/* * Asterisk -- An open source telephony toolkit. * * Copyright (C) 2007 - 2009, 2013 Digium, Inc. * * Richard Mudgett * Joshua Colp * * 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 Richard Mudgett * \author Joshua Colp * \ref AstBridging * * See Also: * \arg \ref AstCREDITS */ /*! * \page AstBridging Bridging API * * The purpose of this API is to provide an easy and flexible way to bridge * channels of different technologies with different features. * * Bridging technologies provide the mechanism that do the actual handling * of frames between channels. They provide capability information, codec information, * and preference value to assist the bridging core in choosing a bridging technology when * creating a bridge. Different bridges may use different bridging technologies based on needs * but once chosen they all operate under the same premise; they receive frames and send frames. * * Bridges are a combination of bridging technology, channels, and features. A * developer creates a new bridge based on what they are currently expecting to do * with it or what they will do with it in the future. The bridging core determines what * available bridging technology will best fit the requirements and creates a new bridge. * Once created, channels can be added to the bridge in a blocking or non-blocking fashion. * * Features are such things as channel muting or DTMF based features such as attended transfer, * blind transfer, and hangup. Feature information must be set at the most granular level, on * the channel. While you can use features on a global scope the presence of a feature structure * on the channel will override the global scope. An example would be having the bridge muted * at global scope and attended transfer enabled on a channel. Since the channel itself is not muted * it would be able to speak. * * Feature hooks allow a developer to tell the bridging core that when a DTMF string * is received from a channel a callback should be called in their application. For * example, a conference bridge application may want to provide an IVR to control various * settings on the conference bridge. This can be accomplished by attaching a feature hook * that calls an IVR function when a DTMF string is entered. * */ #ifndef _ASTERISK_BRIDGING_H #define _ASTERISK_BRIDGING_H #if defined(__cplusplus) || defined(c_plusplus) extern "C" { #endif #include "asterisk/bridge_features.h" #include "asterisk/bridge_channel.h" #include "asterisk/bridge_roles.h" #include "asterisk/dsp.h" #include "asterisk/uuid.h" struct ast_bridge_technology; struct ast_bridge; struct ast_bridge_tech_optimizations; /*! \brief Capabilities for a bridge technology */ enum ast_bridge_capability { /*! Bridge technology can service calls on hold. */ AST_BRIDGE_CAPABILITY_HOLDING = (1 << 0), /*! Bridge waits for channel to answer. Passes early media. (XXX Not supported yet) */ AST_BRIDGE_CAPABILITY_EARLY = (1 << 1), /*! Bridge is capable of natively bridging two channels. (Smart bridge only) */ AST_BRIDGE_CAPABILITY_NATIVE = (1 << 2), /*! Bridge is capable of mixing at most two channels. (Smart bridgeable) */ AST_BRIDGE_CAPABILITY_1TO1MIX = (1 << 3), /*! Bridge is capable of mixing an arbitrary number of channels. (Smart bridgeable) */ AST_BRIDGE_CAPABILITY_MULTIMIX = (1 << 4), }; /*! \brief Video source modes */ enum ast_bridge_video_mode_type { /*! Video is not allowed in the bridge */ AST_BRIDGE_VIDEO_MODE_NONE = 0, /*! A single user is picked as the only distributed of video across the bridge */ AST_BRIDGE_VIDEO_MODE_SINGLE_SRC, /*! A single user's video feed is distributed to all bridge channels, but * that feed is automatically picked based on who is talking the most. */ AST_BRIDGE_VIDEO_MODE_TALKER_SRC, /*! Operate as a selective forwarding unit. Video from each participant is * cloned to a dedicated stream on a subset of the remaining participants. */ AST_BRIDGE_VIDEO_MODE_SFU, }; /*! \brief This is used for both SINGLE_SRC mode to set what channel * should be the current single video feed */ struct ast_bridge_video_single_src_data { /*! Only accept video coming from this channel */ struct ast_channel *chan_vsrc; }; /*! \brief This is used for both SINGLE_SRC_TALKER mode to set what channel * should be the current single video feed */ struct ast_bridge_video_talker_src_data { /*! Only accept video coming from this channel */ struct ast_channel *chan_vsrc; int average_talking_energy; /*! Current talker see's this person */ struct ast_channel *chan_old_vsrc; }; /*! \brief Data structure that defines a video source mode */ struct ast_bridge_video_mode { enum ast_bridge_video_mode_type mode; /* Add data