/* * Asterisk -- An open source telephony toolkit. * * Copyright (C) 2004 - 2006, Christian Richter * * Christian Richter * * 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 the chan_misdn channel driver for Asterisk * * \author Christian Richter * * \extref MISDN http://www.misdn.org/ * * \ingroup channel_drivers */ /*** MODULEINFO isdnnet misdn suppserv ***/ #include "asterisk.h" ASTERISK_FILE_VERSION(__FILE__, "$Revision$") #include #include #include #include #include #include #include #include #include #include "asterisk/channel.h" #include "asterisk/config.h" #include "asterisk/module.h" #include "asterisk/pbx.h" #include "asterisk/io.h" #include "asterisk/frame.h" #include "asterisk/translate.h" #include "asterisk/cli.h" #include "asterisk/musiconhold.h" #include "asterisk/dsp.h" #include "asterisk/file.h" #include "asterisk/callerid.h" #include "asterisk/indications.h" #include "asterisk/app.h" #include "asterisk/features.h" #include "asterisk/term.h" #include "asterisk/sched.h" #include "asterisk/stringfields.h" #include "asterisk/abstract_jb.h" #include "asterisk/causes.h" #include "chan_misdn_config.h" #include "isdn_lib.h" char global_tracefile[BUFFERSIZE + 1]; static int g_config_initialized = 0; struct misdn_jb{ int size; int upper_threshold; char *samples, *ok; int wp,rp; int state_empty; int state_full; int state_buffer; int bytes_wrote; ast_mutex_t mutexjb; }; /*! \brief allocates the jb-structure and initialize the elements */ struct misdn_jb *misdn_jb_init(int size, int upper_threshold); /*! \brief frees the data and destroys the given jitterbuffer struct */ void misdn_jb_destroy(struct misdn_jb *jb); /*! \brief fills the jitterbuffer with len data returns < 0 if there was an error (buffer overrun). */ int misdn_jb_fill(struct misdn_jb *jb, const char *data, int len); /*! \brief gets len bytes out of the jitterbuffer if available, else only the available data is returned and the return value indicates the number of data. */ int misdn_jb_empty(struct misdn_jb *jb, char *data, int len); static char *complete_ch(struct ast_cli_args *a); static char *complete_debug_port(struct ast_cli_args *a); static char *complete_show_config(struct ast_cli_args *a); /* BEGIN: chan_misdn.h */ ast_mutex_t release_lock; enum misdn_chan_state { MISDN_NOTHING = 0, /*!< at beginning */ MISDN_WAITING4DIGS, /*!< when waiting for info */ MISDN_EXTCANTMATCH, /*!< when asterisk couldn't match our ext */ MISDN_INCOMING_SETUP, /*!< for incoming setup */ MISDN_DIALING, /*!< when pbx_start */ MISDN_PROGRESS, /*!< we have progress */ MISDN_PROCEEDING, /*!< we have progress */ MISDN_CALLING, /*!< when misdn_call is called */ MISDN_CALLING_ACKNOWLEDGE, /*!< when we get SETUP_ACK */ MISDN_ALERTING, /*!< when Alerting */ MISDN_BUSY, /*!< when BUSY */ MISDN_CONNECTED, /*!< when connected */ MISDN_PRECONNECTED, /*!< when connected */ MISDN_DISCONNECTED, /*!< when connected */ MISDN_RELEASED, /*!< when connected */ MISDN_BRIDGED, /*!< when bridged */ MISDN_CLEANING, /*!< when hangup from * but we were connected before */ MISDN_HUNGUP_FROM_MISDN, /*!< when DISCONNECT/RELEASE/REL_COMP came from misdn */ MISDN_HUNGUP_FROM_AST, /*!< when DISCONNECT/RELEASE/REL_COMP came out of misdn_hangup */ MISDN_HOLDED, /*!< when on hold */ MISDN_HOLD_DISCONNECT, /*!< when on hold */ }; #define ORG_AST 1 #define ORG_MISDN 2 struct hold_info { /*! * \brief Logical port the channel call record is HOLDED on * because the B channel is no longer associated. */ int port; /*! * \brief Original B channel number the HOLDED call was using. * \note Used only for debug display messages. */ int channel; }; /*! * \brief Channel call record structure */ struct chan_list { /*! * \brief The "allowed_bearers" string read in from /etc/asterisk/misdn.conf */ char allowed_bearers[BUFFERSIZE + 1]; /*! * \brief State of the channel */ enum misdn_chan_state state; /*! * \brief TRUE if a hangup needs to be queued * \note This is a debug flag only used to catch calls to hangup_chan() that are already hungup. */ int need_queue_hangup; /*! * \brief TRUE if a channel can be hung up by calling asterisk directly when done. */ int need_hangup; /*! * \brief TRUE if we could send an AST_CONTROL_BUSY if needed. */ int need_busy; /*! * \brief Who originally created this channel. ORG_AST or ORG_MISDN */ int originator; /*! * \brief TRUE of we are not to respond immediately to a SETUP message. Check the dialplan first. * \note The "noautorespond_on_setup" boolean read in from /etc/asterisk/misdn.conf */ int noautorespond_on_setup; int norxtone; /*!< Boolean assigned values but the value is not used. */ /*! * \brief TRUE if we are not to generate tones (Playtones) */ int notxtone; /*! * \brief TRUE if echo canceller is enabled. Value is toggled. */ int toggle_ec; /*! * \brief TRUE if you want to send Tone Indications to an incoming * ISDN channel on a TE Port. * \note The "incoming_early_audio" boolean read in from /etc/asterisk/misdn.conf */ int incoming_early_audio; /*! * \brief TRUE if DTMF digits are to be passed inband only. * \note It is settable by the misdn_set_opt() application. */ int ignore_dtmf; /*! * \brief Pipe file descriptor handles array. * Read from pipe[0], write to pipe[1] */ int pipe[2]; /*! * \brief Read buffer for inbound audio from pipe[0] */ char ast_rd_buf[4096]; /*! * \brief Inbound audio frame returned by misdn_read(). */ struct ast_frame frame; /*! * \brief Fax detection option. (0:no 1:yes 2:yes+nojump) * \note The "faxdetect" option string read in from /etc/asterisk/misdn.conf * \note It is settable by the misdn_set_opt() application. */ int faxdetect; /*! * \brief Number of seconds to detect a Fax machine when detection enabled. * \note 0 disables the timeout. * \note The "faxdetect_timeout" value read in from /etc/asterisk/misdn.conf */ int faxdetect_timeout; /*! * \brief Starting time of fax detection with timeout when nonzero. */ struct timeval faxdetect_tv; /*! * \brief TRUE if a fax has been detected. */ int faxhandled; /*! * \brief TRUE if we will use the Asterisk DSP to detect DTMF/Fax * \note The "astdtmf" boolean read in from /etc/asterisk/misdn.conf */ int ast_dsp; /*! * \brief Jitterbuffer length * \note The "jitterbuffer" value read in from /etc/asterisk/misdn.conf */ int jb_len; /*! * \brief Jitterbuffer upper threshold * \note The "jitterbuffer_upper_threshold" value read in from /etc/asterisk/misdn.conf */ int jb_upper_threshold; /*! * \brief Allocated jitterbuffer controller * \note misdn_jb_init() creates the jitterbuffer. * \note Must use misdn_jb_destroy() to clean up. */ struct misdn_jb *jb; /*! * \brief Allocated DSP controller * \note ast_dsp_new() creates the DSP controller. * \note Must use ast_dsp_free() to clean up. */ struct ast_dsp *dsp; /*! * \brief Allocated audio frame sample translator * \note ast_translator_build_path() creates the translator path. * \note Must use ast_translator_free_path() to clean up. */ struct ast_trans_pvt *trans; /*! * \brief Associated Asterisk channel structure. */ struct ast_channel * ast; //int dummy; /* Not used */ /*! * \brief Associated B channel structure. */ struct misdn_bchannel *bc; /*! * \brief HOLDED channel information */ struct hold_info hold_info; /*! * \brief From associated B channel: Layer 3 process ID * \note Used to find the HOLDED channel call record when retrieving a call. */ unsigned int l3id; /*! * \brief From associated B channel: B Channel mISDN driver layer ID from mISDN_get_layerid() * \note Used only for debug display messages. */ int addr; /*! * \brief Incoming call dialplan context identifier. * \note The "context" string read in from /etc/asterisk/misdn.conf */ char context[AST_MAX_CONTEXT]; /*! * \brief The configured music-on-hold class to use for this call. * \note The "musicclass" string read in from /etc/asterisk/misdn.conf */ char mohinterpret[MAX_MUSICCLASS]; #if 0 int zero_read_cnt; /* Not used */ #endif /*! * \brief Number of outgoing audio frames dropped since last debug gripe message. */ int dropped_frame_cnt; /*! * \brief TRUE if we must do the ringback tones. * \note The "far_alerting" boolean read in from /etc/asterisk/misdn.conf */ int far_alerting; /*! * \brief TRUE if NT should disconnect an overlap dialing call when a timeout occurs. * \note The "nttimeout" boolean read in from /etc/asterisk/misdn.conf */ int nttimeout; /*! * \brief Other channel call record PID * \note Value imported from Asterisk environment variable MISDN_PID */ int other_pid; /*! * \brief Bridged other channel call record * \note Pointer set when other_pid imported from Asterisk environment * variable MISDN_PID by either side. */ struct chan_list *other_ch; /*! * \brief Tone zone sound used for dialtone generation. * \note Used as a boolean. Non-NULL to prod generation if enabled. */ struct ast_tone_zone_sound *ts; /*! * \brief Enables overlap dialing for the set amount of seconds. (0 = Disabled) * \note The "overlapdial" value read in from /etc/asterisk/misdn.conf */ int overlap_dial; /*! * \brief Overlap dialing timeout Task ID. -1 if not running. */ int overlap_dial_task; /*! * \brief overlap_tv access lock. */ ast_mutex_t overlap_tv_lock; /*! * \brief Overlap timer start time. Timer restarted for every digit received. */ struct timeval overlap_tv; #if 0 struct chan_list *peer; /* Not used */ #endif /*! * \brief Next channel call record in the list. */ struct chan_list *next; #if 0 struct chan_list *prev; /* Not used */ struct chan_list *first; /* Not used */ #endif }; int MAXTICS = 8; void export_ch(struct ast_channel *chan, struct misdn_bchannel *bc, struct chan_list *ch); void import_ch(struct ast_channel *chan, struct misdn_bchannel *bc, struct chan_list *ch); static struct ast_frame *process_ast_dsp(struct chan_list *tmp, struct ast_frame *frame); static struct robin_list { char *group; int port; int channel; struct robin_list *next; struct robin_list *prev; } *robin = NULL; static inline void free_robin_list_r(struct robin_list *r) { if (r) { if (r->next) free_robin_list_r(r->next); if (r->group) ast_free(r->group); ast_free(r); } } static void free_robin_list(void) { free_robin_list_r(robin); robin = NULL; } static struct robin_list* get_robin_position(char *group) { struct robin_list *new; struct robin_list *iter = robin; for (; iter; iter = iter->next) { if (!strcasecmp(iter->group, group)) { return iter; } } new = ast_calloc(1, sizeof(*new)); new->group = strdup(group); new->channel = 1; if (robin) { new->next = robin; robin->prev = new; } robin = new; return robin; } /*! \brief the main schedule context for stuff like l1 watcher, overlap dial, ... */ static struct sched_context *misdn_tasks = NULL; static pthread_t misdn_tasks_thread; static int *misdn_ports; static void chan_misdn_log(int level, int port, char *tmpl, ...) __attribute__((format(printf, 3, 4))); static struct ast_channel *misdn_new(struct chan_list *cl, int state, char *exten, char *callerid, int format, int port, int c); static void send_digit_to_chan(struct chan_list *cl, char digit ); static void hangup_chan(struct chan_list *ch); static int pbx_start_chan(struct chan_list *ch); #define MISDN_ASTERISK_TECH_PVT(ast) ast->tech_pvt #define MISDN_ASTERISK_PVT(ast) 1 #include "asterisk/strings.h" /* #define MISDN_DEBUG 1 */ static const char misdn_type[] = "mISDN"; static int tracing = 0; /*! \brief Only alaw and mulaw is allowed for now */ static int prefformat = AST_FORMAT_ALAW ; /* AST_FORMAT_SLINEAR ; AST_FORMAT_ULAW | */ static int *misdn_debug; static int *misdn_debug_only; static int max_ports; static int *misdn_in_calls; static int *misdn_out_calls; struct chan_list dummy_cl; /*! * \brief Global channel call record list head. */ struct chan_list *cl_te=NULL; ast_mutex_t cl_te_lock; static enum event_response_e cb_events(enum event_e event, struct misdn_bchannel *bc, void *user_data); static void send_cause2ast(struct ast_channel *ast, struct misdn_bchannel*bc, struct chan_list *ch); static void cl_queue_chan(struct chan_list **list, struct chan_list *chan); static void cl_dequeue_chan(struct chan_list **list, struct chan_list *chan); static struct chan_list *find_chan_by_bc(struct chan_list *list, struct misdn_bchannel *bc); static struct chan_list *find_chan_by_pid(struct chan_list *list, int pid); static int dialtone_indicate(struct chan_list *cl); static int hanguptone_indicate(struct chan_list *cl); static int stop_indicate(struct chan_list *cl); static int start_bc_tones(struct chan_list *cl); static int stop_bc_tones(struct chan_list *cl); static void release_chan(struct misdn_bchannel *bc); static int misdn_check_l2l1(struct ast_channel *chan, void *data); static int misdn_set_opt_exec(struct ast_channel *chan, void *data); static int misdn_facility_exec(struct ast_channel *chan, void *data); int chan_misdn_jb_empty(struct misdn_bchannel *bc, char *buf, int len); void debug_numplan(int port, int numplan, char *type); int add_out_calls(int port); int add_in_calls(int port); #ifdef MISDN_1_2 static int update_pipeline_config(struct misdn_bchannel *bc); #else static int update_ec_config(struct misdn_bchannel *bc); #endif /*************** Helpers *****************/ static struct chan_list * get_chan_by_ast(struct ast_channel *ast) { struct chan_list *tmp; for (tmp = cl_te; tmp; tmp = tmp->next) { if (tmp->ast == ast) { return tmp; } } return NULL; } static struct chan_list * get_chan_by_ast_name(char *name) { struct chan_list *tmp; for (tmp = cl_te; tmp; tmp = tmp->next) { if (tmp->ast && strcmp(tmp->ast->name, name) == 0) { return tmp; } } return NULL; } struct allowed_bearers { char *name; /*!< Bearer capability name string used in /etc/misdn.conf allowed_bearers */ char *display; /*!< Bearer capability displayable name */ int cap; /*!< SETUP message bearer capability field code value */ int deprecated; /*!< TRUE if this entry is deprecated. (Misspelled or bad name to use) */ }; /* *INDENT-OFF* */ static const struct allowed_bearers allowed_bearers_array[]= { /* Name, Displayable Name Bearer Capability, Deprecated */ { "speech", "Speech", INFO_CAPABILITY_SPEECH, 0 }, { "3_1khz", "3.1KHz Audio", INFO_CAPABILITY_AUDIO_3_1K, 0 }, { "digital_unrestricted", "Unrestricted Digital", INFO_CAPABILITY_DIGITAL_UNRESTRICTED, 0 }, { "digital_restricted", "Restricted Digital", INFO_CAPABILITY_DIGITAL_RESTRICTED, 0 }, { "digital_restriced", "Restricted Digital", INFO_CAPABILITY_DIGITAL_RESTRICTED, 1 }, /* Allow misspelling for backwards compatibility */ { "video", "Video", INFO_CAPABILITY_VIDEO, 0 } }; /* *INDENT-ON* */ static const char *bearer2str(int cap) { unsigned index; for (index = 0; index < ARRAY_LEN(allowed_bearers_array); ++index) { if (allowed_bearers_array[index].cap == cap) { return allowed_bearers_array[index].display; } } /* end for */ return "Unknown Bearer"; } static void print_facility(struct FacParm *fac, struct misdn_bchannel *bc) { switch (fac->Function) { #ifdef HAVE_MISDN_FAC_RESULT case Fac_RESULT: chan_misdn_log(0, bc->port, " --> Received RESULT Operation\n"); break; #endif #ifdef HAVE_MISDN_FAC_ERROR case Fac_ERROR: chan_misdn_log(0, bc->port, " --> Received Error Operation\n"); chan_misdn_log(0, bc->port, " --> Value:%d Error:%s\n", fac->u.ERROR.errorValue, fac->u.ERROR.error); break; #endif case Fac_CD: chan_misdn_log(1, bc->port, " --> calldeflect to: %s, presentable: %s\n", fac->u.CDeflection.DeflectedToNumber, fac->u.CDeflection.PresentationAllowed ? "yes" : "no"); break; case Fac_AOCDCurrency: if (fac->u.AOCDcur.chargeNotAvailable) { chan_misdn_log(1, bc->port, " --> AOCD currency: charge not available\n"); } else if (fac->u.AOCDcur.freeOfCharge) { chan_misdn_log(1, bc->port, " --> AOCD currency: free of charge\n"); } else if (fac->u.AOCDchu.billingId >= 0) { chan_misdn_log(1, bc->port, " --> AOCD currency: currency:%s amount:%d multiplier:%d typeOfChargingInfo:%s billingId:%d\n", fac->u.AOCDcur.currency, fac->u.AOCDcur.currencyAmount, fac->u.AOCDcur.multiplier, (fac->u.AOCDcur.typeOfChargingInfo == 0) ? "subTotal" : "total", fac->u.AOCDcur.billingId); } else { chan_misdn_log(1, bc->port, " --> AOCD currency: currency:%s amount:%d multiplier:%d typeOfChargingInfo:%s\n", fac->u.AOCDcur.currency, fac->u.AOCDcur.currencyAmount, fac->u.AOCDcur.multiplier, (fac->u.AOCDcur.typeOfChargingInfo == 0) ? "subTotal" : "total"); } break; case Fac_AOCDChargingUnit: if (fac->u.AOCDchu.chargeNotAvailable) { chan_misdn_log(1, bc->port, " --> AOCD charging unit: charge not available\n"); } else if (fac->u.AOCDchu.freeOfCharge) { chan_misdn_log(1, bc->port, " --> AOCD charging unit: free of charge\n"); } else if (fac->u.AOCDchu.billingId >= 0) { chan_misdn_log(1, bc->port, " --> AOCD charging unit: recordedUnits:%d typeOfChargingInfo:%s billingId:%d\n", fac->u.AOCDchu.recordedUnits, (fac->u.AOCDchu.typeOfChargingInfo == 0) ? "subTotal" : "total", fac->u.AOCDchu.billingId); } else { chan_misdn_log(1, bc->port, " --> AOCD charging unit: recordedUnits:%d typeOfChargingInfo:%s\n", fac->u.AOCDchu.recordedUnits, (fac->u.AOCDchu.typeOfChargingInfo == 0) ? "subTotal" : "total"); } break; case Fac_None: default: chan_misdn_log(1, bc->port, " --> unknown facility\n"); break; } } static void print_bearer(struct misdn_bchannel *bc) { chan_misdn_log(2, bc->port, " --> Bearer: %s\n", bearer2str(bc->capability)); switch(bc->law) { case INFO_CODEC_ALAW: chan_misdn_log(2, bc->port, " --> Codec: Alaw\n"); break; case INFO_CODEC_ULAW: chan_misdn_log(2, bc->port, " --> Codec: Ulaw\n"); break; } } static void export_aoc_vars(int originator, struct ast_channel *ast, struct misdn_bchannel *bc) { char buf[128]; if (!bc->AOCD_need_export || !ast) { return; } if (originator == ORG_AST) { if (!