/* * Asterisk -- An open source telephony toolkit. * * Copyright (C) 1999 - 2006, 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 Zaptel Pseudo TDM interface * * \author Mark Spencer * * Connects to the zaptel telephony library as well as * libpri. Libpri is optional and needed only if you are * going to use ISDN connections. * * You need to install libraries before you attempt to compile * and install the zaptel channel. * * \par See also * \arg \ref Config_zap * * \ingroup channel_drivers * * \todo Deprecate the "musiconhold" configuration option post 1.4 */ /*** MODULEINFO res_smdi zaptel_vldtmf zaptel tonezone res_features pri ***/ #include "asterisk.h" ASTERISK_FILE_VERSION(__FILE__, "$Revision$") #include #include #ifdef __NetBSD__ #include #include #else #include #endif #include #include #if !defined(SOLARIS) && !defined(__FreeBSD__) #include #endif #include #include #include #include #include #include #ifdef HAVE_PRI #include #endif #include "asterisk/lock.h" #include "asterisk/channel.h" #include "asterisk/config.h" #include "asterisk/logger.h" #include "asterisk/module.h" #include "asterisk/pbx.h" #include "asterisk/options.h" #include "asterisk/file.h" #include "asterisk/ulaw.h" #include "asterisk/alaw.h" #include "asterisk/callerid.h" #include "asterisk/adsi.h" #include "asterisk/cli.h" #include "asterisk/cdr.h" #include "asterisk/features.h" #include "asterisk/musiconhold.h" #include "asterisk/say.h" #include "asterisk/tdd.h" #include "asterisk/app.h" #include "asterisk/dsp.h" #include "asterisk/astdb.h" #include "asterisk/manager.h" #include "asterisk/causes.h" #include "asterisk/term.h" #include "asterisk/utils.h" #include "asterisk/transcap.h" #include "asterisk/stringfields.h" #include "asterisk/abstract_jb.h" #include "asterisk/smdi.h" #include "asterisk/astobj.h" #define SMDI_MD_WAIT_TIMEOUT 1500 /* 1.5 seconds */ /*! Global jitterbuffer configuration - by default, jb is disabled */ static struct ast_jb_conf default_jbconf = { .flags = 0, .max_size = -1, .resync_threshold = -1, .impl = "" }; static struct ast_jb_conf global_jbconf; #if !defined(ZT_SIG_EM_E1) || (defined(HAVE_PRI) && !defined(ZT_SIG_HARDHDLC)) #error "Your zaptel is too old. Please update" #endif #ifndef ZT_TONEDETECT /* Work around older code with no tone detect */ #define ZT_EVENT_DTMFDOWN 0 #define ZT_EVENT_DTMFUP 0 #endif /* define this to send PRI user-user information elements */ #undef SUPPORT_USERUSER /*! * \note Define ZHONE_HACK to cause us to go off hook and then back on hook when * the user hangs up to reset the state machine so ring works properly. * This is used to be able to support kewlstart by putting the zhone in * groundstart mode since their forward disconnect supervision is entirely * broken even though their documentation says it isn't and their support * is entirely unwilling to provide any assistance with their channel banks * even though their web site says they support their products for life. */ /* #define ZHONE_HACK */ /*! \note * Define if you want to check the hook state for an FXO (FXS signalled) interface * before dialing on it. Certain FXO interfaces always think they're out of * service with this method however. */ /* #define ZAP_CHECK_HOOKSTATE */ /*! \brief Typically, how many rings before we should send Caller*ID */ #define DEFAULT_CIDRINGS 1 #define CHANNEL_PSEUDO -12 #define AST_LAW(p) (((p)->law == ZT_LAW_ALAW) ? AST_FORMAT_ALAW : AST_FORMAT_ULAW) /*! \brief Signaling types that need to use MF detection should be placed in this macro */ #define NEED_MFDETECT(p) (((p)->sig == SIG_FEATDMF) || ((p)->sig == SIG_FEATDMF_TA) || ((p)->sig == SIG_E911) || ((p)->sig == SIG_FGC_CAMA) || ((p)->sig == SIG_FGC_CAMAMF) || ((p)->sig == SIG_FEATB)) static const char tdesc[] = "Zapata Telephony Driver" #ifdef HAVE_PRI " w/PRI" #endif ; static const char config[] = "zapata.conf"; #define SIG_EM ZT_SIG_EM #define SIG_EMWINK (0x0100000 | ZT_SIG_EM) #define SIG_FEATD (0x0200000 | ZT_SIG_EM) #define SIG_FEATDMF (0x0400000 | ZT_SIG_EM) #define SIG_FEATB (0x0800000 | ZT_SIG_EM) #define SIG_E911 (0x1000000 | ZT_SIG_EM) #define SIG_FEATDMF_TA (0x2000000 | ZT_SIG_EM) #define SIG_FGC_CAMA (0x4000000 | ZT_SIG_EM) #define SIG_FGC_CAMAMF (0x8000000 | ZT_SIG_EM) #define SIG_FXSLS ZT_SIG_FXSLS #define SIG_FXSGS ZT_SIG_FXSGS #define SIG_FXSKS ZT_SIG_FXSKS #define SIG_FXOLS ZT_SIG_FXOLS #define SIG_FXOGS ZT_SIG_FXOGS #define SIG_FXOKS ZT_SIG_FXOKS #define SIG_PRI ZT_SIG_CLEAR #define SIG_SF ZT_SIG_SF #define SIG_SFWINK (0x0100000 | ZT_SIG_SF) #define SIG_SF_FEATD (0x0200000 | ZT_SIG_SF) #define SIG_SF_FEATDMF (0x0400000 | ZT_SIG_SF) #define SIG_SF_FEATB (0x0800000 | ZT_SIG_SF) #define SIG_EM_E1 ZT_SIG_EM_E1 #define SIG_GR303FXOKS (0x0100000 | ZT_SIG_FXOKS) #define SIG_GR303FXSKS (0x0100000 | ZT_SIG_FXSKS) #define NUM_SPANS 32 #define NUM_DCHANS 4 /*!< No more than 4 d-channels */ #define MAX_CHANNELS 672 /*!< No more than a DS3 per trunk group */ #define CHAN_PSEUDO -2 #define DCHAN_PROVISIONED (1 << 0) #define DCHAN_NOTINALARM (1 << 1) #define DCHAN_UP (1 << 2) #define DCHAN_AVAILABLE (DCHAN_PROVISIONED | DCHAN_NOTINALARM | DCHAN_UP) static char defaultcic[64] = ""; static char defaultozz[64] = ""; static char progzone[10] = ""; static int distinctiveringaftercid = 0; static int numbufs = 4; #ifdef HAVE_PRI static struct ast_channel inuse; #ifdef PRI_GETSET_TIMERS static int pritimers[PRI_MAX_TIMERS]; #endif static int pridebugfd = -1; static char pridebugfilename[1024] = ""; #endif /*! \brief Wait up to 16 seconds for first digit (FXO logic) */ static int firstdigittimeout = 16000; /*! \brief How long to wait for following digits (FXO logic) */ static int gendigittimeout = 8000; /*! \brief How long to wait for an extra digit, if there is an ambiguous match */ static int matchdigittimeout = 3000; /*! \brief Protect the interface list (of zt_pvt's) */ AST_MUTEX_DEFINE_STATIC(iflock); static int ifcount = 0; #ifdef HAVE_PRI AST_MUTEX_DEFINE_STATIC(pridebugfdlock); #endif /*! \brief Protect the monitoring thread, so only one process can kill or start it, and not when it's doing something critical. */ AST_MUTEX_DEFINE_STATIC(monlock); /*! \brief This is the thread for the monitor which checks for input on the channels which are not currently in use. */ static pthread_t monitor_thread = AST_PTHREADT_NULL; static int restart_monitor(void); static enum ast_bridge_result zt_bridge(struct ast_channel *c0, struct ast_channel *c1, int flags, struct ast_frame **fo, struct ast_channel **rc, int timeoutms); static int zt_sendtext(struct ast_channel *c, const char *text); /*! \brief Avoid the silly zt_getevent which ignores a bunch of events */ static inline int zt_get_event(int fd) { int j; if (ioctl(fd, ZT_GETEVENT, &j) == -1) return -1; return j; } /*! \brief Avoid the silly zt_waitevent which ignores a bunch of events */ static inline int zt_wait_event(int fd) { int i, j = 0; i = ZT_IOMUX_SIGEVENT; if (ioctl(fd, ZT_IOMUX, &i) == -1) return -1; if (ioctl(fd, ZT_GETEVENT, &j) == -1) return -1; return j; } /*! Chunk size to read -- we use 20ms chunks to make things happy. */ #define READ_SIZE 160 #define MASK_AVAIL (1 << 0) /*!< Channel available for PRI use */ #define MASK_INUSE (1 << 1) /*!< Channel currently in use */ #define CALLWAITING_SILENT_SAMPLES ( (300 * 8) / READ_SIZE) /*!< 300 ms */ #define CALLWAITING_REPEAT_SAMPLES ( (10000 * 8) / READ_SIZE) /*!< 300 ms */ #define CIDCW_EXPIRE_SAMPLES ( (500 * 8) / READ_SIZE) /*!< 500 ms */ #define MIN_MS_SINCE_FLASH ( (2000) ) /*!< 2000 ms */ #define DEFAULT_RINGT ( (8000 * 8) / READ_SIZE) struct zt_pvt; static int ringt_base = DEFAULT_RINGT; #ifdef HAVE_PRI #define PVT_TO_CHANNEL(p) (((p)->prioffset) | ((p)->logicalspan << 8) | (p->pri->mastertrunkgroup ? 0x10000 : 0)) #define PRI_CHANNEL(p) ((p) & 0xff) #define PRI_SPAN(p) (((p) >> 8) & 0xff) #define PRI_EXPLICIT(p) (((p) >> 16) & 0x01) struct zt_pri { pthread_t master; /*!< Thread of master */ ast_mutex_t lock; /*!< Mutex */ char idleext[AST_MAX_EXTENSION]; /*!< Where to idle extra calls */ char idlecontext[AST_MAX_CONTEXT]; /*!< What context to use for idle */ char idledial[AST_MAX_EXTENSION]; /*!< What to dial before dumping */ int minunused; /*!< Min # of channels to keep empty */ int minidle; /*!< Min # of "idling" calls to keep active */ int nodetype; /*!< Node type */ int switchtype; /*!< Type of switch to emulate */ int nsf; /*!< Network-Specific Facilities */ int dialplan; /*!< Dialing plan */ int localdialplan; /*!< Local dialing plan */ char internationalprefix[10]; /*!< country access code ('00' for european dialplans) */ char nationalprefix[10]; /*!< area access code ('0' for european dialplans) */ char localprefix[20]; /*!< area access code + area code ('0'+area code for european dialplans) */ char privateprefix[20]; /*!< for private dialplans */ char unknownprefix[20]; /*!< for unknown dialplans */ int dchannels[NUM_DCHANS]; /*!< What channel are the dchannels on */ int trunkgroup; /*!< What our trunkgroup is */ int mastertrunkgroup; /*!< What trunk group is our master */ int prilogicalspan; /*!< Logical span number within trunk group */ int numchans; /*!< Num of channels we represent */ int overlapdial; /*!< In overlap dialing mode */ int facilityenable; /*!< Enable facility IEs */ struct pri *dchans[NUM_DCHANS]; /*!< Actual d-channels */ int dchanavail[NUM_DCHANS]; /*!< Whether each channel is available */ struct pri *pri; /*!< Currently active D-channel */ int debug; int fds[NUM_DCHANS]; /*!< FD's for d-channels */ int offset; int span; int resetting; int resetpos; time_t lastreset; /*!< time when unused channels were last reset */ long resetinterval; /*!< Interval (in seconds) for resetting unused channels */ struct zt_pvt *pvts[MAX_CHANNELS]; /*!< Member channel pvt structs */ struct zt_pvt *crvs; /*!< Member CRV structs */ struct zt_pvt *crvend; /*!< Pointer to end of CRV structs */ }; static struct zt_pri pris[NUM_SPANS]; #if 0 #define DEFAULT_PRI_DEBUG (PRI_DEBUG_Q931_DUMP | PRI_DEBUG_Q921_DUMP | PRI_DEBUG_Q921_RAW | PRI_DEBUG_Q921_STATE) #else #define DEFAULT_PRI_DEBUG 0 #endif static inline void pri_rel(struct zt_pri *pri) { ast_mutex_unlock(&pri->lock); } #else /*! Shut up the compiler */ struct zt_pri; #endif #define SUB_REAL 0 /*!< Active call */ #define SUB_CALLWAIT 1 /*!< Call-Waiting call on hold */ #define SUB_THREEWAY 2 /*!< Three-way call */ /* Polarity states */ #define POLARITY_IDLE 0 #define POLARITY_REV 1 static struct zt_distRings drings; struct distRingData { int ring[3]; }; struct ringContextData { char contextData[AST_MAX_CONTEXT]; }; struct zt_distRings { struct distRingData ringnum[3]; struct ringContextData ringContext[3]; }; static char *subnames[] = { "Real", "Callwait", "Threeway" }; struct zt_subchannel { int zfd; struct ast_channel *owner; int chan; short buffer[AST_FRIENDLY_OFFSET/2 + READ_SIZE]; struct ast_frame f; /*!< One frame for each channel. How did this ever work before? */ unsigned int needringing:1; unsigned int needbusy:1; unsigned int needcongestion:1; unsigned int needcallerid:1; unsigned int needanswer:1; unsigned int needflash:1; unsigned int needhold:1; unsigned int needunhold:1; unsigned int linear:1; unsigned int inthreeway:1; ZT_CONFINFO curconf; }; #define CONF_USER_REAL (1 << 0) #define CONF_USER_THIRDCALL (1 << 1) #define MAX_SLAVES 4 static struct zt_pvt { ast_mutex_t lock; struct ast_channel *owner; /*!< Our current active owner (if applicable) */ /*!< Up to three channels can be associated with this call */ struct zt_subchannel sub_unused; /*!< Just a safety precaution */ struct zt_subchannel subs[3]; /*!< Sub-channels */ struct zt_confinfo saveconf; /*!< Saved conference info */ struct zt_pvt *slaves[MAX_SLAVES]; /*!< Slave to us (follows our conferencing) */ struct zt_pvt *master; /*!< Master to us (we follow their conferencing) */ int inconference; /*!< If our real should be in the conference */ int sig; /*!< Signalling style */ int radio; /*!< radio type */ int outsigmod; /*!< Outbound Signalling style (modifier) */ int oprmode; /*!< "Operator Services" mode */ struct zt_pvt *oprpeer; /*!< "Operator Services" peer tech_pvt ptr */ float rxgain; float txgain; int tonezone; /*!< tone zone for this chan, or -1 for default */ struct zt_pvt *next; /*!< Next channel in list */ struct zt_pvt *prev; /*!< Prev channel in list */ /* flags */ unsigned int adsi:1; unsigned int answeronpolarityswitch:1; unsigned int busydetect:1; unsigned int callreturn:1; unsigned int callwaiting:1; unsigned int callwaitingcallerid:1; unsigned int cancallforward:1; unsigned int canpark:1; unsigned int confirmanswer:1; /*!< Wait for '#' to confirm answer */ unsigned int destroy:1; unsigned int didtdd:1; /*!< flag to say its done it once */ unsigned int dialednone:1; unsigned int dialing:1; unsigned int digital:1; unsigned int dnd:1; unsigned int echobreak:1; unsigned int echocanbridged:1; unsigned int echocanon:1; unsigned int faxhandled:1; /*!< Has a fax tone already been handled? */ unsigned int firstradio:1; unsigned int hanguponpolarityswitch:1; unsigned int hardwaredtmf:1; unsigned int hidecallerid:1; unsigned int hidecalleridname:1; /*!< Hide just the name not the number for legacy PBX use */ unsigned int ignoredtmf:1; unsigned int immediate:1; /*!< Answer before getting digits? */ unsigned int inalarm:1; unsigned int unknown_alarm:1; unsigned int mate:1; /*!< flag to say its in MATE mode */ unsigned int outgoing:1; unsigned int overlapdial:1; unsigned int permcallwaiting:1; unsigned int permhidecallerid:1; /*!< Whether to hide our outgoing caller ID or not */ unsigned int priindication_oob:1; unsigned int priexclusive:1; unsigned int pulse:1; unsigned int pulsedial:1; /*!< whether a pulse dial phone is detected */ unsigned int restrictcid:1; /*!< Whether restrict the callerid -> only send ANI */ unsigned int threewaycalling:1; unsigned int transfer:1; unsigned int use_callerid:1; /*!< Whether or not to use caller id on this channel */ unsigned int use_callingpres:1; /*!< Whether to use the callingpres the calling switch sends */ unsigned int usedistinctiveringdetection:1; unsigned int zaptrcallerid:1; /*!< should we use the callerid from incoming call on zap transfer or not */ unsigned int transfertobusy:1; /*!< allow flash-transfers to busy channels */ #if defined(HAVE_PRI) unsigned int alerting:1; unsigned int alreadyhungup:1; unsigned int isidlecall:1; unsigned int proceeding:1; unsigned int progress:1; unsigned int resetting:1; unsigned int setup_ack:1; #endif unsigned int use_smdi:1; /* Whether to use SMDI on this channel */ struct ast_smdi_interface *smdi_iface; /* The serial port to listen for SMDI data on */ struct zt_distRings drings; char context[AST_MAX_CONTEXT]; char defcontext[AST_MAX_CONTEXT]; char exten[AST_MAX_EXTENSION]; char language[MAX_LANGUAGE]; char mohinterpret[MAX_MUSICCLASS]; char mohsuggest[MAX_MUSICCLASS]; #ifdef PRI_ANI char cid_ani[AST_MAX_EXTENSION]; #endif char cid_num[AST_MAX_EXTENSION]; int cid_ton; /*!