/* * Asterisk -- An open source telephony toolkit. * * Copyright (C) 1999 - 2007, Digium, Inc. * * 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 Dialing API * * \author Joshua Colp */ /*** MODULEINFO core ***/ #include "asterisk.h" #include #include #include "asterisk/channel.h" #include "asterisk/utils.h" #include "asterisk/lock.h" #include "asterisk/linkedlists.h" #include "asterisk/dial.h" #include "asterisk/pbx.h" #include "asterisk/musiconhold.h" #include "asterisk/app.h" #include "asterisk/causes.h" #include "asterisk/stasis_channels.h" #include "asterisk/max_forwards.h" /*! \brief Main dialing structure. Contains global options, channels being dialed, and more! */ struct ast_dial { int num; /*!< Current number to give to next dialed channel */ int timeout; /*!< Maximum time allowed for dial attempts */ int actual_timeout; /*!< Actual timeout based on all factors (ie: channels) */ enum ast_dial_result state; /*!< Status of dial */ void *options[AST_DIAL_OPTION_MAX]; /*!< Global options */ ast_dial_state_callback state_callback; /*!< Status callback */ void *user_data; /*!< Attached user data */ AST_LIST_HEAD(, ast_dial_channel) channels; /*!< Channels being dialed */ pthread_t thread; /*!< Thread (if running in async) */ ast_callid callid; /*!< callid (if running in async) */ ast_mutex_t lock; /*! Lock to protect the thread information above */ }; /*! \brief Dialing channel structure. Contains per-channel dialing options, asterisk channel, and more! */ struct ast_dial_channel { int num; /*!< Unique number for dialed channel */ int timeout; /*!< Maximum time allowed for attempt */ char *tech; /*!< Technology being dialed */ char *device; /*!< Device being dialed */ void *options[AST_DIAL_OPTION_MAX]; /*!< Channel specific options */ int cause; /*!< Cause code in case of failure */ unsigned int is_running_app:1; /*!< Is this running an application? */ char *assignedid1; /*!< UniqueID to assign channel */ char *assignedid2; /*!< UniqueID to assign 2nd channel */ struct ast_channel *owner; /*!< Asterisk channel */ AST_LIST_ENTRY(ast_dial_channel) list; /*!< Linked list information */ }; /*! \brief Typedef for dial option enable */ typedef void *(*ast_dial_option_cb_enable)(void *data); /*! \brief Typedef for dial option disable */ typedef int (*ast_dial_option_cb_disable)(void *data); /*! \brief Structure for 'ANSWER_EXEC' option */ struct answer_exec_struct { char app[AST_MAX_APP]; /*!< Application name */ char *args; /*!< Application arguments */ }; /*! \brief Enable function for 'ANSWER_EXEC' option */ static void *answer_exec_enable(void *data) { struct answer_exec_struct *answer_exec = NULL; char *app = ast_strdupa((char*)data), *args = NULL; /* Not giving any data to this option is bad, mmmk? */ if (ast_strlen_zero(app)) return NULL; /* Create new data structure */ if (!(answer_exec = ast_calloc(1, sizeof(*answer_exec)))) return NULL; /* Parse out application and arguments */ if ((args = strchr(app, ','))) { *args++ = '\0'; answer_exec->args = ast_strdup(args); } /* Copy application name */ ast_copy_string(answer_exec->app, app, sizeof(answer_exec->app)); return answer_exec; } /*! \brief Disable function for 'ANSWER_EXEC' option */ static int answer_exec_disable(void *data) { struct answer_exec_struct *answer_exec = data; /* Make sure we have a value */ if (!answer_exec) return -1; /* If arguments are present, free them too */ if (answer_exec->args) ast_free(answer_exec->args); /* This is simple - just free the structure */ ast_free(answer_exec); return 0; } static void *music_enable(void *data) { return ast_strdup(data); } static int music_disable(void *data) { if (!data) return -1; ast_free(data); return 0; } static void *predial_enable(void *data) { return ast_strdup(data); } static int predial_disable(void *data) { if (!data) { return -1; } ast_free(data); return 0; } /*! \brief Application execution function for 'ANSWER_EXEC' option */ static void answer_exec_run(struct ast_dial *dial, struct ast_dial_channel *dial_channel, char *app, char *args) { struct ast_channel *chan = dial_channel->owner; /* Execute the application, if available */ if (ast_pbx_exec_application(chan, app, args)) { /* If the application was not found, return immediately */ return; } /* If another thread is not taking over hang up the channel */ ast_mutex_lock(&dial->lock); if (dial->thread != AST_PTHREADT_STOP) { ast_hangup(chan); dial_channel->owner = NULL; } ast_mutex_unlock(&dial->lock); return; } struct ast_option_types { enum ast_dial_option option; ast_dial_option_cb_enable enable; ast_dial_option_cb_disable disable; }; /*! * \brief Map options to respective handlers (enable/disable). * * \note This list MUST be perfectly kept in order with enum * ast_dial_option, or else madness will happen. */ static const struct ast_option_types option_types[] = { { AST_DIAL_OPTION_RINGING, NULL, NULL }, /*!