(ast = ast_bridged_channel(ast))) { return; } } switch (bc->AOCDtype) { case Fac_AOCDCurrency: pbx_builtin_setvar_helper(ast, "AOCD_Type", "currency"); if (bc->AOCD.currency.chargeNotAvailable) { pbx_builtin_setvar_helper(ast, "AOCD_ChargeAvailable", "no"); } else { pbx_builtin_setvar_helper(ast, "AOCD_ChargeAvailable", "yes"); if (bc->AOCD.currency.freeOfCharge) { pbx_builtin_setvar_helper(ast, "AOCD_FreeOfCharge", "yes"); } else { pbx_builtin_setvar_helper(ast, "AOCD_FreeOfCharge", "no"); if (snprintf(buf, sizeof(buf), "%d %s", bc->AOCD.currency.currencyAmount * bc->AOCD.currency.multiplier, bc->AOCD.currency.currency) < sizeof(buf)) { pbx_builtin_setvar_helper(ast, "AOCD_Amount", buf); if (bc->AOCD.currency.billingId >= 0 && snprintf(buf, sizeof(buf), "%d", bc->AOCD.currency.billingId) < sizeof(buf)) { pbx_builtin_setvar_helper(ast, "AOCD_BillingId", buf); } } } } break; case Fac_AOCDChargingUnit: pbx_builtin_setvar_helper(ast, "AOCD_Type", "charging_unit"); if (bc->AOCD.chargingUnit.chargeNotAvailable) { pbx_builtin_setvar_helper(ast, "AOCD_ChargeAvailable", "no"); } else { pbx_builtin_setvar_helper(ast, "AOCD_ChargeAvailable", "yes"); if (bc->AOCD.chargingUnit.freeOfCharge) { pbx_builtin_setvar_helper(ast, "AOCD_FreeOfCharge", "yes"); } else { pbx_builtin_setvar_helper(ast, "AOCD_FreeOfCharge", "no"); if (snprintf(buf, sizeof(buf), "%d", bc->AOCD.chargingUnit.recordedUnits) < sizeof(buf)) { pbx_builtin_setvar_helper(ast, "AOCD_RecordedUnits", buf); if (bc->AOCD.chargingUnit.billingId >= 0 && snprintf(buf, sizeof(buf), "%d", bc->AOCD.chargingUnit.billingId) < sizeof(buf)) { pbx_builtin_setvar_helper(ast, "AOCD_BillingId", buf); } } } } break; default: break; } bc->AOCD_need_export = 0; } /*************** Helpers END *************/ static void sighandler(int sig) {} static void *misdn_tasks_thread_func(void *data) { int wait; struct sigaction sa; sa.sa_handler = sighandler; sa.sa_flags = SA_NODEFER; sigemptyset(&sa.sa_mask); sigaddset(&sa.sa_mask, SIGUSR1); sigaction(SIGUSR1, &sa, NULL); sem_post((sem_t *)data); while (1) { wait = ast_sched_wait(misdn_tasks); if (wait < 0) { wait = 8000; } if (poll(NULL, 0, wait) < 0) { chan_misdn_log(4, 0, "Waking up misdn_tasks thread\n"); } ast_sched_runq(misdn_tasks); } return NULL; } static void misdn_tasks_init(void) { sem_t blocker; int i = 5; if (sem_init(&blocker, 0, 0)) { perror("chan_misdn: Failed to initialize semaphore!"); exit(1); } chan_misdn_log(4, 0, "Starting misdn_tasks thread\n"); misdn_tasks = sched_context_create(); pthread_create(&misdn_tasks_thread, NULL, misdn_tasks_thread_func, &blocker); while (sem_wait(&blocker) && --i); sem_destroy(&blocker); } static void misdn_tasks_destroy(void) { if (misdn_tasks) { chan_misdn_log(4, 0, "Killing misdn_tasks thread\n"); if ( pthread_cancel(misdn_tasks_thread) == 0 ) { cb_log(4, 0, "Joining misdn_tasks thread\n"); pthread_join(misdn_tasks_thread, NULL); } sched_context_destroy(misdn_tasks); } } static inline void misdn_tasks_wakeup(void) { pthread_kill(misdn_tasks_thread, SIGUSR1); } static inline int _misdn_tasks_add_variable(int timeout, ast_sched_cb callback, const void *data, int variable) { int task_id; if (!misdn_tasks) { misdn_tasks_init(); } task_id = ast_sched_add_variable(misdn_tasks, timeout, callback, data, variable); misdn_tasks_wakeup(); return task_id; } static int misdn_tasks_add(int timeout, ast_sched_cb callback, const void *data) { return _misdn_tasks_add_variable(timeout, callback, data, 0); } static int misdn_tasks_add_variable(int timeout, ast_sched_cb callback, const void *data) { return _misdn_tasks_add_variable(timeout, callback, data, 1); } static void misdn_tasks_remove(int task_id) { AST_SCHED_DEL(misdn_tasks, task_id); } static int misdn_l1_task(const void *vdata) { const int *data = vdata; misdn_lib_isdn_l1watcher(*data); chan_misdn_log(5, *data, "L1watcher timeout\n"); return 1; } static int misdn_overlap_dial_task(const void *data) { struct timeval tv_end, tv_now; int diff; struct chan_list *ch = (struct chan_list *) data; char *dad; chan_misdn_log(4, ch->bc->port, "overlap dial task, chan_state: %d\n", ch->state); if (ch->state != MISDN_WAITING4DIGS) { ch->overlap_dial_task = -1; return 0; } ast_mutex_lock(&ch->overlap_tv_lock); tv_end = ch->overlap_tv; ast_mutex_unlock(&ch->overlap_tv_lock); tv_end.tv_sec += ch->overlap_dial; tv_now = ast_tvnow(); if ((diff = ast_tvdiff_ms(tv_end, tv_now)) > 100) { return diff; } /* if we are 100ms near the timeout, we are satisfied.. */ stop_indicate(ch); if (ast_strlen_zero(ch->bc->dad)) { dad = "s"; ast_copy_string(ch->ast->exten, "s", sizeof(ch->ast->exten)); } else { dad = ch->bc->dad; } if (ast_exists_extension(ch->ast, ch->context, dad, 1, ch->bc->oad)) { ch->state = MISDN_DIALING; if (pbx_start_chan(ch) < 0) { chan_misdn_log(-1, ch->bc->port, "ast_pbx_start returned < 0 in misdn_overlap_dial_task\n"); goto misdn_overlap_dial_task_disconnect; } } else { misdn_overlap_dial_task_disconnect: hanguptone_indicate(ch); ch->bc->out_cause = AST_CAUSE_UNALLOCATED; ch->state = MISDN_CLEANING; misdn_lib_send_event(ch->bc, EVENT_DISCONNECT); } ch->overlap_dial_task = -1; return 0; } static void send_digit_to_chan(struct chan_list *cl, char digit) { static const char *dtmf_tones[] = { "!941+1336/100,!0/100", /* 0 */ "!697+1209/100,!0/100", /* 1 */ "!697+1336/100,!0/100", /* 2 */ "!697+1477/100,!0/100", /* 3 */ "!770+1209/100,!0/100", /* 4 */ "!770+1336/100,!0/100", /* 5 */ "!770+1477/100,!0/100", /* 6 */ "!852+1209/100,!0/100", /* 7 */ "!852+1336/100,!0/100", /* 8 */ "!852+1477/100,!0/100", /* 9 */ "!697+1633/100,!0/100", /* A */ "!770+1633/100,!0/100", /* B */ "!852+1633/100,!0/100", /* C */ "!941+1633/100,!0/100", /* D */ "!941+1209/100,!0/100", /* * */ "!941+1477/100,!0/100", /* # */ }; struct ast_channel *chan = cl->ast; if (digit >= '0' && digit <='9') { ast_playtones_start(chan, 0, dtmf_tones[digit - '0'], 0); } else if (digit >= 'A' && digit <= 'D') { ast_playtones_start(chan, 0, dtmf_tones[digit - 'A' + 10], 0); } else if (digit == '*') { ast_playtones_start(chan, 0, dtmf_tones[14], 0); } else if (digit == '#') { ast_playtones_start(chan, 0, dtmf_tones[15], 0); } else { /* not handled */ ast_debug(1, "Unable to handle DTMF tone '%c' for '%s'\n", digit, chan->name); } } /*** CLI HANDLING ***/ static char *handle_cli_misdn_set_debug(struct ast_cli_entry *e, int cmd, struct ast_cli_args *a) { int level; switch (cmd) { case CLI_INIT: e->command = "misdn set debug [on|off]"; e->usage = "Usage: misdn set debug {on|off|} [only] | [port [only]]\n" " Set the debug level of the mISDN channel.\n"; return NULL; case CLI_GENERATE: return complete_debug_port(a); } if (a->argc < 4 || a->argc > 7) { return CLI_SHOWUSAGE; } if (!strcasecmp(a->argv[3], "on")) { level = 1; } else if (!strcasecmp(a->argv[3], "off")) { level = 0; } else { level = atoi(a->argv[3]); } switch (a->argc) { case 4: case 5: { int i; int only = 0; if (a->argc == 5) { if (strncasecmp(a->argv[4], "only", strlen(a->argv[4]))) { return CLI_SHOWUSAGE; } else { only = 1; } } for (i = 0; i <= max_ports; i++) { misdn_debug[i] = level; misdn_debug_only[i] = only; } ast_cli(a->fd, "changing debug level for all ports to %d%s\n", misdn_debug[0], only ? " (only)" : ""); } break; case 6: case 7: { int port; if (strncasecmp(a->argv[4], "port", strlen(a->argv[4]))) return CLI_SHOWUSAGE; port = atoi(a->argv[5]); if (port <= 0 || port > max_ports) { switch (max_ports) { case 0: ast_cli(a->fd, "port number not valid! no ports available so you won't get lucky with any number here...\n"); break; case 1: ast_cli(a->fd, "port number not valid! only port 1 is available.\n"); break; default: ast_cli(a->fd, "port number not valid! only ports 1 to %d are available.\n", max_ports); } return 0; } if (a->argc == 7) { if (strncasecmp(a->argv[6], "only", strlen(a->argv[6]))) { return CLI_SHOWUSAGE; } else { misdn_debug_only[port] = 1; } } else { misdn_debug_only[port] = 0; } misdn_debug[port] = level; ast_cli(a->fd, "changing debug level to %d%s for port %d\n", misdn_debug[port], misdn_debug_only[port] ? " (only)" : "", port); } } return CLI_SUCCESS; } static char *handle_cli_misdn_set_crypt_debug(struct ast_cli_entry *e, int cmd, struct ast_cli_args *a) { switch (cmd) { case CLI_INIT: e->command = "misdn set crypt debug"; e->usage = "Usage: misdn set crypt debug \n" " Set the crypt debug level of the mISDN channel. Level\n" " must be 1 or 2.\n"; return NULL; case CLI_GENERATE: return NULL; } if (a->argc != 5) { return CLI_SHOWUSAGE; } /* XXX Is this supposed to not do anything? XXX */ return CLI_SUCCESS; } static char *handle_cli_misdn_port_block(struct ast_cli_entry *e, int cmd, struct ast_cli_args *a) { switch (cmd) { case CLI_INIT: e->command = "misdn port block"; e->usage = "Usage: misdn port block \n" " Block the specified port by .\n"; return NULL; case CLI_GENERATE: return NULL; } if (a->argc != 4) { return CLI_SHOWUSAGE; } misdn_lib_port_block(atoi(a->argv[3])); return CLI_SUCCESS; } static char *handle_cli_misdn_port_unblock(struct ast_cli_entry *e, int cmd, struct ast_cli_args *a) { switch (cmd) { case CLI_INIT: e->command = "misdn port unblock"; e->usage = "Usage: misdn port unblock \n" " Unblock the port specified by .\n"; return NULL; case CLI_GENERATE: return NULL; } if (a->argc != 4) { return CLI_SHOWUSAGE; } misdn_lib_port_unblock(atoi(a->argv[3])); return CLI_SUCCESS; } static char *handle_cli_misdn_restart_port(struct ast_cli_entry *e, int cmd, struct ast_cli_args *a) { switch (cmd) { case CLI_INIT: e->command = "misdn restart port"; e->usage = "Usage: misdn restart port \n" " Restart the given port.\n"; return NULL; case CLI_GENERATE: return NULL; } if (a->argc != 4) { return CLI_SHOWUSAGE; } misdn_lib_port_restart(atoi(a->argv[3])); return CLI_SUCCESS; } static char *handle_cli_misdn_restart_pid(struct ast_cli_entry *e, int cmd, struct ast_cli_args *a) { switch (cmd) { case CLI_INIT: e->command = "misdn restart pid"; e->usage = "Usage: misdn restart pid \n" " Restart the given pid\n"; return NULL; case CLI_GENERATE: return NULL; } if (a->argc != 4) { return CLI_SHOWUSAGE; } misdn_lib_pid_restart(atoi(a->argv[3])); return CLI_SUCCESS; } static char *handle_cli_misdn_port_up(struct ast_cli_entry *e, int cmd, struct ast_cli_args *a) { switch (cmd) { case CLI_INIT: e->command = "misdn port up"; e->usage = "Usage: misdn port up \n" " Try to establish L1 on the given port.\n"; return NULL; case CLI_GENERATE: return NULL; } if (a->argc != 4) { return CLI_SHOWUSAGE; } misdn_lib_get_port_up(atoi(a->argv[3])); return CLI_SUCCESS; } static char *handle_cli_misdn_port_down(struct ast_cli_entry *e, int cmd, struct ast_cli_args *a) { switch (cmd) { case CLI_INIT: e->command = "misdn port down"; e->usage = "Usage: misdn port down \n" " Try to deactivate the L1 on the given port.\n"; return NULL; case CLI_GENERATE: return NULL; } if (a->argc != 4) { return CLI_SHOWUSAGE; } misdn_lib_get_port_down(atoi(a->argv[3])); return CLI_SUCCESS; } static inline void show_config_description(int fd, enum misdn_cfg_elements elem) { char section[BUFFERSIZE]; char name[BUFFERSIZE]; char desc[BUFFERSIZE]; char def[BUFFERSIZE]; char tmp[BUFFERSIZE]; misdn_cfg_get_name(elem, tmp, sizeof(tmp)); term_color(name, tmp, COLOR_BRWHITE, 0, sizeof(tmp)); misdn_cfg_get_desc(elem, desc, sizeof(desc), def, sizeof(def)); if (elem < MISDN_CFG_LAST) { term_color(section, "PORTS SECTION", COLOR_YELLOW, 0, sizeof(section)); } else { term_color(section, "GENERAL SECTION", COLOR_YELLOW, 0, sizeof(section)); } if (*def) { ast_cli(fd, "[%s] %s (Default: %s)\n\t%s\n", section, name, def, desc); } else { ast_cli(fd, "[%s] %s\n\t%s\n", section, name, desc); } } static char *handle_cli_misdn_show_config(struct ast_cli_entry *e, int cmd, struct ast_cli_args *a) { char buffer[BUFFERSIZE]; enum misdn_cfg_elements elem; int linebreak; int onlyport = -1; int ok = 0; switch (cmd) { case CLI_INIT: e->command = "misdn show config"; e->usage = "Usage: misdn show config [ | description | descriptions [general|ports]]\n" " Use 0 for to only print the general config.\n"; return NULL; case CLI_GENERATE: return complete_show_config(a); } if (a->argc >= 4) { if (!strcmp(a->argv[3], "description")) { if (a->argc == 5) { enum misdn_cfg_elements elem = misdn_cfg_get_elem(a->argv[4]); if (elem == MISDN_CFG_FIRST) { ast_cli(a->fd, "Unknown element: %s\n", a->argv[4]); } else { show_config_description(a->fd, elem); } return CLI_SUCCESS; } return CLI_SHOWUSAGE; } else if (!strcmp(a->argv[3], "descriptions")) { if ((a->argc == 4) || ((a->argc == 5) && !strcmp(a->argv[4], "general"))) { for (elem = MISDN_GEN_FIRST + 1; elem < MISDN_GEN_LAST; ++elem) { show_config_description(a->fd, elem); ast_cli(a->fd, "\n"); } ok = 1; } if ((a->argc == 4) || ((a->argc == 5) && !strcmp(a->argv[4], "ports"))) { for (elem = MISDN_CFG_FIRST + 1; elem < MISDN_CFG_LAST - 1 /* the ptp hack, remove the -1 when ptp is gone */; ++elem) { show_config_description(a->fd, elem); ast_cli(a->fd, "\n"); } ok = 1; } return ok ? CLI_SUCCESS : CLI_SHOWUSAGE; } else if (!sscanf(a->argv[3], "%d", &onlyport) || onlyport < 0) { ast_cli(a->fd, "Unknown option: %s\n", a->argv[3]); return CLI_SHOWUSAGE; } } else if (a->argc == 3 || onlyport == 0) { ast_cli(a->fd, "mISDN General-Config:\n"); for (elem = MISDN_GEN_FIRST + 1, linebreak = 1; elem < MISDN_GEN_LAST; elem++, linebreak++) { misdn_cfg_get_config_string(0, elem, buffer, sizeof(buffer)); ast_cli(a->fd, "%-36s%s", buffer, !(linebreak % 2) ? "\n" : ""); } ast_cli(a->fd, "\n"); } if (onlyport < 0) { int port = misdn_cfg_get_next_port(0); for (; port > 0; port = misdn_cfg_get_next_port(port)) { ast_cli(a->fd, "\n[PORT %d]\n", port); for (elem = MISDN_CFG_FIRST + 1, linebreak = 1; elem < MISDN_CFG_LAST; elem++, linebreak++) { misdn_cfg_get_config_string(port, elem, buffer, sizeof(buffer)); ast_cli(a->fd, "%-36s%s", buffer, !(linebreak % 2) ? "\n" : ""); } ast_cli(a->fd, "\n"); } } if (onlyport > 0) { if (misdn_cfg_is_port_valid(onlyport)) { ast_cli(a->fd, "[PORT %d]\n", onlyport); for (elem = MISDN_CFG_FIRST + 1, linebreak = 1; elem < MISDN_CFG_LAST; elem++, linebreak++) { misdn_cfg_get_config_string(onlyport, elem, buffer, sizeof(buffer)); ast_cli(a->fd, "%-36s%s", buffer, !(linebreak % 2) ? "\n" : ""); } ast_cli(a->fd, "\n"); } else { ast_cli(a->fd, "Port %d is not active!\n", onlyport); } } return CLI_SUCCESS; } struct state_struct { enum misdn_chan_state state; char txt[255]; }; static struct state_struct state_array[] = { { MISDN_NOTHING, "NOTHING" }, /* at beginning */ { MISDN_WAITING4DIGS, "WAITING4DIGS" }, /* when waiting for infos */ { MISDN_EXTCANTMATCH, "EXTCANTMATCH" }, /* when asterisk couldn't match our ext */ { MISDN_INCOMING_SETUP, "INCOMING SETUP" }, /* when pbx_start */ { MISDN_DIALING, "DIALING" }, /* when pbx_start */ { MISDN_PROGRESS, "PROGRESS" }, /* when pbx_start */ { MISDN_PROCEEDING, "PROCEEDING" }, /* when pbx_start */ { MISDN_CALLING, "CALLING" }, /* when misdn_call is called */ { MISDN_CALLING_ACKNOWLEDGE, "CALLING_ACKNOWLEDGE" }, /* when misdn_call is called */ { MISDN_ALERTING, "ALERTING" }, /* when Alerting */ { MISDN_BUSY, "BUSY" }, /* when BUSY */ { MISDN_CONNECTED, "CONNECTED" }, /* when connected */ { MISDN_PRECONNECTED, "PRECONNECTED" }, /* when connected */ { MISDN_DISCONNECTED, "DISCONNECTED" }, /* when connected */ { MISDN_RELEASED, "RELEASED" }, /* when connected */ { MISDN_BRIDGED, "BRIDGED" }, /* when bridged */ { MISDN_CLEANING, "CLEANING" }, /* when hangup from * but we were connected before */ { MISDN_HUNGUP_FROM_MISDN, "HUNGUP_FROM_MISDN" }, /* when DISCONNECT/RELEASE/REL_COMP came from misdn */ { MISDN_HOLDED, "HOLDED" }, /* when DISCONNECT/RELEASE/REL_COMP came from misdn */ { MISDN_HOLD_DISCONNECT, "HOLD_DISCONNECT" }, /* when DISCONNECT/RELEASE/REL_COMP came from misdn */ { MISDN_HUNGUP_FROM_AST, "HUNGUP_FROM_AST" }, /* when DISCONNECT/RELEASE/REL_COMP came out of misdn_hangup */ }; static const char *misdn_get_ch_state(struct chan_list *p) { int i; static char state[8]; if (!p) { return NULL; } for (i = 0; i < ARRAY_LEN(state_array); i++) { if (state_array[i].state == p->state) { return state_array[i].txt; } } snprintf(state, sizeof(state), "%d", p->state) ; return state; } static void reload_config(void) { int i, cfg_debug; if (!g_config_initialized) { ast_log(LOG_WARNING, "chan_misdn is not initialized properly, still reloading ?\n"); return ; } free_robin_list(); misdn_cfg_reload(); misdn_cfg_update_ptp(); misdn_cfg_get(0, MISDN_GEN_TRACEFILE, global_tracefile, sizeof(global_tracefile)); misdn_cfg_get(0, MISDN_GEN_DEBUG, &cfg_debug, sizeof(cfg_debug)); for (i = 0; i <= max_ports; i++) { misdn_debug[i] = cfg_debug; misdn_debug_only[i] = 0; } } static char *handle_cli_misdn_reload(struct ast_cli_entry *e, int cmd, struct ast_cli_args *a) { switch (cmd) { case CLI_INIT: e->command = "misdn reload"; e->usage = "Usage: misdn reload\n" " Reload internal mISDN config, read from the config\n" " file.\n"; return NULL; case CLI_GENERATE: return NULL; } if (a->argc != 2) { return CLI_SHOWUSAGE; } ast_cli(a->fd, "Reloading mISDN configuration\n"); reload_config(); return CLI_SUCCESS; } static void print_bc_info (int fd, struct chan_list *help, struct misdn_bchannel *bc) { struct ast_channel *ast = help->ast; ast_cli(fd, "* Pid:%d Prt:%d Ch:%d Mode:%s Org:%s dad:%s oad:%s rad:%s ctx:%s state:%s\n", bc->pid, bc->port, bc->channel, bc->nt ? "NT" : "TE", help->originator == ORG_AST ? "*" : "I", ast ? ast->exten : NULL, ast ? ast->cid.cid_num : NULL, bc->rad, ast ? ast->context : NULL, misdn_get_ch_state(help) ); if (misdn_debug[bc->port] > 0) { ast_cli(fd, " --> astname: %s\n" " --> ch_l3id: %x\n" " --> ch_addr: %x\n" " --> bc_addr: %x\n" " --> bc_l3id: %x\n" " --> display: %s\n" " --> activated: %d\n" " --> state: %s\n" " --> capability: %s\n" #ifdef MISDN_1_2 " --> pipeline: %s\n" #else " --> echo_cancel: %d\n" #endif " --> notone : rx %d tx:%d\n" " --> bc_hold: %d\n", help->ast->name, help->l3id, help->addr, bc->addr, bc ? bc->l3_id : -1, bc->display, bc->active, bc_state2str(bc->bc_state), bearer2str(bc->capability), #ifdef MISDN_1_2 bc->pipeline, #else bc->ec_enable, #endif help->norxtone, help->notxtone, bc->holded ); } } static char *handle_cli_misdn_show_channels(struct ast_cli_entry *e, int cmd, struct ast_cli_args *a) { struct chan_list *help; switch (cmd) { case CLI_INIT: e->command = "misdn show channels"; e->usage = "Usage: misdn show channels\n" " Show the internal mISDN channel list\n"; return NULL; case CLI_GENERATE: return NULL; } if (a->argc != 3) { return CLI_SHOWUSAGE; } help = cl_te; ast_cli(a->fd, "Channel List: %p\n", cl_te); for (; help; help = help->next) { struct misdn_bchannel *bc = help->bc; struct ast_channel *ast = help->ast; if (!ast) { if (!bc) { ast_cli(a->fd, "chan_list obj. with l3id:%x has no bc and no ast Leg\n", help->l3id); continue; } ast_cli(a->fd, "bc with pid:%d has no Ast Leg\n", bc->pid); continue; } if (misdn_debug[0] > 2) { ast_cli(a->fd, "Bc:%p Ast:%p\n", bc, ast); } if (bc) { print_bc_info(a->fd, help, bc); } else { if (help->state == MISDN_HOLDED) { ast_cli(a->fd, "ITS A HOLDED BC:\n"); ast_cli(a->fd, " --> l3_id: %x\n" " --> dad:%s oad:%s\n" " --> hold_port: %d\n" " --> hold_channel: %d\n", help->l3id, ast->exten, ast->cid.cid_num, help->hold_info.port, help->hold_info.channel ); } else { ast_cli(a->fd, "* Channel in unknown STATE !!! Exten:%s, Callerid:%s\n", ast->exten, ast->cid.cid_num); } } } misdn_dump_chanlist(); return CLI_SUCCESS; } static char *handle_cli_misdn_show_channel(struct ast_cli_entry *e, int cmd, struct ast_cli_args *a) { struct chan_list *help; switch (cmd) { case CLI_INIT: e->command = "misdn show channel"; e->usage = "Usage: misdn show channel \n" " Show an internal mISDN channel\n."; return NULL; case CLI_GENERATE: return complete_ch(a); } if (a->argc != 4) { return CLI_SHOWUSAGE; } help = cl_te; for (; help; help = help->next) { struct misdn_bchannel *bc = help->bc; struct ast_channel *ast = help->ast; if (bc && ast) { if (!strcasecmp(ast->name, a->argv[3])) { print_bc_info(a->fd, help, bc); break; } } } return CLI_SUCCESS; } static char *handle_cli_misdn_set_tics(struct ast_cli_entry *e, int cmd, struct ast_cli_args *a) { switch (cmd) { case CLI_INIT: e->command = "misdn set tics"; e->usage = "Usage: misdn set tics \n"; return NULL; case CLI_GENERATE: return NULL; } if (a->argc != 4) { return CLI_SHOWUSAGE; } /* XXX Wow, this does... a whole lot of nothing... XXX */ MAXTICS = atoi(a->argv[3]); return CLI_SUCCESS; } static char *handle_cli_misdn_show_stacks(struct ast_cli_entry *e, int cmd, struct ast_cli_args *a) { int port; switch (cmd) { case CLI_INIT: e->command = "misdn show stacks"; e->usage = "Usage: misdn show stacks\n" " Show internal mISDN stack_list.