#ifndef _SIG_ANALOG_H #define _SIG_ANALOG_H /* * Asterisk -- An open source telephony toolkit. * * Copyright (C) 1999 - 2009, Digium, Inc. * * Mark Spencer * * 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 Interface header for analog signaling module * * \author Matthew Fredrickson */ #include "asterisk/channel.h" #include "asterisk/frame.h" #include "asterisk/smdi.h" #define ANALOG_SMDI_MD_WAIT_TIMEOUT 1500 /* 1.5 seconds */ #define ANALOG_MAX_CID 300 #define READ_SIZE 160 #define RING_PATTERNS 3 /*! \brief Default time (ms) to detect first digit */ #define ANALOG_FIRST_DIGIT_TIMEOUT 16000 /*! \brief Default time (ms) to detect following digits */ #define ANALOG_INTER_DIGIT_TIMEOUT 8000 /*! \brief Default time (ms) to wait, in case of ambiguous match */ #define ANALOG_MATCH_DIGIT_TIMEOUT 3000 /* Signalling types supported */ enum analog_sigtype { ANALOG_SIG_NONE = -1, ANALOG_SIG_FXOLS = 1, ANALOG_SIG_FXOKS, ANALOG_SIG_FXOGS, ANALOG_SIG_FXSLS, ANALOG_SIG_FXSKS, ANALOG_SIG_FXSGS, ANALOG_SIG_EMWINK, ANALOG_SIG_EM, ANALOG_SIG_EM_E1, ANALOG_SIG_FEATD, ANALOG_SIG_FEATDMF, ANALOG_SIG_E911, ANALOG_SIG_FGC_CAMA, ANALOG_SIG_FGC_CAMAMF, ANALOG_SIG_FEATB, ANALOG_SIG_SFWINK, ANALOG_SIG_SF, ANALOG_SIG_SF_FEATD, ANALOG_SIG_SF_FEATDMF, ANALOG_SIG_FEATDMF_TA, ANALOG_SIG_SF_FEATB, }; enum analog_tone { ANALOG_TONE_RINGTONE = 0, ANALOG_TONE_STUTTER, ANALOG_TONE_CONGESTION, ANALOG_TONE_DIALTONE, ANALOG_TONE_DIALRECALL, ANALOG_TONE_INFO, }; enum analog_event { ANALOG_EVENT_NONE = 0, ANALOG_EVENT_ONHOOK, ANALOG_EVENT_RINGOFFHOOK, ANALOG_EVENT_WINKFLASH, ANALOG_EVENT_ALARM, ANALOG_EVENT_NOALARM, ANALOG_EVENT_DIALCOMPLETE, ANALOG_EVENT_RINGERON, ANALOG_EVENT_RINGEROFF, ANALOG_EVENT_HOOKCOMPLETE, ANALOG_EVENT_PULSE_START, ANALOG_EVENT_POLARITY, ANALOG_EVENT_RINGBEGIN, ANALOG_EVENT_EC_DISABLED, ANALOG_EVENT_REMOVED, ANALOG_EVENT_NEONMWI_ACTIVE, ANALOG_EVENT_NEONMWI_INACTIVE, ANALOG_EVENT_TX_CED_DETECTED, ANALOG_EVENT_RX_CED_DETECTED, ANALOG_EVENT_EC_NLP_DISABLED, ANALOG_EVENT_EC_NLP_ENABLED, ANALOG_EVENT_ERROR, /* not a DAHDI event */ ANALOG_EVENT_DTMFCID, /* not a DAHDI event */ ANALOG_EVENT_PULSEDIGIT = (1 << 16), ANALOG_EVENT_DTMFDOWN = (1 << 17), ANALOG_EVENT_DTMFUP = (1 << 18), }; enum analog_sub { ANALOG_SUB_REAL = 0, /*!< Active call */ ANALOG_SUB_CALLWAIT, /*!< Call-Waiting call on hold */ ANALOG_SUB_THREEWAY, /*!< Three-way call */ }; enum analog_dsp_digitmode { ANALOG_DIGITMODE_DTMF = 1, ANALOG_DIGITMODE_MF, }; enum analog_cid_start { ANALOG_CID_START_POLARITY = 1, ANALOG_CID_START_POLARITY_IN, ANALOG_CID_START_RING, ANALOG_CID_START_DTMF_NOALERT, }; enum dialop { ANALOG_DIAL_OP_REPLACE = 2, }; struct analog_dialoperation { enum dialop op; char dialstr[256]; }; struct analog_callback { /* Unlock the private in the signalling private structure. This is used for three way calling madness. */ void (* const unlock_private)(void *pvt); /* Lock the private in the signalling private structure. ... */ void (* const lock_private)(void *pvt); /* Do deadlock avoidance for the private signaling structure lock. */ void (* const deadlock_avoidance_private)(void *pvt); /* Function which is called back to handle any other DTMF events that are received. Called by analog_handle_event. Why is this * important to use, instead of just directly using events received before they are passed into the library? Because sometimes, * (CWCID) the library absorbs DTMF events received. */ void (* const handle_dtmf)(void *pvt, struct ast_channel *ast, enum analog_sub analog_index, struct ast_frame **dest); int (* const get_event)(void *pvt); int (* const wait_event)(void *pvt); int (* const is_off_hook)(void *pvt); int (* const is_dialing)(void *pvt, enum analog_sub sub); /* Start a trunk type signalling protocol (everything