< Always indicate ringing to caller */ { AST_DIAL_OPTION_ANSWER_EXEC, answer_exec_enable, answer_exec_disable }, /*!< Execute application upon answer in async mode */ { AST_DIAL_OPTION_MUSIC, music_enable, music_disable }, /*!< Play music to the caller instead of ringing */ { AST_DIAL_OPTION_DISABLE_CALL_FORWARDING, NULL, NULL }, /*!< Disable call forwarding on channels */ { AST_DIAL_OPTION_PREDIAL, predial_enable, predial_disable }, /*!< Execute a subroutine on the outbound channels prior to dialing */ { AST_DIAL_OPTION_DIAL_REPLACES_SELF, NULL, NULL }, /*!< The dial operation is a replacement for the requester */ { AST_DIAL_OPTION_SELF_DESTROY, NULL, NULL}, /*!< Destroy self at end of ast_dial_run */ { AST_DIAL_OPTION_MAX, NULL, NULL }, /*!< Terminator of list */ }; /*! \brief Maximum number of channels we can watch at a time */ #define AST_MAX_WATCHERS 256 /*! \brief Macro for finding the option structure to use on a dialed channel */ #define FIND_RELATIVE_OPTION(dial, dial_channel, ast_dial_option) (dial_channel->options[ast_dial_option] ? dial_channel->options[ast_dial_option] : dial->options[ast_dial_option]) /*! \brief Macro that determines whether a channel is the caller or not */ #define IS_CALLER(chan, owner) (chan == owner ? 1 : 0) /*! \brief New dialing structure * \note Create a dialing structure * \return Returns a calloc'd ast_dial structure, NULL on failure */ struct ast_dial *ast_dial_create(void) { struct ast_dial *dial = NULL; /* Allocate new memory for structure */ if (!(dial = ast_calloc(1, sizeof(*dial)))) return NULL; /* Initialize list of channels */ AST_LIST_HEAD_INIT(&dial->channels); /* Initialize thread to NULL */ dial->thread = AST_PTHREADT_NULL; /* No timeout exists... yet */ dial->timeout = -1; dial->actual_timeout = -1; /* Can't forget about the lock */ ast_mutex_init(&dial->lock); return dial; } static int dial_append_common(struct ast_dial *dial, struct ast_dial_channel *channel, const char *tech, const char *device, const struct ast_assigned_ids *assignedids) { /* Record technology and device for when we actually dial */ channel->tech = ast_strdup(tech); channel->device = ast_strdup(device); /* Store the assigned id */ if (assignedids && !ast_strlen_zero(assignedids->uniqueid)) { channel->assignedid1 = ast_strdup(assignedids->uniqueid); if (!ast_strlen_zero(assignedids->uniqueid2)) { channel->assignedid2 = ast_strdup(assignedids->uniqueid2); } } /* Grab reference number from dial structure */ channel->num = ast_atomic_fetchadd_int(&dial->num, +1); /* No timeout exists... yet */ channel->timeout = -1; /* Insert into channels list */ AST_LIST_INSERT_TAIL(&dial->channels, channel, list); return channel->num; } /*! \brief Append a channel * \note Appends a channel to a dialing structure * \return Returns channel reference number on success, -1 on failure */ int ast_dial_append(struct ast_dial *dial, const char *tech, const char *device, const struct ast_assigned_ids *assignedids) { struct ast_dial_channel *channel = NULL; /* Make sure we have required arguments */ if (!dial || !tech || !device) return -1; /* Allocate new memory for dialed channel structure */ if (!(channel = ast_calloc(1, sizeof(*channel)))) return -1; return dial_append_common(dial, channel, tech, device, assignedids); } int ast_dial_append_channel(struct ast_dial *dial, struct ast_channel *chan) { struct ast_dial_channel *channel; char *tech; char *device; char *dash; if (!dial || !chan) { return -1; } channel = ast_calloc(1, sizeof(*channel)); if (!channel) { return -1; } channel->owner = chan; tech = ast_strdupa(ast_channel_name(chan)); device = strchr(tech, '/'); if (!device) { ast_free(channel); return -1; } *device++ = '\0'; dash = strrchr(device, '-'); if (dash) { *dash = '\0'; } return dial_append_common(dial, channel, tech, device, NULL); } /*! \brief Helper function that requests all channels */ static int begin_dial_prerun(struct ast_dial_channel *channel, struct ast_channel *chan, struct ast_format_cap *cap, const char *predial_string) { struct ast_format_cap *cap_all_audio = NULL; struct ast_format_cap *cap_request; struct ast_format_cap *requester_cap = NULL; struct ast_assigned_ids assignedids = { .uniqueid = channel->assignedid1, .uniqueid2 = channel->assignedid2, }; if (chan) { int max_forwards; ast_channel_lock(chan); max_forwards = ast_max_forwards_get(chan); requester_cap = ao2_bump(ast_channel_nativeformats(chan)); ast_channel_unlock(chan); if (max_forwards <= 0) { ast_log(LOG_WARNING, "Cannot dial from channel '%s'. Max forwards exceeded\n", ast_channel_name(chan)); } } if (!channel->owner) { if (cap && ast_format_cap_count(cap)) { cap_request = cap; } else if (requester_cap) { cap_request = requester_cap; } else { cap_all_audio = ast_format_cap_alloc(AST_FORMAT_CAP_FLAG_DEFAULT); ast_format_cap_append_by_type(cap_all_audio, AST_MEDIA_TYPE_AUDIO); cap_request = cap_all_audio; } /* If we fail to create our owner channel bail out */ if (!