\n"; return NULL; case CLI_GENERATE: return NULL; } if (a->argc != 3) { return CLI_SHOWUSAGE; } ast_cli(a->fd, "BEGIN STACK_LIST:\n"); for (port = misdn_cfg_get_next_port(0); port > 0; port = misdn_cfg_get_next_port(port)) { char buf[128]; get_show_stack_details(port, buf); ast_cli(a->fd, " %s Debug:%d%s\n", buf, misdn_debug[port], misdn_debug_only[port] ? "(only)" : ""); } return CLI_SUCCESS; } static char *handle_cli_misdn_show_ports_stats(struct ast_cli_entry *e, int cmd, struct ast_cli_args *a) { int port; switch (cmd) { case CLI_INIT: e->command = "misdn show ports stats"; e->usage = "Usage: misdn show ports stats\n" " Show mISDNs channel's call statistics per port.\n"; return NULL; case CLI_GENERATE: return NULL; } if (a->argc != 4) { return CLI_SHOWUSAGE; } ast_cli(a->fd, "Port\tin_calls\tout_calls\n"); for (port = misdn_cfg_get_next_port(0); port > 0; port = misdn_cfg_get_next_port(port)) { ast_cli(a->fd, "%d\t%d\t\t%d\n", port, misdn_in_calls[port], misdn_out_calls[port]); } ast_cli(a->fd, "\n"); return CLI_SUCCESS; } static char *handle_cli_misdn_show_port(struct ast_cli_entry *e, int cmd, struct ast_cli_args *a) { int port; char buf[128]; switch (cmd) { case CLI_INIT: e->command = "misdn show port"; e->usage = "Usage: misdn show port \n" " Show detailed information for given port.\n"; return NULL; case CLI_GENERATE: return NULL; } if (a->argc != 4) { return CLI_SHOWUSAGE; } port = atoi(a->argv[3]); ast_cli(a->fd, "BEGIN STACK_LIST:\n"); get_show_stack_details(port, buf); ast_cli(a->fd, " %s Debug:%d%s\n", buf, misdn_debug[port], misdn_debug_only[port] ? "(only)" : ""); return CLI_SUCCESS; } static char *handle_cli_misdn_send_facility(struct ast_cli_entry *e, int cmd, struct ast_cli_args *a) { char *channame; char *nr; struct chan_list *tmp; int port; char *served_nr; struct misdn_bchannel dummy, *bc=&dummy; switch (cmd) { case CLI_INIT: e->command = "misdn send facility"; e->usage = "Usage: misdn send facility \"\" \n" "\t type is one of:\n" "\t - calldeflect\n" "\t - CFActivate\n" "\t - CFDeactivate\n"; return NULL; case CLI_GENERATE: return complete_ch(a); } if (a->argc < 5) { return CLI_SHOWUSAGE; } if (strstr(a->argv[3], "calldeflect")) { if (a->argc < 6) { ast_verbose("calldeflect requires 1 arg: ToNumber\n\n"); return 0; } channame = a->argv[4]; nr = a->argv[5]; ast_verbose("Sending Calldeflection (%s) to %s\n", nr, channame); tmp = get_chan_by_ast_name(channame); if (!tmp) { ast_verbose("Sending CD with nr %s to %s failed: Channel does not exist.\n", nr, channame); return 0; } if (strlen(nr) >= 15) { ast_verbose("Sending CD with nr %s to %s failed: Number too long (up to 15 digits are allowed).\n", nr, channame); return 0; } tmp->bc->fac_out.Function = Fac_CD; ast_copy_string((char *)tmp->bc->fac_out.u.CDeflection.DeflectedToNumber, nr, sizeof(tmp->bc->fac_out.u.CDeflection.DeflectedToNumber)); misdn_lib_send_event(tmp->bc, EVENT_FACILITY); } else if (strstr(a->argv[3], "CFActivate")) { if (a->argc < 7) { ast_verbose("CFActivate requires 2 args: 1.FromNumber, 2.ToNumber\n\n"); return 0; } port = atoi(a->argv[4]); served_nr = a->argv[5]; nr = a->argv[6]; misdn_make_dummy(bc, port, 0, misdn_lib_port_is_nt(port), 0); ast_verbose("Sending CFActivate Port:(%d) FromNr. (%s) to Nr. (%s)\n", port, served_nr, nr); bc->fac_out.Function = Fac_CFActivate; bc->fac_out.u.CFActivate.BasicService = 0; /* All Services */ bc->fac_out.u.CFActivate.Procedure = 0; /* Unconditional */ ast_copy_string((char *)bc->fac_out.u.CFActivate.ServedUserNumber, served_nr, sizeof(bc->fac_out.u.CFActivate.ServedUserNumber)); ast_copy_string((char *)bc->fac_out.u.CFActivate.ForwardedToNumber, nr, sizeof(bc->fac_out.u.CFActivate.ForwardedToNumber)); misdn_lib_send_event(bc, EVENT_FACILITY); } else if (strstr(a->argv[3], "CFDeactivate")) { if (a->argc < 6) { ast_verbose("CFActivate requires 1 arg: FromNumber\n\n"); return 0; } port = atoi(a->argv[4]); served_nr = a->argv[5]; misdn_make_dummy(bc, port, 0, misdn_lib_port_is_nt(port), 0); ast_verbose("Sending CFDeactivate Port:(%d) FromNr. (%s)\n", port, served_nr); bc->fac_out.Function = Fac_CFDeactivate; bc->fac_out.u.CFDeactivate.BasicService = 0; //All Services bc->fac_out.u.CFDeactivate.Procedure = 0; //Unconditional ast_copy_string((char *)bc->fac_out.u.CFActivate.ServedUserNumber, served_nr, sizeof(bc->fac_out.u.CFActivate.ServedUserNumber)); misdn_lib_send_event(bc, EVENT_FACILITY); } return CLI_SUCCESS; } static char *handle_cli_misdn_send_restart(struct ast_cli_entry *e, int cmd, struct ast_cli_args *a) { int port; int channel; switch (cmd) { case CLI_INIT: e->command = "misdn send restart"; e->usage = "Usage: misdn send restart [port [channel]]\n" " Send a restart for every bchannel on the given port.\n"; return NULL; case CLI_GENERATE: return NULL; } if (a->argc < 4 || a->argc > 5) { return CLI_SHOWUSAGE; } port = atoi(a->argv[3]); if (a->argc == 5) { channel = atoi(a->argv[4]); misdn_lib_send_restart(port, channel); } else { misdn_lib_send_restart(port, -1); } return CLI_SUCCESS; } static char *handle_cli_misdn_send_digit(struct ast_cli_entry *e, int cmd, struct ast_cli_args *a) { char *channame; char *msg; struct chan_list *tmp; int i, msglen; switch (cmd) { case CLI_INIT: e->command = "misdn send digit"; e->usage = "Usage: misdn send digit \"\" \n" " Send to as DTMF Tone\n" " when channel is a mISDN channel\n"; return NULL; case CLI_GENERATE: return complete_ch(a); } if (a->argc != 5) { return CLI_SHOWUSAGE; } channame = a->argv[3]; msg = a->argv[4]; msglen = strlen(msg); ast_cli(a->fd, "Sending %s to %s\n", msg, channame); tmp = get_chan_by_ast_name(channame); if (!tmp) { ast_cli(a->fd, "Sending %s to %s failed Channel does not exist\n", msg, channame); return CLI_SUCCESS; } #if 1 for (i = 0; i < msglen; i++) { ast_cli(a->fd, "Sending: %c\n", msg[i]); send_digit_to_chan(tmp, msg[i]); /* res = ast_safe_sleep(tmp->ast, 250); */ usleep(250000); /* res = ast_waitfor(tmp->ast,100); */ } #else ast_dtmf_stream(tmp->ast, NULL, msg, 250); #endif return CLI_SUCCESS; } static char *handle_cli_misdn_toggle_echocancel(struct ast_cli_entry *e, int cmd, struct ast_cli_args *a) { char *channame; struct chan_list *tmp; switch (cmd) { case CLI_INIT: e->command = "misdn toggle echocancel"; e->usage = "Usage: misdn toggle echocancel \n" " Toggle EchoCancel on mISDN Channel.\n"; return NULL; case CLI_GENERATE: return complete_ch(a); } if (a->argc != 4) { return CLI_SHOWUSAGE; } channame = a->argv[3]; ast_cli(a->fd, "Toggling EchoCancel on %s\n", channame); tmp = get_chan_by_ast_name(channame); if (!tmp) { ast_cli(a->fd, "Toggling EchoCancel %s failed Channel does not exist\n", channame); return CLI_SUCCESS; } tmp->toggle_ec = tmp->toggle_ec ? 0 : 1; if (tmp->toggle_ec) { #ifdef MISDN_1_2 update_pipeline_config(tmp->bc); #else update_ec_config(tmp->bc); #endif manager_ec_enable(tmp->bc); } else { manager_ec_disable(tmp->bc); } return CLI_SUCCESS; } static char *handle_cli_misdn_send_display(struct ast_cli_entry *e, int cmd, struct ast_cli_args *a) { char *channame; char *msg; struct chan_list *tmp; switch (cmd) { case CLI_INIT: e->command = "misdn send display"; e->usage = "Usage: misdn send display \"\" \n" " Send to as Display Message\n" " when channel is a mISDN channel\n"; return NULL; case CLI_GENERATE: return complete_ch(a); } if (a->argc != 5) { return CLI_SHOWUSAGE; } channame = a->argv[3]; msg = a->argv[4]; ast_cli(a->fd, "Sending %s to %s\n", msg, channame); tmp = get_chan_by_ast_name(channame); if (tmp && tmp->bc) { ast_copy_string(tmp->bc->display, msg, sizeof(tmp->bc->display)); misdn_lib_send_event(tmp->bc, EVENT_INFORMATION); } else { ast_cli(a->fd, "No such channel %s\n", channame); return CLI_SUCCESS; } return CLI_SUCCESS; } static char *complete_ch(struct ast_cli_args *a) { return ast_complete_channels(a->line, a->word, a->pos, a->n, 3); } static char *complete_debug_port(struct ast_cli_args *a) { if (a->n) { return NULL; } switch (a->pos) { case 4: if (a->word[0] == 'p') { return ast_strdup("port"); } else if (a->word[0] == 'o') { return ast_strdup("only"); } break; case 6: if (a->word[0] == 'o') { return ast_strdup("only"); } break; } return NULL; } static char *complete_show_config(struct ast_cli_args *a) { char buffer[BUFFERSIZE]; enum misdn_cfg_elements elem; int wordlen = strlen(a->word); int which = 0; int port = 0; switch (a->pos) { case 3: if ((!strncmp(a->word, "description", wordlen)) && (++which > a->n)) { return ast_strdup("description"); } if ((!strncmp(a->word, "descriptions", wordlen)) && (++which > a->n)) { return ast_strdup("descriptions"); } if ((!strncmp(a->word, "0", wordlen)) && (++which > a->n)) { return ast_strdup("0"); } while ((port = misdn_cfg_get_next_port(port)) != -1) { snprintf(buffer, sizeof(buffer), "%d", port); if ((!strncmp(a->word, buffer, wordlen)) && (++which > a->n)) { return ast_strdup(buffer); } } break; case 4: if (strstr(a->line, "description ")) { for (elem = MISDN_CFG_FIRST + 1; elem < MISDN_GEN_LAST; ++elem) { if ((elem == MISDN_CFG_LAST) || (elem == MISDN_GEN_FIRST)) { continue; } misdn_cfg_get_name(elem, buffer, sizeof(buffer)); if (!wordlen || !strncmp(a->word, buffer, wordlen)) { if (++which > a->n) { return ast_strdup(buffer); } } } } else if (strstr(a->line, "descriptions ")) { if ((!wordlen || !strncmp(a->word, "general", wordlen)) && (++which > a->n)) { return ast_strdup("general"); } if ((!wordlen || !strncmp(a->word, "ports", wordlen)) && (++which > a->n)) { return ast_strdup("ports"); } } break; } return NULL; } static struct ast_cli_entry chan_misdn_clis[] = { AST_CLI_DEFINE(handle_cli_misdn_port_block, "Block the given port"), AST_CLI_DEFINE(handle_cli_misdn_port_down, "Try to deactivate the L1 on the given port"), AST_CLI_DEFINE(handle_cli_misdn_port_unblock, "Unblock the given port"), AST_CLI_DEFINE(handle_cli_misdn_port_up, "Try to establish L1 on the given port"), AST_CLI_DEFINE(handle_cli_misdn_reload, "Reload internal mISDN config, read from the config file"), AST_CLI_DEFINE(handle_cli_misdn_restart_pid, "Restart the given pid"), AST_CLI_DEFINE(handle_cli_misdn_restart_port, "Restart the given port"), AST_CLI_DEFINE(handle_cli_misdn_show_channel, "Show an internal mISDN channel"), AST_CLI_DEFINE(handle_cli_misdn_show_channels, "Show the internal mISDN channel list"), AST_CLI_DEFINE(handle_cli_misdn_show_config, "Show internal mISDN config, read from the config file"), AST_CLI_DEFINE(handle_cli_misdn_show_port, "Show detailed information for given port"), AST_CLI_DEFINE(handle_cli_misdn_show_ports_stats, "Show mISDNs channel's call statistics per port"), AST_CLI_DEFINE(handle_cli_misdn_show_stacks, "Show internal mISDN stack_list"), AST_CLI_DEFINE(handle_cli_misdn_send_facility, "Sends a Facility Message to the mISDN Channel"), AST_CLI_DEFINE(handle_cli_misdn_send_digit, "Send DTMF digit to mISDN Channel"), AST_CLI_DEFINE(handle_cli_misdn_send_display, "Send Text to mISDN Channel"), AST_CLI_DEFINE(handle_cli_misdn_send_restart, "Send a restart for every bchannel on the given port"), AST_CLI_DEFINE(handle_cli_misdn_set_crypt_debug, "Set CryptDebuglevel of chan_misdn, at the moment, level={1,2}"), AST_CLI_DEFINE(handle_cli_misdn_set_debug, "Set Debuglevel of chan_misdn"), AST_CLI_DEFINE(handle_cli_misdn_set_tics, "???"), AST_CLI_DEFINE(handle_cli_misdn_toggle_echocancel, "Toggle EchoCancel on mISDN Channel"), }; /*! \brief Updates caller ID information from config */ static int update_config(struct chan_list *ch, int orig) { struct ast_channel *ast; struct misdn_bchannel *bc; int port, hdlc = 0; int pres, screen; if (!ch) { ast_log(LOG_WARNING, "Cannot configure without chanlist\n"); return -1; } ast = ch->ast; bc = ch->bc; if (! ast || ! bc) { ast_log(LOG_WARNING, "Cannot configure without ast || bc\n"); return -1; } port = bc->port; chan_misdn_log(7, port, "update_config: Getting Config\n"); misdn_cfg_get(port, MISDN_CFG_HDLC, &hdlc, sizeof(int)); if (hdlc) { switch (bc->capability) { case INFO_CAPABILITY_DIGITAL_UNRESTRICTED: case INFO_CAPABILITY_DIGITAL_RESTRICTED: chan_misdn_log(1, bc->port, " --> CONF HDLC\n"); bc->hdlc = 1; break; } } misdn_cfg_get(port, MISDN_CFG_PRES, &pres, sizeof(pres)); misdn_cfg_get(port, MISDN_CFG_SCREEN, &screen, sizeof(screen)); chan_misdn_log(2, port, " --> pres: %d screen: %d\n", pres, screen); if (pres < 0 || screen < 0) { chan_misdn_log(2, port, " --> pres: %x\n", ast->cid.cid_pres); switch (ast->cid.cid_pres & 0x60) { case AST_PRES_RESTRICTED: bc->pres = 1; chan_misdn_log(2, port, " --> PRES: Restricted (1)\n"); break; case AST_PRES_UNAVAILABLE: bc->pres = 2; chan_misdn_log(2, port, " --> PRES: Unavailable (2)\n"); break; default: bc->pres = 0; chan_misdn_log(2, port, " --> PRES: Allowed (0)\n"); break; } switch (ast->cid.cid_pres & 0x3) { default: case AST_PRES_USER_NUMBER_UNSCREENED: bc->screen = 0; chan_misdn_log(2, port, " --> SCREEN: Unscreened (0)\n"); break; case AST_PRES_USER_NUMBER_PASSED_SCREEN: bc->screen = 1; chan_misdn_log(2, port, " --> SCREEN: Passed Screen (1)\n"); break; case AST_PRES_USER_NUMBER_FAILED_SCREEN: bc->screen = 2; chan_misdn_log(2, port, " --> SCREEN: Failed Screen (2)\n"); break; case AST_PRES_NETWORK_NUMBER: bc->screen = 3; chan_misdn_log(2, port, " --> SCREEN: Network Nr. (3)\n"); break; } } else { bc->screen = screen; bc->pres = pres; } return 0; } static void config_jitterbuffer(struct chan_list *ch) { struct misdn_bchannel *bc = ch->bc; int len = ch->jb_len, threshold = ch->jb_upper_threshold; chan_misdn_log(5, bc->port, "config_jb: Called\n"); if (! len) { chan_misdn_log(1, bc->port, "config_jb: Deactivating Jitterbuffer\n"); bc->nojitter=1; } else { if (len <= 100 || len > 8000) { chan_misdn_log(0, bc->port, "config_jb: Jitterbuffer out of Bounds, setting to 1000\n"); len = 1000; } if (threshold > len) { chan_misdn_log(0, bc->port, "config_jb: Jitterbuffer Threshold > Jitterbuffer setting to Jitterbuffer -1\n"); } if ( ch->jb) { cb_log(0, bc->port, "config_jb: We've got a Jitterbuffer Already on this port.\n"); misdn_jb_destroy(ch->jb); ch->jb = NULL; } ch->jb = misdn_jb_init(len, threshold); if (!ch->jb) { bc->nojitter = 1; } } } void debug_numplan(int port, int numplan, char *type) { switch (numplan) { case NUMPLAN_INTERNATIONAL: chan_misdn_log(2, port, " --> %s: International\n", type); break; case NUMPLAN_NATIONAL: chan_misdn_log(2, port, " --> %s: National\n", type); break; case NUMPLAN_SUBSCRIBER: chan_misdn_log(2, port, " --> %s: Subscriber\n", type); break; case NUMPLAN_UNKNOWN: chan_misdn_log(2, port, " --> %s: Unknown\n", type); break; /* Maybe we should cut off the prefix if present ? */ default: chan_misdn_log(0, port, " --> !!!! Wrong dialplan setting, please see the misdn.conf sample file\n "); break; } } #ifdef MISDN_1_2 static int update_pipeline_config(struct misdn_bchannel *bc) { int ec; misdn_cfg_get(bc->port, MISDN_CFG_PIPELINE, bc->pipeline, sizeof(bc->pipeline)); if (*bc->pipeline) { return 0; } misdn_cfg_get(bc->port, MISDN_CFG_ECHOCANCEL, &ec, sizeof(ec)); if (ec == 1) { ast_copy_string(bc->pipeline, "mg2ec", sizeof(bc->pipeline)); } else if (ec > 1) { snprintf(bc->pipeline, sizeof(bc->pipeline), "mg2ec(deftaps=%d)", ec); } return 0; } #else static int update_ec_config(struct misdn_bchannel *bc) { int ec; int port = bc->port; misdn_cfg_get(port, MISDN_CFG_ECHOCANCEL, &ec, sizeof(ec)); if (ec == 1) { bc->ec_enable = 1; } else if (ec > 1) { bc->ec_enable = 1; bc->ec_deftaps = ec; } return 0; } #endif static int read_config(struct chan_list *ch, int orig) { struct ast_channel *ast; struct misdn_bchannel *bc; int port; int hdlc = 0; char lang[BUFFERSIZE + 1]; char faxdetect[BUFFERSIZE + 1]; char buf[256]; char buf2[256]; ast_group_t pg; ast_group_t cg; if (!ch) { ast_log(LOG_WARNING, "Cannot configure without chanlist\n"); return -1; } ast = ch->ast; bc = ch->bc; if (! ast || ! bc) { ast_log(LOG_WARNING, "Cannot configure without ast || bc\n"); return -1; } port = bc->port; chan_misdn_log(1, port, "read_config: Getting Config\n"); misdn_cfg_get(port, MISDN_CFG_LANGUAGE, lang, sizeof(lang)); ast_string_field_set(ast, language, lang); misdn_cfg_get(port, MISDN_CFG_MUSICCLASS, ch->mohinterpret, sizeof(ch->mohinterpret)); misdn_cfg_get(port, MISDN_CFG_TXGAIN, &bc->txgain, sizeof(bc->txgain)); misdn_cfg_get(port, MISDN_CFG_RXGAIN, &bc->rxgain, sizeof(bc->rxgain)); misdn_cfg_get(port, MISDN_CFG_INCOMING_EARLY_AUDIO, &ch->incoming_early_audio, sizeof(ch->incoming_early_audio)); misdn_cfg_get(port, MISDN_CFG_SENDDTMF, &bc->send_dtmf, sizeof(bc->send_dtmf)); misdn_cfg_get(port, MISDN_CFG_ASTDTMF, &ch->ast_dsp, sizeof(int)); if (ch->ast_dsp) { ch->ignore_dtmf = 1; } misdn_cfg_get(port, MISDN_CFG_NEED_MORE_INFOS, &bc->need_more_infos, sizeof(bc->need_more_infos)); misdn_cfg_get(port, MISDN_CFG_NTTIMEOUT, &ch->nttimeout, sizeof(ch->nttimeout)); misdn_cfg_get(port, MISDN_CFG_NOAUTORESPOND_ON_SETUP, &ch->noautorespond_on_setup, sizeof(ch->noautorespond_on_setup)); misdn_cfg_get(port, MISDN_CFG_FAR_ALERTING, &ch->far_alerting, sizeof(ch->far_alerting)); misdn_cfg_get(port, MISDN_CFG_ALLOWED_BEARERS, &ch->allowed_bearers, sizeof(ch->allowed_bearers)); misdn_cfg_get(port, MISDN_CFG_FAXDETECT, faxdetect, sizeof(faxdetect)); misdn_cfg_get(port, MISDN_CFG_HDLC, &hdlc, sizeof(hdlc)); if (hdlc) { switch (bc->capability) { case INFO_CAPABILITY_DIGITAL_UNRESTRICTED: case INFO_CAPABILITY_DIGITAL_RESTRICTED: chan_misdn_log(1, bc->port, " --> CONF HDLC\n"); bc->hdlc = 1; break; } } /*Initialize new Jitterbuffer*/ misdn_cfg_get(port, MISDN_CFG_JITTERBUFFER, &ch->jb_len, sizeof(ch->jb_len)); misdn_cfg_get(port, MISDN_CFG_JITTERBUFFER_UPPER_THRESHOLD, &ch->jb_upper_threshold, sizeof(ch->jb_upper_threshold)); config_jitterbuffer(ch); misdn_cfg_get(bc->port, MISDN_CFG_CONTEXT, ch->context, sizeof(ch->context)); ast_copy_string(ast->context, ch->context, sizeof(ast->context)); #ifdef MISDN_1_2 update_pipeline_config(bc); #else update_ec_config(bc); #endif misdn_cfg_get(bc->port, MISDN_CFG_EARLY_BCONNECT, &bc->early_bconnect, sizeof(bc->early_bconnect)); misdn_cfg_get(port, MISDN_CFG_PICKUPGROUP, &pg, sizeof(pg)); misdn_cfg_get(port, MISDN_CFG_CALLGROUP, &cg, sizeof(cg)); chan_misdn_log(5, port, " --> * CallGrp:%s PickupGrp:%s\n", ast_print_group(buf, sizeof(buf), cg), ast_print_group(buf2, sizeof(buf2), pg)); ast->pickupgroup = pg; ast->callgroup = cg; if (orig == ORG_AST) { char callerid[BUFFERSIZE + 1]; /* ORIGINATOR Asterisk (outgoing call) */ misdn_cfg_get(port, MISDN_CFG_TE_CHOOSE_CHANNEL, &(bc->te_choose_channel), sizeof(bc->te_choose_channel)); if (strstr(faxdetect, "outgoing") || strstr(faxdetect, "both")) { ch->faxdetect = strstr(faxdetect, "nojump") ? 