< Type Of Number (TON) */ char cid_name[AST_MAX_EXTENSION]; char lastcid_num[AST_MAX_EXTENSION]; char lastcid_name[AST_MAX_EXTENSION]; char *origcid_num; /*!< malloced original callerid */ char *origcid_name; /*!< malloced original callerid */ char callwait_num[AST_MAX_EXTENSION]; char callwait_name[AST_MAX_EXTENSION]; char rdnis[AST_MAX_EXTENSION]; char dnid[AST_MAX_EXTENSION]; ast_group_t group; int law; int confno; /*!< Our conference */ int confusers; /*!< Who is using our conference */ int propconfno; /*!< Propagated conference number */ ast_group_t callgroup; ast_group_t pickupgroup; int channel; /*!< Channel Number or CRV */ int span; /*!< Span number */ time_t guardtime; /*!< Must wait this much time before using for new call */ int cid_signalling; /*!< CID signalling type bell202 or v23 */ int cid_start; /*!< CID start indicator, polarity or ring */ int callingpres; /*!< The value of callling presentation that we're going to use when placing a PRI call */ int callwaitingrepeat; /*!< How many samples to wait before repeating call waiting */ int cidcwexpire; /*!< When to expire our muting for CID/CW */ unsigned char *cidspill; int cidpos; int cidlen; int ringt; int ringt_base; int stripmsd; int callwaitcas; int callwaitrings; int echocancel; int echotraining; char echorest[20]; int busycount; int busy_tonelength; int busy_quietlength; int callprogress; struct timeval flashtime; /*!< Last flash-hook time */ struct ast_dsp *dsp; int cref; /*!< Call reference number */ ZT_DIAL_OPERATION dop; int whichwink; /*!< SIG_FEATDMF_TA Which wink are we on? */ char finaldial[64]; char accountcode[AST_MAX_ACCOUNT_CODE]; /*!< Account code */ int amaflags; /*!< AMA Flags */ struct tdd_state *tdd; /*!< TDD flag */ char call_forward[AST_MAX_EXTENSION]; char mailbox[AST_MAX_EXTENSION]; char dialdest[256]; int onhooktime; int msgstate; int distinctivering; /*!< Which distinctivering to use */ int cidrings; /*!< Which ring to deliver CID on */ int dtmfrelax; /*!< whether to run in relaxed DTMF mode */ int fake_event; int polarityonanswerdelay; struct timeval polaritydelaytv; int sendcalleridafter; #ifdef HAVE_PRI struct zt_pri *pri; struct zt_pvt *bearer; struct zt_pvt *realcall; q931_call *call; int prioffset; int logicalspan; #endif int polarity; int dsp_features; char begindigit; } *iflist = NULL, *ifend = NULL; /*! \brief Channel configuration from zapata.conf . * This struct is used for parsing the [channels] section of zapata.conf. * Generally there is a field here for every possible configuration item. * * The state of fields is saved along the parsing and whenever a 'channel' * statement is reached, the current zt_chan_conf is used to configure the * channel (struct zt_pvt) * * @seealso zt_chan_init for the default values. */ struct zt_chan_conf { struct zt_pvt chan; #ifdef HAVE_PRI struct zt_pri pri; #endif ZT_PARAMS timing; char smdi_port[SMDI_MAX_FILENAME_LEN]; }; /** returns a new zt_chan_conf with default values (by-value) */ static struct zt_chan_conf zt_chan_conf_default(void) { /* recall that if a field is not included here it is initialized * to 0 or equivalent */ struct zt_chan_conf conf = { #ifdef HAVE_PRI .pri = { .nsf = PRI_NSF_NONE, .switchtype = PRI_SWITCH_NI2, .dialplan = PRI_NATIONAL_ISDN + 1, .localdialplan = PRI_NATIONAL_ISDN + 1, .nodetype = PRI_CPE, .minunused = 2, .idleext = "", .idledial = "", .internationalprefix = "", .nationalprefix = "", .localprefix = "", .privateprefix = "", .unknownprefix = "", .resetinterval = 3600 }, #endif .chan = { .context = "default", .cid_num = "", .cid_name = "", .mohinterpret = "default", .mohsuggest = "", .transfertobusy = 1, .cid_signalling = CID_SIG_BELL, .cid_start = CID_START_RING, .zaptrcallerid = 0, .use_callerid = 1, .sig = -1, .outsigmod = -1, .tonezone = -1, .echocancel = 1, .busycount = 3, .accountcode = "", .mailbox = "", .polarityonanswerdelay = 600, .sendcalleridafter = DEFAULT_CIDRINGS }, .timing = { .prewinktime = -1, .preflashtime = -1, .winktime = -1, .flashtime = -1, .starttime = -1, .rxwinktime = -1, .rxflashtime = -1, .debouncetime = -1 }, .smdi_port = "/dev/ttyS0", }; return conf; } static struct ast_channel *zt_request(const char *type, int format, void *data, int *cause); static int zt_digit_begin(struct ast_channel *ast, char digit); static int zt_digit_end(struct ast_channel *ast, char digit, unsigned int duration); static int zt_sendtext(struct ast_channel *c, const char *text); static int zt_call(struct ast_channel *ast, char *rdest, int timeout); static int zt_hangup(struct ast_channel *ast); static int zt_answer(struct ast_channel *ast); static struct ast_frame *zt_read(struct ast_channel *ast); static int zt_write(struct ast_channel *ast, struct ast_frame *frame); static struct ast_frame *zt_exception(struct ast_channel *ast); static int zt_indicate(struct ast_channel *chan, int condition, const void *data, size_t datalen); static int zt_fixup(struct ast_channel *oldchan, struct ast_channel *newchan); static int zt_setoption(struct ast_channel *chan, int option, void *data, int datalen); static int zt_func_read(struct ast_channel *chan, char *function, char *data, char *buf, size_t len); static const struct ast_channel_tech zap_tech = { .type = "Zap", .description = tdesc, .capabilities = AST_FORMAT_SLINEAR | AST_FORMAT_ULAW | AST_FORMAT_ALAW, .requester = zt_request, .send_digit_begin = zt_digit_begin, .send_digit_end = zt_digit_end, .send_text = zt_sendtext, .call = zt_call, .hangup = zt_hangup, .answer = zt_answer, .read = zt_read, .write = zt_write, .bridge = zt_bridge, .exception = zt_exception, .indicate = zt_indicate, .fixup = zt_fixup, .setoption = zt_setoption, .func_channel_read = zt_func_read, }; #ifdef HAVE_PRI #define GET_CHANNEL(p) ((p)->bearer ? (p)->bearer->channel : p->channel) #else #define GET_CHANNEL(p) ((p)->channel) #endif struct zt_pvt *round_robin[32]; #ifdef HAVE_PRI static inline int pri_grab(struct zt_pvt *pvt, struct zt_pri *pri) { int res; /* Grab the lock first */ do { res = ast_mutex_trylock(&pri->lock); if (res) { ast_mutex_unlock(&pvt->lock); /* Release the lock and try again */ usleep(1); ast_mutex_lock(&pvt->lock); } } while (res); /* Then break the poll */ pthread_kill(pri->master, SIGURG); return 0; } #endif #define NUM_CADENCE_MAX 25 static int num_cadence = 4; static int user_has_defined_cadences = 0; static struct zt_ring_cadence cadences[NUM_CADENCE_MAX] = { { { 125, 125, 2000, 4000 } }, /*!< Quick chirp followed by normal ring */ { { 250, 250, 500, 1000, 250, 250, 500, 4000 } }, /*!< British style ring */ { { 125, 125, 125, 125, 125, 4000 } }, /*!< Three short bursts */ { { 1000, 500, 2500, 5000 } }, /*!< Long ring */ }; /*! \brief cidrings says in which pause to transmit the cid information, where the first pause * is 1, the second pause is 2 and so on. */ static int cidrings[NUM_CADENCE_MAX] = { 2, /*!< Right after first long ring */ 4, /*!< Right after long part */ 3, /*!< After third chirp */ 2, /*!< Second spell */ }; #define ISTRUNK(p) ((p->sig == SIG_FXSLS) || (p->sig == SIG_FXSKS) || \ (p->sig == SIG_FXSGS) || (p->sig == SIG_PRI)) #define CANBUSYDETECT(p) (ISTRUNK(p) || (p->sig & (SIG_EM | SIG_EM_E1 | SIG_SF)) /* || (p->sig & __ZT_SIG_FXO) */) #define CANPROGRESSDETECT(p) (ISTRUNK(p) || (p->sig & (SIG_EM | SIG_EM_E1 | SIG_SF)) /* || (p->sig & __ZT_SIG_FXO) */) static int zt_get_index(struct ast_channel *ast, struct zt_pvt *p, int nullok) { int res; if (p->subs[0].owner == ast) res = 0; else if (p->subs[1].owner == ast) res = 1; else if (p->subs[2].owner == ast) res = 2; else { res = -1; if (!nullok) ast_log(LOG_WARNING, "Unable to get index, and nullok is not asserted\n"); } return res; } #ifdef HAVE_PRI static void wakeup_sub(struct zt_pvt *p, int a, struct zt_pri *pri) #else static void wakeup_sub(struct zt_pvt *p, int a, void *pri) #endif { #ifdef HAVE_PRI if (pri) ast_mutex_unlock(&pri->lock); #endif for (;;) { if (p->subs[a].owner) { if (ast_mutex_trylock(&p->subs[a].owner->lock)) { ast_mutex_unlock(&p->lock); usleep(1); ast_mutex_lock(&p->lock); } else { ast_queue_frame(p->subs[a].owner, &ast_null_frame); ast_mutex_unlock(&p->subs[a].owner->lock); break; } } else break; } #ifdef HAVE_PRI if (pri) ast_mutex_lock(&pri->lock); #endif } #ifdef HAVE_PRI static void zap_queue_frame(struct zt_pvt *p, struct ast_frame *f, struct zt_pri *pri) #else static void zap_queue_frame(struct zt_pvt *p, struct ast_frame *f, void *pri) #endif { /* We must unlock the PRI to avoid the possibility of a deadlock */ #ifdef HAVE_PRI if (pri) ast_mutex_unlock(&pri->lock); #endif for (;;) { if (p->owner) { if (ast_mutex_trylock(&p->owner->lock)) { ast_mutex_unlock(&p->lock); usleep(1); ast_mutex_lock(&p->lock); } else { ast_queue_frame(p->owner, f); ast_mutex_unlock(&p->owner->lock); break; } } else break; } #ifdef HAVE_PRI if (pri) ast_mutex_lock(&pri->lock); #endif } static int restore_gains(struct zt_pvt *p); static void swap_subs(struct zt_pvt *p, int a, int b) { int tchan; int tinthreeway; struct ast_channel *towner; ast_log(LOG_DEBUG, "Swapping %d and %d\n", a, b); tchan = p->subs[a].chan; towner = p->subs[a].owner; tinthreeway = p->subs[a].inthreeway; p->subs[a].chan = p->subs[b].chan; p->subs[a].owner = p->subs[b].owner; p->subs[a].inthreeway = p->subs[b].inthreeway; p->subs[b].chan = tchan; p->subs[b].owner = towner; p->subs[b].inthreeway = tinthreeway; if (p->subs[a].owner) p->subs[a].owner->fds[0] = p->subs[a].zfd; if (p->subs[b].owner) p->subs[b].owner->fds[0] = p->subs[b].zfd; wakeup_sub(p, a, NULL); wakeup_sub(p, b, NULL); } static int zt_open(char *fn) { int fd; int isnum; int chan = 0; int bs; int x; isnum = 1; for (x = 0; x < strlen(fn); x++) { if (!isdigit(fn[x])) { isnum = 0; break; } } if (isnum) { chan = atoi(fn); if (chan < 1) { ast_log(LOG_WARNING, "Invalid channel number '%s'\n", fn); return -1; } fn = "/dev/zap/channel"; } fd = open(fn, O_RDWR | O_NONBLOCK); if (fd < 0) { ast_log(LOG_WARNING, "Unable to open '%s': %s\n", fn, strerror(errno)); return -1; } if (chan) { if (ioctl(fd, ZT_SPECIFY, &chan)) { x = errno; close(fd); errno = x; ast_log(LOG_WARNING, "Unable to specify channel %d: %s\n", chan, strerror(errno)); return -1; } } bs = READ_SIZE; if (ioctl(fd, ZT_SET_BLOCKSIZE, &bs) == -1) { ast_log(LOG_WARNING, "Unable to set blocksize '%d': %s\n", bs, strerror(errno)); x = errno; close(fd); errno = x; return -1; } return fd; } static void zt_close(int fd) { if (fd > 0) close(fd); } static int zt_setlinear(int zfd, int linear) { int res; res = ioctl(zfd, ZT_SETLINEAR, &linear); if (res) return res; return 0; } static int alloc_sub(struct zt_pvt *p, int x) { ZT_BUFFERINFO bi; int res; if (p->subs[x].zfd < 0) { p->subs[x].zfd = zt_open("/dev/zap/pseudo"); if (p->subs[x].zfd > -1) { res = ioctl(p->subs[x].zfd, ZT_GET_BUFINFO, &bi); if (!res) { bi.txbufpolicy = ZT_POLICY_IMMEDIATE; bi.rxbufpolicy = ZT_POLICY_IMMEDIATE; bi.numbufs = numbufs; res = ioctl(p->subs[x].zfd, ZT_SET_BUFINFO, &bi); if (res < 0) { ast_log(LOG_WARNING, "Unable to set buffer policy on channel %d\n", x); } } else ast_log(LOG_WARNING, "Unable to check buffer policy on channel %d\n", x); if (ioctl(p->subs[x].zfd, ZT_CHANNO, &p->subs[x].chan) == 1) { ast_log(LOG_WARNING, "Unable to get channel number for pseudo channel on FD %d\n", p->subs[x].zfd); zt_close(p->subs[x].zfd); p->subs[x].zfd = -1; return -1; } if (option_debug) ast_log(LOG_DEBUG, "Allocated %s subchannel on FD %d channel %d\n", subnames[x], p->subs[x].zfd, p->subs[x].chan); return 0; } else ast_log(LOG_WARNING, "Unable to open pseudo channel: %s\n", strerror(errno)); return -1; } ast_log(LOG_WARNING, "%s subchannel of %d already in use\n", subnames[x], p->channel); return -1; } static int unalloc_sub(struct zt_pvt *p, int x) { if (!x) { ast_log(LOG_WARNING, "Trying to unalloc the real channel %d?!?\n", p->channel); return -1; } ast_log(LOG_DEBUG, "Released sub %d of channel %d\n", x, p->channel); if (p->subs[x].zfd > -1) { zt_close(p->subs[x].zfd); } p->subs[x].zfd = -1; p->subs[x].linear = 0; p->subs[x].chan = 0; p->subs[x].owner = NULL; p->subs[x].inthreeway = 0; p->polarity = POLARITY_IDLE; memset(&p->subs[x].curconf, 0, sizeof(p->subs[x].curconf)); return 0; } static int digit_to_dtmfindex(char digit) { if (isdigit(digit)) return ZT_TONE_DTMF_BASE + (digit - '0'); else if (digit >= 'A' && digit <= 'D') return ZT_TONE_DTMF_A + (digit - 'A'); else if (digit >= 'a' && digit <= 'd') return ZT_TONE_DTMF_A + (digit - 'a'); else if (digit == '*') return ZT_TONE_DTMF_s; else if (digit == '#') return ZT_TONE_DTMF_p; else return -1; } static int zt_digit_begin(struct ast_channel *chan, char digit) { struct zt_pvt *pvt; int index; int dtmf = -1; pvt = chan->tech_pvt; ast_mutex_lock(&pvt->lock); index = zt_get_index(chan, pvt, 0); if ((index != SUB_REAL) || !pvt->owner) goto out; #ifdef HAVE_PRI if ((pvt->sig == SIG_PRI) && (chan->_state == AST_STATE_DIALING) && !pvt->proceeding) { if (pvt->setup_ack) { if (!pri_grab(pvt, pvt->pri)) { pri_information(pvt->pri->pri, pvt->call, digit); pri_rel(pvt->pri); } else ast_log(LOG_WARNING, "Unable to grab PRI on span %d\n", pvt->span); } else if (strlen(pvt->dialdest) < sizeof(pvt->dialdest) - 1) { int res; ast_log(LOG_DEBUG, "Queueing digit '%c' since setup_ack not yet received\n", digit); res = strlen(pvt->dialdest); pvt->dialdest[res++] = digit; pvt->dialdest[res] = '\0'; } goto out; } #endif if ((dtmf = digit_to_dtmfindex(digit)) == -1) goto out; if (pvt->pulse || ioctl(pvt->subs[SUB_REAL].zfd, ZT_SENDTONE, &dtmf)) { int res; ZT_DIAL_OPERATION zo = { .op = ZT_DIAL_OP_APPEND, .dialstr[0] = 'T', .dialstr[1] = digit, .dialstr[2] = 0, }; if ((res = ioctl(pvt->subs[SUB_REAL].zfd, ZT_DIAL, &zo))) ast_log(LOG_WARNING, "Couldn't dial digit %c\n", digit); else pvt->dialing = 1; } else { ast_log(LOG_DEBUG, "Started VLDTMF digit '%c'\n", digit); pvt->dialing = 1; pvt->begindigit = digit; } out: ast_mutex_unlock(&pvt->lock); return 0; } static int zt_digit_end(struct ast_channel *chan, char digit, unsigned int duration) { struct zt_pvt *pvt; int res = 0; int index; int x; pvt = chan->tech_pvt; ast_mutex_lock(&pvt->lock); index = zt_get_index(chan, pvt, 0); if ((index != SUB_REAL) || !pvt->owner || pvt->pulse) goto out; #ifdef HAVE_PRI /* This means that the digit was already sent via PRI signalling */ if (pvt->sig == SIG_PRI && !pvt->begindigit) goto out; #endif if (pvt->begindigit) { x = -1; ast_log(LOG_DEBUG, "Ending