/* * Asterisk -- An open source telephony toolkit. * * Copyright (C) 2011, Digium, Inc. * * David Vossel * * 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 ConfBridge config parser * * \author David Vossel */ /*** MODULEINFO core ***/ #include "asterisk.h" #include "asterisk/logger.h" #include "asterisk/config.h" #include "asterisk/config_options.h" #include "include/confbridge.h" #include "asterisk/astobj2.h" #include "asterisk/cli.h" #include "asterisk/bridge_features.h" #include "asterisk/stringfields.h" #include "asterisk/pbx.h" /*** DOCUMENTATION Conference Bridge Application Unused, but reserved. A named profile to apply to specific callers. Callers in a ConfBridge have a profile associated with them that determine their options. A configuration section is determined to be a user_profile when the type parameter has a value of user. Define this configuration category as a user profile. The type parameter determines how a context in the configuration file is interpreted. Configure the context as a user_profile Configure the context as a bridge_profile Configure the context as a menu Sets if the user is an admin or not Sets if events are send to the user If events are enabled for this bridge and this option is set, users will receive events like join, leave, talking, etc. via text messages. For users accessing the bridge via chan_pjsip, this means in-dialog MESSAGE messages. This is most useful for WebRTC participants where the browser application can use the messages to alter the user interface. Sets if events are echoed back to the user that triggered them If events are enabled for this user and this option is set, the user will receive events they trigger, talking, mute, etc. If not set, they will not receive their own events. Sets if this is a marked user or not Sets if all users should start out muted Play MOH when user is alone or waiting on a marked user Silence enter/leave prompts and user intros for this user Determines if the user also hears the join sound when they enter a conference Sets if the number of users should be announced to the user Announce user count to all the other users when this user joins Sets if the number of users should be announced to all the other users in the conference when this user joins. This option can be either set to 'yes' or a number. When set to a number, the announcement will only occur once the user count is above the specified number. Announce to a user when they join an empty conference Sets if the user must wait for a marked user to enter before joining a conference Kick the user from the conference when the last marked user leaves Kick the user from the conference when any marked user leaves Set whether or not notifications of when a user begins and ends talking should be sent out as events over AMI Sets whether or not DTMF should pass through the conference Prompt user for their name when joining a conference and play it to the conference when they enter Prompt user for their name when joining a conference and play it to the conference when they enter. The user will be asked to review the recording of their name before entering the conference. Sets a PIN the user must enter before joining the conference The MOH class to use for this user Sound file to play to the user when they join a conference Apply a denoise filter to the audio before mixing Sets whether or not a denoise filter should be applied to the audio before mixing or not. Off by default. Requires codec_speex to be built and installed. Do not confuse this option with drop_silence. Denoise is useful if there is a lot of background noise for a user as it attempts to remove the noise while preserving the speech. This option does NOT remove silence from being mixed into the conference and does come at the cost of a slight performance hit. Drop what Asterisk detects as silence from audio sent to the bridge This option drops what Asterisk detects as silence from entering into the bridge. Enabling this option will drastically improve performance and help remove the buildup of background noise from the conference. Highly recommended for large conferences due to its performance enhancements. The number of milliseconds of silence necessary to declare talking stopped. The time in milliseconds of sound falling below the dsp_talking_threshold option when a user is considered to stop talking. This value affects several operations and should not be changed unless the impact on call quality is fully understood. What this value affects internally: 1. When talk detection AMI events are enabled, this value determines when the user has stopped talking after a period of talking. If this value is set too low AMI events indicating the user has stopped talking may get falsely sent out when the user briefly pauses during mid sentence. 2. The drop_silence option depends on this value to determine when the user's audio should begin to be dropped from the conference bridge after the user stops talking. If this value is set too low the user's audio stream may sound choppy to the other participants. This is caused by the user transitioning constantly from silence to talking during mid sentence. The best way to approach this option is to set it slightly above the maximum amount of milliseconds of silence a user may generate during natural speech. Valid values are 1 through 2^31. Average magnitude threshold to determine talking. The minimum average magnitude per sample in a frame for the DSP to consider talking/noise present. A value below this level is considered silence. This value affects several operations and should not be changed unless the impact on call quality is fully understood. What this value affects internally: 1. Audio is only mixed out of a user's incoming audio stream if talking is detected. If this value is set too high the user will hear himself talking. 2. When talk detection AMI events are enabled, this value determines when talking has begun which results in an AMI event to fire. If this value is set too low AMI events may be falsely triggered by variants in room noise. 3. The drop_silence option depends on this value to determine when the user's audio should be mixed into the bridge after periods of silence. If this value is too high the user's speech will get discarded as they will be considered silent. Valid values are 1 through 2^15. Place a jitter buffer on the user's audio stream before audio mixing is performed Enabling this option places a jitterbuffer on the user's audio stream before audio mixing is performed. This is highly recommended but will add a slight delay to the audio. This option is using the JITTERBUFFER dialplan function's default adaptive jitterbuffer. For a more fine tuned jitterbuffer, disable this option and use the JITTERBUFFER dialplan function on the user before entering the ConfBridge application. When using the CONFBRIDGE dialplan function, use a user profile as a template for creating a new temporary profile Kick the user out of the conference after this many seconds. 0 means there is no timeout for the user. Sets if text messages are sent to the user. If text messaging is enabled for this user then text messages will be sent to it. These may be events or from other participants in the conference bridge. If disabled then no text messages are sent to the user. Sets if a user's channel should be answered if currently unanswered. A named profile to apply to specific bridges. ConfBridge bridges have a profile associated with them that determine their options. A configuration section is determined to be a bridge_profile when the type parameter has a value of bridge. Define this configuration category as a bridge profile The type parameter determines how a context in the configuration file is interpreted. Configure the context as a user_profile Configure the context as a bridge_profile Configure the context as a menu Place a jitter buffer on the conference's audio stream Set the internal native sample rate for mixing the conference Sets the internal native sample rate the conference is mixed at. This is set to automatically adjust the sample rate to the best quality by default. Other values can be anything from 8000-192000. If a sample rate is set that Asterisk does not support, the closest sample rate Asterisk does support to the one requested will be used. Set the maximum native sample rate for mixing the conference Sets the maximum native sample rate the conference is mixed at. This is set to not have a maximum by default. If a sample rate is specified, though, the native sample rate will never exceed it. The language used for announcements to the conference. By default, announcements to a conference use English. Which means the prompts played to all users within the conference will be English. By changing the language of a bridge, this will change the language of the prompts played to all users. Sets the internal mixing interval in milliseconds for the bridge Sets the internal mixing interval in milliseconds for the bridge. This number reflects how tight or loose the mixing will be for the conference. In order to improve performance a larger mixing interval such as 40ms may be chosen. Using a larger mixing interval comes at the cost of introducing larger amounts of delay into the bridge. Valid values here are 10, 20, 40, or 80. If true binaural conferencing with stereo audio is active Activates binaural mixing for a conference bridge. Binaural features are disabled by default. Record the conference starting with the first active user's entrance and ending with the last active user's exit Records the conference call starting when the first user enters the room, and ending when the last user exits the room. The default recorded filename is 'confbridge-${name of conference bridge}-${start time}.wav' and the default format is 8khz slinear. This file will be located in the configured monitoring directory in asterisk.conf. The filename of the conference recording When record_conference is set to yes, the specific name of the record file can be set using this option. Note that since multiple conferences may use the same bridge profile, this may cause issues depending on the configuration. It is recommended to only use this option dynamically with the CONFBRIDGE() dialplan function. This allows the record name to be specified and a unique name to be chosen. By default, the record_file is stored in Asterisk's spool/monitor directory with a unique filename starting with the 'confbridge' prefix. Append to record file when starting/stopping on same conference recording When record_file_append is set to yes, stopping and starting recording on a conference adds the new portion to end of current record_file. When this is set to no, a new record_file is generated every time you start then stop recording on a conference. Append the start time to the record_file name so that it is unique. When record_file_timestamp is set to yes, the start time is appended to record_file so that the filename is unique. This allows you to specify a record_file but not overwrite