2 : 1; } misdn_cfg_get(port, MISDN_CFG_CALLERID, callerid, sizeof(callerid)); if (!ast_strlen_zero(callerid)) { chan_misdn_log(1, port, " --> * Setting Cid to %s\n", callerid); ast_copy_string(bc->oad, callerid, sizeof(bc->oad)); } misdn_cfg_get(port, MISDN_CFG_DIALPLAN, &bc->dnumplan, sizeof(bc->dnumplan)); misdn_cfg_get(port, MISDN_CFG_LOCALDIALPLAN, &bc->onumplan, sizeof(bc->onumplan)); misdn_cfg_get(port, MISDN_CFG_CPNDIALPLAN, &bc->cpnnumplan, sizeof(bc->cpnnumplan)); debug_numplan(port, bc->dnumplan, "TON"); debug_numplan(port, bc->onumplan, "LTON"); debug_numplan(port, bc->cpnnumplan, "CTON"); ch->overlap_dial = 0; } else { /* ORIGINATOR MISDN (incoming call) */ char prefix[BUFFERSIZE + 1] = ""; if (strstr(faxdetect, "incoming") || strstr(faxdetect, "both")) { ch->faxdetect = (strstr(faxdetect, "nojump")) ? 2 : 1; } misdn_cfg_get(port, MISDN_CFG_CPNDIALPLAN, &bc->cpnnumplan, sizeof(bc->cpnnumplan)); debug_numplan(port, bc->cpnnumplan, "CTON"); switch (bc->onumplan) { case NUMPLAN_INTERNATIONAL: misdn_cfg_get(bc->port, MISDN_CFG_INTERNATPREFIX, prefix, sizeof(prefix)); break; case NUMPLAN_NATIONAL: misdn_cfg_get(bc->port, MISDN_CFG_NATPREFIX, prefix, sizeof(prefix)); break; default: break; } ast_copy_string(buf, bc->oad, sizeof(buf)); snprintf(bc->oad, sizeof(bc->oad), "%s%s", prefix, buf); if (!ast_strlen_zero(bc->dad)) { ast_copy_string(bc->orig_dad, bc->dad, sizeof(bc->orig_dad)); } if (ast_strlen_zero(bc->dad) && !ast_strlen_zero(bc->keypad)) { ast_copy_string(bc->dad, bc->keypad, sizeof(bc->dad)); } prefix[0] = 0; switch (bc->dnumplan) { case NUMPLAN_INTERNATIONAL: misdn_cfg_get(bc->port, MISDN_CFG_INTERNATPREFIX, prefix, sizeof(prefix)); break; case NUMPLAN_NATIONAL: misdn_cfg_get(bc->port, MISDN_CFG_NATPREFIX, prefix, sizeof(prefix)); break; default: break; } ast_copy_string(buf, bc->dad, sizeof(buf)); snprintf(bc->dad, sizeof(bc->dad), "%s%s", prefix, buf); if (strcmp(bc->dad, ast->exten)) { ast_copy_string(ast->exten, bc->dad, sizeof(ast->exten)); } ast_set_callerid(ast, bc->oad, NULL, bc->oad); if ( !ast_strlen_zero(bc->rad) ) { if (ast->cid.cid_rdnis) { ast_free(ast->cid.cid_rdnis); } ast->cid.cid_rdnis = ast_strdup(bc->rad); } misdn_cfg_get(bc->port, MISDN_CFG_OVERLAP_DIAL, &ch->overlap_dial, sizeof(ch->overlap_dial)); ast_mutex_init(&ch->overlap_tv_lock); } /* ORIG MISDN END */ ch->overlap_dial_task = -1; if (ch->faxdetect || ch->ast_dsp) { misdn_cfg_get(port, MISDN_CFG_FAXDETECT_TIMEOUT, &ch->faxdetect_timeout, sizeof(ch->faxdetect_timeout)); if (!ch->dsp) { ch->dsp = ast_dsp_new(); } if (ch->dsp) { ast_dsp_set_features(ch->dsp, DSP_FEATURE_DIGIT_DETECT | (ch->faxdetect ? DSP_FEATURE_FAX_DETECT : 0)); } if (!ch->trans) { ch->trans = ast_translator_build_path(AST_FORMAT_SLINEAR, AST_FORMAT_ALAW); } } /* AOCD initialization */ bc->AOCDtype = Fac_None; return 0; } /*****************************/ /*** AST Indications Start ***/ /*****************************/ static int misdn_call(struct ast_channel *ast, char *dest, int timeout) { int port = 0; int r; int exceed; int bridging; struct chan_list *ch = MISDN_ASTERISK_TECH_PVT(ast); struct misdn_bchannel *newbc; char *dest_cp = ast_strdupa(dest); AST_DECLARE_APP_ARGS(args, AST_APP_ARG(type); AST_APP_ARG(ext); AST_APP_ARG(opts); ); AST_NONSTANDARD_APP_ARGS(args, dest_cp, '/'); if (ast_strlen_zero(args.ext)) { chan_misdn_log(0, 0, "misdn_call: No Extension given!\n"); return -1; } if (!ast) { ast_log(LOG_WARNING, " --> ! misdn_call called on ast_channel *ast where ast == NULL\n"); return -1; } if (((ast->_state != AST_STATE_DOWN) && (ast->_state != AST_STATE_RESERVED)) || !dest) { ast_log(LOG_WARNING, " --> ! misdn_call called on %s, neither down nor reserved (or dest==NULL)\n", ast->name); ast->hangupcause = AST_CAUSE_NORMAL_TEMPORARY_FAILURE; ast_setstate(ast, AST_STATE_DOWN); return -1; } if (!ch) { ast_log(LOG_WARNING, " --> ! misdn_call called on %s, neither down nor reserved (or dest==NULL)\n", ast->name); ast->hangupcause = AST_CAUSE_NORMAL_TEMPORARY_FAILURE; ast_setstate(ast, AST_STATE_DOWN); return -1; } newbc = ch->bc; if (!newbc) { ast_log(LOG_WARNING, " --> ! misdn_call called on %s, neither down nor reserved (or dest==NULL)\n", ast->name); ast->hangupcause = AST_CAUSE_NORMAL_TEMPORARY_FAILURE; ast_setstate(ast, AST_STATE_DOWN); return -1; } port = newbc->port; if ((exceed = add_out_calls(port))) { char tmp[16]; snprintf(tmp, sizeof(tmp), "%d", exceed); pbx_builtin_setvar_helper(ast, "MAX_OVERFLOW", tmp); return -1; } chan_misdn_log(1, port, "* CALL: %s\n", dest); chan_misdn_log(2, port, " --> * dad:%s tech:%s ctx:%s\n", ast->exten, ast->name, ast->context); chan_misdn_log(3, port, " --> * adding2newbc ext %s\n", ast->exten); if (ast->exten) { ast_copy_string(ast->exten, args.ext, sizeof(ast->exten)); ast_copy_string(newbc->dad, args.ext, sizeof(newbc->dad)); } ast_copy_string(newbc->rad, S_OR(ast->cid.cid_rdnis, ""), sizeof(newbc->rad)); chan_misdn_log(3, port, " --> * adding2newbc callerid %s\n", ast->cid.cid_num); if (ast_strlen_zero(newbc->oad) && !ast_strlen_zero(ast->cid.cid_num)) { ast_copy_string(newbc->oad, ast->cid.cid_num, sizeof(newbc->oad)); } newbc->capability = ast->transfercapability; pbx_builtin_setvar_helper(ast, "TRANSFERCAPABILITY", ast_transfercapability2str(newbc->capability)); if ( ast->transfercapability == INFO_CAPABILITY_DIGITAL_UNRESTRICTED) { chan_misdn_log(2, port, " --> * Call with flag Digital\n"); } /* update screening and presentation */ update_config(ch, ORG_AST); /* fill in some ies from channel vary */ import_ch(ast, newbc, ch); /* Finally The Options Override Everything */ if (!ast_strlen_zero(args.opts)) { misdn_set_opt_exec(ast, args.opts); } else { chan_misdn_log(2, port, "NO OPTS GIVEN\n"); } /*check for bridging*/ misdn_cfg_get(0, MISDN_GEN_BRIDGING, &bridging, sizeof(bridging)); if (bridging && ch->other_ch) { #ifdef MISDN_1_2 chan_misdn_log(1, port, "Disabling EC (aka Pipeline) on both Sides\n"); *ch->bc->pipeline = 0; *ch->other_ch->bc->pipeline = 0; #else chan_misdn_log(1, port, "Disabling EC on both Sides\n"); ch->bc->ec_enable = 0; ch->other_ch->bc->ec_enable = 0; #endif } r = misdn_lib_send_event(newbc, EVENT_SETUP); /** we should have l3id after sending setup **/ ch->l3id = newbc->l3_id; if (r == -ENOCHAN ) { chan_misdn_log(0, port, " --> * Theres no Channel at the moment .. !\n"); chan_misdn_log(1, port, " --> * SEND: State Down pid:%d\n", newbc ? newbc->pid : -1); ast->hangupcause = AST_CAUSE_NORMAL_CIRCUIT_CONGESTION; ast_setstate(ast, AST_STATE_DOWN); return -1; } chan_misdn_log(2, port, " --> * SEND: State Dialing pid:%d\n", newbc ? newbc->pid : 1); ast_setstate(ast, AST_STATE_DIALING); ast->hangupcause = AST_CAUSE_NORMAL_CLEARING; if (newbc->nt) { stop_bc_tones(ch); } ch->state = MISDN_CALLING; return 0; } static int misdn_answer(struct ast_channel *ast) { struct chan_list *p; const char *tmp; if (!ast || !(p = MISDN_ASTERISK_TECH_PVT(ast))) { return -1; } chan_misdn_log(1, p ? (p->bc ? p->bc->port : 0) : 0, "* ANSWER:\n"); if (!p) { ast_log(LOG_WARNING, " --> Channel not connected ??\n"); ast_queue_hangup_with_cause(ast, AST_CAUSE_NETWORK_OUT_OF_ORDER); } if (!p->bc) { chan_misdn_log(1, 0, " --> Got Answer, but there is no bc obj ??\n"); ast_queue_hangup_with_cause(ast, AST_CAUSE_PROTOCOL_ERROR); } ast_channel_lock(ast); tmp = pbx_builtin_getvar_helper(ast, "CRYPT_KEY"); if (!ast_strlen_zero(tmp)) { chan_misdn_log(1, p->bc->port, " --> Connection will be BF crypted\n"); ast_copy_string(p->bc->crypt_key, tmp, sizeof(p->bc->crypt_key)); } else { chan_misdn_log(3, p->bc->port, " --> Connection is without BF encryption\n"); } tmp = pbx_builtin_getvar_helper(ast, "MISDN_DIGITAL_TRANS"); if (!ast_strlen_zero(tmp) && ast_true(tmp)) { chan_misdn_log(1, p->bc->port, " --> Connection is transparent digital\n"); p->bc->nodsp = 1; p->bc->hdlc = 0; p->bc->nojitter = 1; } ast_channel_unlock(ast); p->state = MISDN_CONNECTED; stop_indicate(p); if ( ast_strlen_zero(p->bc->cad) ) { chan_misdn_log(2, p->bc->port, " --> empty cad using dad\n"); ast_copy_string(p->bc->cad, p->bc->dad, sizeof(p->bc->cad)); } misdn_lib_send_event(p->bc, EVENT_CONNECT); start_bc_tones(p); return 0; } static int misdn_digit_begin(struct ast_channel *chan, char digit) { /* XXX Modify this callback to support Asterisk controlling the length of DTMF */ return 0; } static int misdn_digit_end(struct ast_channel *ast, char digit, unsigned int duration) { struct chan_list *p; struct misdn_bchannel *bc; char buf[2] = { digit, 0 }; if (!ast || !(p = MISDN_ASTERISK_TECH_PVT(ast))) { return -1; } bc = p->bc; chan_misdn_log(1, bc ? bc->port : 0, "* IND : Digit %c\n", digit); if (!bc) { ast_log(LOG_WARNING, " --> !! Got Digit Event without having bchannel Object\n"); return -1; } switch (p->state ) { case MISDN_CALLING: if (strlen(bc->infos_pending) < sizeof(bc->infos_pending) - 1) { strncat(bc->infos_pending, buf, sizeof(bc->infos_pending) - strlen(bc->infos_pending) - 1); } break; case MISDN_CALLING_ACKNOWLEDGE: ast_copy_string(bc->info_dad, buf, sizeof(bc->info_dad)); if (strlen(bc->dad) < sizeof(bc->dad) - 1) { strncat(bc->dad, buf, sizeof(bc->dad) - strlen(bc->dad) - 1); } ast_copy_string(p->ast->exten, bc->dad, sizeof(p->ast->exten)); misdn_lib_send_event(bc, EVENT_INFORMATION); break; default: /* Do not send Digits in CONNECTED State, when * the other side is too mISDN. */ if (p->other_ch) { return 0; } if (bc->send_dtmf) { send_digit_to_chan(p, digit); } break; } return 0; } static int misdn_fixup(struct ast_channel *oldast, struct ast_channel *ast) { struct chan_list *p; if (!ast || !(p = MISDN_ASTERISK_TECH_PVT(ast))) { return -1; } chan_misdn_log(1, p->bc ? p->bc->port : 0, "* IND: Got Fixup State:%s L3id:%x\n", misdn_get_ch_state(p), p->l3id); p->ast = ast; return 0; } static int misdn_indication(struct ast_channel *ast, int cond, const void *data, size_t datalen) { struct chan_list *p; if (!ast || ! (p=MISDN_ASTERISK_TECH_PVT(ast))) { ast_log(LOG_WARNING, "Returned -1 in misdn_indication\n"); return -1; } if (!p->bc ) { chan_misdn_log(1, 0, "* IND : Indication from %s\n", ast->exten); ast_log(LOG_WARNING, "Private Pointer but no bc ?\n"); return -1; } chan_misdn_log(5, p->bc->port, "* IND : Indication [%d] from %s\n", cond, ast->exten); switch (cond) { case AST_CONTROL_BUSY: chan_misdn_log(1, p->bc->port, "* IND :\tbusy pid:%d\n", p->bc ? p->bc->pid : -1); ast_setstate(ast, AST_STATE_BUSY); p->bc->out_cause = AST_CAUSE_USER_BUSY; if (p->state != MISDN_CONNECTED) { start_bc_tones(p); misdn_lib_send_event( p->bc, EVENT_DISCONNECT); } else { chan_misdn_log(-1, p->bc->port, " --> !! Got Busy in Connected State !?! ast:%s\n", ast->name); } return -1; case AST_CONTROL_RING: chan_misdn_log(1, p->bc->port, "* IND :\tring pid:%d\n", p->bc ? p->bc->pid : -1); return -1; case AST_CONTROL_RINGING: chan_misdn_log(1, p->bc->port, "* IND :\tringing pid:%d\n", p->bc ? p->bc->pid : -1); switch (p->state) { case MISDN_ALERTING: chan_misdn_log(2, p->bc->port, " --> * IND :\tringing pid:%d but I was Ringing before, so ignoring it\n", p->bc ? p->bc->pid : -1); break; case MISDN_CONNECTED: chan_misdn_log(2, p->bc->port, " --> * IND :\tringing pid:%d but Connected, so just send TONE_ALERTING without state changes \n", p->bc ? p->bc->pid : -1); return -1; default: p->state = MISDN_ALERTING; chan_misdn_log(2, p->bc->port, " --> * IND :\tringing pid:%d\n", p->bc ? p->bc->pid : -1); misdn_lib_send_event( p->bc, EVENT_ALERTING); if (p->other_ch && p->other_ch->bc) { if (misdn_inband_avail(p->other_ch->bc)) { chan_misdn_log(2, p->bc->port, " --> other End is mISDN and has inband info available\n"); break; } if (!p->other_ch->bc->nt) { chan_misdn_log(2, p->bc->port, " --> other End is mISDN TE so it has inband info for sure (?)\n"); break; } } chan_misdn_log(3, p->bc->port, " --> * SEND: State Ring pid:%d\n", p->bc ? p->bc->pid : -1); ast_setstate(ast, AST_STATE_RING); if (!p->bc->nt && (p->originator == ORG_MISDN) && !p->incoming_early_audio) { chan_misdn_log(2, p->bc->port, " --> incoming_early_audio off\n"); } else { return -1; } } break; case AST_CONTROL_ANSWER: chan_misdn_log(1, p->bc->port, " --> * IND :\tanswer pid:%d\n", p->bc ? p->bc->pid : -1); start_bc_tones(p); break; case AST_CONTROL_TAKEOFFHOOK: chan_misdn_log(1, p->bc->port, " --> *\ttakeoffhook pid:%d\n", p->bc ? p->bc->pid : -1); return -1; case AST_CONTROL_OFFHOOK: chan_misdn_log(1, p->bc->port, " --> *\toffhook pid:%d\n", p->bc ? p->bc->pid : -1); return -1; case AST_CONTROL_FLASH: chan_misdn_log(1, p->bc->port, " --> *\tflash pid:%d\n", p->bc ? p->bc->pid : -1); break; case AST_CONTROL_PROGRESS: chan_misdn_log(1, p->bc->port, " --> * IND :\tprogress pid:%d\n", p->bc ? p->bc->pid : -1); misdn_lib_send_event( p->bc, EVENT_PROGRESS); break; case AST_CONTROL_PROCEEDING: chan_misdn_log(1, p->bc->port, " --> * IND :\tproceeding pid:%d\n", p->bc ? p->bc->pid : -1); misdn_lib_send_event( p->bc, EVENT_PROCEEDING); break; case AST_CONTROL_CONGESTION: chan_misdn_log(1, p->bc->port, " --> * IND :\tcongestion pid:%d\n", p->bc ? p->bc->pid : -1); p->bc->out_cause = AST_CAUSE_SWITCH_CONGESTION; start_bc_tones(p); misdn_lib_send_event( p->bc, EVENT_DISCONNECT); if (p->bc->nt) { hanguptone_indicate(p); } break; case -1 : chan_misdn_log(1, p->bc->port, " --> * IND :\t-1! (stop indication) pid:%d\n", p->bc ? p->bc->pid : -1); stop_indicate(p); if (p->state == MISDN_CONNECTED) { start_bc_tones(p); } break; case AST_CONTROL_HOLD: ast_moh_start(ast, data, p->mohinterpret); chan_misdn_log(1, p->bc->port, " --> *\tHOLD pid:%d\n", p->bc ? p->bc->pid : -1); break; case AST_CONTROL_UNHOLD: ast_moh_stop(ast); chan_misdn_log(1, p->bc->port, " --> *\tUNHOLD pid:%d\n", p->bc ? p->bc->pid : -1); break; default: chan_misdn_log(1, p->bc->port, " --> * Unknown Indication:%d pid:%d\n", cond, p->bc ? p->bc->pid : -1); } return 0; } static int misdn_hangup(struct ast_channel *ast) { struct chan_list *p; struct misdn_bchannel *bc = NULL; const char *varcause = NULL; ast_debug(1, "misdn_hangup(%s)\n", ast->name); if (!ast || !(p = MISDN_ASTERISK_TECH_PVT(ast))) { return -1; } if (!p) { chan_misdn_log(3, 0, "misdn_hangup called, without chan_list obj.\n"); return 0 ; } bc = p->bc; if (bc) { const char *tmp; ast_channel_lock(ast); if ((tmp = pbx_builtin_getvar_helper(ast, "MISDN_USERUSER"))) { ast_log(LOG_NOTICE, "MISDN_USERUSER: %s\n", tmp); strcpy(bc->uu, tmp); bc->uulen = strlen(bc->uu); } ast_channel_unlock(ast); } MISDN_ASTERISK_TECH_PVT(ast) = NULL; p->ast = NULL; if (ast->_state == AST_STATE_RESERVED || p->state == MISDN_NOTHING || p->state == MISDN_HOLDED || p->state == MISDN_HOLD_DISCONNECT ) { CLEAN_CH: /* between request and call */ ast_debug(1, "State Reserved (or nothing) => chanIsAvail\n"); MISDN_ASTERISK_TECH_PVT(ast) = NULL; ast_mutex_lock(&release_lock); cl_dequeue_chan(&cl_te, p); close(p->pipe[0]); close(p->pipe[1]); ast_free(p); ast_mutex_unlock(&release_lock); if (bc) { misdn_lib_release(bc); } return 0; } if (!bc) { ast_log(LOG_WARNING, "Hangup with private but no bc ? state:%s l3id:%x\n", misdn_get_ch_state(p), p->l3id); goto CLEAN_CH; } p->need_hangup = 0; p->need_queue_hangup = 0; p->need_busy = 0; if (!p->bc->nt) { stop_bc_tones(p); } bc->out_cause = ast->hangupcause ? ast->hangupcause : AST_CAUSE_NORMAL_CLEARING; ast_channel_lock(ast); if ((varcause = pbx_builtin_getvar_helper(ast, "HANGUPCAUSE")) || (varcause = pbx_builtin_getvar_helper(ast, "PRI_CAUSE"))) { int tmpcause = atoi(varcause); bc->out_cause = tmpcause ? tmpcause : AST_CAUSE_NORMAL_CLEARING; } ast_channel_unlock(ast); chan_misdn_log(1, bc->port, "* IND : HANGUP\tpid:%d ctx:%s dad:%s oad:%s State:%s\n", p->bc ? p->bc->pid : -1, ast->context, ast->exten, ast->cid.cid_num, misdn_get_ch_state(p)); chan_misdn_log(3, bc->port, " --> l3id:%x\n", p->l3id); chan_misdn_log(3, bc->port, " --> cause:%d\n", bc->cause); chan_misdn_log(2, bc->port, " --> out_cause:%d\n", bc->out_cause); chan_misdn_log(2, bc->port, " --> state:%s\n", misdn_get_ch_state(p)); switch (p->state) { case MISDN_INCOMING_SETUP: p->state = MISDN_CLEANING; /* This is the only place in misdn_hangup, where we * can call release_chan, else it might create lot's of trouble * */ ast_log(LOG_NOTICE, "release channel, in INCOMING_SETUP state.. no other events happened\n"); release_chan(bc); misdn_lib_send_event(bc, EVENT_RELEASE_COMPLETE); break; case MISDN_HOLDED: case MISDN_DIALING: start_bc_tones(p); hanguptone_indicate(p); p->state = MISDN_CLEANING; if (bc->need_disconnect) { misdn_lib_send_event(bc, EVENT_DISCONNECT); } break; case MISDN_CALLING_ACKNOWLEDGE: start_bc_tones(p); hanguptone_indicate(p); if (bc->need_disconnect) { misdn_lib_send_event(bc, EVENT_DISCONNECT); } break; case MISDN_CALLING: case MISDN_ALERTING: case MISDN_PROGRESS: case MISDN_PROCEEDING: if (p->originator != ORG_AST) { hanguptone_indicate(p); } /*p->state=MISDN_CLEANING;*/ if (bc->need_disconnect) { misdn_lib_send_event(bc, EVENT_DISCONNECT); } break; case MISDN_CONNECTED: case MISDN_PRECONNECTED: /* Alerting or Disconnect */ if (p->bc->nt) { start_bc_tones(p); hanguptone_indicate(p); p->bc->progress_indicator = INFO_PI_INBAND_AVAILABLE; } if (bc->need_disconnect) { misdn_lib_send_event(bc, EVENT_DISCONNECT); } /*p->state=MISDN_CLEANING;*/ break; case MISDN_DISCONNECTED: if (bc->need_release) { misdn_lib_send_event(bc, EVENT_RELEASE); } p->state = MISDN_CLEANING; /* MISDN_HUNGUP_FROM_AST; */ break; case MISDN_RELEASED: case MISDN_CLEANING: p->state = MISDN_CLEANING; break; case MISDN_BUSY: break; case MISDN_HOLD_DISCONNECT: /* need to send release here */ chan_misdn_log(1, bc->port, " --> cause %d\n", bc->cause); chan_misdn_log(1, bc->port, " --> out_cause %d\n", bc->out_cause); bc->out_cause = -1; if (bc->need_release) { misdn_lib_send_event(bc, EVENT_RELEASE); } p->state = MISDN_CLEANING; break; default: if (bc->nt) { bc->out_cause = -1; if (bc->need_release) { misdn_lib_send_event(bc, EVENT_RELEASE); } p->state = MISDN_CLEANING; } else { if (bc->need_disconnect) { misdn_lib_send_event(bc, EVENT_DISCONNECT); } } } p->state = MISDN_CLEANING; chan_misdn_log(3, bc->port, " --> Channel: %s hanguped new state:%s\n", ast->name, misdn_get_ch_state(p)); return 0; } static struct ast_frame *process_ast_dsp(struct chan_list *tmp, struct ast_frame *frame) { struct ast_frame *f,*f2; if (tmp->trans) { f2 = ast_translate(tmp->trans, frame, 0); f = ast_dsp_process(tmp->ast, tmp->dsp, f2); } else { chan_misdn_log(0, tmp->bc->port, "No T-Path found\n"); return NULL; } if (!f || (f->frametype != AST_FRAME_DTMF)) return frame; ast_debug(1, "Detected inband DTMF digit: %c\n", f->subclass); if (tmp->faxdetect && (f->subclass == 'f')) { /* Fax tone -- Handle and return NULL */ if (!tmp->faxhandled) { struct ast_channel *ast = tmp->ast; tmp->faxhandled++; chan_misdn_log(0, tmp->bc->port, "Fax detected, preparing %s for fax transfer.