for all the video modes here. */ union { struct ast_bridge_video_single_src_data single_src_data; struct ast_bridge_video_talker_src_data talker_src_data; } mode_data; unsigned int video_update_discard; unsigned int remb_send_interval; }; /*! * \brief Destroy the bridge. * * \param self Bridge to operate upon. * * \return Nothing */ typedef void (*ast_bridge_destructor_fn)(struct ast_bridge *self); /*! * \brief The bridge is being dissolved. * * \param self Bridge to operate upon. * * \details * The bridge is being dissolved. Remove any external * references to the bridge so it can be destroyed. * * \note On entry, self must NOT be locked. * * \return Nothing */ typedef void (*ast_bridge_dissolving_fn)(struct ast_bridge *self); /*! * \brief Push this channel into the bridge. * * \param self Bridge to operate upon. * \param bridge_channel Bridge channel to push. * \param swap Bridge channel to swap places with if not NULL. * * \details * Setup any channel hooks controlled by the bridge. Allocate * bridge_channel->bridge_pvt and initialize any resources put * in bridge_channel->bridge_pvt if needed. If there is a swap * channel, use it as a guide to setting up the bridge_channel. * * \note On entry, self is already locked. * * \retval 0 on success. * \retval -1 on failure. The channel did not get pushed. */ typedef int (*ast_bridge_push_channel_fn)(struct ast_bridge *self, struct ast_bridge_channel *bridge_channel, struct ast_bridge_channel *swap); /*! * \brief Pull this channel from the bridge. * * \param self Bridge to operate upon. * \param bridge_channel Bridge channel to pull. * * \details * Remove any channel hooks controlled by the bridge. Release * any resources held by bridge_channel->bridge_pvt and release * bridge_channel->bridge_pvt. * * \note On entry, self is already locked. * * \return Nothing */ typedef void (*ast_bridge_pull_channel_fn)(struct ast_bridge *self, struct ast_bridge_channel *bridge_channel); /*! * \brief Notify the bridge that this channel was just masqueraded. * * \param self Bridge to operate upon. * \param bridge_channel Bridge channel that was masqueraded. * * \details * A masquerade just happened to this channel. The bridge needs * to re-evaluate this a channel in the bridge. * * \note On entry, self is already locked. * * \return Nothing */ typedef void (*ast_bridge_notify_masquerade_fn)(struct ast_bridge *self, struct ast_bridge_channel *bridge_channel); /*! * \brief Get the merge priority of this bridge. * * \param self Bridge to operate upon. * * \note On entry, self is already locked. * * \return Merge priority */ typedef int (*ast_bridge_merge_priority_fn)(struct ast_bridge *self); /*! * \brief Bridge virtual methods table definition. * * \note Any changes to this struct must be reflected in * bridge_alloc() validity checking. */ struct ast_bridge_methods { /*! Bridge class name for log messages. */ const char *name; /*! Destroy the bridge. */ ast_bridge_destructor_fn destroy; /*! The bridge is being dissolved. Remove any references to the bridge. */ ast_bridge_dissolving_fn dissolving; /*! Push the bridge channel into the bridge. */ ast_bridge_push_channel_fn push; /*! Pull the bridge channel from the bridge. */ ast_bridge_pull_channel_fn pull; /*! Notify the bridge of a masquerade with the channel. */ ast_bridge_notify_masquerade_fn notify_masquerade; /*! Get the bridge merge priority. */ ast_bridge_merge_priority_fn get_merge_priority; /*! Peek at swap channel before it can hang up, prior to push. */ ast_bridge_push_channel_fn push_peek; }; /*! Softmix technology parameters. */ struct ast_bridge_softmix { /*! The video mode softmix is using */ struct ast_bridge_video_mode video_mode; /*! * \brief The internal sample rate softmix uses to mix channels. * * \note If this value is 0, the sofmix may auto adjust the mixing rate. */ unsigned int internal_sample_rate; /*! * \brief The mixing interval indicates how quickly softmix * mixing should occur to mix audio. * * \note When set to 0, softmix must choose a default interval * for itself. */ unsigned int internal_mixing_interval; /*! TRUE if binaural convolve is activated in configuration. */ unsigned int binaural_active; }; AST_LIST_HEAD_NOLOCK(ast_bridge_channels_list, ast_bridge_channel); /*! * \brief Structure that contains information about a bridge */ struct ast_bridge { /*! Bridge virtual method table. */ const struct ast_bridge_methods *v_table; /*! "Personality" currently exhibited by bridge subclass */ void *personality; /*! Bridge technology that is handling the bridge */ struct ast_bridge_technology *technology; /*! Private information unique to the bridge technology */ void *tech_pvt; /*! Per-bridge topics */ struct stasis_cp_single *topics; /*! Call ID associated with the bridge */ ast_callid callid; /*! Linked list of channels participating in the bridge */ struct ast_bridge_channels_list channels; /*! Queue of actions to perform on the bridge. */ AST_LIST_HEAD_NOLOCK(, ast_frame) action_queue; /*! Softmix technology parameters. */ struct ast_bridge_softmix softmix; /*! Bridge flags to tweak behavior */ struct ast_flags feature_flags; /*! Allowed bridge technology capabilities when AST_BRIDGE_FLAG_SMART enabled. */ uint32_t allowed_capabilities; /*! Number of channels participating in the bridge */ unsigned int num_channels; /*! Number of active channels in the bridge. */ unsigned int num_active; /*! Number of channels with AST_BRIDGE_CHANNEL_FLAG_LONELY in the bridge. */ unsigned int num_lonely; /*! * \brief Count of the active temporary requests to inhibit bridge merges. * Zero if merges are allowed. * * \note Temporary as in try again in a moment. */ unsigned int inhibit_merge; /*! Cause code of the dissolved bridge. */ int cause; /*! TRUE if the bridge was reconfigured. */ unsigned int reconfigured:1; /*! TRUE if the bridge has been dissolved. Any channel that now tries to join is immediately ejected. */ unsigned int dissolved:1; /*! TRUE if the bridge construction was completed. */ unsigned int construction_completed:1; AST_DECLARE_STRING_FIELDS( /*! Immutable name of the creator for the bridge */ AST_STRING_FIELD(creator); /*! Immutable name given to the bridge by its creator */ AST_STRING_FIELD(name); /*! Immutable bridge UUID. */ AST_STRING_FIELD(uniqueid); ); /*! Type mapping used for media routing */ struct ast_vector_int media_types; }; /*! \brief Bridge base class virtual method table. */ extern struct ast_bridge_methods ast_bridge_base_v_table; /*! * \brief Create a new base class bridge * * \param capabilities The capabilities that we require to be used on the bridge * \param flags Flags that will alter the behavior of the bridge * \param creator Entity that created the bridge (optional) * \param name Name given to the bridge by its creator (optional, requires named creator) * \param id Unique ID given to the bridge by its creator (optional) * * \retval a pointer to a new bridge on success * \retval NULL on failure * * Example usage: * * \code * struct ast_bridge *bridge; * bridge = ast_bridge_base_new(AST_BRIDGE_CAPABILITY_1TO1MIX, AST_BRIDGE_FLAG_DISSOLVE_HANGUP); * \endcode * * This creates a no frills two party bridge that will be * destroyed once one of the channels hangs up. */ struct ast_bridge *ast_bridge_base_new(uint32_t capabilities, unsigned int flags, const char *creator, const char *name, const char *id); /*! * \brief Try locking the bridge. * * \param bridge Bridge to try locking * * \retval 0 on success. * \retval non-zero on error. */ #define ast_bridge_trylock(bridge) _ast_bridge_trylock(bridge, __FILE__, __PRETTY_FUNCTION__, __LINE__, #bridge) static inline int _ast_bridge_trylock(struct ast_bridge *bridge, const char *file, const char *function, int line, const char *var) { return __ao2_trylock(bridge, AO2_LOCK_REQ_MUTEX, file, function, line, var); } /*! * \brief Lock the bridge. * * \param bridge Bridge to lock * * \return Nothing */ #define ast_bridge_lock(bridge) _ast_bridge_lock(bridge, __FILE__, __PRETTY_FUNCTION__, __LINE__, #bridge) static inline void _ast_bridge_lock(struct ast_bridge *bridge, const char *file, const char *function, int line, const char *var) { __ao2_lock(bridge, AO2_LOCK_REQ_MUTEX, file, function, line, var); } /*! * \brief Unlock the bridge. * * \param bridge Bridge to unlock * * \return Nothing */ #define ast_bridge_unlock(bridge) _ast_bridge_unlock(bridge, __FILE__, __PRETTY_FUNCTION__, __LINE__, #bridge) static inline void _ast_bridge_unlock(struct ast_bridge *bridge, const char *file, const char *function, int line, const char *var) { __ao2_unlock(bridge, file, function, line, var); } /*! \brief Lock two bridges. */ #define ast_bridge_lock_both(bridge1, bridge2) \ do { \ for (;;) { \ ast_bridge_lock(bridge1); \ if (!ast_bridge_trylock(bridge2)) { \ break; \ } \ ast_bridge_unlock(bridge1); \ sched_yield(); \ } \ } while (0) /*! * \brief Destroy a bridge * * \param bridge Bridge to destroy * \param cause Cause of bridge being destroyed. (If cause <= 0 then use AST_CAUSE_NORMAL_CLEARING) * * \retval 0 on success * \retval -1 on failure * * Example usage: * * \code * ast_bridge_destroy(bridge, AST_CAUSE_NORMAL_CLEARING); * \endcode * * This destroys a bridge that was previously created. * * \note * While this function will kick all channels out of the bridge, channels that * were