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asterisk/main/bridge.c

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/*
* Asterisk -- An open source telephony toolkit.
*
* Copyright (C) 2007 - 2009, Digium, Inc.
*
* Joshua Colp <jcolp@digium.com>
*
* See http://www.asterisk.org for more information about
* the Asterisk project. Please do not directly contact
* any of the maintainers of this project for assistance;
* the project provides a web site, mailing lists and IRC
* channels for your use.
*
* This program is free software, distributed under the terms of
* the GNU General Public License Version 2. See the LICENSE file
* at the top of the source tree.
*/
/*! \file
*
* \brief Bridging API
*
* \author Joshua Colp <jcolp@digium.com>
*/
/*** MODULEINFO
<support_level>core</support_level>
***/
#include "asterisk.h"
ASTERISK_FILE_VERSION(__FILE__, "$Revision$")
#include "asterisk/logger.h"
#include "asterisk/channel.h"
#include "asterisk/options.h"
#include "asterisk/utils.h"
#include "asterisk/lock.h"
#include "asterisk/linkedlists.h"
#include "asterisk/bridge.h"
#include "asterisk/bridge_internal.h"
#include "asterisk/bridge_channel_internal.h"
#include "asterisk/bridge_basic.h"
#include "asterisk/bridge_technology.h"
#include "asterisk/bridge_channel.h"
#include "asterisk/bridge_after.h"
#include "asterisk/stasis_bridges.h"
#include "asterisk/stasis_channels.h"
#include "asterisk/app.h"
#include "asterisk/file.h"
#include "asterisk/module.h"
#include "asterisk/astobj2.h"
#include "asterisk/pbx.h"
#include "asterisk/test.h"
#include "asterisk/_private.h"
#include "asterisk/heap.h"
#include "asterisk/say.h"
#include "asterisk/timing.h"
#include "asterisk/stringfields.h"
#include "asterisk/musiconhold.h"
#include "asterisk/features.h"
#include "asterisk/cli.h"
#include "asterisk/parking.h"
#include "asterisk/core_local.h"
#include "asterisk/core_unreal.h"
/*! All bridges container. */
static struct ao2_container *bridges;
static AST_RWLIST_HEAD_STATIC(bridge_technologies, ast_bridge_technology);
/* Initial starting point for the bridge array of channels */
#define BRIDGE_ARRAY_START 128
/* Grow rate of bridge array of channels */
#define BRIDGE_ARRAY_GROW 32
static void cleanup_video_mode(struct ast_bridge *bridge);
static int bridge_make_compatible(struct ast_bridge *bridge, struct ast_bridge_channel *bridge_channel);
/*! Default DTMF keys for built in features */
static char builtin_features_dtmf[AST_BRIDGE_BUILTIN_END][MAXIMUM_DTMF_FEATURE_STRING];
/*! Function handlers for the built in features */
static ast_bridge_hook_callback builtin_features_handlers[AST_BRIDGE_BUILTIN_END];
/*! Function handlers for built in interval features */
static ast_bridge_builtin_set_limits_fn builtin_interval_handlers[AST_BRIDGE_BUILTIN_INTERVAL_END];
/*! Bridge manager service request */
struct bridge_manager_request {
/*! List of bridge service requests. */
AST_LIST_ENTRY(bridge_manager_request) node;
/*! Refed bridge requesting service. */
struct ast_bridge *bridge;
};
struct bridge_manager_controller {
/*! Condition, used to wake up the bridge manager thread. */
ast_cond_t cond;
/*! Queue of bridge service requests. */
AST_LIST_HEAD_NOLOCK(, bridge_manager_request) service_requests;
/*! Manager thread */
pthread_t thread;
/*! TRUE if the manager needs to stop. */
unsigned int stop:1;
};
/*! Bridge manager controller. */
static struct bridge_manager_controller *bridge_manager;
/*!
* \internal
* \brief Request service for a bridge from the bridge manager.
* \since 12.0.0
*
* \param bridge Requesting service.
*
* \return Nothing
*/
static void bridge_manager_service_req(struct ast_bridge *bridge)
{
struct bridge_manager_request *request;
ao2_lock(bridge_manager);
if (bridge_manager->stop) {
ao2_unlock(bridge_manager);
return;
}
/* Create the service request. */
request = ast_calloc(1, sizeof(*request));
if (!request) {
/* Well. This isn't good. */
ao2_unlock(bridge_manager);
return;
}
ao2_ref(bridge, +1);
request->bridge = bridge;
/* Put request into the queue and wake the bridge manager. */
AST_LIST_INSERT_TAIL(&bridge_manager->service_requests, request, node);
ast_cond_signal(&bridge_manager->cond);
ao2_unlock(bridge_manager);
}
int __ast_bridge_technology_register(struct ast_bridge_technology *technology, struct ast_module *module)
{
struct ast_bridge_technology *current;
/* Perform a sanity check to make sure the bridge technology conforms to our needed requirements */
if (ast_strlen_zero(technology->name)
|| !technology->capabilities
|| !technology->write) {
ast_log(LOG_WARNING, "Bridge technology %s failed registration sanity check.\n",
technology->name);
return -1;
}
AST_RWLIST_WRLOCK(&bridge_technologies);
/* Look for duplicate bridge technology already using this name, or already registered */
AST_RWLIST_TRAVERSE(&bridge_technologies, current, entry) {
if ((!strcasecmp(current->name, technology->name)) || (current == technology)) {
ast_log(LOG_WARNING, "A bridge technology of %s already claims to exist in our world.\n",
technology->name);
AST_RWLIST_UNLOCK(&bridge_technologies);
return -1;
}
}
/* Copy module pointer so reference counting can keep the module from unloading */
technology->mod = module;
/* Insert our new bridge technology into the list and print out a pretty message */
AST_RWLIST_INSERT_TAIL(&bridge_technologies, technology, entry);
AST_RWLIST_UNLOCK(&bridge_technologies);
ast_verb(2, "Registered bridge technology %s\n", technology->name);
return 0;
}
int ast_bridge_technology_unregister(struct ast_bridge_technology *technology)
{
struct ast_bridge_technology *current;
AST_RWLIST_WRLOCK(&bridge_technologies);
/* Ensure the bridge technology is registered before removing it */
AST_RWLIST_TRAVERSE_SAFE_BEGIN(&bridge_technologies, current, entry) {
if (current == technology) {
AST_RWLIST_REMOVE_CURRENT(entry);
ast_verb(2, "Unregistered bridge technology %s\n", technology->name);
break;
}
}
AST_RWLIST_TRAVERSE_SAFE_END;
AST_RWLIST_UNLOCK(&bridge_technologies);
return current ? 0 : -1;
}
/*!
* \internal
* \brief Put an action onto the specified bridge. Don't dup the action frame.
* \since 12.0.0
*
* \param bridge What to queue the action on.
* \param action What to do.
*
* \return Nothing
*/
static void bridge_queue_action_nodup(struct ast_bridge *bridge, struct ast_frame *action)
{
ast_debug(1, "Bridge %s: queueing action type:%d sub:%d\n",
bridge->uniqueid, action->frametype, action->subclass.integer);
ast_bridge_lock(bridge);
AST_LIST_INSERT_TAIL(&bridge->action_queue, action, frame_list);
ast_bridge_unlock(bridge);
bridge_manager_service_req(bridge);
}
int ast_bridge_queue_action(struct ast_bridge *bridge, struct ast_frame *action)
{
struct ast_frame *dup;
dup = ast_frdup(action);
if (!dup) {
return -1;
}
bridge_queue_action_nodup(bridge, dup);
return 0;
}
/*!
* \internal
* \brief Dissolve the bridge.
* \since 12.0.0
*
* \param bridge Bridge to eject all channels
*
* \details
* Force out all channels that are not already going out of the
* bridge. Any new channels joining will leave immediately.
*
* \note On entry, bridge is already locked.
*
* \return Nothing
*/
void bridge_dissolve(struct ast_bridge *bridge)
{
struct ast_bridge_channel *bridge_channel;
struct ast_frame action = {
.frametype = AST_FRAME_BRIDGE_ACTION,
.subclass.integer = BRIDGE_CHANNEL_ACTION_DEFERRED_DISSOLVING,
};
if (bridge->dissolved) {
return;
}
bridge->dissolved = 1;
ast_debug(1, "Bridge %s: dissolving bridge\n", bridge->uniqueid);
/* BUGBUG need a cause code on the bridge for the later ejected channels. */
AST_LIST_TRAVERSE(&bridge->channels, bridge_channel, entry) {
ast_bridge_channel_leave_bridge(bridge_channel, BRIDGE_CHANNEL_STATE_END_NO_DISSOLVE);
}
/* Must defer dissolving bridge because it is already locked. */
ast_bridge_queue_action(bridge, &action);
}
/*!
* \internal
* \brief Check if a bridge should dissolve because of a stolen channel and do it.
* \since 12.0.0
*
* \param bridge Bridge to check.
* \param bridge_channel Stolen channel causing the check. It is not in the bridge to check and may be in another bridge.
*
* \note On entry, bridge and bridge_channel->bridge are already locked.
*
* \return Nothing
*/
static void bridge_dissolve_check_stolen(struct ast_bridge *bridge, struct ast_bridge_channel *bridge_channel)
{
if (bridge->dissolved) {
return;
}
if (bridge_channel->features->usable
&& ast_test_flag(&bridge_channel->features->feature_flags,
AST_BRIDGE_CHANNEL_FLAG_DISSOLVE_HANGUP)) {
/* The stolen channel controlled the bridge it was stolen from. */
bridge_dissolve(bridge);
return;
}
if (bridge->num_channels < 2
&& ast_test_flag(&bridge->feature_flags, AST_BRIDGE_FLAG_DISSOLVE_HANGUP)) {
/*
* The stolen channel has not left enough channels to keep the
* bridge alive. Assume the stolen channel hung up.
*/
bridge_dissolve(bridge);
return;
}
}
/*!
* \internal
* \brief Update connected line information after a bridge has been reconfigured.
*
* \param bridge The bridge itself.
*
* \return Nothing
*/
static void bridge_reconfigured_connected_line_update(struct ast_bridge *bridge)
{
struct ast_party_connected_line connected;
struct ast_bridge_channel *bridge_channel = AST_LIST_FIRST(&bridge->channels), *peer;
unsigned char data[1024];
size_t datalen;
if (!bridge_channel ||
!(bridge->technology->capabilities & (AST_BRIDGE_CAPABILITY_1TO1MIX | AST_BRIDGE_CAPABILITY_NATIVE)) ||
!(peer = ast_bridge_channel_peer(bridge_channel)) ||
ast_test_flag(ast_channel_flags(bridge_channel->chan), AST_FLAG_ZOMBIE) ||
ast_test_flag(ast_channel_flags(peer->chan), AST_FLAG_ZOMBIE) ||
ast_check_hangup_locked(bridge_channel->chan) ||
ast_check_hangup_locked(peer->chan)) {
return;
}
ast_party_connected_line_init(&connected);
ast_channel_lock(bridge_channel->chan);
ast_connected_line_copy_from_caller(&connected, ast_channel_caller(bridge_channel->chan));
ast_channel_unlock(bridge_channel->chan);
if ((datalen = ast_connected_line_build_data(data, sizeof(data), &connected, NULL)) != (size_t) -1) {
ast_bridge_channel_queue_control_data(peer, AST_CONTROL_CONNECTED_LINE, data, datalen);
}
ast_channel_lock(peer->chan);
ast_connected_line_copy_from_caller(&connected, ast_channel_caller(peer->chan));
ast_channel_unlock(peer->chan);
if ((datalen = ast_connected_line_build_data(data, sizeof(data), &connected, NULL)) != (size_t) -1) {
ast_bridge_channel_queue_control_data(bridge_channel, AST_CONTROL_CONNECTED_LINE, data, datalen);
}
ast_party_connected_line_free(&connected);
}
/*!
* \internal
* \brief Complete joining a channel to the bridge.
* \since 12.0.0
*
* \param bridge What to operate upon.
* \param bridge_channel What is joining the bridge technology.
*
* \note On entry, bridge is already locked.
*
* \return Nothing
*/
static void bridge_channel_complete_join(struct ast_bridge *bridge, struct ast_bridge_channel *bridge_channel)
{
/* Make the channel compatible with the bridge */
bridge_make_compatible(bridge, bridge_channel);
/* Tell the bridge technology we are joining so they set us up */
ast_debug(1, "Bridge %s: %p(%s) is joining %s technology\n",
bridge->uniqueid, bridge_channel, ast_channel_name(bridge_channel->chan),
bridge->technology->name);
if (bridge->technology->join
&& bridge->technology->join(bridge, bridge_channel)) {
ast_debug(1, "Bridge %s: %p(%s) failed to join %s technology\n",
bridge->uniqueid, bridge_channel, ast_channel_name(bridge_channel->chan),
bridge->technology->name);
bridge_channel->just_joined = 1;
return;
}
bridge_channel->just_joined = 0;
}
/*!
* \internal
* \brief Complete joining new channels to the bridge.
* \since 12.0.0
*
* \param bridge Check for new channels on this bridge.
*
* \note On entry, bridge is already locked.
*
* \return Nothing
*/
static void bridge_complete_join(struct ast_bridge *bridge)
{
struct ast_bridge_channel *bridge_channel;
if (bridge->dissolved) {
/*
* No sense in completing the join on channels for a dissolved
* bridge. They are just going to be removed soon anyway.
* However, we do have reason to abort here because the bridge
* technology may not be able to handle the number of channels
* still in the bridge.
*/
return;
}
AST_LIST_TRAVERSE(&bridge->channels, bridge_channel, entry) {
if (!bridge_channel->just_joined) {
continue;
}
bridge_channel_complete_join(bridge, bridge_channel);
}
}
/*! \brief Helper function used to find the "best" bridge technology given specified capabilities */
static struct ast_bridge_technology *find_best_technology(uint32_t capabilities, struct ast_bridge *bridge)
{
struct ast_bridge_technology *current;
struct ast_bridge_technology *best = NULL;
AST_RWLIST_RDLOCK(&bridge_technologies);
AST_RWLIST_TRAVERSE(&bridge_technologies, current, entry) {
if (current->suspended) {
ast_debug(1, "Bridge technology %s is suspended. Skipping.\n",
current->name);
continue;
}
if (!(current->capabilities & capabilities)) {
ast_debug(1, "Bridge technology %s does not have any capabilities we want.\n",
current->name);
continue;
}
if (best && current->preference <= best->preference) {
ast_debug(1, "Bridge technology %s has less preference than %s (%d <= %d). Skipping.\n",
current->name, best->name, current->preference, best->preference);
continue;
}
if (current->compatible && !current->compatible(bridge)) {
ast_debug(1, "Bridge technology %s is not compatible with properties of existing bridge.\n",
current->name);
continue;
}
best = current;
}
if (best) {
/* Increment it's module reference count if present so it does not get unloaded while in use */
ast_module_ref(best->mod);
ast_debug(1, "Chose bridge technology %s\n", best->name);
}
AST_RWLIST_UNLOCK(&bridge_technologies);
return best;
}
struct tech_deferred_destroy {
struct ast_bridge_technology *tech;
void *tech_pvt;
};
/*!
* \internal
* \brief Deferred destruction of bridge tech private structure.
* \since 12.0.0
*
* \param bridge What to execute the action on.
* \param action Deferred bridge tech destruction.
*
* \note On entry, bridge must not be locked.
*
* \return Nothing
*/
static void bridge_tech_deferred_destroy(struct ast_bridge *bridge, struct ast_frame *action)
{
struct tech_deferred_destroy *deferred = action->data.ptr;
struct ast_bridge dummy_bridge = {
.technology = deferred->tech,
.tech_pvt = deferred->tech_pvt,
};
ast_copy_string(dummy_bridge.uniqueid, bridge->uniqueid, sizeof(dummy_bridge.uniqueid));
ast_debug(1, "Bridge %s: calling %s technology destructor (deferred, dummy)\n",
dummy_bridge.uniqueid, dummy_bridge.technology->name);
dummy_bridge.technology->destroy(&dummy_bridge);
ast_module_unref(dummy_bridge.technology->mod);
}
/*!
* \internal
* \brief Handle bridge action frame.
* \since 12.0.0
*
* \param bridge What to execute the action on.
* \param action What to do.
*
* \note On entry, bridge is already locked.
* \note Can be called by the bridge destructor.
*
* \return Nothing
*/
static void bridge_action_bridge(struct ast_bridge *bridge, struct ast_frame *action)
{
#if 0 /* In case we need to know when the destructor is calling us. */
int in_destructor = !ao2_ref(bridge, 0);
#endif
switch (action->subclass.integer) {
case BRIDGE_CHANNEL_ACTION_DEFERRED_TECH_DESTROY:
ast_bridge_unlock(bridge);
bridge_tech_deferred_destroy(bridge, action);
ast_bridge_lock(bridge);
break;
case BRIDGE_CHANNEL_ACTION_DEFERRED_DISSOLVING:
ast_bridge_unlock(bridge);
bridge->v_table->dissolving(bridge);
ast_bridge_lock(bridge);
break;
default:
/* Unexpected deferred action type. Should never happen. */
ast_assert(0);
break;
}
}
/*!
* \internal
* \brief Do any pending bridge actions.
* \since 12.0.0
*
* \param bridge What to do actions on.
*
* \note On entry, bridge is already locked.
* \note Can be called by the bridge destructor.
*
* \return Nothing
*/
static void bridge_handle_actions(struct ast_bridge *bridge)
{
struct ast_frame *action;
while ((action = AST_LIST_REMOVE_HEAD(&bridge->action_queue, frame_list))) {
switch (action->frametype) {
case AST_FRAME_BRIDGE_ACTION:
bridge_action_bridge(bridge, action);
break;
default:
/* Unexpected deferred frame type. Should never happen. */
ast_assert(0);
break;
}
ast_frfree(action);
}
}
static struct stasis_message *create_bridge_snapshot_message(struct ast_bridge *bridge)
{
RAII_VAR(struct ast_bridge_snapshot *, snapshot, NULL, ao2_cleanup);
snapshot = ast_bridge_snapshot_create(bridge);
if (!snapshot) {
return NULL;
}
return stasis_message_create(ast_bridge_snapshot_type(), snapshot);
}
static void destroy_bridge(void *obj)
{
struct ast_bridge *bridge = obj;
ast_debug(1, "Bridge %s: actually destroying %s bridge, nobody wants it anymore\n",
bridge->uniqueid, bridge->v_table->name);
if (bridge->construction_completed) {
RAII_VAR(struct stasis_message *, clear_msg, NULL, ao2_cleanup);
clear_msg = create_bridge_snapshot_message(bridge);
if (clear_msg) {
RAII_VAR(struct stasis_message *, msg, NULL, ao2_cleanup);
msg = stasis_cache_clear_create(clear_msg);
if (msg) {
stasis_publish(ast_bridge_topic(bridge), msg);
}
}
}
/* Do any pending actions in the context of destruction. */
ast_bridge_lock(bridge);
bridge_handle_actions(bridge);
ast_bridge_unlock(bridge);
/* There should not be any channels left in the bridge. */
ast_assert(AST_LIST_EMPTY(&bridge->channels));
ast_debug(1, "Bridge %s: calling %s bridge destructor\n",
bridge->uniqueid, bridge->v_table->name);
bridge->v_table->destroy(bridge);
/* Pass off the bridge to the technology to destroy if needed */
if (bridge->technology) {
ast_debug(1, "Bridge %s: calling %s technology stop\n",
bridge->uniqueid, bridge->technology->name);
if (bridge->technology->stop) {
ast_bridge_lock(bridge);
bridge->technology->stop(bridge);
ast_bridge_unlock(bridge);
}
ast_debug(1, "Bridge %s: calling %s technology destructor\n",
bridge->uniqueid, bridge->technology->name);
if (bridge->technology->destroy) {
bridge->technology->destroy(bridge);
}
ast_module_unref(bridge->technology->mod);
bridge->technology = NULL;
}
if (bridge->callid) {
bridge->callid = ast_callid_unref(bridge->callid);
}
cleanup_video_mode(bridge);
}
struct ast_bridge *bridge_register(struct ast_bridge *bridge)
{
if (bridge) {
bridge->construction_completed = 1;
ast_bridge_publish_state(bridge);
if (!ao2_link(bridges, bridge)) {
ast_bridge_destroy(bridge);
bridge = NULL;
}
}
return bridge;
}
struct ast_bridge *bridge_alloc(size_t size, const struct ast_bridge_methods *v_table)
{
struct ast_bridge *bridge;
/* Check v_table that all methods are present. */
if (!v_table
|| !v_table->name
|| !v_table->destroy
|| !v_table->dissolving
|| !v_table->push
|| !v_table->pull
|| !v_table->notify_masquerade
|| !v_table->get_merge_priority) {
ast_log(LOG_ERROR, "Virtual method table for bridge class %s not complete.\n",
v_table && v_table->name ? v_table->name : "<unknown>");
ast_assert(0);
return NULL;
}
bridge = ao2_alloc(size, destroy_bridge);
if (bridge) {
bridge->v_table = v_table;
}
return bridge;
}
struct ast_bridge *bridge_base_init(struct ast_bridge *self, uint32_t capabilities, unsigned int flags)
{
if (!self) {
return NULL;
}
ast_uuid_generate_str(self->uniqueid, sizeof(self->uniqueid));
ast_set_flag(&self->feature_flags, flags);
self->allowed_capabilities = capabilities;
/* Use our helper function to find the "best" bridge technology. */
self->technology = find_best_technology(capabilities, self);
if (!self->technology) {
ast_log(LOG_WARNING, "Bridge %s: Could not create class %s. No technology to support it.\n",
self->uniqueid, self->v_table->name);
ao2_ref(self, -1);
return NULL;
}
/* Pass off the bridge to the technology to manipulate if needed */
ast_debug(1, "Bridge %s: calling %s technology constructor\n",
self->uniqueid, self->technology->name);
if (self->technology->create && self->technology->create(self)) {
ast_log(LOG_WARNING, "Bridge %s: failed to setup bridge technology %s\n",
self->uniqueid, self->technology->name);
ao2_ref(self, -1);
return NULL;
}
ast_debug(1, "Bridge %s: calling %s technology start\n",
self->uniqueid, self->technology->name);
if (self->technology->start && self->technology->start(self)) {
ast_log(LOG_WARNING, "Bridge %s: failed to start bridge technology %s\n",
self->uniqueid, self->technology->name);
ao2_ref(self, -1);
return NULL;
}
if (!ast_bridge_topic(self)) {
ao2_ref(self, -1);
return NULL;
}
return self;
}
/*!