VLDTMF digit '%c'\n", digit); res = ioctl(pvt->subs[SUB_REAL].zfd, ZT_SENDTONE, &x); pvt->dialing = 0; pvt->begindigit = 0; } out: ast_mutex_unlock(&pvt->lock); return res; } static char *events[] = { "No event", "On hook", "Ring/Answered", "Wink/Flash", "Alarm", "No more alarm", "HDLC Abort", "HDLC Overrun", "HDLC Bad FCS", "Dial Complete", "Ringer On", "Ringer Off", "Hook Transition Complete", "Bits Changed", "Pulse Start", "Timer Expired", "Timer Ping", "Polarity Reversal", "Ring Begin", }; static struct { int alarm; char *name; } alarms[] = { { ZT_ALARM_RED, "Red Alarm" }, { ZT_ALARM_YELLOW, "Yellow Alarm" }, { ZT_ALARM_BLUE, "Blue Alarm" }, { ZT_ALARM_RECOVER, "Recovering" }, { ZT_ALARM_LOOPBACK, "Loopback" }, { ZT_ALARM_NOTOPEN, "Not Open" }, { ZT_ALARM_NONE, "None" }, }; static char *alarm2str(int alarm) { int x; for (x = 0; x < sizeof(alarms) / sizeof(alarms[0]); x++) { if (alarms[x].alarm & alarm) return alarms[x].name; } return alarm ? "Unknown Alarm" : "No Alarm"; } static char *event2str(int event) { static char buf[256]; if ((event < (sizeof(events) / sizeof(events[0]))) && (event > -1)) return events[event]; sprintf(buf, "Event %d", event); /* safe */ return buf; } #ifdef HAVE_PRI static char *dialplan2str(int dialplan) { if (dialplan == -1) { return("Dynamically set dialplan in ISDN"); } return (pri_plan2str(dialplan)); } #endif static char *zap_sig2str(int sig) { static char buf[256]; switch (sig) { case SIG_EM: return "E & M Immediate"; case SIG_EMWINK: return "E & M Wink"; case SIG_EM_E1: return "E & M E1"; case SIG_FEATD: return "Feature Group D (DTMF)"; case SIG_FEATDMF: return "Feature Group D (MF)"; case SIG_FEATDMF_TA: return "Feature Groud D (MF) Tandem Access"; case SIG_FEATB: return "Feature Group B (MF)"; case SIG_E911: return "E911 (MF)"; case SIG_FGC_CAMA: return "FGC/CAMA (Dialpulse)"; case SIG_FGC_CAMAMF: return "FGC/CAMA (MF)"; case SIG_FXSLS: return "FXS Loopstart"; case SIG_FXSGS: return "FXS Groundstart"; case SIG_FXSKS: return "FXS Kewlstart"; case SIG_FXOLS: return "FXO Loopstart"; case SIG_FXOGS: return "FXO Groundstart"; case SIG_FXOKS: return "FXO Kewlstart"; case SIG_PRI: return "ISDN PRI"; case SIG_SF: return "SF (Tone) Immediate"; case SIG_SFWINK: return "SF (Tone) Wink"; case SIG_SF_FEATD: return "SF (Tone) with Feature Group D (DTMF)"; case SIG_SF_FEATDMF: return "SF (Tone) with Feature Group D (MF)"; case SIG_SF_FEATB: return "SF (Tone) with Feature Group B (MF)"; case SIG_GR303FXOKS: return "GR-303 with FXOKS"; case SIG_GR303FXSKS: return "GR-303 with FXSKS"; case 0: return "Pseudo"; default: snprintf(buf, sizeof(buf), "Unknown signalling %d", sig); return buf; } } #define sig2str zap_sig2str static int conf_add(struct zt_pvt *p, struct zt_subchannel *c, int index, int slavechannel) { /* If the conference already exists, and we're already in it don't bother doing anything */ ZT_CONFINFO zi; memset(&zi, 0, sizeof(zi)); zi.chan = 0; if (slavechannel > 0) { /* If we have only one slave, do a digital mon */ zi.confmode = ZT_CONF_DIGITALMON; zi.confno = slavechannel; } else { if (!index) { /* Real-side and pseudo-side both participate in conference */ zi.confmode = ZT_CONF_REALANDPSEUDO | ZT_CONF_TALKER | ZT_CONF_LISTENER | ZT_CONF_PSEUDO_TALKER | ZT_CONF_PSEUDO_LISTENER; } else zi.confmode = ZT_CONF_CONF | ZT_CONF_TALKER | ZT_CONF_LISTENER; zi.confno = p->confno; } if ((zi.confno == c->curconf.confno) && (zi.confmode == c->curconf.confmode)) return 0; if (c->zfd < 0) return 0; if (ioctl(c->zfd, ZT_SETCONF, &zi)) { ast_log(LOG_WARNING, "Failed to add %d to conference %d/%d\n", c->zfd, zi.confmode, zi.confno); return -1; } if (slavechannel < 1) { p->confno = zi.confno; } memcpy(&c->curconf, &zi, sizeof(c->curconf)); ast_log(LOG_DEBUG, "Added %d to conference %d/%d\n", c->zfd, c->curconf.confmode, c->curconf.confno); return 0; } static int isourconf(struct zt_pvt *p, struct zt_subchannel *c) { /* If they're listening to our channel, they're ours */ if ((p->channel == c->curconf.confno) && (c->curconf.confmode == ZT_CONF_DIGITALMON)) return 1; /* If they're a talker on our (allocated) conference, they're ours */ if ((p->confno > 0) && (p->confno == c->curconf.confno) && (c->curconf.confmode & ZT_CONF_TALKER)) return 1; return 0; } static int conf_del(struct zt_pvt *p, struct zt_subchannel *c, int index) { ZT_CONFINFO zi; if (/* Can't delete if there's no zfd */ (c->zfd < 0) || /* Don't delete from the conference if it's not our conference */ !isourconf(p, c) /* Don't delete if we don't think it's conferenced at all (implied) */ ) return 0; memset(&zi, 0, sizeof(zi)); zi.chan = 0; zi.confno = 0; zi.confmode = 0; if (ioctl(c->zfd, ZT_SETCONF, &zi)) { ast_log(LOG_WARNING, "Failed to drop %d from conference %d/%d\n", c->zfd, c->curconf.confmode, c->curconf.confno); return -1; } ast_log(LOG_DEBUG, "Removed %d from conference %d/%d\n", c->zfd, c->curconf.confmode, c->curconf.confno); memcpy(&c->curconf, &zi, sizeof(c->curconf)); return 0; } static int isslavenative(struct zt_pvt *p, struct zt_pvt **out) { int x; int useslavenative; struct zt_pvt *slave = NULL; /* Start out optimistic */ useslavenative = 1; /* Update conference state in a stateless fashion */ for (x = 0; x < 3; x++) { /* Any three-way calling makes slave native mode *definitely* out of the question */ if ((p->subs[x].zfd > -1) && p->subs[x].inthreeway) useslavenative = 0; } /* If we don't have any 3-way calls, check to see if we have precisely one slave */ if (useslavenative) { for (x = 0; x < MAX_SLAVES; x++) { if (p->slaves[x]) { if (slave) { /* Whoops already have a slave! No slave native and stop right away */ slave = NULL; useslavenative = 0; break; } else { /* We have one slave so far */ slave = p->slaves[x]; } } } } /* If no slave, slave native definitely out */ if (!slave) useslavenative = 0; else if (slave->law != p->law) { useslavenative = 0; slave = NULL; } if (out) *out = slave; return useslavenative; } static int reset_conf(struct zt_pvt *p) { ZT_CONFINFO zi; memset(&zi, 0, sizeof(zi)); p->confno = -1; memset(&p->subs[SUB_REAL].curconf, 0, sizeof(p->subs[SUB_REAL].curconf)); if (p->subs[SUB_REAL].zfd > -1) { if (ioctl(p->subs[SUB_REAL].zfd, ZT_SETCONF, &zi)) ast_log(LOG_WARNING, "Failed to reset conferencing on channel %d!\n", p->channel); } return 0; } static int update_conf(struct zt_pvt *p) { int needconf = 0; int x; int useslavenative; struct zt_pvt *slave = NULL; useslavenative = isslavenative(p, &slave); /* Start with the obvious, general stuff */ for (x = 0; x < 3; x++) { /* Look for three way calls */ if ((p->subs[x].zfd > -1) && p->subs[x].inthreeway) { conf_add(p, &p->subs[x], x, 0); needconf++; } else { conf_del(p, &p->subs[x], x); } } /* If we have a slave, add him to our conference now. or DAX if this is slave native */ for (x = 0; x < MAX_SLAVES; x++) { if (p->slaves[x]) { if (useslavenative) conf_add(p, &p->slaves[x]->subs[SUB_REAL], SUB_REAL, GET_CHANNEL(p)); else { conf_add(p, &p->slaves[x]->subs[SUB_REAL], SUB_REAL, 0); needconf++; } } } /* If we're supposed to be in there, do so now */ if (p->inconference && !p->subs[SUB_REAL].inthreeway) { if (useslavenative) conf_add(p, &p->subs[SUB_REAL], SUB_REAL, GET_CHANNEL(slave)); else { conf_add(p, &p->subs[SUB_REAL], SUB_REAL, 0); needconf++; } } /* If we have a master, add ourselves to his conference */ if (p->master) { if (isslavenative(p->master, NULL)) { conf_add(p->master, &p->subs[SUB_REAL], SUB_REAL, GET_CHANNEL(p->master)); } else { conf_add(p->master, &p->subs[SUB_REAL], SUB_REAL, 0); } } if (!needconf) { /* Nobody is left (or should be left) in our conference. Kill it. */ p->confno = -1; } if (option_debug) ast_log(LOG_DEBUG, "Updated conferencing on %d, with %d conference users\n", p->channel, needconf); return 0; } static void zt_enable_ec(struct zt_pvt *p) { int x; int res; if (!p) return; if (p->echocanon) { ast_log(LOG_DEBUG, "Echo cancellation already on\n"); return; } if (p->digital) { ast_log(LOG_DEBUG, "Echo cancellation isn't required on digital connection\n"); return; } if (p->echocancel) { if (p->sig == SIG_PRI) { x = 1; res = ioctl(p->subs[SUB_REAL].zfd, ZT_AUDIOMODE, &x); if (res) ast_log(LOG_WARNING, "Unable to enable audio mode on channel %d (%s)\n", p->channel, strerror(errno)); } x = p->echocancel; res = ioctl(p->subs[SUB_REAL].zfd, ZT_ECHOCANCEL, &x); if (res) ast_log(LOG_WARNING, "Unable to enable echo cancellation on channel %d (%s)\n", p->channel, strerror(errno)); else { p->echocanon = 1; if (option_debug) ast_log(LOG_DEBUG, "Enabled echo cancellation on channel %d\n", p->channel); } } else if (option_debug) ast_log(LOG_DEBUG, "No echo cancellation requested\n"); } static void zt_train_ec(struct zt_pvt *p) { int x; int res; if (p && p->echocancel && p->echotraining) { x = p->echotraining; res = ioctl(p->subs[SUB_REAL].zfd, ZT_ECHOTRAIN, &x); if (res) ast_log(LOG_WARNING, "Unable to request echo training on channel %d\n", p->channel); else { ast_log(LOG_DEBUG, "Engaged echo training on channel %d\n", p->channel); } } else ast_log(LOG_DEBUG, "No echo training requested\n"); } static void zt_disable_ec(struct zt_pvt *p) { int x; int res; if (p->echocancel) { x = 0; res = ioctl(p->subs[SUB_REAL].zfd, ZT_ECHOCANCEL, &x); if (res) ast_log(LOG_WARNING, "Unable to disable echo cancellation on channel %d\n", p->channel); else if (option_debug) ast_log(LOG_DEBUG, "disabled echo cancellation on channel %d\n", p->channel); } p->echocanon = 0; } static void fill_txgain(struct zt_gains *g, float gain, int law) { int j; int k; float linear_gain = pow(10.0, gain / 20.0); switch (law) { case ZT_LAW_ALAW: for (j = 0; j < (sizeof(g->txgain) / sizeof(g->txgain[0])); j++) { if (gain) { k = (int) (((float) AST_ALAW(j)) * linear_gain); if (k > 32767) k = 32767; if (k < -32767) k = -32767; g->txgain[j] = AST_LIN2A(k); } else { g->txgain[j] = j; } } break; case ZT_LAW_MULAW: for (j = 0; j < (sizeof(g->txgain) / sizeof(g->txgain[0])); j++) { if (gain) { k = (int) (((float) AST_MULAW(j)) * linear_gain); if (k > 32767) k = 32767; if (k < -32767) k = -32767; g->txgain[j] = AST_LIN2MU(k); } else { g->txgain[j] = j; } } break; } } static void fill_rxgain(struct zt_gains *g, float gain, int law) { int j; int k; float linear_gain = pow(10.0, gain / 20.0); switch (law) { case ZT_LAW_ALAW: for (j = 0; j < (sizeof(g->rxgain) / sizeof(g->rxgain[0])); j++) { if (gain) { k = (int) (((float) AST_ALAW(j)) * linear_gain); if (k > 32767) k = 32767; if (k < -32767) k = -32767; g->rxgain[j] = AST_LIN2A(k); } else { g->rxgain[j] = j; } } break; case ZT_LAW_MULAW: for (j = 0; j < (sizeof(g->rxgain) / sizeof(g->rxgain[0])); j++) { if (gain) { k = (int) (((float) AST_MULAW(j)) * linear_gain); if (k > 32767) k = 32767; if (k < -32767) k = -32767; g->rxgain[j] = AST_LIN2MU(k); } else { g->rxgain[j] = j; } } break; } } static int set_actual_txgain(int fd, int chan, float gain, int law) { struct zt_gains g; int res; memset(&g, 0, sizeof(g)); g.chan = chan; res = ioctl(fd, ZT_GETGAINS, &g); if (res) { if (option_debug) ast_log(LOG_DEBUG, "Failed to read gains: %s\n", strerror(errno)); return res; } fill_txgain(&g, gain, law); return ioctl(fd, ZT_SETGAINS, &g); } static int set_actual_rxgain(int fd, int chan, float gain, int law) { struct zt_gains g; int res; memset(&g, 0, sizeof(g)); g.chan = chan; res = ioctl(fd, ZT_GETGAINS, &g); if (res) { ast_log(LOG_DEBUG, "Failed to read gains: %s\n", strerror(errno)); return res; } fill_rxgain(&g, gain, law); return ioctl(fd, ZT_SETGAINS, &g); } static int set_actual_gain(int fd, int chan, float rxgain, float txgain, int law) { return set_actual_txgain(fd, chan, txgain, law) | set_actual_rxgain(fd, chan, rxgain, law); } static int bump_gains(struct zt_pvt *p) { int res; /* Bump receive gain by 5.0db */ res = set_actual_gain(p->subs[SUB_REAL].zfd, 0, p->rxgain + 5.0, p->txgain, p->law); if (res) { ast_log(LOG_WARNING, "Unable to bump gain: %s\n", strerror(errno)); return -1; } return 0; } static int restore_gains(struct zt_pvt *p) { int res; res = set_actual_gain(p->subs[SUB_REAL].zfd, 0, p->rxgain, p->txgain, p->law); if (res) { ast_log(LOG_WARNING, "Unable to restore gains: %s\n", strerror(errno)); return -1; } return 0; } static inline int zt_set_hook(int fd, int hs) { int x, res; x = hs; res = ioctl(fd, ZT_HOOK, &x); if (res < 0) { if (errno == EINPROGRESS) return 0; ast_log(LOG_WARNING, "zt hook failed: %s\n", strerror(errno)); } return res; } static inline int zt_confmute(struct zt_pvt *p, int muted) { int x, y, res; x = muted; if (p->sig == SIG_PRI) { y = 1; res = ioctl(p->subs[SUB_REAL].zfd, ZT_AUDIOMODE, &y); if (res) ast_log(LOG_WARNING, "Unable to set audio mode on '%d'\n", p->channel); } res = ioctl(p->subs[SUB_REAL].zfd, ZT_CONFMUTE, &x); if (res < 0) ast_log(LOG_WARNING, "zt confmute(%d) failed on channel %d: %s\n", muted, p->channel, strerror(errno)); return res; } static int save_conference(struct zt_pvt *p) { struct zt_confinfo c; int res; if (p->saveconf.confmode) { ast_log(LOG_WARNING, "Can't save conference -- already in use\n"); return -1; } p->saveconf.chan = 0; res = ioctl(p->subs[SUB_REAL].zfd, ZT_GETCONF, &p->saveconf); if (res) { ast_log(LOG_WARNING, "Unable to get conference info: %s\n", strerror(errno)); p->saveconf.confmode = 0; return -1; } c.chan = 0; c.confno = 0; c.confmode = ZT_CONF_NORMAL; res = ioctl(p->subs[SUB_REAL].zfd, ZT_SETCONF, &c); if (res) { ast_log(LOG_WARNING, "Unable to set conference info: %s\n", strerror(errno)); return -1; } if (option_debug) ast_log(LOG_DEBUG, "Disabled conferencing\n"); return 0; } static int restore_conference(struct zt_pvt *p) { int res; if (p->saveconf.confmode) { res = ioctl(p->subs[SUB_REAL].zfd, ZT_SETCONF, &p->saveconf); p->saveconf.confmode = 0; if (res) { ast_log(LOG_WARNING, "Unable to restore conference info: %s\n", strerror(errno)); return -1; } } if (option_debug) ast_log(LOG_DEBUG, "Restored conferencing\n"); return 0; } static int send_callerid(struct zt_pvt *p); static int send_cwcidspill(struct zt_pvt *p) { p->callwaitcas = 0; p->cidcwexpire = 0; if (!