(channel->owner = ast_request(channel->tech, cap_request, &assignedids, chan, channel->device, &channel->cause))) { ao2_cleanup(cap_all_audio); return -1; } cap_request = NULL; ao2_cleanup(requester_cap); ao2_cleanup(cap_all_audio); } if (chan) { ast_channel_lock_both(chan, channel->owner); } else { ast_channel_lock(channel->owner); } ast_channel_stage_snapshot(channel->owner); ast_channel_appl_set(channel->owner, "AppDial2"); ast_channel_data_set(channel->owner, "(Outgoing Line)"); memset(ast_channel_whentohangup(channel->owner), 0, sizeof(*ast_channel_whentohangup(channel->owner))); /* Inherit everything from he who spawned this dial */ if (chan) { ast_channel_inherit_variables(chan, channel->owner); ast_channel_datastore_inherit(chan, channel->owner); ast_max_forwards_decrement(channel->owner); /* Copy over callerid information */ ast_party_redirecting_copy(ast_channel_redirecting(channel->owner), ast_channel_redirecting(chan)); ast_channel_dialed(channel->owner)->transit_network_select = ast_channel_dialed(chan)->transit_network_select; ast_connected_line_copy_from_caller(ast_channel_connected(channel->owner), ast_channel_caller(chan)); ast_channel_language_set(channel->owner, ast_channel_language(chan)); if (channel->options[AST_DIAL_OPTION_DIAL_REPLACES_SELF]) { ast_channel_req_accountcodes(channel->owner, chan, AST_CHANNEL_REQUESTOR_REPLACEMENT); } else { ast_channel_req_accountcodes(channel->owner, chan, AST_CHANNEL_REQUESTOR_BRIDGE_PEER); } if (ast_strlen_zero(ast_channel_musicclass(channel->owner))) ast_channel_musicclass_set(channel->owner, ast_channel_musicclass(chan)); ast_channel_adsicpe_set(channel->owner, ast_channel_adsicpe(chan)); ast_channel_transfercapability_set(channel->owner, ast_channel_transfercapability(chan)); ast_channel_unlock(chan); } ast_channel_stage_snapshot_done(channel->owner); ast_channel_unlock(channel->owner); if (!ast_strlen_zero(predial_string)) { if (chan) { ast_autoservice_start(chan); } ast_pre_call(channel->owner, predial_string); if (chan) { ast_autoservice_stop(chan); } } return 0; } int ast_dial_prerun(struct ast_dial *dial, struct ast_channel *chan, struct ast_format_cap *cap) { struct ast_dial_channel *channel; int res = -1; char *predial_string = dial->options[AST_DIAL_OPTION_PREDIAL]; AST_LIST_LOCK(&dial->channels); AST_LIST_TRAVERSE(&dial->channels, channel, list) { if ((res = begin_dial_prerun(channel, chan, cap, predial_string))) { break; } } AST_LIST_UNLOCK(&dial->channels); return res; } /*! \brief Helper function that does the beginning dialing per-appended channel */ static int begin_dial_channel(struct ast_dial_channel *channel, struct ast_channel *chan, int async, const char *predial_string, struct ast_channel *forwarder_chan) { int res = 1; char forwarder[AST_CHANNEL_NAME]; /* If no owner channel exists yet execute pre-run */ if (!channel->owner && begin_dial_prerun(channel, chan, NULL, predial_string)) { return 0; } if (forwarder_chan) { ast_copy_string(forwarder, ast_channel_name(forwarder_chan), sizeof(forwarder)); ast_channel_lock(channel->owner); pbx_builtin_setvar_helper(channel->owner, "FORWARDERNAME", forwarder); ast_channel_unlock(channel->owner); } /* Attempt to actually call this device */ if ((res = ast_call(channel->owner, channel->device, 0))) { res = 0; ast_hangup(channel->owner); channel->owner = NULL; } else { ast_channel_publish_dial(async ? NULL : chan, channel->owner, channel->device, NULL); res = 1; ast_verb(3, "Called %s\n", channel->device); } return res; } /*! \brief Helper function that does the beginning dialing per dial structure */ static int begin_dial(struct ast_dial *dial, struct ast_channel *chan, int async) { struct ast_dial_channel *channel = NULL; int success = 0; char *predial_string = dial->options[AST_DIAL_OPTION_PREDIAL]; /* Iterate through channel list, requesting and calling each one */ AST_LIST_LOCK(&dial->channels); AST_LIST_TRAVERSE(&dial->channels, channel, list) { success += begin_dial_channel(channel, chan, async, predial_string, NULL); } AST_LIST_UNLOCK(&dial->channels); /* If number of failures matches the number of channels, then this truly failed */ return success; } /*! \brief Helper function to handle channels that have been call forwarded */ static int handle_call_forward(struct ast_dial *dial, struct ast_dial_channel *channel, struct ast_channel *chan) { struct ast_channel *original = channel->owner; char *tmp = ast_strdupa(ast_channel_call_forward(channel->owner)); char *tech = "Local", *device = tmp, *stuff; char *predial_string = dial->options[AST_DIAL_OPTION_PREDIAL]; /* If call forwarding is disabled just drop the original channel and don't attempt to dial the new one */ if (FIND_RELATIVE_OPTION(dial, channel, AST_DIAL_OPTION_DISABLE_CALL_FORWARDING)) { ast_hangup(original); channel->owner = NULL; return 0; } /* Figure out the new destination */ if ((stuff = strchr(tmp, '/'))) { *stuff++ = '\0'; tech = tmp; device = stuff; } else { const char *forward_context; char destination[AST_MAX_CONTEXT + AST_MAX_EXTENSION + 1]; ast_channel_lock(original); forward_context = pbx_builtin_getvar_helper(original, "FORWARD_CONTEXT"); snprintf(destination, sizeof(destination), "%s@%s", tmp, S_OR(forward_context, ast_channel_context(original))); ast_channel_unlock(original); device = ast_strdupa(destination); } /* Drop old destination information */ ast_free(channel->tech); ast_free(channel->device); ast_free(channel->assignedid1); channel->assignedid1 = NULL; ast_free(channel->assignedid2); channel->assignedid2 = NULL; /* Update the dial channel with the new destination information */ channel->tech = ast_strdup(tech); channel->device = ast_strdup(device); AST_LIST_UNLOCK(&dial->channels); /* Drop the original channel */ channel->owner = NULL; /* Finally give it a go... send it out into the world */ begin_dial_channel(channel, chan, chan ? 0 : 1, predial_string, original); ast_channel_publish_dial_forward(chan, original, channel->owner, NULL, "CANCEL", ast_channel_call_forward(original)); ast_hangup(original); return 0; } /*! \brief Helper function that finds the dialed channel based on owner */ static struct ast_dial_channel *find_relative_dial_channel(struct ast_dial *dial, struct ast_channel *owner) { struct ast_dial_channel *channel = NULL; AST_LIST_LOCK(&dial->channels); AST_LIST_TRAVERSE(&dial->channels, channel, list) { if (channel->owner == owner) break; } AST_LIST_UNLOCK(&dial->channels); return channel; } static void set_state(struct ast_dial *dial, enum ast_dial_result state) { dial->state = state; if (dial->state_callback) dial->state_callback(dial); } /*! \brief Helper function that handles frames */ static void handle_frame(struct ast_dial *dial, struct ast_dial_channel *channel, struct ast_frame *fr, struct ast_channel *chan) { if (fr->frametype == AST_FRAME_CONTROL) { switch (fr->subclass.integer) { case AST_CONTROL_ANSWER: if (chan) { ast_verb(3, "%s answered %s\n", ast_channel_name(channel->owner), ast_channel_name(chan)); } else { ast_verb(3, "%s answered\n", ast_channel_name(channel->owner)); } AST_LIST_LOCK(&dial->channels); AST_LIST_REMOVE(&dial->channels, channel, list); AST_LIST_INSERT_HEAD(&dial->channels, channel, list); AST_LIST_UNLOCK(&dial->channels); ast_channel_publish_dial(chan, channel->owner, channel->device, "ANSWER"); set_state(dial, AST_DIAL_RESULT_ANSWERED); break; case AST_CONTROL_BUSY: ast_verb(3, "%s is busy\n", ast_channel_name(channel->owner)); ast_channel_publish_dial(chan, channel->owner, channel->device, "BUSY"); ast_hangup(channel->owner); channel->cause = AST_CAUSE_USER_BUSY; channel->owner = NULL; break; case AST_CONTROL_CONGESTION: ast_verb(3, "%s is circuit-busy\n", ast_channel_name(channel->owner)); ast_channel_publish_dial(chan, channel->owner, channel->device, "CONGESTION"); ast_hangup(channel->owner); channel->cause = AST_CAUSE_NORMAL_CIRCUIT_CONGESTION; channel->owner = NULL; break; case AST_CONTROL_INCOMPLETE: ast_verb(3, "%s dialed Incomplete extension %s\n", ast_channel_name(channel->owner), ast_channel_exten(channel->owner)); if (chan) { ast_indicate(chan, AST_CONTROL_INCOMPLETE); } else { ast_hangup(channel->owner); channel->cause = AST_CAUSE_UNALLOCATED; channel->owner = NULL; } break; case AST_CONTROL_RINGING: ast_verb(3, "%s is ringing\n", ast_channel_name(channel->owner)); ast_channel_publish_dial(chan, channel->owner, channel->device, "RINGING"); if (chan && !dial->options[AST_DIAL_OPTION_MUSIC]) ast_indicate(chan, AST_CONTROL_RINGING); set_state(dial, AST_DIAL_RESULT_RINGING); break; case