* \internal
* \brief ast_bridge base class destructor.
* \since 12.0.0
*
* \param self Bridge to operate upon.
*
* \note Stub because of nothing to do.
*
* \return Nothing
*/
static void bridge_base_destroy(struct ast_bridge *self)
{
}
/*!
* \internal
* \brief The bridge is being dissolved.
* \since 12.0.0
*
* \param self Bridge to operate upon.
*
* \return Nothing
*/
static void bridge_base_dissolving(struct ast_bridge *self)
{
ao2_unlink(bridges, self);
}
/*!
* \internal
* \brief ast_bridge base push method.
* \since 12.0.0
*
* \param self Bridge to operate upon.
* \param bridge_channel Bridge channel to push.
* \param swap Bridge channel to swap places with if not NULL.
*
* \note On entry, self is already locked.
* \note Stub because of nothing to do.
*
* \retval 0 on success
* \retval -1 on failure
*/
static int bridge_base_push(struct ast_bridge *self, struct ast_bridge_channel *bridge_channel, struct ast_bridge_channel *swap)
{
return 0;
}
/*!
* \internal
* \brief ast_bridge base pull method.
* \since 12.0.0
*
* \param self Bridge to operate upon.
* \param bridge_channel Bridge channel to pull.
*
* \note On entry, self is already locked.
*
* \return Nothing
*/
static void bridge_base_pull(struct ast_bridge *self, struct ast_bridge_channel *bridge_channel)
{
ast_bridge_features_remove(bridge_channel->features, AST_BRIDGE_HOOK_REMOVE_ON_PULL);
}
/*!
* \internal
* \brief ast_bridge base notify_masquerade method.
* \since 12.0.0
*
* \param self Bridge to operate upon.
* \param bridge_channel Bridge channel that was masqueraded.
*
* \note On entry, self is already locked.
*
* \return Nothing
*/
static void bridge_base_notify_masquerade(struct ast_bridge *self, struct ast_bridge_channel *bridge_channel)
{
self->reconfigured = 1;
}
/*!
* \internal
* \brief Get the merge priority of this bridge.
* \since 12.0.0
*
* \param self Bridge to operate upon.
*
* \note On entry, self is already locked.
*
* \return Merge priority
*/
static int bridge_base_get_merge_priority(struct ast_bridge *self)
{
return 0;
}
struct ast_bridge_methods ast_bridge_base_v_table = {
.name = "base",
.destroy = bridge_base_destroy,
.dissolving = bridge_base_dissolving,
.push = bridge_base_push,
.pull = bridge_base_pull,
.notify_masquerade = bridge_base_notify_masquerade,
.get_merge_priority = bridge_base_get_merge_priority,
};
struct ast_bridge *ast_bridge_base_new(uint32_t capabilities, unsigned int flags)
{
void *bridge;
bridge = bridge_alloc(sizeof(struct ast_bridge), &ast_bridge_base_v_table);
bridge = bridge_base_init(bridge, capabilities, flags);
bridge = bridge_register(bridge);
return bridge;
}
int ast_bridge_destroy(struct ast_bridge *bridge)
{
ast_debug(1, "Bridge %s: telling all channels to leave the party\n", bridge->uniqueid);
ast_bridge_lock(bridge);
bridge_dissolve(bridge);
ast_bridge_unlock(bridge);
ao2_ref(bridge, -1);
return 0;
}
static int bridge_make_compatible(struct ast_bridge *bridge, struct ast_bridge_channel *bridge_channel)
{
struct ast_format read_format;
struct ast_format write_format;
struct ast_format best_format;
char codec_buf[512];
ast_format_copy(&read_format, ast_channel_readformat(bridge_channel->chan));
ast_format_copy(&write_format, ast_channel_writeformat(bridge_channel->chan));
/* Are the formats currently in use something this bridge can handle? */
if (!ast_format_cap_iscompatible(bridge->technology->format_capabilities, ast_channel_readformat(bridge_channel->chan))) {
ast_best_codec(bridge->technology->format_capabilities, &best_format);
/* Read format is a no go... */
ast_debug(1, "Bridge technology %s wants to read any of formats %s but channel has %s\n",
bridge->technology->name,
ast_getformatname_multiple(codec_buf, sizeof(codec_buf), bridge->technology->format_capabilities),
ast_getformatname(&read_format));
/* Switch read format to the best one chosen */
if (ast_set_read_format(bridge_channel->chan, &best_format)) {
ast_log(LOG_WARNING, "Failed to set channel %s to read format %s\n",
ast_channel_name(bridge_channel->chan), ast_getformatname(&best_format));
return -1;
}
ast_debug(1, "Bridge %s put channel %s into read format %s\n",
bridge->uniqueid, ast_channel_name(bridge_channel->chan),
ast_getformatname(&best_format));
} else {
ast_debug(1, "Bridge %s is happy that channel %s already has read format %s\n",
bridge->uniqueid, ast_channel_name(bridge_channel->chan),
ast_getformatname(&read_format));
}
if (!ast_format_cap_iscompatible(bridge->technology->format_capabilities, &write_format)) {
ast_best_codec(bridge->technology->format_capabilities, &best_format);
/* Write format is a no go... */
ast_debug(1, "Bridge technology %s wants to write any of formats %s but channel has %s\n",
bridge->technology->name,
ast_getformatname_multiple(codec_buf, sizeof(codec_buf), bridge->technology->format_capabilities),
ast_getformatname(&write_format));
/* Switch write format to the best one chosen */
if (ast_set_write_format(bridge_channel->chan, &best_format)) {
ast_log(LOG_WARNING, "Failed to set channel %s to write format %s\n",
ast_channel_name(bridge_channel->chan), ast_getformatname(&best_format));
return -1;
}
ast_debug(1, "Bridge %s put channel %s into write format %s\n",
bridge->uniqueid, ast_channel_name(bridge_channel->chan),
ast_getformatname(&best_format));
} else {
ast_debug(1, "Bridge %s is happy that channel %s already has write format %s\n",
bridge->uniqueid, ast_channel_name(bridge_channel->chan),
ast_getformatname(&write_format));
}
return 0;
}
/*!
* \internal
* \brief Perform the smart bridge operation.
* \since 12.0.0
*
* \param bridge Work on this bridge.
*
* \details
* Basically see if a new bridge technology should be used instead
* of the current one.
*
* \note On entry, bridge is already locked.
*
* \retval 0 on success.
* \retval -1 on error.
*/
static int smart_bridge_operation(struct ast_bridge *bridge)
{
uint32_t new_capabilities;
struct ast_bridge_technology *new_technology;
struct ast_bridge_technology *old_technology = bridge->technology;
struct ast_bridge_channel *bridge_channel;
struct ast_frame *deferred_action;
struct ast_bridge dummy_bridge = {
.technology = bridge->technology,
.tech_pvt = bridge->tech_pvt,
};
if (bridge->dissolved) {
ast_debug(1, "Bridge %s is dissolved, not performing smart bridge operation.\n",
bridge->uniqueid);
return 0;
}
/* Determine new bridge technology capabilities needed. */
if (2 < bridge->num_channels) {
new_capabilities = AST_BRIDGE_CAPABILITY_MULTIMIX;
new_capabilities &= bridge->allowed_capabilities;
} else {
new_capabilities = AST_BRIDGE_CAPABILITY_NATIVE | AST_BRIDGE_CAPABILITY_1TO1MIX;
new_capabilities &= bridge->allowed_capabilities;
if (!new_capabilities
&& (bridge->allowed_capabilities & AST_BRIDGE_CAPABILITY_MULTIMIX)) {
/* Allow switching between different multimix bridge technologies. */
new_capabilities = AST_BRIDGE_CAPABILITY_MULTIMIX;
}
}
/* Find a bridge technology to satisfy the new capabilities. */
new_technology = find_best_technology(new_capabilities, bridge);
if (!new_technology) {
int is_compatible = 0;
if (old_technology->compatible) {
is_compatible = old_technology->compatible(bridge);
} else if (old_technology->capabilities & AST_BRIDGE_CAPABILITY_MULTIMIX) {
is_compatible = 1;
} else if (bridge->num_channels <= 2
&& (old_technology->capabilities & AST_BRIDGE_CAPABILITY_1TO1MIX)) {
is_compatible = 1;
}
if (is_compatible) {
ast_debug(1, "Bridge %s could not get a new technology, staying with old technology.\n",
bridge->uniqueid);
return 0;
}
ast_log(LOG_WARNING, "Bridge %s has no technology available to support it.\n",
bridge->uniqueid);
return -1;
}
if (new_technology == old_technology) {
ast_debug(1, "Bridge %s is already using the new technology.\n",
bridge->uniqueid);
ast_module_unref(old_technology->mod);
return 0;
}
ast_copy_string(dummy_bridge.uniqueid, bridge->uniqueid, sizeof(dummy_bridge.uniqueid));
if (old_technology->destroy) {
struct tech_deferred_destroy deferred_tech_destroy = {
.tech = dummy_bridge.technology,
.tech_pvt = dummy_bridge.tech_pvt,
};
struct ast_frame action = {
.frametype = AST_FRAME_BRIDGE_ACTION,
.subclass.integer = BRIDGE_CHANNEL_ACTION_DEFERRED_TECH_DESTROY,
.data.ptr = &deferred_tech_destroy,
.datalen = sizeof(deferred_tech_destroy),
};
/*
* We need to defer the bridge technology destroy callback
* because we have the bridge locked.
*/
deferred_action = ast_frdup(&action);
if (!deferred_action) {
ast_module_unref(new_technology->mod);
return -1;
}
} else {
deferred_action = NULL;
}
/*
* We are now committed to changing the bridge technology. We
* must not release the bridge lock until we have installed the
* new bridge technology.
*/
ast_verb(4, "Bridge %s: switching from %s technology to %s\n",
bridge->uniqueid, old_technology->name, new_technology->name);
/*
* Since we are soon going to pass this bridge to a new
* technology we need to NULL out the tech_pvt pointer but
* don't worry as it still exists in dummy_bridge, ditto for the
* old technology.
*/
bridge->tech_pvt = NULL;
bridge->technology = new_technology;
/* Setup the new bridge technology. */
ast_debug(1, "Bridge %s: calling %s technology constructor\n",
bridge->uniqueid, new_technology->name);
if (new_technology->create && new_technology->create(bridge)) {
ast_log(LOG_WARNING, "Bridge %s: failed to setup bridge technology %s\n",
bridge->uniqueid, new_technology->name);
bridge->tech_pvt = dummy_bridge.tech_pvt;
bridge->technology = dummy_bridge.technology;
ast_module_unref(new_technology->mod);
return -1;
}
ast_debug(1, "Bridge %s: calling %s technology stop\n",
dummy_bridge.uniqueid, old_technology->name);
if (old_technology->stop) {
old_technology->stop(&dummy_bridge);
}
/*
* Move existing channels over to the new technology and
* complete joining any new channels to the bridge.
*/
AST_LIST_TRAVERSE(&bridge->channels, bridge_channel, entry) {
if (!bridge_channel->just_joined) {
/* Take existing channel from the old technology. */
ast_debug(1, "Bridge %s: %p(%s) is leaving %s technology (dummy)\n",
dummy_bridge.uniqueid, bridge_channel, ast_channel_name(bridge_channel->chan),
old_technology->name);
if (old_technology->leave) {
old_technology->leave(&dummy_bridge, bridge_channel);
}
}
/* Add any new channels or re-add an existing channel to the bridge. */
bridge_channel_complete_join(bridge, bridge_channel);
}
ast_debug(1, "Bridge %s: calling %s technology start\n",
bridge->uniqueid, new_technology->name);
if (new_technology->start && new_technology->start(bridge)) {
ast_log(LOG_WARNING, "Bridge %s: failed to start bridge technology %s\n",
bridge->uniqueid, new_technology->name);
}
/*
* Now that all the channels have been moved over we need to get
* rid of all the information the old technology may have left
* around.
*/
if (old_technology->destroy) {
ast_debug(1, "Bridge %s: deferring %s technology destructor\n",
dummy_bridge.uniqueid, old_technology->name);
bridge_queue_action_nodup(bridge, deferred_action);
} else {
ast_debug(1, "Bridge %s: calling %s technology destructor\n",
dummy_bridge.uniqueid, old_technology->name);
ast_module_unref(old_technology->mod);
}
return 0;
}
/*!
* \internal
* \brief Bridge channel to check if a BRIDGE_PLAY_SOUND needs to be played.
* \since 12.0.0
*
* \param bridge_channel What to check.
*
* \return Nothing
*/
static void check_bridge_play_sound(struct ast_bridge_channel *bridge_channel)
{
const char *play_file;
ast_channel_lock(bridge_channel->chan);
play_file = pbx_builtin_getvar_helper(bridge_channel->chan, "BRIDGE_PLAY_SOUND");
if (!ast_strlen_zero(play_file)) {
play_file = ast_strdupa(play_file);
pbx_builtin_setvar_helper(bridge_channel->chan, "BRIDGE_PLAY_SOUND", NULL);
} else {
play_file = NULL;
}
ast_channel_unlock(bridge_channel->chan);
if (play_file) {
ast_bridge_channel_queue_playfile(bridge_channel, NULL, play_file, NULL);
}
}
/*!
* \internal
* \brief Check for any BRIDGE_PLAY_SOUND channel variables in the bridge.
* \since 12.0.0
*
* \param bridge What to operate on.
*
* \note On entry, the bridge is already locked.
*
* \return Nothing
*/
static void check_bridge_play_sounds(struct ast_bridge *bridge)
{
struct ast_bridge_channel *bridge_channel;
AST_LIST_TRAVERSE(&bridge->channels, bridge_channel, entry) {
check_bridge_play_sound(bridge_channel);
}
}
static void update_bridge_vars_set(struct ast_channel *chan, const char *name, const char *pvtid)
{
pbx_builtin_setvar_helper(chan, "BRIDGEPEER", name);
pbx_builtin_setvar_helper(chan, "BRIDGEPVTCALLID", pvtid);
}
/*!
* \internal
* \brief Set BRIDGEPEER and BRIDGEPVTCALLID channel variables in a 2 party bridge.
* \since 12.0.0
*
* \param c0 Party of the first part.
* \param c1 Party of the second part.
*
* \note On entry, the bridge is already locked.
* \note The bridge is expected to have exactly two parties.
*
* \return Nothing
*/
static void set_bridge_peer_vars_2party(struct ast_channel *c0, struct ast_channel *c1)
{
const char *c0_name;
const char *c1_name;
const char *c0_pvtid = NULL;
const char *c1_pvtid = NULL;
#define UPDATE_BRIDGE_VARS_GET(chan, name, pvtid) \
do { \
name = ast_strdupa(ast_channel_name(chan)); \
if (ast_channel_tech(chan)->get_pvt_uniqueid) { \
pvtid = ast_strdupa(ast_channel_tech(chan)->get_pvt_uniqueid(chan)); \
} \
} while (0)
ast_channel_lock(c1);
UPDATE_BRIDGE_VARS_GET(c1, c1_name, c1_pvtid);
ast_channel_unlock(c1);
ast_channel_lock(c0);
update_bridge_vars_set(c0, c1_name, c1_pvtid);
UPDATE_BRIDGE_VARS_GET(c0, c0_name, c0_pvtid);
ast_channel_unlock(c0);
ast_channel_lock(c1);
update_bridge_vars_set(c1, c0_name, c0_pvtid);
ast_channel_unlock(c1);
}
/*!
* \internal
* \brief Fill the BRIDGEPEER value buffer with a comma separated list of channel names.
* \since 12.0.0
*
* \param buf Buffer to fill. The caller must guarantee the buffer is large enough.
* \param cur_idx Which index into names[] to skip.
* \param names Channel names to put in the buffer.
* \param num_names Number of names in the array.
*
* \return Nothing
*/
static void fill_bridgepeer_buf(char *buf, unsigned int cur_idx, const char *names[], unsigned int num_names)
{
int need_separator = 0;
unsigned int idx;
const char *src;
char *pos;
pos = buf;
for (idx = 0; idx < num_names; ++idx) {
if (idx == cur_idx) {
continue;
}
if (need_separator) {
*pos++ = ',';
}
need_separator = 1;
/* Copy name into buffer. */
src = names[idx];
while (*src) {
*pos++ = *src++;
}
}
*pos = '\0';
}
/*!
* \internal
* \brief Set BRIDGEPEER and BRIDGEPVTCALLID channel variables in a multi-party bridge.
* \since 12.0.0
*
* \param bridge What to operate on.
*
* \note On entry, the bridge is already locked.
* \note The bridge is expected to have more than two parties.
*
* \return Nothing
*/
static void set_bridge_peer_vars_multiparty(struct ast_bridge *bridge)
{
/*
* Set a maximum number of channel names for the BRIDGEPEER
* list. The plus one is for the current channel which is not
* put in the list.
*/
#define MAX_BRIDGEPEER_CHANS (10 + 1)
unsigned int idx;
unsigned int num_names;
unsigned int len;
const char **names;
char *buf;
struct ast_bridge_channel *bridge_channel;
/* Get first MAX_BRIDGEPEER_CHANS channel names. */
num_names = MIN(bridge->num_channels, MAX_BRIDGEPEER_CHANS);
names = ast_alloca(num_names * sizeof(*names));
idx = 0;
AST_LIST_TRAVERSE(&bridge->channels, bridge_channel, entry) {
if (num_names <= idx) {
break;
}
ast_channel_lock(bridge_channel->chan);
names[idx++] = ast_strdupa(ast_channel_name(bridge_channel->chan));
ast_channel_unlock(bridge_channel->chan);
}
/* Determine maximum buf size needed. */
len = num_names;
for (idx = 0; idx < num_names; ++idx) {
len += strlen(names[idx]);
}
buf = ast_alloca(len);
/* Set the bridge channel variables. */
idx = 0;
buf[0] = '\0';
AST_LIST_TRAVERSE(&bridge->channels, bridge_channel, entry) {
if (idx < num_names) {
fill_bridgepeer_buf(buf, idx, names, num_names);
}
++idx;
ast_channel_lock(bridge_channel->chan);
update_bridge_vars_set(bridge_channel->chan, buf, NULL);
ast_channel_unlock(bridge_channel->chan);
}
}
/*!
* \internal
* \brief Set BRIDGEPEER and BRIDGEPVTCALLID channel variables in a holding bridge.
* \since 12.0.0
*
* \param bridge What to operate on.
*
* \note On entry, the bridge is already locked.
*
* \return Nothing
*/
static void set_bridge_peer_vars_holding(struct ast_bridge *bridge)
{
struct ast_bridge_channel *bridge_channel;
AST_LIST_TRAVERSE(&bridge->channels, bridge_channel, entry) {
ast_channel_lock(bridge_channel->chan);
update_bridge_vars_set(bridge_channel->chan, NULL, NULL);
ast_channel_unlock(bridge_channel->chan);
}
}
/*!