(p->cidspill = ast_malloc(MAX_CALLERID_SIZE))) return -1; p->cidlen = ast_callerid_callwaiting_generate(p->cidspill, p->callwait_name, p->callwait_num, AST_LAW(p)); /* Make sure we account for the end */ p->cidlen += READ_SIZE * 4; p->cidpos = 0; send_callerid(p); if (option_verbose > 2) ast_verbose(VERBOSE_PREFIX_3 "CPE supports Call Waiting Caller*ID. Sending '%s/%s'\n", p->callwait_name, p->callwait_num); return 0; } static int has_voicemail(struct zt_pvt *p) { return ast_app_has_voicemail(p->mailbox, NULL); } static int send_callerid(struct zt_pvt *p) { /* Assumes spill in p->cidspill, p->cidlen in length and we're p->cidpos into it */ int res; /* Take out of linear mode if necessary */ if (p->subs[SUB_REAL].linear) { p->subs[SUB_REAL].linear = 0; zt_setlinear(p->subs[SUB_REAL].zfd, 0); } while (p->cidpos < p->cidlen) { res = write(p->subs[SUB_REAL].zfd, p->cidspill + p->cidpos, p->cidlen - p->cidpos); if (res < 0) { if (errno == EAGAIN) return 0; else { ast_log(LOG_WARNING, "write failed: %s\n", strerror(errno)); return -1; } } if (!res) return 0; p->cidpos += res; } free(p->cidspill); p->cidspill = NULL; if (p->callwaitcas) { /* Wait for CID/CW to expire */ p->cidcwexpire = CIDCW_EXPIRE_SAMPLES; } else restore_conference(p); return 0; } static int zt_callwait(struct ast_channel *ast) { struct zt_pvt *p = ast->tech_pvt; p->callwaitingrepeat = CALLWAITING_REPEAT_SAMPLES; if (p->cidspill) { ast_log(LOG_WARNING, "Spill already exists?!?\n"); free(p->cidspill); } if (!(p->cidspill = ast_malloc(2400 /* SAS */ + 680 /* CAS */ + READ_SIZE * 4))) return -1; save_conference(p); /* Silence */ memset(p->cidspill, 0x7f, 2400 + 600 + READ_SIZE * 4); if (!p->callwaitrings && p->callwaitingcallerid) { ast_gen_cas(p->cidspill, 1, 2400 + 680, AST_LAW(p)); p->callwaitcas = 1; p->cidlen = 2400 + 680 + READ_SIZE * 4; } else { ast_gen_cas(p->cidspill, 1, 2400, AST_LAW(p)); p->callwaitcas = 0; p->cidlen = 2400 + READ_SIZE * 4; } p->cidpos = 0; send_callerid(p); return 0; } static int zt_call(struct ast_channel *ast, char *rdest, int timeout) { struct zt_pvt *p = ast->tech_pvt; int x, res, index,mysig; char *c, *n, *l; #ifdef HAVE_PRI char *s = NULL; #endif char dest[256]; /* must be same length as p->dialdest */ ast_mutex_lock(&p->lock); ast_copy_string(dest, rdest, sizeof(dest)); ast_copy_string(p->dialdest, rdest, sizeof(p->dialdest)); if ((ast->_state == AST_STATE_BUSY)) { p->subs[SUB_REAL].needbusy = 1; ast_mutex_unlock(&p->lock); return 0; } if ((ast->_state != AST_STATE_DOWN) && (ast->_state != AST_STATE_RESERVED)) { ast_log(LOG_WARNING, "zt_call called on %s, neither down nor reserved\n", ast->name); ast_mutex_unlock(&p->lock); return -1; } p->dialednone = 0; if ((p->radio || (p->oprmode < 0))) /* if a radio channel, up immediately */ { /* Special pseudo -- automatically up */ ast_setstate(ast, AST_STATE_UP); ast_mutex_unlock(&p->lock); return 0; } x = ZT_FLUSH_READ | ZT_FLUSH_WRITE; res = ioctl(p->subs[SUB_REAL].zfd, ZT_FLUSH, &x); if (res) ast_log(LOG_WARNING, "Unable to flush input on channel %d\n", p->channel); p->outgoing = 1; set_actual_gain(p->subs[SUB_REAL].zfd, 0, p->rxgain, p->txgain, p->law); mysig = p->sig; if (p->outsigmod > -1) mysig = p->outsigmod; switch (mysig) { case SIG_FXOLS: case SIG_FXOGS: case SIG_FXOKS: if (p->owner == ast) { /* Normal ring, on hook */ /* Don't send audio while on hook, until the call is answered */ p->dialing = 1; if (p->use_callerid) { /* Generate the Caller-ID spill if desired */ if (p->cidspill) { ast_log(LOG_WARNING, "cidspill already exists??\n"); free(p->cidspill); } p->callwaitcas = 0; if ((p->cidspill = ast_malloc(MAX_CALLERID_SIZE))) { p->cidlen = ast_callerid_generate(p->cidspill, ast->cid.cid_name, ast->cid.cid_num, AST_LAW(p)); p->cidpos = 0; send_callerid(p); } } /* Choose proper cadence */ if ((p->distinctivering > 0) && (p->distinctivering <= num_cadence)) { if (ioctl(p->subs[SUB_REAL].zfd, ZT_SETCADENCE, &cadences[p->distinctivering - 1])) ast_log(LOG_WARNING, "Unable to set distinctive ring cadence %d on '%s'\n", p->distinctivering, ast->name); p->cidrings = cidrings[p->distinctivering - 1]; } else { if (ioctl(p->subs[SUB_REAL].zfd, ZT_SETCADENCE, NULL)) ast_log(LOG_WARNING, "Unable to reset default ring on '%s'\n", ast->name); p->cidrings = p->sendcalleridafter; } /* nick@dccinc.com 4/3/03 mods to allow for deferred dialing */ c = strchr(dest, '/'); if (c) c++; if (c && (strlen(c) < p->stripmsd)) { ast_log(LOG_WARNING, "Number '%s' is shorter than stripmsd (%d)\n", c, p->stripmsd); c = NULL; } if (c) { p->dop.op = ZT_DIAL_OP_REPLACE; snprintf(p->dop.dialstr, sizeof(p->dop.dialstr), "Tw%s", c); ast_log(LOG_DEBUG, "FXO: setup deferred dialstring: %s\n", c); } else { p->dop.dialstr[0] = '\0'; } x = ZT_RING; if (ioctl(p->subs[SUB_REAL].zfd, ZT_HOOK, &x) && (errno != EINPROGRESS)) { ast_log(LOG_WARNING, "Unable to ring phone: %s\n", strerror(errno)); ast_mutex_unlock(&p->lock); return -1; } p->dialing = 1; } else { /* Call waiting call */ p->callwaitrings = 0; if (ast->cid.cid_num) ast_copy_string(p->callwait_num, ast->cid.cid_num, sizeof(p->callwait_num)); else p->callwait_num[0] = '\0'; if (ast->cid.cid_name) ast_copy_string(p->callwait_name, ast->cid.cid_name, sizeof(p->callwait_name)); else p->callwait_name[0] = '\0'; /* Call waiting tone instead */ if (zt_callwait(ast)) { ast_mutex_unlock(&p->lock); return -1; } /* Make ring-back */ if (tone_zone_play_tone(p->subs[SUB_CALLWAIT].zfd, ZT_TONE_RINGTONE)) ast_log(LOG_WARNING, "Unable to generate call-wait ring-back on channel %s\n", ast->name); } n = ast->cid.cid_name; l = ast->cid.cid_num; if (l) ast_copy_string(p->lastcid_num, l, sizeof(p->lastcid_num)); else p->lastcid_num[0] = '\0'; if (n) ast_copy_string(p->lastcid_name, n, sizeof(p->lastcid_name)); else p->lastcid_name[0] = '\0'; ast_setstate(ast, AST_STATE_RINGING); index = zt_get_index(ast, p, 0); if (index > -1) { p->subs[index].needringing = 1; } break; case SIG_FXSLS: case SIG_FXSGS: case SIG_FXSKS: case SIG_EMWINK: case SIG_EM: case SIG_EM_E1: case SIG_FEATD: case SIG_FEATDMF: case SIG_E911: case SIG_FGC_CAMA: case SIG_FGC_CAMAMF: case SIG_FEATB: case SIG_SFWINK: case SIG_SF: case SIG_SF_FEATD: case SIG_SF_FEATDMF: case SIG_FEATDMF_TA: case SIG_SF_FEATB: c = strchr(dest, '/'); if (c) c++; else c = ""; if (strlen(c) < p->stripmsd) { ast_log(LOG_WARNING, "Number '%s' is shorter than stripmsd (%d)\n", c, p->stripmsd); ast_mutex_unlock(&p->lock); return -1; } #ifdef HAVE_PRI /* Start the trunk, if not GR-303 */ if (!p->pri) { #endif x = ZT_START; res = ioctl(p->subs[SUB_REAL].zfd, ZT_HOOK, &x); if (res < 0) { if (errno != EINPROGRESS) { ast_log(LOG_WARNING, "Unable to start channel: %s\n", strerror(errno)); ast_mutex_unlock(&p->lock); return -1; } } #ifdef HAVE_PRI } #endif ast_log(LOG_DEBUG, "Dialing '%s'\n", c); p->dop.op = ZT_DIAL_OP_REPLACE; c += p->stripmsd; switch (mysig) { case SIG_FEATD: l = ast->cid.cid_num; if (l) snprintf(p->dop.dialstr, sizeof(p->dop.dialstr), "T*%s*%s*", l, c); else snprintf(p->dop.dialstr, sizeof(p->dop.dialstr), "T**%s*", c); break; case SIG_FEATDMF: l = ast->cid.cid_num; if (l) snprintf(p->dop.dialstr, sizeof(p->dop.dialstr), "M*00%s#*%s#", l, c); else snprintf(p->dop.dialstr, sizeof(p->dop.dialstr), "M*02#*%s#", c); break; case SIG_FEATDMF_TA: { const char *cic, *ozz; /* If you have to go through a Tandem Access point you need to use this */ ozz = pbx_builtin_getvar_helper(p->owner, "FEATDMF_OZZ"); if (!ozz) ozz = defaultozz; cic = pbx_builtin_getvar_helper(p->owner, "FEATDMF_CIC"); if (!cic) cic = defaultcic; if (!ozz || !cic) { ast_log(LOG_WARNING, "Unable to dial channel of type feature group D MF tandem access without CIC or OZZ set\n"); ast_mutex_unlock(&p->lock); return -1; } snprintf(p->dop.dialstr, sizeof(p->dop.dialstr), "M*%s%s#", ozz, cic); snprintf(p->finaldial, sizeof(p->finaldial), "M*%s#", c); p->whichwink = 0; } break; case SIG_E911: ast_copy_string(p->dop.dialstr, "M*911#", sizeof(p->dop.dialstr)); break; case SIG_FGC_CAMA: snprintf(p->dop.dialstr, sizeof(p->dop.dialstr), "P%s", c); break; case SIG_FGC_CAMAMF: case SIG_FEATB: snprintf(p->dop.dialstr, sizeof(p->dop.dialstr), "M*%s#", c); break; default: if (p->pulse) snprintf(p->dop.dialstr, sizeof(p->dop.dialstr), "P%sw", c); else snprintf(p->dop.dialstr, sizeof(p->dop.dialstr), "T%sw", c); break; } if (p->echotraining && (strlen(p->dop.dialstr) > 4)) { memset(p->echorest, 'w', sizeof(p->echorest) - 1); strcpy(p->echorest + (p->echotraining / 400) + 1, p->dop.dialstr + strlen(p->dop.dialstr) - 2); p->echorest[sizeof(p->echorest) - 1] = '\0'; p->echobreak = 1; p->dop.dialstr[strlen(p->dop.dialstr)-2] = '\0'; } else p->echobreak = 0; if (!res) { if (ioctl(p->subs[SUB_REAL].zfd, ZT_DIAL, &p->dop)) { x = ZT_ONHOOK; ioctl(p->subs[SUB_REAL].zfd, ZT_HOOK, &x); ast_log(LOG_WARNING, "Dialing failed on channel %d: %s\n", p->channel, strerror(errno)); ast_mutex_unlock(&p->lock); return -1; } } else ast_log(LOG_DEBUG, "Deferring dialing...\n"); p->dialing = 1; if (ast_strlen_zero(c)) p->dialednone = 1; ast_setstate(ast, AST_STATE_DIALING); break; case 0: /* Special pseudo -- automatically up*/ ast_setstate(ast, AST_STATE_UP); break; case SIG_PRI: /* We'll get it in a moment -- but use dialdest to store pre-setup_ack digits */ p->dialdest[0] = '\0'; break; default: ast_log(LOG_DEBUG, "not yet implemented\n"); ast_mutex_unlock(&p->lock); return -1; } #ifdef HAVE_PRI if (p->pri) { struct pri_sr *sr; #ifdef SUPPORT_USERUSER const char *useruser; #endif int pridialplan; int dp_strip; int prilocaldialplan; int ldp_strip; int exclusive; const char *rr_str; int redirect_reason; c = strchr(dest, '/'); if (c) c++; else c = dest; l = NULL; n = NULL; if (!p->hidecallerid) { l = ast->cid.cid_num; if (!p->hidecalleridname) { n = ast->cid.cid_name; } } if (strlen(c) < p->stripmsd) { ast_log(LOG_WARNING, "Number '%s' is shorter than stripmsd (%d)\n", c, p->stripmsd); ast_mutex_unlock(&p->lock); return -1; } if (mysig != SIG_FXSKS) { p->dop.op = ZT_DIAL_OP_REPLACE; s = strchr(c + p->stripmsd, 'w'); if (s) { if (strlen(s) > 1) snprintf(p->dop.dialstr, sizeof(p->dop.dialstr), "T%s", s); else p->dop.dialstr[0] = '\0'; *s = '\0'; } else { p->dop.dialstr[0] = '\0'; } } if (pri_grab(p, p->pri)) { ast_log(LOG_WARNING, "Failed to grab PRI!\n"); ast_mutex_unlock(&p->lock); return -1; } if (!(p->call = pri_new_call(p->pri->pri))) { ast_log(LOG_WARNING, "Unable to create call on channel %d\n", p->channel); pri_rel(p->pri); ast_mutex_unlock(&p->lock); return -1; } if (!(sr = pri_sr_new())) { ast_log(LOG_WARNING, "Failed to allocate setup request channel %d\n", p->channel); pri_rel(p->pri); ast_mutex_unlock(&p->lock); } if (p->bearer || (mysig == SIG_FXSKS)) { if (p->bearer) { ast_log(LOG_DEBUG, "Oooh, I have a bearer on %d (%d:%d)\n", PVT_TO_CHANNEL(p->bearer), p->bearer->logicalspan, p->bearer->channel); p->bearer->call = p->call; } else ast_log(LOG_DEBUG, "I'm being setup with no bearer right now...\n"); pri_set_crv(p->pri->pri, p->call, p->channel, 0); } p->digital = IS_DIGITAL(ast->transfercapability); /* Add support for exclusive override */ if (p->priexclusive) exclusive = 1; else { /* otherwise, traditional behavior */ if (p->pri->nodetype == PRI_NETWORK) exclusive = 0; else exclusive = 1; } pri_sr_set_channel(sr, p->bearer ? PVT_TO_CHANNEL(p->bearer) : PVT_TO_CHANNEL(p), exclusive, 1); pri_sr_set_bearer(sr, p->digital ? PRI_TRANS_CAP_DIGITAL : ast->transfercapability, (p->digital ? -1 : ((p->law == ZT_LAW_ALAW) ? PRI_LAYER_1_ALAW : PRI_LAYER_1_ULAW))); if (p->pri->facilityenable) pri_facility_enable(p->pri->pri); if (option_verbose > 2) ast_verbose(VERBOSE_PREFIX_3 "Requested transfer capability: 0x%.2x - %s\n", ast->transfercapability, ast_transfercapability2str(ast->transfercapability)); dp_strip = 0; pridialplan = p->pri->dialplan - 1; if (pridialplan == -2) { /* compute dynamically */ if (strncmp(c + p->stripmsd, p->pri->internationalprefix, strlen(p->pri->internationalprefix)) == 0) { dp_strip = strlen(p->pri->internationalprefix); pridialplan = PRI_INTERNATIONAL_ISDN; } else if (strncmp(c + p->stripmsd, p->pri->nationalprefix, strlen(p->pri->nationalprefix)) == 0) { dp_strip = strlen(p->pri->nationalprefix); pridialplan = PRI_NATIONAL_ISDN; } else { pridialplan = PRI_LOCAL_ISDN; } } pri_sr_set_called(sr, c + p->stripmsd + dp_strip, pridialplan, s ? 1 : 0); ldp_strip = 0; prilocaldialplan = p->pri->localdialplan - 1; if ((l != NULL) && (prilocaldialplan == -2)) { /* compute dynamically */ if (strncmp(l, p->pri->internationalprefix, strlen(p->pri->internationalprefix)) == 0) { ldp_strip = strlen(p->pri->internationalprefix); prilocaldialplan = PRI_INTERNATIONAL_ISDN; } else if (strncmp(l, p->pri->nationalprefix, strlen(p->pri->nationalprefix)) == 0) { ldp_strip = strlen(p->pri->nationalprefix); prilocaldialplan = PRI_NATIONAL_ISDN; } else { prilocaldialplan = PRI_LOCAL_ISDN; } } pri_sr_set_caller(sr, l ? (l + ldp_strip) : NULL, n, prilocaldialplan, p->use_callingpres ? ast->cid.cid_pres : (l ? PRES_ALLOWED_USER_NUMBER_PASSED_SCREEN : PRES_NUMBER_NOT_AVAILABLE)); if ((rr_str = pbx_builtin_getvar_helper(ast, "PRIREDIRECTREASON"))) { if (!strcasecmp(rr_str, "UNKNOWN")) redirect_reason = 0; else if (!strcasecmp(rr_str, "BUSY")) redirect_reason = 1; else if (!strcasecmp(rr_str, "NO_REPLY")) redirect_reason = 2; else if (!strcasecmp(rr_str, "UNCONDITIONAL")) redirect_reason = 15; else redirect_reason = PRI_REDIR_UNCONDITIONAL; } else redirect_reason = PRI_REDIR_UNCONDITIONAL; pri_sr_set_redirecting(sr, ast->cid.cid_rdnis, p->pri->localdialplan - 1, PRES_ALLOWED_USER_NUMBER_PASSED_SCREEN, redirect_reason); #ifdef SUPPORT_USERUSER /* User-user info */ useruser = pbx_builtin_getvar_helper(p->owner, "USERUSERINFO"); if (useruser) pri_sr_set_useruser(sr, useruser); #endif if (pri_setup(p->pri->pri, p->call, sr)) { ast_log(LOG_WARNING, "Unable to setup call to %s (using %s)\n", c + p->stripmsd + dp_strip, dialplan2str(p->pri->dialplan)); pri_rel(p->pri); ast_mutex_unlock(&p->lock); pri_sr_free(sr); return -1; } pri_sr_free(sr); ast_setstate(ast, AST_STATE_DIALING); pri_rel(p->pri); } #endif ast_mutex_unlock(&p->lock); return 0; } static void destroy_zt_pvt(struct zt_pvt **pvt) { struct zt_pvt *p = *pvt; /* Remove channel from the list */ if (p->prev) p->prev->next = p->next; if (p->next) p->next->prev = p->prev; if (p->use_smdi) ast_smdi_interface_unref(p->smdi_iface); ast_mutex_destroy(&p->lock); free(p); *pvt = NULL; } static int destroy_channel(struct zt_pvt *prev, struct zt_pvt *cur, int now) { int owned = 0; int i = 0; if (!now) { if (cur->owner) { owned = 1; } for (i = 0; i < 3; i++) { if (cur->subs[i].owner) { owned = 1; } } if (!owned) { if (prev) { prev->next = cur->next; if (prev->next) prev->next->prev = prev; else ifend = prev; } else { iflist = cur->next; if (iflist) iflist->prev = NULL; else ifend = NULL; } if (cur->subs[SUB_REAL].zfd > -1) { zt_close(cur->subs[SUB_REAL].zfd); } destroy_zt_pvt(&cur); } } else { if (prev) { prev->next = cur->next; if (prev->next) prev->next->prev = prev; else ifend = prev; } else { iflist = cur->next; if (iflist) iflist->prev = NULL; else ifend = NULL; } if (cur->subs[SUB_REAL].zfd > -1) { zt_close(cur->subs[SUB_REAL].zfd); } destroy_zt_pvt(&cur); } return 0; } #ifdef HAVE_PRI static char *zap_send_keypad_facility_app = "ZapSendKeypadFacility"; static char *zap_send_keypad_facility_synopsis = "Send digits out of band over a PRI"; static char *zap_send_keypad_facility_descrip = " ZapSendKeypadFacility(): This application will send the given string of digits in a Keypad Facility\n" " IE over the current channel.