\n", ast->name); tmp->bc->rxgain = 0; isdn_lib_update_rxgain(tmp->bc); tmp->bc->txgain = 0; isdn_lib_update_txgain(tmp->bc); #ifdef MISDN_1_2 *tmp->bc->pipeline = 0; #else tmp->bc->ec_enable = 0; #endif isdn_lib_update_ec(tmp->bc); isdn_lib_stop_dtmf(tmp->bc); switch (tmp->faxdetect) { case 1: if (strcmp(ast->exten, "fax")) { char *context; char context_tmp[BUFFERSIZE]; misdn_cfg_get(tmp->bc->port, MISDN_CFG_FAXDETECT_CONTEXT, &context_tmp, sizeof(context_tmp)); context = ast_strlen_zero(context_tmp) ? (ast_strlen_zero(ast->macrocontext) ? ast->context : ast->macrocontext) : context_tmp; if (ast_exists_extension(ast, context, "fax", 1, ast->cid.cid_num)) { ast_verb(3, "Redirecting %s to fax extension (context:%s)\n", ast->name, context); /* Save the DID/DNIS when we transfer the fax call to a "fax" extension */ pbx_builtin_setvar_helper(ast,"FAXEXTEN",ast->exten); if (ast_async_goto(ast, context, "fax", 1)) { ast_log(LOG_WARNING, "Failed to async goto '%s' into fax of '%s'\n", ast->name, context); } } else { ast_log(LOG_NOTICE, "Fax detected, but no fax extension ctx:%s exten:%s\n", context, ast->exten); } } else { ast_debug(1, "Already in a fax extension, not redirecting\n"); } break; case 2: ast_verb(3, "Not redirecting %s to fax extension, nojump is set.\n", ast->name); break; } } else { ast_debug(1, "Fax already handled\n"); } } if (tmp->ast_dsp && (f->subclass != 'f')) { chan_misdn_log(2, tmp->bc->port, " --> * SEND: DTMF (AST_DSP) :%c\n", f->subclass); } return f; } static struct ast_frame *misdn_read(struct ast_channel *ast) { struct chan_list *tmp; fd_set rrfs; struct timeval tv = { 0, 20000 }; int len, t; if (!ast) { chan_misdn_log(1, 0, "misdn_read called without ast\n"); return NULL; } if (!(tmp = MISDN_ASTERISK_TECH_PVT(ast))) { chan_misdn_log(1, 0, "misdn_read called without ast->pvt\n"); return NULL; } if (!tmp->bc && !(tmp->state == MISDN_HOLDED)) { chan_misdn_log(1, 0, "misdn_read called without bc\n"); return NULL; } FD_ZERO(&rrfs); FD_SET(tmp->pipe[0], &rrfs); if (!(t = select(FD_SETSIZE, &rrfs, NULL, NULL, &tv))) { chan_misdn_log(3, tmp->bc->port, "read Select Timed out\n"); len = 160; } if (t < 0) { chan_misdn_log(-1, tmp->bc->port, "Select Error (err=%s)\n", strerror(errno)); return NULL; } if (FD_ISSET(tmp->pipe[0], &rrfs)) { len = read(tmp->pipe[0], tmp->ast_rd_buf, sizeof(tmp->ast_rd_buf)); if (len <= 0) { /* we hangup here, since our pipe is closed */ chan_misdn_log(2, tmp->bc->port, "misdn_read: Pipe closed, hanging up\n"); return NULL; } } else { return NULL; } tmp->frame.frametype = AST_FRAME_VOICE; tmp->frame.subclass = AST_FORMAT_ALAW; tmp->frame.datalen = len; tmp->frame.samples = len; tmp->frame.mallocd = 0; tmp->frame.offset = 0; tmp->frame.delivery = ast_tv(0, 0); tmp->frame.src = NULL; tmp->frame.data.ptr = tmp->ast_rd_buf; if (tmp->faxdetect && !tmp->faxhandled) { if (tmp->faxdetect_timeout) { if (ast_tvzero(tmp->faxdetect_tv)) { tmp->faxdetect_tv = ast_tvnow(); chan_misdn_log(2, tmp->bc->port, "faxdetect: starting detection with timeout: %ds ...\n", tmp->faxdetect_timeout); return process_ast_dsp(tmp, &tmp->frame); } else { struct timeval tv_now = ast_tvnow(); int diff = ast_tvdiff_ms(tv_now, tmp->faxdetect_tv); if (diff <= (tmp->faxdetect_timeout * 1000)) { chan_misdn_log(5, tmp->bc->port, "faxdetect: detecting ...\n"); return process_ast_dsp(tmp, &tmp->frame); } else { chan_misdn_log(2, tmp->bc->port, "faxdetect: stopping detection (time ran out) ...\n"); tmp->faxdetect = 0; return &tmp->frame; } } } else { chan_misdn_log(5, tmp->bc->port, "faxdetect: detecting ... (no timeout)\n"); return process_ast_dsp(tmp, &tmp->frame); } } else { if (tmp->ast_dsp) { return process_ast_dsp(tmp, &tmp->frame); } else { return &tmp->frame; } } } static int misdn_write(struct ast_channel *ast, struct ast_frame *frame) { struct chan_list *ch; int i = 0; if (!ast || !(ch = MISDN_ASTERISK_TECH_PVT(ast))) { return -1; } if (ch->state == MISDN_HOLDED) { chan_misdn_log(7, 0, "misdn_write: Returning because holded\n"); return 0; } if (!ch->bc ) { ast_log(LOG_WARNING, "private but no bc\n"); return -1; } if (ch->notxtone) { chan_misdn_log(7, ch->bc->port, "misdn_write: Returning because notxtone\n"); return 0; } if (!frame->subclass) { chan_misdn_log(4, ch->bc->port, "misdn_write: * prods us\n"); return 0; } if (!(frame->subclass & prefformat)) { chan_misdn_log(-1, ch->bc->port, "Got Unsupported Frame with Format:%d\n", frame->subclass); return 0; } if (!frame->samples ) { chan_misdn_log(4, ch->bc->port, "misdn_write: zero write\n"); if (!strcmp(frame->src,"ast_prod")) { chan_misdn_log(1, ch->bc->port, "misdn_write: state (%s) prodded.\n", misdn_get_ch_state(ch)); if (ch->ts) { chan_misdn_log(4, ch->bc->port, "Starting Playtones\n"); misdn_lib_tone_generator_start(ch->bc); } return 0; } return -1; } if (!ch->bc->addr) { chan_misdn_log(8, ch->bc->port, "misdn_write: no addr for bc dropping:%d\n", frame->samples); return 0; } #ifdef MISDN_DEBUG { int i, max = 5 > frame->samples ? frame->samples : 5; ast_debug(1, "write2mISDN %p %d bytes: ", p, frame->samples); for (i = 0; i < max; i++) { ast_debug(1, "%2.2x ", ((char *) frame->data.ptr)[i]); } } #endif switch (ch->bc->bc_state) { case BCHAN_ACTIVATED: case BCHAN_BRIDGED: break; default: if (!ch->dropped_frame_cnt) { chan_misdn_log(5, ch->bc->port, "BC not active (nor bridged) dropping: %d frames addr:%x exten:%s cid:%s ch->state:%s bc_state:%d l3id:%x\n", frame->samples, ch->bc->addr, ast->exten, ast->cid.cid_num, misdn_get_ch_state( ch), ch->bc->bc_state, ch->bc->l3_id); } if (++ch->dropped_frame_cnt > 100) { ch->dropped_frame_cnt = 0; chan_misdn_log(5, ch->bc->port, "BC not active (nor bridged) dropping: %d frames addr:%x dropped > 100 frames!\n", frame->samples, ch->bc->addr); } return 0; } chan_misdn_log(9, ch->bc->port, "Sending :%d bytes to MISDN\n", frame->samples); if (!ch->bc->nojitter && misdn_cap_is_speech(ch->bc->capability)) { /* Buffered Transmit (triggered by read from isdn side)*/ if (misdn_jb_fill(ch->jb, frame->data.ptr, frame->samples) < 0) { if (ch->bc->active) { cb_log(0, ch->bc->port, "Misdn Jitterbuffer Overflow.\n"); } } } else { /*transmit without jitterbuffer*/ i = misdn_lib_tx2misdn_frm(ch->bc, frame->data.ptr, frame->samples); } return 0; } static enum ast_bridge_result misdn_bridge (struct ast_channel *c0, struct ast_channel *c1, int flags, struct ast_frame **fo, struct ast_channel **rc, int timeoutms) { struct chan_list *ch1, *ch2; struct ast_channel *carr[2], *who; int to = -1; struct ast_frame *f; int p1_b, p2_b; int bridging; ch1 = get_chan_by_ast(c0); ch2 = get_chan_by_ast(c1); carr[0] = c0; carr[1] = c1; if (!(ch1 && ch2)) { return -1; } misdn_cfg_get(ch1->bc->port, MISDN_CFG_BRIDGING, &p1_b, sizeof(p1_b)); misdn_cfg_get(ch2->bc->port, MISDN_CFG_BRIDGING, &p2_b, sizeof(p2_b)); if (! p1_b || ! p2_b) { ast_log(LOG_NOTICE, "Falling back to Asterisk bridging\n"); return AST_BRIDGE_FAILED; } misdn_cfg_get(0, MISDN_GEN_BRIDGING, &bridging, sizeof(bridging)); if (bridging) { /* trying to make a mISDN_dsp conference */ chan_misdn_log(1, ch1->bc->port, "I SEND: Making conference with Number:%d\n", ch1->bc->pid + 1); misdn_lib_bridge(ch1->bc, ch2->bc); } ast_verb(3, "Native bridging %s and %s\n", c0->name, c1->name); chan_misdn_log(1, ch1->bc->port, "* Making Native Bridge between %s and %s\n", ch1->bc->oad, ch2->bc->oad); if (! (flags & AST_BRIDGE_DTMF_CHANNEL_0) ) { ch1->ignore_dtmf = 1; } if (! (flags & AST_BRIDGE_DTMF_CHANNEL_1) ) { ch2->ignore_dtmf = 1; } for (;/*ever*/;) { to = -1; who = ast_waitfor_n(carr, 2, &to); if (!who) { ast_log(LOG_NOTICE, "misdn_bridge: empty read, breaking out\n"); break; } f = ast_read(who); if (!f || f->frametype == AST_FRAME_CONTROL) { /* got hangup .. */ if (!f) chan_misdn_log(4, ch1->bc->port, "Read Null Frame\n"); else chan_misdn_log(4, ch1->bc->port, "Read Frame Control class:%d\n", f->subclass); *fo = f; *rc = who; break; } if ( f->frametype == AST_FRAME_DTMF ) { chan_misdn_log(1, 0, "Read DTMF %d from %s\n", f->subclass, who->exten); *fo = f; *rc = who; break; } #if 0 if (f->frametype == AST_FRAME_VOICE) { chan_misdn_log(1, ch1->bc->port, "I SEND: Splitting conference with Number:%d\n", ch1->bc->pid +1); continue; } #endif ast_write(who == c0 ? c1 : c0, f); } chan_misdn_log(1, ch1->bc->port, "I SEND: Splitting conference with Number:%d\n", ch1->bc->pid + 1); misdn_lib_split_bridge(ch1->bc, ch2->bc); return AST_BRIDGE_COMPLETE; } /** AST INDICATIONS END **/ static int dialtone_indicate(struct chan_list *cl) { struct ast_channel *ast = cl->ast; int nd = 0; if (!ast) { chan_misdn_log(0, cl->bc->port, "No Ast in dialtone_indicate\n"); return -1; } misdn_cfg_get(cl->bc->port, MISDN_CFG_NODIALTONE, &nd, sizeof(nd)); if (nd) { chan_misdn_log(1, cl->bc->port, "Not sending Dialtone, because config wants it\n"); return 0; } chan_misdn_log(3, cl->bc->port, " --> Dial\n"); cl->ts = ast_get_indication_tone(ast->zone, "dial"); if (cl->ts) { cl->notxtone = 0; cl->norxtone = 0; /* This prods us in misdn_write */ ast_playtones_start(ast, 0, cl->ts->data, 0); } return 0; } static int hanguptone_indicate(struct chan_list *cl) { misdn_lib_send_tone(cl->bc, TONE_HANGUP); return 0; } static int stop_indicate(struct chan_list *cl) { struct ast_channel *ast = cl->ast; if (!ast) { chan_misdn_log(0, cl->bc->port, "No Ast in stop_indicate\n"); return -1; } chan_misdn_log(3, cl->bc->port, " --> None\n"); misdn_lib_tone_generator_stop(cl->bc); ast_playtones_stop(ast); if (cl->ts) { cl->ts = ast_tone_zone_sound_unref(cl->ts); } return 0; } static int start_bc_tones(struct chan_list* cl) { misdn_lib_tone_generator_stop(cl->bc); cl->notxtone = 0; cl->norxtone = 0; return 0; } static int stop_bc_tones(struct chan_list *cl) { if (!cl) { return -1; } cl->notxtone = 1; cl->norxtone = 1; return 0; } static struct chan_list *init_chan_list(int orig) { struct chan_list *cl; if (!(cl = ast_calloc(1, sizeof(*cl)))) { chan_misdn_log(-1, 0, "misdn_request: malloc failed!"); return NULL; } cl->originator = orig; cl->need_queue_hangup = 1; cl->need_hangup = 1; cl->need_busy = 1; cl->overlap_dial_task = -1; return cl; } static struct ast_channel *misdn_request(const char *type, int format, void *data, int *cause) { struct ast_channel *tmp = NULL; char group[BUFFERSIZE + 1] = ""; char buf[128]; char *buf2 = ast_strdupa(data), *ext = NULL, *port_str; char *tokb = NULL, *p = NULL; int channel = 0, port = 0; struct misdn_bchannel *newbc = NULL; int dec = 0; struct chan_list *cl = init_chan_list(ORG_AST); snprintf(buf, sizeof(buf), "%s/%s", misdn_type, (char*)data); port_str = strtok_r(buf2, "/", &tokb); ext = strtok_r(NULL, "/", &tokb); if (port_str) { if (port_str[0] == 'g' && port_str[1] == ':' ) { /* We make a group call lets checkout which ports are in my group */ port_str += 2; ast_copy_string(group, port_str, sizeof(group)); chan_misdn_log(2, 0, " --> Group Call group: %s\n", group); } else if ((p = strchr(port_str, ':'))) { /* we have a preselected channel */ *p = 0; channel = atoi(++p); port = atoi(port_str); chan_misdn_log(2, port, " --> Call on preselected Channel (%d).\n", channel); } else { port = atoi(port_str); } } else { ast_log(LOG_WARNING, " --> ! IND : CALL dad:%s WITHOUT PORT/Group, check extensions.conf\n", ext); return NULL; } if (misdn_cfg_is_group_method(group, METHOD_STANDARD_DEC)) { chan_misdn_log(4, port, " --> STARTING STANDARD DEC...\n"); dec = 1; } if (!ast_strlen_zero(group)) { char cfg_group[BUFFERSIZE + 1]; struct robin_list *rr = NULL; /* Group dial */ if (misdn_cfg_is_group_method(group, METHOD_ROUND_ROBIN)) { chan_misdn_log(4, port, " --> STARTING ROUND ROBIN...\n"); rr = get_robin_position(group); } if (rr) { int robin_channel = rr->channel; int port_start; int next_chan = 1; do { port_start = 0; for (port = misdn_cfg_get_next_port_spin(rr->port); port > 0 && port != port_start; port = misdn_cfg_get_next_port_spin(port)) { if (!port_start) { port_start = port; } if (port >= port_start) { next_chan = 1; } if (port <= port_start && next_chan) { int maxbchans=misdn_lib_get_maxchans(port); if (++robin_channel >= maxbchans) { robin_channel = 1; } next_chan = 0; } misdn_cfg_get(port, MISDN_CFG_GROUPNAME, cfg_group, sizeof(cfg_group)); if (!strcasecmp(cfg_group, group)) { int port_up; int check; misdn_cfg_get(port, MISDN_CFG_PMP_L1_CHECK, &check, sizeof(check)); port_up = misdn_lib_port_up(port, check); if (check && !port_up) { chan_misdn_log(1, port, "L1 is not Up on this Port\n"); } if (check && port_up < 0) { ast_log(LOG_WARNING, "This port (%d) is blocked\n", port); } if (port_up > 0) { newbc = misdn_lib_get_free_bc(port, robin_channel, 0, 0); if (newbc) { chan_misdn_log(4, port, " Success! Found port:%d channel:%d\n", newbc->port, newbc->channel); if (port_up) { chan_misdn_log(4, port, "portup:%d\n", port_up); } rr->port = newbc->port; rr->channel = newbc->channel; break; } } } } } while (!newbc && robin_channel != rr->channel); } else { for (port = misdn_cfg_get_next_port(0); port > 0; port = misdn_cfg_get_next_port(port)) { misdn_cfg_get(port, MISDN_CFG_GROUPNAME, cfg_group, sizeof(cfg_group)); chan_misdn_log(3, port, "Group [%s] Port [%d]\n", group, port); if (!strcasecmp(cfg_group, group)) { int port_up; int check; misdn_cfg_get(port, MISDN_CFG_PMP_L1_CHECK, &check, sizeof(check)); port_up = misdn_lib_port_up(port, check); chan_misdn_log(4, port, "portup:%d\n", port_up); if (port_up > 0) { if ((newbc = misdn_lib_get_free_bc(port, 0, 0, dec))) { break; } } } } } /* Group dial failed ?*/ if (!newbc) { ast_log(LOG_WARNING, "Could not Dial out on group '%s'.\n" "\tEither the L2 and L1 on all of these ports where DOWN (see 'show application misdn_check_l2l1')\n" "\tOr there was no free channel on none of the ports\n\n" , group); return NULL; } } else { /* 'Normal' Port dial * Port dial */ if (channel) { chan_misdn_log(1, port, " --> preselected_channel: %d\n", channel); } newbc = misdn_lib_get_free_bc(port, channel, 0, dec); if (!newbc) { ast_log(LOG_WARNING, "Could not create channel on port:%d with extensions:%s\n", port, ext); return NULL; } } /* create ast_channel and link all the objects together */ cl->bc = newbc; tmp = misdn_new(cl, AST_STATE_RESERVED, ext, NULL, format, port, channel); if (!tmp) { ast_log(LOG_ERROR, "Could not create Asterisk object\n"); return NULL; } cl->ast = tmp; /* register chan in local list */ cl_queue_chan(&cl_te, cl); /* fill in the config into the objects */ read_config(cl, ORG_AST); /* important */ cl->need_hangup = 0; return tmp; } static int misdn_send_text(struct ast_channel *chan, const char *text) { struct chan_list *tmp = chan->tech_pvt; if (tmp && tmp->bc) { ast_copy_string(tmp->bc->display, text, sizeof(tmp->bc->display)); misdn_lib_send_event(tmp->bc, EVENT_INFORMATION); } else { ast_log(LOG_WARNING, "No chan_list but send_text request?\n"); return -1; } return 0; } static struct ast_channel_tech misdn_tech = { .type = "mISDN", .description = "Channel driver for mISDN Support (Bri/Pri)", .capabilities = AST_FORMAT_ALAW , .requester = misdn_request, .send_digit_begin = misdn_digit_begin, .send_digit_end = misdn_digit_end, .call = misdn_call, .bridge = misdn_bridge, .hangup = misdn_hangup, .answer = misdn_answer, .read = misdn_read, .write = misdn_write, .indicate = misdn_indication, .fixup = misdn_fixup, .send_text = misdn_send_text, .properties = 0, }; static struct ast_channel_tech misdn_tech_wo_bridge = { .type = "mISDN", .description = "Channel driver for mISDN Support (Bri/Pri)", .capabilities = AST_FORMAT_ALAW , .requester = misdn_request, .send_digit_begin = misdn_digit_begin, .send_digit_end = misdn_digit_end, .call = misdn_call, .hangup = misdn_hangup, .answer = misdn_answer, .read = misdn_read, .write = misdn_write, .indicate = misdn_indication, .fixup = misdn_fixup, .send_text = misdn_send_text, .properties = 0, }; static int glob_channel = 0; static void update_name(struct ast_channel *tmp, int port, int c) { int chan_offset = 0; int tmp_port = misdn_cfg_get_next_port(0); char newname[255]; for (; tmp_port > 0; tmp_port = misdn_cfg_get_next_port(tmp_port)) { if (tmp_port == port) { break; } chan_offset += misdn_lib_port_is_pri(tmp_port) ? 