AST_CONTROL_PROGRESS: ast_channel_publish_dial(chan, channel->owner, channel->device, "PROGRESS"); if (chan) { ast_verb(3, "%s is making progress, passing it to %s\n", ast_channel_name(channel->owner), ast_channel_name(chan)); ast_indicate(chan, AST_CONTROL_PROGRESS); } else { ast_verb(3, "%s is making progress\n", ast_channel_name(channel->owner)); } set_state(dial, AST_DIAL_RESULT_PROGRESS); break; case AST_CONTROL_VIDUPDATE: if (!chan) { break; } ast_verb(3, "%s requested a video update, passing it to %s\n", ast_channel_name(channel->owner), ast_channel_name(chan)); ast_indicate(chan, AST_CONTROL_VIDUPDATE); break; case AST_CONTROL_SRCUPDATE: if (!chan) { break; } ast_verb(3, "%s requested a source update, passing it to %s\n", ast_channel_name(channel->owner), ast_channel_name(chan)); ast_indicate(chan, AST_CONTROL_SRCUPDATE); break; case AST_CONTROL_CONNECTED_LINE: if (!chan) { break; } ast_verb(3, "%s connected line has changed, passing it to %s\n", ast_channel_name(channel->owner), ast_channel_name(chan)); if (ast_channel_connected_line_sub(channel->owner, chan, fr, 1) && ast_channel_connected_line_macro(channel->owner, chan, fr, 1, 1)) { ast_indicate_data(chan, AST_CONTROL_CONNECTED_LINE, fr->data.ptr, fr->datalen); } break; case AST_CONTROL_REDIRECTING: if (!chan) { break; } ast_verb(3, "%s redirecting info has changed, passing it to %s\n", ast_channel_name(channel->owner), ast_channel_name(chan)); if (ast_channel_redirecting_sub(channel->owner, chan, fr, 1) && ast_channel_redirecting_macro(channel->owner, chan, fr, 1, 1)) { ast_indicate_data(chan, AST_CONTROL_REDIRECTING, fr->data.ptr, fr->datalen); } break; case AST_CONTROL_PROCEEDING: ast_channel_publish_dial(chan, channel->owner, channel->device, "PROCEEDING"); if (chan) { ast_verb(3, "%s is proceeding, passing it to %s\n", ast_channel_name(channel->owner), ast_channel_name(chan)); ast_indicate(chan, AST_CONTROL_PROCEEDING); } else { ast_verb(3, "%s is proceeding\n", ast_channel_name(channel->owner)); } set_state(dial, AST_DIAL_RESULT_PROCEEDING); break; case AST_CONTROL_HOLD: if (!chan) { break; } ast_verb(3, "Call on %s placed on hold\n", ast_channel_name(chan)); ast_indicate_data(chan, AST_CONTROL_HOLD, fr->data.ptr, fr->datalen); break; case AST_CONTROL_UNHOLD: if (!chan) { break; } ast_verb(3, "Call on %s left from hold\n", ast_channel_name(chan)); ast_indicate(chan, AST_CONTROL_UNHOLD); break; case AST_CONTROL_OFFHOOK: case AST_CONTROL_FLASH: break; case AST_CONTROL_PVT_CAUSE_CODE: if (chan) { ast_indicate_data(chan, AST_CONTROL_PVT_CAUSE_CODE, fr->data.ptr, fr->datalen); } break; case -1: if (chan) { /* Prod the channel */ ast_indicate(chan, -1); } break; default: break; } } } /*! \brief Helper function to handle when a timeout occurs on dialing attempt */ static int handle_timeout_trip(struct ast_dial *dial, struct timeval start) { struct ast_dial_channel *channel = NULL; int diff = ast_tvdiff_ms(ast_tvnow(), start), lowest_timeout = -1, new_timeout = -1; /* If there is no difference yet return the dial timeout so we can go again, we were likely interrupted */ if (!diff) { return dial->timeout; } /* If the global dial timeout tripped switch the state to timeout so our channel loop will drop every channel */ if (diff >= dial->timeout) { set_state(dial, AST_DIAL_RESULT_TIMEOUT); new_timeout = 0; } /* Go through dropping out channels that have met their timeout */ AST_LIST_TRAVERSE(&dial->channels, channel, list) { if (dial->state == AST_DIAL_RESULT_TIMEOUT || diff >= channel->timeout) { ast_hangup(channel->owner); channel->cause = AST_CAUSE_NO_ANSWER; channel->owner = NULL; } else if ((lowest_timeout == -1) || (lowest_timeout > channel->timeout)) { lowest_timeout = channel->timeout; } } /* Calculate the new timeout using the lowest timeout found */ if (lowest_timeout >= 0) new_timeout = lowest_timeout - diff; return new_timeout; } const char *ast_hangup_cause_to_dial_status(int hangup_cause) { switch(hangup_cause) { case AST_CAUSE_BUSY: return "BUSY"; case AST_CAUSE_CONGESTION: return "CONGESTION"; case AST_CAUSE_NO_ROUTE_DESTINATION: case AST_CAUSE_UNREGISTERED: return "CHANUNAVAIL"; case AST_CAUSE_NO_ANSWER: default: return "NOANSWER"; } } /*! \brief Helper function that basically keeps tabs on dialing attempts */ static enum ast_dial_result monitor_dial(struct ast_dial *dial, struct ast_channel *chan) { int timeout = -1; struct ast_channel *cs[AST_MAX_WATCHERS], *who = NULL; struct ast_dial_channel *channel = NULL; struct answer_exec_struct *answer_exec = NULL; struct timeval start; set_state(dial, AST_DIAL_RESULT_TRYING); /* If