* \internal
* \brief Set BRIDGEPEER and BRIDGEPVTCALLID channel variables in the bridge.
* \since 12.0.0
*
* \param bridge What to operate on.
*
* \note On entry, the bridge is already locked.
*
* \return Nothing
*/
static void set_bridge_peer_vars(struct ast_bridge *bridge)
{
if (bridge->technology->capabilities & AST_BRIDGE_CAPABILITY_HOLDING) {
set_bridge_peer_vars_holding(bridge);
return;
}
if (bridge->num_channels < 2) {
return;
}
if (bridge->num_channels == 2) {
set_bridge_peer_vars_2party(AST_LIST_FIRST(&bridge->channels)->chan,
AST_LIST_LAST(&bridge->channels)->chan);
} else {
set_bridge_peer_vars_multiparty(bridge);
}
}
void bridge_reconfigured(struct ast_bridge *bridge, unsigned int colp_update)
{
if (!bridge->reconfigured) {
return;
}
bridge->reconfigured = 0;
if (ast_test_flag(&bridge->feature_flags, AST_BRIDGE_FLAG_SMART)
&& smart_bridge_operation(bridge)) {
/* Smart bridge failed. */
bridge_dissolve(bridge);
return;
}
bridge_complete_join(bridge);
if (bridge->dissolved) {
return;
}
check_bridge_play_sounds(bridge);
set_bridge_peer_vars(bridge);
ast_bridge_publish_state(bridge);
if (colp_update) {
bridge_reconfigured_connected_line_update(bridge);
}
}
struct ast_bridge_channel *bridge_find_channel(struct ast_bridge *bridge, struct ast_channel *chan)
{
struct ast_bridge_channel *bridge_channel;
AST_LIST_TRAVERSE(&bridge->channels, bridge_channel, entry) {
if (bridge_channel->chan == chan) {
break;
}
}
return bridge_channel;
}
void ast_bridge_notify_masquerade(struct ast_channel *chan)
{
struct ast_bridge_channel *bridge_channel;
struct ast_bridge *bridge;
/* Safely get the bridge_channel pointer for the chan. */
ast_channel_lock(chan);
bridge_channel = ast_channel_get_bridge_channel(chan);
ast_channel_unlock(chan);
if (!bridge_channel) {
/* Not in a bridge */
return;
}
ast_bridge_channel_lock_bridge(bridge_channel);
bridge = bridge_channel->bridge;
if (bridge_channel == bridge_find_channel(bridge, chan)) {
/* BUGBUG this needs more work. The channels need to be made compatible again if the formats change. The bridge_channel thread needs to monitor for this case. */
/* The channel we want to notify is still in a bridge. */
bridge->v_table->notify_masquerade(bridge, bridge_channel);
bridge_reconfigured(bridge, 1);
}
ast_bridge_unlock(bridge);
ao2_ref(bridge_channel, -1);
}
/*
* BUGBUG make ast_bridge_join() require features to be allocated just like ast_bridge_impart() and not expect the struct back.
*
* This change is really going to break ConfBridge. All other
* users are easily changed. However, it is needed so the
* bridging code can manipulate features on all channels
* consistently no matter how they joined.
*
* Need to update the features parameter doxygen when this
* change is made to be like ast_bridge_impart().
*/
int ast_bridge_join(struct ast_bridge *bridge,
struct ast_channel *chan,
struct ast_channel *swap,
struct ast_bridge_features *features,
struct ast_bridge_tech_optimizations *tech_args,
int pass_reference)
{
struct ast_bridge_channel *bridge_channel;
int res;
bridge_channel = bridge_channel_internal_alloc(bridge);
if (pass_reference) {
ao2_ref(bridge, -1);
}
if (!bridge_channel) {
res = -1;
goto join_exit;
}
/* BUGBUG features cannot be NULL when passed in. When it is changed to allocated we can do like ast_bridge_impart() and allocate one. */
ast_assert(features != NULL);
if (!features) {
ao2_ref(bridge_channel, -1);
res = -1;
goto join_exit;
}
if (tech_args) {
bridge_channel->tech_args = *tech_args;
}
/* Initialize various other elements of the bridge channel structure that we can't do above */
ast_channel_lock(chan);
ast_channel_internal_bridge_channel_set(chan, bridge_channel);
ast_channel_unlock(chan);
bridge_channel->thread = pthread_self();
bridge_channel->chan = chan;
bridge_channel->swap = swap;
bridge_channel->features = features;
res = bridge_channel_internal_join(bridge_channel);
/* Cleanup all the data in the bridge channel after it leaves the bridge. */
ast_channel_lock(chan);
ast_channel_internal_bridge_channel_set(chan, NULL);
ast_channel_unlock(chan);
bridge_channel->chan = NULL;
bridge_channel->swap = NULL;
bridge_channel->features = NULL;
ao2_ref(bridge_channel, -1);
join_exit:;
/* BUGBUG this is going to cause problems for DTMF atxfer attended bridge between B & C. Maybe an ast_bridge_join_internal() that does not do the after bridge goto for this case. */
ast_bridge_run_after_callback(chan);
if (!(ast_channel_softhangup_internal_flag(chan) & AST_SOFTHANGUP_ASYNCGOTO)
&& !ast_bridge_setup_after_goto(chan)) {
/* Claim the after bridge goto is an async goto destination. */
ast_channel_lock(chan);
ast_softhangup_nolock(chan, AST_SOFTHANGUP_ASYNCGOTO);
ast_channel_unlock(chan);
}
return res;
}
/*! \brief Thread responsible for imparted bridged channels to be departed */
static void *bridge_channel_depart_thread(void *data)
{
struct ast_bridge_channel *bridge_channel = data;
if (bridge_channel->callid) {
ast_callid_threadassoc_add(bridge_channel->callid);
}
bridge_channel_internal_join(bridge_channel);
/* cleanup */
bridge_channel->swap = NULL;
ast_bridge_features_destroy(bridge_channel->features);
bridge_channel->features = NULL;
ast_bridge_discard_after_callback(bridge_channel->chan, AST_BRIDGE_AFTER_CB_REASON_DEPART);
ast_bridge_discard_after_goto(bridge_channel->chan);
return NULL;
}
/*! \brief Thread responsible for independent imparted bridged channels */
static void *bridge_channel_ind_thread(void *data)
{
struct ast_bridge_channel *bridge_channel = data;
struct ast_channel *chan;
if (bridge_channel->callid) {
ast_callid_threadassoc_add(bridge_channel->callid);
}
bridge_channel_internal_join(bridge_channel);
chan = bridge_channel->chan;
/* cleanup */
ast_channel_lock(chan);
ast_channel_internal_bridge_channel_set(chan, NULL);
ast_channel_unlock(chan);
bridge_channel->chan = NULL;
bridge_channel->swap = NULL;
ast_bridge_features_destroy(bridge_channel->features);
bridge_channel->features = NULL;
ao2_ref(bridge_channel, -1);
ast_bridge_run_after_callback(chan);
ast_bridge_run_after_goto(chan);
return NULL;
}
int ast_bridge_impart(struct ast_bridge *bridge, struct ast_channel *chan, struct ast_channel *swap, struct ast_bridge_features *features, int independent)
{
int res;
struct ast_bridge_channel *bridge_channel;
/* Supply an empty features structure if the caller did not. */
if (!features) {
features = ast_bridge_features_new();
if (!features) {
return -1;
}
}
/* Try to allocate a structure for the bridge channel */
bridge_channel = bridge_channel_internal_alloc(bridge);
if (!bridge_channel) {
ast_bridge_features_destroy(features);
return -1;
}
/* Setup various parameters */
ast_channel_lock(chan);
ast_channel_internal_bridge_channel_set(chan, bridge_channel);
ast_channel_unlock(chan);
bridge_channel->chan = chan;
bridge_channel->swap = swap;
bridge_channel->features = features;
bridge_channel->depart_wait = independent ? 0 : 1;
bridge_channel->callid = ast_read_threadstorage_callid();
/* Actually create the thread that will handle the channel */
if (independent) {
/* Independently imparted channels cannot have a PBX. */
ast_assert(!ast_channel_pbx(chan));
res = ast_pthread_create_detached(&bridge_channel->thread, NULL,
bridge_channel_ind_thread, bridge_channel);
} else {
/* Imparted channels to be departed should not have a PBX either. */
ast_assert(!ast_channel_pbx(chan));
res = ast_pthread_create(&bridge_channel->thread, NULL,
bridge_channel_depart_thread, bridge_channel);
}
if (res) {
/* cleanup */
ast_channel_lock(chan);
ast_channel_internal_bridge_channel_set(chan, NULL);
ast_channel_unlock(chan);
bridge_channel->chan = NULL;
bridge_channel->swap = NULL;
ast_bridge_features_destroy(bridge_channel->features);
bridge_channel->features = NULL;
ao2_ref(bridge_channel, -1);
return -1;
}
return 0;
}
int ast_bridge_depart(struct ast_channel *chan)
{
struct ast_bridge_channel *bridge_channel;
int departable;
ast_channel_lock(chan);
bridge_channel = ast_channel_internal_bridge_channel(chan);
departable = bridge_channel && bridge_channel->depart_wait;
ast_channel_unlock(chan);
if (!departable) {
ast_log(LOG_ERROR, "Channel %s cannot be departed.\n",
ast_channel_name(chan));
/*
* Should never happen. It likely means that
* ast_bridge_depart() is called by two threads for the same
* channel, the channel was never imparted to be departed, or it
* has already been departed.
*/
ast_assert(0);
return -1;
}
/*
* We are claiming the reference held by the depart bridge
* channel thread.
*/
ast_bridge_channel_leave_bridge(bridge_channel, BRIDGE_CHANNEL_STATE_END_NO_DISSOLVE);
/* Wait for the depart thread to die */
ast_debug(1, "Waiting for %p(%s) bridge thread to die.\n",
bridge_channel, ast_channel_name(bridge_channel->chan));
pthread_join(bridge_channel->thread, NULL);
ast_channel_lock(chan);
ast_channel_internal_bridge_channel_set(chan, NULL);
ast_channel_unlock(chan);
/* We can get rid of the bridge_channel after the depart thread has died. */
ao2_ref(bridge_channel, -1);
return 0;
}
int ast_bridge_remove(struct ast_bridge *bridge, struct ast_channel *chan)
{
struct ast_bridge_channel *bridge_channel;
ast_bridge_lock(bridge);
/* Try to find the channel that we want to remove */
if (!(bridge_channel = bridge_find_channel(bridge, chan))) {
ast_bridge_unlock(bridge);
return -1;
}
ast_bridge_channel_leave_bridge(bridge_channel, BRIDGE_CHANNEL_STATE_END_NO_DISSOLVE);
ast_bridge_unlock(bridge);
return 0;
}
/*!
* \internal
* \brief Point the bridge_channel to a new bridge.
* \since 12.0.0
*
* \param bridge_channel What is to point to a new bridge.
* \param new_bridge Where the bridge channel should point.
*
* \return Nothing
*/
static void bridge_channel_change_bridge(struct ast_bridge_channel *bridge_channel, struct ast_bridge *new_bridge)
{
struct ast_bridge *old_bridge;
ao2_ref(new_bridge, +1);
ast_bridge_channel_lock(bridge_channel);
ast_channel_lock(bridge_channel->chan);
old_bridge = bridge_channel->bridge;
bridge_channel->bridge = new_bridge;
ast_channel_internal_bridge_set(bridge_channel->chan, new_bridge);
ast_channel_unlock(bridge_channel->chan);
ast_bridge_channel_unlock(bridge_channel);
ao2_ref(old_bridge, -1);
}
void bridge_do_merge(struct ast_bridge *dst_bridge, struct ast_bridge *src_bridge, struct ast_bridge_channel **kick_me, unsigned int num_kick,
unsigned int optimized)
{
struct ast_bridge_channel *bridge_channel;
unsigned int idx;
ast_debug(1, "Merging bridge %s into bridge %s\n",
src_bridge->uniqueid, dst_bridge->uniqueid);
ast_bridge_publish_merge(dst_bridge, src_bridge);
/*
* Move channels from src_bridge over to dst_bridge.
*
* We must use AST_LIST_TRAVERSE_SAFE_BEGIN() because
* bridge_channel_internal_pull() alters the list we are traversing.
*/
AST_LIST_TRAVERSE_SAFE_BEGIN(&src_bridge->channels, bridge_channel, entry) {
if (bridge_channel->state != BRIDGE_CHANNEL_STATE_WAIT) {
/*
* The channel is already leaving let it leave normally because
* pulling it may delete hooks that should run for this channel.
*/
continue;
}
if (ast_test_flag(&bridge_channel->features->feature_flags,
AST_BRIDGE_CHANNEL_FLAG_IMMOVABLE)) {
continue;
}
if (kick_me) {
for (idx = 0; idx < num_kick; ++idx) {
if (bridge_channel == kick_me[idx]) {
ast_bridge_channel_leave_bridge(bridge_channel, BRIDGE_CHANNEL_STATE_END_NO_DISSOLVE);
break;
}
}
}
bridge_channel_internal_pull(bridge_channel);
if (bridge_channel->state != BRIDGE_CHANNEL_STATE_WAIT) {
/*
* The channel died as a result of being pulled or it was
* kicked. Leave it pointing to the original bridge.
*/
continue;
}
/* Point to new bridge.*/
bridge_channel_change_bridge(bridge_channel, dst_bridge);
if (bridge_channel_internal_push(bridge_channel)) {
ast_bridge_channel_leave_bridge(bridge_channel, BRIDGE_CHANNEL_STATE_END_NO_DISSOLVE);
}
}
AST_LIST_TRAVERSE_SAFE_END;
if (kick_me) {
/*
* Now we can kick any channels in the dst_bridge without
* potentially dissolving the bridge.
*/
for (idx = 0; idx < num_kick; ++idx) {
bridge_channel = kick_me[idx];
ast_bridge_channel_lock(bridge_channel);
if (bridge_channel->state == BRIDGE_CHANNEL_STATE_WAIT) {
ast_bridge_channel_leave_bridge_nolock(bridge_channel, BRIDGE_CHANNEL_STATE_END_NO_DISSOLVE);
bridge_channel_internal_pull(bridge_channel);
}
ast_bridge_channel_unlock(bridge_channel);
}
}
bridge_reconfigured(dst_bridge, !optimized);
bridge_reconfigured(src_bridge, !optimized);
ast_debug(1, "Merged bridge %s into bridge %s\n",
src_bridge->uniqueid, dst_bridge->uniqueid);
}
struct merge_direction {
/*! Destination merge bridge. */
struct ast_bridge *dest;
/*! Source merge bridge. */
struct ast_bridge *src;
};
/*!
* \internal
* \brief Determine which bridge should merge into the other.
* \since 12.0.0
*
* \param bridge1 A bridge for merging
* \param bridge2 A bridge for merging
*
* \note The two bridges are assumed already locked.
*
* \return Which bridge merges into which or NULL bridges if cannot merge.
*/
static struct merge_direction bridge_merge_determine_direction(struct ast_bridge *bridge1, struct ast_bridge *bridge2)
{
struct merge_direction merge = { NULL, NULL };
int bridge1_priority;
int bridge2_priority;
if (!ast_test_flag(&bridge1->feature_flags,
AST_BRIDGE_FLAG_MERGE_INHIBIT_TO | AST_BRIDGE_FLAG_MERGE_INHIBIT_FROM)
&& !ast_test_flag(&bridge2->feature_flags,
AST_BRIDGE_FLAG_MERGE_INHIBIT_TO | AST_BRIDGE_FLAG_MERGE_INHIBIT_FROM)) {
/*
* Can merge either way. Merge to the higher priority merge
* bridge. Otherwise merge to the larger bridge.
*/
bridge1_priority = bridge1->v_table->get_merge_priority(bridge1);
bridge2_priority = bridge2->v_table->get_merge_priority(bridge2);
if (bridge2_priority < bridge1_priority) {
merge.dest = bridge1;
merge.src = bridge2;
} else if (bridge1_priority < bridge2_priority) {
merge.dest = bridge2;
merge.src = bridge1;
} else {
/* Merge to the larger bridge. */
if (bridge2->num_channels <= bridge1->num_channels) {
merge.dest = bridge1;
merge.src = bridge2;
} else {
merge.dest = bridge2;
merge.src = bridge1;
}
}
} else if (!ast_test_flag(&bridge1->feature_flags, AST_BRIDGE_FLAG_MERGE_INHIBIT_TO)
&& !ast_test_flag(&bridge2->feature_flags, AST_BRIDGE_FLAG_MERGE_INHIBIT_FROM)) {
/* Can merge only one way. */
merge.dest = bridge1;
merge.src = bridge2;
} else if (!ast_test_flag(&bridge2->feature_flags, AST_BRIDGE_FLAG_MERGE_INHIBIT_TO)
&& !ast_test_flag(&bridge1->feature_flags, AST_BRIDGE_FLAG_MERGE_INHIBIT_FROM)) {
/* Can merge only one way. */
merge.dest = bridge2;
merge.src = bridge1;
}
return merge;
}
/*!
* \internal
* \brief Merge two bridges together
* \since 12.0.0
*
* \param dst_bridge Destination bridge of merge.
* \param src_bridge Source bridge of merge.
* \param merge_best_direction TRUE if don't care about which bridge merges into the other.
* \param kick_me Array of channels to kick from the bridges.
* \param num_kick Number of channels in the kick_me array.
*
* \note The dst_bridge and src_bridge are assumed already locked.
*
* \retval 0 on success
* \retval -1 on failure
*/
static int bridge_merge_locked(struct ast_bridge *dst_bridge, struct ast_bridge *src_bridge, int merge_best_direction, struct ast_channel **kick_me, unsigned int num_kick)
{
struct merge_direction merge;
struct ast_bridge_channel **kick_them = NULL;
/* Sanity check. */
ast_assert(dst_bridge && src_bridge && dst_bridge != src_bridge && (!num_kick || kick_me));
if (dst_bridge->dissolved || src_bridge->dissolved) {
ast_debug(1, "Can't merge bridges %s and %s, at least one bridge is dissolved.\n",
src_bridge->uniqueid, dst_bridge->uniqueid);
return -1;
}
if (ast_test_flag(&dst_bridge->feature_flags, AST_BRIDGE_FLAG_MASQUERADE_ONLY)
|| ast_test_flag(&src_bridge->feature_flags, AST_BRIDGE_FLAG_MASQUERADE_ONLY)) {
ast_debug(1, "Can't merge bridges %s and %s, masquerade only.\n",
src_bridge->uniqueid, dst_bridge->uniqueid);
return -1;
}
if (dst_bridge->inhibit_merge || src_bridge->inhibit_merge) {
ast_debug(1, "Can't merge bridges %s and %s, merging temporarily inhibited.\n",
src_bridge->uniqueid, dst_bridge->uniqueid);
return -1;
}
if (merge_best_direction) {
merge = bridge_merge_determine_direction(dst_bridge, src_bridge);
} else {
merge.dest = dst_bridge;
merge.src = src_bridge;
}
if (!merge.dest
|| ast_test_flag(&merge.dest->feature_flags, AST_BRIDGE_FLAG_MERGE_INHIBIT_TO)
|| ast_test_flag(&merge.src->feature_flags, AST_BRIDGE_FLAG_MERGE_INHIBIT_FROM)) {
ast_debug(1, "Can't merge bridges %s and %s, merging inhibited.\n",
src_bridge->uniqueid, dst_bridge->uniqueid);
return -1;
}
if (merge.src->num_channels < 2) {
/*
* For a two party bridge, a channel may be temporarily removed
* from the source bridge or the initial bridge members have not
* joined yet.