30 : 2; } if (c < 0) { c = 0; } snprintf(newname, sizeof(newname), "%s/%d-", misdn_type, chan_offset + c); if (strncmp(tmp->name, newname, strlen(newname))) { snprintf(newname, sizeof(newname), "%s/%d-u%d", misdn_type, chan_offset + c, glob_channel++); ast_change_name(tmp, newname); chan_misdn_log(3, port, " --> updating channel name to [%s]\n", tmp->name); } } static struct ast_channel *misdn_new(struct chan_list *chlist, int state, char *exten, char *callerid, int format, int port, int c) { struct ast_channel *tmp; char *cid_name = 0, *cid_num = 0; int chan_offset = 0; int tmp_port = misdn_cfg_get_next_port(0); int bridging; for (; tmp_port > 0; tmp_port = misdn_cfg_get_next_port(tmp_port)) { if (tmp_port == port) { break; } chan_offset += misdn_lib_port_is_pri(tmp_port) ? 30 : 2; } if (c < 0) { c = 0; } if (callerid) { ast_callerid_parse(callerid, &cid_name, &cid_num); } tmp = ast_channel_alloc(1, state, cid_num, cid_name, "", exten, "", 0, "%s/%s%d-u%d", misdn_type, c ? "" : "tmp", chan_offset + c, glob_channel++); if (tmp) { chan_misdn_log(2, 0, " --> * NEW CHANNEL dad:%s oad:%s\n", exten, callerid); tmp->nativeformats = prefformat; tmp->readformat = format; tmp->rawreadformat = format; tmp->writeformat = format; tmp->rawwriteformat = format; tmp->tech_pvt = chlist; misdn_cfg_get(0, MISDN_GEN_BRIDGING, &bridging, sizeof(bridging)); tmp->tech = bridging ? &misdn_tech : &misdn_tech_wo_bridge; tmp->writeformat = format; tmp->readformat = format; tmp->priority = 1; if (exten) { ast_copy_string(tmp->exten, exten, sizeof(tmp->exten)); } else { chan_misdn_log(1, 0, "misdn_new: no exten given.\n"); } if (callerid) { /* Don't use ast_set_callerid() here because it will * generate a needless NewCallerID event */ tmp->cid.cid_ani = ast_strdup(cid_num); } if (pipe(chlist->pipe) < 0) { ast_log(LOG_ERROR, "Pipe failed\n"); } ast_channel_set_fd(tmp, 0, chlist->pipe[0]); tmp->rings = (state == AST_STATE_RING) ? 1 : 0; ast_jb_configure(tmp, misdn_get_global_jbconf()); } else { chan_misdn_log(-1, 0, "Unable to allocate channel structure\n"); } return tmp; } static struct chan_list *find_chan_by_bc(struct chan_list *list, struct misdn_bchannel *bc) { struct chan_list *help = list; for (; help; help = help->next) { if (help->bc == bc) { return help; } } chan_misdn_log(6, bc->port, "$$$ find_chan: No channel found for oad:%s dad:%s\n", bc->oad, bc->dad); return NULL; } static struct chan_list *find_chan_by_pid(struct chan_list *list, int pid) { struct chan_list *help = list; for (; help; help = help->next) { if (help->bc && (help->bc->pid == pid)) { return help; } } chan_misdn_log(6, 0, "$$$ find_chan: No channel found for pid:%d\n", pid); return NULL; } static struct chan_list *find_holded(struct chan_list *list, struct misdn_bchannel *bc) { struct chan_list *help = list; if (bc->pri) { return NULL; } chan_misdn_log(6, bc->port, "$$$ find_holded: channel:%d oad:%s dad:%s\n", bc->channel, bc->oad, bc->dad); for (; help; help = help->next) { chan_misdn_log(4, bc->port, "$$$ find_holded: --> holded:%d channel:%d\n", help->state == MISDN_HOLDED, help->hold_info.channel); if ((help->state == MISDN_HOLDED) && (help->hold_info.port == bc->port)) { return help; } } chan_misdn_log(6, bc->port, "$$$ find_chan: No channel found for oad:%s dad:%s\n", bc->oad, bc->dad); return NULL; } static struct chan_list *find_holded_l3(struct chan_list *list, unsigned long l3_id, int w) { struct chan_list *help = list; for (; help; help = help->next) { if ((help->state == MISDN_HOLDED) && (help->l3id == l3_id)) { return help; } } return NULL; } static void cl_queue_chan(struct chan_list **list, struct chan_list *chan) { chan_misdn_log(4, chan->bc ? chan->bc->port : 0, "* Queuing chan %p\n", chan); ast_mutex_lock(&cl_te_lock); if (!*list) { *list = chan; } else { struct chan_list *help = *list; for (; help->next; help = help->next); help->next = chan; } chan->next = NULL; ast_mutex_unlock(&cl_te_lock); } static void cl_dequeue_chan(struct chan_list **list, struct chan_list *chan) { struct chan_list *help; if (chan->dsp) { ast_dsp_free(chan->dsp); } if (chan->trans) { ast_translator_free_path(chan->trans); } ast_mutex_lock(&cl_te_lock); if (!*list) { ast_mutex_unlock(&cl_te_lock); return; } if (*list == chan) { *list = (*list)->next; ast_mutex_unlock(&cl_te_lock); return; } for (help = *list; help->next; help = help->next) { if (help->next == chan) { help->next = help->next->next; ast_mutex_unlock(&cl_te_lock); return; } } ast_mutex_unlock(&cl_te_lock); } /** Channel Queue End **/ static int pbx_start_chan(struct chan_list *ch) { int ret = ast_pbx_start(ch->ast); ch->need_hangup = (ret >= 0) ? 0 : 1; return ret; } static void hangup_chan(struct chan_list *ch) { int port = ch ? (ch->bc ? ch->bc->port : 0) : 0; if (!ch) { cb_log(1, 0, "Cannot hangup chan, no ch\n"); return; } cb_log(5, port, "hangup_chan called\n"); if (ch->need_hangup) { cb_log(2, port, " --> hangup\n"); send_cause2ast(ch->ast, ch->bc, ch); ch->need_hangup = 0; ch->need_queue_hangup = 0; if (ch->ast) { ast_hangup(ch->ast); } return; } if (!ch->need_queue_hangup) { cb_log(2, port, " --> No need to queue hangup\n"); } ch->need_queue_hangup = 0; if (ch->ast) { send_cause2ast(ch->ast, ch->bc, ch); if (ch->ast) { ast_queue_hangup_with_cause(ch->ast, ch->bc->cause); } cb_log(2, port, " --> queue_hangup\n"); } else { cb_log(1, port, "Cannot hangup chan, no ast\n"); } } /** Isdn asks us to release channel, pendant to misdn_hangup **/ static void release_chan(struct misdn_bchannel *bc) { struct ast_channel *ast = NULL; struct chan_list *ch; ast_mutex_lock(&release_lock); if (!(ch = find_chan_by_bc(cl_te, bc))) { chan_misdn_log(1, bc->port, "release_chan: Ch not found!\n"); ast_mutex_unlock(&release_lock); return; } if (ch->ast) { ast = ch->ast; } chan_misdn_log(5, bc->port, "release_chan: bc with l3id: %x\n", bc->l3_id); /* releasing jitterbuffer */ if (ch->jb ) { misdn_jb_destroy(ch->jb); ch->jb = NULL; } else { if (!bc->nojitter) { chan_misdn_log(5, bc->port, "Jitterbuffer already destroyed.\n"); } } if (ch->overlap_dial) { if (ch->overlap_dial_task != -1) { misdn_tasks_remove(ch->overlap_dial_task); ch->overlap_dial_task = -1; } ast_mutex_destroy(&ch->overlap_tv_lock); } if (ch->originator == ORG_AST) { misdn_out_calls[bc->port]--; } else { misdn_in_calls[bc->port]--; } if (ch) { close(ch->pipe[0]); close(ch->pipe[1]); if (ast && MISDN_ASTERISK_TECH_PVT(ast)) { chan_misdn_log(1, bc->port, "* RELEASING CHANNEL pid:%d ctx:%s dad:%s oad:%s state: %s\n", bc ? bc->pid : -1, ast->context, ast->exten, ast->cid.cid_num, misdn_get_ch_state(ch)); chan_misdn_log(3, bc->port, " --> * State Down\n"); MISDN_ASTERISK_TECH_PVT(ast) = NULL; if (ast->_state != AST_STATE_RESERVED) { chan_misdn_log(3, bc->port, " --> Setting AST State to down\n"); ast_setstate(ast, AST_STATE_DOWN); } } ch->state = MISDN_CLEANING; cl_dequeue_chan(&cl_te, ch); ast_free(ch); } else { /* chan is already cleaned, so exiting */ } ast_mutex_unlock(&release_lock); /*** release end **/ } static void misdn_transfer_bc(struct chan_list *tmp_ch, struct chan_list *holded_chan) { chan_misdn_log(4, 0, "TRANSFERRING %s to %s\n", holded_chan->ast->name, tmp_ch->ast->name); tmp_ch->state = MISDN_HOLD_DISCONNECT; ast_moh_stop(ast_bridged_channel(holded_chan->ast)); holded_chan->state = MISDN_CONNECTED; /* misdn_lib_transfer(holded_chan->bc); */ ast_channel_masquerade(holded_chan->ast, ast_bridged_channel(tmp_ch->ast)); } static void do_immediate_setup(struct misdn_bchannel *bc, struct chan_list *ch, struct ast_channel *ast) { char *predial; struct ast_frame fr; predial = ast_strdupa(ast->exten); ch->state = MISDN_DIALING; if (!ch->noautorespond_on_setup) { if (bc->nt) { int ret; ret = misdn_lib_send_event(bc, EVENT_SETUP_ACKNOWLEDGE ); } else { int ret; if ( misdn_lib_is_ptp(bc->port)) { ret = misdn_lib_send_event(bc, EVENT_SETUP_ACKNOWLEDGE ); } else { ret = misdn_lib_send_event(bc, EVENT_PROCEEDING ); } } } else { ch->state = MISDN_INCOMING_SETUP; } chan_misdn_log(1, bc->port, "* Starting Ast ctx:%s dad:%s oad:%s with 's' extension\n", ast->context, ast->exten, ast->cid.cid_num); strncpy(ast->exten, "s", 2); if (!ast_canmatch_extension(ast, ast->context, ast->exten, 1, bc->oad) || pbx_start_chan(ch) < 0) { ast = NULL; bc->out_cause = AST_CAUSE_UNALLOCATED; hangup_chan(ch); hanguptone_indicate(ch); misdn_lib_send_event(bc, bc->nt ? EVENT_RELEASE_COMPLETE : EVENT_DISCONNECT); } while (!ast_strlen_zero(predial) ) { fr.frametype = AST_FRAME_DTMF; fr.subclass = *predial; fr.src = NULL; fr.data.ptr = NULL; fr.datalen = 0; fr.samples = 0; fr.mallocd = 0; fr.offset = 0; fr.delivery = ast_tv(0,0); if (ch->ast && MISDN_ASTERISK_PVT(ch->ast) && MISDN_ASTERISK_TECH_PVT(ch->ast)) { ast_queue_frame(ch->ast, &fr); } predial++; } } static void send_cause2ast(struct ast_channel *ast, struct misdn_bchannel *bc, struct chan_list *ch) { if (!ast) { chan_misdn_log(1, 0, "send_cause2ast: No Ast\n"); return; } if (!bc) { chan_misdn_log(1, 0, "send_cause2ast: No BC\n"); return; } if (!ch) { chan_misdn_log(1, 0, "send_cause2ast: No Ch\n"); return; } ast->hangupcause = bc->cause; switch (bc->cause) { case AST_CAUSE_UNALLOCATED: case AST_CAUSE_NO_ROUTE_TRANSIT_NET: case AST_CAUSE_NO_ROUTE_DESTINATION: case 4: /* Send special information tone */ case AST_CAUSE_NUMBER_CHANGED: case AST_CAUSE_DESTINATION_OUT_OF_ORDER: /* Congestion Cases */ /* * Not Queueing the Congestion anymore, since we want to hear * the inband message * chan_misdn_log(1, bc ? bc->port : 0, " --> * SEND: Queue Congestion pid:%d\n", bc ? bc->pid : -1); ch->state = MISDN_BUSY; ast_queue_control(ast, AST_CONTROL_CONGESTION); */ break; case AST_CAUSE_CALL_REJECTED: case AST_CAUSE_USER_BUSY: ch->state = MISDN_BUSY; if (!ch->need_busy) { chan_misdn_log(1, bc ? bc->port : 0, "Queued busy already\n"); break; } chan_misdn_log(1, bc ? bc->port : 0, " --> * SEND: Queue Busy pid:%d\n", bc ? bc->pid : -1); ast_queue_control(ast, AST_CONTROL_BUSY); ch->need_busy = 0; break; } } /*! \brief Import parameters from the dialplan environment variables */ void import_ch(struct ast_channel *chan, struct misdn_bchannel *bc, struct chan_list *ch) { const char *tmp; ast_channel_lock(chan); tmp = pbx_builtin_getvar_helper(chan, "MISDN_PID"); if (tmp) { ch->other_pid = atoi(tmp); chan_misdn_log(3, bc->port, " --> IMPORT_PID: importing pid:%s\n", tmp); if (ch->other_pid > 0) { ch->other_ch = find_chan_by_pid(cl_te, ch->other_pid); if (ch->other_ch) { ch->other_ch->other_ch = ch; } } } tmp = pbx_builtin_getvar_helper(chan, "MISDN_ADDRESS_COMPLETE"); if (tmp && (atoi(tmp) == 1)) { bc->sending_complete = 1; } tmp = pbx_builtin_getvar_helper(chan, "MISDN_USERUSER"); if (tmp) { ast_log(LOG_NOTICE, "MISDN_USERUSER: %s\n", tmp); ast_copy_string(bc->uu, tmp, sizeof(bc->uu)); bc->uulen = strlen(bc->uu); } tmp = pbx_builtin_getvar_helper(chan, "MISDN_KEYPAD"); if (tmp) { ast_copy_string(bc->keypad, tmp, sizeof(bc->keypad)); } ast_channel_unlock(chan); } /*! \brief Export parameters to the dialplan environment variables */ void export_ch(struct ast_channel *chan, struct misdn_bchannel *bc, struct chan_list *ch) { char tmp[32]; chan_misdn_log(3, bc->port, " --> EXPORT_PID: pid:%d\n", bc->pid); snprintf(tmp, sizeof(tmp), "%d", bc->pid); pbx_builtin_setvar_helper(chan, "_MISDN_PID", tmp); if (bc->sending_complete) { snprintf(tmp, sizeof(tmp), "%d", bc->sending_complete); pbx_builtin_setvar_helper(chan, "MISDN_ADDRESS_COMPLETE", tmp); } if (bc->urate) { snprintf(tmp, sizeof(tmp), "%d", bc->urate); pbx_builtin_setvar_helper(chan, "MISDN_URATE", tmp); } if (bc->uulen) { pbx_builtin_setvar_helper(chan, "MISDN_USERUSER", bc->uu); } if (!ast_strlen_zero(bc->keypad)) { pbx_builtin_setvar_helper(chan, "MISDN_KEYPAD", bc->keypad); } } int add_in_calls(int port) { int max_in_calls; misdn_cfg_get(port, MISDN_CFG_MAX_IN, &max_in_calls, sizeof(max_in_calls)); misdn_in_calls[port]++; if (max_in_calls >= 0 && max_in_calls < misdn_in_calls[port]) { ast_log(LOG_NOTICE, "Marking Incoming Call on port[%d]\n", port); return misdn_in_calls[port] - max_in_calls; } return 0; } int add_out_calls(int port) { int max_out_calls; misdn_cfg_get(port, MISDN_CFG_MAX_OUT, &max_out_calls, sizeof(max_out_calls)); if (max_out_calls >= 0 && max_out_calls <= misdn_out_calls[port]) { ast_log(LOG_NOTICE, "Rejecting Outgoing Call on port[%d]\n", port); return (misdn_out_calls[port] + 1) - max_out_calls; } misdn_out_calls[port]++; return 0; } static void start_pbx(struct chan_list *ch, struct misdn_bchannel *bc, struct ast_channel *chan) { if (pbx_start_chan(ch) < 0) { hangup_chan(ch); chan_misdn_log(-1, bc->port, "ast_pbx_start returned <0 in SETUP\n"); if (bc->nt) { hanguptone_indicate(ch); misdn_lib_send_event(bc, EVENT_RELEASE_COMPLETE); } else { misdn_lib_send_event(bc, EVENT_RELEASE); } } } static void wait_for_digits(struct chan_list *ch, struct misdn_bchannel *bc, struct ast_channel *chan) { ch->state = MISDN_WAITING4DIGS; misdn_lib_send_event(bc, EVENT_SETUP_ACKNOWLEDGE ); if (bc->nt && !bc->dad[0]) { dialtone_indicate(ch); } } /************************************************************/ /* Receive Events from isdn_lib here */ /************************************************************/ static enum event_response_e cb_events(enum event_e event, struct misdn_bchannel *bc, void *user_data) { struct chan_list *ch = find_chan_by_bc(cl_te, bc); if (event != EVENT_BCHAN_DATA && event != EVENT_TONE_GENERATE) { /* Debug Only Non-Bchan */ int debuglevel = 1; if ( event == EVENT_CLEANUP && !user_data) { debuglevel = 5; } chan_misdn_log(debuglevel, bc->port, "I IND :%s oad:%s dad:%s pid:%d state:%s\n", manager_isdn_get_info(event), bc->oad, bc->dad, bc->pid, ch ? misdn_get_ch_state(ch) : "none"); if (debuglevel == 1) { misdn_lib_log_ies(bc); chan_misdn_log(4, bc->port, " --> bc_state:%s\n", bc_state2str(bc->bc_state)); } } if (!ch) { switch(event) { case EVENT_SETUP: case EVENT_DISCONNECT: case EVENT_PORT_ALARM: case EVENT_RETRIEVE: case EVENT_NEW_BC: case EVENT_FACILITY: break; case EVENT_RELEASE_COMPLETE: chan_misdn_log(1, bc->port, " --> no Ch, so we've already released.\n"); break; case EVENT_CLEANUP: case EVENT_TONE_GENERATE: case EVENT_BCHAN_DATA: return -1; default: chan_misdn_log(1, bc->port, "Chan not existing at the moment bc->l3id:%x bc:%p event:%s port:%d channel:%d\n", bc->l3_id, bc, manager_isdn_get_info(event), bc->port, bc->channel); return -1; } } if (ch) { switch (event) { case EVENT_TONE_GENERATE: break; case EVENT_DISCONNECT: case EVENT_RELEASE: case EVENT_RELEASE_COMPLETE: case EVENT_CLEANUP: case EVENT_TIMEOUT: if (!ch->ast) { chan_misdn_log(3, bc->port, "ast_hangup already called, so we have no ast ptr anymore in event(%s)\n", manager_isdn_get_info(event)); } break; default: if (!ch->ast || !MISDN_ASTERISK_PVT(ch->ast) || !MISDN_ASTERISK_TECH_PVT(ch->ast)) { if (event != EVENT_BCHAN_DATA) { ast_log(LOG_NOTICE, "No Ast or No private Pointer in Event (%d:%s)\n", event, manager_isdn_get_info(event)); } return -1; } } } switch (event) { case EVENT_PORT_ALARM: { int boa = 0; misdn_cfg_get(bc->port, MISDN_CFG_ALARM_BLOCK, &boa, sizeof(boa)); if (boa) { cb_log(1, bc->port, " --> blocking\n"); misdn_lib_port_block(bc->port); } } break; case EVENT_BCHAN_ACTIVATED: break; case EVENT_NEW_CHANNEL: update_name(ch->ast,bc->port,bc->channel); break; case EVENT_NEW_L3ID: ch->l3id=bc->l3_id; ch->addr=bc->addr; break; case EVENT_NEW_BC: if (!ch) { ch = find_holded(cl_te,bc); } if (!ch) { ast_log(LOG_WARNING, "NEW_BC without chan_list?\n"); break; } if (bc) { ch->bc = (struct misdn_bchannel *)user_data; } break; case EVENT_DTMF_TONE: { /* sending INFOS as DTMF-Frames :) */ struct ast_frame fr; memset(&fr, 0, sizeof(fr)); fr.frametype = AST_FRAME_DTMF; fr.subclass = bc->dtmf ; fr.src = NULL; fr.data.ptr = NULL; fr.datalen = 0; fr.samples = 0; fr.mallocd = 0; fr.offset = 0; fr.delivery = ast_tv(0,0); if (!ch->ignore_dtmf) { chan_misdn_log(2, bc->port, " --> DTMF:%c\n", bc->dtmf); ast_queue_frame(ch->ast, &fr); } else { chan_misdn_log(2, bc->port, " --> Ignoring DTMF:%c due to bridge flags\n", bc->dtmf); } } break; case EVENT_STATUS: break; case EVENT_INFORMATION: if (ch->state != MISDN_CONNECTED) { stop_indicate(ch); } if (!ch->ast) { break; } if (ch->state == MISDN_WAITING4DIGS ) { /* Ok, incomplete Setup, waiting till extension exists */ if (ast_strlen_zero(bc->info_dad) && ! ast_strlen_zero(bc->keypad)) { chan_misdn_log(1, bc->port, " --> using keypad as info\n"); ast_copy_string(bc->info_dad, bc->keypad, sizeof(bc->info_dad)); } strncat(bc->dad, bc->info_dad, sizeof(bc->dad) - strlen(bc->dad) - 1); ast_copy_string(ch->ast->exten, bc->dad, sizeof(ch->ast->exten)); /* Check for Pickup Request first */ if (!strcmp(ch->ast->exten, ast_pickup_ext())) { if (ast_pickup_call(ch->ast)) { hangup_chan(ch); } else { struct ast_channel *chan = ch->ast; ch->state = MISDN_CALLING_ACKNOWLEDGE; ast_setstate(chan, AST_STATE_DOWN); hangup_chan(ch); ch->ast = NULL; break; } } if (!ast_canmatch_extension(ch->ast, ch->context, bc->dad, 1, bc->oad)) { if (ast_exists_extension(ch->ast, ch->context, "i", 1, bc->oad)) { ast_log(LOG_WARNING, "Extension '%s@%s' can never match. Jumping to 'i' extension. port:%d\n", bc->dad, ch->context, bc->port); strcpy(ch->ast->exten, "i"); ch->state = MISDN_DIALING; start_pbx(ch, bc, ch->ast); break; } ast_log(LOG_WARNING, "Extension '%s@%s' can never match. Disconnecting. port:%d\n" "\tMaybe you want to add an 'i' extension to catch this case.