existing recordings. Pass additional options to MixMonitor when recording Pass additional options to MixMonitor when record_conference is set to yes. See MixMonitor for available options. Execute a command after recording ends Executes the specified command when recording ends. Any strings matching ^{X} will be unescaped to X. All variables will be evaluated at the time ConfBridge is called. The name of the context into which to register the name of the conference bridge as NoOP() at priority 1 When set this will cause the name of the created conference to be registered into the named context at priority 1 with an operation of NoOP(). This can then be used in other parts of the dialplan to test for the existence of a specific conference bridge. You should be aware that there are potential races between testing for the existence of a bridge, and taking action upon that information, consider for example two callers executing the check simultaneously, and then taking special action as "first caller" into the bridge. The same for exiting, directly after the check the bridge can be destroyed before the new caller enters (creating a new bridge), for example, and the "first member" actions could thus be missed. Sets how confbridge handles video distribution to the conference participants Sets how confbridge handles video distribution to the conference participants. Note that participants wanting to view and be the source of a video feed MUST be sharing the same video codec. Also, using video in conjunction with with the jitterbuffer currently results in the audio being slightly out of sync with the video. This is a result of the jitterbuffer only working on the audio stream. It is recommended to disable the jitterbuffer when video is used. No video sources are set by default in the conference. It is still possible for a user to be set as a video source via AMI or DTMF action at any time. The video feed will follow whoever is talking and providing video. The last marked user to join the conference with video capabilities will be the single source of video distributed to all participants. If multiple marked users are capable of video, the last one to join is always the source, when that user leaves it goes to the one who joined before them. The first marked user to join the conference with video capabilities is the single source of video distribution among all participants. If that user leaves, the marked user to join after them becomes the source. Selective Forwarding Unit - Sets multi-stream operation for a multi-party video conference. Limit the maximum number of participants for a single conference This option limits the number of participants for a single conference to a specific number. By default conferences have no participant limit. After the limit is reached, the conference will be locked until someone leaves. Note however that an Admin user will always be alowed to join the conference regardless if this limit is reached or not. Override the various conference bridge sound files All sounds in the conference are customizable using the bridge profile options below. Simply state the option followed by the filename or full path of the filename after the option. Example: sound_had_joined=conf-hasjoin This will play the conf-hasjoin sound file found in the sounds directory when announcing someone's name is joining the conference. The sound played to everyone when someone enters the conference. The sound played to everyone when someone leaves the conference. The sound played before announcing someone's name has joined the conference. This is used for user intros. Example "_____ has joined the conference" The sound played when announcing someone's name has left the conference. This is used for user intros. Example "_____ has left the conference" The sound played to a user who has been kicked from the conference. The sound played when the mute option it toggled on. The sound played when the mute option it toggled off. The sound played when binaural audio is turned on. The sound played when the binaural audio is turned off. The sound played when the user is the only person in the conference. The sound played to a user when there is only one other person is in the conference. The sound played when announcing how many users there are in a conference. This file is used in conjunction with sound_there_are when announcing how many users there are in the conference. The sounds are stringed together like this. "sound_there_are" ${number of participants} "sound_other_in_party" The sound played when someone is placed into the conference after waiting for a marked user. The sound played when a user is placed into a conference that can not start until a marked user enters. The sound played when the last marked user leaves the conference. The sound played when prompting for a conference pin number. The sound played when an invalid pin is entered too many times. The sound played to a user trying to join a locked conference. The sound played to an admin after toggling the conference to locked mode. The sound played to an admin after toggling the conference to unlocked mode. The sound played when an invalid menu option is entered. Sets the amount of time in milliseconds after sending a video update to discard subsequent video updates Sets the amount of time in milliseconds after sending a video update request that subsequent video updates should be discarded. This means that if we send a video update we will discard any other video update requests until after the configured amount of time has elapsed. This prevents flooding of video update requests from clients. Sets the interval in milliseconds that a combined REMB frame will be sent to video sources Sets the interval in milliseconds that a combined REMB frame will be sent to video sources. This is done by taking all REMB frames that have been received since the last REMB frame was sent, making a combined value, and sending it to the source. A REMB frame contains receiver estimated maximum bitrate information. By creating a combined REMB frame the sender of video can be influenced on the bitrate they choose, allowing better quality for all receivers. Sets how REMB reports are generated from multiple sources Sets how REMB reports are combined from multiple sources to form one. A REMB report consists of information about the receiver estimated maximum bitrate. As a source stream may be forwarded to multiple receivers the reports must be combined into a single one which is sent to the sender. The average of all estimated maximum bitrates is taken and sent to the sender. The lowest estimated maximum bitrate is forwarded to the sender. The highest estimated maximum bitrate is forwarded to the sender. The average of all estimated maximum bitrates is taken from all receivers in the bridge and a single value is sent to each sender. The lowest estimated maximum bitrate of all receivers in the bridge is taken and sent to each sender. The highest estimated maximum bitrate of all receivers in the bridge is taken and sent to each sender. The bitrate configured in remb_estimated_bitrate is sent to each sender. remb_estimated_bitrate Sets the estimated bitrate sent to each participant in REMB reports When remb_behavior is set to force, this options sets the estimated bitrate (in bits per second) sent to each participant in REMB reports. remb_behavior Enables events for this bridge If enabled, recipients who joined the bridge via a channel driver that supports Enhanced Messaging (currently only chan_pjsip) will receive in-dialog messages containing a JSON body describing the event. The Content-Type header will be text/x-ast-confbridge-event. This feature must also be enabled in user profiles. When using the CONFBRIDGE dialplan function, use a bridge profile as a template for creating a new temporary profile A conference user menu Conference users, as defined by a conf_user, can have a DTMF menu assigned to their profile when they enter the ConfBridge application. Define this configuration category as a menu The type parameter determines how a context in the configuration file is interpreted. Configure the context as a user_profile Configure the context as a bridge_profile Configure the context as a menu When using the CONFBRIDGE dialplan function, use a menu profile as a template for creating a new temporary profile DTMF sequences to assign various confbridge actions to The ConfBridge application also has the ability to apply custom DTMF menus to each channel using the application. Like the User and Bridge profiles a menu is passed in to ConfBridge as an argument in the dialplan. Below is a list of menu actions that can be assigned to a DTMF sequence. To have the first DTMF digit in a sequence be the '#' character, you need to escape it. If it is not escaped then normal config file processing will think it is a directive like #include. For example: The mute setting is toggled when #1 is pressed. \#1=toggle_mute A single DTMF sequence can have multiple actions associated with it. This is accomplished by stringing the actions together and using a , as the delimiter. Example: Both listening and talking volume is reset when 5 is pressed. 5=reset_talking_volume, reset_listening_volume playback will play back an audio file to a channel and then immediately return to the conference. This file can not be interupted by DTMF. Multiple files can be chained together using the & character. playback_and_continue will play back a prompt while continuing to collect the dtmf sequence. This is useful when using a menu prompt that describes all the menu options. Note however that any DTMF during this action will terminate the prompts playback. Prompt files can be chained together using the & character as a delimiter. Toggle turning on and off mute. Mute will make the user silent to everyone else, but the user will still be able to listen in. Toggle turning on and off binaural audio processing. This action does nothing (No Operation). Its only real purpose exists for being able to reserve a sequence in the config as a menu exit sequence. Decreases the channel's listening volume. Increases the channel's listening volume. Reset channel's listening volume to default level. Decreases the channel's talking volume. Increases the channel's talking volume. Reset channel's talking volume to default level. The dialplan_exec action allows a user to escape from the conference and execute commands in the dialplan. Once the dialplan exits the user will be put back into the conference. The possibilities are endless! This action allows a user to exit the conference and continue execution in the dialplan. This action allows an Admin to kick the last participant from the conference. This action will only work for admins which allows a single menu to be used for both users and admins. This action allows an Admin to toggle locking and unlocking the conference. Non admins can not use this action even if it is in their menu. This action allows any user to set themselves as the single video source distributed to all participants. This will make the video feed stick to them regardless of what the video_mode is set to. This action allows a user to release themselves as the video source. If video_mode is not set to none this action will result in the conference returning to whatever video mode the bridge profile is using. Note that this action will have no effect if the user is not currently the video source. Also, the user is not guaranteed by using this action that they will not become the video source again. The bridge will return to whatever operation the video_mode option is set to upon release of the video src. This action allows an administrator to toggle the mute state for all non-admins within a conference. All admin users are unaffected by this option. Note that all users, regardless of their admin status, are notified that the conference is muted. This action plays back the number of participants currently in a conference ***/ struct confbridge_cfg { struct ao2_container *bridge_profiles; struct ao2_container *user_profiles; struct ao2_container *menus; }; static int verify_default_profiles(void); static void *bridge_profile_alloc(const char *category); static void *bridge_profile_find(struct ao2_container *container, const char *category); static struct bridge_profile_sounds *bridge_profile_sounds_alloc(void); static void bridge_profile_destructor(void *obj) { struct bridge_profile *b_profile = obj; ao2_cleanup(b_profile->sounds); } static void *bridge_profile_alloc(const char *category) { struct bridge_profile *b_profile; if (!