*/
ast_debug(1, "Can't merge bridge %s into bridge %s, not enough channels in source bridge.\n",
merge.src->uniqueid, merge.dest->uniqueid);
return -1;
}
if (2 + num_kick < merge.dest->num_channels + merge.src->num_channels
&& !(merge.dest->technology->capabilities & AST_BRIDGE_CAPABILITY_MULTIMIX)
&& (!ast_test_flag(&merge.dest->feature_flags, AST_BRIDGE_FLAG_SMART)
|| !(merge.dest->allowed_capabilities & AST_BRIDGE_CAPABILITY_MULTIMIX))) {
ast_debug(1, "Can't merge bridge %s into bridge %s, multimix is needed and it cannot be acquired.\n",
merge.src->uniqueid, merge.dest->uniqueid);
return -1;
}
if (num_kick) {
unsigned int num_to_kick = 0;
unsigned int idx;
kick_them = ast_alloca(num_kick * sizeof(*kick_them));
for (idx = 0; idx < num_kick; ++idx) {
kick_them[num_to_kick] = bridge_find_channel(merge.src, kick_me[idx]);
if (!kick_them[num_to_kick]) {
kick_them[num_to_kick] = bridge_find_channel(merge.dest, kick_me[idx]);
}
if (kick_them[num_to_kick]) {
++num_to_kick;
}
}
if (num_to_kick != num_kick) {
ast_debug(1, "Can't merge bridge %s into bridge %s, at least one kicked channel is not in either bridge.\n",
merge.src->uniqueid, merge.dest->uniqueid);
return -1;
}
}
bridge_do_merge(merge.dest, merge.src, kick_them, num_kick, 0);
return 0;
}
int ast_bridge_merge(struct ast_bridge *dst_bridge, struct ast_bridge *src_bridge, int merge_best_direction, struct ast_channel **kick_me, unsigned int num_kick)
{
int res;
/* Sanity check. */
ast_assert(dst_bridge && src_bridge);
ast_bridge_lock_both(dst_bridge, src_bridge);
res = bridge_merge_locked(dst_bridge, src_bridge, merge_best_direction, kick_me, num_kick);
ast_bridge_unlock(src_bridge);
ast_bridge_unlock(dst_bridge);
return res;
}
int bridge_do_move(struct ast_bridge *dst_bridge, struct ast_bridge_channel *bridge_channel, int attempt_recovery,
unsigned int optimized)
{
struct ast_bridge *orig_bridge;
int was_in_bridge;
int res = 0;
/* BUGBUG need bridge move stasis event and a success/fail event. */
if (bridge_channel->swap) {
ast_debug(1, "Moving %p(%s) into bridge %s swapping with %s\n",
bridge_channel, ast_channel_name(bridge_channel->chan), dst_bridge->uniqueid,
ast_channel_name(bridge_channel->swap));
} else {
ast_debug(1, "Moving %p(%s) into bridge %s\n",
bridge_channel, ast_channel_name(bridge_channel->chan), dst_bridge->uniqueid);
}
orig_bridge = bridge_channel->bridge;
was_in_bridge = bridge_channel->in_bridge;
bridge_channel_internal_pull(bridge_channel);
if (bridge_channel->state != BRIDGE_CHANNEL_STATE_WAIT) {
/*
* The channel died as a result of being pulled. Leave it
* pointing to the original bridge.
*/
bridge_reconfigured(orig_bridge, 0);
return -1;
}
/* Point to new bridge.*/
ao2_ref(orig_bridge, +1);/* Keep a ref in case the push fails. */
bridge_channel_change_bridge(bridge_channel, dst_bridge);
if (bridge_channel_internal_push(bridge_channel)) {
/* Try to put the channel back into the original bridge. */
if (attempt_recovery && was_in_bridge) {
/* Point back to original bridge. */
bridge_channel_change_bridge(bridge_channel, orig_bridge);
if (bridge_channel_internal_push(bridge_channel)) {
ast_bridge_channel_leave_bridge(bridge_channel, BRIDGE_CHANNEL_STATE_END_NO_DISSOLVE);
}
} else {
ast_bridge_channel_leave_bridge(bridge_channel, BRIDGE_CHANNEL_STATE_END_NO_DISSOLVE);
}
res = -1;
}
bridge_reconfigured(dst_bridge, !optimized);
bridge_reconfigured(orig_bridge, !optimized);
ao2_ref(orig_bridge, -1);
return res;
}
/*!
* \internal
* \brief Move a channel from one bridge to another.
* \since 12.0.0
*
* \param dst_bridge Destination bridge of bridge channel move.
* \param src_bridge Source bridge of bridge channel move.
* \param chan Channel to move.
* \param swap Channel to replace in dst_bridge.
* \param attempt_recovery TRUE if failure attempts to push channel back into original bridge.
*
* \note The dst_bridge and src_bridge are assumed already locked.
*
* \retval 0 on success.
* \retval -1 on failure.
*/
static int bridge_move_locked(struct ast_bridge *dst_bridge, struct ast_bridge *src_bridge, struct ast_channel *chan, struct ast_channel *swap, int attempt_recovery)
{
struct ast_bridge_channel *bridge_channel;
if (dst_bridge->dissolved || src_bridge->dissolved) {
ast_debug(1, "Can't move channel %s from bridge %s into bridge %s, at least one bridge is dissolved.\n",
ast_channel_name(chan), src_bridge->uniqueid, dst_bridge->uniqueid);
return -1;
}
if (ast_test_flag(&dst_bridge->feature_flags, AST_BRIDGE_FLAG_MASQUERADE_ONLY)
|| ast_test_flag(&src_bridge->feature_flags, AST_BRIDGE_FLAG_MASQUERADE_ONLY)) {
ast_debug(1, "Can't move channel %s from bridge %s into bridge %s, masquerade only.\n",
ast_channel_name(chan), src_bridge->uniqueid, dst_bridge->uniqueid);
return -1;
}
if (dst_bridge->inhibit_merge || src_bridge->inhibit_merge) {
ast_debug(1, "Can't move channel %s from bridge %s into bridge %s, temporarily inhibited.\n",
ast_channel_name(chan), src_bridge->uniqueid, dst_bridge->uniqueid);
return -1;
}
bridge_channel = bridge_find_channel(src_bridge, chan);
if (!bridge_channel) {
ast_debug(1, "Can't move channel %s from bridge %s into bridge %s, channel not in bridge.\n",
ast_channel_name(chan), src_bridge->uniqueid, dst_bridge->uniqueid);
return -1;
}
if (bridge_channel->state != BRIDGE_CHANNEL_STATE_WAIT) {
ast_debug(1, "Can't move channel %s from bridge %s into bridge %s, channel leaving bridge.\n",
ast_channel_name(chan), src_bridge->uniqueid, dst_bridge->uniqueid);
return -1;
}
if (ast_test_flag(&bridge_channel->features->feature_flags,
AST_BRIDGE_CHANNEL_FLAG_IMMOVABLE)) {
ast_debug(1, "Can't move channel %s from bridge %s into bridge %s, channel immovable.\n",
ast_channel_name(chan), src_bridge->uniqueid, dst_bridge->uniqueid);
return -1;
}
if (swap) {
struct ast_bridge_channel *bridge_channel_swap;
bridge_channel_swap = bridge_find_channel(dst_bridge, swap);
if (!bridge_channel_swap) {
ast_debug(1, "Can't move channel %s from bridge %s into bridge %s, swap channel %s not in bridge.\n",
ast_channel_name(chan), src_bridge->uniqueid, dst_bridge->uniqueid,
ast_channel_name(swap));
return -1;
}
if (bridge_channel_swap->state != BRIDGE_CHANNEL_STATE_WAIT) {
ast_debug(1, "Can't move channel %s from bridge %s into bridge %s, swap channel %s leaving bridge.\n",
ast_channel_name(chan), src_bridge->uniqueid, dst_bridge->uniqueid,
ast_channel_name(swap));
return -1;
}
}
bridge_channel->swap = swap;
return bridge_do_move(dst_bridge, bridge_channel, attempt_recovery, 0);
}
int ast_bridge_move(struct ast_bridge *dst_bridge, struct ast_bridge *src_bridge, struct ast_channel *chan, struct ast_channel *swap, int attempt_recovery)
{
int res;
ast_bridge_lock_both(dst_bridge, src_bridge);
res = bridge_move_locked(dst_bridge, src_bridge, chan, swap, attempt_recovery);
ast_bridge_unlock(src_bridge);
ast_bridge_unlock(dst_bridge);
return res;
}
int ast_bridge_add_channel(struct ast_bridge *bridge, struct ast_channel *chan,
struct ast_bridge_features *features, int play_tone, const char *xfersound)
{
RAII_VAR(struct ast_bridge *, chan_bridge, NULL, ao2_cleanup);
RAII_VAR(struct ast_channel *, yanked_chan, NULL, ao2_cleanup);
ast_channel_lock(chan);
chan_bridge = ast_channel_get_bridge(chan);
ast_channel_unlock(chan);
if (chan_bridge) {
RAII_VAR(struct ast_bridge_channel *, bridge_channel, NULL, ao2_cleanup);
ast_bridge_lock_both(bridge, chan_bridge);
bridge_channel = bridge_find_channel(chan_bridge, chan);
if (bridge_move_locked(bridge, chan_bridge, chan, NULL, 1)) {
ast_bridge_unlock(chan_bridge);
ast_bridge_unlock(bridge);
return -1;
}
/*
* bridge_move_locked() will implicitly ensure that
* bridge_channel is not NULL.
*/
ast_assert(bridge_channel != NULL);
/*
* Additional checks if the channel we just stole dissolves the
* original bridge.
*/
bridge_dissolve_check_stolen(chan_bridge, bridge_channel);
ast_bridge_unlock(chan_bridge);
ast_bridge_unlock(bridge);
/* The channel was in a bridge so it is not getting any new features. */
ast_bridge_features_destroy(features);
} else {
/* Slightly less easy case. We need to yank channel A from
* where he currently is and impart him into our bridge.
*/
yanked_chan = ast_channel_yank(chan);
if (!yanked_chan) {
ast_log(LOG_WARNING, "Could not gain control of channel %s\n", ast_channel_name(chan));
return -1;
}
if (ast_channel_state(yanked_chan) != AST_STATE_UP) {
ast_answer(yanked_chan);
}
ast_channel_ref(yanked_chan);
if (ast_bridge_impart(bridge, yanked_chan, NULL, features, 1)) {
ast_log(LOG_WARNING, "Could not add %s to the bridge\n", ast_channel_name(chan));
ast_hangup(yanked_chan);
return -1;
}
}
if (play_tone && !ast_strlen_zero(xfersound)) {
struct ast_channel *play_chan = yanked_chan ?: chan;
RAII_VAR(struct ast_bridge_channel *, play_bridge_channel, NULL, ao2_cleanup);
ast_channel_lock(play_chan);
play_bridge_channel = ast_channel_get_bridge_channel(play_chan);
ast_channel_unlock(play_chan);
if (!play_bridge_channel) {
ast_log(LOG_WARNING, "Unable to play tone for channel %s. No longer in a bridge.\n",
ast_channel_name(play_chan));
} else {
ast_bridge_channel_queue_playfile(play_bridge_channel, NULL, xfersound, NULL);
}
}
return 0;
}
static int bridge_allows_optimization(struct ast_bridge *bridge)
{
return !(bridge->inhibit_merge
|| bridge->dissolved
|| ast_test_flag(&bridge->feature_flags, AST_BRIDGE_FLAG_MASQUERADE_ONLY));
}
/*!
* \internal
* \brief Lock the unreal channel stack for chan and prequalify it.
* \since 12.0.0
*
* \param chan Unreal channel writing a frame into the channel driver.
*
* \note It is assumed that chan is already locked.
*
* \retval bridge on success with bridge and bridge_channel locked.
* \retval NULL if cannot do optimization now.
*/
static struct ast_bridge *optimize_lock_chan_stack(struct ast_channel *chan)
{
struct ast_bridge *bridge;
struct ast_bridge_channel *bridge_channel;
if (!AST_LIST_EMPTY(ast_channel_readq(chan))) {
return NULL;
}
if (ast_channel_has_audio_frame_or_monitor(chan)) {
/* Channel has an active monitor, audiohook, or framehook. */
return NULL;
}
bridge_channel = ast_channel_internal_bridge_channel(chan);
if (!bridge_channel || ast_bridge_channel_trylock(bridge_channel)) {
return NULL;
}
bridge = bridge_channel->bridge;
if (bridge_channel->activity != BRIDGE_CHANNEL_THREAD_SIMPLE
|| bridge_channel->state != BRIDGE_CHANNEL_STATE_WAIT
|| ast_bridge_trylock(bridge)) {
ast_bridge_channel_unlock(bridge_channel);
return NULL;
}
if (!bridge_channel_internal_allows_optimization(bridge_channel) ||
!bridge_allows_optimization(bridge)) {
ast_bridge_unlock(bridge);
ast_bridge_channel_unlock(bridge_channel);
return NULL;
}
return bridge;
}
/*!
* \internal
* \brief Lock the unreal channel stack for peer and prequalify it.
* \since 12.0.0
*
* \param peer Other unreal channel in the pair.
*
* \retval bridge on success with bridge, bridge_channel, and peer locked.
* \retval NULL if cannot do optimization now.
*/
static struct ast_bridge *optimize_lock_peer_stack(struct ast_channel *peer)
{
struct ast_bridge *bridge;
struct ast_bridge_channel *bridge_channel;
if (ast_channel_trylock(peer)) {
return NULL;
}
if (!AST_LIST_EMPTY(ast_channel_readq(peer))) {
ast_channel_unlock(peer);
return NULL;
}
if (ast_channel_has_audio_frame_or_monitor(peer)) {
/* Peer has an active monitor, audiohook, or framehook. */
ast_channel_unlock(peer);
return NULL;
}
bridge_channel = ast_channel_internal_bridge_channel(peer);
if (!bridge_channel || ast_bridge_channel_trylock(bridge_channel)) {
ast_channel_unlock(peer);
return NULL;
}
bridge = bridge_channel->bridge;
if (bridge_channel->activity != BRIDGE_CHANNEL_THREAD_IDLE
|| bridge_channel->state != BRIDGE_CHANNEL_STATE_WAIT
|| ast_bridge_trylock(bridge)) {
ast_bridge_channel_unlock(bridge_channel);
ast_channel_unlock(peer);
return NULL;
}
if (!bridge_allows_optimization(bridge) ||
!bridge_channel_internal_allows_optimization(bridge_channel)) {
ast_bridge_unlock(bridge);
ast_bridge_channel_unlock(bridge_channel);
ast_channel_unlock(peer);
return NULL;
}
return bridge;
}
/*!
* \internal
* \brief Indicates allowability of a swap optimization
*/
enum bridge_allow_swap {
/*! Bridges cannot allow for a swap optimization to occur */
SWAP_PROHIBITED,
/*! Bridge swap optimization can occur into the chan_bridge */
SWAP_TO_CHAN_BRIDGE,
/*! Bridge swap optimization can occur into the peer_bridge */
SWAP_TO_PEER_BRIDGE,
};
/*!
* \internal
* \brief Determine if two bridges allow for swap optimization to occur
*
* \param chan_bridge First bridge being tested
* \param peer_bridge Second bridge being tested
* \return Allowability of swap optimization
*/
static enum bridge_allow_swap bridges_allow_swap_optimization(struct ast_bridge *chan_bridge,
struct ast_bridge *peer_bridge)
{
int chan_priority;
int peer_priority;
if (!ast_test_flag(&chan_bridge->feature_flags,
AST_BRIDGE_FLAG_SWAP_INHIBIT_TO | AST_BRIDGE_FLAG_SWAP_INHIBIT_FROM |
AST_BRIDGE_FLAG_TRANSFER_BRIDGE_ONLY)
&& !ast_test_flag(&peer_bridge->feature_flags,
AST_BRIDGE_FLAG_SWAP_INHIBIT_TO | AST_BRIDGE_FLAG_SWAP_INHIBIT_FROM |
AST_BRIDGE_FLAG_TRANSFER_BRIDGE_ONLY)) {
/*
* Can swap either way. Swap to the higher priority merge
* bridge.
*/
chan_priority = chan_bridge->v_table->get_merge_priority(chan_bridge);
peer_priority = peer_bridge->v_table->get_merge_priority(peer_bridge);
if (chan_bridge->num_channels == 2
&& chan_priority <= peer_priority) {
return SWAP_TO_PEER_BRIDGE;
} else if (peer_bridge->num_channels == 2
&& peer_priority <= chan_priority) {
return SWAP_TO_CHAN_BRIDGE;
}
} else if (chan_bridge->num_channels == 2
&& !ast_test_flag(&chan_bridge->feature_flags, AST_BRIDGE_FLAG_SWAP_INHIBIT_FROM | AST_BRIDGE_FLAG_TRANSFER_BRIDGE_ONLY)
&& !ast_test_flag(&peer_bridge->feature_flags, AST_BRIDGE_FLAG_SWAP_INHIBIT_TO)) {
/* Can swap optimize only one way. */
return SWAP_TO_PEER_BRIDGE;
} else if (peer_bridge->num_channels == 2
&& !ast_test_flag(&peer_bridge->feature_flags, AST_BRIDGE_FLAG_SWAP_INHIBIT_FROM | AST_BRIDGE_FLAG_TRANSFER_BRIDGE_ONLY)
&& !ast_test_flag(&chan_bridge->feature_flags, AST_BRIDGE_FLAG_SWAP_INHIBIT_TO)) {
/* Can swap optimize only one way. */
return SWAP_TO_CHAN_BRIDGE;
}
return SWAP_PROHIBITED;
}
/*!
* \internal
* \brief Check and attempt to swap optimize out the unreal channels.
* \since 12.0.0
*
* \param chan_bridge
* \param chan_bridge_channel
* \param peer_bridge
* \param peer_bridge_channel
* \param pvt Unreal data containing callbacks to call if the optimization actually
* happens
*
* \retval 1 if unreal channels failed to optimize out.
* \retval 0 if unreal channels were not optimized out.
* \retval -1 if unreal channels were optimized out.
*/
static int try_swap_optimize_out(struct ast_bridge *chan_bridge,
struct ast_bridge_channel *chan_bridge_channel, struct ast_bridge *peer_bridge,
struct ast_bridge_channel *peer_bridge_channel,
struct ast_unreal_pvt *pvt)
{
struct ast_bridge *dst_bridge;
struct ast_bridge_channel *dst_bridge_channel;
struct ast_bridge_channel *src_bridge_channel;
struct ast_bridge_channel *other;
int res = 1;
switch (bridges_allow_swap_optimization(chan_bridge, peer_bridge)) {
case SWAP_TO_CHAN_BRIDGE:
dst_bridge = chan_bridge;
dst_bridge_channel = chan_bridge_channel;
src_bridge_channel = peer_bridge_channel;
break;
case SWAP_TO_PEER_BRIDGE:
dst_bridge = peer_bridge;
dst_bridge_channel = peer_bridge_channel;
src_bridge_channel = chan_bridge_channel;
break;
case SWAP_PROHIBITED:
default:
return 0;
}
other = ast_bridge_channel_peer(src_bridge_channel);
if (other && other->state == BRIDGE_CHANNEL_STATE_WAIT) {
ast_verb(3, "Move-swap optimizing %s <-- %s.\n",
ast_channel_name(dst_bridge_channel->chan),
ast_channel_name(other->chan));
if (pvt && !ast_test_flag(pvt, AST_UNREAL_OPTIMIZE_BEGUN) && pvt->callbacks
&& pvt->callbacks->optimization_started) {
pvt->callbacks->optimization_started(pvt);
ast_set_flag(pvt, AST_UNREAL_OPTIMIZE_BEGUN);
}
other->swap = dst_bridge_channel->chan;
if (!bridge_do_move(dst_bridge, other, 1, 1)) {
ast_bridge_channel_leave_bridge(src_bridge_channel, BRIDGE_CHANNEL_STATE_END_NO_DISSOLVE);
res = -1;
if (pvt && pvt->callbacks && pvt->callbacks->optimization_finished) {
pvt->callbacks->optimization_finished(pvt);
}
}
}
return res;
}
/*!
* \internal
* \brief Indicates allowability of a merge optimization
*/
enum bridge_allow_merge {
/*! Bridge properties prohibit merge optimization */
MERGE_PROHIBITED,
/*! Merge optimization cannot occur because the source bridge has too few channels */
MERGE_NOT_ENOUGH_CHANNELS,
/*! Merge optimization cannot occur because multimix capability could not be requested */
MERGE_NO_MULTIMIX,
/*! Merge optimization allowed between bridges */
MERGE_ALLOWED,
};
/*!
* \internal
* \brief Determines allowability of a merge optimization
*
* \note The merge output parameter is undefined if MERGE_PROHIBITED is returned. For success
* and other failure returns, a merge direction was determined, and the parameter is safe to
* access.