added to the bridge using ast_bridge_impart() with the flag * AST_BRIDGE_IMPART_CHAN_DEPARTABLE set must have ast_bridge_depart() called * on them. */ int ast_bridge_destroy(struct ast_bridge *bridge, int cause); /*! * \brief Notify bridging that this channel was just masqueraded. * \since 12.0.0 * * \param chan Channel just involved in a masquerade * * \return Nothing */ void ast_bridge_notify_masquerade(struct ast_channel *chan); enum ast_bridge_join_flags { /*! The bridge reference is being passed by the caller. */ AST_BRIDGE_JOIN_PASS_REFERENCE = (1 << 0), /*! The initial bridge join does not cause a COLP exchange. */ AST_BRIDGE_JOIN_INHIBIT_JOIN_COLP = (1 << 1), }; /*! * \brief Join a channel to a bridge (blocking) * * \param bridge Bridge to join * \param chan Channel to join * \param swap Channel to swap out if swapping (A channel reference is stolen.) * \param features Bridge features structure * \param tech_args Optional Bridging tech optimization parameters for this channel. * \param flags defined by enum ast_bridge_join_flags. * * \note The passed in swap channel is always unreffed on return. It is not a * good idea to access the swap channel on return or for the caller to keep a * reference to it. * * \note Absolutely _NO_ locks should be held before calling * this function since it blocks. * * \retval 0 if the channel successfully joined the bridge before it exited. * \retval -1 if the channel failed to join the bridge * * Example usage: * * \code * ast_bridge_join(bridge, chan, NULL, NULL, NULL, AST_BRIDGE_JOIN_PASS_REFERENCE); * \endcode * * This adds a channel pointed to by the chan pointer to the bridge pointed to by * the bridge pointer. This function will not return until the channel has been * removed from the bridge, swapped out for another channel, or has hung up. * * If this channel will be replacing another channel the other channel can be specified * in the swap parameter. The other channel will be thrown out of the bridge in an * atomic fashion. * * If channel specific features are enabled a pointer to the features structure * can be specified in the features parameter. */ 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, enum ast_bridge_join_flags flags); enum ast_bridge_impart_flags { /*! Field describing what the caller can do with the channel after it is imparted. */ AST_BRIDGE_IMPART_CHAN_MASK = (1 << 0), /*! The caller wants to reclaim the channel using ast_bridge_depart(). */ AST_BRIDGE_IMPART_CHAN_DEPARTABLE = (0 << 0), /*! The caller is passing channel control entirely to the bridging system. */ AST_BRIDGE_IMPART_CHAN_INDEPENDENT = (1 << 0), /*! The initial bridge join does not cause a COLP exchange. */ AST_BRIDGE_IMPART_INHIBIT_JOIN_COLP = (1 << 1), }; /*! * \brief Impart a channel to a bridge (non-blocking) * * \param bridge Bridge to impart on * \param chan Channel to impart (The channel reference is stolen if impart successful.) * \param swap Channel to swap out if swapping. NULL if not swapping. * \param features Bridge features structure. * \param flags defined by enum ast_bridge_impart_flags. * * \note The given bridge must be unlocked when calling this function. * * \note The features parameter must be NULL or obtained by * ast_bridge_features_new(). You must not dereference features * after calling even if the call fails. * * \note chan is locked by this function. * * \retval 0 on success * \retval -1 on failure (Caller still has ownership of chan) * * Example usage: * * \code * ast_bridge_impart(bridge, chan, NULL, NULL, AST_BRIDGE_IMPART_CHAN_INDEPENDENT); * \endcode * * \details * This adds a channel pointed to by the chan pointer to the * bridge pointed to by the bridge pointer. This function will * return immediately and will not wait until the channel is no * longer part of the bridge. * * If this channel will be replacing another channel the other * channel can be specified in the swap parameter. The other * channel will be thrown out of the bridge in an atomic * fashion. * * If channel specific features are enabled, a pointer to the * features structure can be specified in the features * parameter. * * \note If you impart a channel with * AST_BRIDGE_IMPART_CHAN_DEPARTABLE you MUST * ast_bridge_depart() the channel if this call succeeds. The * bridge channel thread is created join-able. The implication * is that the channel is special and will not behave like a * normal channel. * * \note If you impart a channel with * AST_BRIDGE_IMPART_CHAN_INDEPENDENT you must not * ast_bridge_depart() the channel. The bridge channel thread * is created non-join-able. The channel must be treated as if * it were placed into the bridge