\n"; static int zap_send_keypad_facility_exec(struct ast_channel *chan, void *data) { /* Data will be our digit string */ struct zt_pvt *p; char *digits = (char *) data; if (ast_strlen_zero(digits)) { ast_log(LOG_DEBUG, "No digit string sent to application!\n"); return -1; } p = (struct zt_pvt *)chan->tech_pvt; if (!p) { ast_log(LOG_DEBUG, "Unable to find technology private\n"); return -1; } ast_mutex_lock(&p->lock); if (!p->pri || !p->call) { ast_log(LOG_DEBUG, "Unable to find pri or call on channel!\n"); ast_mutex_unlock(&p->lock); return -1; } if (!pri_grab(p, p->pri)) { pri_keypad_facility(p->pri->pri, p->call, digits); pri_rel(p->pri); } else { ast_log(LOG_DEBUG, "Unable to grab pri to send keypad facility!\n"); ast_mutex_unlock(&p->lock); return -1; } ast_mutex_unlock(&p->lock); return 0; } static int pri_is_up(struct zt_pri *pri) { int x; for (x = 0; x < NUM_DCHANS; x++) { if (pri->dchanavail[x] == DCHAN_AVAILABLE) return 1; } return 0; } static int pri_assign_bearer(struct zt_pvt *crv, struct zt_pri *pri, struct zt_pvt *bearer) { bearer->owner = &inuse; bearer->realcall = crv; crv->subs[SUB_REAL].zfd = bearer->subs[SUB_REAL].zfd; if (crv->subs[SUB_REAL].owner) crv->subs[SUB_REAL].owner->fds[0] = crv->subs[SUB_REAL].zfd; crv->bearer = bearer; crv->call = bearer->call; crv->pri = pri; return 0; } static char *pri_order(int level) { switch (level) { case 0: return "Primary"; case 1: return "Secondary"; case 2: return "Tertiary"; case 3: return "Quaternary"; default: return ""; } } /* Returns fd of the active dchan */ static int pri_active_dchan_fd(struct zt_pri *pri) { int x = -1; for (x = 0; x < NUM_DCHANS; x++) { if ((pri->dchans[x] == pri->pri)) break; } return pri->fds[x]; } static int pri_find_dchan(struct zt_pri *pri) { int oldslot = -1; struct pri *old; int newslot = -1; int x; old = pri->pri; for (x = 0; x < NUM_DCHANS; x++) { if ((pri->dchanavail[x] == DCHAN_AVAILABLE) && (newslot < 0)) newslot = x; if (pri->dchans[x] == old) { oldslot = x; } } if (newslot < 0) { newslot = 0; ast_log(LOG_WARNING, "No D-channels available! Using Primary channel %d as D-channel anyway!\n", pri->dchannels[newslot]); } if (old && (oldslot != newslot)) ast_log(LOG_NOTICE, "Switching from from d-channel %d to channel %d!\n", pri->dchannels[oldslot], pri->dchannels[newslot]); pri->pri = pri->dchans[newslot]; return 0; } #endif static int zt_hangup(struct ast_channel *ast) { int res; int index,x, law; /*static int restore_gains(struct zt_pvt *p);*/ struct zt_pvt *p = ast->tech_pvt; struct zt_pvt *tmp = NULL; struct zt_pvt *prev = NULL; ZT_PARAMS par; if (option_debug) ast_log(LOG_DEBUG, "zt_hangup(%s)\n", ast->name); if (!ast->tech_pvt) { ast_log(LOG_WARNING, "Asked to hangup channel not connected\n"); return 0; } ast_mutex_lock(&p->lock); index = zt_get_index(ast, p, 1); if (p->sig == SIG_PRI) { x = 1; ast_channel_setoption(ast,AST_OPTION_AUDIO_MODE,&x,sizeof(char),0); } x = 0; zt_confmute(p, 0); restore_gains(p); if (p->origcid_num) { ast_copy_string(p->cid_num, p->origcid_num, sizeof(p->cid_num)); free(p->origcid_num); p->origcid_num = NULL; } if (p->origcid_name) { ast_copy_string(p->cid_name, p->origcid_name, sizeof(p->cid_name)); free(p->origcid_name); p->origcid_name = NULL; } if (p->dsp) ast_dsp_digitmode(p->dsp,DSP_DIGITMODE_DTMF | p->dtmfrelax); if (p->exten) p->exten[0] = '\0'; if (option_debug) ast_log(LOG_DEBUG, "Hangup: channel: %d index = %d, normal = %d, callwait = %d, thirdcall = %d\n", p->channel, index, p->subs[SUB_REAL].zfd, p->subs[SUB_CALLWAIT].zfd, p->subs[SUB_THREEWAY].zfd); p->ignoredtmf = 0; if (index > -1) { /* Real channel, do some fixup */ p->subs[index].owner = NULL; p->subs[index].needanswer = 0; p->subs[index].needflash = 0; p->subs[index].needringing = 0; p->subs[index].needbusy = 0; p->subs[index].needcongestion = 0; p->subs[index].linear = 0; p->subs[index].needcallerid = 0; p->polarity = POLARITY_IDLE; zt_setlinear(p->subs[index].zfd, 0); if (index == SUB_REAL) { if ((p->subs[SUB_CALLWAIT].zfd > -1) && (p->subs[SUB_THREEWAY].zfd > -1)) { ast_log(LOG_DEBUG, "Normal call hung up with both three way call and a call waiting call in place?\n"); if (p->subs[SUB_CALLWAIT].inthreeway) { /* We had flipped over to answer a callwait and now it's gone */ ast_log(LOG_DEBUG, "We were flipped over to the callwait, moving back and unowning.\n"); /* Move to the call-wait, but un-own us until they flip back. */ swap_subs(p, SUB_CALLWAIT, SUB_REAL); unalloc_sub(p, SUB_CALLWAIT); p->owner = NULL; } else { /* The three way hung up, but we still have a call wait */ ast_log(LOG_DEBUG, "We were in the threeway and have a callwait still. Ditching the threeway.\n"); swap_subs(p, SUB_THREEWAY, SUB_REAL); unalloc_sub(p, SUB_THREEWAY); if (p->subs[SUB_REAL].inthreeway) { /* This was part of a three way call. Immediately make way for another call */ ast_log(LOG_DEBUG, "Call was complete, setting owner to former third call\n"); p->owner = p->subs[SUB_REAL].owner; } else { /* This call hasn't been completed yet... Set owner to NULL */ ast_log(LOG_DEBUG, "Call was incomplete, setting owner to NULL\n"); p->owner = NULL; } p->subs[SUB_REAL].inthreeway = 0; } } else if (p->subs[SUB_CALLWAIT].zfd > -1) { /* Move to the call-wait and switch back to them. */ swap_subs(p, SUB_CALLWAIT, SUB_REAL); unalloc_sub(p, SUB_CALLWAIT); p->owner = p->subs[SUB_REAL].owner; if (p->owner->_state != AST_STATE_UP) p->subs[SUB_REAL].needanswer = 1; if (ast_bridged_channel(p->subs[SUB_REAL].owner)) ast_queue_control(p->subs[SUB_REAL].owner, AST_CONTROL_UNHOLD); } else if (p->subs[SUB_THREEWAY].zfd > -1) { swap_subs(p, SUB_THREEWAY, SUB_REAL); unalloc_sub(p, SUB_THREEWAY); if (p->subs[SUB_REAL].inthreeway) { /* This was part of a three way call. Immediately make way for another call */ ast_log(LOG_DEBUG, "Call was complete, setting owner to former third call\n"); p->owner = p->subs[SUB_REAL].owner; } else { /* This call hasn't been completed yet... Set owner to NULL */ ast_log(LOG_DEBUG, "Call was incomplete, setting owner to NULL\n"); p->owner = NULL; } p->subs[SUB_REAL].inthreeway = 0; } } else if (index == SUB_CALLWAIT) { /* Ditch the holding callwait call, and immediately make it availabe */ if (p->subs[SUB_CALLWAIT].inthreeway) { /* This is actually part of a three way, placed on hold. Place the third part on music on hold now */ if (p->subs[SUB_THREEWAY].owner && ast_bridged_channel(p->subs[SUB_THREEWAY].owner)) { ast_queue_control_data(p->subs[SUB_THREEWAY].owner, AST_CONTROL_HOLD, S_OR(p->mohsuggest, NULL), !ast_strlen_zero(p->mohsuggest) ? strlen(p->mohsuggest) + 1 : 0); } p->subs[SUB_THREEWAY].inthreeway = 0; /* Make it the call wait now */ swap_subs(p, SUB_CALLWAIT, SUB_THREEWAY); unalloc_sub(p, SUB_THREEWAY); } else unalloc_sub(p, SUB_CALLWAIT); } else if (index == SUB_THREEWAY) { if (p->subs[SUB_CALLWAIT].inthreeway) { /* The other party of the three way call is currently in a call-wait state. Start music on hold for them, and take the main guy out of the third call */ if (p->subs[SUB_CALLWAIT].owner && ast_bridged_channel(p->subs[SUB_CALLWAIT].owner)) { ast_queue_control_data(p->subs[SUB_CALLWAIT].owner, AST_CONTROL_HOLD, S_OR(p->mohsuggest, NULL), !ast_strlen_zero(p->mohsuggest) ? strlen(p->mohsuggest) + 1 : 0); } p->subs[SUB_CALLWAIT].inthreeway = 0; } p->subs[SUB_REAL].inthreeway = 0; /* If this was part of a three way call index, let us make another three way call */ unalloc_sub(p, SUB_THREEWAY); } else { /* This wasn't any sort of call, but how are we an index? */ ast_log(LOG_WARNING, "Index found but not any type of call?\n"); } } if (!p->subs[SUB_REAL].owner && !p->subs[SUB_CALLWAIT].owner && !p->subs[SUB_THREEWAY].owner) { p->owner = NULL; p->ringt = 0; p->distinctivering = 0; p->confirmanswer = 0; p->cidrings = 1; p->outgoing = 0; p->digital = 0; p->faxhandled = 0; p->pulsedial = 0; p->onhooktime = time(NULL); #ifdef HAVE_PRI p->proceeding = 0; p->progress = 0; p->alerting = 0; p->setup_ack = 0; #endif if (p->dsp) { ast_dsp_free(p->dsp); p->dsp = NULL; } law = ZT_LAW_DEFAULT; res = ioctl(p->subs[SUB_REAL].zfd, ZT_SETLAW, &law); if (res < 0) ast_log(LOG_WARNING, "Unable to set law on channel %d to default\n", p->channel); /* Perform low level hangup if no owner left */ #ifdef HAVE_PRI if (p->pri) { #ifdef SUPPORT_USERUSER const char *useruser = pbx_builtin_getvar_helper(ast,"USERUSERINFO"); #endif /* Make sure we have a call (or REALLY have a call in the case of a PRI) */ if (p->call && (!p->bearer || (p->bearer->call == p->call))) { if (!pri_grab(p, p->pri)) { if (p->alreadyhungup) { ast_log(LOG_DEBUG, "Already hungup... Calling hangup once, and clearing call\n"); #ifdef SUPPORT_USERUSER pri_call_set_useruser(p->call, useruser); #endif pri_hangup(p->pri->pri, p->call, -1); p->call = NULL; if (p->bearer) p->bearer->call = NULL; } else { const char *cause = pbx_builtin_getvar_helper(ast,"PRI_CAUSE"); int icause = ast->hangupcause ? ast->hangupcause : -1; ast_log(LOG_DEBUG, "Not yet hungup... Calling hangup once with icause, and clearing call\n"); #ifdef SUPPORT_USERUSER pri_call_set_useruser(p->call, useruser); #endif p->alreadyhungup = 1; if (p->bearer) p->bearer->alreadyhungup = 1; if (cause) { if (atoi(cause)) icause = atoi(cause); } pri_hangup(p->pri->pri, p->call, icause); } if (res < 0) ast_log(LOG_WARNING, "pri_disconnect failed\n"); pri_rel(p->pri); } else { ast_log(LOG_WARNING, "Unable to grab PRI on span %d\n", p->span); res = -1; } } else { if (p->bearer) ast_log(LOG_DEBUG, "Bearer call is %p, while ours is still %p\n", p->bearer->call, p->call); p->call = NULL; res = 0; } } #endif if (p->sig && (p->sig != SIG_PRI)) res = zt_set_hook(p->subs[SUB_REAL].zfd, ZT_ONHOOK); if (res < 0) { ast_log(LOG_WARNING, "Unable to hangup line %s\n", ast->name); } switch (p->sig) { case SIG_FXOGS: case SIG_FXOLS: case SIG_FXOKS: res = ioctl(p->subs[SUB_REAL].zfd, ZT_GET_PARAMS, &par); if (!res) { #if 0 ast_log(LOG_DEBUG, "Hanging up channel %d, offhook = %d\n", p->channel, par.rxisoffhook); #endif /* If they're off hook, try playing congestion */ if ((par.rxisoffhook) && (!(p->radio || (p->oprmode < 0)))) tone_zone_play_tone(p->subs[SUB_REAL].zfd, ZT_TONE_CONGESTION); else tone_zone_play_tone(p->subs[SUB_REAL].zfd, -1); } break; case SIG_FXSGS: case SIG_FXSLS: case SIG_FXSKS: /* Make sure we're not made available for at least two seconds assuming we were actually used for an inbound or outbound call. */ if (ast->_state != AST_STATE_RESERVED) { time(&p->guardtime); p->guardtime += 2; } break; default: tone_zone_play_tone(p->subs[SUB_REAL].zfd, -1); } if (p->cidspill) free(p->cidspill); if (p->sig) zt_disable_ec(p); x = 0; ast_channel_setoption(ast,AST_OPTION_TONE_VERIFY,&x,sizeof(char),0); ast_channel_setoption(ast,AST_OPTION_TDD,&x,sizeof(char),0); p->didtdd = 0; p->cidspill = NULL; p->callwaitcas = 0; p->callwaiting = p->permcallwaiting; p->hidecallerid = p->permhidecallerid; p->dialing = 0; p->rdnis[0] = '\0'; update_conf(p); reset_conf(p); /* Restore data mode */ if (p->sig == SIG_PRI) { x = 0; ast_channel_setoption(ast,AST_OPTION_AUDIO_MODE,&x,sizeof(char),0); } #ifdef HAVE_PRI if (p->bearer) { ast_log(LOG_DEBUG, "Freeing up bearer channel %d\n", p->bearer->channel); /* Free up the bearer channel as well, and don't use its file descriptor anymore */ update_conf(p->bearer); reset_conf(p->bearer); p->bearer->owner = NULL; p->bearer->realcall = NULL; p->bearer = NULL; p->subs[SUB_REAL].zfd = -1; p->pri = NULL; } #endif restart_monitor(); } p->callwaitingrepeat = 0; p->cidcwexpire = 0; p->oprmode = 0; ast->tech_pvt = NULL; ast_mutex_unlock(&p->lock); ast_module_unref(ast_module_info->self); if (option_verbose > 2) ast_verbose( VERBOSE_PREFIX_3 "Hungup '%s'\n", ast->name); ast_mutex_lock(&iflock); tmp = iflist; prev = NULL; if (p->destroy) { while (tmp) { if (tmp == p) { destroy_channel(prev, tmp, 0); break; } else { prev = tmp; tmp = tmp->next; } } } ast_mutex_unlock(&iflock); return 0; } static int zt_answer(struct ast_channel *ast) { struct zt_pvt *p = ast->tech_pvt; int res = 0; int index; int oldstate = ast->_state; ast_setstate(ast, AST_STATE_UP); ast_mutex_lock(&p->lock); index = zt_get_index(ast, p, 0); if (index < 0) index = SUB_REAL; /* nothing to do if a radio channel */ if ((p->radio || (p->oprmode < 0))) { ast_mutex_unlock(&p->lock); return 0; } switch (p->sig) { case SIG_FXSLS: case SIG_FXSGS: case SIG_FXSKS: p->ringt = 0; /* Fall through */ case SIG_EM: case SIG_EM_E1: case SIG_EMWINK: case SIG_FEATD: case SIG_FEATDMF: case SIG_FEATDMF_TA: case SIG_E911: case SIG_FGC_CAMA: case SIG_FGC_CAMAMF: case SIG_FEATB: case SIG_SF: case SIG_SFWINK: case SIG_SF_FEATD: case SIG_SF_FEATDMF: case SIG_SF_FEATB: case SIG_FXOLS: case SIG_FXOGS: case SIG_FXOKS: /* Pick up the line */ ast_log(LOG_DEBUG, "Took %s off hook\n", ast->name); if (p->hanguponpolarityswitch) { gettimeofday(&p->polaritydelaytv, NULL); } res = zt_set_hook(p->subs[SUB_REAL].zfd, ZT_OFFHOOK); tone_zone_play_tone(p->subs[index].zfd, -1); p->dialing = 0; if ((index == SUB_REAL) && p->subs[SUB_THREEWAY].inthreeway) { if (oldstate == AST_STATE_RINGING) { ast_log(LOG_DEBUG, "Finally swapping real and threeway\n"); tone_zone_play_tone(p->subs[SUB_THREEWAY].zfd, -1); swap_subs(p, SUB_THREEWAY, SUB_REAL); p->owner = p->subs[SUB_REAL].owner; } } if (p->sig & __ZT_SIG_FXS) { zt_enable_ec(p); zt_train_ec(p); } break; #ifdef HAVE_PRI case SIG_PRI: /* Send a pri acknowledge */ if (!pri_grab(p, p->pri)) { p->proceeding = 1; res = pri_answer(p->pri->pri, p->call, 0, !p->digital); pri_rel(p->pri); } else { ast_log(LOG_WARNING, "Unable to grab PRI on span %d\n", p->span); res = -1; } break; #endif case 0: ast_mutex_unlock(&p->lock); return 0; default: ast_log(LOG_WARNING, "Don't know how to answer signalling %d (channel %d)\n", p->sig, p->channel); res = -1; } ast_mutex_unlock(&p->lock); return res; } static int zt_setoption(struct ast_channel *chan, int option, void *data, int datalen) { char *cp; signed char *scp; int x; int index; struct zt_pvt *p = chan->tech_pvt, *pp; struct oprmode *oprmode; /* all supported options require data */ if (!data || (datalen < 1)) { errno = EINVAL; return -1; } switch (option) { case AST_OPTION_TXGAIN: scp = (signed char *) data; index = zt_get_index(chan, p, 0); if (index < 0) { ast_log(LOG_WARNING, "No index in TXGAIN?