*
* \param chan_bridge First bridge being tested
* \param peer_bridge Second bridge being tested
* \param num_kick_channels The number of channels to remove from the bridges during merging
* \param[out] merge Indicates the recommended direction for the bridge merge
*/
static enum bridge_allow_merge bridges_allow_merge_optimization(struct ast_bridge *chan_bridge,
struct ast_bridge *peer_bridge, int num_kick_channels, struct merge_direction *merge)
{
*merge = bridge_merge_determine_direction(chan_bridge, peer_bridge);
if (!merge->dest) {
return MERGE_PROHIBITED;
}
if (merge->src->num_channels < 2) {
return MERGE_NOT_ENOUGH_CHANNELS;
} else if ((2 + num_kick_channels) < merge->dest->num_channels + merge->src->num_channels
&& !(merge->dest->technology->capabilities & AST_BRIDGE_CAPABILITY_MULTIMIX)
&& (!ast_test_flag(&merge->dest->feature_flags, AST_BRIDGE_FLAG_SMART)
|| !(merge->dest->allowed_capabilities & AST_BRIDGE_CAPABILITY_MULTIMIX))) {
return MERGE_NO_MULTIMIX;
}
return MERGE_ALLOWED;
}
/*!
* \internal
* \brief Check and attempt to merge optimize out the unreal channels.
* \since 12.0.0
*
* \param chan_bridge
* \param chan_bridge_channel
* \param peer_bridge
* \param peer_bridge_channel
* \param pvt Unreal data containing callbacks to call if the optimization actually
* happens
*
* \retval 0 if unreal channels were not optimized out.
* \retval -1 if unreal channels were optimized out.
*/
static int try_merge_optimize_out(struct ast_bridge *chan_bridge,
struct ast_bridge_channel *chan_bridge_channel, struct ast_bridge *peer_bridge,
struct ast_bridge_channel *peer_bridge_channel,
struct ast_unreal_pvt *pvt)
{
struct merge_direction merge;
struct ast_bridge_channel *kick_me[] = {
chan_bridge_channel,
peer_bridge_channel,
};
switch (bridges_allow_merge_optimization(chan_bridge, peer_bridge, ARRAY_LEN(kick_me), &merge)) {
case MERGE_ALLOWED:
break;
case MERGE_PROHIBITED:
return 0;
case MERGE_NOT_ENOUGH_CHANNELS:
ast_debug(4, "Can't optimize %s -- %s out, not enough channels in bridge %s.\n",
ast_channel_name(chan_bridge_channel->chan),
ast_channel_name(peer_bridge_channel->chan),
merge.src->uniqueid);
return 0;
case MERGE_NO_MULTIMIX:
ast_debug(4, "Can't optimize %s -- %s out, multimix is needed and it cannot be acquired.\n",
ast_channel_name(chan_bridge_channel->chan),
ast_channel_name(peer_bridge_channel->chan));
return 0;
}
ast_verb(3, "Merge optimizing %s -- %s out.\n",
ast_channel_name(chan_bridge_channel->chan),
ast_channel_name(peer_bridge_channel->chan));
if (pvt && !ast_test_flag(pvt, AST_UNREAL_OPTIMIZE_BEGUN) && pvt->callbacks
&& pvt->callbacks->optimization_started) {
pvt->callbacks->optimization_started(pvt);
ast_set_flag(pvt, AST_UNREAL_OPTIMIZE_BEGUN);
}
bridge_do_merge(merge.dest, merge.src, kick_me, ARRAY_LEN(kick_me), 1);
if (pvt && pvt->callbacks && pvt->callbacks->optimization_finished) {
pvt->callbacks->optimization_finished(pvt);
}
return -1;
}
int ast_bridge_unreal_optimize_out(struct ast_channel *chan, struct ast_channel *peer, struct ast_unreal_pvt *pvt)
{
struct ast_bridge *chan_bridge;
struct ast_bridge *peer_bridge;
struct ast_bridge_channel *chan_bridge_channel;
struct ast_bridge_channel *peer_bridge_channel;
int res = 0;
chan_bridge = optimize_lock_chan_stack(chan);
if (!chan_bridge) {
return res;
}
chan_bridge_channel = ast_channel_internal_bridge_channel(chan);
peer_bridge = optimize_lock_peer_stack(peer);
if (peer_bridge) {
peer_bridge_channel = ast_channel_internal_bridge_channel(peer);
res = try_swap_optimize_out(chan_bridge, chan_bridge_channel,
peer_bridge, peer_bridge_channel, pvt);
if (!res) {
res = try_merge_optimize_out(chan_bridge, chan_bridge_channel,
peer_bridge, peer_bridge_channel, pvt);
} else if (0 < res) {
res = 0;
}
/* Release peer locks. */
ast_bridge_unlock(peer_bridge);
ast_bridge_channel_unlock(peer_bridge_channel);
ast_channel_unlock(peer);
}
/* Release chan locks. */
ast_bridge_unlock(chan_bridge);
ast_bridge_channel_unlock(chan_bridge_channel);
return res;
}
enum ast_bridge_optimization ast_bridges_allow_optimization(struct ast_bridge *chan_bridge,
struct ast_bridge *peer_bridge)
{
struct merge_direction merge;
if (!bridge_allows_optimization(chan_bridge) || !bridge_allows_optimization(peer_bridge)) {
return AST_BRIDGE_OPTIMIZE_PROHIBITED;
}
switch (bridges_allow_swap_optimization(chan_bridge, peer_bridge)) {
case SWAP_TO_CHAN_BRIDGE:
return AST_BRIDGE_OPTIMIZE_SWAP_TO_CHAN_BRIDGE;
case SWAP_TO_PEER_BRIDGE:
return AST_BRIDGE_OPTIMIZE_SWAP_TO_PEER_BRIDGE;
case SWAP_PROHIBITED:
default:
break;
}
/* Two channels will be kicked from the bridges, the unreal;1 and unreal;2 channels */
if (bridges_allow_merge_optimization(chan_bridge, peer_bridge, 2, &merge) != MERGE_ALLOWED) {
return AST_BRIDGE_OPTIMIZE_PROHIBITED;
}
if (merge.dest == chan_bridge) {
return AST_BRIDGE_OPTIMIZE_MERGE_TO_CHAN_BRIDGE;
} else {
return AST_BRIDGE_OPTIMIZE_MERGE_TO_PEER_BRIDGE;
}
}
/*!
* \internal
* \brief Adjust the bridge merge inhibit request count.
* \since 12.0.0
*
* \param bridge What to operate on.
* \param request Inhibit request increment.
* (Positive to add requests. Negative to remove requests.)
*
* \note This function assumes bridge is locked.
*
* \return Nothing
*/
void bridge_merge_inhibit_nolock(struct ast_bridge *bridge, int request)
{
int new_request;
new_request = bridge->inhibit_merge + request;
ast_assert(0 <= new_request);
bridge->inhibit_merge = new_request;
}
void ast_bridge_merge_inhibit(struct ast_bridge *bridge, int request)
{
ast_bridge_lock(bridge);
bridge_merge_inhibit_nolock(bridge, request);
ast_bridge_unlock(bridge);
}
int ast_bridge_suspend(struct ast_bridge *bridge, struct ast_channel *chan)
{
struct ast_bridge_channel *bridge_channel;
/* BUGBUG the case of a disolved bridge while channel is suspended is not handled. */
/* BUGBUG suspend/unsuspend needs to be rethought. The caller must block until it has successfully suspended the channel for temporary control. */
/* BUGBUG external suspend/unsuspend needs to be eliminated. The channel may be playing a file at the time and stealing it then is not good. */
ast_bridge_lock(bridge);
if (!(bridge_channel = bridge_find_channel(bridge, chan))) {
ast_bridge_unlock(bridge);
return -1;
}
bridge_channel_internal_suspend_nolock(bridge_channel);
ast_bridge_unlock(bridge);
return 0;
}
int ast_bridge_unsuspend(struct ast_bridge *bridge, struct ast_channel *chan)
{
struct ast_bridge_channel *bridge_channel;
/* BUGBUG the case of a disolved bridge while channel is suspended is not handled. */
ast_bridge_lock(bridge);
if (!(bridge_channel = bridge_find_channel(bridge, chan))) {
ast_bridge_unlock(bridge);
return -1;
}
bridge_channel_internal_unsuspend_nolock(bridge_channel);
ast_bridge_unlock(bridge);
return 0;
}
void ast_bridge_technology_suspend(struct ast_bridge_technology *technology)
{
technology->suspended = 1;
}
void ast_bridge_technology_unsuspend(struct ast_bridge_technology *technology)
{
/* BUGBUG unsuspending a bridge technology probably needs to prod all existing bridges to see if they should start using it. */
technology->suspended = 0;
}
int ast_bridge_features_register(enum ast_bridge_builtin_feature feature, ast_bridge_hook_callback callback, const char *dtmf)
{
if (ARRAY_LEN(builtin_features_handlers) <= feature
|| builtin_features_handlers[feature]) {
return -1;
}
if (!ast_strlen_zero(dtmf)) {
ast_copy_string(builtin_features_dtmf[feature], dtmf, sizeof(builtin_features_dtmf[feature]));
}
builtin_features_handlers[feature] = callback;
return 0;
}
int ast_bridge_features_unregister(enum ast_bridge_builtin_feature feature)
{
if (ARRAY_LEN(builtin_features_handlers) <= feature
|| !builtin_features_handlers[feature]) {
return -1;
}
builtin_features_handlers[feature] = NULL;
return 0;
}
int ast_bridge_features_do(enum ast_bridge_builtin_feature feature, struct ast_bridge *bridge, struct ast_bridge_channel *bridge_channel, void *hook_pvt)
{
ast_bridge_hook_callback callback;
if (ARRAY_LEN(builtin_features_handlers) <= feature) {
return -1;
}
callback = builtin_features_handlers[feature];
if (!callback) {
return -1;
}
callback(bridge, bridge_channel, hook_pvt);
return 0;
}
int ast_bridge_interval_register(enum ast_bridge_builtin_interval interval, ast_bridge_builtin_set_limits_fn callback)
{
if (ARRAY_LEN(builtin_interval_handlers) <= interval
|| builtin_interval_handlers[interval]) {
return -1;
}
builtin_interval_handlers[interval] = callback;
return 0;
}
int ast_bridge_interval_unregister(enum ast_bridge_builtin_interval interval)
{
if (ARRAY_LEN(builtin_interval_handlers) <= interval
|| !builtin_interval_handlers[interval]) {
return -1;
}
builtin_interval_handlers[interval] = NULL;
return 0;
}
/*!
* \internal
* \brief Bridge hook destructor.
* \since 12.0.0
*
* \param vhook Object to destroy.
*
* \return Nothing
*/
static void bridge_hook_destroy(void *vhook)
{
struct ast_bridge_hook *hook = vhook;
if (hook->destructor) {
hook->destructor(hook->hook_pvt);
}
}
/*!
* \internal
* \brief Allocate and setup a generic bridge hook.
* \since 12.0.0
*
* \param size How big an object to allocate.
* \param callback Function to execute upon activation
* \param hook_pvt Unique data
* \param destructor Optional destructor callback for hook_pvt data
* \param remove_flags Dictates what situations the hook should be removed.
*
* \retval hook on success.
* \retval NULL on error.
*/
static struct ast_bridge_hook *bridge_hook_generic(size_t size,
ast_bridge_hook_callback callback,
void *hook_pvt,
ast_bridge_hook_pvt_destructor destructor,
enum ast_bridge_hook_remove_flags remove_flags)
{
struct ast_bridge_hook *hook;
/* Allocate new hook and setup it's basic variables */
hook = ao2_alloc_options(size, bridge_hook_destroy, AO2_ALLOC_OPT_LOCK_NOLOCK);
if (hook) {
hook->callback = callback;
hook->destructor = destructor;
hook->hook_pvt = hook_pvt;
ast_set_flag(&hook->remove_flags, remove_flags);
}
return hook;
}
int ast_bridge_dtmf_hook(struct ast_bridge_features *features,
const char *dtmf,
ast_bridge_hook_callback callback,
void *hook_pvt,
ast_bridge_hook_pvt_destructor destructor,
enum ast_bridge_hook_remove_flags remove_flags)
{
struct ast_bridge_hook_dtmf *hook;
int res;
/* Allocate new hook and setup it's various variables */
hook = (struct ast_bridge_hook_dtmf *) bridge_hook_generic(sizeof(*hook), callback,
hook_pvt, destructor, remove_flags);
if (!hook) {
return -1;
}
hook->generic.type = AST_BRIDGE_HOOK_TYPE_DTMF;
ast_copy_string(hook->dtmf.code, dtmf, sizeof(hook->dtmf.code));
/* Once done we put it in the container. */
res = ao2_link(features->dtmf_hooks, hook) ? 0 : -1;
if (res) {
/*
* Could not link the hook into the container.
*
* Remove the hook_pvt destructor call from the hook since we
* are returning failure to install the hook.
*/
hook->generic.destructor = NULL;
}
ao2_ref(hook, -1);
return res;
}
/*!
* \internal
* \brief Attach an other hook to a bridge features structure
*
* \param features Bridge features structure
* \param callback Function to execute upon activation
* \param hook_pvt Unique data
* \param destructor Optional destructor callback for hook_pvt data
* \param remove_flags Dictates what situations the hook should be removed.
* \param type What type of hook is being attached.
*
* \retval 0 on success
* \retval -1 on failure (The caller must cleanup any hook_pvt resources.)
*/
static int bridge_other_hook(struct ast_bridge_features *features,
ast_bridge_hook_callback callback,
void *hook_pvt,
ast_bridge_hook_pvt_destructor destructor,
enum ast_bridge_hook_remove_flags remove_flags,
enum ast_bridge_hook_type type)
{
struct ast_bridge_hook *hook;
int res;
/* Allocate new hook and setup it's various variables */
hook = bridge_hook_generic(sizeof(*hook), callback, hook_pvt, destructor,
remove_flags);
if (!hook) {
return -1;
}
hook->type = type;
/* Once done we put it in the container. */
res = ao2_link(features->other_hooks, hook) ? 0 : -1;
if (res) {
/*
* Could not link the hook into the container.
*
* Remove the hook_pvt destructor call from the hook since we
* are returning failure to install the hook.
*/
hook->destructor = NULL;
}
ao2_ref(hook, -1);
return res;
}
int ast_bridge_hangup_hook(struct ast_bridge_features *features,
ast_bridge_hook_callback callback,
void *hook_pvt,
ast_bridge_hook_pvt_destructor destructor,
enum ast_bridge_hook_remove_flags remove_flags)
{
return bridge_other_hook(features, callback, hook_pvt, destructor, remove_flags,
AST_BRIDGE_HOOK_TYPE_HANGUP);
}
int ast_bridge_join_hook(struct ast_bridge_features *features,
ast_bridge_hook_callback callback,
void *hook_pvt,
ast_bridge_hook_pvt_destructor destructor,
enum ast_bridge_hook_remove_flags remove_flags)
{
return bridge_other_hook(features, callback, hook_pvt, destructor, remove_flags,
AST_BRIDGE_HOOK_TYPE_JOIN);
}
int ast_bridge_leave_hook(struct ast_bridge_features *features,
ast_bridge_hook_callback callback,
void *hook_pvt,
ast_bridge_hook_pvt_destructor destructor,
enum ast_bridge_hook_remove_flags remove_flags)
{
return bridge_other_hook(features, callback, hook_pvt, destructor, remove_flags,
AST_BRIDGE_HOOK_TYPE_LEAVE);
}
int ast_bridge_talk_detector_hook(struct ast_bridge_features *features,
ast_bridge_talking_indicate_callback callback,
void *hook_pvt,
ast_bridge_hook_pvt_destructor destructor,
enum ast_bridge_hook_remove_flags remove_flags)
{
ast_bridge_hook_callback hook_cb = (ast_bridge_hook_callback) callback;
return bridge_other_hook(features, hook_cb, hook_pvt, destructor, remove_flags,
AST_BRIDGE_HOOK_TYPE_TALK);
}
int ast_bridge_interval_hook(struct ast_bridge_features *features,
unsigned int interval,
ast_bridge_hook_callback callback,
void *hook_pvt,
ast_bridge_hook_pvt_destructor destructor,
enum ast_bridge_hook_remove_flags remove_flags)
{
struct ast_bridge_hook_timer *hook;
int res;
if (!features ||!interval || !callback) {
return -1;
}
/* Allocate new hook and setup it's various variables */
hook = (struct ast_bridge_hook_timer *) bridge_hook_generic(sizeof(*hook), callback,
hook_pvt, destructor, remove_flags);
if (!hook) {
return -1;
}
hook->generic.type = AST_BRIDGE_HOOK_TYPE_TIMER;
hook->timer.interval = interval;
hook->timer.trip_time = ast_tvadd(ast_tvnow(), ast_samp2tv(hook->timer.interval, 1000));
hook->timer.seqno = ast_atomic_fetchadd_int((int *) &features->interval_sequence, +1);
ast_debug(1, "Putting interval hook %p with interval %u in the heap on features %p\n",
hook, hook->timer.interval, features);
ast_heap_wrlock(features->interval_hooks);
res = ast_heap_push(features->interval_hooks, hook);
ast_heap_unlock(features->interval_hooks);
if (res) {
/*
* Could not push the hook into the heap
*
* Remove the hook_pvt destructor call from the hook since we
* are returning failure to install the hook.
*/
hook->generic.destructor = NULL;
ao2_ref(hook, -1);
}
return res ? -1 : 0;
}
int ast_bridge_features_enable(struct ast_bridge_features *features,
enum ast_bridge_builtin_feature feature,
const char *dtmf,
void *config,
ast_bridge_hook_pvt_destructor destructor,
enum ast_bridge_hook_remove_flags remove_flags)
{
if (ARRAY_LEN(builtin_features_handlers) <= feature
|| !builtin_features_handlers[feature]) {
return -1;
}
/* If no alternate DTMF stream was provided use the default one */
if (ast_strlen_zero(dtmf)) {
dtmf = builtin_features_dtmf[feature];
/* If no DTMF is still available (ie: it has been disabled) then error out now */
if (ast_strlen_zero(dtmf)) {
ast_debug(1, "Failed to enable built in feature %d on %p, no DTMF string is available for it.\n",
feature, features);
return -1;
}
}
/*
* The rest is basically pretty easy. We create another hook
* using the built in feature's DTMF callback. Easy as pie.
*/
return ast_bridge_dtmf_hook(features, dtmf, builtin_features_handlers[feature],
config, destructor, remove_flags);
}
int ast_bridge_features_limits_construct(struct ast_bridge_features_limits *limits)
{
memset(limits, 0, sizeof(*limits));
if (ast_string_field_init(limits, 256)) {
ast_free(limits);
return -1;
}
return 0;
}
void ast_bridge_features_limits_destroy(struct ast_bridge_features_limits *limits)
{
ast_string_field_free_memory(limits);
}
int ast_bridge_features_set_limits(struct ast_bridge_features *features,
struct ast_bridge_features_limits *limits, enum ast_bridge_hook_remove_flags remove_flags)
{
if (builtin_interval_handlers[AST_BRIDGE_BUILTIN_INTERVAL_LIMITS]) {
ast_bridge_builtin_set_limits_fn bridge_features_set_limits_callback;
bridge_features_set_limits_callback = builtin_interval_handlers[AST_BRIDGE_BUILTIN_INTERVAL_LIMITS];
return bridge_features_set_limits_callback(features, limits, remove_flags);
}
ast_log(LOG_ERROR, "Attempted to set limits without an AST_BRIDGE_BUILTIN_INTERVAL_LIMITS callback registered.\n");
return -1;
}
void ast_bridge_features_set_flag(struct ast_bridge_features *features, unsigned int flag)
{
ast_set_flag(&features->feature_flags, flag);
features->usable = 1;
}
/*!
* \internal
* \brief ao2 object match hooks with appropriate remove_flags.
* \since 12.0.0
*
* \param obj Feature hook object.
* \param arg Removal flags
* \param flags Not used
*
* \retval CMP_MATCH if hook's remove_flags match the removal flags set.
* \retval 0 if not match.
*/
static int hook_remove_match(void *obj, void *arg, int flags)
{
struct ast_bridge_hook *hook = obj;
enum ast_bridge_hook_remove_flags *remove_flags = arg;
if (ast_test_flag(&hook->remove_flags, *remove_flags)) {
return CMP_MATCH;
} else {
return 0;
}
}
/*!
* \internal
* \brief Remove all hooks with appropriate remove_flags in the container.
* \since 12.0.0
*
* \param hooks Hooks container to work on.
* \param remove_flags Determinator for whether hook is removed
*
* \return Nothing
*/
static void hooks_remove_container(struct ao2_container *hooks, enum ast_bridge_hook_remove_flags remove_flags)
{
ao2_callback(hooks, OBJ_UNLINK | OBJ_NODATA | OBJ_MULTIPLE,
hook_remove_match, &remove_flags);
}
/*!
* \internal
* \brief Remove all hooks in the heap with appropriate remove_flags set.
* \since 12.0.0
*
* \param hooks Hooks heap to work on.