by ast_bridge_join(). * Channels placed into a bridge by ast_bridge_join() are * removed by a third party using ast_bridge_remove(). */ int ast_bridge_impart(struct ast_bridge *bridge, struct ast_channel *chan, struct ast_channel *swap, struct ast_bridge_features *features, enum ast_bridge_impart_flags flags) attribute_warn_unused_result; /*! * \brief Depart a channel from a bridge * * \param chan Channel to depart * * \note chan is locked by this function. * * \retval 0 on success * \retval -1 on failure * * Example usage: * * \code * ast_bridge_depart(chan); * \endcode * * This removes the channel pointed to by the chan pointer from any bridge * it may be in and gives control to the calling thread. * This does not hang up the channel. * * \note This API call can only be used on channels that were added to the bridge * using the ast_bridge_impart API call with the AST_BRIDGE_IMPART_CHAN_DEPARTABLE * flag. */ int ast_bridge_depart(struct ast_channel *chan); /*! * \brief Remove a channel from a bridge * * \param bridge Bridge that the channel is to be removed from * \param chan Channel to remove * * \retval 0 on success * \retval -1 on failure * * Example usage: * * \code * ast_bridge_remove(bridge, chan); * \endcode * * This removes the channel pointed to by the chan pointer from the bridge * pointed to by the bridge pointer and requests that it be hung up. Control * over the channel will NOT be given to the calling thread. * * \note This API call can be used on channels that were added to the bridge * using both ast_bridge_join and ast_bridge_impart. */ int ast_bridge_remove(struct ast_bridge *bridge, struct ast_channel *chan); /*! * \brief Kick a channel from a bridge * * \param bridge Bridge that the channel is to be kicked from * \param chan Channel to kick * * \retval 0 on success * \retval -1 on failure * * Example usage: * * \code * ast_bridge_kick(bridge, chan); * \endcode * * \details * This kicks the channel pointed to by the chan pointer from * the bridge pointed to by the bridge pointer and requests that * it be hung up. Control over the channel will NOT be given to * the calling thread. * * \note The functional difference between ast_bridge_kick() and * ast_bridge_remove() is that the bridge may dissolve as a * result of the channel being kicked. * * \note This API call can be used on channels that were added * to the bridge using both ast_bridge_join and * ast_bridge_impart. */ int ast_bridge_kick(struct ast_bridge *bridge, struct ast_channel *chan); /*! * \brief Merge two bridges together * * \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 Absolutely _NO_ bridge or channel locks should be held * before calling this function. * * \retval 0 on success * \retval -1 on failure * * Example usage: * * \code * ast_bridge_merge(dst_bridge, src_bridge, 0, NULL, 0); * \endcode * * This moves the channels in src_bridge into the bridge pointed * to by dst_bridge. */ 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); /*! * \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 Absolutely _NO_ bridge or channel locks should be held * before calling this function. * * \retval 0 on success. * \retval -1 on failure. */ 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); /*! * \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.) * * \return Nothing */ void ast_bridge_merge_inhibit(struct ast_bridge *bridge, int request); /*! * \brief Suspend a channel temporarily from a bridge * * \param bridge Bridge to suspend the channel from * \param chan Channel to suspend * * \retval 0 on success * \retval -1 on failure * * Example usage: * * \code * ast_bridge_suspend(bridge, chan); * \endcode * * This suspends the channel pointed to by chan from the bridge pointed to by bridge temporarily. * Control of the channel is given to the calling thread. This differs from ast_bridge_depart as * the channel will not be removed from the bridge. * * \note This API call can be used on channels that were added to the bridge * using both ast_bridge_join and ast_bridge_impart. */ int ast_bridge_suspend(struct ast_bridge *bridge, struct ast_channel *chan); /*! * \brief Unsuspend a channel from a bridge * * \param bridge Bridge to unsuspend the channel from * \param chan Channel to unsuspend * * \retval 0 on success * \retval -1 on failure * * Example usage: * * \code * ast_bridge_unsuspend(bridge, chan); * \endcode * * This unsuspends the channel pointed to by chan from the bridge pointed to by bridge. * The bridge will go back to handling the channel once this function returns. * * \note You must not mess with the channel once this function returns. * Doing so may result in bad