback function was * unset in that time). */ void component_set_io_callback (Component *component, NiceAgentRecvFunc func, gpointer user_data, NiceInputMessage *recv_messages, guint n_recv_messages, GError **error) { g_assert (func == NULL || recv_messages == NULL); g_assert (n_recv_messages == 0 || recv_messages != NULL); g_assert (error == NULL || *error == NULL); g_mutex_lock (&component->io_mutex); if (func != NULL) { component->io_callback = func; component->io_user_data = user_data; component->recv_messages = NULL; component->n_recv_messages = 0; component_schedule_io_callback (component); } else { component->io_callback = NULL; component->io_user_data = NULL; component->recv_messages = recv_messages; component->n_recv_messages = n_recv_messages; component_deschedule_io_callback (component); } nice_input_message_iter_reset (&component->recv_messages_iter); component->recv_buf_error = error; g_mutex_unlock (&component->io_mutex); } gboolean component_has_io_callback (Component *component) { gboolean has_io_callback; g_mutex_lock (&component->io_mutex); has_io_callback = (component->io_callback != NULL); g_mutex_unlock (&component->io_mutex); return has_io_callback; } IOCallbackData * io_callback_data_new (const guint8 *buf, gsize buf_len) { IOCallbackData *data; data = g_slice_new0 (IOCallbackData); data->buf = g_memdup (buf, buf_len); data->buf_len = buf_len; data->offset = 0; return data; } void io_callback_data_free (IOCallbackData *data) { g_free (data->buf); g_slice_free (IOCallbackData, data); } /* This is called with the global agent lock released. It does not take that * lock, but does take the io_mutex. */ static gboolean emit_io_callback_cb (gpointer user_data) { Component *component = user_data; IOCallbackData *data; NiceAgentRecvFunc io_callback; gpointer io_user_data; guint stream_id, component_id; NiceAgent *agent; agent = component->agent; g_object_ref (agent); stream_id = component->stream->id; component_id = component->id; g_mutex_lock (&component->io_mutex); /* The members of Component are guaranteed not to have changed since this * GSource was attached in component_emit_io_callback(). The Component’s agent * and stream are immutable after construction, as are the stream and * component IDs. The callback and its user data may have changed, but are * guaranteed to be non-%NULL at the start as the idle source is removed when * the callback is set to %NULL. They may become %NULL during the io_callback, * so must be re-checked every loop iteration. The data buffer is copied into * the #IOCallbackData closure. * * If the component is destroyed (which happens if the agent or stream are * destroyed) between attaching the GSource and firing it, the GSource is * detached in component_free() and this callback is never invoked. If the * agent is destroyed during an io_callback, its weak pointer will be * nullified. Similarly, the Component needs to be re-queried for after every * iteration, just in case the client has removed the stream in the * callback. */ while (TRUE) { io_callback = component->io_callback; io_user_data = component->io_user_data; data = g_queue_peek_head (&component->pending_io_messages); if (data == NULL || io_callback == NULL) break; g_mutex_unlock (&component->io_mutex); io_callback (agent, stream_id, component_id, data->buf_len - data->offset, (gchar *) data->buf + data->offset, io_user_data); /* Check for the user destroying things underneath our feet. */ if (!agent_find_component (agent, stream_id, component_id, NULL, &component)) { nice_debug ("%s: Agent or component destroyed.", G_STRFUNC); goto done; } g_queue_pop_head (&component->pending_io_messages); io_callback_data_free (data); g_mutex_lock (&component->io_mutex); } component->io_callback_id = 0; g_mutex_unlock (&component->io_mutex); done: g_object_unref (agent); return G_SOURCE_REMOVE; } /* This must be called with the agent lock *held*. */ void component_emit_io_callback (Component *component, const guint8 *buf, gsize buf_len) { NiceAgent *agent; guint stream_id, component_id; NiceAgentRecvFunc io_callback; gpointer io_user_data; g_assert (component != NULL); g_assert (buf != NULL); g_assert (buf_len > 0); agent = component->agent; stream_id = component->stream->id; component_id = component->id; g_mutex_lock (&component->io_mutex); io_callback = component->io_callback; io_user_data = component->io_user_data; g_mutex_unlock (&component->io_mutex); /* Allow this to be called with a NULL io_callback, since the caller can’t * lock io_mutex to check beforehand. */ if (io_callback == NULL) return; g_assert (NICE_IS_AGENT (agent)); g_assert (stream_id > 0); g_assert (component_id > 0); g_assert (io_callback != NULL); /* Only allocate a closure if the callback is being deferred to an idle * handler. */ if (g_main_context_is_owner (component->ctx)) { /* Thread owns the main context, so invoke the callback directly. */ agent_unlock_and_emit (agent); io_callback (agent, stream_id, component_id, buf_len, (gchar *) buf, io_user_data); agent_lock (); } else { IOCallbackData *data; g_mutex_lock (&component->io_mutex); /* Slow path: Current thread doesn’t own the Component’s context at the * moment, so schedule the callback in an idle handler. */ data = io_callback_data_new (buf, buf_len); g_queue_push_tail (&component->pending_io_messages, data); /* transfer ownership */ nice_debug ("%s: **WARNING: SLOW PATH**", G_STRFUNC); component_schedule_io_callback (component); g_mutex_unlock (&component->io_mutex); } } /* Note: Must be called with the io_mutex held. */ static void component_schedule_io_callback (Component *component) { GSource *source; /* Already scheduled or nothing to schedule? */ if (component->io_callback_id != 0 || g_queue_is_empty (&component->pending_io_messages)) return; /* Add the idle callback. If nice_agent_attach_recv() is called with a * NULL callback before this source is dispatched, the source will be * destroyed, but any pending data will remain in * component->pending_io_messages, ready to be picked up when a callback * is re-attached, or if nice_agent_recv() is called. */ source = g_idle_source_new (); g_source_set_priority (source, G_PRIORITY_DEFAULT); g_source_set_callback (source, emit_io_callback_cb, component, NULL); component->io_callback_id = g_source_attach (source, component->ctx); g_source_unref (source); } /* Note: Must be called with the io_mutex held. */ static void component_deschedule_io_callback (Component *component) { /* Already descheduled? */ if (component->io_callback_id == 0) return; g_source_remove (component->io_callback_id); component->io_callback_id = 0; } /** * ComponentSource: * * This is a GSource which wraps a single Component and is dispatched whenever * any of its NiceSockets are dispatched, i.e. it proxies all poll() events for * every socket in the Component. It is designed for use by GPollableInputStream * and GPollableOutputStream, so that a Component can be incorporated into a * custom main context iteration. * * The callbacks dispatched by a ComponentSource have type GPollableSourceFunc. * * ComponentSource supports adding a GCancellable child source which will * additionally dispatch if a provided GCancellable is cancelled. * * Internally, ComponentSource adds a new GSocketSource for each socket in the * Component. Changes to the Component’s list of sockets are detected on each * call to component_source_prepare(), which compares a stored age with the * current age of the Component’s socket list — if the socket list has changed, * the age will have increased (indicating added sockets) or will have been * reset to 0 (indicating all sockets have been closed). */ typedef struct { GSource parent; GObject *pollable_stream; /* owned */ GWeakRef agent_ref; guint stream_id; guint component_id; guint component_socket_sources_age; /* SocketSource, free with free_child_socket_source() */ GSList *socket_sources; GIOCondition condition; } ComponentSource; static gboolean component_source_prepare (GSource *source, gint *timeout_) { ComponentSource *component_source = (ComponentSource *) source; NiceAgent *agent; Component *component; GSList *parentl, *childl; agent = g_weak_ref_get (&component_source->agent_ref); if (!agent) return FALSE; /* Needed due to accessing the Component. */ agent_lock (); if (!agent_find_component (agent, component_source->stream_id, component_source->component_id, NULL, &component)) goto done; if (component->socket_sources_age == component_source->component_socket_sources_age) goto done; /* If the age has changed, either * - one or more new socket has been prepended * - old sockets have been removed */ /* Add the new child sources. */ for (parentl = component->socket_sources; parentl; parentl = parentl->next) { SocketSource *parent_socket_source = parentl->data; SocketSource *child_socket_source; /* Iterating the list of socket sources every time isn't a big problem * because the number of pairs is limited ~100 normally, so there will * rarely be more than 10. */ childl = g_slist_find_custom (component_source->socket_sources, parent_socket_source->socket, _find_socket_source); /* If we have reached this state, then all sources new sources have been * added, because they are always prepended. */ if (childl) break; child_socket_source = g_slice_new0 (SocketSource); child_socket_source->socket = parent_socket_source->socket; child_socket_source->source = g_socket_create_source (child_socket_source->socket->fileno, G_IO_IN, NULL); g_source_set_dummy_callback (child_socket_source->source); g_source_add_child_source (source, child_socket_source->source); g_source_unref (child_socket_source->source); component_source->socket_sources = g_slist_prepend (component_source->socket_sources, child_socket_source); } for (childl = component_source->socket_sources; childl;) { SocketSource *child_socket_source = childl->data; GSList *next = childl->next; parentl = g_slist_find_custom (component->socket_sources, child_socket_source->socket, _find_socket_source); /* If this is not a currently used socket, remove the relevant source */ if (!parentl) { g_source_remove_child_source (source, child_socket_source->source); g_slice_free (SocketSource, child_socket_source); component_source->socket_sources = g_slist_delete_link (component_source->socket_sources, childl); } childl = next; } /* Update the age. */ component_source->component_socket_sources_age = component->socket_sources_age; done: agent_unlock_and_emit (agent); g_object_unref (agent); /* We can’t be sure if the ComponentSource itself needs to be dispatched until * poll() is called on all the child sources. */ return FALSE; } static gboolean component_source_dispatch (GSource *source, GSourceFunc callback, gpointer user_data) { ComponentSource *component_source = (ComponentSource *) source; GPollableSourceFunc func = (GPollableSourceFunc) callback; return func (component_source->pollable_stream, user_data); } static void free_child_socket_source (gpointer data) { g_slice_free (SocketSource, data); } static void component_source_finalize (GSource *source) { ComponentSource *component_source = (ComponentSource *) source; g_slist_free_full (component_source->socket_sources, free_child_socket_source); g_weak_ref_clear (&component_source->agent_ref); g_object_unref (component_source->pollable_stream); component_source->pollable_stream = NULL; } static gboolean component_source_closure_callback (GObject *pollable_stream, gpointer user_data) { GClosure *closure = user_data; GValue param_value = G_VALUE_INIT; GValue result_value = G_VALUE_INIT; gboolean retval; g_value_init (&result_value, G_TYPE_BOOLEAN); g_value_init (¶m_value, G_TYPE_OBJECT); g_value_set_object (¶m_value, pollable_stream); g_closure_invoke (closure, &result_value, 1, ¶m_value, NULL); retval = g_value_get_boolean (&result_value); g_value_unset (¶m_value); g_value_unset (&result_value); return retval; } static GSourceFuncs component_source_funcs = { component_source_prepare, NULL, /* check */ component_source_dispatch, component_source_finalize, (GSourceFunc) component_source_closure_callback, }; /** * component_source_new: * @agent: a #NiceAgent * @stream_id: The stream's id * @component_id: The component's number * @pollable_stream: a #GPollableInputStream or #GPollableOutputStream to pass * to dispatched callbacks * @cancellable: (allow-none): a #GCancellable, or %NULL * * Create a new #ComponentSource, a type of #GSource which proxies poll events * from all sockets in the given @component. * * A callback function of type #GPollableSourceFunc must be connected to the * returned #GSource using g_source_set_callback(). @pollable_stream is passed * to all callbacks dispatched from the #GSource, and a reference is held on it * by the #GSource. * * The #GSource will automatically update to poll sockets as they’re added to * the @component (e.g. during peer discovery). * * Returns: (transfer full): a new #ComponentSource; unref with g_source_unref() */ GSource * component_input_source_new (NiceAgent *agent, guint stream_id, guint component_id, GPollableInputStream *pollable_istream, GCancellable *cancellable) { ComponentSource *component_source; g_assert (G_IS_POLLABLE_INPUT_STREAM (pollable_istream)); component_source = (ComponentSource *) g_source_new (&component_source_funcs, sizeof (ComponentSource)); g_source_set_name ((GSource *) component_source, "ComponentSource"); component_source->component_socket_sources_age = 0; component_source->pollable_stream = g_object_ref (pollable_istream); g_weak_ref_init (&component_source->agent_ref, agent); component_source->stream_id = stream_id; component_source->component_id = component_id; /* Add a cancellable source. */ if (cancellable != NULL) { GSource *cancellable_source; cancellable_source = g_cancellable_source_new (cancellable); g_source_set_dummy_callback (cancellable_source); g_source_add_child_source ((GSource *) component_source, cancellable_source); g_source_unref (cancellable_source); } return (GSource *) component_source; } TurnServer * turn_server_new (const gchar *server_ip, guint server_port, const gchar *username, const gchar *password, NiceRelayType type) { TurnServer *turn = g_slice_new (TurnServer); nice_address_init (&turn->server); turn->ref_count = 1; if (nice_address_set_from_string (&turn->server, server_ip)) { nice_address_set_port (&turn->server, server_port); } else { g_slice_free (TurnServer, turn); return NULL; } turn->username = g_strdup (username); turn->password = g_strdup (password); turn->type = type; return turn; } TurnServer * turn_server_ref (TurnServer *turn) { turn->ref_count++; return turn; } void turn_server_unref (TurnServer *turn) { turn->ref_count--; if (turn->ref_count == 0) { g_free (turn->username); g_free (turn->password); g_slice_free (TurnServer, turn); } }