\n", bc->dad, ch->context, bc->port); if (bc->nt) { hanguptone_indicate(ch); } ch->state = MISDN_EXTCANTMATCH; bc->out_cause = AST_CAUSE_UNALLOCATED; misdn_lib_send_event(bc, EVENT_DISCONNECT); break; } if (ch->overlap_dial) { ast_mutex_lock(&ch->overlap_tv_lock); ch->overlap_tv = ast_tvnow(); ast_mutex_unlock(&ch->overlap_tv_lock); if (ch->overlap_dial_task == -1) { ch->overlap_dial_task = misdn_tasks_add_variable(ch->overlap_dial, misdn_overlap_dial_task, ch); } break; } if (ast_exists_extension(ch->ast, ch->context, bc->dad, 1, bc->oad)) { ch->state = MISDN_DIALING; start_pbx(ch, bc, ch->ast); } } else { /* sending INFOS as DTMF-Frames :) */ struct ast_frame fr; int digits; memset(&fr, 0, sizeof(fr)); fr.frametype = AST_FRAME_DTMF; fr.subclass = bc->info_dad[0] ; fr.src = NULL; fr.data.ptr = NULL; fr.datalen = 0; fr.samples = 0; fr.mallocd = 0; fr.offset = 0; fr.delivery = ast_tv(0,0); misdn_cfg_get(0, MISDN_GEN_APPEND_DIGITS2EXTEN, &digits, sizeof(digits)); if (ch->state != MISDN_CONNECTED ) { if (digits) { strncat(bc->dad, bc->info_dad, sizeof(bc->dad) - strlen(bc->dad) - 1); ast_copy_string(ch->ast->exten, bc->dad, sizeof(ch->ast->exten)); ast_cdr_update(ch->ast); } ast_queue_frame(ch->ast, &fr); } } break; case EVENT_SETUP: { struct chan_list *ch = find_chan_by_bc(cl_te, bc); int msn_valid = misdn_cfg_is_msn_valid(bc->port, bc->dad); struct ast_channel *chan; int exceed; int pres, screen; int ai; int im; if (ch) { switch (ch->state) { case MISDN_NOTHING: ch = NULL; break; default: chan_misdn_log(1, bc->port, " --> Ignoring Call we have already one\n"); return RESPONSE_IGNORE_SETUP_WITHOUT_CLOSE; /* Ignore MSNs which are not in our List */ } } if (!bc->nt && ! msn_valid) { chan_misdn_log(1, bc->port, " --> Ignoring Call, its not in our MSN List\n"); return RESPONSE_IGNORE_SETUP; /* Ignore MSNs which are not in our List */ } if (bc->cw) { int cause; chan_misdn_log(0, bc->port, " --> Call Waiting on PMP sending RELEASE_COMPLETE\n"); misdn_cfg_get(bc->port, MISDN_CFG_REJECT_CAUSE, &cause, sizeof(cause)); bc->out_cause = cause ? cause : AST_CAUSE_NORMAL_CLEARING; return RESPONSE_RELEASE_SETUP; } print_bearer(bc); ch = init_chan_list(ORG_MISDN); if (!ch) { chan_misdn_log(-1, bc->port, "cb_events: malloc for chan_list failed!\n"); return 0; } ch->bc = bc; ch->l3id = bc->l3_id; ch->addr = bc->addr; ch->originator = ORG_MISDN; chan = misdn_new(ch, AST_STATE_RESERVED, bc->dad, bc->oad, AST_FORMAT_ALAW, bc->port, bc->channel); if (!chan) { misdn_lib_send_event(bc,EVENT_RELEASE_COMPLETE); ast_log(LOG_ERROR, "cb_events: misdn_new failed !\n"); return 0; } ch->ast = chan; if ((exceed = add_in_calls(bc->port))) { char tmp[16]; snprintf(tmp, sizeof(tmp), "%d", exceed); pbx_builtin_setvar_helper(chan, "MAX_OVERFLOW", tmp); } read_config(ch, ORG_MISDN); export_ch(chan, bc, ch); ch->ast->rings = 1; ast_setstate(ch->ast, AST_STATE_RINGING); switch (bc->pres) { case 1: pres = AST_PRES_RESTRICTED; chan_misdn_log(2, bc->port, " --> PRES: Restricted (1)\n"); break; case 2: pres = AST_PRES_UNAVAILABLE; chan_misdn_log(2, bc->port, " --> PRES: Unavailable (2)\n"); break; default: pres = AST_PRES_ALLOWED; chan_misdn_log(2, bc->port, " --> PRES: Allowed (%d)\n", bc->pres); break; } switch (bc->screen) { default: case 0: screen = AST_PRES_USER_NUMBER_UNSCREENED; chan_misdn_log(2, bc->port, " --> SCREEN: Unscreened (%d)\n", bc->screen); break; case 1: screen = AST_PRES_USER_NUMBER_PASSED_SCREEN; chan_misdn_log(2, bc->port, " --> SCREEN: Passed screen (1)\n"); break; case 2: screen = AST_PRES_USER_NUMBER_FAILED_SCREEN; chan_misdn_log(2, bc->port, " --> SCREEN: failed screen (2)\n"); break; case 3: screen = AST_PRES_NETWORK_NUMBER; chan_misdn_log(2, bc->port, " --> SCREEN: Network Number (3)\n"); break; } chan->cid.cid_pres = pres | screen; pbx_builtin_setvar_helper(chan, "TRANSFERCAPABILITY", ast_transfercapability2str(bc->capability)); chan->transfercapability = bc->capability; switch (bc->capability) { case INFO_CAPABILITY_DIGITAL_UNRESTRICTED: pbx_builtin_setvar_helper(chan, "CALLTYPE", "DIGITAL"); break; default: pbx_builtin_setvar_helper(chan, "CALLTYPE", "SPEECH"); } /** queue new chan **/ cl_queue_chan(&cl_te, ch); if (!strstr(ch->allowed_bearers, "all")) { int i; for (i = 0; i < ARRAY_LEN(allowed_bearers_array); ++i) { if (allowed_bearers_array[i].cap == bc->capability) { if (strstr(ch->allowed_bearers, allowed_bearers_array[i].name)) { /* The bearer capability is allowed */ if (allowed_bearers_array[i].deprecated) { chan_misdn_log(0, bc->port, "%s in allowed_bearers list is deprecated\n", allowed_bearers_array[i].name); } break; } } } /* end for */ if (i == ARRAY_LEN(allowed_bearers_array)) { /* We did not find the bearer capability */ chan_misdn_log(0, bc->port, "Bearer capability not allowed: %s(%d)\n", bearer2str(bc->capability), bc->capability); bc->out_cause = AST_CAUSE_INCOMPATIBLE_DESTINATION; ch->state = MISDN_EXTCANTMATCH; misdn_lib_send_event(bc, EVENT_RELEASE_COMPLETE); return RESPONSE_OK; } } /* Check for Pickup Request first */ if (!strcmp(chan->exten, ast_pickup_ext())) { if (!ch->noautorespond_on_setup) { int ret;/** Sending SETUP_ACK**/ ret = misdn_lib_send_event(bc, EVENT_SETUP_ACKNOWLEDGE ); } else { ch->state = MISDN_INCOMING_SETUP; } if (ast_pickup_call(chan)) { hangup_chan(ch); } else { ch->state = MISDN_CALLING_ACKNOWLEDGE; ast_setstate(chan, AST_STATE_DOWN); hangup_chan(ch); ch->ast = NULL; break; } } /* * added support for s extension hope it will help those poor cretains * which haven't overlap dial. */ misdn_cfg_get(bc->port, MISDN_CFG_ALWAYS_IMMEDIATE, &ai, sizeof(ai)); if (ai) { do_immediate_setup(bc, ch, chan); break; } /* check if we should jump into s when we have no dad */ misdn_cfg_get(bc->port, MISDN_CFG_IMMEDIATE, &im, sizeof(im)); if (im && ast_strlen_zero(bc->dad)) { do_immediate_setup(bc, ch, chan); break; } chan_misdn_log(5, bc->port, "CONTEXT:%s\n", ch->context); if (!ast_canmatch_extension(ch->ast, ch->context, bc->dad, 1, bc->oad)) { if (ast_exists_extension(ch->ast, ch->context, "i", 1, bc->oad)) { ast_log(LOG_WARNING, "Extension '%s@%s' can never match. Jumping to 'i' extension. port:%d\n", bc->dad, ch->context, bc->port); strcpy(ch->ast->exten, "i"); misdn_lib_send_event(bc, EVENT_SETUP_ACKNOWLEDGE); ch->state = MISDN_DIALING; start_pbx(ch, bc, chan); break; } ast_log(LOG_WARNING, "Extension '%s@%s' can never match. Disconnecting. port:%d\n" "\tMaybe you want to add an 'i' extension to catch this case.\n", bc->dad, ch->context, bc->port); if (bc->nt) { hanguptone_indicate(ch); } ch->state = MISDN_EXTCANTMATCH; bc->out_cause = AST_CAUSE_UNALLOCATED; misdn_lib_send_event(bc, bc->nt ? EVENT_RELEASE_COMPLETE : EVENT_RELEASE); break; } /* Whatever happens, when sending_complete is set or we are PTMP TE, we will definitely * jump into the dialplan, when the dialed extension does not exist, the 's' extension * will be used by Asterisk automatically. */ if (bc->sending_complete || (!bc->nt && !misdn_lib_is_ptp(bc->port))) { if (!ch->noautorespond_on_setup) { ch->state=MISDN_DIALING; misdn_lib_send_event(bc, EVENT_PROCEEDING ); } else { ch->state = MISDN_INCOMING_SETUP; } start_pbx(ch, bc, chan); break; } /* * When we are NT and overlapdial is set and if * the number is empty, we wait for the ISDN timeout * instead of our own timer. */ if (ch->overlap_dial && bc->nt && !bc->dad[0] ) { wait_for_digits(ch, bc, chan); break; } /* * If overlapdial we will definitely send a SETUP_ACKNOWLEDGE and wait for more * Infos with a Interdigit Timeout. * */ if (ch->overlap_dial) { ast_mutex_lock(&ch->overlap_tv_lock); ch->overlap_tv = ast_tvnow(); ast_mutex_unlock(&ch->overlap_tv_lock); wait_for_digits(ch, bc, chan); if (ch->overlap_dial_task == -1) { ch->overlap_dial_task = misdn_tasks_add_variable(ch->overlap_dial, misdn_overlap_dial_task, ch); } break; } /* If the extension does not exist and we're not TE_PTMP we wait for more digits * without interdigit timeout. * */ if (!ast_exists_extension(ch->ast, ch->context, bc->dad, 1, bc->oad)) { wait_for_digits(ch, bc, chan); break; } /* * If the extension exists let's just jump into it. * */ if (ast_exists_extension(ch->ast, ch->context, bc->dad, 1, bc->oad)) { misdn_lib_send_event(bc, bc->need_more_infos ? EVENT_SETUP_ACKNOWLEDGE : EVENT_PROCEEDING); ch->state = MISDN_DIALING; start_pbx(ch, bc, chan); break; } } break; case EVENT_SETUP_ACKNOWLEDGE: ch->state = MISDN_CALLING_ACKNOWLEDGE; if (bc->channel) update_name(ch->ast,bc->port,bc->channel); if (!ast_strlen_zero(bc->infos_pending)) { /* TX Pending Infos */ strncat(bc->dad, bc->infos_pending, sizeof(bc->dad) - strlen(bc->dad) - 1); if (!ch->ast) { break; } ast_copy_string(ch->ast->exten, bc->dad, sizeof(ch->ast->exten)); ast_copy_string(bc->info_dad, bc->infos_pending, sizeof(bc->info_dad)); ast_copy_string(bc->infos_pending, "", sizeof(bc->infos_pending)); misdn_lib_send_event(bc, EVENT_INFORMATION); } break; case EVENT_PROCEEDING: if (misdn_cap_is_speech(bc->capability) && misdn_inband_avail(bc) ) { start_bc_tones(ch); } ch->state = MISDN_PROCEEDING; if (!ch->ast) { break; } ast_queue_control(ch->ast, AST_CONTROL_PROCEEDING); break; case EVENT_PROGRESS: if (bc->channel) { update_name(ch->ast, bc->port, bc->channel); } if (!bc->nt ) { if (misdn_cap_is_speech(bc->capability) && misdn_inband_avail(bc)) { start_bc_tones(ch); } ch->state = MISDN_PROGRESS; if (!ch->ast) { break; } ast_queue_control(ch->ast, AST_CONTROL_PROGRESS); } break; case EVENT_ALERTING: ch->state = MISDN_ALERTING; if (!ch->ast) { break; } ast_queue_control(ch->ast, AST_CONTROL_RINGING); ast_setstate(ch->ast, AST_STATE_RINGING); cb_log(7, bc->port, " --> Set State Ringing\n"); if (misdn_cap_is_speech(bc->capability) && misdn_inband_avail(bc)) { cb_log(1, bc->port, "Starting Tones, we have inband Data\n"); start_bc_tones(ch); } else { cb_log(3, bc->port, " --> We have no inband Data, the other end must create ringing\n"); if (ch->far_alerting) { cb_log(1, bc->port, " --> The other end can not do ringing eh ?.. we must do all ourself.."); start_bc_tones(ch); /*tone_indicate(ch, TONE_FAR_ALERTING);*/ } } break; case EVENT_CONNECT: { struct ast_channel *bridged; /*we answer when we've got our very new L3 ID from the NT stack */ misdn_lib_send_event(bc, EVENT_CONNECT_ACKNOWLEDGE); if (!ch->ast) { break; } bridged = ast_bridged_channel(ch->ast); stop_indicate(ch); if (bridged && !strcasecmp(bridged->tech->type, "mISDN")) { struct chan_list *bridged_ch = MISDN_ASTERISK_TECH_PVT(bridged); chan_misdn_log(1, bc->port, " --> copying cpndialplan:%d and cad:%s to the A-Channel\n", bc->cpnnumplan, bc->cad); if (bridged_ch) { bridged_ch->bc->cpnnumplan = bc->cpnnumplan; ast_copy_string(bridged_ch->bc->cad, bc->cad, sizeof(bridged_ch->bc->cad)); } } } ch->l3id = bc->l3_id; ch->addr = bc->addr; start_bc_tones(ch); ch->state = MISDN_CONNECTED; ast_queue_control(ch->ast, AST_CONTROL_ANSWER); break; case EVENT_CONNECT_ACKNOWLEDGE: ch->l3id = bc->l3_id; ch->addr = bc->addr; start_bc_tones(ch); ch->state = MISDN_CONNECTED; break; case EVENT_DISCONNECT: /* we might not have an ch->ast ptr here anymore */ if (ch) { struct chan_list *holded_ch = find_holded(cl_te, bc); chan_misdn_log(3, bc->port, " --> org:%d nt:%d, inbandavail:%d state:%d\n", ch->originator, bc->nt, misdn_inband_avail(bc), ch->state); if (ch->originator == ORG_AST && !bc->nt && misdn_inband_avail(bc) && ch->state != MISDN_CONNECTED) { /* If there's inband information available (e.g. a recorded message saying what was wrong with the dialled number, or perhaps even giving an alternative number, then play it instead of immediately releasing the call */ chan_misdn_log(1, bc->port, " --> Inband Info Avail, not sending RELEASE\n"); ch->state = MISDN_DISCONNECTED; start_bc_tones(ch); if (ch->ast) { ch->ast->hangupcause = bc->cause; if (bc->cause == AST_CAUSE_USER_BUSY) { ast_queue_control(ch->ast, AST_CONTROL_BUSY); } } ch->need_busy = 0; break; } /* Check for holded channel, to implement transfer */ if (holded_ch && holded_ch != ch && ch->ast && ch->state == MISDN_CONNECTED) { cb_log(1, bc->port, " --> found holded ch\n"); misdn_transfer_bc(ch, holded_ch) ; } bc->need_disconnect = 0; stop_bc_tones(ch); hangup_chan(ch); #if 0 } else { ch = find_holded_l3(cl_te, bc->l3_id,1); if (ch) { hangup_chan(ch); } #endif } bc->out_cause = -1; if (bc->need_release) { misdn_lib_send_event(bc, EVENT_RELEASE); } break; case EVENT_RELEASE: bc->need_disconnect = 0; bc->need_release = 0; hangup_chan(ch); release_chan(bc); break; case EVENT_RELEASE_COMPLETE: bc->need_disconnect = 0; bc->need_release = 0; bc->need_release_complete = 0; stop_bc_tones(ch); hangup_chan(ch); if (ch) ch->state = MISDN_CLEANING; release_chan(bc); break; case EVENT_BCHAN_ERROR: case EVENT_CLEANUP: stop_bc_tones(ch); switch (ch->state) { case MISDN_CALLING: bc->cause = AST_CAUSE_DESTINATION_OUT_OF_ORDER; break; default: break; } hangup_chan(ch); release_chan(bc); break; case EVENT_TONE_GENERATE: { int tone_len = bc->tone_cnt; struct ast_channel *ast = ch->ast; void *tmp; int res; int (*generate)(struct ast_channel *chan, void *tmp, int datalen, int samples); chan_misdn_log(9, bc->port, "TONE_GEN: len:%d\n", tone_len); if (!ast) { break; } if (!ast->generator) { break; } tmp = ast->generatordata; ast->generatordata = NULL; generate = ast->generator->generate; if (tone_len < 0 || tone_len > 512 ) { ast_log(LOG_NOTICE, "TONE_GEN: len was %d, set to 128\n", tone_len); tone_len = 128; } res = generate(ast, tmp, tone_len, tone_len); ast->generatordata = tmp; if (res) { ast_log(LOG_WARNING, "Auto-deactivating generator\n"); ast_deactivate_generator(ast); } else { bc->tone_cnt = 0; } } break; case EVENT_BCHAN_DATA: if (ch->bc->AOCD_need_export) { export_aoc_vars(ch->originator, ch->ast, ch->bc); } if (!misdn_cap_is_speech(ch->bc->capability)) { struct ast_frame frame; /*In Data Modes we queue frames*/ frame.frametype = AST_FRAME_VOICE; /* we have no data frames yet */ frame.subclass = AST_FORMAT_ALAW; frame.datalen = bc->bframe_len; frame.samples = bc->bframe_len; frame.mallocd = 0; frame.offset = 0; frame.delivery = ast_tv(0, 0); frame.src = NULL; frame.data.ptr = bc->bframe; if (ch->ast) ast_queue_frame(ch->ast, &frame); } else { fd_set wrfs; struct timeval tv = { 0, 0 }; int t; FD_ZERO(&wrfs); FD_SET(ch->pipe[1], &wrfs); t = select(FD_SETSIZE, NULL, &wrfs, NULL, &tv); if (!t) { chan_misdn_log(9, bc->port, "Select Timed out\n"); break; } if (t < 0) { chan_misdn_log(-1, bc->port, "Select Error (err=%s)\n", strerror(errno)); break; } if (FD_ISSET(ch->pipe[1], &wrfs)) { chan_misdn_log(9, bc->port, "writing %d bytes to asterisk\n", bc->bframe_len); if (write(ch->pipe[1], bc->bframe, bc->bframe_len) <= 0) { chan_misdn_log(0, bc->port, "Write returned <=0 (err=%s) --> hanging up channel\n", strerror(errno)); stop_bc_tones(ch); hangup_chan(ch); release_chan(bc); } } else { chan_misdn_log(1, bc->port, "Write Pipe full!\n"); } } break; case EVENT_TIMEOUT: if (ch && bc) { chan_misdn_log(1, bc->port, "--> state: %s\n", misdn_get_ch_state(ch)); } switch (ch->state) { case MISDN_DIALING: case MISDN_PROGRESS: if (bc->nt && !ch->nttimeout) { break; } /* fall-through */ case MISDN_CALLING: case MISDN_ALERTING: case MISDN_PROCEEDING: case MISDN_CALLING_ACKNOWLEDGE: if (bc->nt) { bc->progress_indicator = INFO_PI_INBAND_AVAILABLE; hanguptone_indicate(ch); } bc->out_cause = AST_CAUSE_UNALLOCATED; misdn_lib_send_event(bc, EVENT_DISCONNECT); break; case MISDN_WAITING4DIGS: if (bc->nt) { bc->progress_indicator = INFO_PI_INBAND_AVAILABLE; bc->out_cause = AST_CAUSE_UNALLOCATED; hanguptone_indicate(ch); misdn_lib_send_event(bc, EVENT_DISCONNECT); } else { bc->out_cause = AST_CAUSE_NORMAL_CLEARING; misdn_lib_send_event(bc, EVENT_RELEASE); } break; case MISDN_CLEANING: chan_misdn_log(1, bc->port, " --> in state cleaning .. so ignoring, the stack should clean it for us\n"); break; default: misdn_lib_send_event(bc, EVENT_RELEASE_COMPLETE); } break; /****************************/ /** Supplementary Services **/ /****************************/ case EVENT_RETRIEVE: { struct ast_channel *hold_ast; if (!ch) { chan_misdn_log(4, bc->port, " --> no CH, searching in holded\n"); ch = find_holded_l3(cl_te, bc->l3_id, 1); } if (!ch) { ast_log(LOG_WARNING, "Found no Holded channel, cannot Retrieve\n"); misdn_lib_send_event(bc, EVENT_RETRIEVE_REJECT); break; } /*remember the channel again*/ ch->bc = bc; ch->state = MISDN_CONNECTED; ch->hold_info.port = 0; ch->hold_info.channel = 0; hold_ast = ast_bridged_channel(ch->ast); if (hold_ast) { ast_moh_stop(hold_ast); } if (misdn_lib_send_event(bc, EVENT_RETRIEVE_ACKNOWLEDGE) < 0) { chan_misdn_log(4, bc->port, " --> RETRIEVE_ACK failed\n"); misdn_lib_send_event(bc, EVENT_RETRIEVE_REJECT); } } break; case EVENT_HOLD: { int hold_allowed; struct ast_channel *bridged = ast_bridged_channel(ch->ast); misdn_cfg_get(bc->port, MISDN_CFG_HOLD_ALLOWED, &hold_allowed, sizeof(hold_allowed)); if (!hold_allowed) { chan_misdn_log(-1, bc->port, "Hold not allowed this port.\n"); misdn_lib_send_event(bc, EVENT_HOLD_REJECT); break; } if (bridged) { chan_misdn_log(2, bc->port, "Bridge Partner is of type: %s\n", bridged->tech->type); ch->state = MISDN_HOLDED; ch->l3id = bc->l3_id; misdn_lib_send_event(bc, EVENT_HOLD_ACKNOWLEDGE); /* XXX This should queue an AST_CONTROL_HOLD frame on this channel * instead of starting moh on the bridged channel directly */ ast_moh_start(bridged, NULL, NULL); /*forget the channel now*/ ch->bc = NULL; ch->hold_info.port = bc->port; ch->hold_info.channel = bc->channel; } else { misdn_lib_send_event(bc, EVENT_HOLD_REJECT); chan_misdn_log(0, bc->port, "We aren't bridged to anybody\n"); } } break; case EVENT_FACILITY: print_facility(&(bc->fac_in), bc); switch (bc->fac_in.Function) { #ifdef HAVE_MISDN_FAC_RESULT case Fac_RESULT: break; #endif case Fac_CD: if (ch) { struct ast_channel *bridged = ast_bridged_channel(ch->ast); struct chan_list *ch_br; if (bridged && MISDN_ASTERISK_TECH_PVT(bridged)) { ch_br = MISDN_ASTERISK_TECH_PVT(bridged); /*ch->state = MISDN_FACILITY_DEFLECTED;*/ if (ch_br->bc) { if (ast_exists_extension(bridged, ch->context, (char *)bc->fac_in.u.CDeflection.DeflectedToNumber, 1, bc->oad)) { ch_br->state = MISDN_DIALING; if (pbx_start_chan(ch_br) < 0) { chan_misdn_log(-1, ch_br->bc->port, "ast_pbx_start returned < 0 in misdn_overlap_dial_task\n"); } } } } misdn_lib_send_event(bc, EVENT_DISCONNECT); } break; case Fac_AOCDCurrency: if (ch) { bc->AOCDtype = Fac_AOCDCurrency; memcpy(&(bc->AOCD.currency), &(bc->fac_in.u.AOCDcur), sizeof(bc->AOCD.currency)); bc->AOCD_need_export = 1; export_aoc_vars(ch->originator, ch->ast, bc); } break; case Fac_AOCDChargingUnit: if (ch) { bc->AOCDtype = Fac_AOCDChargingUnit; memcpy(&(bc->AOCD.chargingUnit), &(bc->fac_in.u.AOCDchu), sizeof(bc->AOCD.chargingUnit)); bc->AOCD_need_export = 1; export_aoc_vars(ch->originator, ch->ast, bc); } break; case Fac_None: #ifdef HAVE_MISDN_FAC_ERROR case Fac_ERROR: #endif break; default: chan_misdn_log(0, bc->port," --> not yet handled: facility type:%d\n", bc->fac_in.Function); } break; case EVENT_RESTART: if (!bc->dummy) { stop_bc_tones(ch); release_chan(bc); } break; default: chan_misdn_log(1, 0, "Got Unknown Event\n"); break; } return RESPONSE_OK; } /** TE STUFF END **/ /****************************************** * * Asterisk Channel Endpoint END * * *******************************************/ static int unload_module(void) { /* First, take us out of the channel loop */ ast_log(LOG_VERBOSE, "-- Unregistering mISDN Channel Driver --\n"); misdn_tasks_destroy(); if (!g_config_initialized) { return 0; } ast_cli_unregister_multiple(chan_misdn_clis, sizeof(chan_misdn_clis) / sizeof(struct ast_cli_entry)); /* ast_unregister_application("misdn_crypt"); */ ast_unregister_application("misdn_set_opt"); ast_unregister_application("misdn_facility"); ast_unregister_application("misdn_check_l2l1"); ast_channel_unregister(&misdn_tech); free_robin_list(); misdn_cfg_destroy(); misdn_lib_destroy(); if (misdn_debug) { ast_free(misdn_debug); } if (misdn_debug_only) { ast_free(misdn_debug_only); } ast_free(misdn_ports); return 0; } static int load_module(void) { int i, port; int ntflags = 0, ntkc = 0; char ports[256] = ""; char tempbuf[BUFFERSIZE + 1]; char ntfile[BUFFERSIZE + 1]; struct misdn_lib_iface iface = { .cb_event = cb_events, .cb_log = chan_misdn_log, .cb_jb_empty = chan_misdn_jb_empty, }; max_ports = misdn_lib_maxports_get(); if (max_ports <= 0) { ast_log(LOG_ERROR, "Unable to initialize mISDN\n"); return AST_MODULE_LOAD_DECLINE; } if (misdn_cfg_init(max_ports, 0)) { ast_log(LOG_ERROR, "Unable to initialize misdn_config.