(b_profile = ao2_alloc(sizeof(*b_profile), bridge_profile_destructor))) { return NULL; } if (!(b_profile->sounds = bridge_profile_sounds_alloc())) { ao2_ref(b_profile, -1); return NULL; } ast_copy_string(b_profile->name, category, sizeof(b_profile->name)); return b_profile; } static void *bridge_profile_find(struct ao2_container *container, const char *category) { return ao2_find(container, category, OBJ_KEY); } static struct aco_type bridge_type = { .type = ACO_ITEM, .name = "bridge_profile", .category_match = ACO_BLACKLIST_EXACT, .category = "general", .matchfield = "type", .matchvalue = "bridge", .item_alloc = bridge_profile_alloc, .item_find = bridge_profile_find, .item_offset = offsetof(struct confbridge_cfg, bridge_profiles), }; static void *user_profile_alloc(const char *category); static void *user_profile_find(struct ao2_container *container, const char *category); static void user_profile_destructor(void *obj) { return; } static void *user_profile_alloc(const char *category) { struct user_profile *u_profile; if (!(u_profile = ao2_alloc(sizeof(*u_profile), user_profile_destructor))) { return NULL; } ast_copy_string(u_profile->name, category, sizeof(u_profile->name)); return u_profile; } static void *user_profile_find(struct ao2_container *container, const char *category) { return ao2_find(container, category, OBJ_KEY); } static struct aco_type user_type = { .type = ACO_ITEM, .name = "user_profile", .category_match = ACO_BLACKLIST_EXACT, .category = "general", .matchfield = "type", .matchvalue = "user", .item_alloc = user_profile_alloc, .item_find = user_profile_find, .item_offset = offsetof(struct confbridge_cfg, user_profiles), }; static void *menu_alloc(const char *category); static void *menu_find(struct ao2_container *container, const char *category); static void menu_destructor(void *obj); static void *menu_alloc(const char *category) { struct conf_menu *menu; if (!(menu = ao2_alloc(sizeof(*menu), menu_destructor))) { return NULL; } ast_copy_string(menu->name, category, sizeof(menu->name)); return menu; } static void *menu_find(struct ao2_container *container, const char *category) { return ao2_find(container, category, OBJ_KEY); } static struct aco_type menu_type = { .type = ACO_ITEM, .name = "menu", .category_match = ACO_BLACKLIST_EXACT, .category = "general", .matchfield = "type", .matchvalue = "menu", .item_alloc = menu_alloc, .item_find = menu_find, .item_offset = offsetof(struct confbridge_cfg, menus), }; /* Used to pass to aco_option_register */ static struct aco_type *bridge_types[] = ACO_TYPES(&bridge_type); static struct aco_type *menu_types[] = ACO_TYPES(&menu_type); static struct aco_type *user_types[] = ACO_TYPES(&user_type); /* The general category is reserved, but unused */ static struct aco_type general_type = { .type = ACO_GLOBAL, .name = "global", .category_match = ACO_WHITELIST_EXACT, .category = "general", }; static struct aco_file confbridge_conf = { .filename = "confbridge.conf", .types = ACO_TYPES(&bridge_type, &user_type, &menu_type, &general_type), }; static AO2_GLOBAL_OBJ_STATIC(cfg_handle); static void *confbridge_cfg_alloc(void); CONFIG_INFO_STANDARD(cfg_info, cfg_handle, confbridge_cfg_alloc, .files = ACO_FILES(&confbridge_conf), .pre_apply_config = verify_default_profiles, ); /*! bridge profile container functions */ static int bridge_cmp_cb(void *obj, void *arg, int flags) { const struct bridge_profile *left = obj; const struct bridge_profile *right = arg; const char *right_name = arg; int cmp; switch (flags & (OBJ_POINTER | OBJ_KEY | OBJ_PARTIAL_KEY)) { default: case OBJ_POINTER: right_name = right->name; /* Fall through */ case OBJ_KEY: cmp = strcasecmp(left->name, right_name); break; case OBJ_PARTIAL_KEY: cmp = strncasecmp(left->name, right_name, strlen(right_name)); break; } return cmp ? 0 : CMP_MATCH; } static int bridge_hash_cb(const void *obj, const int flags) { const struct bridge_profile *b_profile = obj; const char *name = obj; int hash; switch (flags & (OBJ_POINTER | OBJ_KEY | OBJ_PARTIAL_KEY)) { default: case OBJ_POINTER: name = b_profile->name; /* Fall through */ case OBJ_KEY: hash = ast_str_case_hash(name); break; case OBJ_PARTIAL_KEY: /* Should never happen in hash callback. */ ast_assert(0); hash = 0; break; } return hash; } /*! menu container functions */ static int menu_cmp_cb(void *obj, void *arg, int flags) { const struct conf_menu *left = obj; const struct conf_menu *right = arg; const char *right_name = arg; int cmp; switch (flags & (OBJ_POINTER | OBJ_KEY | OBJ_PARTIAL_KEY)) { default: case OBJ_POINTER: right_name = right->name; /* Fall through */ case OBJ_KEY: cmp = strcasecmp(left->name, right_name); break; case OBJ_PARTIAL_KEY: cmp = strncasecmp(left->name, right_name, strlen(right_name)); break; } return cmp ? 0 : CMP_MATCH; } static int menu_hash_cb(const void *obj, const int flags) { const struct conf_menu *menu = obj; const char *name = obj; int hash; switch (flags & (OBJ_POINTER | OBJ_KEY | OBJ_PARTIAL_KEY)) { default: case OBJ_POINTER: name = menu->name; /* Fall through */ case OBJ_KEY: hash = ast_str_case_hash(name); break; case OBJ_PARTIAL_KEY: /* Should never happen in hash callback. */ ast_assert(0); hash = 0; break; } return hash; } static void menu_destructor(void *obj) { struct conf_menu *menu = obj; struct conf_menu_entry *entry = NULL; while ((entry = AST_LIST_REMOVE_HEAD(&menu->entries, entry))) { conf_menu_entry_destroy(entry); ast_free(entry); } } /*! User profile container functions */ static int user_cmp_cb(void *obj, void *arg, int flags) { const struct user_profile *left = obj; const struct user_profile *right = arg; const char *right_name = arg; int cmp; switch (flags & (OBJ_POINTER | OBJ_KEY | OBJ_PARTIAL_KEY)) { default: case OBJ_POINTER: right_name = right->name; /* Fall through */ case OBJ_KEY: cmp = strcasecmp(left->name, right_name); break; case OBJ_PARTIAL_KEY: cmp = strncasecmp(left->name, right_name, strlen(right_name)); break; } return cmp ? 0 : CMP_MATCH; } static int user_hash_cb(const void *obj, const int flags) { const struct user_profile *u_profile = obj; const char *name = obj; int hash; switch (flags & (OBJ_POINTER | OBJ_KEY | OBJ_PARTIAL_KEY)) { default: case OBJ_POINTER: name = u_profile->name; /* Fall through */ case OBJ_KEY: hash = ast_str_case_hash(name); break; case OBJ_PARTIAL_KEY: /* Should never happen in hash callback. */ ast_assert(0); hash = 0; break; } return hash; } /*! Bridge Profile Sounds functions */ static void bridge_profile_sounds_destroy_cb(void *obj) { struct bridge_profile_sounds *sounds = obj; ast_string_field_free_memory(sounds); } static struct bridge_profile_sounds *bridge_profile_sounds_alloc(void) { struct bridge_profile_sounds *sounds = ao2_alloc(sizeof(*sounds), bridge_profile_sounds_destroy_cb); if (!sounds) { return NULL; } if (ast_string_field_init(sounds, 512)) { ao2_ref(sounds, -1); return NULL; } return sounds; } static int set_sound(const char *sound_name, const char *sound_file, struct bridge_profile *b_profile) { struct bridge_profile_sounds *sounds = b_profile->sounds; if (ast_strlen_zero(sound_file)) { return -1; } if (!strcasecmp(sound_name, "sound_only_person")) { ast_string_field_set(sounds, onlyperson, sound_file); } else if (!strcasecmp(sound_name, "sound_only_one")) { ast_string_field_set(sounds, onlyone, sound_file); } else if (!strcasecmp(sound_name, "sound_has_joined")) { ast_string_field_set(sounds, hasjoin, sound_file); } else if (!strcasecmp(sound_name, "sound_has_left")) { ast_string_field_set(sounds, hasleft, sound_file); } else if (!strcasecmp(sound_name, "sound_kicked")) { ast_string_field_set(sounds, kicked, sound_file); } else if (!strcasecmp(sound_name, "sound_muted")) { ast_string_field_set(sounds, muted, sound_file); } else if (!strcasecmp(sound_name, "sound_unmuted")) { ast_string_field_set(sounds, unmuted, sound_file); } else if (!strcasecmp(sound_name, "sound_binaural_on")) { ast_string_field_set(sounds, binauralon, sound_file); } else if (!strcasecmp(sound_name, "sound_binaural_off")) { ast_string_field_set(sounds, binauraloff, sound_file); } else if (!strcasecmp(sound_name, "sound_there_are")) { ast_string_field_set(sounds, thereare, sound_file); } else if (!strcasecmp(sound_name, "sound_other_in_party")) { ast_string_field_set(sounds, otherinparty, sound_file); } else if (!strcasecmp(sound_name, "sound_place_into_conference")) { static int deprecation_warning = 1; if (deprecation_warning) { ast_log(LOG_WARNING, "sound_place_into_conference is deprecated" " and unused. Use sound_begin for similar functionality."); deprecation_warning = 0; } ast_string_field_set(sounds, placeintoconf, sound_file); } else if (!strcasecmp(sound_name, "sound_wait_for_leader")) { ast_string_field_set(sounds, waitforleader, sound_file); } else if (!strcasecmp(sound_name, "sound_leader_has_left")) { ast_string_field_set(sounds, leaderhasleft, sound_file); } else if (!strcasecmp(sound_name, "sound_get_pin")) { ast_string_field_set(sounds, getpin, sound_file); } else if (!strcasecmp(sound_name, "sound_invalid_pin")) { ast_string_field_set(sounds, invalidpin, sound_file); } else if (!strcasecmp(sound_name, "sound_locked")) { ast_string_field_set(sounds, locked, sound_file); } else if (!strcasecmp(sound_name, "sound_unlocked_now")) { ast_string_field_set(sounds, unlockednow, sound_file); } else if (!strcasecmp(sound_name, "sound_locked_now")) { ast_string_field_set(sounds, lockednow, sound_file); } else if (!strcasecmp(sound_name, "sound_error_menu")) { ast_string_field_set(sounds, errormenu, sound_file); } else if (!strcasecmp(sound_name, "sound_join")) { ast_string_field_set(sounds, join, sound_file); } else if (!strcasecmp(sound_name, "sound_leave")) { ast_string_field_set(sounds, leave, sound_file); } else if (!strcasecmp(sound_name, "sound_participants_muted")) { ast_string_field_set(sounds, participantsmuted, sound_file); } else if (!strcasecmp(sound_name, "sound_participants_unmuted")) { ast_string_field_set(sounds, participantsunmuted, sound_file); } else if (!strcasecmp(sound_name, "sound_begin")) { ast_string_field_set(sounds, begin, sound_file); } else { return -1; } return 0; } /*! CONFBRIDGE dialplan function functions and channel datastore. */ struct func_confbridge_data { struct bridge_profile b_profile; struct user_profile u_profile; struct conf_menu *menu; unsigned int b_usable:1; /*!