\n"); return -1; } if (option_debug) ast_log(LOG_DEBUG, "Setting actual tx gain on %s to %f\n", chan->name, p->txgain + (float) *scp); return set_actual_txgain(p->subs[index].zfd, 0, p->txgain + (float) *scp, p->law); case AST_OPTION_RXGAIN: scp = (signed char *) data; index = zt_get_index(chan, p, 0); if (index < 0) { ast_log(LOG_WARNING, "No index in RXGAIN?\n"); return -1; } if (option_debug) ast_log(LOG_DEBUG, "Setting actual rx gain on %s to %f\n", chan->name, p->rxgain + (float) *scp); return set_actual_rxgain(p->subs[index].zfd, 0, p->rxgain + (float) *scp, p->law); case AST_OPTION_TONE_VERIFY: if (!p->dsp) break; cp = (char *) data; switch (*cp) { case 1: ast_log(LOG_DEBUG, "Set option TONE VERIFY, mode: MUTECONF(1) on %s\n",chan->name); ast_dsp_digitmode(p->dsp,DSP_DIGITMODE_MUTECONF | p->dtmfrelax); /* set mute mode if desired */ break; case 2: ast_log(LOG_DEBUG, "Set option TONE VERIFY, mode: MUTECONF/MAX(2) on %s\n",chan->name); ast_dsp_digitmode(p->dsp,DSP_DIGITMODE_MUTECONF | DSP_DIGITMODE_MUTEMAX | p->dtmfrelax); /* set mute mode if desired */ break; default: ast_log(LOG_DEBUG, "Set option TONE VERIFY, mode: OFF(0) on %s\n",chan->name); ast_dsp_digitmode(p->dsp,DSP_DIGITMODE_DTMF | p->dtmfrelax); /* set mute mode if desired */ break; } break; case AST_OPTION_TDD: /* turn on or off TDD */ cp = (char *) data; p->mate = 0; if (!*cp) { /* turn it off */ if (option_debug) ast_log(LOG_DEBUG, "Set option TDD MODE, value: OFF(0) on %s\n",chan->name); if (p->tdd) tdd_free(p->tdd); p->tdd = 0; break; } ast_log(LOG_DEBUG, "Set option TDD MODE, value: %s(%d) on %s\n", (*cp == 2) ? "MATE" : "ON", (int) *cp, chan->name); zt_disable_ec(p); /* otherwise, turn it on */ if (!p->didtdd) { /* if havent done it yet */ unsigned char mybuf[41000], *buf; int size, res, fd, len; struct pollfd fds[1]; buf = mybuf; memset(buf, 0x7f, sizeof(mybuf)); /* set to silence */ ast_tdd_gen_ecdisa(buf + 16000, 16000); /* put in tone */ len = 40000; index = zt_get_index(chan, p, 0); if (index < 0) { ast_log(LOG_WARNING, "No index in TDD?\n"); return -1; } fd = p->subs[index].zfd; while (len) { if (ast_check_hangup(chan)) return -1; size = len; if (size > READ_SIZE) size = READ_SIZE; fds[0].fd = fd; fds[0].events = POLLPRI | POLLOUT; fds[0].revents = 0; res = poll(fds, 1, -1); if (!res) { ast_log(LOG_DEBUG, "poll (for write) ret. 0 on channel %d\n", p->channel); continue; } /* if got exception */ if (fds[0].revents & POLLPRI) return -1; if (!(fds[0].revents & POLLOUT)) { ast_log(LOG_DEBUG, "write fd not ready on channel %d\n", p->channel); continue; } res = write(fd, buf, size); if (res != size) { if (res == -1) return -1; ast_log(LOG_DEBUG, "Write returned %d (%s) on channel %d\n", res, strerror(errno), p->channel); break; } len -= size; buf += size; } p->didtdd = 1; /* set to have done it now */ } if (*cp == 2) { /* Mate mode */ if (p->tdd) tdd_free(p->tdd); p->tdd = 0; p->mate = 1; break; } if (!p->tdd) { /* if we dont have one yet */ p->tdd = tdd_new(); /* allocate one */ } break; case AST_OPTION_RELAXDTMF: /* Relax DTMF decoding (or not) */ if (!p->dsp) break; cp = (char *) data; ast_log(LOG_DEBUG, "Set option RELAX DTMF, value: %s(%d) on %s\n", *cp ? "ON" : "OFF", (int) *cp, chan->name); p->dtmfrelax = 0; if (*cp) p->dtmfrelax = DSP_DIGITMODE_RELAXDTMF; ast_dsp_digitmode(p->dsp, DSP_DIGITMODE_DTMF | p->dtmfrelax); break; case AST_OPTION_AUDIO_MODE: /* Set AUDIO mode (or not) */ cp = (char *) data; if (!*cp) { ast_log(LOG_DEBUG, "Set option AUDIO MODE, value: OFF(0) on %s\n", chan->name); x = 0; zt_disable_ec(p); } else { ast_log(LOG_DEBUG, "Set option AUDIO MODE, value: ON(1) on %s\n", chan->name); x = 1; } if (ioctl(p->subs[SUB_REAL].zfd, ZT_AUDIOMODE, &x) == -1) ast_log(LOG_WARNING, "Unable to set audio mode on channel %d to %d\n", p->channel, x); break; case AST_OPTION_OPRMODE: /* Operator services mode */ oprmode = (struct oprmode *) data; pp = oprmode->peer->tech_pvt; p->oprmode = pp->oprmode = 0; /* setup peers */ p->oprpeer = pp; pp->oprpeer = p; /* setup modes, if any */ if (oprmode->mode) { pp->oprmode = oprmode->mode; p->oprmode = -oprmode->mode; } ast_log(LOG_DEBUG, "Set Operator Services mode, value: %d on %s/%s\n", oprmode->mode, chan->name,oprmode->peer->name);; break; case AST_OPTION_ECHOCAN: cp = (char *) data; if (*cp) { ast_log(LOG_DEBUG, "Enabling echo cancelation on %s\n", chan->name); zt_enable_ec(p); } else { ast_log(LOG_DEBUG, "Disabling echo cancelation on %s\n", chan->name); zt_disable_ec(p); } break; } errno = 0; return 0; } static int zt_func_read(struct ast_channel *chan, char *function, char *data, char *buf, size_t len) { struct zt_pvt *p = chan->tech_pvt; if (!strcasecmp(data, "rxgain")) { ast_mutex_lock(&p->lock); snprintf(buf, len, "%f", p->rxgain); ast_mutex_unlock(&p->lock); } else if (!strcasecmp(data, "txgain")) { ast_mutex_lock(&p->lock); snprintf(buf, len, "%f", p->txgain); ast_mutex_unlock(&p->lock); } else { ast_copy_string(buf, "", len); } return 0; } static void zt_unlink(struct zt_pvt *slave, struct zt_pvt *master, int needlock) { /* Unlink a specific slave or all slaves/masters from a given master */ int x; int hasslaves; if (!master) return; if (needlock) { ast_mutex_lock(&master->lock); if (slave) { while (ast_mutex_trylock(&slave->lock)) { ast_mutex_unlock(&master->lock); usleep(1); ast_mutex_lock(&master->lock); } } } hasslaves = 0; for (x = 0; x < MAX_SLAVES; x++) { if (master->slaves[x]) { if (!slave || (master->slaves[x] == slave)) { /* Take slave out of the conference */ ast_log(LOG_DEBUG, "Unlinking slave %d from %d\n", master->slaves[x]->channel, master->channel); conf_del(master, &master->slaves[x]->subs[SUB_REAL], SUB_REAL); conf_del(master->slaves[x], &master->subs[SUB_REAL], SUB_REAL); master->slaves[x]->master = NULL; master->slaves[x] = NULL; } else hasslaves = 1; } if (!hasslaves) master->inconference = 0; } if (!slave) { if (master->master) { /* Take master out of the conference */ conf_del(master->master, &master->subs[SUB_REAL], SUB_REAL); conf_del(master, &master->master->subs[SUB_REAL], SUB_REAL); hasslaves = 0; for (x = 0; x < MAX_SLAVES; x++) { if (master->master->slaves[x] == master) master->master->slaves[x] = NULL; else if (master->master->slaves[x]) hasslaves = 1; } if (!hasslaves) master->master->inconference = 0; } master->master = NULL; } update_conf(master); if (needlock) { if (slave) ast_mutex_unlock(&slave->lock); ast_mutex_unlock(&master->lock); } } static void zt_link(struct zt_pvt *slave, struct zt_pvt *master) { int x; if (!slave || !master) { ast_log(LOG_WARNING, "Tried to link to/from NULL??\n"); return; } for (x = 0; x < MAX_SLAVES; x++) { if (!master->slaves[x]) { master->slaves[x] = slave; break; } } if (x >= MAX_SLAVES) { ast_log(LOG_WARNING, "Replacing slave %d with new slave, %d\n", master->slaves[MAX_SLAVES - 1]->channel, slave->channel); master->slaves[MAX_SLAVES - 1] = slave; } if (slave->master) ast_log(LOG_WARNING, "Replacing master %d with new master, %d\n", slave->master->channel, master->channel); slave->master = master; ast_log(LOG_DEBUG, "Making %d slave to master %d at %d\n", slave->channel, master->channel, x); } static void disable_dtmf_detect(struct zt_pvt *p) { #ifdef ZT_TONEDETECT int val; #endif p->ignoredtmf = 1; #ifdef ZT_TONEDETECT val = 0; ioctl(p->subs[SUB_REAL].zfd, ZT_TONEDETECT, &val); #endif if (!p->hardwaredtmf && p->dsp) { p->dsp_features &= ~DSP_FEATURE_DTMF_DETECT; ast_dsp_set_features(p->dsp, p->dsp_features); } } static void enable_dtmf_detect(struct zt_pvt *p) { #ifdef ZT_TONEDETECT int val; #endif if (p->channel == CHAN_PSEUDO) return; p->ignoredtmf = 0; #ifdef ZT_TONEDETECT val = ZT_TONEDETECT_ON | ZT_TONEDETECT_MUTE; ioctl(p->subs[SUB_REAL].zfd, ZT_TONEDETECT, &val); #endif if (!p->hardwaredtmf && p->dsp) { p->dsp_features |= DSP_FEATURE_DTMF_DETECT; ast_dsp_set_features(p->dsp, p->dsp_features); } } static enum ast_bridge_result zt_bridge(struct ast_channel *c0, struct ast_channel *c1, int flags, struct ast_frame **fo, struct ast_channel **rc, int timeoutms) { struct ast_channel *who; struct zt_pvt *p0, *p1, *op0, *op1; struct zt_pvt *master = NULL, *slave = NULL; struct ast_frame *f; int inconf = 0; int nothingok = 1; int ofd0, ofd1; int oi0, oi1, i0 = -1, i1 = -1, t0, t1; int os0 = -1, os1 = -1; int priority = 0; struct ast_channel *oc0, *oc1; enum ast_bridge_result res; #ifdef PRI_2BCT int triedtopribridge = 0; q931_call *q931c0 = NULL, *q931c1 = NULL; #endif /* For now, don't attempt to native bridge if either channel needs DTMF detection. There is code below to handle it properly until DTMF is actually seen, but due to currently unresolved issues it's ignored... */ if (flags & (AST_BRIDGE_DTMF_CHANNEL_0 | AST_BRIDGE_DTMF_CHANNEL_1)) return AST_BRIDGE_FAILED_NOWARN; ast_mutex_lock(&c0->lock); while (ast_mutex_trylock(&c1->lock)) { ast_mutex_unlock(&c0->lock); usleep(1); ast_mutex_lock(&c0->lock); } p0 = c0->tech_pvt; p1 = c1->tech_pvt; /* cant do pseudo-channels here */ if (!p0 || (!p0->sig) || !p1 || (!p1->sig)) { ast_mutex_unlock(&c0->lock); ast_mutex_unlock(&c1->lock); return AST_BRIDGE_FAILED_NOWARN; } oi0 = zt_get_index(c0, p0, 0); oi1 = zt_get_index(c1, p1, 0); if ((oi0 < 0) || (oi1 < 0)) { ast_mutex_unlock(&c0->lock); ast_mutex_unlock(&c1->lock); return AST_BRIDGE_FAILED; } op0 = p0 = c0->tech_pvt; op1 = p1 = c1->tech_pvt; ofd0 = c0->fds[0]; ofd1 = c1->fds[0]; oc0 = p0->owner; oc1 = p1->owner; if (ast_mutex_trylock(&p0->lock)) { /* Don't block, due to potential for deadlock */ ast_mutex_unlock(&c0->lock); ast_mutex_unlock(&c1->lock); ast_log(LOG_NOTICE, "Avoiding deadlock...\n"); return AST_BRIDGE_RETRY; } if (ast_mutex_trylock(&p1->lock)) { /* Don't block, due to potential for deadlock */ ast_mutex_unlock(&p0->lock); ast_mutex_unlock(&c0->lock); ast_mutex_unlock(&c1->lock); ast_log(LOG_NOTICE, "Avoiding deadlock...\n"); return AST_BRIDGE_RETRY; } if ((oi0 == SUB_REAL) && (oi1 == SUB_REAL)) { if (p0->owner && p1->owner) { /* If we don't have a call-wait in a 3-way, and we aren't in a 3-way, we can be master */ if (!p0->subs[SUB_CALLWAIT].inthreeway && !p1->subs[SUB_REAL].inthreeway) { master = p0; slave = p1; inconf = 1; } else if (!p1->subs[SUB_CALLWAIT].inthreeway && !p0->subs[SUB_REAL].inthreeway) { master = p1; slave = p0; inconf = 1; } else { ast_log(LOG_WARNING, "Huh? Both calls are callwaits or 3-ways? That's clever...?\n"); ast_log(LOG_WARNING, "p0: chan %d/%d/CW%d/3W%d, p1: chan %d/%d/CW%d/3W%d\n", p0->channel, oi0, (p0->subs[SUB_CALLWAIT].zfd > -1) ? 1 : 0, p0->subs[SUB_REAL].inthreeway, p0->channel, oi0, (p1->subs[SUB_CALLWAIT].zfd > -1) ? 1 : 0, p1->subs[SUB_REAL].inthreeway); } nothingok = 0; } } else if ((oi0 == SUB_REAL) && (oi1 == SUB_THREEWAY)) { if (p1->subs[SUB_THREEWAY].inthreeway) { master = p1; slave = p0; nothingok = 0; } } else if ((oi0 == SUB_THREEWAY) && (oi1 == SUB_REAL)) { if (p0->subs[SUB_THREEWAY].inthreeway) { master = p0; slave = p1; nothingok = 0; } } else if ((oi0 == SUB_REAL) && (oi1 == SUB_CALLWAIT)) { /* We have a real and a call wait. If we're in a three way call, put us in it, otherwise, don't put us in anything */ if (p1->subs[SUB_CALLWAIT].inthreeway) { master = p1; slave = p0; nothingok = 0; } } else if ((oi0 == SUB_CALLWAIT) && (oi1 == SUB_REAL)) { /* Same as previous */ if (p0->subs[SUB_CALLWAIT].inthreeway) { master = p0; slave = p1; nothingok = 0; } } ast_log(LOG_DEBUG, "master: %d, slave: %d, nothingok: %d\n", master ? master->channel : 0, slave ? slave->channel : 0, nothingok); if (master && slave) { /* Stop any tones, or play ringtone as appropriate. If they're bridged in an active threeway call with a channel that is ringing, we should indicate ringing. */ if ((oi1 == SUB_THREEWAY) && p1->subs[SUB_THREEWAY].inthreeway && p1->subs[SUB_REAL].owner && p1->subs[SUB_REAL].inthreeway && (p1->subs[SUB_REAL].owner->_state == AST_STATE_RINGING)) { ast_log(LOG_DEBUG, "Playing ringback on %s since %s is in a ringing three-way\n", c0->name, c1->name); tone_zone_play_tone(p0->subs[oi0].zfd, ZT_TONE_RINGTONE); os1 = p1->subs[SUB_REAL].owner->_state; } else { ast_log(LOG_DEBUG, "Stopping tones on %d/%d talking to %d/%d\n", p0->channel, oi0, p1->channel, oi1); tone_zone_play_tone(p0->subs[oi0].zfd, -1); } if ((oi0 == SUB_THREEWAY) && p0->subs[SUB_THREEWAY].inthreeway && p0->subs[SUB_REAL].owner && p0->subs[SUB_REAL].inthreeway && (p0->subs[SUB_REAL].owner->_state == AST_STATE_RINGING)) { ast_log(LOG_DEBUG, "Playing ringback on %s since %s is in a ringing three-way\n", c1->name, c0->name); tone_zone_play_tone(p1->subs[oi1].zfd, ZT_TONE_RINGTONE); os0 = p0->subs[SUB_REAL].owner->_state; } else { ast_log(LOG_DEBUG, "Stopping tones on %d/%d talking to %d/%d\n", p1->channel, oi1, p0->channel, oi0); tone_zone_play_tone(p1->subs[oi0].zfd, -1); } if ((oi0 == SUB_REAL) && (oi1 == SUB_REAL)) { if (!p0->echocanbridged || !p1->echocanbridged) { /* Disable echo cancellation if appropriate */ zt_disable_ec(p0); zt_disable_ec(p1); } } zt_link(slave, master); master->inconference = inconf; } else if (!nothingok) ast_log(LOG_WARNING, "Can't link %d/%s with %d/%s\n", p0->channel, subnames[oi0], p1->channel, subnames[oi1]); update_conf(p0); update_conf(p1); t0 = p0->subs[SUB_REAL].inthreeway; t1 = p1->subs[SUB_REAL].inthreeway; ast_mutex_unlock(&p0->lock); ast_mutex_unlock(&p1->lock); ast_mutex_unlock(&c0->lock); ast_mutex_unlock(&c1->lock); /* Native bridge failed */ if ((!master || !slave) && !nothingok) { zt_enable_ec(p0); zt_enable_ec(p1); return AST_BRIDGE_FAILED; } if (option_verbose > 2) ast_verbose(VERBOSE_PREFIX_3 "Native bridging %s and %s\n", c0->name, c1->name); if (!(flags & AST_BRIDGE_DTMF_CHANNEL_0) && (oi0 == SUB_REAL)) disable_dtmf_detect(op0); if (!(flags & AST_BRIDGE_DTMF_CHANNEL_1) && (oi1 == SUB_REAL)) disable_dtmf_detect(op1); for (;;) { struct ast_channel *c0_priority[2] = {c0, c1}; struct ast_channel *c1_priority[2] = {c1, c0}; /* Here's our main loop... Start by locking things, looking for private parts, and then balking if anything is wrong */ ast_mutex_lock(&c0->lock); while (ast_mutex_trylock(&c1->lock)) { ast_mutex_unlock(&c0->lock); usleep(1); ast_mutex_lock(&c0->lock); } p0 = c0->tech_pvt; p1 = c1->tech_pvt; if (op0 == p0) i0 = zt_get_index(c0, p0, 1); if (op1 == p1) i1 = zt_get_index(c1, p1, 1); ast_mutex_unlock(&c0->lock); ast_mutex_unlock(&c1->lock); if (!timeoutms || (op0 != p0) || (op1 != p1) || (ofd0 != c0->fds[0]) || (ofd1 != c1->fds[0]) || (p0->subs[SUB_REAL].owner && (os0 > -1) && (os0 != p0->subs[SUB_REAL].owner->_state)) || (p1->subs[SUB_REAL].owner && (os1 > -1) && (os1 != p1->subs[SUB_REAL].owner->_state)) || (oc0 != p0->owner) || (oc1 != p1->owner) || (t0 != p0->subs[SUB_REAL].inthreeway) || (t1 != p1->subs[SUB_REAL].inthreeway) || (oi0 != i0) || (oi1 != i1)) { ast_log(LOG_DEBUG, "Something changed out on %d/%d to %d/%d, returning -3 to restart\n", op0->channel, oi0, op1->channel, oi1); res = AST_BRIDGE_RETRY; goto return_from_bridge; } #ifdef PRI_2BCT q931c0 = p0->call; q931c1 = p1->call; if (p0->transfer && p1->transfer && q931c0 && q931c1 && !triedtopribridge) { pri_channel_bridge(q931c0, q931c1); triedtopribridge = 1; } #endif who = ast_waitfor_n(priority ? c0_priority : c1_priority, 2, &timeoutms); if (!who) { ast_log(LOG_DEBUG, "Ooh, empty read...