except phone ports basically */ int (* const start)(void *pvt); int (* const ring)(void *pvt); int (* const flash)(void *pvt); /*! \brief Set channel on hook */ int (* const on_hook)(void *pvt); /*! \brief Set channel off hook */ int (* const off_hook)(void *pvt); void (* const set_needringing)(void *pvt, int value); /*! \brief Set FXS line polarity to 0=IDLE NZ=REVERSED */ void (* const set_polarity)(void *pvt, int value); /*! \brief Reset FXS line polarity to IDLE, based on answeronpolarityswitch and hanguponpolarityswitch */ void (* const start_polarityswitch)(void *pvt); /*! \brief Switch FXS line polarity, based on answeronpolarityswitch=yes */ void (* const answer_polarityswitch)(void *pvt); /*! \brief Switch FXS line polarity, based on answeronpolarityswitch and hanguponpolarityswitch */ void (* const hangup_polarityswitch)(void *pvt); /* We're assuming that we're going to only wink on ANALOG_SUB_REAL - even though in the code there's an argument to the index * function */ int (* const wink)(void *pvt, enum analog_sub sub); int (* const dial_digits)(void *pvt, enum analog_sub sub, struct analog_dialoperation *dop); int (* const send_fsk)(void *pvt, struct ast_channel *ast, char *fsk); int (* const play_tone)(void *pvt, enum analog_sub sub, enum analog_tone tone); int (* const set_echocanceller)(void *pvt, int enable); int (* const train_echocanceller)(void *pvt); int (* const dsp_set_digitmode)(void *pvt, enum analog_dsp_digitmode mode); int (* const dsp_reset_and_flush_digits)(void *pvt); int (* const send_callerid)(void *pvt, int cwcid, struct ast_party_caller *caller); /* Returns 0 if CID received. Returns 1 if event received, and -1 if error. name and num are size ANALOG_MAX_CID */ int (* const get_callerid)(void *pvt, char *name, char *num, enum analog_event *ev, size_t timeout); /* Start CID detection */ int (* const start_cid_detect)(void *pvt, int cid_signalling); /* Stop CID detection */ int (* const stop_cid_detect)(void *pvt); /* Play the CAS callwait tone on the REAL sub, then repeat after 10 seconds, and then stop */ int (* const callwait)(void *pvt); /* Stop playing any CAS call waiting announcement tones that might be running on the REAL sub */ int (* const stop_callwait)(void *pvt); /* Bearer control related (non signalling) callbacks */ int (* const allocate_sub)(void *pvt, enum analog_sub sub); int (* const unallocate_sub)(void *pvt, enum analog_sub sub); /*! This function is for swapping of the owners with the underlying subs. Typically it means you need to change the fds * of the new owner to be the fds of the sub specified, for each of the two subs given */ void (* const swap_subs)(void *pvt, enum analog_sub a, struct ast_channel *new_a_owner, enum analog_sub b, struct ast_channel *new_b_owner); struct ast_channel * (* const new_ast_channel)(void *pvt, int state, int startpbx, enum analog_sub sub, const struct ast_channel *requestor); /* Add the given sub to a conference */ int (* const conf_add)(void *pvt, enum analog_sub sub); /* Delete the given sub from any conference that might be running on the channels */ int (* const conf_del)(void *pvt, enum analog_sub sub); /* If you would like to do any optimizations after the conference members have been added and removed, * you can do so here */ int (* const complete_conference_update)(void *pvt, int needconf); /* This is called when there are no more subchannels on the given private that are left up, * for any cleanup or whatever else you would like to do. Called from analog_hangup() */ void (* const all_subchannels_hungup)(void *pvt); int (* const has_voicemail)(void *pvt); int (* const check_for_conference)(void *pvt); void (* const handle_notify_message)(struct ast_channel *chan, void *pvt, int cid_flags, int