< Tells if bridge profile is usable or not */ unsigned int u_usable:1; /*!< Tells if user profile is usable or not */ unsigned int m_usable:1; /*!< Tells if menu profile is usable or not */ }; static void func_confbridge_data_destructor(struct func_confbridge_data *b_data) { conf_bridge_profile_destroy(&b_data->b_profile); ao2_cleanup(b_data->menu); ast_free(b_data); } static void func_confbridge_destroy_cb(void *data) { struct func_confbridge_data *b_data = data; func_confbridge_data_destructor(b_data); }; static const struct ast_datastore_info confbridge_datastore = { .type = "confbridge", .destroy = func_confbridge_destroy_cb }; int func_confbridge_helper(struct ast_channel *chan, const char *cmd, char *data, const char *value) { struct ast_datastore *datastore; struct func_confbridge_data *b_data; char *parse; struct ast_variable tmpvar = { 0, }; struct ast_variable template = { .name = "template", .file = "CONFBRIDGE" }; AST_DECLARE_APP_ARGS(args, AST_APP_ARG(type); AST_APP_ARG(option); ); if (!chan) { ast_log(LOG_WARNING, "No channel was provided to %s function.\n", cmd); return -1; } /* parse all the required arguments and make sure they exist. */ if (ast_strlen_zero(data)) { return -1; } parse = ast_strdupa(data); AST_STANDARD_APP_ARGS(args, parse); if (ast_strlen_zero(args.type) || ast_strlen_zero(args.option)) { return -1; } ast_channel_lock(chan); datastore = ast_channel_datastore_find(chan, &confbridge_datastore, NULL); if (!datastore) { datastore = ast_datastore_alloc(&confbridge_datastore, NULL); if (!datastore) { ast_channel_unlock(chan); return 0; } b_data = ast_calloc(1, sizeof(*b_data)); if (!b_data) { ast_channel_unlock(chan); ast_datastore_free(datastore); return 0; } datastore->data = b_data; b_data->b_profile.sounds = bridge_profile_sounds_alloc(); if (!b_data->b_profile.sounds) { ast_channel_unlock(chan); ast_datastore_free(datastore); return 0; } if (!(b_data->menu = menu_alloc("dialplan"))) { ast_channel_unlock(chan); ast_datastore_free(datastore); return 0; } ast_channel_datastore_add(chan, datastore); } else { b_data = datastore->data; } ast_channel_unlock(chan); /* SET(CONFBRIDGE(type,option)=value) */ if (!value) { value = ""; } tmpvar.name = args.option; tmpvar.value = value; tmpvar.file = "CONFBRIDGE"; if (!strcasecmp(args.type, "bridge")) { if (!strcasecmp(args.option, "clear")) { b_data->b_usable = 0; conf_bridge_profile_destroy(&b_data->b_profile); memset(&b_data->b_profile, 0, sizeof(b_data->b_profile)) ; if (!(b_data->b_profile.sounds = bridge_profile_sounds_alloc())) { /* If this reallocation fails, the datastore has become unusable and must be destroyed. */ ast_channel_lock(chan); ast_channel_datastore_remove(chan, datastore); ast_channel_unlock(chan); ast_datastore_free(datastore); } return 0; } if (b_data && !b_data->b_usable && strcasecmp(args.option, "template")) { template.value = DEFAULT_BRIDGE_PROFILE; aco_process_var(&bridge_type, "dialplan", &template, &b_data->b_profile); } if (!aco_process_var(&bridge_type, "dialplan", &tmpvar, &b_data->b_profile)) { b_data->b_usable = 1; return 0; } } else if (!strcasecmp(args.type, "user")) { if (!strcasecmp(args.option, "clear")) { b_data->u_usable = 0; user_profile_destructor(&b_data->u_profile); memset(&b_data->u_profile, 0, sizeof(b_data->u_profile)); return 0; } if (b_data && !b_data->u_usable && strcasecmp(args.option, "template")) { template.value = DEFAULT_USER_PROFILE; aco_process_var(&user_type, "dialplan", &template, &b_data->u_profile); } if (!aco_process_var(&user_type, "dialplan", &tmpvar, &b_data->u_profile)) { b_data->u_usable = 1; return 0; } } else if (!strcasecmp(args.type, "menu")) { if (!strcasecmp(args.option, "clear")) { b_data->m_usable = 0; ao2_cleanup(b_data->menu); if (!(b_data->menu = menu_alloc("dialplan"))) { /* If this reallocation fails, the datastore has become unusable and must be destroyed */ ast_channel_lock(chan); ast_channel_datastore_remove(chan, datastore); ast_channel_unlock(chan); ast_datastore_free(datastore); } return 0; } if (b_data && !b_data->m_usable && strcasecmp(args.option, "template")) { template.value = DEFAULT_MENU_PROFILE; aco_process_var(&menu_type, "dialplan", &template, &b_data->menu); } if (!aco_process_var(&menu_type, "dialplan", &tmpvar, b_data->menu)) { b_data->m_usable = 1; return 0; } } ast_log(LOG_WARNING, "%s(%s,%s) cannot be set to '%s'. Invalid type, option, or value.\n", cmd, args.type, args.option, value); return -1; } static int add_action_to_menu_entry(struct conf_menu_entry *menu_entry, enum conf_menu_action_id id, char *databuf) { struct conf_menu_action *menu_action = ast_calloc(1, sizeof(*menu_action)); if (!menu_action) { return -1; } menu_action->id = id; switch (id) { case MENU_ACTION_NOOP: case MENU_ACTION_TOGGLE_MUTE: case MENU_ACTION_TOGGLE_BINAURAL: case MENU_ACTION_INCREASE_LISTENING: case MENU_ACTION_DECREASE_LISTENING: case MENU_ACTION_INCREASE_TALKING: case MENU_ACTION_DECREASE_TALKING: case MENU_ACTION_RESET_LISTENING: case MENU_ACTION_RESET_TALKING: case MENU_ACTION_ADMIN_TOGGLE_LOCK: case MENU_ACTION_ADMIN_TOGGLE_MUTE_PARTICIPANTS: case MENU_ACTION_PARTICIPANT_COUNT: case MENU_ACTION_ADMIN_KICK_LAST: case MENU_ACTION_LEAVE: case MENU_ACTION_SET_SINGLE_VIDEO_SRC: case MENU_ACTION_RELEASE_SINGLE_VIDEO_SRC: break; case MENU_ACTION_PLAYBACK: case MENU_ACTION_PLAYBACK_AND_CONTINUE: if (!(ast_strlen_zero(databuf))) { ast_copy_string(menu_action->data.playback_file, databuf, sizeof(menu_action->data.playback_file)); } else { ast_free(menu_action); return -1; } break; case MENU_ACTION_DIALPLAN_EXEC: if (!(ast_strlen_zero(databuf))) { AST_DECLARE_APP_ARGS(args, AST_APP_ARG(context); AST_APP_ARG(exten); AST_APP_ARG(priority); ); AST_STANDARD_APP_ARGS(args, databuf); if (!ast_strlen_zero(args.context)) { ast_copy_string(menu_action->data.dialplan_args.context, args.context, sizeof(menu_action->data.dialplan_args.context)); } if (!ast_strlen_zero(args.exten)) { ast_copy_string(menu_action->data.dialplan_args.exten, args.exten, sizeof(menu_action->data.dialplan_args.exten)); } menu_action->data.dialplan_args.priority = 1; /* 1 by default */ if (!ast_strlen_zero(args.priority) && (sscanf(args.priority, "%30d", &menu_action->data.dialplan_args.priority) != 1)) { /* invalid priority */ ast_free(menu_action); return -1; } } else { ast_free(menu_action); return -1; } }; AST_LIST_INSERT_TAIL(&menu_entry->actions, menu_action, action); return 0; } static int add_menu_entry(struct conf_menu *menu, const char *dtmf, const char *action_names) { struct conf_menu_entry *menu_entry = NULL, *cur = NULL; int res = 0; char *tmp_action_names = ast_strdupa(action_names); char *action = NULL; char *action_args; char *tmp; char buf[PATH_MAX]; char *delimiter = ","; if (!(menu_entry = ast_calloc(1, sizeof(*menu_entry)))) { return -1; } for (;;) { char *comma; char *startbrace; char *endbrace; unsigned int action_len; if (ast_strlen_zero(tmp_action_names)) { break; } startbrace = strchr(tmp_action_names, '('); endbrace = strchr(tmp_action_names, ')'); comma = strchr(tmp_action_names, ','); /* If the next action has brackets with comma delimited arguments in it, * make the delimeter ')' instead of a comma to preserve the arguments */ if (startbrace && endbrace && comma && (comma > startbrace && comma < endbrace)) { delimiter = ")"; } else { delimiter = ","; } if (!(action = strsep(&tmp_action_names, delimiter))) { break; } action = ast_strip(action); if (ast_strlen_zero(action)) { continue; } action_len = strlen(action); ast_copy_string(menu_entry->dtmf, dtmf, sizeof(menu_entry->dtmf)); if (!strcasecmp(action, "toggle_mute")) { res |= add_action_to_menu_entry(menu_entry, MENU_ACTION_TOGGLE_MUTE, NULL); } else if (!strcasecmp(action, "toggle_binaural")) { res |= add_action_to_menu_entry(menu_entry, MENU_ACTION_TOGGLE_BINAURAL, NULL); } else if (!strcasecmp(action, "no_op")) { res |= add_action_to_menu_entry(menu_entry, MENU_ACTION_NOOP, NULL); } else if (!strcasecmp(action, "increase_listening_volume")) { res |= add_action_to_menu_entry(menu_entry, MENU_ACTION_INCREASE_LISTENING, NULL); } else if (!strcasecmp(action, "decrease_listening_volume")) { res |= add_action_to_menu_entry(menu_entry, MENU_ACTION_DECREASE_LISTENING, NULL); } else if (!strcasecmp(action, "increase_talking_volume")) { res |= add_action_to_menu_entry(menu_entry, MENU_ACTION_INCREASE_TALKING, NULL); } else if (!strcasecmp(action, "reset_listening_volume")) { res |= add_action_to_menu_entry(menu_entry, MENU_ACTION_RESET_LISTENING, NULL); } else if (!strcasecmp(action, "reset_talking_volume")) { res |= add_action_to_menu_entry(menu_entry, MENU_ACTION_RESET_TALKING, NULL); } else if (!strcasecmp(action, "decrease_talking_volume")) { res |= add_action_to_menu_entry(menu_entry, MENU_ACTION_DECREASE_TALKING, NULL); } else if (!strcasecmp(action, "admin_toggle_conference_lock")) { res |= add_action_to_menu_entry(menu_entry, MENU_ACTION_ADMIN_TOGGLE_LOCK, NULL); } else if (!strcasecmp(action, "admin_toggle_mute_participants")) { res |= add_action_to_menu_entry(menu_entry, MENU_ACTION_ADMIN_TOGGLE_MUTE_PARTICIPANTS, NULL); } else if (!strcasecmp(action, "participant_count")) { res |= add_action_to_menu_entry(menu_entry, MENU_ACTION_PARTICIPANT_COUNT, NULL); } else if (!strcasecmp(action, "admin_kick_last")) { res |= add_action_to_menu_entry(menu_entry, MENU_ACTION_ADMIN_KICK_LAST, NULL); } else if (!strcasecmp(action, "leave_conference")) { res |= add_action_to_menu_entry(menu_entry, MENU_ACTION_LEAVE, NULL); } else if (!strcasecmp(action, "set_as_single_video_src")) { res |= add_action_to_menu_entry(menu_entry, MENU_ACTION_SET_SINGLE_VIDEO_SRC, NULL); } else if (!strcasecmp(action, "release_as_single_video_src")) { res |= add_action_to_menu_entry(menu_entry, MENU_ACTION_RELEASE_SINGLE_VIDEO_SRC, NULL); } else if (!strncasecmp(action, "dialplan_exec(", 14)) { ast_copy_string(buf, action, sizeof(buf)); action_args = buf; if ((action_args = strchr(action, '('))) { action_args++; } /* it is possible that this argument may or may not * have a closing brace at this point, it all depends on if * comma delimited arguments were provided */ if ((tmp = strchr(action, ')'))) { *tmp = '\0'; } res |= add_action_to_menu_entry(menu_entry, MENU_ACTION_DIALPLAN_EXEC, action_args); } else if (action_len >= 21 && !strncasecmp(action, "playback_and_continue(", 22)) { ast_copy_string(buf, action, sizeof(buf)); action_args = buf; if ((action_args = strchr(action, '(')) && (tmp = strrchr(action_args, ')'))) { *tmp = '\0'; action_args++; } res |= add_action_to_menu_entry(menu_entry, MENU_ACTION_PLAYBACK_AND_CONTINUE, action_args); } else if (action_len >= 8 && !strncasecmp(action, "playback(", 9)) { ast_copy_string(buf, action, sizeof(buf)); action_args = buf; if ((action_args = strchr(action, '(')) && (tmp = strrchr(action_args, ')'))) { *tmp = '\0'; action_args++; } res |= add_action_to_menu_entry(menu_entry, MENU_ACTION_PLAYBACK, action_args); } } /* if adding any of the actions failed, bail */ if (res) { conf_menu_entry_destroy(menu_entry); ast_free(menu_entry); return -1; } /* remove any list entry with an identical DTMF sequence for overrides */ AST_LIST_TRAVERSE_SAFE_BEGIN(&menu->entries, cur, entry) { if (!strcasecmp(cur->dtmf, menu_entry->dtmf)) { AST_LIST_REMOVE_CURRENT(entry); conf_menu_entry_destroy(cur); ast_free(cur); break; } } AST_LIST_TRAVERSE_SAFE_END; AST_LIST_INSERT_TAIL(&menu->entries, menu_entry, entry); return 0; } static char *complete_user_profile_name(const char *line, const char *word, int pos, int state) { int which = 0; char *res = NULL; int wordlen = strlen(word); struct ao2_iterator i; struct user_profile *u_profile = NULL; RAII_VAR(struct confbridge_cfg *, cfg, ao2_global_obj_ref(cfg_handle), ao2_cleanup); if (!cfg) { return NULL; } i = ao2_iterator_init(cfg->user_profiles, 0); while ((u_profile = ao2_iterator_next(&i))) { if (!strncasecmp(u_profile->name, word, wordlen) && ++which > state) { res = ast_strdup(u_profile->name); ao2_ref(u_profile, -1); break; } ao2_ref(u_profile, -1); } ao2_iterator_destroy(&i); return res; } static char *handle_cli_confbridge_show_user_profiles(struct ast_cli_entry *e, int cmd, struct ast_cli_args *a) { struct ao2_iterator it; struct user_profile *u_profile; RAII_VAR(struct confbridge_cfg *, cfg, NULL, ao2_cleanup); switch (cmd) { case CLI_INIT: e->command = "confbridge show profile users"; e->usage = "Usage: confbridge show profile users\n"; return NULL; case CLI_GENERATE: return NULL; } if (!(cfg = ao2_global_obj_ref(cfg_handle))) { return NULL; } ast_cli(a->fd,"--------- User Profiles -----------\n"); ao2_lock(cfg->user_profiles); it = ao2_iterator_init(cfg->user_profiles, 0); while ((u_profile = ao2_iterator_next(&it))) { ast_cli(a->fd,"%s\n", u_profile->name); ao2_ref(u_profile, -1); } ao2_iterator_destroy(&it); ao2_unlock(cfg->user_profiles); return CLI_SUCCESS; } static char *handle_cli_confbridge_show_user_profile(struct ast_cli_entry *e, int cmd, struct ast_cli_args *a) { struct user_profile u_profile; switch (cmd) { case CLI_INIT: e->command = "confbridge show profile user"; e->usage = "Usage: confbridge show profile user []\n"; return NULL; case CLI_GENERATE: if (a->pos == 4) { return complete_user_profile_name(a->line, a->word, a->pos, a->n); } return NULL; } if (a->argc != 5) { return CLI_SHOWUSAGE; } if (!(conf_find_user_profile(NULL, a->argv[4], &u_profile))) { ast_cli(a->fd, "No conference user profile named '%s' found!\n", a->argv[4]); return CLI_SUCCESS; } ast_cli(a->fd,"--------------------------------------------\n"); ast_cli(a->fd,"Name: %s\n", u_profile.name); ast_cli(a->fd,"Admin: %s\n", u_profile.flags & USER_OPT_ADMIN ? "true" : "false"); ast_cli(a->fd,"Send Events: %s\n", u_profile.flags & USER_OPT_SEND_EVENTS ? "true" : "false"); ast_cli(a->fd,"Echo Events: %s\n", u_profile.flags & USER_OPT_ECHO_EVENTS ? "true" : "false"); ast_cli(a->fd,"Marked User: %s\n", u_profile.flags & USER_OPT_MARKEDUSER ? "true" : "false"); ast_cli(a->fd,"Start Muted: %s\n", u_profile.flags & USER_OPT_STARTMUTED? "true" : "false"); ast_cli(a->fd,"MOH When Empty: %s\n", u_profile.flags & USER_OPT_MUSICONHOLD ? "enabled" : "disabled"); ast_cli(a->fd,"MOH Class: %s\n", ast_strlen_zero(u_profile.moh_class) ? "default" : u_profile.moh_class); ast_cli(a->fd,"Announcement: %s\n", u_profile.announcement); ast_cli(a->fd,"Quiet: %s\n", u_profile.flags & USER_OPT_QUIET ? "enabled" : "disabled"); ast_cli(a->fd,"Hear Join: %s\n", u_profile.flags & USER_OPT_HEAR_OWN_JOIN_SOUND ? "enabled" : "disabled"); ast_cli(a->fd,"Wait Marked: %s\n", u_profile.flags & USER_OPT_WAITMARKED ? "enabled" : "disabled"); ast_cli(a->fd,"END Marked (All): %s\n", u_profile.flags & USER_OPT_ENDMARKED ? "enabled" : "disabled"); ast_cli(a->fd,"END Marked (Any): %s\n", u_profile.flags & USER_OPT_ENDMARKEDANY ? "enabled" : "disabled"); ast_cli(a->fd,"Drop_silence: %s\n", u_profile.flags & USER_OPT_DROP_SILENCE ? "enabled" : "disabled"); ast_cli(a->fd,"Silence Threshold: %ums\n", u_profile.silence_threshold); ast_cli(a->fd,"Talking Threshold: %u\n", u_profile.talking_threshold); ast_cli(a->fd,"Denoise: %s\n", u_profile.flags & USER_OPT_DENOISE ? "enabled" : "disabled"); ast_cli(a->fd,"Jitterbuffer: %s\n", u_profile.flags & USER_OPT_JITTERBUFFER ? "enabled" : "disabled"); ast_cli(a->fd,"Talk Detect Events: %s\n", u_profile.flags & USER_OPT_TALKER_DETECT ? "enabled" : "disabled"); ast_cli(a->fd,"DTMF Pass Through: %s\n", u_profile.flags & USER_OPT_DTMF_PASS ? "enabled" : "disabled"); ast_cli(a->fd,"PIN: %s\n", ast_strlen_zero(u_profile.pin) ? "None" : u_profile.pin); ast_cli(a->fd,"Announce User Count: %s\n", u_profile.flags & USER_OPT_ANNOUNCEUSERCOUNT ? "enabled" : "disabled"); ast_cli(a->fd,"Announce join/leave: %s\n", u_profile.flags & (USER_OPT_ANNOUNCE_JOIN_LEAVE | USER_OPT_ANNOUNCE_JOIN_LEAVE_REVIEW) ? u_profile.flags & USER_OPT_ANNOUNCE_JOIN_LEAVE_REVIEW ? "enabled (with review)" : "enabled" : "disabled"); ast_cli(a->fd,"Announce User Count all: %s\n", u_profile.flags & USER_OPT_ANNOUNCEUSERCOUNTALL ? "enabled" : "disabled"); ast_cli(a->fd,"Text Messaging: %s\n", u_profile.flags & USER_OPT_TEXT_MESSAGING ? "enabled" : "disabled"); ast_cli(a->fd,"Answer Channel: %s\n", u_profile.flags & USER_OPT_ANSWER_CHANNEL ? "true" : "false"); ast_cli(a->fd, "\n"); return CLI_SUCCESS; } static char *complete_bridge_profile_name(const char *line, const char *word, int pos, int state) { int which = 0; char *res = NULL; int wordlen = strlen(word); struct ao2_iterator i; struct bridge_profile *b_profile = NULL; RAII_VAR(struct confbridge_cfg *, cfg, ao2_global_obj_ref(cfg_handle), ao2_cleanup); if (!cfg) { return NULL; } i = ao2_iterator_init(cfg->bridge_profiles, 0); while ((b_profile = ao2_iterator_next(&i))) { if (!strncasecmp(b_profile->name, word, wordlen) && ++which > state) { res = ast_strdup(b_profile->name); ao2_ref(b_profile, -1); break; } ao2_ref(b_profile, -1); } ao2_iterator_destroy(&i); return res; } static char *handle_cli_confbridge_show_bridge_profiles(struct ast_cli_entry *e, int cmd, struct ast_cli_args *a) { struct ao2_iterator it; struct bridge_profile *b_profile; RAII_VAR(struct confbridge_cfg *, cfg, NULL, ao2_cleanup); switch (cmd) { case CLI_INIT: e->command = "confbridge show profile bridges"; e->usage = "Usage: confbridge show profile bridges\n"; return NULL; case CLI_GENERATE: return NULL; } if (!(cfg = ao2_global_obj_ref(cfg_handle))) { return NULL; } ast_cli(a->fd,"--------- Bridge Profiles -----------\n"); ao2_lock(cfg->bridge_profiles); it = ao2_iterator_init(cfg->bridge_profiles, 0); while ((b_profile = ao2_iterator_next(&it))) { ast_cli(a->fd,"%s\n", b_profile->name); ao2_ref(b_profile, -1); } ao2_iterator_destroy(&it); ao2_unlock(cfg->bridge_profiles); return CLI_SUCCESS; } static char *handle_cli_confbridge_show_bridge_profile(struct ast_cli_entry *e, int cmd, struct ast_cli_args *a) { struct bridge_profile b_profile; char tmp[64]; switch (cmd) { case CLI_INIT: e->command = "confbridge show profile bridge"; e->usage = "Usage: confbridge show profile bridge \n"; return NULL; case CLI_GENERATE: if (a->pos == 4) { return complete_bridge_profile_name(a->line, a->word, a->pos, a->n); } return NULL; } if (a->argc != 5) { return CLI_SHOWUSAGE; } if (!(conf_find_bridge_profile(NULL, a->argv[4], &b_profile))) { ast_cli(a->fd, "No conference bridge profile named '%s' found!\n", a->argv[4]); return CLI_SUCCESS; } ast_cli(a->fd,"--------------------------------------------\n"); ast_cli(a->fd,"Name: %s\n", b_profile.name); ast_cli(a->fd,"Language: %s\n", b_profile.language); if (b_profile.internal_sample_rate) { snprintf(tmp, sizeof(tmp), "%u", b_profile.internal_sample_rate); } else { ast_copy_string(tmp, "auto", sizeof(tmp)); } ast_cli(a->fd,"Internal Sample Rate: %s\n", tmp); if (b_profile.maximum_sample_rate) { snprintf(tmp, sizeof(tmp), "%u", b_profile.maximum_sample_rate); } else { ast_copy_string(tmp, "none", sizeof(tmp)); } ast_cli(a->fd,"Maximum Sample Rate: %s\n", tmp); if (b_profile.mix_interval) { ast_cli(a->fd,"Mixing Interval: %u\n", b_profile.mix_interval); } else { ast_cli(a->fd,"Mixing Interval: Default 20ms\n"); } ast_cli(a->fd,"Record Conference: %s\n", b_profile.flags & BRIDGE_OPT_RECORD_CONFERENCE ? "yes" : "no"); ast_cli(a->fd,"Record File Append: %s\n", b_profile.flags & BRIDGE_OPT_RECORD_FILE_APPEND ? "yes" : "no"); ast_cli(a->fd,"Record File Timestamp: %s\n", b_profile.flags & BRIDGE_OPT_RECORD_FILE_TIMESTAMP ? "yes" : "no"); ast_cli(a->fd,"Record File: %s\n", ast_strlen_zero(b_profile.rec_file) ? "Auto Generated" : b_profile.rec_file); ast_cli(a->fd,"Record Options: %s\n", b_profile.rec_options); ast_cli(a->fd,"Record Command: %s\n", b_profile.rec_command); if (b_profile.max_members) { ast_cli(a->fd,"Max Members: %u\n", b_profile.max_members); } else { ast_cli(a->fd,"Max Members: No Limit\n"); } ast_cli(a->fd,"Registration context: %s\n", b_profile.regcontext); switch (b_profile.flags & (BRIDGE_OPT_VIDEO_SRC_LAST_MARKED | BRIDGE_OPT_VIDEO_SRC_FIRST_MARKED | BRIDGE_OPT_VIDEO_SRC_FOLLOW_TALKER | BRIDGE_OPT_VIDEO_SRC_SFU)) { case BRIDGE_OPT_VIDEO_SRC_LAST_MARKED: ast_cli(a->fd, "Video Mode: last_marked\n"); break; case BRIDGE_OPT_VIDEO_SRC_FIRST_MARKED: ast_cli(a->fd, "Video Mode: first_marked\n"); break; case BRIDGE_OPT_VIDEO_SRC_FOLLOW_TALKER: ast_cli(a->fd, "Video Mode: follow_talker\n"); break; case BRIDGE_OPT_VIDEO_SRC_SFU: ast_cli(a->fd, "Video Mode: sfu\n"); break; case 0: ast_cli(a->fd, "Video Mode: no video\n"); break; default: /* Opps. We have more than one video mode flag set. */ ast_assert(0); break; } ast_cli(a->fd,"Video Update Discard: %u\n", b_profile.video_update_discard); ast_cli(a->fd,"REMB Send Interval: %u\n", b_profile.remb_send_interval); switch (b_profile.flags & (BRIDGE_OPT_REMB_BEHAVIOR_AVERAGE | BRIDGE_OPT_REMB_BEHAVIOR_LOWEST | BRIDGE_OPT_REMB_BEHAVIOR_HIGHEST | BRIDGE_OPT_REMB_BEHAVIOR_AVERAGE_ALL | BRIDGE_OPT_REMB_BEHAVIOR_LOWEST_ALL | BRIDGE_OPT_REMB_BEHAVIOR_LOWEST_ALL)) { case BRIDGE_OPT_REMB_BEHAVIOR_AVERAGE: ast_cli(a->fd, "REMB Behavior: average\n"); break; case BRIDGE_OPT_REMB_BEHAVIOR_LOWEST: ast_cli(a->fd, "REMB Behavior: lowest\n"); break; case BRIDGE_OPT_REMB_BEHAVIOR_HIGHEST: ast_cli(a->fd, "REMB Behavior: highest\n"); break; case BRIDGE_OPT_REMB_BEHAVIOR_AVERAGE_ALL: ast_cli(a->fd, "REMB Behavior: average_all\n"); break; case BRIDGE_OPT_REMB_BEHAVIOR_LOWEST_ALL: ast_cli(a->fd, "REMB Behavior: lowest_all\n"); break; case BRIDGE_OPT_REMB_BEHAVIOR_HIGHEST_ALL: ast_cli(a->fd, "REMB Behavior: highest_all\n"); break; default: ast_assert(0); break; } ast_cli(a->fd,"Enable Events: %s\n", b_profile.flags & BRIDGE_OPT_ENABLE_EVENTS ? "yes" : "no"); ast_cli(a->fd,"sound_only_person: %s\n", conf_get_sound(CONF_SOUND_ONLY_PERSON, b_profile.sounds)); ast_cli(a->fd,"sound_only_one: %s\n", conf_get_sound(CONF_SOUND_ONLY_ONE, b_profile.sounds)); ast_cli(a->fd,"sound_has_joined: %s\n", conf_get_sound(CONF_SOUND_HAS_JOINED, b_profile.sounds)); ast_cli(a->fd,"sound_has_left: %s\n", conf_get_sound(CONF_SOUND_HAS_LEFT, b_profile.sounds)); ast_cli(a->fd,"sound_kicked: %s\n", conf_get_sound(CONF_SOUND_KICKED, b_profile.sounds)); ast_cli(a->fd,"sound_muted: %s\n", conf_get_sound(CONF_SOUND_MUTED, b_profile.sounds)); ast_cli(a->fd,"sound_unmuted: %s\n", conf_get_sound(CONF_SOUND_UNMUTED, b_profile.sounds)); ast_cli(a->fd,"sound_binaural_on: %s\n", conf_get_sound(CONF_SOUND_BINAURAL_ON, b_profile.sounds)); ast_cli(a->fd,"sound_binaural_off: %s\n", conf_get_sound(CONF_SOUND_BINAURAL_OFF, b_profile.sounds)); ast_cli(a->fd,"sound_there_are: %s\n", conf_get_sound(CONF_SOUND_THERE_ARE, b_profile.sounds)); ast_cli(a->fd,"sound_other_in_party: %s\n", conf_get_sound(CONF_SOUND_OTHER_IN_PARTY, b_profile.sounds)); ast_cli(a->fd,"sound_place_into_conference: %s\n", conf_get_sound(CONF_SOUND_PLACE_IN_CONF, b_profile.sounds)); ast_cli(a->fd,"sound_wait_for_leader: %s\n", conf_get_sound(CONF_SOUND_WAIT_FOR_LEADER, b_profile.sounds)); ast_cli(a->fd,"sound_leader_has_left: %s\n", conf_get_sound(CONF_SOUND_LEADER_HAS_LEFT, b_profile.sounds)); ast_cli(a->fd,"sound_get_pin: %s\n", conf_get_sound(CONF_SOUND_GET_PIN, b_profile.sounds)); ast_cli(a->fd,"sound_invalid_pin: %s\n", conf_get_sound(CONF_SOUND_INVALID_PIN, b_profile.sounds)); ast_cli(a->fd,"sound_locked: %s\n", conf_get_sound(CONF_SOUND_LOCKED, b_profile.sounds)); ast_cli(a->fd,"sound_unlocked_now: %s\n", conf_get_sound(CONF_SOUND_UNLOCKED_NOW, b_profile.sounds)); ast_cli(a->fd,"sound_lockednow: %s\n", conf_get_sound(CONF_SOUND_LOCKED_NOW, b_profile.sounds)); ast_cli(a->fd,"sound_error_menu: %s\n", conf_get_sound(CONF_SOUND_ERROR_MENU, b_profile.sounds)); ast_cli(a->fd,"sound_join: %s\n", conf_get_sound(CONF_SOUND_JOIN, b_profile.sounds)); ast_cli(a->fd,"sound_leave: %s\n", conf_get_sound(CONF_SOUND_LEAVE, b_profile.sounds)); ast_cli(a->fd,"sound_participants_muted: %s\n", conf_get_sound(CONF_SOUND_PARTICIPANTS_MUTED, b_profile.sounds)); ast_cli(a->fd,"sound_participants_unmuted: %s\n", conf_get_sound(CONF_SOUND_PARTICIPANTS_UNMUTED, b_profile.sounds)); ast_cli(a->fd,"sound_begin: %s\n", conf_get_sound(CONF_SOUND_BEGIN, b_profile.sounds)); ast_cli(a->fd,"\n"); conf_bridge_profile_destroy(&b_profile); return CLI_SUCCESS; } static char *complete_menu_name(const char *line, const char *word, int pos, int state) { int which = 0; char *res = NULL; int wordlen = strlen(word); struct ao2_iterator i; struct conf_menu *menu = NULL; RAII_VAR(struct confbridge_cfg *, cfg, ao2_global_obj_ref(cfg_handle), ao2_cleanup); if (!cfg) { return NULL; } i = ao2_iterator_init(cfg->menus, 0); while ((menu = ao2_iterator_next(&i))) { if (!strncasecmp(menu->name, word, wordlen) && ++which > state) { res = ast_strdup(menu->name); ao2_ref(menu, -1); break; } ao2_ref(menu, -1); } ao2_iterator_destroy(&i); return res; } static char *handle_cli_confbridge_show_menus(struct ast_cli_entry *e, int cmd, struct ast_cli_args *a) { struct ao2_iterator it; struct conf_menu *menu; RAII_VAR(struct confbridge_cfg *, cfg, NULL, ao2_cleanup); switch (cmd) { case CLI_INIT: e->command = "confbridge show menus"; e->usage = "Usage: confbridge show profile menus\n"; return NULL; case CLI_GENERATE: return NULL; } if (!(cfg = ao2_global_obj_ref(cfg_handle))) { return NULL; } ast_cli(a->fd,"--------- Menus -----------\n"); ao2_lock(cfg->menus); it = ao2_iterator_init(cfg->menus, 0); while ((menu = ao2_iterator_next(&it))) { ast_cli(a->fd,"%s\n", menu->name); ao2_ref(menu, -1); } ao2_iterator_destroy(&it); ao2_unlock(cfg->menus); return CLI_SUCCESS; } static char *handle_cli_confbridge_show_menu(struct ast_cli_entry *e, int cmd, struct ast_cli_args *a) { RAII_VAR(struct conf_menu *, menu, NULL, ao2_cleanup); RAII_VAR(struct confbridge_cfg *, cfg, NULL, ao2_cleanup); struct conf_menu_entry *menu_entry = NULL; struct conf_menu_action *menu_action = NULL; switch (cmd) { case CLI_INIT: e->command = "confbridge show menu"; e->usage = "Usage: confbridge show menu []\n"; return NULL; case CLI_GENERATE: if (a->pos == 3) { return complete_menu_name(a->line, a->word, a->pos, a->n); } return NULL; } if (a->argc != 4) { return CLI_SHOWUSAGE; } if (!(cfg = ao2_global_obj_ref(cfg_handle))) { return NULL; } if (!(menu = menu_find(cfg->menus, a->argv[3]))) { ast_cli(a->fd, "No conference menu named '%s' found!\n", a->argv[3]); return CLI_SUCCESS; } ao2_lock(menu); ast_cli(a->fd,"Name: %s\n", menu->name); AST_LIST_TRAVERSE(&menu->entries, menu_entry, entry) { int action_num = 0; ast_cli(a->fd, "%s=", menu_entry->dtmf); AST_LIST_TRAVERSE(&menu_entry->actions, menu_action, action) { if (action_num) { ast_cli(a->fd, ", "); } switch (menu_action->id) { case MENU_ACTION_TOGGLE_MUTE: ast_cli(a->fd, "toggle_mute"); break; case MENU_ACTION_TOGGLE_BINAURAL: ast_cli(a->fd, "toggle_binaural"); break; case MENU_ACTION_NOOP: ast_cli(a->fd, "no_op"); break; case MENU_ACTION_INCREASE_LISTENING: ast_cli(a->fd, "increase_listening_volume"); break; case MENU_ACTION_DECREASE_LISTENING: ast_cli(a->fd, "decrease_listening_volume"); break; case MENU_ACTION_RESET_LISTENING: ast_cli(a->fd, "reset_listening_volume"); break; case MENU_ACTION_RESET_TALKING: ast_cli(a->fd, "reset_talking_volume"); break; case MENU_ACTION_INCREASE_TALKING: ast_cli(a->fd, "increase_talking_volume"); break; case MENU_ACTION_DECREASE_TALKING: ast_cli(a->fd, "decrease_talking_volume"); break; case MENU_ACTION_PLAYBACK: ast_cli(a->fd, "playback(%s)", menu_action->data.playback_file); break; case MENU_ACTION_PLAYBACK_AND_CONTINUE: ast_cli(a->fd, "playback_and_continue(%s)", menu_action->data.playback_file); break; case MENU_ACTION_DIALPLAN_EXEC: ast_cli(a->fd, "dialplan_exec(%s,%s,%d)", menu_action->data.dialplan_args.context, menu_action->data.dialplan_args.exten, menu_action->data.dialplan_args.priority); break; case MENU_ACTION_ADMIN_TOGGLE_LOCK: ast_cli(a->fd, "admin_toggle_conference_lock"); break; case MENU_ACTION_ADMIN_TOGGLE_MUTE_PARTICIPANTS: ast_cli(a->fd, "admin_toggle_mute_participants"); break; case MENU_ACTION_PARTICIPANT_COUNT: ast_cli(a->fd, "participant_count"); break; case MENU_ACTION_ADMIN_KICK_LAST: ast_cli(a->fd, "admin_kick_last"); break; case MENU_ACTION_LEAVE: ast_cli(a->fd, "leave_conference"); break; case MENU_ACTION_SET_SINGLE_VIDEO_SRC: ast_cli(a->fd, "set_as_single_video_src"); break; case MENU_ACTION_RELEASE_SINGLE_VIDEO_SRC: ast_cli(a->fd, "release_as_single_video_src"); break; } action_num++; } ast_cli(a->fd,"\n"); } ao2_unlock(menu); return CLI_SUCCESS; } static struct ast_cli_entry cli_confbridge_parser[] = { AST_CLI_DEFINE(handle_cli_confbridge_show_user_profile, "Show a conference user profile."), AST_CLI_DEFINE(handle_cli_confbridge_show_bridge_profile, "Show a conference bridge profile."), AST_CLI_DEFINE(handle_cli_confbridge_show_menu, "Show a conference menu"), AST_CLI_DEFINE(handle_cli_confbridge_show_user_profiles, "Show a list of conference user profiles."), AST_CLI_DEFINE(handle_cli_confbridge_show_bridge_profiles, "Show a list of conference bridge profiles."), AST_CLI_DEFINE(handle_cli_confbridge_show_menus, "Show a list of conference menus"), }; static void confbridge_cfg_destructor(void *obj) { struct confbridge_cfg *cfg = obj; ao2_cleanup(cfg->user_profiles); ao2_cleanup(cfg->bridge_profiles); ao2_cleanup(cfg->menus); } void *confbridge_cfg_alloc(void) { struct confbridge_cfg *cfg; if (!(cfg = ao2_alloc(sizeof(*cfg), confbridge_cfg_destructor))) { return NULL; } cfg->user_profiles = ao2_container_alloc_hash(AO2_ALLOC_OPT_LOCK_MUTEX, 0, 283, user_hash_cb, NULL, user_cmp_cb); if (!cfg->user_profiles) { goto error; } cfg->bridge_profiles = ao2_container_alloc_hash(AO2_ALLOC_OPT_LOCK_MUTEX, 0, 283, bridge_hash_cb, NULL, bridge_cmp_cb); if (!cfg->bridge_profiles) { goto error; } cfg->menus = ao2_container_alloc_hash(AO2_ALLOC_OPT_LOCK_MUTEX, 0, 283, menu_hash_cb, NULL, menu_cmp_cb); if (!cfg->menus) { goto error; } return cfg; error: ao2_ref(cfg, -1); return NULL; } static int announce_user_count_all_handler(const struct aco_option *opt, struct ast_variable *var, void *obj) { struct user_profile *u_profile = obj; if (strcasecmp(var->name, "announce_user_count_all")) { return -1; } if (ast_true(var->value)) { u_profile->flags = u_profile->flags | USER_OPT_ANNOUNCEUSERCOUNTALL; } else if (ast_false(var->value)) { u_profile->flags = u_profile->flags & ~USER_OPT_ANNOUNCEUSERCOUNTALL; } else if (sscanf(var->value, "%30u", &u_profile->announce_user_count_all_after) == 1) { u_profile->flags = u_profile->flags | USER_OPT_ANNOUNCEUSERCOUNTALL; } else { return -1; } return 0; } static int mix_interval_handler(const struct aco_option *opt, struct ast_variable *var, void *obj) { struct bridge_profile *b_profile = obj; if (strcasecmp(var->name, "mixing_interval")) { return -1; } if (sscanf(var->value, "%30u", &b_profile->mix_interval) != 1) { return -1; } switch (b_profile->mix_interval) { case 10: case 20: case 40: case 80: return 0; default: return -1; } } static int video_mode_handler(const struct aco_option *opt, struct ast_variable *var, void *obj) { struct bridge_profile *b_profile = obj; if (strcasecmp(var->name, "video_mode")) { return -1; } if (!strcasecmp(var->value, "first_marked")) { ast_set_flags_to(b_profile, BRIDGE_OPT_VIDEO_SRC_FIRST_MARKED | BRIDGE_OPT_VIDEO_SRC_LAST_MARKED | BRIDGE_OPT_VIDEO_SRC_FOLLOW_TALKER | BRIDGE_OPT_VIDEO_SRC_SFU, BRIDGE_OPT_VIDEO_SRC_FIRST_MARKED); } else if (!strcasecmp(var->value, "last_marked")) { ast_set_flags_to(b_profile, BRIDGE_OPT_VIDEO_SRC_FIRST_MARKED | BRIDGE_OPT_VIDEO_SRC_LAST_MARKED | BRIDGE_OPT_VIDEO_SRC_FOLLOW_TALKER | BRIDGE_OPT_VIDEO_SRC_SFU, BRIDGE_OPT_VIDEO_SRC_LAST_MARKED); } else if (!strcasecmp(var->value, "follow_talker")) { ast_set_flags_to(b_profile, BRIDGE_OPT_VIDEO_SRC_FIRST_MARKED | BRIDGE_OPT_VIDEO_SRC_LAST_MARKED | BRIDGE_OPT_VIDEO_SRC_FOLLOW_TALKER | BRIDGE_OPT_VIDEO_SRC_SFU, BRIDGE_OPT_VIDEO_SRC_FOLLOW_TALKER); } else if (!strcasecmp(var->value, "sfu")) { ast_set_flags_to(b_profile, BRIDGE_OPT_VIDEO_SRC_FIRST_MARKED | BRIDGE_OPT_VIDEO_SRC_LAST_MARKED | BRIDGE_OPT_VIDEO_SRC_FOLLOW_TALKER | BRIDGE_OPT_VIDEO_SRC_SFU, BRIDGE_OPT_VIDEO_SRC_SFU); } else if (!strcasecmp(var->value, "none")) { ast_clear_flag(b_profile, BRIDGE_OPT_VIDEO_SRC_FIRST_MARKED | BRIDGE_OPT_VIDEO_SRC_LAST_MARKED | BRIDGE_OPT_VIDEO_SRC_FOLLOW_TALKER | BRIDGE_OPT_VIDEO_SRC_SFU); } else { return -1; } return 0; } static int remb_behavior_handler(const struct aco_option *opt, struct ast_variable *var, void *obj) { struct bridge_profile *b_profile = obj; if (strcasecmp(var->name, "remb_behavior")) { return -1; } ast_clear_flag(b_profile, BRIDGE_OPT_REMB_BEHAVIOR_AVERAGE | BRIDGE_OPT_REMB_BEHAVIOR_LOWEST | BRIDGE_OPT_REMB_BEHAVIOR_HIGHEST | BRIDGE_OPT_REMB_BEHAVIOR_AVERAGE_ALL | BRIDGE_OPT_REMB_BEHAVIOR_LOWEST_ALL | BRIDGE_OPT_REMB_BEHAVIOR_HIGHEST_ALL | BRIDGE_OPT_REMB_BEHAVIOR_FORCE ); if (!strcasecmp(var->value, "average")) { ast_set_flag(b_profile, BRIDGE_OPT_REMB_BEHAVIOR_AVERAGE); } else if (!strcasecmp(var->value, "lowest")) { ast_set_flag(b_profile, BRIDGE_OPT_REMB_BEHAVIOR_LOWEST); } else if (!strcasecmp(var->value, "highest")) { ast_set_flag(b_profile, BRIDGE_OPT_REMB_BEHAVIOR_HIGHEST); } else if (!strcasecmp(var->value, "average_all")) { ast_set_flag(b_profile, BRIDGE_OPT_REMB_BEHAVIOR_AVERAGE_ALL); } else if (!strcasecmp(var->value, "lowest_all")) { ast_set_flag(b_profile, BRIDGE_OPT_REMB_BEHAVIOR_LOWEST_ALL); } else if (!strcasecmp(var->value, "highest_all")) { ast_set_flag(b_profile, BRIDGE_OPT_REMB_BEHAVIOR_HIGHEST_ALL); } else if (!strcasecmp(var->value, "force")) { ast_set_flag(b_profile, BRIDGE_OPT_REMB_BEHAVIOR_FORCE); } else { return -1; } return 0; } static int user_template_handler(const struct aco_option *opt, struct ast_variable *var, void *obj) { struct user_profile *u_profile = obj; return conf_find_user_profile(NULL, var->value, u_profile) ? 