things happening. */ int ast_bridge_unsuspend(struct ast_bridge *bridge, struct ast_channel *chan); /*! * \brief Sets BRIDGECHANNEL and BRIDGEPVTCALLID for a channel * * \pre chan must be locked before calling * * \param name channel name of the bridged peer * \param pvtid Private CallID of the bridged peer * * \return nothing */ void ast_bridge_vars_set(struct ast_channel *chan, const char *name, const char *pvtid); struct ast_unreal_pvt; /*! * \brief Check and optimize out the unreal channels between bridges. * \since 12.0.0 * * \param chan Unreal channel writing a frame into the channel driver. * \param peer Other unreal channel in the pair. * \param pvt Private data provided by an implementation of the unreal driver that * contains the callbacks that should be called when optimization begins/ends * * \note It is assumed that chan is already locked. * * \retval 0 if unreal channels were not optimized out. * \retval non-zero if unreal channels were optimized out. */ int ast_bridge_unreal_optimize_out(struct ast_channel *chan, struct ast_channel *peer, struct ast_unreal_pvt *pvt); /*! * \brief Tells, if optimization is allowed, how the optimization would be performed */ enum ast_bridge_optimization { /*! Optimization would swap peer into the chan_bridge */ AST_BRIDGE_OPTIMIZE_SWAP_TO_CHAN_BRIDGE, /*! Optimization would swap chan into the peer_bridge */ AST_BRIDGE_OPTIMIZE_SWAP_TO_PEER_BRIDGE, /*! Optimization would merge peer_bridge into chan_bridge */ AST_BRIDGE_OPTIMIZE_MERGE_TO_CHAN_BRIDGE, /*! Optimization would merge chan_bridge into peer_bridge */ AST_BRIDGE_OPTIMIZE_MERGE_TO_PEER_BRIDGE, /*! Optimization is not permitted on one or both bridges */ AST_BRIDGE_OPTIMIZE_PROHIBITED, }; /*! * \brief Determine if bridges allow for optimization to occur betweem them * \since 12.0.0 * * \param chan_bridge First bridge being tested * \param peer_bridge Second bridge being tested * * This determines if two bridges allow for unreal channel optimization * to occur between them. The function does not require for unreal channels * to already be in the bridges when called. * * \note It is assumed that both bridges are locked prior to calling this function * * \note A return other than AST_BRIDGE_OPTIMIZE_PROHIBITED does not guarantee * that an optimization attempt will succeed. However, a return of * AST_BRIDGE_OPTIMIZE_PROHIBITED guarantees that an optimization attempt will * never succeed. * * \returns Optimization allowability for the bridges */ enum ast_bridge_optimization ast_bridges_allow_optimization(struct ast_bridge *chan_bridge, struct ast_bridge *peer_bridge); /*! * \brief Put an action onto the specified bridge. * \since 12.0.0 * * \param bridge What to queue the action on. * \param action What to do. * * \retval 0 on success. * \retval -1 on error. * * \note This API call is meant for internal bridging operations. */ int ast_bridge_queue_action(struct ast_bridge *bridge, struct ast_frame *action); /*! * \brief Queue the given frame to everyone else. * \since 12.0.0 * * \param bridge What bridge to distribute frame. * \param bridge_channel Channel to optionally not pass frame to. (NULL to pass to everyone) * \param frame Frame to pass. * * \note This is intended to be called by bridge hooks and * bridge technologies. * * \retval 0 Frame written to at least one channel. * \retval -1 Frame written to no channels. */ int ast_bridge_queue_everyone_else(struct ast_bridge *bridge, struct ast_bridge_channel *bridge_channel, struct ast_frame *frame); /*! * \brief Adjust the internal mixing sample rate of a bridge * used during multimix mode. * * \param bridge Channel to change the sample rate on. * \param sample_rate the sample rate to change to. If a * value of 0 is passed here, the bridge will be free to pick * what ever sample rate it chooses. * */ void ast_bridge_set_internal_sample_rate(struct ast_bridge *bridge, unsigned int sample_rate); /*! * \brief Adjust the internal mixing interval of a bridge used * during multimix mode. * * \param bridge Channel to change the sample rate on. * \param mixing_interval the sample rate to change to. If 0 is set * the bridge tech is free to choose any mixing interval it uses by default. */ void ast_bridge_set_mixing_interval(struct ast_bridge *bridge, unsigned int mixing_interval); /*! * \brief Activates the use of binaural signals in a conference bridge. * * \param bridge Channel to activate the binaural signals. * \param binaural_active If true binaural signal processing will be active for the bridge. */ void ast_bridge_set_binaural_active(struct ast_bridge *bridge, unsigned int binaural_active); /*! * \brief Set a bridge to feed a