\n"); return AST_MODULE_LOAD_DECLINE; } g_config_initialized = 1; misdn_debug = ast_malloc(sizeof(int) * (max_ports + 1)); if (!misdn_debug) { ast_log(LOG_ERROR, "Out of memory for misdn_debug\n"); return AST_MODULE_LOAD_DECLINE; } misdn_ports = ast_malloc(sizeof(int) * (max_ports + 1)); if (!misdn_ports) { ast_log(LOG_ERROR, "Out of memory for misdn_ports\n"); return AST_MODULE_LOAD_DECLINE; } misdn_cfg_get(0, MISDN_GEN_DEBUG, &misdn_debug[0], sizeof(misdn_debug[0])); for (i = 1; i <= max_ports; i++) { misdn_debug[i] = misdn_debug[0]; misdn_ports[i] = i; } *misdn_ports = 0; misdn_debug_only = ast_calloc(max_ports + 1, sizeof(int)); misdn_cfg_get(0, MISDN_GEN_TRACEFILE, tempbuf, sizeof(tempbuf)); if (!ast_strlen_zero(tempbuf)) { tracing = 1; } misdn_in_calls = ast_malloc(sizeof(int) * (max_ports + 1)); misdn_out_calls = ast_malloc(sizeof(int) * (max_ports + 1)); for (i = 1; i <= max_ports; i++) { misdn_in_calls[i] = 0; misdn_out_calls[i] = 0; } ast_mutex_init(&cl_te_lock); ast_mutex_init(&release_lock); misdn_cfg_update_ptp(); misdn_cfg_get_ports_string(ports); if (!ast_strlen_zero(ports)) { chan_misdn_log(0, 0, "Got: %s from get_ports\n", ports); } if (misdn_lib_init(ports, &iface, NULL)) { chan_misdn_log(0, 0, "No te ports initialized\n"); } misdn_cfg_get(0, MISDN_GEN_NTDEBUGFLAGS, &ntflags, sizeof(ntflags)); misdn_cfg_get(0, MISDN_GEN_NTDEBUGFILE, &ntfile, sizeof(ntfile)); misdn_cfg_get( 0, MISDN_GEN_NTKEEPCALLS, &ntkc, sizeof(ntkc)); misdn_lib_nt_keepcalls(ntkc); misdn_lib_nt_debug_init(ntflags, ntfile); if (ast_channel_register(&misdn_tech)) { ast_log(LOG_ERROR, "Unable to register channel class %s\n", misdn_type); unload_module(); return AST_MODULE_LOAD_DECLINE; } ast_cli_register_multiple(chan_misdn_clis, sizeof(chan_misdn_clis) / sizeof(struct ast_cli_entry)); ast_register_application("misdn_set_opt", misdn_set_opt_exec, "misdn_set_opt", "misdn_set_opt(::...):\n" "Sets mISDN opts. and optargs\n" "\n" "The available options are:\n" " a - Have Asterisk detect DTMF tones on called channel\n" " c - Make crypted outgoing call, optarg is keyindex\n" " d - Send display text to called phone, text is the optarg\n" " e - Perform echo cancelation on this channel,\n" " takes taps as optarg (32,64,128,256)\n" " e! - Disable echo cancelation on this channel\n" " f - Enable fax detection\n" " h - Make digital outgoing call\n" " h1 - Make HDLC mode digital outgoing call\n" " i - Ignore detected DTMF tones, don't signal them to Asterisk,\n" " they will be transported inband.\n" " jb - Set jitter buffer length, optarg is length\n" " jt - Set jitter buffer upper threshold, optarg is threshold\n" " jn - Disable jitter buffer\n" " n - Disable mISDN DSP on channel.\n" " Disables: echo cancel, DTMF detection, and volume control.\n" " p - Caller ID presentation,\n" " optarg is either 'allowed' or 'restricted'\n" " s - Send Non-inband DTMF as inband\n" " vr - Rx gain control, optarg is gain\n" " vt - Tx gain control, optarg is gain\n" ); ast_register_application("misdn_facility", misdn_facility_exec, "misdn_facility", "misdn_facility(||..)\n" "Sends the Facility Message FACILITY_TYPE with \n" "the given Arguments to the current ISDN Channel\n" "Supported Facilities are:\n" "\n" "type=calldeflect args=Nr where to deflect\n" ); ast_register_application("misdn_check_l2l1", misdn_check_l2l1, "misdn_check_l2l1", "misdn_check_l2l1(||g:,timeout)" "Checks if the L2 and L1 are up on either the given or\n" "on the ports in the group with \n" "If the L1/L2 are down, check_l2l1 gets up the L1/L2 and waits\n" "for seconds that this happens. Otherwise, nothing happens\n" "\n" "This application, ensures the L1/L2 state of the Ports in a group\n" "it is intended to make the pmp_l1_check option redundant and to\n" "fix a buggy switch config from your provider\n" "\n" "a sample dialplan would look like:\n\n" "exten => _X.,1,misdn_check_l2l1(g:out|2)\n" "exten => _X.,n,dial(mISDN/g:out/${EXTEN})\n" "\n" ); misdn_cfg_get(0, MISDN_GEN_TRACEFILE, global_tracefile, sizeof(global_tracefile)); /* start the l1 watchers */ for (port = misdn_cfg_get_next_port(0); port >= 0; port = misdn_cfg_get_next_port(port)) { int l1timeout; misdn_cfg_get(port, MISDN_CFG_L1_TIMEOUT, &l1timeout, sizeof(l1timeout)); if (l1timeout) { chan_misdn_log(4, 0, "Adding L1watcher task: port:%d timeout:%ds\n", port, l1timeout); misdn_tasks_add(l1timeout * 1000, misdn_l1_task, &misdn_ports[port]); } } chan_misdn_log(0, 0, "-- mISDN Channel Driver Registered --\n"); return 0; } static int reload(void) { reload_config(); return 0; } /*** SOME APPS ;)***/ static int misdn_facility_exec(struct ast_channel *chan, void *data) { struct chan_list *ch = MISDN_ASTERISK_TECH_PVT(chan); char *parse; AST_DECLARE_APP_ARGS(args, AST_APP_ARG(facility_type); AST_APP_ARG(arg)[99]; ); chan_misdn_log(0, 0, "TYPE: %s\n", chan->tech->type); if (strcasecmp(chan->tech->type, "mISDN")) { ast_log(LOG_WARNING, "misdn_facility makes only sense with chan_misdn channels!\n"); return -1; } if (ast_strlen_zero((char *)data)) { ast_log(LOG_WARNING, "misdn_facility requires arguments: facility_type[,]\n"); return -1; } parse = ast_strdupa(data); AST_STANDARD_APP_ARGS(args, parse); if (ast_strlen_zero(args.facility_type)) { ast_log(LOG_WARNING, "misdn_facility requires arguments: facility_type[,]\n"); return -1; } if (!strcasecmp(args.facility_type, "calldeflect")) { if (ast_strlen_zero(args.arg[0])) { ast_log(LOG_WARNING, "Facility: Call Deflection requires an argument: Number\n"); } if (strlen(args.arg[0]) >= sizeof(ch->bc->fac_out.u.CDeflection.DeflectedToNumber)) { ast_log(LOG_WARNING, "Facility: Number argument too long (up to %d digits are allowed). Ignoring.\n", (int)sizeof(ch->bc->fac_out.u.CDeflection.DeflectedToNumber)); return 0; } ch->bc->fac_out.Function = Fac_CD; ast_copy_string((char *)ch->bc->fac_out.u.CDeflection.DeflectedToNumber, args.arg[0], sizeof(ch->bc->fac_out.u.CDeflection.DeflectedToNumber)); misdn_lib_send_event(ch->bc, EVENT_FACILITY); } else { chan_misdn_log(1, ch->bc->port, "Unknown Facility: %s\n", args.facility_type); } return 0; } static int misdn_check_l2l1(struct ast_channel *chan, void *data) { char *parse; char group[BUFFERSIZE + 1]; char *port_str; int port = 0; int timeout; int dowait = 0; int port_up; AST_DECLARE_APP_ARGS(args, AST_APP_ARG(grouppar); AST_APP_ARG(timeout); ); if (ast_strlen_zero((char *)data)) { ast_log(LOG_WARNING, "misdn_check_l2l1 Requires arguments\n"); return -1; } parse = ast_strdupa(data); AST_STANDARD_APP_ARGS(args, parse); if (args.argc != 2) { ast_log(LOG_WARNING, "Wrong argument count\n"); return 0; } /*ast_log(LOG_NOTICE, "Arguments: group/port '%s' timeout '%s'\n", args.grouppar, args.timeout);*/ timeout = atoi(args.timeout); port_str = args.grouppar; if (port_str[0] == 'g' && port_str[1] == ':' ) { /* We make a group call lets checkout which ports are in my group */ port_str += 2; ast_copy_string(group, port_str, sizeof(group)); chan_misdn_log(2, 0, "Checking Ports in group: %s\n", group); for ( port = misdn_cfg_get_next_port(port); port > 0; port = misdn_cfg_get_next_port(port)) { char cfg_group[BUFFERSIZE + 1]; chan_misdn_log(2, 0, "trying port %d\n", port); misdn_cfg_get(port, MISDN_CFG_GROUPNAME, cfg_group, sizeof(cfg_group)); if (!strcasecmp(cfg_group, group)) { port_up = misdn_lib_port_up(port, 1); if (!port_up) { chan_misdn_log(2, 0, " --> port '%d'\n", port); misdn_lib_get_port_up(port); dowait = 1; } } } } else { port = atoi(port_str); chan_misdn_log(2, 0, "Checking Port: %d\n",port); port_up = misdn_lib_port_up(port, 1); if (!port_up) { misdn_lib_get_port_up(port); dowait = 1; } } if (dowait) { chan_misdn_log(2, 0, "Waiting for '%d' seconds\n", timeout); ast_safe_sleep(chan, timeout * 1000); } return 0; } static int misdn_set_opt_exec(struct ast_channel *chan, void *data) { struct chan_list *ch = MISDN_ASTERISK_TECH_PVT(chan); char *tok, *tokb, *parse; int keyidx = 0; int rxgain = 0; int txgain = 0; int change_jitter = 0; if (strcasecmp(chan->tech->type, "mISDN")) { ast_log(LOG_WARNING, "misdn_set_opt makes only sense with chan_misdn channels!\n"); return -1; } if (ast_strlen_zero((char *)data)) { ast_log(LOG_WARNING, "misdn_set_opt Requires arguments\n"); return -1; } parse = ast_strdupa(data); for (tok = strtok_r(parse, ":", &tokb); tok; tok = strtok_r(NULL, ":", &tokb) ) { int neglect = 0; if (tok[0] == '!' ) { neglect = 1; tok++; } switch(tok[0]) { case 'd' : ast_copy_string(ch->bc->display, ++tok, sizeof(ch->bc->display)); chan_misdn_log(1, ch->bc->port, "SETOPT: Display:%s\n", ch->bc->display); break; case 'n': chan_misdn_log(1, ch->bc->port, "SETOPT: No DSP\n"); ch->bc->nodsp = 1; break; case 'j': chan_misdn_log(1, ch->bc->port, "SETOPT: jitter\n"); tok++; change_jitter = 1; switch ( tok[0] ) { case 'b': ch->jb_len = atoi(++tok); chan_misdn_log(1, ch->bc->port, " --> buffer_len:%d\n", ch->jb_len); break; case 't' : ch->jb_upper_threshold = atoi(++tok); chan_misdn_log(1, ch->bc->port, " --> upper_threshold:%d\n", ch->jb_upper_threshold); break; case 'n': ch->bc->nojitter = 1; chan_misdn_log(1, ch->bc->port, " --> nojitter\n"); break; default: ch->jb_len = 4000; ch->jb_upper_threshold = 0; chan_misdn_log(1, ch->bc->port, " --> buffer_len:%d (default)\n", ch->jb_len); chan_misdn_log(1, ch->bc->port, " --> upper_threshold:%d (default)\n", ch->jb_upper_threshold); } break; case 'v': tok++; switch (tok[0]) { case 'r' : rxgain = atoi(++tok); if (rxgain < -8) { rxgain = -8; } if (rxgain > 8) { rxgain = 8; } ch->bc->rxgain = rxgain; chan_misdn_log(1, ch->bc->port, "SETOPT: Volume:%d\n", rxgain); break; case 't': txgain = atoi(++tok); if (txgain < -8) { txgain = -8; } if (txgain > 8) { txgain = 8; } ch->bc->txgain = txgain; chan_misdn_log(1, ch->bc->port, "SETOPT: Volume:%d\n", txgain); break; } break; case 'c': keyidx = atoi(++tok); { char keys[4096]; char *key = NULL, *tmp = keys; int i; misdn_cfg_get(0, MISDN_GEN_CRYPT_KEYS, keys, sizeof(keys)); for (i = 0; i < keyidx; i++) { key = strsep(&tmp, ","); } if (key) { ast_copy_string(ch->bc->crypt_key, key, sizeof(ch->bc->crypt_key)); } chan_misdn_log(0, ch->bc->port, "SETOPT: crypt with key:%s\n", ch->bc->crypt_key); break; } case 'e': chan_misdn_log(1, ch->bc->port, "SETOPT: EchoCancel\n"); if (neglect) { chan_misdn_log(1, ch->bc->port, " --> disabled\n"); #ifdef MISDN_1_2 *ch->bc->pipeline = 0; #else ch->bc->ec_enable = 0; #endif } else { #ifdef MISDN_1_2 update_pipeline_config(ch->bc); #else ch->bc->ec_enable = 1; ch->bc->orig = ch->originator; tok++; if (*tok) { ch->bc->ec_deftaps = atoi(tok); } #endif } break; case 'h': chan_misdn_log(1, ch->bc->port, "SETOPT: Digital\n"); if (strlen(tok) > 1 && tok[1] == '1') { chan_misdn_log(1, ch->bc->port, "SETOPT: HDLC \n"); if (!ch->bc->hdlc) { ch->bc->hdlc = 1; } } ch->bc->capability = INFO_CAPABILITY_DIGITAL_UNRESTRICTED; break; case 's': chan_misdn_log(1, ch->bc->port, "SETOPT: Send DTMF\n"); ch->bc->send_dtmf = 1; break; case 'f': chan_misdn_log(1, ch->bc->port, "SETOPT: Faxdetect\n"); ch->faxdetect = 1; misdn_cfg_get(ch->bc->port, MISDN_CFG_FAXDETECT_TIMEOUT, &ch->faxdetect_timeout, sizeof(ch->faxdetect_timeout)); break; case 'a': chan_misdn_log(1, ch->bc->port, "SETOPT: AST_DSP (for DTMF)\n"); ch->ast_dsp = 1; break; case 'p': chan_misdn_log(1, ch->bc->port, "SETOPT: callerpres: %s\n", &tok[1]); /* CRICH: callingpres!!! */ if (strstr(tok, "allowed")) { ch->bc->pres = 0; } else if (strstr(tok, "restricted")) { ch->bc->pres = 1; } else if (strstr(tok, "not_screened")) { chan_misdn_log(0, ch->bc->port, "SETOPT: callerpres: not_screened is deprecated\n"); ch->bc->pres = 1; } break; case 'i' : chan_misdn_log(1, ch->bc->port, "Ignoring dtmf tones, just use them inband\n"); ch->ignore_dtmf=1; break; default: break; } } if (change_jitter) { config_jitterbuffer(ch); } if (ch->faxdetect || ch->ast_dsp) { if (!ch->dsp) { ch->dsp = ast_dsp_new(); } if (ch->dsp) { ast_dsp_set_features(ch->dsp, DSP_FEATURE_DIGIT_DETECT | DSP_FEATURE_FAX_DETECT); } if (!ch->trans) { ch->trans = ast_translator_build_path(AST_FORMAT_SLINEAR, AST_FORMAT_ALAW); } } if (ch->ast_dsp) { chan_misdn_log(1, ch->bc->port, "SETOPT: with AST_DSP we deactivate mISDN_dsp\n"); ch->bc->nodsp = 1; } return 0; } int chan_misdn_jb_empty ( struct misdn_bchannel *bc, char *buf, int len) { struct chan_list *ch = find_chan_by_bc(cl_te, bc); if (ch && ch->jb) { return misdn_jb_empty(ch->jb, buf, len); } return -1; } /*******************************************************/ /***************** JITTERBUFFER ************************/ /*******************************************************/ /* allocates the jb-structure and initialize the elements*/ struct misdn_jb *misdn_jb_init(int size, int upper_threshold) { int i; struct misdn_jb *jb; jb = ast_malloc(sizeof(*jb)); if (!jb) { chan_misdn_log(-1, 0, "No free Mem for jb\n"); return NULL; } jb->size = size; jb->upper_threshold = upper_threshold; jb->wp = 0; jb->rp = 0; jb->state_full = 0; jb->state_empty = 0; jb->bytes_wrote = 0; jb->samples = ast_malloc(size * sizeof(char)); if (!jb->samples) { ast_free(jb); chan_misdn_log(-1, 0, "No free Mem for jb->samples\n"); return NULL; } jb->ok = ast_malloc(size * sizeof(char)); if (!jb->ok) { ast_free(jb->samples); ast_free(jb); chan_misdn_log(-1, 0, "No free Mem for jb->ok\n"); return NULL; } for (i = 0; i < size; i++) { jb->ok[i] = 0; } ast_mutex_init(&jb->mutexjb); return jb; } /* frees the data and destroys the given jitterbuffer struct */ void misdn_jb_destroy(struct misdn_jb *jb) { ast_mutex_destroy(&jb->mutexjb); ast_free(jb->ok); ast_free(jb->samples); ast_free(jb); } /* fills the jitterbuffer with len data returns < 0 if there was an error (buffer overflow). */ int misdn_jb_fill(struct misdn_jb *jb, const char *data, int len) { int i, j, rp, wp; if (!jb || ! data) { return 0; } ast_mutex_lock(&jb->mutexjb); wp = jb->wp; rp = jb->rp; for (i = 0; i < len; i++) { jb->samples[wp] = data[i]; jb->ok[wp] = 1; wp = (wp != jb->size - 1) ? wp + 1 : 0; if (wp == jb->rp) { jb->state_full = 1; } } if (wp >= rp) { jb->state_buffer = wp - rp; } else { jb->state_buffer = jb->size - rp + wp; } chan_misdn_log(9, 0, "misdn_jb_fill: written:%d | Buffer status:%d p:%p\n", len, jb->state_buffer, jb); if (jb->state_full) { jb->wp = wp; rp = wp; for (j = 0; j < jb->upper_threshold; j++) { rp = (rp != 0) ? rp - 1 : jb->size - 1; } jb->rp = rp; jb->state_full = 0; jb->state_empty = 1; ast_mutex_unlock(&jb->mutexjb); return -1; } if (!jb->state_empty) { jb->bytes_wrote += len; if (jb->bytes_wrote >= jb->upper_threshold) { jb->state_empty = 1; jb->bytes_wrote = 0; } } jb->wp = wp; ast_mutex_unlock(&jb->mutexjb); return 0; } /* gets len bytes out of the jitterbuffer if available, else only the available data is returned and the return value indicates the number of data. */ int misdn_jb_empty(struct misdn_jb *jb, char *data, int len) { int i, wp, rp, read = 0; ast_mutex_lock(&jb->mutexjb); rp = jb->rp; wp = jb->wp; if (jb->state_empty) { for (i = 0; i < len; i++) { if (wp == rp) { jb->rp = rp; jb->state_empty = 0; ast_mutex_unlock(&jb->mutexjb); return read; } else { if (jb->ok[rp] == 1) { data[i] = jb->samples[rp]; jb->ok[rp] = 0; rp = (rp != jb->size - 1) ? rp + 1 : 0; read += 1; } } } if (wp >= rp) { jb->state_buffer = wp - rp; } else { jb->state_buffer = jb->size - rp + wp; } chan_misdn_log(9, 0, "misdn_jb_empty: read:%d | Buffer status:%d p:%p\n", len, jb->state_buffer, jb); jb->rp = rp; } else { chan_misdn_log(9, 0, "misdn_jb_empty: Wait...requested:%d p:%p\n", len, jb); } ast_mutex_unlock(&jb->mutexjb); return read; } /*******************************************************/ /*************** JITTERBUFFER END *********************/ /*******************************************************/ static void chan_misdn_log(int level, int port, char *tmpl, ...) { va_list ap; char buf[1024]; char port_buf[8]; if (! ((0 <= port) && (port <= max_ports))) { ast_log(LOG_WARNING, "cb_log called with out-of-range port number! (%d)\n", port); port = 0; level = -1; } snprintf(port_buf, sizeof(port_buf), "P[%2d] ", port); va_start(ap, tmpl); vsnprintf(buf, sizeof(buf), tmpl, ap); va_end(ap); if (level == -1) { ast_log(LOG_WARNING, "%s", buf); } else if (misdn_debug_only[port] ? (level == 1 && misdn_debug[port]) || (level == misdn_debug[port]) : level <= misdn_debug[port]) { ast_console_puts(port_buf); ast_console_puts(buf); } if ((level <= misdn_debug[0]) && !ast_strlen_zero(global_tracefile) ) { char ctimebuf[30]; time_t tm = time(NULL); char *tmp = ctime_r(&tm, ctimebuf), *p; FILE *fp = fopen(global_tracefile, "a+"); if ((p = strchr(tmp, '\n'))) { *p = ':'; } if (!fp) { ast_console_puts("Error opening Tracefile: [ "); ast_console_puts(global_tracefile); ast_console_puts(" ] "); ast_console_puts(strerror(errno)); ast_console_puts("\n"); return ; } fputs(tmp, fp); fputs(" ", fp); fputs(port_buf, fp); fputs(" ", fp); fputs(buf, fp); fclose(fp); } } AST_MODULE_INFO(ASTERISK_GPL_KEY, AST_MODFLAG_DEFAULT, "Channel driver for mISDN Support (BRI/PRI)", .load = load_module, .unload = unload_module, .reload = reload, );