* \param remove_flags Determinator for whether hook is removed
*
* \return Nothing
*/
static void hooks_remove_heap(struct ast_heap *hooks, enum ast_bridge_hook_remove_flags remove_flags)
{
struct ast_bridge_hook *hook;
int changed;
ast_heap_wrlock(hooks);
do {
int idx;
changed = 0;
for (idx = ast_heap_size(hooks); idx; --idx) {
hook = ast_heap_peek(hooks, idx);
if (ast_test_flag(&hook->remove_flags, remove_flags)) {
ast_heap_remove(hooks, hook);
ao2_ref(hook, -1);
changed = 1;
}
}
} while (changed);
ast_heap_unlock(hooks);
}
void ast_bridge_features_remove(struct ast_bridge_features *features, enum ast_bridge_hook_remove_flags remove_flags)
{
hooks_remove_container(features->dtmf_hooks, remove_flags);
hooks_remove_container(features->other_hooks, remove_flags);
hooks_remove_heap(features->interval_hooks, remove_flags);
}
static int interval_hook_time_cmp(void *a, void *b)
{
struct ast_bridge_hook_timer *hook_a = a;
struct ast_bridge_hook_timer *hook_b = b;
int cmp;
cmp = ast_tvcmp(hook_b->timer.trip_time, hook_a->timer.trip_time);
if (cmp) {
return cmp;
}
cmp = hook_b->timer.seqno - hook_a->timer.seqno;
return cmp;
}
/*!
* \internal
* \brief DTMF hook container sort comparison function.
* \since 12.0.0
*
* \param obj_left pointer to the (user-defined part) of an object.
* \param obj_right pointer to the (user-defined part) of an object.
* \param flags flags from ao2_callback()
* OBJ_POINTER - if set, 'obj_right', is an object.
* OBJ_KEY - if set, 'obj_right', is a search key item that is not an object.
* OBJ_PARTIAL_KEY - if set, 'obj_right', is a partial search key item that is not an object.
*
* \retval <0 if obj_left < obj_right
* \retval =0 if obj_left == obj_right
* \retval >0 if obj_left > obj_right
*/
static int bridge_dtmf_hook_sort(const void *obj_left, const void *obj_right, int flags)
{
const struct ast_bridge_hook_dtmf *hook_left = obj_left;
const struct ast_bridge_hook_dtmf *hook_right = obj_right;
const char *right_key = obj_right;
int cmp;
switch (flags & (OBJ_POINTER | OBJ_KEY | OBJ_PARTIAL_KEY)) {
default:
case OBJ_POINTER:
right_key = hook_right->dtmf.code;
/* Fall through */
case OBJ_KEY:
cmp = strcasecmp(hook_left->dtmf.code, right_key);
break;
case OBJ_PARTIAL_KEY:
cmp = strncasecmp(hook_left->dtmf.code, right_key, strlen(right_key));
break;
}
return cmp;
}
/* BUGBUG make ast_bridge_features_init() static when make ast_bridge_join() requires features to be allocated. */
int ast_bridge_features_init(struct ast_bridge_features *features)
{
/* Zero out the structure */
memset(features, 0, sizeof(*features));
/* Initialize the DTMF hooks container */
features->dtmf_hooks = ao2_container_alloc_list(AO2_ALLOC_OPT_LOCK_MUTEX,
AO2_CONTAINER_ALLOC_OPT_DUPS_REPLACE, bridge_dtmf_hook_sort, NULL);
if (!features->dtmf_hooks) {
return -1;
}
/* Initialize the miscellaneous other hooks container */
features->other_hooks = ao2_container_alloc_list(AO2_ALLOC_OPT_LOCK_MUTEX, 0, NULL,
NULL);
if (!features->other_hooks) {
return -1;
}
/* Initialize the interval hooks heap */
features->interval_hooks = ast_heap_create(8, interval_hook_time_cmp,
offsetof(struct ast_bridge_hook_timer, timer.heap_index));
if (!features->interval_hooks) {
return -1;
}
return 0;
}
/* BUGBUG make ast_bridge_features_cleanup() static when make ast_bridge_join() requires features to be allocated. */
void ast_bridge_features_cleanup(struct ast_bridge_features *features)
{
struct ast_bridge_hook_timer *hook;
/* Destroy the interval hooks heap. */
if (features->interval_hooks) {
while ((hook = ast_heap_pop(features->interval_hooks))) {
ao2_ref(hook, -1);
}
features->interval_hooks = ast_heap_destroy(features->interval_hooks);
}
/* If the features contains a limits pvt, destroy that as well. */
if (features->limits) {
ast_bridge_features_limits_destroy(features->limits);
ast_free(features->limits);
features->limits = NULL;
}
/* Destroy the miscellaneous other hooks container. */
ao2_cleanup(features->other_hooks);
features->other_hooks = NULL;
/* Destroy the DTMF hooks container. */
ao2_cleanup(features->dtmf_hooks);
features->dtmf_hooks = NULL;
}
void ast_bridge_features_destroy(struct ast_bridge_features *features)
{
if (!features) {
return;
}
ast_bridge_features_cleanup(features);
ast_free(features);
}
struct ast_bridge_features *ast_bridge_features_new(void)
{
struct ast_bridge_features *features;
features = ast_malloc(sizeof(*features));
if (features) {
if (ast_bridge_features_init(features)) {
ast_bridge_features_destroy(features);
features = NULL;
}
}
return features;
}
void ast_bridge_set_mixing_interval(struct ast_bridge *bridge, unsigned int mixing_interval)
{
ast_bridge_lock(bridge);
bridge->softmix.internal_mixing_interval = mixing_interval;
ast_bridge_unlock(bridge);
}
void ast_bridge_set_internal_sample_rate(struct ast_bridge *bridge, unsigned int sample_rate)
{
ast_bridge_lock(bridge);
bridge->softmix.internal_sample_rate = sample_rate;
ast_bridge_unlock(bridge);
}
static void cleanup_video_mode(struct ast_bridge *bridge)
{
switch (bridge->softmix.video_mode.mode) {
case AST_BRIDGE_VIDEO_MODE_NONE:
break;
case AST_BRIDGE_VIDEO_MODE_SINGLE_SRC:
if (bridge->softmix.video_mode.mode_data.single_src_data.chan_vsrc) {
ast_channel_unref(bridge->softmix.video_mode.mode_data.single_src_data.chan_vsrc);
}
break;
case AST_BRIDGE_VIDEO_MODE_TALKER_SRC:
if (bridge->softmix.video_mode.mode_data.talker_src_data.chan_vsrc) {
ast_channel_unref(bridge->softmix.video_mode.mode_data.talker_src_data.chan_vsrc);
}
if (bridge->softmix.video_mode.mode_data.talker_src_data.chan_old_vsrc) {
ast_channel_unref(bridge->softmix.video_mode.mode_data.talker_src_data.chan_old_vsrc);
}
}
memset(&bridge->softmix.video_mode, 0, sizeof(bridge->softmix.video_mode));
}
void ast_bridge_set_single_src_video_mode(struct ast_bridge *bridge, struct ast_channel *video_src_chan)
{
ast_bridge_lock(bridge);
cleanup_video_mode(bridge);
bridge->softmix.video_mode.mode = AST_BRIDGE_VIDEO_MODE_SINGLE_SRC;
bridge->softmix.video_mode.mode_data.single_src_data.chan_vsrc = ast_channel_ref(video_src_chan);
ast_test_suite_event_notify("BRIDGE_VIDEO_MODE", "Message: video mode set to single source\r\nVideo Mode: %d\r\nVideo Channel: %s",
bridge->softmix.video_mode.mode, ast_channel_name(video_src_chan));
ast_indicate(video_src_chan, AST_CONTROL_VIDUPDATE);
ast_bridge_unlock(bridge);
}
void ast_bridge_set_talker_src_video_mode(struct ast_bridge *bridge)
{
ast_bridge_lock(bridge);
cleanup_video_mode(bridge);
bridge->softmix.video_mode.mode = AST_BRIDGE_VIDEO_MODE_TALKER_SRC;
ast_test_suite_event_notify("BRIDGE_VIDEO_MODE", "Message: video mode set to talker source\r\nVideo Mode: %d",
bridge->softmix.video_mode.mode);
ast_bridge_unlock(bridge);
}
void ast_bridge_update_talker_src_video_mode(struct ast_bridge *bridge, struct ast_channel *chan, int talker_energy, int is_keyframe)
{
struct ast_bridge_video_talker_src_data *data;
/* If the channel doesn't support video, we don't care about it */
if (!ast_format_cap_has_type(ast_channel_nativeformats(chan), AST_FORMAT_TYPE_VIDEO)) {
return;
}
ast_bridge_lock(bridge);
data = &bridge->softmix.video_mode.mode_data.talker_src_data;
if (data->chan_vsrc == chan) {
data->average_talking_energy = talker_energy;
} else if ((data->average_talking_energy < talker_energy) && is_keyframe) {
if (data->chan_old_vsrc) {
ast_channel_unref(data->chan_old_vsrc);
}
if (data->chan_vsrc) {
data->chan_old_vsrc = data->chan_vsrc;
ast_indicate(data->chan_old_vsrc, AST_CONTROL_VIDUPDATE);
}
data->chan_vsrc = ast_channel_ref(chan);
data->average_talking_energy = talker_energy;
ast_test_suite_event_notify("BRIDGE_VIDEO_SRC", "Message: video source updated\r\nVideo Channel: %s", ast_channel_name(data->chan_vsrc));
ast_indicate(data->chan_vsrc, AST_CONTROL_VIDUPDATE);
} else if ((data->average_talking_energy < talker_energy) && !is_keyframe) {
ast_indicate(chan, AST_CONTROL_VIDUPDATE);
} else if (!data->chan_vsrc && is_keyframe) {
data->chan_vsrc = ast_channel_ref(chan);
data->average_talking_energy = talker_energy;
ast_test_suite_event_notify("BRIDGE_VIDEO_SRC", "Message: video source updated\r\nVideo Channel: %s", ast_channel_name(data->chan_vsrc));
ast_indicate(chan, AST_CONTROL_VIDUPDATE);
} else if (!data->chan_old_vsrc && is_keyframe) {
data->chan_old_vsrc = ast_channel_ref(chan);
ast_indicate(chan, AST_CONTROL_VIDUPDATE);
}
ast_bridge_unlock(bridge);
}
int ast_bridge_number_video_src(struct ast_bridge *bridge)
{
int res = 0;
ast_bridge_lock(bridge);
switch (bridge->softmix.video_mode.mode) {
case AST_BRIDGE_VIDEO_MODE_NONE:
break;
case AST_BRIDGE_VIDEO_MODE_SINGLE_SRC:
if (bridge->softmix.video_mode.mode_data.single_src_data.chan_vsrc) {
res = 1;
}
break;
case AST_BRIDGE_VIDEO_MODE_TALKER_SRC:
if (bridge->softmix.video_mode.mode_data.talker_src_data.chan_vsrc) {
res++;
}
if (bridge->softmix.video_mode.mode_data.talker_src_data.chan_old_vsrc) {
res++;
}
}
ast_bridge_unlock(bridge);
return res;
}
int ast_bridge_is_video_src(struct ast_bridge *bridge, struct ast_channel *chan)
{
int res = 0;
ast_bridge_lock(bridge);
switch (bridge->softmix.video_mode.mode) {
case AST_BRIDGE_VIDEO_MODE_NONE:
break;
case AST_BRIDGE_VIDEO_MODE_SINGLE_SRC:
if (bridge->softmix.video_mode.mode_data.single_src_data.chan_vsrc == chan) {
res = 1;
}
break;
case AST_BRIDGE_VIDEO_MODE_TALKER_SRC:
if (bridge->softmix.video_mode.mode_data.talker_src_data.chan_vsrc == chan) {
res = 1;
} else if (bridge->softmix.video_mode.mode_data.talker_src_data.chan_old_vsrc == chan) {
res = 2;
}
}
ast_bridge_unlock(bridge);
return res;
}
void ast_bridge_remove_video_src(struct ast_bridge *bridge, struct ast_channel *chan)
{
ast_bridge_lock(bridge);
switch (bridge->softmix.video_mode.mode) {
case AST_BRIDGE_VIDEO_MODE_NONE:
break;
case AST_BRIDGE_VIDEO_MODE_SINGLE_SRC:
if (bridge->softmix.video_mode.mode_data.single_src_data.chan_vsrc == chan) {
if (bridge->softmix.video_mode.mode_data.single_src_data.chan_vsrc) {
ast_channel_unref(bridge->softmix.video_mode.mode_data.single_src_data.chan_vsrc);
}
bridge->softmix.video_mode.mode_data.single_src_data.chan_vsrc = NULL;
}
break;
case AST_BRIDGE_VIDEO_MODE_TALKER_SRC:
if (bridge->softmix.video_mode.mode_data.talker_src_data.chan_vsrc == chan) {
if (bridge->softmix.video_mode.mode_data.talker_src_data.chan_vsrc) {
ast_channel_unref(bridge->softmix.video_mode.mode_data.talker_src_data.chan_vsrc);
}
bridge->softmix.video_mode.mode_data.talker_src_data.chan_vsrc = NULL;
bridge->softmix.video_mode.mode_data.talker_src_data.average_talking_energy = 0;
}
if (bridge->softmix.video_mode.mode_data.talker_src_data.chan_old_vsrc == chan) {
if (bridge->softmix.video_mode.mode_data.talker_src_data.chan_old_vsrc) {
ast_channel_unref(bridge->softmix.video_mode.mode_data.talker_src_data.chan_old_vsrc);
}
bridge->softmix.video_mode.mode_data.talker_src_data.chan_old_vsrc = NULL;
}
}
ast_bridge_unlock(bridge);
}
static int channel_hash(const void *obj, int flags)
{
const struct ast_channel *chan = obj;
const char *name = obj;
int hash;
switch (flags & (OBJ_POINTER | OBJ_KEY | OBJ_PARTIAL_KEY)) {
default:
case OBJ_POINTER:
name = ast_channel_name(chan);
/* Fall through */
case OBJ_KEY:
hash = ast_str_hash(name);
break;
case OBJ_PARTIAL_KEY:
/* Should never happen in hash callback. */
ast_assert(0);
hash = 0;
break;
}
return hash;
}
static int channel_cmp(void *obj, void *arg, int flags)
{
const struct ast_channel *left = obj;
const struct ast_channel *right = arg;
const char *right_name = arg;
int cmp;
switch (flags & (OBJ_POINTER | OBJ_KEY | OBJ_PARTIAL_KEY)) {
default:
case OBJ_POINTER:
right_name = ast_channel_name(right);
/* Fall through */
case OBJ_KEY:
cmp = strcmp(ast_channel_name(left), right_name);
break;
case OBJ_PARTIAL_KEY:
cmp = strncmp(ast_channel_name(left), right_name, strlen(right_name));
break;
}
return cmp ? 0 : CMP_MATCH;
}
struct ao2_container *ast_bridge_peers_nolock(struct ast_bridge *bridge)
{
struct ao2_container *channels;
struct ast_bridge_channel *iter;
channels = ao2_container_alloc_options(AO2_ALLOC_OPT_LOCK_NOLOCK,
13, channel_hash, channel_cmp);
if (!channels) {
return NULL;
}
AST_LIST_TRAVERSE(&bridge->channels, iter, entry) {
ao2_link(channels, iter->chan);
}
return channels;
}
struct ao2_container *ast_bridge_peers(struct ast_bridge *bridge)
{
struct ao2_container *channels;
ast_bridge_lock(bridge);
channels = ast_bridge_peers_nolock(bridge);
ast_bridge_unlock(bridge);
return channels;
}
struct ast_channel *ast_bridge_peer_nolock(struct ast_bridge *bridge, struct ast_channel *chan)
{
struct ast_channel *peer = NULL;
struct ast_bridge_channel *iter;
/* Asking for the peer channel only makes sense on a two-party bridge. */
if (bridge->num_channels == 2
&& bridge->technology->capabilities
& (AST_BRIDGE_CAPABILITY_NATIVE | AST_BRIDGE_CAPABILITY_1TO1MIX)) {
int in_bridge = 0;
AST_LIST_TRAVERSE(&bridge->channels, iter, entry) {
if (iter->chan != chan) {
peer = iter->chan;
} else {
in_bridge = 1;
}
}
if (in_bridge && peer) {
ast_channel_ref(peer);
} else {
peer = NULL;
}
}
return peer;
}
struct ast_channel *ast_bridge_peer(struct ast_bridge *bridge, struct ast_channel *chan)
{
struct ast_channel *peer;
ast_bridge_lock(bridge);
peer = ast_bridge_peer_nolock(bridge, chan);
ast_bridge_unlock(bridge);
return peer;
}
/*!
* \internal
* \brief Transfer an entire bridge to a specific destination.
*
* This creates a local channel to dial out and swaps the called local channel
* with the transferer channel. By doing so, all participants in the bridge are
* connected to the specified destination.
*
* While this means of transferring would work for both two-party and multi-party
* bridges, this method is only used for multi-party bridges since this method would
* be less efficient for two-party bridges.
*
* \param transferer The channel performing a transfer
* \param bridge The bridge where the transfer is being performed
* \param exten The destination extension for the blind transfer
* \param context The destination context for the blind transfer
* \param hook Framehook to attach to local channel
* \return The success or failure of the operation
*/
static enum ast_transfer_result blind_transfer_bridge(struct ast_channel *transferer,
struct ast_bridge *bridge, const char *exten, const char *context,
transfer_channel_cb new_channel_cb, void *user_data)
{
struct ast_channel *local;
char chan_name[AST_MAX_EXTENSION + AST_MAX_CONTEXT + 2];
int cause;
snprintf(chan_name, sizeof(chan_name), "%s@%s", exten, context);
local = ast_request("Local", ast_channel_nativeformats(transferer), transferer,
chan_name, &cause);
if (!local) {
return AST_BRIDGE_TRANSFER_FAIL;
}
if (new_channel_cb) {
new_channel_cb(local, user_data, AST_BRIDGE_TRANSFER_MULTI_PARTY);
}
if (ast_call(local, chan_name, 0)) {
ast_hangup(local);
return AST_BRIDGE_TRANSFER_FAIL;
}
if (ast_bridge_impart(bridge, local, transferer, NULL, 1)) {
ast_hangup(local);
return AST_BRIDGE_TRANSFER_FAIL;
}
return AST_BRIDGE_TRANSFER_SUCCESS;
}
/*!
* \internal
* \brief Base data to publish for stasis attended transfer messages
*/
struct stasis_attended_transfer_publish_data {
/* The bridge between the transferer and transferee, and the transferer channel in this bridge */
struct ast_bridge_channel_pair to_transferee;
/* The bridge between the transferer and transfer target, and the transferer channel in this bridge */
struct ast_bridge_channel_pair to_transfer_target;
};
static void stasis_publish_data_cleanup(struct stasis_attended_transfer_publish_data *publication)
{
ast_channel_unref(publication->to_transferee.channel);
ast_channel_unref(publication->to_transfer_target.channel);
ao2_cleanup(publication->to_transferee.bridge);
ao2_cleanup(publication->to_transfer_target.bridge);
}
/*!
* \internal
* \brief Set up base data for an attended transfer stasis publication
*
* \param to_transferee The original transferer channel, which may be bridged to a transferee
* \param to_transferee_bridge The bridge that to_transferee is in.
* \param to_transfer_target The second transferer channel, which may be bridged to a transfer target
* \param to_target_bridge The bridge that to_transfer_target_is in.