the "always indicate ringing" option is set, change state to ringing and indicate to the owner if present */ if (dial->options[AST_DIAL_OPTION_RINGING]) { set_state(dial, AST_DIAL_RESULT_RINGING); if (chan) ast_indicate(chan, AST_CONTROL_RINGING); } else if (chan && dial->options[AST_DIAL_OPTION_MUSIC] && !ast_strlen_zero(dial->options[AST_DIAL_OPTION_MUSIC])) { char *original_moh = ast_strdupa(ast_channel_musicclass(chan)); ast_indicate(chan, -1); ast_channel_musicclass_set(chan, dial->options[AST_DIAL_OPTION_MUSIC]); ast_moh_start(chan, dial->options[AST_DIAL_OPTION_MUSIC], NULL); ast_channel_musicclass_set(chan, original_moh); } /* Record start time for timeout purposes */ start = ast_tvnow(); /* We actually figured out the maximum timeout we can do as they were added, so we can directly access the info */ timeout = dial->actual_timeout; /* Go into an infinite loop while we are trying */ while ((dial->state != AST_DIAL_RESULT_UNANSWERED) && (dial->state != AST_DIAL_RESULT_ANSWERED) && (dial->state != AST_DIAL_RESULT_HANGUP) && (dial->state != AST_DIAL_RESULT_TIMEOUT)) { int pos = 0, count = 0; struct ast_frame *fr = NULL; /* Set up channel structure array */ pos = count = 0; if (chan) cs[pos++] = chan; /* Add channels we are attempting to dial */ AST_LIST_LOCK(&dial->channels); AST_LIST_TRAVERSE(&dial->channels, channel, list) { if (channel->owner) { cs[pos++] = channel->owner; count++; } } AST_LIST_UNLOCK(&dial->channels); /* If we have no outbound channels in progress, switch state to unanswered and stop */ if (!count) { set_state(dial, AST_DIAL_RESULT_UNANSWERED); break; } /* Just to be safe... */ if (dial->thread == AST_PTHREADT_STOP) break; /* Wait for frames from channels */ who = ast_waitfor_n(cs, pos, &timeout); /* Check to see if our thread is being canceled */ if (dial->thread == AST_PTHREADT_STOP) break; /* If the timeout no longer exists OR if we got no channel it basically means the timeout was tripped, so handle it */ if (!timeout || !who) { timeout = handle_timeout_trip(dial, start); continue; } /* Find relative dial channel */ if (!chan || !IS_CALLER(chan, who)) channel = find_relative_dial_channel(dial, who); /* See if this channel has been forwarded elsewhere */ if (!ast_strlen_zero(ast_channel_call_forward(who))) { handle_call_forward(dial, channel, chan); continue; } /* Attempt to read in a frame */ if (!(fr = ast_read(who))) { /* If this is the caller then we switch state to hangup and stop */ if (chan && IS_CALLER(chan, who)) { set_state(dial, AST_DIAL_RESULT_HANGUP); break; } ast_channel_publish_dial(chan, who, channel->device, ast_hangup_cause_to_dial_status(ast_channel_hangupcause(who))); ast_hangup(who); channel->owner = NULL; continue; } /* Process the frame */ handle_frame(dial, channel, fr, chan); /* Free the received frame and start all over */ ast_frfree(fr); } /* Do post-processing from loop */ if (dial->state == AST_DIAL_RESULT_ANSWERED) { /* Hangup everything except that which answered */ AST_LIST_LOCK(&dial->channels); AST_LIST_TRAVERSE(&dial->channels, channel, list) { if (!channel->owner || channel->owner == who) continue; ast_channel_publish_dial(chan, channel->owner, channel->device, "CANCEL"); ast_hangup(channel->owner); channel->cause = AST_CAUSE_ANSWERED_ELSEWHERE; channel->owner = NULL; } AST_LIST_UNLOCK(&dial->channels); /* If ANSWER_EXEC is enabled as an option, execute application on answered channel */ if ((channel = find_relative_dial_channel(dial, who)) && (answer_exec = FIND_RELATIVE_OPTION(dial, channel, AST_DIAL_OPTION_ANSWER_EXEC))) { channel->is_running_app = 1; answer_exec_run(dial, channel, answer_exec->app, answer_exec->args); channel->is_running_app = 0; } if (chan && dial->options[AST_DIAL_OPTION_MUSIC] && !ast_strlen_zero(dial->options[AST_DIAL_OPTION_MUSIC])) { ast_moh_stop(chan); } } else if (dial->state == AST_DIAL_RESULT_HANGUP) { /* Hangup everything */ AST_LIST_LOCK(&dial->channels); AST_LIST_TRAVERSE(&dial->channels, channel, list) { if (!channel->owner) continue; ast_channel_publish_dial(chan, channel->owner, channel->device, "CANCEL"); ast_hangup(channel->owner); channel->cause = AST_CAUSE_NORMAL_CLEARING; channel->owner = NULL; } AST_LIST_UNLOCK(&dial->channels); } if (dial->options[AST_DIAL_OPTION_SELF_DESTROY]) { enum ast_dial_result state = dial->state; ast_dial_destroy(dial); return state; } return dial->state; } /*! \brief Dial async thread function */ static void *async_dial(void *data) { struct ast_dial *dial = data; if (dial->callid) { ast_callid_threadassoc_add(dial->callid); } /* This is really really simple... we