neon_mwievent); /* callbacks for increasing and decreasing ss_thread_count, will handle locking and condition signal */ void (* const increase_ss_count)(void); void (* const decrease_ss_count)(void); int (* const distinctive_ring)(struct ast_channel *chan, void *pvt, int idx, int *ringdata); /* Sets the specified sub-channel in and out of signed linear mode, returns the value that was overwritten */ int (* const set_linear_mode)(void *pvt, enum analog_sub sub, int linear_mode); void (* const set_inthreeway)(void *pvt, enum analog_sub sub, int inthreeway); void (* const get_and_handle_alarms)(void *pvt); void * (* const get_sigpvt_bridged_channel)(struct ast_channel *chan); int (* const get_sub_fd)(void *pvt, enum analog_sub sub); void (* const set_cadence)(void *pvt, int *cidrings, struct ast_channel *chan); void (* const set_alarm)(void *pvt, int in_alarm); void (* const set_dialing)(void *pvt, int is_dialing); void (* const set_outgoing)(void *pvt, int is_outgoing); void (* const set_ringtimeout)(void *pvt, int ringt); void (* const set_waitingfordt)(void *pvt, struct ast_channel *ast); int (* const check_waitingfordt)(void *pvt); void (* const set_confirmanswer)(void *pvt, int flag); int (* const check_confirmanswer)(void *pvt); void (* const set_callwaiting)(void *pvt, int callwaiting_enable); void (* const cancel_cidspill)(void *pvt); int (* const confmute)(void *pvt, int mute); void (* const set_pulsedial)(void *pvt, int flag); void (* const set_new_owner)(void *pvt, struct ast_channel *new_owner); const char *(* const get_orig_dialstring)(void *pvt); int (* const have_progressdetect)(void *pvt); int (* const get_firstdigit_timeout)(void *pvt); int (* const get_interdigit_timeout)(void *pvt); int (* const get_matchdigit_timeout)(void *pvt); }; /*! Global analog callbacks to the upper layer. */ extern struct analog_callback analog_callbacks; struct analog_subchannel { struct ast_channel *owner; struct ast_frame f; /*!< One frame for each channel. How did this ever work before? */ unsigned int inthreeway:1; /* Have we allocated a subchannel yet or not */ unsigned int allocd:1; }; struct analog_pvt { /* Analog signalling type used in this private */ enum analog_sigtype sig; /* To contain the private structure passed into the channel callbacks */ void *chan_pvt; /* All members after this are going to be transient, and most will probably change */ struct ast_channel *owner; /*!< Our current active owner (if applicable) */ struct analog_subchannel subs[3]; /*!< Sub-channels */ struct analog_dialoperation dop; int onhooktime; /*< Time the interface went on-hook. */ int fxsoffhookstate; /*< TRUE if the FXS port is off-hook */ /*! \brief -1 = unknown, 0 = no messages, 1 = new messages available */ int msgstate; /* XXX: Option Variables - Set by allocator of private structure */ unsigned int ani_info_digits:8; /* Older switches use 1 INFO digit, newer switches use 2 */ unsigned int ani_timeout:16; /* Time in ms before we give up waiting for ANI spill */ unsigned int ani_wink_time:16; /* Safe wait time before we wink to start ANI spill */ unsigned int answeronpolarityswitch:1; unsigned int callreturn:1; unsigned int cancallforward:1; unsigned int canpark:1; unsigned int dahditrcallerid:1; /*!< should we use the callerid from incoming call on dahdi transfer or not */ unsigned int hanguponpolarityswitch:1; unsigned int immediate:1; unsigned int permcallwaiting:1; /*!< TRUE if call waiting is enabled. (Configured option) */ unsigned int permhidecallerid:1; /*!< Whether to hide our outgoing caller ID or not */ unsigned int pulse:1; unsigned int threewaycalling:1; unsigned int transfer:1; unsigned int transfertobusy:1; /*!< allow flash-transfers to busy channels */ unsigned int use_callerid:1; /*!