0 : -1; } static int bridge_template_handler(const struct aco_option *opt, struct ast_variable *var, void *obj) { struct bridge_profile *b_profile = obj; struct bridge_profile_sounds *sounds = bridge_profile_sounds_alloc(); struct bridge_profile_sounds *oldsounds = b_profile->sounds; if (!sounds) { return -1; } if (!(conf_find_bridge_profile(NULL, var->value, b_profile))) { ao2_ref(sounds, -1); return -1; } /* Using a bridge profile as a template is a little complicated due to the sounds. Since the sounds * structure of a dynamic profile will need to be altered, a completely new sounds structure must be * created instead of simply holding a reference to the one built by the config file. */ ast_string_field_set(sounds, onlyperson, b_profile->sounds->onlyperson); ast_string_field_set(sounds, onlyone, b_profile->sounds->onlyone); ast_string_field_set(sounds, hasjoin, b_profile->sounds->hasjoin); ast_string_field_set(sounds, hasleft, b_profile->sounds->hasleft); ast_string_field_set(sounds, kicked, b_profile->sounds->kicked); ast_string_field_set(sounds, muted, b_profile->sounds->muted); ast_string_field_set(sounds, unmuted, b_profile->sounds->unmuted); ast_string_field_set(sounds, thereare, b_profile->sounds->thereare); ast_string_field_set(sounds, otherinparty, b_profile->sounds->otherinparty); ast_string_field_set(sounds, placeintoconf, b_profile->sounds->placeintoconf); ast_string_field_set(sounds, waitforleader, b_profile->sounds->waitforleader); ast_string_field_set(sounds, leaderhasleft, b_profile->sounds->leaderhasleft); ast_string_field_set(sounds, getpin, b_profile->sounds->getpin); ast_string_field_set(sounds, invalidpin, b_profile->sounds->invalidpin); ast_string_field_set(sounds, locked, b_profile->sounds->locked); ast_string_field_set(sounds, unlockednow, b_profile->sounds->unlockednow); ast_string_field_set(sounds, lockednow, b_profile->sounds->lockednow); ast_string_field_set(sounds, errormenu, b_profile->sounds->errormenu); ast_string_field_set(sounds, join, b_profile->sounds->join); ast_string_field_set(sounds, leave, b_profile->sounds->leave); ast_string_field_set(sounds, participantsmuted, b_profile->sounds->participantsmuted); ast_string_field_set(sounds, participantsunmuted, b_profile->sounds->participantsunmuted); ast_string_field_set(sounds, begin, b_profile->sounds->begin); ao2_ref(b_profile->sounds, -1); /* sounds struct copied over to it from the template by reference only. */ ao2_ref(oldsounds, -1); /* original sounds struct we don't need anymore */ b_profile->sounds = sounds; /* the new sounds struct that is a deep copy of the one from the template. */ return 0; } static int copy_menu_entry(struct conf_menu_entry *dst, struct conf_menu_entry *src) { struct conf_menu_action *menu_action; struct conf_menu_action *new_menu_action; ast_copy_string(dst->dtmf, src->dtmf, sizeof(dst->dtmf)); AST_LIST_HEAD_INIT_NOLOCK(&dst->actions); AST_LIST_TRAVERSE(&src->actions, menu_action, action) { if (!(new_menu_action = ast_calloc(1, sizeof(*new_menu_action)))) { return -1; } memcpy(new_menu_action, menu_action, sizeof(*new_menu_action)); AST_LIST_NEXT(new_menu_action, action) = NULL; AST_LIST_INSERT_TAIL(&dst->actions, new_menu_action, action); } return 0; } static int conf_menu_profile_copy(struct conf_menu *dst, struct conf_menu *src) { /* Copy each menu item to the dst struct */ struct conf_menu_entry *cur; AST_LIST_TRAVERSE(&src->entries, cur, entry) { struct conf_menu_entry *cpy; if (!(cpy = ast_calloc(1, sizeof(*cpy)))) { return -1; } if (copy_menu_entry(cpy, cur)) { conf_menu_entry_destroy(cpy); ast_free(cpy); return -1; } AST_LIST_INSERT_TAIL(&dst->entries, cpy, entry); } return 0; } static int menu_template_handler(const struct aco_option *opt, struct ast_variable *var, void *obj) { struct conf_menu *dst_menu = obj; RAII_VAR(struct confbridge_cfg *, cfg, ao2_global_obj_ref(cfg_handle), ao2_cleanup); RAII_VAR(struct conf_menu *, src_menu, NULL, ao2_cleanup); if (!cfg) { return 0; } if (!(src_menu = ao2_find(cfg->menus, var->value, OBJ_KEY))) { return -1; } if (conf_menu_profile_copy(dst_menu, src_menu)) { return -1; } return 0; } static int sound_option_handler(const struct aco_option *opt, struct ast_variable *var, void *obj) { set_sound(var->name, var->value, obj); return 0; } static int menu_option_handler(const struct aco_option *opt, struct ast_variable *var, void *obj) { add_menu_entry(obj, var->name, var->value); return 0; } static int verify_default_profiles(void) { RAII_VAR(struct user_profile *, user_profile, NULL, ao2_cleanup); RAII_VAR(struct bridge_profile *, bridge_profile, NULL, ao2_cleanup); RAII_VAR(struct conf_menu *, menu_profile, NULL, ao2_cleanup); /* We can only be called as a result of an aco_process_config so this is safe */ struct confbridge_cfg *cfg = aco_pending_config(&cfg_info); if (!cfg) { return 0; } bridge_profile = ao2_find(cfg->bridge_profiles, DEFAULT_BRIDGE_PROFILE, OBJ_KEY); if (!bridge_profile) { bridge_profile = bridge_profile_alloc(DEFAULT_BRIDGE_PROFILE); if (!bridge_profile) { return -1; } ast_log(AST_LOG_NOTICE, "Adding %s profile to app_confbridge\n", DEFAULT_BRIDGE_PROFILE); aco_set_defaults(&bridge_type, DEFAULT_BRIDGE_PROFILE, bridge_profile); ao2_link(cfg->bridge_profiles, bridge_profile); } user_profile = ao2_find(cfg->user_profiles, DEFAULT_USER_PROFILE, OBJ_KEY); if (!user_profile) { user_profile = user_profile_alloc(DEFAULT_USER_PROFILE); if (!user_profile) { return -1; } ast_log(AST_LOG_NOTICE, "Adding %s profile to app_confbridge\n", DEFAULT_USER_PROFILE); aco_set_defaults(&user_type, DEFAULT_USER_PROFILE, user_profile); ao2_link(cfg->user_profiles, user_profile); } menu_profile = ao2_find(cfg->menus, DEFAULT_MENU_PROFILE, OBJ_KEY); if (!menu_profile) { menu_profile = menu_alloc(DEFAULT_MENU_PROFILE); if (!menu_profile) { return -1; } ast_log(AST_LOG_NOTICE, "Adding %s menu to app_confbridge\n", DEFAULT_MENU_PROFILE); aco_set_defaults(&menu_type, DEFAULT_MENU_PROFILE, menu_profile); ao2_link(cfg->menus, menu_profile); } return 0; } int conf_load_config(void) { if (aco_info_init(&cfg_info)) { return -1; } /* User options */ aco_option_register(&cfg_info, "type", ACO_EXACT, user_types, NULL, OPT_NOOP_T, 0, 0); aco_option_register(&cfg_info, "admin", ACO_EXACT, user_types, "no", OPT_BOOLFLAG_T, 1, FLDSET(struct user_profile, flags), USER_OPT_ADMIN); aco_option_register(&cfg_info, "send_events", ACO_EXACT, user_types, "no", OPT_BOOLFLAG_T, 1, FLDSET(struct user_profile, flags), USER_OPT_SEND_EVENTS); aco_option_register(&cfg_info, "echo_events", ACO_EXACT, user_types, "no", OPT_BOOLFLAG_T, 1, FLDSET(struct user_profile, flags), USER_OPT_ECHO_EVENTS); aco_option_register(&cfg_info, "marked", ACO_EXACT, user_types, "no", OPT_BOOLFLAG_T, 1, FLDSET(struct user_profile, flags), USER_OPT_MARKEDUSER); aco_option_register(&cfg_info, "startmuted", ACO_EXACT, user_types, "no", OPT_BOOLFLAG_T, 1, FLDSET(struct user_profile, flags), USER_OPT_STARTMUTED); aco_option_register(&cfg_info, "music_on_hold_when_empty", ACO_EXACT, user_types, "no", OPT_BOOLFLAG_T, 1, FLDSET(struct user_profile, flags), USER_OPT_MUSICONHOLD); aco_option_register(&cfg_info, "quiet", ACO_EXACT, user_types, "no", OPT_BOOLFLAG_T, 1, FLDSET(struct user_profile, flags), USER_OPT_QUIET); aco_option_register(&cfg_info, "hear_own_join_sound", ACO_EXACT, user_types, "yes", OPT_BOOLFLAG_T, 1, FLDSET(struct user_profile, flags), USER_OPT_HEAR_OWN_JOIN_SOUND); aco_option_register_custom(&cfg_info, "announce_user_count_all", ACO_EXACT, user_types, "no", announce_user_count_all_handler, 0); aco_option_register(&cfg_info, "announce_user_count", ACO_EXACT, user_types, "no", OPT_BOOLFLAG_T, 1, FLDSET(struct user_profile, flags), USER_OPT_ANNOUNCEUSERCOUNT); /* Negative logic. Defaults to "yes" and evaluates with ast_false(). If !ast_false(), USER_OPT_NOONLYPERSON is cleared */ aco_option_register(&cfg_info, "announce_only_user", ACO_EXACT, user_types, "yes", OPT_BOOLFLAG_T, 0, FLDSET(struct user_profile, flags), USER_OPT_NOONLYPERSON); aco_option_register(&cfg_info, "wait_marked", ACO_EXACT, user_types, "no", OPT_BOOLFLAG_T, 1, FLDSET(struct user_profile, flags), USER_OPT_WAITMARKED); aco_option_register(&cfg_info, "end_marked", ACO_EXACT, user_types, "no", OPT_BOOLFLAG_T, 1, FLDSET(struct user_profile, flags), USER_OPT_ENDMARKED); aco_option_register(&cfg_info, "end_marked_any", ACO_EXACT, user_types, "no", OPT_BOOLFLAG_T, 1, FLDSET(struct user_profile, flags), USER_OPT_ENDMARKEDANY); aco_option_register(&cfg_info, "talk_detection_events", ACO_EXACT, user_types, "no", OPT_BOOLFLAG_T, 1, FLDSET(struct user_profile, flags), USER_OPT_TALKER_DETECT); aco_option_register(&cfg_info, "dtmf_passthrough", ACO_EXACT, user_types, "no", OPT_BOOLFLAG_T, 1, FLDSET(struct user_profile, flags), USER_OPT_DTMF_PASS); aco_option_register(&cfg_info, "announce_join_leave", ACO_EXACT, user_types, "no", OPT_BOOLFLAG_T, 1, FLDSET(struct user_profile, flags), USER_OPT_ANNOUNCE_JOIN_LEAVE); aco_option_register(&cfg_info, "announce_join_leave_review", ACO_EXACT, user_types, "no", OPT_BOOLFLAG_T, 1, FLDSET(struct user_profile, flags), USER_OPT_ANNOUNCE_JOIN_LEAVE_REVIEW); aco_option_register(&cfg_info, "pin", ACO_EXACT, user_types, NULL, OPT_CHAR_ARRAY_T, 0, CHARFLDSET(struct user_profile, pin)); aco_option_register(&cfg_info, "music_on_hold_class", ACO_EXACT, user_types, NULL, OPT_CHAR_ARRAY_T, 0, CHARFLDSET(struct user_profile, moh_class)); aco_option_register(&cfg_info, "announcement", ACO_EXACT, user_types, NULL, OPT_CHAR_ARRAY_T, 0, CHARFLDSET(struct user_profile, announcement)); aco_option_register(&cfg_info, "denoise", ACO_EXACT, user_types, "no", OPT_BOOLFLAG_T, 1, FLDSET(struct user_profile, flags), USER_OPT_DENOISE); aco_option_register(&cfg_info, "dsp_drop_silence", ACO_EXACT, user_types, "no", OPT_BOOLFLAG_T, 1, FLDSET(struct