basically pass monitor_dial a NULL owner and it changes it's behavior */ monitor_dial(dial, NULL); return NULL; } /*! \brief Execute dialing synchronously or asynchronously * \note Dials channels in a dial structure. * \return Returns dial result code. (TRYING/INVALID/FAILED/ANSWERED/TIMEOUT/UNANSWERED). */ enum ast_dial_result ast_dial_run(struct ast_dial *dial, struct ast_channel *chan, int async) { enum ast_dial_result res = AST_DIAL_RESULT_TRYING; /* Ensure required arguments are passed */ if (!dial) { ast_debug(1, "invalid #1\n"); return AST_DIAL_RESULT_INVALID; } /* If there are no channels to dial we can't very well try to dial them */ if (AST_LIST_EMPTY(&dial->channels)) { ast_debug(1, "invalid #2\n"); return AST_DIAL_RESULT_INVALID; } /* Dial each requested channel */ if (!begin_dial(dial, chan, async)) return AST_DIAL_RESULT_FAILED; /* If we are running async spawn a thread and send it away... otherwise block here */ if (async) { /* reference be released at dial destruction if it isn't NULL */ dial->callid = ast_read_threadstorage_callid(); dial->state = AST_DIAL_RESULT_TRYING; /* Try to create a thread */ if (ast_pthread_create(&dial->thread, NULL, async_dial, dial)) { /* Failed to create the thread - hangup all dialed channels and return failed */ ast_dial_hangup(dial); res = AST_DIAL_RESULT_FAILED; } } else { res = monitor_dial(dial, chan); } return res; } /*! \brief Return channel that answered * \note Returns the Asterisk channel that answered * \param dial Dialing structure */ struct ast_channel *ast_dial_answered(struct ast_dial *dial) { if (!dial) return NULL; return ((dial->state == AST_DIAL_RESULT_ANSWERED) ? AST_LIST_FIRST(&dial->channels)->owner : NULL); } /*! \brief Steal the channel that answered * \note Returns the Asterisk channel that answered and removes it from the dialing structure * \param dial Dialing structure */ struct ast_channel *ast_dial_answered_steal(struct ast_dial *dial) { struct ast_channel *chan = NULL; if (!dial) return NULL; if (dial->state == AST_DIAL_RESULT_ANSWERED) { chan = AST_LIST_FIRST(&dial->channels)->owner; AST_LIST_FIRST(&dial->channels)->owner = NULL; } return chan; } /*! \brief Return state of dial * \note Returns the state of the dial attempt * \param dial Dialing structure */ enum ast_dial_result ast_dial_state(struct ast_dial *dial) { return dial->state; } /*! \brief Cancel async thread * \note Cancel a running async thread * \param dial Dialing structure */ enum ast_dial_result ast_dial_join(struct ast_dial *dial) { pthread_t thread; /* If the dial structure is not running in async, return failed */ if (dial->thread == AST_PTHREADT_NULL) return AST_DIAL_RESULT_FAILED; /* Record thread */ thread = dial->thread; /* Boom, commence locking */ ast_mutex_lock(&dial->lock); /* Stop the thread */ dial->thread = AST_PTHREADT_STOP; /* If the answered channel is running an application we have to soft hangup it, can't just poke the thread */ AST_LIST_LOCK(&dial->channels); if (AST_LIST_FIRST(&dial->channels)->is_running_app) { struct ast_channel *chan = AST_LIST_FIRST(&dial->channels)->owner; if (chan) { ast_channel_lock(chan); ast_softhangup(chan, AST_SOFTHANGUP_EXPLICIT); ast_channel_unlock(chan); } } else { /* Now we signal it with SIGURG so it will break out of it's waitfor */ pthread_kill(thread, SIGURG); } AST_LIST_UNLOCK(&dial->channels); /* Yay done with it */ ast_mutex_unlock(&dial->lock); /* Finally wait for the thread to exit */ pthread_join(thread, NULL); /* Yay thread is all gone */ dial->thread = AST_PTHREADT_NULL; return dial->state; } /*! \brief Hangup channels * \note Hangup all active channels * \param dial Dialing structure */ void ast_dial_hangup(struct ast_dial *dial) { struct ast_dial_channel *channel = NULL; if (!dial) return; AST_LIST_LOCK(&dial->channels); AST_LIST_TRAVERSE(&dial->channels, channel, list) { ast_hangup(channel->owner); channel->owner = NULL; } AST_LIST_UNLOCK(&dial->channels); return; } int ast_dial_destroy(struct ast_dial *dial) { int i = 0; struct ast_dial_channel *channel = NULL; if (!dial) return -1; /* Hangup and deallocate all the dialed channels */ AST_LIST_LOCK(&dial->channels); AST_LIST_TRAVERSE_SAFE_BEGIN(&dial->channels, channel, list) { /* Disable any enabled options */ for (i = 0; i < AST_DIAL_OPTION_MAX; i++) { if (!channel->options[i]) continue; if (option_types[i].disable) option_types[i].disable(channel->options[i]); channel->options[i] = NULL; } /* Hang up channel if need be */ ast_hangup(channel->owner); channel->owner = NULL; /* Free structure */ ast_free(channel->tech); ast_free(channel->device); ast_free(channel->assignedid1); ast_free(channel->assignedid2); AST_LIST_REMOVE_CURRENT(list); ast_free(channel); } AST_LIST_TRAVERSE_SAFE_END; AST_LIST_UNLOCK(&dial->channels); /* Disable any enabled options globally */ for (i = 0; i < AST_DIAL_OPTION_MAX; i++) { if (!dial->options[i]) continue; if (option_types[i].disable) option_types[i].disable(dial->options[i]); dial->options[i] = NULL; } /* Lock be gone! */ ast_mutex_destroy(&dial->lock); /* Free structure */ ast_free(dial); return 0; } int ast_dial_option_global_enable(struct ast_dial *dial, enum ast_dial_option option, void *data) { /* If the option is already enabled, return failure */ if (dial->options[option]) return -1; /* Execute enable callback if it exists, if not simply make sure the value is set */ if (option_types[option].enable) dial->options[option] = option_types[option].enable(data); else dial->options[option] = (void*)1; return 0; } /*! \brief Helper function for finding a channel in a dial structure based on number */ static struct ast_dial_channel *find_dial_channel(struct ast_dial *dial, int num) { struct ast_dial_channel *channel = AST_LIST_LAST(&dial->channels); /* We can try to predict programmer behavior, the last channel they added is probably the one they wanted to modify */ if (channel->num == num) return channel; /* Hrm not at the end... looking through the list it is! */ AST_LIST_LOCK(&dial->channels); AST_LIST_TRAVERSE(&dial->channels, channel, list) { if (channel->num == num) break; } AST_LIST_UNLOCK(&dial->channels); return channel; } int ast_dial_option_enable(struct ast_dial *dial, int num, enum ast_dial_option option, void *data) { struct ast_dial_channel *channel = NULL; /* Ensure we have required arguments */ if (!dial || AST_LIST_EMPTY(&dial->channels)) return -1; if (!(channel = find_dial_channel(dial, num))) return -1; /* If the option is already enabled, return failure */ if (channel->options[option]) return -1; /* Execute enable callback if it exists, if not simply make sure the value is set */ if (option_types[option].enable) channel->options[option] = option_types[option].enable(data); else channel->options[option] = (void*)1; return 0; } int ast_dial_option_global_disable(struct ast_dial *dial, enum ast_dial_option option) { /* If the option is not enabled, return failure */ if (!dial->options[option]) { return -1; } /* Execute callback of option to disable if it exists */ if (option_types[option].disable) option_types[option].disable(dial->options[option]); /* Finally disable option on the structure */ dial->options[option] = NULL; return 0; } int ast_dial_option_disable(struct ast_dial *dial, int num, enum ast_dial_option option) { struct ast_dial_channel *channel = NULL; /* Ensure we have required arguments */ if (!dial || AST_LIST_EMPTY(&dial->channels)) return -1; if (!(channel = find_dial_channel(dial, num))) return -1; /* If the option is not enabled, return failure */ if (!channel->options[option]) return -1; /* Execute callback of option to disable it if it exists */ if (option_types[option].disable) option_types[option].disable(channel->options[option]); /* Finally disable the option on the structure */ channel->options[option] = NULL; return 0; } int ast_dial_reason(struct ast_dial *dial, int num) { struct ast_dial_channel *channel; if (!dial || AST_LIST_EMPTY(&dial->channels) || !(channel = find_dial_channel(dial, num))) { return -1; } return channel->cause; } struct ast_channel *ast_dial_get_channel(struct ast_dial *dial, int num) { struct ast_dial_channel *channel; if (!dial || AST_LIST_EMPTY(&dial->channels) || !(channel = find_dial_channel(dial, num))) { return NULL; } return channel->owner; } void ast_dial_set_state_callback(struct ast_dial *dial, ast_dial_state_callback callback) { dial->state_callback = callback; } void ast_dial_set_user_data(struct ast_dial *dial, void *user_data) { dial->user_data = user_data; } void *ast_dial_get_user_data(struct ast_dial *dial) { return dial->user_data; } void ast_dial_set_global_timeout(struct ast_dial *dial, int timeout) { dial->timeout = timeout; if (dial->timeout > 0 && (dial->actual_timeout > dial->timeout || dial->actual_timeout == -1)) dial->actual_timeout = dial->timeout; return; } void ast_dial_set_timeout(struct ast_dial *dial, int num, int timeout) { struct ast_dial_channel *channel = NULL; if (!(channel = find_dial_channel(dial, num))) return; channel->timeout = timeout; if (channel->timeout > 0 && (dial->actual_timeout > channel->timeout || dial->actual_timeout == -1)) dial->actual_timeout = channel->timeout; return; }