single video source to all participants. */ void ast_bridge_set_single_src_video_mode(struct ast_bridge *bridge, struct ast_channel *video_src_chan); /*! * \brief Set the bridge to pick the strongest talker supporting * video as the single source video feed */ void ast_bridge_set_talker_src_video_mode(struct ast_bridge *bridge); /*! * \brief Set the bridge to be a selective forwarding unit */ void ast_bridge_set_sfu_video_mode(struct ast_bridge *bridge); /*! * \brief Set the amount of time to discard subsequent video updates after a video update has been sent * * \param bridge Bridge to set the minimum video update wait time on * \param video_update_discard Amount of time after sending a video update that others should be discarded */ void ast_bridge_set_video_update_discard(struct ast_bridge *bridge, unsigned int video_update_discard); /*! * \brief Set the interval at which a combined REMB frame will be sent to video sources * * \param bridge Bridge to set the REMB send interval on * \param remb_send_interval The REMB send interval */ void ast_bridge_set_remb_send_interval(struct ast_bridge *bridge, unsigned int remb_send_interval); /*! * \brief Update information about talker energy for talker src video mode. */ void ast_bridge_update_talker_src_video_mode(struct ast_bridge *bridge, struct ast_channel *chan, int talker_energy, int is_keyfame); /*! * \brief Returns the number of video sources currently active in the bridge */ int ast_bridge_number_video_src(struct ast_bridge *bridge); /*! * \brief Determine if a channel is a video src for the bridge * * \retval 0 Not a current video source of the bridge. * \retval None 0, is a video source of the bridge, The number * returned represents the priority this video stream has * on the bridge where 1 is the highest priority. */ int ast_bridge_is_video_src(struct ast_bridge *bridge, struct ast_channel *chan); /*! * \brief remove a channel as a source of video for the bridge. */ void ast_bridge_remove_video_src(struct ast_bridge *bridge, struct ast_channel *chan); /*! * \brief Converts an enum representation of a bridge video mode to string * * \param video_mode The video mode * * \retval A string representation of \c video_mode */ const char *ast_bridge_video_mode_to_string(enum ast_bridge_video_mode_type video_mode); /*! * \brief Acquire the channel's bridge for transfer purposes. * \since 13.21.0 * * \param chan Channel involved in a transfer. * * \return The bridge the channel is in or NULL if it either isn't * in a bridge or should not be considered to be in a bridge. */ struct ast_bridge *ast_bridge_transfer_acquire_bridge(struct ast_channel *chan); enum ast_transfer_result { /*! The transfer completed successfully */ AST_BRIDGE_TRANSFER_SUCCESS, /*! A bridge involved does not permit transferring */ AST_BRIDGE_TRANSFER_NOT_PERMITTED, /*! The current bridge setup makes transferring an invalid operation */ AST_BRIDGE_TRANSFER_INVALID, /*! The transfer operation failed for a miscellaneous reason */ AST_BRIDGE_TRANSFER_FAIL, }; enum ast_transfer_type { /*! Transfer of a single party */ AST_BRIDGE_TRANSFER_SINGLE_PARTY, /*! Transfer of multiple parties */ AST_BRIDGE_TRANSFER_MULTI_PARTY, }; /*! * \brief AO2 object that wraps data for transfer_channel_cb */ struct transfer_channel_data { void *data; /*! Data to be used by the transfer_channel_cb -- note that this * pointer is going to be pointing to something on the stack, so * it must not be used at any point after returning from the * transfer_channel_cb. */ int completed; /*! Initially 0, This will be set to 1 by either the transfer * code or by transfer code hooks (e.g. parking) when the * transfer is completed and any remaining actions have taken * place (e.g. parking announcements). It will never be reset * to 0. This is used for deferring progress for channel * drivers that support deferred progress. */ }; /*! * \brief Callback function type called during blind transfers * * A caller of ast_bridge_transfer_blind() may wish to set data on * the channel that ends up running dialplan. For instance, it may * be useful to set channel variables on the channel. * * \param chan The involved channel * \param user_data User-provided data needed in the callback * \param transfer_type The type of transfer being completed */ typedef void (*transfer_channel_cb)(struct ast_channel *chan, struct transfer_channel_data *user_data, enum ast_transfer_type transfer_type); /*! * \brief Blind transfer target to the extension and context provided * * The channel given is bridged to one or multiple channels. Depending on * the bridge and the number of participants, the entire bridge could be * transferred to the given destination, or a single channel may be redirected. * * Callers may also provide a callback to be called on the channel that will * be running dialplan. The user data passed into ast_bridge_transfer_blind * will be given as the argument to the callback to be interpreted as desired. * This callback is guaranteed to be called in the same thread as * ast_bridge_transfer_blind() and before ast_bridge_transfer_blind() returns. * * \note Absolutely _NO_ channel locks should be held before * calling this function. * * \param is_external Indicates that transfer was initiated externally * \param transferer The channel performing the blind transfer * \param exten The dialplan extension to send the call to * \param context The dialplan context to send the call to * \param new_channel_cb A callback to be called on the channel that will * be executing dialplan * \param user_data Argument for new_channel_cb * \return The success or failure result of the blind transfer */ 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); /*! * \brief Attended transfer * * The two channels are both transferer channels. The first is the channel * that is bridged to the transferee (or if unbridged, the 'first' call of * the transfer). The second is the channel that is bridged to the transfer * target (or if unbridged, the 'second' call of the transfer). * * \note Absolutely _NO_ channel locks should be held before * calling this function. * * \param to_transferee Transferer channel on initial call (presumably bridged to transferee) * \param to_transfer_target Transferer channel on consultation call (presumably bridged to transfer target) * \return The success or failure of the attended transfer */ enum ast_transfer_result ast_bridge_transfer_attended(struct ast_channel *to_transferee, struct ast_channel *to_transfer_target); /*! * \brief Set the relevant transfer variables for a single channel * * Sets either the ATTENDEDTRANSFER or BLINDTRANSFER variable for a channel while clearing * the opposite. * * \param chan Channel the variable is being set for * \param value Value the variable is being set to * \param is_attended false set BLINDTRANSFER and unset ATTENDEDTRANSFER * true set ATTENDEDTRANSFER and unset BLINDTRANSFER */ void ast_bridge_set_transfer_variables(struct ast_channel *chan, const char *value, int is_attended); /*! * \brief Get a container of all channels in the bridge * \since 12.0.0 * * \param bridge The bridge which is already locked. * * \retval NULL Failed to create container * \retval non-NULL Container of channels in the bridge */ struct ao2_container *ast_bridge_peers_nolock(struct ast_bridge *bridge); /*! * \brief Get a container of all channels in the bridge * \since 12.0.0 * * \param bridge The bridge * * \note The returned container is a snapshot of channels in the * bridge when called. * * \retval NULL Failed to create container * \retval non-NULL Container of channels in the bridge */ struct ao2_container *ast_bridge_peers(struct ast_bridge *bridge); /*! * \brief Get the channel's bridge peer only if the bridge is two-party. * \since 12.0.0 * * \param bridge The bridge which is already locked. * \param chan Channel desiring the bridge peer channel. * * \note The returned peer channel is the current peer in the * bridge when called. * * \retval NULL Channel not in a bridge or the bridge is not two-party. * \retval non-NULL Reffed peer channel at time of calling. */ struct ast_channel *ast_bridge_peer_nolock(struct ast_bridge *bridge, struct ast_channel *chan); /*! * \brief Get the channel's bridge peer only if the bridge is two-party. * \since 12.0.0 * * \param bridge The bridge * \param chan Channel desiring the bridge peer channel. * * \note The returned peer channel is the current peer in the * bridge when called. * * \retval NULL Channel not in a bridge or the bridge is not two-party. * \retval non-NULL Reffed peer channel at time of calling. */ struct ast_channel *ast_bridge_peer(struct ast_bridge *bridge, struct ast_channel *chan); /*! * \brief Remove marked bridge channel feature hooks. * \since 12.0.0 * * \param features Bridge features structure * \param flags Determinator for whether hook is removed. * * \return Nothing */ void ast_bridge_features_remove(struct ast_bridge_features *features, enum ast_bridge_hook_remove_flags flags); /*! * \brief Find bridge by id * \since 12.0.0 * * \param bridge_id Bridge identifier * * \return NULL bridge not found * \return non-NULL reference to bridge */ struct ast_bridge *ast_bridge_find_by_id(const char *bridge_id); #if defined(__cplusplus) || defined(c_plusplus) } #endif #endif /* _ASTERISK_BRIDGING_H */