user_profile, flags), USER_OPT_DROP_SILENCE); aco_option_register(&cfg_info, "dsp_silence_threshold", ACO_EXACT, user_types, __stringify(DEFAULT_SILENCE_THRESHOLD), OPT_UINT_T, 0, FLDSET(struct user_profile, silence_threshold)); aco_option_register(&cfg_info, "dsp_talking_threshold", ACO_EXACT, user_types, __stringify(DEFAULT_TALKING_THRESHOLD), OPT_UINT_T, 0, FLDSET(struct user_profile, talking_threshold)); aco_option_register(&cfg_info, "jitterbuffer", ACO_EXACT, user_types, "no", OPT_BOOLFLAG_T, 1, FLDSET(struct user_profile, flags), USER_OPT_JITTERBUFFER); aco_option_register(&cfg_info, "timeout", ACO_EXACT, user_types, "0", OPT_UINT_T, 0, FLDSET(struct user_profile, timeout)); aco_option_register(&cfg_info, "text_messaging", ACO_EXACT, user_types, "yes", OPT_BOOLFLAG_T, 1, FLDSET(struct user_profile, flags), USER_OPT_TEXT_MESSAGING); aco_option_register(&cfg_info, "answer_channel", ACO_EXACT, user_types, "yes", OPT_BOOLFLAG_T, 1, FLDSET(struct user_profile, flags), USER_OPT_ANSWER_CHANNEL); /* This option should only be used with the CONFBRIDGE dialplan function */ aco_option_register_custom(&cfg_info, "template", ACO_EXACT, user_types, NULL, user_template_handler, 0); /* XXX ASTERISK-21271 need a user supplied bridge merge_priority to merge ConfBridges (default = 1, range 1-INT_MAX) */ /* Bridge options */ aco_option_register(&cfg_info, "type", ACO_EXACT, bridge_types, NULL, OPT_NOOP_T, 0, 0); aco_option_register(&cfg_info, "jitterbuffer", ACO_EXACT, bridge_types, "no", OPT_BOOLFLAG_T, 1, FLDSET(struct bridge_profile, flags), USER_OPT_JITTERBUFFER); /* "auto" will fail to parse as a uint, but we use PARSE_DEFAULT to set the value to 0 in that case, which is the value that auto resolves to */ aco_option_register(&cfg_info, "internal_sample_rate", ACO_EXACT, bridge_types, "0", OPT_UINT_T, PARSE_DEFAULT, FLDSET(struct bridge_profile, internal_sample_rate), 0); aco_option_register(&cfg_info, "binaural_active", ACO_EXACT, bridge_types, "no", OPT_BOOLFLAG_T, 1, FLDSET(struct bridge_profile, flags), BRIDGE_OPT_BINAURAL_ACTIVE); aco_option_register(&cfg_info, "maximum_sample_rate", ACO_EXACT, bridge_types, "0", OPT_UINT_T, PARSE_DEFAULT, FLDSET(struct bridge_profile, maximum_sample_rate), 0); aco_option_register_custom(&cfg_info, "mixing_interval", ACO_EXACT, bridge_types, "20", mix_interval_handler, 0); aco_option_register(&cfg_info, "record_conference", ACO_EXACT, bridge_types, "no", OPT_BOOLFLAG_T, 1, FLDSET(struct bridge_profile, flags), BRIDGE_OPT_RECORD_CONFERENCE); aco_option_register_custom(&cfg_info, "video_mode", ACO_EXACT, bridge_types, NULL, video_mode_handler, 0); aco_option_register(&cfg_info, "record_file_append", ACO_EXACT, bridge_types, "yes", OPT_BOOLFLAG_T, 1, FLDSET(struct bridge_profile, flags), BRIDGE_OPT_RECORD_FILE_APPEND); aco_option_register(&cfg_info, "record_file_timestamp", ACO_EXACT, bridge_types, "yes", OPT_BOOLFLAG_T, 1, FLDSET(struct bridge_profile, flags), BRIDGE_OPT_RECORD_FILE_TIMESTAMP); aco_option_register(&cfg_info, "max_members", ACO_EXACT, bridge_types, "0", OPT_UINT_T, 0, FLDSET(struct bridge_profile, max_members)); aco_option_register(&cfg_info, "record_file", ACO_EXACT, bridge_types, NULL, OPT_CHAR_ARRAY_T, 0, CHARFLDSET(struct bridge_profile, rec_file)); aco_option_register(&cfg_info, "record_options", ACO_EXACT, bridge_types, NULL, OPT_CHAR_ARRAY_T, 0, CHARFLDSET(struct bridge_profile, rec_options)); aco_option_register(&cfg_info, "record_command", ACO_EXACT, bridge_types, NULL, OPT_CHAR_ARRAY_T, 0, CHARFLDSET(struct bridge_profile, rec_command)); aco_option_register(&cfg_info, "regcontext", ACO_EXACT, bridge_types, NULL, OPT_CHAR_ARRAY_T, 0, CHARFLDSET(struct bridge_profile, regcontext)); aco_option_register(&cfg_info, "language", ACO_EXACT, bridge_types, "en", OPT_CHAR_ARRAY_T, 0, CHARFLDSET(struct bridge_profile, language)); aco_option_register_custom(&cfg_info, "sound_", ACO_PREFIX, bridge_types, NULL, sound_option_handler, 0); aco_option_register(&cfg_info, "video_update_discard", ACO_EXACT, bridge_types, "2000", OPT_UINT_T, 0, FLDSET(struct bridge_profile, video_update_discard)); aco_option_register(&cfg_info, "remb_send_interval", ACO_EXACT, bridge_types, "0", OPT_UINT_T, 0, FLDSET(struct bridge_profile, remb_send_interval)); aco_option_register_custom(&cfg_info, "remb_behavior", ACO_EXACT, bridge_types, "average", remb_behavior_handler, 0); aco_option_register(&cfg_info, "remb_estimated_bitrate", ACO_EXACT, bridge_types, "0", OPT_UINT_T, 0, FLDSET(struct bridge_profile, remb_estimated_bitrate)); aco_option_register(&cfg_info, "enable_events", ACO_EXACT, bridge_types, "no", OPT_BOOLFLAG_T, 1, FLDSET(struct bridge_profile, flags), BRIDGE_OPT_ENABLE_EVENTS); /* This option should only be used with the CONFBRIDGE dialplan function */ aco_option_register_custom(&cfg_info, "template", ACO_EXACT, bridge_types, NULL, bridge_template_handler, 0); /* Menu options */ aco_option_register(&cfg_info, "type", ACO_EXACT, menu_types, NULL, OPT_NOOP_T, 0, 0); /* This option should only be used with the CONFBRIDGE dialplan function */ aco_option_register_custom(&cfg_info, "template", ACO_EXACT, menu_types, NULL, menu_template_handler, 0); aco_option_register_custom(&cfg_info, "^[0-9A-D*#]+$", ACO_REGEX, menu_types, NULL, menu_option_handler, 0); if (aco_process_config(&cfg_info, 0) == ACO_PROCESS_ERROR) { goto error; } if (ast_cli_register_multiple(cli_confbridge_parser, ARRAY_LEN(cli_confbridge_parser))) { goto error; } return 0; error: conf_destroy_config(); return -1; } int conf_reload_config(void) { if (aco_process_config(&cfg_info, 1) == ACO_PROCESS_ERROR) { /* On a reload, just keep the config we already have in place. */ return -1; } return 0; } static void conf_user_profile_copy(struct user_profile *dst, struct user_profile *src) { *dst = *src; } const struct user_profile *conf_find_user_profile(struct ast_channel *chan, const char *user_profile_name, struct user_profile *result) { struct user_profile *tmp2; struct ast_datastore *datastore = NULL; struct func_confbridge_data *b_data = NULL; RAII_VAR(struct confbridge_cfg *, cfg, ao2_global_obj_ref(cfg_handle), ao2_cleanup); if (chan && ast_strlen_zero(user_profile_name)) { ast_channel_lock(chan); datastore = ast_channel_datastore_find(chan, &confbridge_datastore, NULL); ast_channel_unlock(chan); if (datastore) { b_data = datastore->data; if (b_data->u_usable) { conf_user_profile_copy(result, &b_data->u_profile); return result; } } } if (!cfg) { return NULL; } if (ast_strlen_zero(user_profile_name)) { user_profile_name = DEFAULT_USER_PROFILE; } if (!(tmp2 = ao2_find(cfg->user_profiles, user_profile_name, OBJ_KEY))) { return NULL; } ao2_lock(tmp2); conf_user_profile_copy(result, tmp2); ao2_unlock(tmp2); ao2_ref(tmp2, -1); return result; } void conf_bridge_profile_copy(struct bridge_profile *dst, struct bridge_profile *src) { *dst = *src; if (src->sounds) { ao2_ref(src->sounds, +1); } } void conf_bridge_profile_destroy(struct bridge_profile *b_profile) { if (b_profile->sounds) { ao2_ref(b_profile->sounds, -1); b_profile->sounds = NULL; } } const struct bridge_profile *conf_find_bridge_profile(struct ast_channel *chan, const char *bridge_profile_name, struct bridge_profile *result) { struct bridge_profile *tmp2; struct ast_datastore *datastore = NULL; struct func_confbridge_data *b_data = NULL; RAII_VAR(struct confbridge_cfg *, cfg, ao2_global_obj_ref(cfg_handle), ao2_cleanup); if (chan && ast_strlen_zero(bridge_profile_name)) { ast_channel_lock(chan); datastore = ast_channel_datastore_find(chan, &confbridge_datastore, NULL); ast_channel_unlock(chan); if (datastore) { b_data = datastore->data; if (b_data->b_usable) { conf_bridge_profile_copy(result, &b_data->b_profile); return result; } } } if (!cfg) { return NULL; } if (ast_strlen_zero(bridge_profile_name)) { bridge_profile_name = DEFAULT_BRIDGE_PROFILE; } if (!(tmp2 = ao2_find(cfg->bridge_profiles, bridge_profile_name, OBJ_KEY))) { return NULL; } ao2_lock(tmp2); conf_bridge_profile_copy(result, tmp2); ao2_unlock(tmp2); ao2_ref(tmp2, -1); return result; } struct dtmf_menu_hook_pvt { struct confbridge_user *user; struct conf_menu_entry menu_entry; struct conf_menu *menu; }; static void menu_hook_destroy(void *hook_pvt) { struct dtmf_menu_hook_pvt *pvt = hook_pvt; struct conf_menu_action *action = NULL; ao2_cleanup(pvt->menu); while ((action = AST_LIST_REMOVE_HEAD(&pvt->menu_entry.actions, action))) { ast_free(action); } ast_free(pvt); } static int menu_hook_callback(struct ast_bridge_channel *bridge_channel, void *hook_pvt) { struct dtmf_menu_hook_pvt *pvt = hook_pvt; return conf_handle_dtmf(bridge_channel, pvt->user, &pvt->menu_entry, pvt->menu); } void conf_menu_entry_destroy(struct conf_menu_entry *menu_entry) { struct conf_menu_action *menu_action = NULL; while ((menu_action = AST_LIST_REMOVE_HEAD(&menu_entry->actions, action))) { ast_free(menu_action); } } int conf_find_menu_entry_by_sequence(const char *dtmf_sequence, struct conf_menu *menu, struct conf_menu_entry *result) { struct conf_menu_entry *menu_entry = NULL; ao2_lock(menu); AST_LIST_TRAVERSE(&menu->entries, menu_entry, entry) { if (!strcasecmp(menu_entry->dtmf, dtmf_sequence)) { copy_menu_entry(result, menu_entry); ao2_unlock(menu); return 1; } } ao2_unlock(menu); return 0; } static int apply_menu_to_user(struct confbridge_user *user, struct conf_menu *menu) { struct conf_menu_entry *menu_entry; SCOPED_AO2LOCK(menu_lock, menu); AST_LIST_TRAVERSE(&menu->entries, menu_entry, entry) { struct dtmf_menu_hook_pvt *pvt; if (!(pvt = ast_calloc(1, sizeof(*pvt)))) { return -1; } pvt->user = user; pvt->menu = ao2_bump(menu); if (copy_menu_entry(&pvt->menu_entry, menu_entry)) { menu_hook_destroy(pvt); return -1; } if (ast_bridge_dtmf_hook(&user->features, pvt->menu_entry.dtmf, menu_hook_callback, pvt, menu_hook_destroy, 0)) { menu_hook_destroy(pvt); } } strcpy(user->menu_name, menu->name); /* Safe */ return 0; } int conf_set_menu_to_user(struct ast_channel *chan, struct confbridge_user *user, const char *menu_profile_name) { RAII_VAR(struct confbridge_cfg *, cfg, ao2_global_obj_ref(cfg_handle), ao2_cleanup); RAII_VAR(struct conf_menu *, menu, NULL, ao2_cleanup); if (chan && ast_strlen_zero(menu_profile_name)) { struct ast_datastore *datastore; struct func_confbridge_data *b_data; ast_channel_lock(chan); datastore = ast_channel_datastore_find(chan, &confbridge_datastore, NULL); ast_channel_unlock(chan); if (datastore) { /* If a menu exists in the CONFBRIDGE function datastore, use it. */ b_data = datastore->data; if (b_data->m_usable) { menu = ao2_bump(b_data->menu); return apply_menu_to_user(user, menu); } } } /* Otherwise, we need to get whatever menu profile is specified to use (or default). */ if (!cfg) { return -1; } if (ast_strlen_zero(menu_profile_name)) { menu_profile_name = DEFAULT_MENU_PROFILE; } if (!(menu = ao2_find(cfg->menus, menu_profile_name, OBJ_KEY))) { return -1; } return apply_menu_to_user(user, menu); } void conf_destroy_config(void) { ast_cli_unregister_multiple(cli_confbridge_parser, ARRAY_LEN(cli_confbridge_parser)); aco_info_destroy(&cfg_info); ao2_global_obj_release(cfg_handle); }