\n"); continue; } f = ast_read(who); if (!f || (f->frametype == AST_FRAME_CONTROL)) { *fo = f; *rc = who; res = AST_BRIDGE_COMPLETE; goto return_from_bridge; } if (f->frametype == AST_FRAME_DTMF) { if ((who == c0) && p0->pulsedial) { ast_write(c1, f); } else if ((who == c1) && p1->pulsedial) { ast_write(c0, f); } else { *fo = f; *rc = who; res = AST_BRIDGE_COMPLETE; goto return_from_bridge; } } ast_frfree(f); /* Swap who gets priority */ priority = !priority; } return_from_bridge: if (op0 == p0) zt_enable_ec(p0); if (op1 == p1) zt_enable_ec(p1); if (!(flags & AST_BRIDGE_DTMF_CHANNEL_0) && (oi0 == SUB_REAL)) enable_dtmf_detect(op0); if (!(flags & AST_BRIDGE_DTMF_CHANNEL_1) && (oi1 == SUB_REAL)) enable_dtmf_detect(op1); zt_unlink(slave, master, 1); return res; } static int zt_fixup(struct ast_channel *oldchan, struct ast_channel *newchan) { struct zt_pvt *p = newchan->tech_pvt; int x; ast_mutex_lock(&p->lock); ast_log(LOG_DEBUG, "New owner for channel %d is %s\n", p->channel, newchan->name); if (p->owner == oldchan) { p->owner = newchan; } for (x = 0; x < 3; x++) if (p->subs[x].owner == oldchan) { if (!x) zt_unlink(NULL, p, 0); p->subs[x].owner = newchan; } if (newchan->_state == AST_STATE_RINGING) zt_indicate(newchan, AST_CONTROL_RINGING, NULL, 0); update_conf(p); ast_mutex_unlock(&p->lock); return 0; } static int zt_ring_phone(struct zt_pvt *p) { int x; int res; /* Make sure our transmit state is on hook */ x = 0; x = ZT_ONHOOK; res = ioctl(p->subs[SUB_REAL].zfd, ZT_HOOK, &x); do { x = ZT_RING; res = ioctl(p->subs[SUB_REAL].zfd, ZT_HOOK, &x); if (res) { switch (errno) { case EBUSY: case EINTR: /* Wait just in case */ usleep(10000); continue; case EINPROGRESS: res = 0; break; default: ast_log(LOG_WARNING, "Couldn't ring the phone: %s\n", strerror(errno)); res = 0; } } } while (res); return res; } static void *ss_thread(void *data); static struct ast_channel *zt_new(struct zt_pvt *, int, int, int, int, int); static int attempt_transfer(struct zt_pvt *p) { /* In order to transfer, we need at least one of the channels to actually be in a call bridge. We can't conference two applications together (but then, why would we want to?) */ if (ast_bridged_channel(p->subs[SUB_REAL].owner)) { /* The three-way person we're about to transfer to could still be in MOH, so stop if now if appropriate */ if (ast_bridged_channel(p->subs[SUB_THREEWAY].owner)) ast_queue_control(p->subs[SUB_THREEWAY].owner, AST_CONTROL_UNHOLD); if (p->subs[SUB_REAL].owner->_state == AST_STATE_RINGING) { ast_indicate(ast_bridged_channel(p->subs[SUB_REAL].owner), AST_CONTROL_RINGING); } if (p->subs[SUB_THREEWAY].owner->_state == AST_STATE_RING) { tone_zone_play_tone(p->subs[SUB_THREEWAY].zfd, ZT_TONE_RINGTONE); } if (p->subs[SUB_REAL].owner->cdr) { /* Move CDR from second channel to current one */ p->subs[SUB_THREEWAY].owner->cdr = ast_cdr_append(p->subs[SUB_THREEWAY].owner->cdr, p->subs[SUB_REAL].owner->cdr); p->subs[SUB_REAL].owner->cdr = NULL; } if (ast_bridged_channel(p->subs[SUB_REAL].owner)->cdr) { /* Move CDR from second channel's bridge to current one */ p->subs[SUB_THREEWAY].owner->cdr = ast_cdr_append(p->subs[SUB_THREEWAY].owner->cdr, ast_bridged_channel(p->subs[SUB_REAL].owner)->cdr); ast_bridged_channel(p->subs[SUB_REAL].owner)->cdr = NULL; } if (ast_channel_masquerade(p->subs[SUB_THREEWAY].owner, ast_bridged_channel(p->subs[SUB_REAL].owner))) { ast_log(LOG_WARNING, "Unable to masquerade %s as %s\n", ast_bridged_channel(p->subs[SUB_REAL].owner)->name, p->subs[SUB_THREEWAY].owner->name); return -1; } /* Orphan the channel after releasing the lock */ ast_mutex_unlock(&p->subs[SUB_THREEWAY].owner->lock); unalloc_sub(p, SUB_THREEWAY); } else if (ast_bridged_channel(p->subs[SUB_THREEWAY].owner)) { ast_queue_control(p->subs[SUB_REAL].owner, AST_CONTROL_UNHOLD); if (p->subs[SUB_THREEWAY].owner->_state == AST_STATE_RINGING) { ast_indicate(ast_bridged_channel(p->subs[SUB_THREEWAY].owner), AST_CONTROL_RINGING); } if (p->subs[SUB_REAL].owner->_state == AST_STATE_RING) { tone_zone_play_tone(p->subs[SUB_REAL].zfd, ZT_TONE_RINGTONE); } if (p->subs[SUB_THREEWAY].owner->cdr) { /* Move CDR from second channel to current one */ p->subs[SUB_REAL].owner->cdr = ast_cdr_append(p->subs[SUB_REAL].owner->cdr, p->subs[SUB_THREEWAY].owner->cdr); p->subs[SUB_THREEWAY].owner->cdr = NULL; } if (ast_bridged_channel(p->subs[SUB_THREEWAY].owner)->cdr) { /* Move CDR from second channel's bridge to current one */ p->subs[SUB_REAL].owner->cdr = ast_cdr_append(p->subs[SUB_REAL].owner->cdr, ast_bridged_channel(p->subs[SUB_THREEWAY].owner)->cdr); ast_bridged_channel(p->subs[SUB_THREEWAY].owner)->cdr = NULL; } if (ast_channel_masquerade(p->subs[SUB_REAL].owner, ast_bridged_channel(p->subs[SUB_THREEWAY].owner))) { ast_log(LOG_WARNING, "Unable to masquerade %s as %s\n", ast_bridged_channel(p->subs[SUB_THREEWAY].owner)->name, p->subs[SUB_REAL].owner->name); return -1; } /* Three-way is now the REAL */ swap_subs(p, SUB_THREEWAY, SUB_REAL); ast_mutex_unlock(&p->subs[SUB_REAL].owner->lock); unalloc_sub(p, SUB_THREEWAY); /* Tell the caller not to hangup */ return 1; } else { ast_log(LOG_DEBUG, "Neither %s nor %s are in a bridge, nothing to transfer\n", p->subs[SUB_REAL].owner->name, p->subs[SUB_THREEWAY].owner->name); p->subs[SUB_THREEWAY].owner->_softhangup |= AST_SOFTHANGUP_DEV; return -1; } return 0; } static int check_for_conference(struct zt_pvt *p) { ZT_CONFINFO ci; /* Fine if we already have a master, etc */ if (p->master || (p->confno > -1)) return 0; memset(&ci, 0, sizeof(ci)); if (ioctl(p->subs[SUB_REAL].zfd, ZT_GETCONF, &ci)) { ast_log(LOG_WARNING, "Failed to get conference info on channel %d\n", p->channel); return 0; } /* If we have no master and don't have a confno, then if we're in a conference, it's probably a MeetMe room or some such, so don't let us 3-way out! */ if ((p->subs[SUB_REAL].curconf.confno != ci.confno) || (p->subs[SUB_REAL].curconf.confmode != ci.confmode)) { if (option_verbose > 2) ast_verbose(VERBOSE_PREFIX_3 "Avoiding 3-way call when in an external conference\n"); return 1; } return 0; } static int get_alarms(struct zt_pvt *p) { int res; ZT_SPANINFO zi; memset(&zi, 0, sizeof(zi)); zi.spanno = p->span; res = ioctl(p->subs[SUB_REAL].zfd, ZT_SPANSTAT, &zi); if (res < 0) { ast_log(LOG_WARNING, "Unable to determine alarm on channel %d\n", p->channel); return 0; } return zi.alarms; } static void zt_handle_dtmfup(struct ast_channel *ast, int index, struct ast_frame **dest) { struct zt_pvt *p = ast->tech_pvt; struct ast_frame *f = *dest; if (option_debug) ast_log(LOG_DEBUG, "DTMF digit: %c on %s\n", f->subclass, ast->name); if (p->confirmanswer) { if (option_debug) ast_log(LOG_DEBUG, "Confirm answer on %s!\n", ast->name); /* Upon receiving a DTMF digit, consider this an answer confirmation instead of a DTMF digit */ p->subs[index].f.frametype = AST_FRAME_CONTROL; p->subs[index].f.subclass = AST_CONTROL_ANSWER; *dest = &p->subs[index].f; /* Reset confirmanswer so DTMF's will behave properly for the duration of the call */ p->confirmanswer = 0; } else if (p->callwaitcas) { if ((f->subclass == 'A') || (f->subclass == 'D')) { if (option_debug) ast_log(LOG_DEBUG, "Got some DTMF, but it's for the CAS\n"); if (p->cidspill) free(p->cidspill); send_cwcidspill(p); } if ((f->subclass != 'm') && (f->subclass != 'u')) p->callwaitcas = 0; p->subs[index].f.frametype = AST_FRAME_NULL; p->subs[index].f.subclass = 0; *dest = &p->subs[index].f; } else if (f->subclass == 'f') { /* Fax tone -- Handle and return NULL */ if ((p->callprogress & 0x6) && !p->faxhandled) { p->faxhandled++; if (strcmp(ast->exten, "fax")) { const char *target_context = S_OR(ast->macrocontext, ast->context); if (ast_exists_extension(ast, target_context, "fax", 1, ast->cid.cid_num)) { if (option_verbose > 2) ast_verbose(VERBOSE_PREFIX_3 "Redirecting %s to fax extension\n", ast->name); /* 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, target_context, "fax", 1)) ast_log(LOG_WARNING, "Failed to async goto '%s' into fax of '%s'\n", ast->name, target_context); } else ast_log(LOG_NOTICE, "Fax detected, but no fax extension\n"); } else if (option_debug) ast_log(LOG_DEBUG, "Already in a fax extension, not redirecting\n"); } else if (option_debug) ast_log(LOG_DEBUG, "Fax already handled\n"); zt_confmute(p, 0); p->subs[index].f.frametype = AST_FRAME_NULL; p->subs[index].f.subclass = 0; *dest = &p->subs[index].f; } else if (f->subclass == 'm') { /* Confmute request */ zt_confmute(p, 1); p->subs[index].f.frametype = AST_FRAME_NULL; p->subs[index].f.subclass = 0; *dest = &p->subs[index].f; } else if (f->subclass == 'u') { /* Unmute */ zt_confmute(p, 0); p->subs[index].f.frametype = AST_FRAME_NULL; p->subs[index].f.subclass = 0; *dest = &p->subs[index].f; } else zt_confmute(p, 0); } static struct ast_frame *zt_handle_event(struct ast_channel *ast) { int res, x; int index, mysig; char *c; struct zt_pvt *p = ast->tech_pvt; pthread_t threadid; pthread_attr_t attr; struct ast_channel *chan; struct ast_frame *f; index = zt_get_index(ast, p, 0); mysig = p->sig; if (p->outsigmod > -1) mysig = p->outsigmod; p->subs[index].f.frametype = AST_FRAME_NULL; p->subs[index].f.subclass = 0; p->subs[index].f.datalen = 0; p->subs[index].f.samples = 0; p->subs[index].f.mallocd = 0; p->subs[index].f.offset = 0; p->subs[index].f.src = "zt_handle_event"; p->subs[index].f.data = NULL; f = &p->subs[index].f; if (index < 0) return &p->subs[index].f; if (p->fake_event) { res = p->fake_event; p->fake_event = 0; } else res = zt_get_event(p->subs[index].zfd); if (option_debug) ast_log(LOG_DEBUG, "Got event %s(%d) on channel %d (index %d)\n", event2str(res), res, p->channel, index); if (res & (ZT_EVENT_PULSEDIGIT | ZT_EVENT_DTMFUP)) { p->pulsedial = (res & ZT_EVENT_PULSEDIGIT) ? 1 : 0; ast_log(LOG_DEBUG, "Detected %sdigit '%c'\n", p->pulsedial ? "pulse ": "", res & 0xff); #ifdef HAVE_PRI if (!p->proceeding && p->sig == SIG_PRI && p->pri && p->pri->overlapdial) { /* absorb event */ } else { #endif p->subs[index].f.frametype = AST_FRAME_DTMF_END; p->subs[index].f.subclass = res & 0xff; #ifdef HAVE_PRI } #endif zt_handle_dtmfup(ast, index, &f); return f; } if (res & ZT_EVENT_DTMFDOWN) { if (option_debug) ast_log(LOG_DEBUG, "DTMF Down '%c'\n", res & 0xff); /* Mute conference */ zt_confmute(p, 1); p->subs[index].f.frametype = AST_FRAME_DTMF_BEGIN; p->subs[index].f.subclass = res & 0xff; return &p->subs[index].f; } switch (res) { #ifdef ZT_EVENT_EC_DISABLED case ZT_EVENT_EC_DISABLED: if (option_verbose > 2) ast_verbose(VERBOSE_PREFIX_3 "Channel %d echo canceler disabled due to CED detection\n", p->channel); p->echocanon = 0; break; #endif case ZT_EVENT_BITSCHANGED: ast_log(LOG_WARNING, "Recieved bits changed on %s signalling?\n", sig2str(p->sig)); case ZT_EVENT_PULSE_START: /* Stop tone if there's a pulse start and the PBX isn't started */ if (!ast->pbx) tone_zone_play_tone(p->subs[index].zfd, -1); break; case ZT_EVENT_DIALCOMPLETE: if (p->inalarm) break; if ((p->radio || (p->oprmode < 0))) break; if (ioctl(p->subs[index].zfd,ZT_DIALING,&x) == -1) { ast_log(LOG_DEBUG, "ZT_DIALING ioctl failed on %s\n",ast->name); return NULL; } if (!x) { /* if not still dialing in driver */ zt_enable_ec(p); if (p->echobreak) { zt_train_ec(p); ast_copy_string(p->dop.dialstr, p->echorest, sizeof(p->dop.dialstr)); p->dop.op = ZT_DIAL_OP_REPLACE; res = ioctl(p->subs[SUB_REAL].zfd, ZT_DIAL, &p->dop); p->echobreak = 0; } else { p->dialing = 0; if ((mysig == SIG_E911) || (mysig == SIG_FGC_CAMA) || (mysig == SIG_FGC_CAMAMF)) { /* if thru with dialing after offhook */ if (ast->_state == AST_STATE_DIALING_OFFHOOK) { ast_setstate(ast, AST_STATE_UP); p->subs[index].f.frametype = AST_FRAME_CONTROL; p->subs[index].f.subclass = AST_CONTROL_ANSWER; break; } else { /* if to state wait for offhook to dial rest */ /* we now wait for off hook */ ast_setstate(ast,AST_STATE_DIALING_OFFHOOK); } } if (ast->_state == AST_STATE_DIALING) { if ((p->callprogress & 1) && CANPROGRESSDETECT(p) && p->dsp && p->outgoing) { ast_log(LOG_DEBUG, "Done dialing, but waiting for progress detection before doing more...\n"); } else if (p->confirmanswer || (!p->dialednone && ((mysig == SIG_EM) || (mysig == SIG_EM_E1) || (mysig == SIG_EMWINK) || (mysig == SIG_FEATD) || (mysig == SIG_FEATDMF_TA) || (mysig == SIG_FEATDMF) || (mysig == SIG_E911) || (mysig == SIG_FGC_CAMA) || (mysig == SIG_FGC_CAMAMF) || (mysig == SIG_FEATB) || (mysig == SIG_SF) || (mysig == SIG_SFWINK) || (mysig == SIG_SF_FEATD) || (mysig == SIG_SF_FEATDMF) || (mysig == SIG_SF_FEATB)))) { ast_setstate(ast, AST_STATE_RINGING); } else if (!p->answeronpolarityswitch) { ast_setstate(ast, AST_STATE_UP); p->subs[index].f.frametype = AST_FRAME_CONTROL; p->subs[index].f.subclass = AST_CONTROL_ANSWER; /* If aops=0 and hops=1, this is necessary */ p->polarity = POLARITY_REV; } else { /* Start clean, so we can catch the change to REV polarity when party answers */ p->polarity = POLARITY_IDLE; } } } } break; case ZT_EVENT_ALARM: #ifdef HAVE_PRI if (!p->pri || !p->pri->pri || (pri_get_timer(p->pri->pri, PRI_TIMER_T309) < 0)) { /* T309 is not enabled : hangup calls when alarm occurs */ if (p->call) { if (p->pri && p->pri->pri) { if (!pri_grab(p, p->pri)) { pri_hangup(p->pri->pri, p->call, -1); pri_destroycall(p->pri->pri, p->call); p->call = NULL; pri_rel(p->pri); } else ast_log(LOG_WARNING, "Failed to grab PRI!