< Whether or not to use caller id on this channel */ unsigned int usedistinctiveringdetection:1; unsigned int callwaitingcallerid:1; /*!< TRUE if send caller ID for Call Waiting */ /*! * \brief TRUE if SMDI (Simplified Message Desk Interface) is enabled */ unsigned int use_smdi:1; /*! \brief The SMDI interface to get SMDI messages from. */ struct ast_smdi_interface *smdi_iface; /* Not used for anything but log messages. Could be just the TCID */ int channel; /*!< Channel Number */ enum analog_sigtype outsigmod; int echotraining; int cid_signalling; /*!< Asterisk callerid type we're using */ int polarityonanswerdelay; int stripmsd; enum analog_cid_start cid_start; char mohsuggest[MAX_MUSICCLASS]; char cid_num[AST_MAX_EXTENSION]; char cid_name[AST_MAX_EXTENSION]; /* XXX: All variables after this are internal */ unsigned int callwaiting:1; /*!< TRUE if call waiting is enabled. (Active option) */ unsigned int dialednone:1; unsigned int dialing:1; /*!< TRUE if in the process of dialing digits or sending something */ unsigned int dnd:1; /*!< TRUE if Do-Not-Disturb is enabled. */ unsigned int echobreak:1; unsigned int hidecallerid:1; unsigned int outgoing:1; unsigned int inalarm:1; /*! * \brief TRUE if Call Waiting (CW) CPE Alert Signal (CAS) is being sent. * \note * After CAS is sent, the call waiting caller id will be sent if the phone * gives a positive reply. */ unsigned int callwaitcas:1; char callwait_num[AST_MAX_EXTENSION]; char callwait_name[AST_MAX_EXTENSION]; char lastcid_num[AST_MAX_EXTENSION]; char lastcid_name[AST_MAX_EXTENSION]; struct ast_party_caller caller; int cidrings; /*!< Which ring to deliver CID on */ char echorest[20]; int polarity; struct timeval polaritydelaytv; char dialdest[256]; time_t guardtime; /*!< Must wait this much time before using for new call */ struct timeval flashtime; /*!< Last flash-hook time */ int whichwink; /*!< SIG_FEATDMF_TA Which wink are we on? */ char finaldial[64]; char *origcid_num; /*!< malloced original callerid */ char *origcid_name; /*!< malloced original callerid */ char call_forward[AST_MAX_EXTENSION]; /* Ast channel to pass to __ss_analog_thread */ struct ast_channel *ss_astchan; /* All variables after this are definitely going to be audited */ int ringt; int ringt_base; }; struct analog_pvt *analog_new(enum analog_sigtype signallingtype, void *private_data); void analog_delete(struct analog_pvt *doomed); void analog_free(struct analog_pvt *p); int analog_call(struct analog_pvt *p, struct ast_channel *ast, const char *rdest, int timeout); int analog_hangup(struct analog_pvt *p, struct ast_channel *ast); int analog_answer(struct analog_pvt *p, struct ast_channel *ast); struct ast_frame *analog_exception(struct analog_pvt *p, struct ast_channel *ast); struct ast_channel * analog_request(struct analog_pvt *p, int *callwait, const struct ast_channel *requestor); int analog_available(struct analog_pvt *p); void *analog_handle_init_event(struct analog_pvt *i, int event); int analog_config_complete(struct analog_pvt *p); void analog_handle_dtmf(struct analog_pvt *p, struct ast_channel *ast, enum analog_sub index, struct ast_frame **dest); enum analog_cid_start analog_str_to_cidstart(const char *value); const char *analog_cidstart_to_str(enum analog_cid_start cid_start); enum analog_sigtype analog_str_to_sigtype(const char *name); const char *analog_sigtype_to_str(enum analog_sigtype sigtype); unsigned int analog_str_to_cidtype(const char *name); const char *analog_cidtype_to_str(unsigned int cid_type); int analog_ss_thread_start(struct analog_pvt *p, struct ast_channel *ast); int analog_fixup(struct ast_channel *oldchan, struct ast_channel *newchan, void *newp); int analog_dnd(struct analog_pvt *p, int flag); #endif /* _SIG_ANSLOG_H */