* \param[out] publication A structure to hold the other parameters
*/
static void stasis_publish_data_init(struct ast_channel *to_transferee,
struct ast_bridge *to_transferee_bridge, struct ast_channel *to_transfer_target,
struct ast_bridge *to_target_bridge,
struct stasis_attended_transfer_publish_data *publication)
{
memset(publication, 0, sizeof(*publication));
publication->to_transferee.channel = ast_channel_ref(to_transferee);
if (to_transferee_bridge) {
ao2_ref(to_transferee_bridge, +1);
publication->to_transferee.bridge = to_transferee_bridge;
}
publication->to_transfer_target.channel = ast_channel_ref(to_transfer_target);
if (to_target_bridge) {
ao2_ref(to_target_bridge, +1);
publication->to_transfer_target.bridge = to_target_bridge;
}
}
/*
* \internal
* \brief Publish a stasis attended transfer resulting in a bridge merge
*
* \param publication Base data about the attended transfer
* \param final_bridge The surviving bridge of the attended transfer
*/
static void publish_attended_transfer_bridge_merge(struct stasis_attended_transfer_publish_data *publication,
struct ast_bridge *final_bridge)
{
ast_bridge_publish_attended_transfer_bridge_merge(1, AST_BRIDGE_TRANSFER_SUCCESS,
&publication->to_transferee, &publication->to_transfer_target, final_bridge);
}
/*
* \internal
* \brief Publish a stasis attended transfer to an application
*
* \param publication Base data about the attended transfer
* \param app The app that is running at the conclusion of the transfer
*/
static void publish_attended_transfer_app(struct stasis_attended_transfer_publish_data *publication,
const char *app)
{
ast_bridge_publish_attended_transfer_app(1, AST_BRIDGE_TRANSFER_SUCCESS,
&publication->to_transferee, &publication->to_transfer_target, app);
}
/*
* \internal
* \brief Publish a stasis attended transfer showing a link between bridges
*
* \param publication Base data about the attended transfer
* \param local_channel1 Local channel in the original bridge
* \param local_channel2 Local channel in the second bridge
*/
static void publish_attended_transfer_link(struct stasis_attended_transfer_publish_data *publication,
struct ast_channel *local_channel1, struct ast_channel *local_channel2)
{
struct ast_channel *locals[2] = { local_channel1, local_channel2 };
ast_bridge_publish_attended_transfer_link(1, AST_BRIDGE_TRANSFER_SUCCESS,
&publication->to_transferee, &publication->to_transfer_target, locals);
}
/*
* \internal
* \brief Publish a stasis attended transfer failure
*
* \param publication Base data about the attended transfer
* \param result The transfer result
*/
static void publish_attended_transfer_fail(struct stasis_attended_transfer_publish_data *publication,
enum ast_transfer_result result)
{
ast_bridge_publish_attended_transfer_fail(1, result, &publication->to_transferee,
&publication->to_transfer_target);
}
/*!
* \brief Perform an attended transfer of a bridge
*
* This performs an attended transfer of an entire bridge to a target.
* The target varies, depending on what bridges exist during the transfer
* attempt.
*
* If two bridges exist, then a local channel is created to link the two
* bridges together.
*
* If only one bridge exists, then a local channel is created with one end
* placed into the existing bridge and the other end masquerading into
* the unbridged channel.
*
* \param chan1 Transferer channel. Guaranteed to be bridged.
* \param chan2 Other transferer channel. May or may not be bridged.
* \param bridge1 Bridge that chan1 is in. Guaranteed to be non-NULL.
* \param bridge2 Bridge that chan2 is in. If NULL, then chan2 is not bridged.
* \param publication Data to publish for a stasis attended transfer message.
* \retval AST_BRIDGE_TRANSFER_FAIL Internal error occurred
* \retval AST_BRIDGE_TRANSFER_SUCCESS Succesfully transferred the bridge
*/
static enum ast_transfer_result attended_transfer_bridge(struct ast_channel *chan1,
struct ast_channel *chan2, struct ast_bridge *bridge1, struct ast_bridge *bridge2,
struct stasis_attended_transfer_publish_data *publication)
{
static const char *dest = "_attended@transfer/m";
struct ast_channel *local_chan;
int cause;
int res;
const char *app = NULL;
local_chan = ast_request("Local", ast_channel_nativeformats(chan1), chan1,
dest, &cause);
if (!local_chan) {
return AST_BRIDGE_TRANSFER_FAIL;
}
if (bridge2) {
res = ast_local_setup_bridge(local_chan, bridge2, chan2, NULL);
} else {
app = ast_strdupa(ast_channel_appl(chan2));
res = ast_local_setup_masquerade(local_chan, chan2);
}
if (res) {
ast_hangup(local_chan);
return AST_BRIDGE_TRANSFER_FAIL;
}
if (ast_call(local_chan, dest, 0)) {
ast_hangup(local_chan);
return AST_BRIDGE_TRANSFER_FAIL;
}
if (ast_bridge_impart(bridge1, local_chan, chan1, NULL, 1)) {
ast_hangup(local_chan);
return AST_BRIDGE_TRANSFER_FAIL;
}
if (bridge2) {
RAII_VAR(struct ast_channel *, local_chan2, NULL, ao2_cleanup);
ast_channel_lock(local_chan);
local_chan2 = ast_local_get_peer(local_chan);
ast_channel_unlock(local_chan);
ast_assert(local_chan2 != NULL);
publish_attended_transfer_link(publication,
local_chan, local_chan2);
} else {
publish_attended_transfer_app(publication, app);
}
return AST_BRIDGE_TRANSFER_SUCCESS;
}
/*!
* \internal
* \brief Get the transferee channel
*
* This is only applicable to cases where a transfer is occurring on a
* two-party bridge. The channels container passed in is expected to only
* contain two channels, the transferer and the transferee. The transferer
* channel is passed in as a parameter to ensure we don't return it as
* the transferee channel.
*
* \param channels A two-channel container containing the transferer and transferee
* \param transferer The party that is transfering the call
* \return The party that is being transferred
*/
static struct ast_channel *get_transferee(struct ao2_container *channels, struct ast_channel *transferer)
{
struct ao2_iterator channel_iter;
struct ast_channel *transferee;
for (channel_iter = ao2_iterator_init(channels, 0);
(transferee = ao2_iterator_next(&channel_iter));
ao2_cleanup(transferee)) {
if (transferee != transferer) {
break;
}
}
ao2_iterator_destroy(&channel_iter);
return transferee;
}
enum try_parking_result {
PARKING_SUCCESS,
PARKING_FAILURE,
PARKING_NOT_APPLICABLE,
};
static enum try_parking_result try_parking(struct ast_bridge *bridge, struct ast_channel *transferer,
const char *exten, const char *context)
{
RAII_VAR(struct ast_bridge_channel *, transferer_bridge_channel, NULL, ao2_cleanup);
struct ast_exten *parking_exten;
ast_channel_lock(transferer);
transferer_bridge_channel = ast_channel_get_bridge_channel(transferer);
ast_channel_unlock(transferer);
if (!transferer_bridge_channel) {
return PARKING_FAILURE;
}
parking_exten = ast_get_parking_exten(exten, NULL, context);
if (parking_exten) {
return ast_park_blind_xfer(bridge, transferer_bridge_channel, parking_exten) == 0 ?
PARKING_SUCCESS : PARKING_FAILURE;
}
return PARKING_NOT_APPLICABLE;
}
/*!
* \internal
* \brief Set the BLINDTRANSFER variable as appropriate on channels involved in the transfer
*
* The transferer channel will have its BLINDTRANSFER variable set the same as its BRIDGEPEER
* variable. This will account for all channels that it is bridged to. The other channels
* involved in the transfer will have their BLINDTRANSFER variable set to the transferer
* channel's name.
*
* \param transferer The channel performing the blind transfer
* \param channels The channels belonging to the bridge
*/
static void set_blind_transfer_variables(struct ast_channel *transferer, struct ao2_container *channels)
{
struct ao2_iterator iter;
struct ast_channel *chan;
const char *transferer_name;
const char *transferer_bridgepeer;
ast_channel_lock(transferer);
transferer_name = ast_strdupa(ast_channel_name(transferer));
transferer_bridgepeer = ast_strdupa(S_OR(pbx_builtin_getvar_helper(transferer, "BRIDGEPEER"), ""));
ast_channel_unlock(transferer);
for (iter = ao2_iterator_init(channels, 0);
(chan = ao2_iterator_next(&iter));
ao2_cleanup(chan)) {
if (chan == transferer) {
pbx_builtin_setvar_helper(chan, "BLINDTRANSFER", transferer_bridgepeer);
} else {
pbx_builtin_setvar_helper(chan, "BLINDTRANSFER", transferer_name);
}
}
ao2_iterator_destroy(&iter);
}
static struct ast_bridge *acquire_bridge(struct ast_channel *chan)
{
struct ast_bridge *bridge;
ast_channel_lock(chan);
bridge = ast_channel_get_bridge(chan);
ast_channel_unlock(chan);
if (bridge
&& ast_test_flag(&bridge->feature_flags, AST_BRIDGE_FLAG_MASQUERADE_ONLY)) {
ao2_ref(bridge, -1);
bridge = NULL;
}
return bridge;
}
static void publish_blind_transfer(int is_external, enum ast_transfer_result result,
struct ast_channel *transferer, struct ast_bridge *bridge,
const char *context, const char *exten)
{
struct ast_bridge_channel_pair pair;
pair.channel = transferer;
pair.bridge = bridge;
ast_bridge_publish_blind_transfer(is_external, result, &pair, context, exten);
}
enum ast_transfer_result ast_bridge_transfer_blind(int is_external,
struct ast_channel *transferer, const char *exten, const char *context,
transfer_channel_cb new_channel_cb, void *user_data)
{
RAII_VAR(struct ast_bridge *, bridge, NULL, ao2_cleanup);
RAII_VAR(struct ast_bridge_channel *, bridge_channel, NULL, ao2_cleanup);
RAII_VAR(struct ao2_container *, channels, NULL, ao2_cleanup);
RAII_VAR(struct ast_channel *, transferee, NULL, ao2_cleanup);
int do_bridge_transfer;
int transfer_prohibited;
enum try_parking_result parking_result;
enum ast_transfer_result transfer_result;
bridge = acquire_bridge(transferer);
if (!bridge) {
transfer_result = AST_BRIDGE_TRANSFER_INVALID;
goto publish;
}
ast_channel_lock(transferer);
bridge_channel = ast_channel_get_bridge_channel(transferer);
ast_channel_unlock(transferer);
if (!bridge_channel) {
transfer_result = AST_BRIDGE_TRANSFER_INVALID;
goto publish;
}
/* Take off hold if they are on hold. */
ast_bridge_channel_write_unhold(bridge_channel);
parking_result = try_parking(bridge, transferer, exten, context);
switch (parking_result) {
case PARKING_SUCCESS:
transfer_result = AST_BRIDGE_TRANSFER_SUCCESS;
goto publish;
case PARKING_FAILURE:
transfer_result = AST_BRIDGE_TRANSFER_FAIL;
goto publish;
case PARKING_NOT_APPLICABLE:
default:
break;
}
{
SCOPED_LOCK(lock, bridge, ast_bridge_lock, ast_bridge_unlock);
channels = ast_bridge_peers_nolock(bridge);
if (!channels) {
transfer_result = AST_BRIDGE_TRANSFER_FAIL;
goto publish;
}
if (ao2_container_count(channels) <= 1) {
transfer_result = AST_BRIDGE_TRANSFER_INVALID;
goto publish;
}
transfer_prohibited = ast_test_flag(&bridge->feature_flags,
AST_BRIDGE_FLAG_TRANSFER_PROHIBITED);
do_bridge_transfer = ast_test_flag(&bridge->feature_flags,
AST_BRIDGE_FLAG_TRANSFER_BRIDGE_ONLY) ||
ao2_container_count(channels) > 2;
}
if (transfer_prohibited) {
transfer_result = AST_BRIDGE_TRANSFER_NOT_PERMITTED;
goto publish;
}
set_blind_transfer_variables(transferer, channels);
if (do_bridge_transfer) {
transfer_result = blind_transfer_bridge(transferer, bridge, exten, context,
new_channel_cb, user_data);
goto publish;
}
/* Reaching this portion means that we're dealing with a two-party bridge */
transferee = get_transferee(channels, transferer);
if (!transferee) {
transfer_result = AST_BRIDGE_TRANSFER_FAIL;
goto publish;
}
if (bridge_channel_internal_queue_blind_transfer(transferee, exten, context,
new_channel_cb, user_data)) {
transfer_result = AST_BRIDGE_TRANSFER_FAIL;
goto publish;
}
ast_bridge_remove(bridge, transferer);
transfer_result = AST_BRIDGE_TRANSFER_SUCCESS;
publish:
publish_blind_transfer(is_external, transfer_result, transferer, bridge, context, exten);
return transfer_result;
}
/*!
* \internal
* \brief Performs an attended transfer by moving a channel from one bridge to another
*
* The channel that is bridged to the source_channel is moved into the dest_bridge from
* the source_bridge_channel's bridge. The swap_channel is swapped out of the dest_bridge and placed in
* the source_bridge_channel's bridge.
*
* \note dest_bridge and source_bridge_channel's bridge MUST be locked before calling this function.
*
* \param dest_bridge The final bridge for the attended transfer
* \param source_channel Channel who is bridged to the channel that will move
* \param swap_channel Channel to be swapped out of the dest_bridge
* \return The success or failure of the swap attempt
*/
static enum ast_transfer_result bridge_swap_attended_transfer(struct ast_bridge *dest_bridge,
struct ast_bridge_channel *source_bridge_channel, struct ast_channel *swap_channel)
{
struct ast_bridge_channel *bridged_to_source;
bridged_to_source = ast_bridge_channel_peer(source_bridge_channel);
if (bridged_to_source
&& bridged_to_source->state == BRIDGE_CHANNEL_STATE_WAIT
&& !ast_test_flag(&bridged_to_source->features->feature_flags,
AST_BRIDGE_CHANNEL_FLAG_IMMOVABLE)) {
bridged_to_source->swap = swap_channel;
if (bridge_do_move(dest_bridge, bridged_to_source, 1, 0)) {
return AST_BRIDGE_TRANSFER_FAIL;
}
/* Must kick the source channel out of its bridge. */
ast_bridge_channel_leave_bridge(source_bridge_channel, BRIDGE_CHANNEL_STATE_END_NO_DISSOLVE);
return AST_BRIDGE_TRANSFER_SUCCESS;
} else {
return AST_BRIDGE_TRANSFER_INVALID;
}
}
/*!
* \internal
* \brief Function that performs an attended transfer when both transferer channels are bridged
*
* The method by which the transfer is performed is dependent on whether the bridges allow for
* optimization to occur between them. If no optimization is permitted, then an unreal channel
* is placed as a link between the two bridges. If optimization is permitted, then that means
* we are free to perform move or merge operations in order to perform the transfer.
*
* \note to_transferee_bridge and to_target_bridge MUST be locked before calling this function
*
* \param to_transferee The channel that is bridged to the transferee
* \param to_transferee_bridge_channel to_transferee's bridge_channel
* \param to_transfer_target The channel that is bridged to the transfer target
* \param to_target_bridge_channel to_transfer_target's bridge_channel
* \param to_transferee_bridge The bridge between to_transferee and the transferee
* \param to_target_bridge The bridge between to_transfer_target and the transfer_target
* \param publication Data to publish for a stasis attended transfer message
* \return The success or failure of the attended transfer
*/
static enum ast_transfer_result two_bridge_attended_transfer(struct ast_channel *to_transferee,
struct ast_bridge_channel *to_transferee_bridge_channel,
struct ast_channel *to_transfer_target,
struct ast_bridge_channel *to_target_bridge_channel,
struct ast_bridge *to_transferee_bridge, struct ast_bridge *to_target_bridge,
struct stasis_attended_transfer_publish_data *publication)
{
struct ast_bridge_channel *kick_me[] = {
to_transferee_bridge_channel,
to_target_bridge_channel,
};
enum ast_transfer_result res;
struct ast_bridge *final_bridge = NULL;
switch (ast_bridges_allow_optimization(to_transferee_bridge, to_target_bridge)) {
case AST_BRIDGE_OPTIMIZE_SWAP_TO_CHAN_BRIDGE:
final_bridge = to_transferee_bridge;
res = bridge_swap_attended_transfer(to_transferee_bridge, to_target_bridge_channel, to_transferee);
goto end;
case AST_BRIDGE_OPTIMIZE_SWAP_TO_PEER_BRIDGE:
final_bridge = to_target_bridge;
res = bridge_swap_attended_transfer(to_target_bridge, to_transferee_bridge_channel, to_transfer_target);
goto end;
case AST_BRIDGE_OPTIMIZE_MERGE_TO_CHAN_BRIDGE:
final_bridge = to_transferee_bridge;
bridge_do_merge(to_transferee_bridge, to_target_bridge, kick_me, ARRAY_LEN(kick_me), 0);
res = AST_BRIDGE_TRANSFER_SUCCESS;
goto end;
case AST_BRIDGE_OPTIMIZE_MERGE_TO_PEER_BRIDGE:
final_bridge = to_target_bridge;
bridge_do_merge(to_target_bridge, to_transferee_bridge, kick_me, ARRAY_LEN(kick_me), 0);
res = AST_BRIDGE_TRANSFER_SUCCESS;
goto end;
case AST_BRIDGE_OPTIMIZE_PROHIBITED:
default:
/* Just because optimization wasn't doable doesn't necessarily mean
* that we can actually perform the transfer. Some reasons for non-optimization
* indicate bridge invalidity, so let's check those before proceeding.
*/
if (to_transferee_bridge->inhibit_merge || to_transferee_bridge->dissolved ||
to_target_bridge->inhibit_merge || to_target_bridge->dissolved) {
res = AST_BRIDGE_TRANSFER_INVALID;
goto end;
}
/* Don't goto end here. attended_transfer_bridge will publish its own
* stasis message if it succeeds
*/
return attended_transfer_bridge(to_transferee, to_transfer_target,
to_transferee_bridge, to_target_bridge, publication);
}
end:
if (res == AST_BRIDGE_TRANSFER_SUCCESS) {
publish_attended_transfer_bridge_merge(publication, final_bridge);
}
return res;
}
enum ast_transfer_result ast_bridge_transfer_attended(struct ast_channel *to_transferee,
struct ast_channel *to_transfer_target)
{
RAII_VAR(struct ast_bridge *, to_transferee_bridge, NULL, ao2_cleanup);
RAII_VAR(struct ast_bridge *, to_target_bridge, NULL, ao2_cleanup);
RAII_VAR(struct ast_bridge_channel *, to_transferee_bridge_channel, NULL, ao2_cleanup);
RAII_VAR(struct ast_bridge_channel *, to_target_bridge_channel, NULL, ao2_cleanup);
RAII_VAR(struct ao2_container *, channels, NULL, ao2_cleanup);
RAII_VAR(struct ast_channel *, transferee, NULL, ao2_cleanup);
struct ast_bridge *the_bridge;
struct ast_channel *chan_bridged;
struct ast_channel *chan_unbridged;
int transfer_prohibited;
int do_bridge_transfer;
enum ast_transfer_result res;
const char *app = NULL;
struct stasis_attended_transfer_publish_data publication;
to_transferee_bridge = acquire_bridge(to_transferee);
to_target_bridge = acquire_bridge(to_transfer_target);
stasis_publish_data_init(to_transferee, to_transferee_bridge,
to_transfer_target, to_target_bridge, &publication);
/* They can't both be unbridged, you silly goose! */
if (!to_transferee_bridge && !to_target_bridge) {
res = AST_BRIDGE_TRANSFER_INVALID;
goto end;
}
ast_channel_lock(to_transferee);
to_transferee_bridge_channel = ast_channel_get_bridge_channel(to_transferee);
ast_channel_unlock(to_transferee);
ast_channel_lock(to_transfer_target);
to_target_bridge_channel = ast_channel_get_bridge_channel(to_transfer_target);
ast_channel_unlock(to_transfer_target);
if (to_transferee_bridge_channel) {
/* Take off hold if they are on hold. */
ast_bridge_channel_write_unhold(to_transferee_bridge_channel);
}
if (to_target_bridge_channel) {
const char *target_complete_sound;
/* Take off hold if they are on hold. */
ast_bridge_channel_write_unhold(to_target_bridge_channel);
/* Is there a courtesy sound to play to the target? */
ast_channel_lock(to_transfer_target);
target_complete_sound = pbx_builtin_getvar_helper(to_transfer_target,
"ATTENDED_TRANSFER_COMPLETE_SOUND");
if (!ast_strlen_zero(target_complete_sound)) {
target_complete_sound = ast_strdupa(target_complete_sound);
} else {
target_complete_sound = NULL;
}
ast_channel_unlock(to_transfer_target);
if (!target_complete_sound) {
ast_channel_lock(to_transferee);
target_complete_sound = pbx_builtin_getvar_helper(to_transferee,
"ATTENDED_TRANSFER_COMPLETE_SOUND");
if (!ast_strlen_zero(target_complete_sound)) {
target_complete_sound = ast_strdupa(target_complete_sound);
} else {
target_complete_sound = NULL;
}
ast_channel_unlock(to_transferee);
}
if (target_complete_sound) {
ast_bridge_channel_write_playfile(to_target_bridge_channel, NULL,
target_complete_sound, NULL);
}
}
/* Let's get the easy one out of the way first */
if (to_transferee_bridge && to_target_bridge) {
if (!to_transferee_bridge_channel || !to_target_bridge_channel) {
res = AST_BRIDGE_TRANSFER_INVALID;
goto end;
}
ast_bridge_lock_both(to_transferee_bridge, to_target_bridge);
res = two_bridge_attended_transfer(to_transferee, to_transferee_bridge_channel,
to_transfer_target, to_target_bridge_channel,
to_transferee_bridge, to_target_bridge, &publication);
ast_bridge_unlock(to_transferee_bridge);
ast_bridge_unlock(to_target_bridge);
goto end;
}
the_bridge = to_transferee_bridge ?: to_target_bridge;
chan_bridged = to_transferee_bridge ? to_transferee : to_transfer_target;
chan_unbridged = to_transferee_bridge ? to_transfer_target : to_transferee;
{
int chan_count;
SCOPED_LOCK(lock, the_bridge, ast_bridge_lock, ast_bridge_unlock);
channels = ast_bridge_peers_nolock(the_bridge);
if (!channels) {
res = AST_BRIDGE_TRANSFER_FAIL;
goto end;
}
chan_count = ao2_container_count(channels);
if (chan_count <= 1) {
res = AST_BRIDGE_TRANSFER_INVALID;
goto end;
}
transfer_prohibited = ast_test_flag(&the_bridge->feature_flags,
AST_BRIDGE_FLAG_TRANSFER_PROHIBITED);
do_bridge_transfer = ast_test_flag(&the_bridge->feature_flags,
AST_BRIDGE_FLAG_TRANSFER_BRIDGE_ONLY) ||
chan_count > 2;
}
if (transfer_prohibited) {
res = AST_BRIDGE_TRANSFER_NOT_PERMITTED;
goto end;
}
if (do_bridge_transfer) {
res = attended_transfer_bridge(chan_bridged, chan_unbridged, the_bridge, NULL, &publication);
goto end;
}
transferee = get_transferee(channels, chan_bridged);
if (!transferee) {
res = AST_BRIDGE_TRANSFER_FAIL;
goto end;
}
app = ast_strdupa(ast_channel_appl(chan_unbridged));
if (bridge_channel_internal_queue_attended_transfer(transferee, chan_unbridged)) {
res = AST_BRIDGE_TRANSFER_FAIL;
goto end;
}
ast_bridge_remove(the_bridge, chan_bridged);
publish_attended_transfer_app(&publication, app);
return AST_BRIDGE_TRANSFER_SUCCESS;
end:
/* All successful transfer paths have published an appropriate stasis message.
* All failure paths have deferred publishing a stasis message until this point
*/
if (res != AST_BRIDGE_TRANSFER_SUCCESS) {
publish_attended_transfer_fail(&publication, res);
}
stasis_publish_data_cleanup(&publication);
return res;
}
/*!
* \internal
* \brief Service the bridge manager request.
* \since 12.0.0
*
* \param bridge requesting service.
*
* \return Nothing
*/
static void bridge_manager_service(struct ast_bridge *bridge)
{
ast_bridge_lock(bridge);
if (bridge->callid) {
ast_callid_threadassoc_change(bridge->callid);
}
/* Do any pending bridge actions. */
bridge_handle_actions(bridge);
ast_bridge_unlock(bridge);
}
/*!
* \internal
* \brief Bridge manager service thread.
* \since 12.0.0
*
* \return Nothing
*/
static void *bridge_manager_thread(void *data)
{
struct bridge_manager_controller *manager = data;
struct bridge_manager_request *request;
ao2_lock(manager);
while (!manager->stop) {
request = AST_LIST_REMOVE_HEAD(&manager->service_requests, node);
if (!request) {
ast_cond_wait(&manager->cond, ao2_object_get_lockaddr(manager));
continue;
}
ao2_unlock(manager);
/* Service the bridge. */
bridge_manager_service(request->bridge);
ao2_ref(request->bridge, -1);
ast_free(request);
ao2_lock(manager);
}
ao2_unlock(manager);
return NULL;
}
/*!
* \internal
* \brief Destroy the bridge manager controller.
* \since 12.0.0
*
* \param obj Bridge manager to destroy.
*
* \return Nothing
*/
static void bridge_manager_destroy(void *obj)
{
struct bridge_manager_controller *manager = obj;
struct bridge_manager_request *request;
if (manager->thread != AST_PTHREADT_NULL) {
/* Stop the manager thread. */
ao2_lock(manager);
manager->stop = 1;
ast_cond_signal(&manager->cond);
ao2_unlock(manager);
ast_debug(1, "Waiting for bridge manager thread to die.\n");
pthread_join(manager->thread, NULL);
}
/* Destroy the service request queue. */
while ((request = AST_LIST_REMOVE_HEAD(&manager->service_requests, node))) {
ao2_ref(request->bridge, -1);
ast_free(request);
}
ast_cond_destroy(&manager->cond);
}
/*!
* \internal
* \brief Create the bridge manager controller.
* \since 12.0.0
*
* \retval manager on success.
* \retval NULL on error.
*/
static struct bridge_manager_controller *bridge_manager_create(void)
{
struct bridge_manager_controller *manager;
manager = ao2_alloc(sizeof(*manager), bridge_manager_destroy);
if (!manager) {
/* Well. This isn't good. */
return NULL;
}
ast_cond_init(&manager->cond, NULL);
AST_LIST_HEAD_INIT_NOLOCK(&manager->service_requests);
/* Create the bridge manager thread. */
if (ast_pthread_create(&manager->thread, NULL, bridge_manager_thread, manager)) {
/* Well. This isn't good either. */
manager->thread = AST_PTHREADT_NULL;
ao2_ref(manager, -1);
manager = NULL;
}
return manager;
}
/*!
* \internal
* \brief Bridge ao2 container sort function.
* \since 12.0.0
*
* \param obj_left pointer to the (user-defined part) of an object.
* \param obj_right pointer to the (user-defined part) of an object.
* \param flags flags from ao2_callback()
* OBJ_POINTER - if set, 'obj_right', is an object.
* OBJ_KEY - if set, 'obj_right', is a search key item that is not an object.
* OBJ_PARTIAL_KEY - if set, 'obj_right', is a partial search key item that is not an object.
*
* \retval <0 if obj_left < obj_right
* \retval =0 if obj_left == obj_right
* \retval >0 if obj_left > obj_right
*/
static int bridge_sort_cmp(const void *obj_left, const void *obj_right, int flags)
{
const struct ast_bridge *bridge_left = obj_left;
const struct ast_bridge *bridge_right = obj_right;
const char *right_key = obj_right;
int cmp;
switch (flags & (OBJ_POINTER | OBJ_KEY | OBJ_PARTIAL_KEY)) {
default:
case OBJ_POINTER:
right_key = bridge_right->uniqueid;
/* Fall through */
case OBJ_KEY:
cmp = strcmp(bridge_left->uniqueid, right_key);
break;
case OBJ_PARTIAL_KEY:
cmp = strncmp(bridge_left->uniqueid, right_key, strlen(right_key));
break;
}
return cmp;
}
static char *complete_bridge(const char *word, int state)
{
char *ret = NULL;
int wordlen = strlen(word), which = 0;
RAII_VAR(struct ao2_container *, cached_bridges, NULL, ao2_cleanup);
struct ao2_iterator iter;
struct stasis_message *msg;
if (!(cached_bridges = stasis_cache_dump(ast_bridge_topic_all_cached(), ast_bridge_snapshot_type()))) {
return NULL;
}
iter = ao2_iterator_init(cached_bridges, 0);
for (; (msg = ao2_iterator_next(&iter)); ao2_ref(msg, -1)) {
struct ast_bridge_snapshot *snapshot = stasis_message_data(msg);
if (!strncasecmp(word, snapshot->uniqueid, wordlen) && (++which > state)) {
ret = ast_strdup(snapshot->uniqueid);
break;
}
}
ao2_iterator_destroy(&iter);
return ret;
}
static char *handle_bridge_show_all(struct ast_cli_entry *e, int cmd, struct ast_cli_args *a)
{
#define FORMAT_HDR "%-36s %5s %-15s %s\n"
#define FORMAT_ROW "%-36s %5u %-15s %s\n"
RAII_VAR(struct ao2_container *, cached_bridges, NULL, ao2_cleanup);
struct ao2_iterator iter;
struct stasis_message *msg;
switch (cmd) {
case CLI_INIT:
e->command = "bridge show all";
e->usage =
"Usage: bridge show all\n"
" List all bridges\n";
return NULL;
case CLI_GENERATE:
return NULL;
}
if (!(cached_bridges = stasis_cache_dump(ast_bridge_topic_all_cached(), ast_bridge_snapshot_type()))) {
ast_cli(a->fd, "Failed to retrieve cached bridges\n");
return CLI_SUCCESS;
}
ast_cli(a->fd, FORMAT_HDR, "Bridge-ID", "Chans", "Type", "Technology");
iter = ao2_iterator_init(cached_bridges, 0);
for (; (msg = ao2_iterator_next(&iter)); ao2_ref(msg, -1)) {
struct ast_bridge_snapshot *snapshot = stasis_message_data(msg);
ast_cli(a->fd, FORMAT_ROW,
snapshot->uniqueid,
snapshot->num_channels,
S_OR(snapshot->subclass, "<unknown>"),
S_OR(snapshot->technology, "<unknown>"));
}
ao2_iterator_destroy(&iter);
return CLI_SUCCESS;
#undef FORMAT_HDR
#undef FORMAT_ROW
}
/*! \brief Internal callback function for sending channels in a bridge to the CLI */
static int bridge_show_specific_print_channel(void *obj, void *arg, int flags)
{
const char *uniqueid = obj;
struct ast_cli_args *a = arg;
RAII_VAR(struct stasis_message *, msg, NULL, ao2_cleanup);
struct ast_channel_snapshot *snapshot;
if (!(msg = stasis_cache_get(ast_channel_topic_all_cached(), ast_channel_snapshot_type(), uniqueid))) {
return 0;
}
snapshot = stasis_message_data(msg);
ast_cli(a->fd, "Channel: %s\n", snapshot->name);
return 0;
}
static char *handle_bridge_show_specific(struct ast_cli_entry *e, int cmd, struct ast_cli_args *a)
{
RAII_VAR(struct stasis_message *, msg, NULL, ao2_cleanup);
struct ast_bridge_snapshot *snapshot;
switch (cmd) {
case CLI_INIT:
e->command = "bridge show";
e->usage =
"Usage: bridge show <bridge-id>\n"
" Show information about the <bridge-id> bridge\n";
return NULL;
case CLI_GENERATE:
if (a->pos == 2) {
return complete_bridge(a->word, a->n);
}
return NULL;
}
if (a->argc != 3) {
return CLI_SHOWUSAGE;
}
msg = stasis_cache_get(ast_bridge_topic_all_cached(), ast_bridge_snapshot_type(), a->argv[2]);
if (!msg) {
ast_cli(a->fd, "Bridge '%s' not found\n", a->argv[2]);
return CLI_SUCCESS;
}
snapshot = stasis_message_data(msg);
ast_cli(a->fd, "Id: %s\n", snapshot->uniqueid);
ast_cli(a->fd, "Type: %s\n", S_OR(snapshot->subclass, "<unknown>"));
ast_cli(a->fd, "Technology: %s\n", S_OR(snapshot->technology, "<unknown>"));
ast_cli(a->fd, "Num-Channels: %u\n", snapshot->num_channels);
ao2_callback(snapshot->channels, OBJ_NODATA, bridge_show_specific_print_channel, a);
return CLI_SUCCESS;
}
static char *handle_bridge_destroy_specific(struct ast_cli_entry *e, int cmd, struct ast_cli_args *a)
{
struct ast_bridge *bridge;
switch (cmd) {
case CLI_INIT:
e->command = "bridge destroy";
e->usage =
"Usage: bridge destroy <bridge-id>\n"
" Destroy the <bridge-id> bridge\n";
return NULL;
case CLI_GENERATE:
if (a->pos == 2) {
return complete_bridge(a->word, a->n);
}
return NULL;
}
if (a->argc != 3) {
return CLI_SHOWUSAGE;
}
bridge = ao2_find(bridges, a->argv[2], OBJ_KEY);
if (!bridge) {
ast_cli(a->fd, "Bridge '%s' not found\n", a->argv[2]);
return CLI_SUCCESS;
}
ast_cli(a->fd, "Destroying bridge '%s'\n", a->argv[2]);
ast_bridge_destroy(bridge);
return CLI_SUCCESS;
}
static char *complete_bridge_participant(const char *bridge_name, const char *line, const char *word, int pos, int state)
{
RAII_VAR(struct ast_bridge *, bridge, NULL, ao2_cleanup);
struct ast_bridge_channel *bridge_channel;
int which;
int wordlen;
bridge = ao2_find(bridges, bridge_name, OBJ_KEY);
if (!bridge) {
return NULL;
}
{
SCOPED_LOCK(bridge_lock, bridge, ast_bridge_lock, ast_bridge_unlock);
which = 0;
wordlen = strlen(word);
AST_LIST_TRAVERSE(&bridge->channels, bridge_channel, entry) {
if (!strncasecmp(ast_channel_name(bridge_channel->chan), word, wordlen)
&& ++which > state) {
return ast_strdup(ast_channel_name(bridge_channel->chan));
}
}
}
return NULL;
}
static char *handle_bridge_kick_channel(struct ast_cli_entry *e, int cmd, struct ast_cli_args *a)
{
RAII_VAR(struct ast_bridge *, bridge, NULL, ao2_cleanup);
RAII_VAR(struct ast_channel *, chan, NULL, ao2_cleanup);
switch (cmd) {
case CLI_INIT:
e->command = "bridge kick";
e->usage =
"Usage: bridge kick <bridge-id> <channel-name>\n"
" Kick the <channel-name> channel out of the <bridge-id> bridge\n";
return NULL;
case CLI_GENERATE:
if (a->pos == 2) {
return complete_bridge(a->word, a->n);
}
if (a->pos == 3) {
return complete_bridge_participant(a->argv[2], a->line, a->word, a->pos, a->n);
}
return NULL;
}
if (a->argc != 4) {
return CLI_SHOWUSAGE;
}
bridge = ao2_find(bridges, a->argv[2], OBJ_KEY);
if (!bridge) {
ast_cli(a->fd, "Bridge '%s' not found\n", a->argv[2]);
return CLI_SUCCESS;
}
chan = ast_channel_get_by_name_prefix(a->argv[3], strlen(a->argv[3]));
if (!chan) {
ast_cli(a->fd, "Channel '%s' not found\n", a->argv[3]);
return CLI_SUCCESS;
}
/*
* BUGBUG the CLI kick needs to get the bridge to decide if it should dissolve.
*
* Likely the best way to do this is to add a kick method. The
* basic bridge class can then decide to dissolve the bridge if
* one of two channels is kicked.
*
* SIP/foo -- Local;1==Local;2 -- .... -- Local;1==Local;2 -- SIP/bar
* Kick a ;1 channel and the chain toward SIP/foo goes away.
* Kick a ;2 channel and the chain toward SIP/bar goes away.
*
* This can leave a local channel chain between the kicked ;1
* and ;2 channels that are orphaned until you manually request
* one of those channels to hangup or request the bridge to
* dissolve.
*/
ast_cli(a->fd, "Kicking channel '%s' from bridge '%s'\n",
ast_channel_name(chan), a->argv[2]);
ast_bridge_remove(bridge, chan);
return CLI_SUCCESS;
}
/*! Bridge technology capabilities to string. */
static const char *tech_capability2str(uint32_t capabilities)
{
const char *type;
if (capabilities & AST_BRIDGE_CAPABILITY_HOLDING) {
type = "Holding";
} else if (capabilities & AST_BRIDGE_CAPABILITY_EARLY) {
type = "Early";
} else if (capabilities & AST_BRIDGE_CAPABILITY_NATIVE) {
type = "Native";
} else if (capabilities & AST_BRIDGE_CAPABILITY_1TO1MIX) {
type = "1to1Mix";
} else if (capabilities & AST_BRIDGE_CAPABILITY_MULTIMIX) {
type = "MultiMix";
} else {
type = "<Unknown>";
}
return type;
}
static char *handle_bridge_technology_show(struct ast_cli_entry *e, int cmd, struct ast_cli_args *a)
{
#define FORMAT_HDR "%-20s %-20s %8s %s\n"
#define FORMAT_ROW "%-20s %-20s %8d %s\n"
struct ast_bridge_technology *cur;
switch (cmd) {
case CLI_INIT:
e->command = "bridge technology show";
e->usage =
"Usage: bridge technology show\n"
" List registered bridge technologies\n";
return NULL;
case CLI_GENERATE:
return NULL;
}
ast_cli(a->fd, FORMAT_HDR, "Name", "Type", "Priority", "Suspended");
AST_RWLIST_RDLOCK(&bridge_technologies);
AST_RWLIST_TRAVERSE(&bridge_technologies, cur, entry) {
const char *type;
/* Decode type for display */
type = tech_capability2str(cur->capabilities);
ast_cli(a->fd, FORMAT_ROW, cur->name, type, cur->preference,
AST_CLI_YESNO(cur->suspended));
}
AST_RWLIST_UNLOCK(&bridge_technologies);
return CLI_SUCCESS;
#undef FORMAT
}
static char *complete_bridge_technology(const char *word, int state)
{
struct ast_bridge_technology *cur;
char *res;
int which;
int wordlen;
which = 0;
wordlen = strlen(word);
AST_RWLIST_RDLOCK(&bridge_technologies);
AST_RWLIST_TRAVERSE(&bridge_technologies, cur, entry) {
if (!strncasecmp(cur->name, word, wordlen) && ++which > state) {
res = ast_strdup(cur->name);
AST_RWLIST_UNLOCK(&bridge_technologies);
return res;
}
}
AST_RWLIST_UNLOCK(&bridge_technologies);
return NULL;
}
static char *handle_bridge_technology_suspend(struct ast_cli_entry *e, int cmd, struct ast_cli_args *a)
{
struct ast_bridge_technology *cur;
int suspend;
int successful;
switch (cmd) {
case CLI_INIT:
e->command = "bridge technology {suspend|unsuspend}";
e->usage =
"Usage: bridge technology {suspend|unsuspend} <technology-name>\n"
" Suspend or unsuspend a bridge technology.\n";
return NULL;
case CLI_GENERATE:
if (a->pos == 3) {
return complete_bridge_technology(a->word, a->n);
}
return NULL;
}
if (a->argc != 4) {
return CLI_SHOWUSAGE;
}
suspend = !strcasecmp(a->argv[2], "suspend");
successful = 0;
AST_RWLIST_WRLOCK(&bridge_technologies);
AST_RWLIST_TRAVERSE(&bridge_technologies, cur, entry) {
if (!strcasecmp(cur->name, a->argv[3])) {
successful = 1;
if (suspend) {
ast_bridge_technology_suspend(cur);
} else {
ast_bridge_technology_unsuspend(cur);
}
break;
}
}
AST_RWLIST_UNLOCK(&bridge_technologies);
if (successful) {
if (suspend) {
ast_cli(a->fd, "Suspended bridge technology '%s'\n", a->argv[3]);
} else {
ast_cli(a->fd, "Unsuspended bridge technology '%s'\n", a->argv[3]);
}
} else {
ast_cli(a->fd, "Bridge technology '%s' not found\n", a->argv[3]);
}
return CLI_SUCCESS;
}
static struct ast_cli_entry bridge_cli[] = {
AST_CLI_DEFINE(handle_bridge_show_all, "List all bridges"),
AST_CLI_DEFINE(handle_bridge_show_specific, "Show information about a bridge"),
AST_CLI_DEFINE(handle_bridge_destroy_specific, "Destroy a bridge"),
AST_CLI_DEFINE(handle_bridge_kick_channel, "Kick a channel from a bridge"),
AST_CLI_DEFINE(handle_bridge_technology_show, "List registered bridge technologies"),
AST_CLI_DEFINE(handle_bridge_technology_suspend, "Suspend/unsuspend a bridge technology"),
};
/*!
* \internal
* \brief Shutdown the bridging system.
* \since 12.0.0
*
* \return Nothing
*/
static void bridge_shutdown(void)
{
ast_cli_unregister_multiple(bridge_cli, ARRAY_LEN(bridge_cli));
ao2_cleanup(bridges);
bridges = NULL;
ao2_cleanup(bridge_manager);
bridge_manager = NULL;
}
int ast_bridging_init(void)
{
ast_register_atexit(bridge_shutdown);
if (ast_stasis_bridging_init()) {
return -1;
}
bridge_manager = bridge_manager_create();
if (!bridge_manager) {
return -1;
}
bridges = ao2_container_alloc_rbtree(AO2_ALLOC_OPT_LOCK_MUTEX,
AO2_CONTAINER_ALLOC_OPT_DUPS_REPLACE, bridge_sort_cmp, NULL);
if (!bridges) {
return -1;
}
ast_bridging_init_basic();
/* BUGBUG need AMI action equivalents to the CLI commands. */
ast_cli_register_multiple(bridge_cli, ARRAY_LEN(bridge_cli));
return 0;
}
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