\n"); } else ast_log(LOG_WARNING, "The PRI Call has not been destroyed\n"); } if (p->owner) p->owner->_softhangup |= AST_SOFTHANGUP_DEV; } if (p->bearer) p->bearer->inalarm = 1; else #endif p->inalarm = 1; res = get_alarms(p); do { const char *alarm_str = alarm2str(res); /* hack alert! Zaptel 1.4 now exposes FXO battery as an alarm, but asterisk 1.4 * doesn't know what to do with it. Don't confuse users with log messages. */ if (!strcasecmp(alarm_str, "No Alarm") || !strcasecmp(alarm_str, "Unknown Alarm")) { p->unknown_alarm = 1; break; } else { p->unknown_alarm = 0; } ast_log(LOG_WARNING, "Detected alarm on channel %d: %s\n", p->channel, alarm_str); manager_event(EVENT_FLAG_SYSTEM, "Alarm", "Alarm: %s\r\n" "Channel: %d\r\n", alarm_str, p->channel); } while (0); #ifdef HAVE_LIBPRI if (!p->pri || !p->pri->pri || pri_get_timer(p->pri->pri, PRI_TIMER_T309) < 0) { /* fall through intentionally */ } else { break; } #endif case ZT_EVENT_ONHOOK: if (p->radio) { p->subs[index].f.frametype = AST_FRAME_CONTROL; p->subs[index].f.subclass = AST_CONTROL_RADIO_UNKEY; break; } if (p->oprmode < 0) { if (p->oprmode != -1) break; if ((p->sig == SIG_FXOLS) || (p->sig == SIG_FXOKS) || (p->sig == SIG_FXOGS)) { /* Make sure it starts ringing */ zt_set_hook(p->subs[SUB_REAL].zfd, ZT_RINGOFF); zt_set_hook(p->subs[SUB_REAL].zfd, ZT_RING); save_conference(p->oprpeer); tone_zone_play_tone(p->oprpeer->subs[SUB_REAL].zfd, ZT_TONE_RINGTONE); } break; } switch (p->sig) { case SIG_FXOLS: case SIG_FXOGS: case SIG_FXOKS: p->onhooktime = time(NULL); p->msgstate = -1; /* Check for some special conditions regarding call waiting */ if (index == SUB_REAL) { /* The normal line was hung up */ if (p->subs[SUB_CALLWAIT].owner) { /* There's a call waiting call, so ring the phone, but make it unowned in the mean time */ swap_subs(p, SUB_CALLWAIT, SUB_REAL); if (option_verbose > 2) ast_verbose(VERBOSE_PREFIX_3 "Channel %d still has (callwait) call, ringing phone\n", p->channel); unalloc_sub(p, SUB_CALLWAIT); #if 0 p->subs[index].needanswer = 0; p->subs[index].needringing = 0; #endif p->callwaitingrepeat = 0; p->cidcwexpire = 0; p->owner = NULL; /* Don't start streaming audio yet if the incoming call isn't up yet */ if (p->subs[SUB_REAL].owner->_state != AST_STATE_UP) p->dialing = 1; zt_ring_phone(p); } else if (p->subs[SUB_THREEWAY].owner) { unsigned int mssinceflash; /* Here we have to retain the lock on both the main channel, the 3-way channel, and the private structure -- not especially easy or clean */ while (p->subs[SUB_THREEWAY].owner && ast_mutex_trylock(&p->subs[SUB_THREEWAY].owner->lock)) { /* Yuck, didn't get the lock on the 3-way, gotta release everything and re-grab! */ ast_mutex_unlock(&p->lock); ast_mutex_unlock(&ast->lock); usleep(1); /* We can grab ast and p in that order, without worry. We should make sure nothing seriously bad has happened though like some sort of bizarre double masquerade! */ ast_mutex_lock(&ast->lock); ast_mutex_lock(&p->lock); if (p->owner != ast) { ast_log(LOG_WARNING, "This isn't good...\n"); return NULL; } } if (!p->subs[SUB_THREEWAY].owner) { ast_log(LOG_NOTICE, "Whoa, threeway disappeared kinda randomly.\n"); return NULL; } mssinceflash = ast_tvdiff_ms(ast_tvnow(), p->flashtime); ast_log(LOG_DEBUG, "Last flash was %d ms ago\n", mssinceflash); if (mssinceflash < MIN_MS_SINCE_FLASH) { /* It hasn't been long enough since the last flashook. This is probably a bounce on hanging up. Hangup both channels now */ if (p->subs[SUB_THREEWAY].owner) ast_queue_hangup(p->subs[SUB_THREEWAY].owner); p->subs[SUB_THREEWAY].owner->_softhangup |= AST_SOFTHANGUP_DEV; ast_log(LOG_DEBUG, "Looks like a bounced flash, hanging up both calls on %d\n", p->channel); ast_mutex_unlock(&p->subs[SUB_THREEWAY].owner->lock); } else if ((ast->pbx) || (ast->_state == AST_STATE_UP)) { if (p->transfer) { /* In any case this isn't a threeway call anymore */ p->subs[SUB_REAL].inthreeway = 0; p->subs[SUB_THREEWAY].inthreeway = 0; /* Only attempt transfer if the phone is ringing; why transfer to busy tone eh? */ if (!p->transfertobusy && ast->_state == AST_STATE_BUSY) { ast_mutex_unlock(&p->subs[SUB_THREEWAY].owner->lock); /* Swap subs and dis-own channel */ swap_subs(p, SUB_THREEWAY, SUB_REAL); p->owner = NULL; /* Ring the phone */ zt_ring_phone(p); } else { if ((res = attempt_transfer(p)) < 0) { p->subs[SUB_THREEWAY].owner->_softhangup |= AST_SOFTHANGUP_DEV; if (p->subs[SUB_THREEWAY].owner) ast_mutex_unlock(&p->subs[SUB_THREEWAY].owner->lock); } else if (res) { /* Don't actually hang up at this point */ if (p->subs[SUB_THREEWAY].owner) ast_mutex_unlock(&p->subs[SUB_THREEWAY].owner->lock); break; } } } else { p->subs[SUB_THREEWAY].owner->_softhangup |= AST_SOFTHANGUP_DEV; if (p->subs[SUB_THREEWAY].owner) ast_mutex_unlock(&p->subs[SUB_THREEWAY].owner->lock); } } else { ast_mutex_unlock(&p->subs[SUB_THREEWAY].owner->lock); /* Swap subs and dis-own channel */ swap_subs(p, SUB_THREEWAY, SUB_REAL); p->owner = NULL; /* Ring the phone */ zt_ring_phone(p); } } } else { ast_log(LOG_WARNING, "Got a hangup and my index is %d?\n", index); } /* Fall through */ default: zt_disable_ec(p); return NULL; } break; case ZT_EVENT_RINGOFFHOOK: if (p->inalarm) break; if (p->oprmode < 0) { if ((p->sig == SIG_FXOLS) || (p->sig == SIG_FXOKS) || (p->sig == SIG_FXOGS)) { /* Make sure it stops ringing */ zt_set_hook(p->subs[SUB_REAL].zfd, ZT_RINGOFF); tone_zone_play_tone(p->oprpeer->subs[SUB_REAL].zfd, -1); restore_conference(p->oprpeer); } break; } if (p->radio) { p->subs[index].f.frametype = AST_FRAME_CONTROL; p->subs[index].f.subclass = AST_CONTROL_RADIO_KEY; break; } /* for E911, its supposed to wait for offhook then dial the second half of the dial string */ if (((mysig == SIG_E911) || (mysig == SIG_FGC_CAMA) || (mysig == SIG_FGC_CAMAMF)) && (ast->_state == AST_STATE_DIALING_OFFHOOK)) { c = strchr(p->dialdest, '/'); if (c) c++; else c = p->dialdest; if (*c) snprintf(p->dop.dialstr, sizeof(p->dop.dialstr), "M*0%s#", c); else ast_copy_string(p->dop.dialstr,"M*2#", sizeof(p->dop.dialstr)); if (strlen(p->dop.dialstr) > 4) { memset(p->echorest, 'w', sizeof(p->echorest) - 1); strcpy(p->echorest + (p->echotraining / 401) + 1, p->dop.dialstr + strlen(p->dop.dialstr) - 2); p->echorest[sizeof(p->echorest) - 1] = '\0'; p->echobreak = 1; p->dop.dialstr[strlen(p->dop.dialstr)-2] = '\0'; } else p->echobreak = 0; if (ioctl(p->subs[SUB_REAL].zfd, ZT_DIAL, &p->dop)) { x = ZT_ONHOOK; ioctl(p->subs[SUB_REAL].zfd, ZT_HOOK, &x); ast_log(LOG_WARNING, "Dialing failed on channel %d: %s\n", p->channel, strerror(errno)); return NULL; } p->dialing = 1; return &p->subs[index].f; } switch (p->sig) { case SIG_FXOLS: case SIG_FXOGS: case SIG_FXOKS: switch (ast->_state) { case AST_STATE_RINGING: zt_enable_ec(p); zt_train_ec(p); p->subs[index].f.frametype = AST_FRAME_CONTROL; p->subs[index].f.subclass = AST_CONTROL_ANSWER; /* Make sure it stops ringing */ zt_set_hook(p->subs[index].zfd, ZT_OFFHOOK); ast_log(LOG_DEBUG, "channel %d answered\n", p->channel); if (p->cidspill) { /* Cancel any running CallerID spill */ free(p->cidspill); p->cidspill = NULL; } p->dialing = 0; p->callwaitcas = 0; if (p->confirmanswer) { /* Ignore answer if "confirm answer" is enabled */ p->subs[index].f.frametype = AST_FRAME_NULL; p->subs[index].f.subclass = 0; } else if (!ast_strlen_zero(p->dop.dialstr)) { /* nick@dccinc.com 4/3/03 - fxo should be able to do deferred dialing */ res = ioctl(p->subs[SUB_REAL].zfd, ZT_DIAL, &p->dop); if (res < 0) { ast_log(LOG_WARNING, "Unable to initiate dialing on trunk channel %d\n", p->channel); p->dop.dialstr[0] = '\0'; return NULL; } else { ast_log(LOG_DEBUG, "Sent FXO deferred digit string: %s\n", p->dop.dialstr); p->subs[index].f.frametype = AST_FRAME_NULL; p->subs[index].f.subclass = 0; p->dialing = 1; } p->dop.dialstr[0] = '\0'; ast_setstate(ast, AST_STATE_DIALING); } else ast_setstate(ast, AST_STATE_UP); return &p->subs[index].f; case AST_STATE_DOWN: ast_setstate(ast, AST_STATE_RING); ast->rings = 1; p->subs[index].f.frametype = AST_FRAME_CONTROL; p->subs[index].f.subclass = AST_CONTROL_OFFHOOK; ast_log(LOG_DEBUG, "channel %d picked up\n", p->channel); return &p->subs[index].f; case AST_STATE_UP: /* Make sure it stops ringing */ zt_set_hook(p->subs[index].zfd, ZT_OFFHOOK); /* Okay -- probably call waiting*/ if (ast_bridged_channel(p->owner)) ast_queue_control(p->owner, AST_CONTROL_UNHOLD); p->subs[index].needunhold = 1; break; case AST_STATE_RESERVED: /* Start up dialtone */ if (has_voicemail(p)) res = tone_zone_play_tone(p->subs[SUB_REAL].zfd, ZT_TONE_STUTTER); else res = tone_zone_play_tone(p->subs[SUB_REAL].zfd, ZT_TONE_DIALTONE); break; default: ast_log(LOG_WARNING, "FXO phone off hook in weird state %d??\n", ast->_state); } break; case SIG_FXSLS: case SIG_FXSGS: case SIG_FXSKS: if (ast->_state == AST_STATE_RING) { p->ringt = p->ringt_base; } /* Fall through */ case SIG_EM: case SIG_EM_E1: case SIG_EMWINK: case SIG_FEATD: case SIG_FEATDMF: case SIG_FEATDMF_TA: case SIG_E911: case SIG_FGC_CAMA: case SIG_FGC_CAMAMF: case SIG_FEATB: case SIG_SF: case SIG_SFWINK: case SIG_SF_FEATD: case SIG_SF_FEATDMF: case SIG_SF_FEATB: if (ast->_state == AST_STATE_PRERING) ast_setstate(ast, AST_STATE_RING); if ((ast->_state == AST_STATE_DOWN) || (ast->_state == AST_STATE_RING)) { if (option_debug) ast_log(LOG_DEBUG, "Ring detected\n"); p->subs[index].f.frametype = AST_FRAME_CONTROL; p->subs[index].f.subclass = AST_CONTROL_RING; } else if (p->outgoing && ((ast->_state == AST_STATE_RINGING) || (ast->_state == AST_STATE_DIALING))) { if (option_debug) ast_log(LOG_DEBUG, "Line answered\n"); if (p->confirmanswer) { p->subs[index].f.frametype = AST_FRAME_NULL; p->subs[index].f.subclass = 0; } else { p->subs[index].f.frametype = AST_FRAME_CONTROL; p->subs[index].f.subclass = AST_CONTROL_ANSWER; ast_setstate(ast, AST_STATE_UP); } } else if (ast->_state != AST_STATE_RING) ast_log(LOG_WARNING, "Ring/Off-hook in strange state %d on channel %d\n", ast->_state, p->channel); break; default: ast_log(LOG_WARNING, "Don't know how to handle ring/off hook for signalling %d\n", p->sig); } break; #ifdef ZT_EVENT_RINGBEGIN case ZT_EVENT_RINGBEGIN: switch (p->sig) { case SIG_FXSLS: case SIG_FXSGS: case SIG_FXSKS: if (ast->_state == AST_STATE_RING) { p->ringt = p->ringt_base; } break; } break; #endif case ZT_EVENT_RINGEROFF: if (p->inalarm) break; if ((p->radio || (p->oprmode < 0))) break; ast->rings++; if ((ast->rings > p->cidrings) && (p->cidspill)) { ast_log(LOG_WARNING, "Didn't finish Caller-ID spill. Cancelling.\n"); free(p->cidspill); p->cidspill = NULL; p->callwaitcas = 0; } p->subs[index].f.frametype = AST_FRAME_CONTROL; p->subs[index].f.subclass = AST_CONTROL_RINGING; break; case ZT_EVENT_RINGERON: break; case ZT_EVENT_NOALARM: p->inalarm = 0; #ifdef HAVE_PRI /* Extremely unlikely but just in case */ if (p->bearer) p->bearer->inalarm = 0; #endif if (!p->unknown_alarm) { ast_log(LOG_NOTICE, "Alarm cleared on channel %d\n", p->channel); manager_event(EVENT_FLAG_SYSTEM, "AlarmClear", "Channel: %d\r\n", p->channel); } else { p->unknown_alarm = 0; } break; case ZT_EVENT_WINKFLASH: if (p->inalarm) break; if (p->radio) break; if (p->oprmode < 0) break; if (p->oprmode > 1) { struct zt_params par; if (ioctl(p->oprpeer->subs[SUB_REAL].zfd, ZT_GET_PARAMS, &par) != -1) { if (!par.rxisoffhook) { /* Make sure it stops ringing */ zt_set_hook(p->oprpeer->subs[SUB_REAL].zfd, ZT_RINGOFF); zt_set_hook(p->oprpeer->subs[SUB_REAL].zfd, ZT_RING); save_conference(p); tone_zone_play_tone(p->subs[SUB_REAL].zfd, ZT_TONE_RINGTONE); } } break; } /* Remember last time we got a flash-hook */ gettimeofday(&p->flashtime, NULL); switch (mysig) { case SIG_FXOLS: case SIG_FXOGS: case SIG_FXOKS: ast_log(LOG_DEBUG, "Winkflash, index: %d, normal: %d, callwait: %d, thirdcall: %d\n", index, p->subs[SUB_REAL].zfd, p->subs[SUB_CALLWAIT].zfd, p->subs[SUB_THREEWAY].zfd); p->callwaitcas = 0; if (index != SUB_REAL) { ast_log(LOG_WARNING, "Got flash hook with index %d on channel %d?!?\n", index, p->channel); goto winkflashdone; } if (p->subs[SUB_CALLWAIT].owner) { /* Swap to call-wait */ swap_subs(p, SUB_REAL, SUB_CALLWAIT); tone_zone_play_tone(p->subs[SUB_REAL].zfd, -1); p->owner = p->subs[SUB_REAL].owner; ast_log(LOG_DEBUG, "Making %s the new owner\n", p->owner->name); if (p->owner->_state == AST_STATE_RINGING) { ast_setstate(p->owner, AST_STATE_UP); p->subs[SUB_REAL].needanswer = 1; } p->callwaitingrepeat = 0; p->cidcwexpire = 0; /* Start music on hold if appropriate */ if (!p->subs[SUB_CALLWAIT].inthreeway && ast_bridged_channel(p->subs[SUB_CALLWAIT].owner)) { ast_queue_control_data(p->subs[SUB_CALLWAIT].owner, AST_CONTROL_HOLD, S_OR(p->mohsuggest, NULL), !ast_strlen_zero(p->mohsuggest) ? strlen(p->mohsuggest) + 1 : 0); } p->subs[SUB_CALLWAIT].needhold = 1; if (ast_bridged_channel(p->subs[SUB_REAL].owner)) { ast_queue_control_data(p->subs[SUB_REAL].owner, AST_CONTROL_HOLD, S_OR(p->mohsuggest, NULL), !ast_strlen_zero(p->mohsuggest) ? strlen(p->mohsuggest) + 1 : 0); } p->subs[SUB_REAL].needunhold = 1; } else if (!p->subs[SUB_THREEWAY].owner) { char cid_num[256]; char cid_name[256]; if (!p->threewaycalling) { /* Just send a flash if no 3-way calling */ p->subs[SUB_REAL].needflash = 1; goto winkflashdone; } else if (!check_for_conference(p)) { if (p->zaptrcallerid && p->owner) { if (p->owner->cid.cid_num) ast_copy_string(cid_num, p->owner->cid.cid_num, sizeof(cid_num)); if (p->owner->cid.cid_name) ast_copy_string(cid_name, p->owner->cid.cid_name, sizeof(cid_name)); } /* XXX This section needs much more error checking!!! XXX */ /* Start a 3-way call if feasible */ if (!((ast->pbx) || (ast->_state == AST_STATE_UP) || (ast->_state == AST_STATE_RING))) { ast_log(LOG_DEBUG, "Flash when call not up or ringing\n"); goto winkflashdone; } if (alloc_sub(p, SUB_THREEWAY)) { ast_log(LOG_WARNING, "Unable to allocate three-way subchannel\n"); goto winkflashdone; } /* Make new channel */ chan = zt_new(p, AST_STATE_RESERVED, 0, SUB_THREEWAY, 0, 0); if (p->zaptrcallerid) { if (!p->origcid_num) p->origcid_num = ast_strdup(p->cid_num); if (!p->origcid_name) p->origcid_name = ast_strdup(p->cid_name); ast_copy_string(p->cid_num, cid_num, sizeof(p->cid_num)); ast_copy_string(p->cid_name, cid_name, sizeof(p->cid_name)); } /* Swap things around between the three-way and real call */ swap_subs(p, SUB_THREEWAY, SUB_REAL); /* Disable echo canceller for better dialing */ zt_disable_ec(p); res = tone_zone_play_tone(p->subs[SUB_REAL].zfd, ZT_TONE_DIALRECALL); if (res) ast_log(LOG_WARNING, "Unable to start dial recall tone on channel %d\n", p->channel); p->owner = chan; pthread_attr_init(&attr); pthread_attr_setdetachstate(&attr, PTHREAD_CREATE_DETACHED); if (!chan) { ast_log(LOG_WARNING, "Cannot allocate new structure on channel %d\n", p->channel); } else if (ast_pthread_create(&threadid, &attr, ss_thread, chan)) { ast_log(LOG_WARNING, "Unable to start simple switch on channel %d\n", p->channel); res = tone_zone_play_tone(p->subs[SUB_REAL].zfd, ZT_TONE_CONGESTION); zt_enable_ec(p); ast_hangup(chan); } else { if (option_verbose > 2) ast_verbose(VERBOSE_PREFIX_3 "Started three way call on channel %d\n", p->channel); /* Start music on hold if appropriate */ if (ast_bridged_channel(p->subs[SUB_THREEWAY].owner)) { ast_queue_control_data(p->subs[SUB_THREEWAY].owner, AST_CONTROL_HOLD, S_OR(p->mohsuggest, NULL), !ast_strlen_zero(p->mohsuggest) ? strlen(p->mohsuggest) + 1 : 0); } p->subs[SUB_THREEWAY].needhold = 1; } pthread_attr_destroy(&attr); } } else { /* Already have a 3 way call */ if (p->subs[SUB_THREEWAY].inthreeway) { /* Call is already up, drop the last person */ if (option_debug) ast_log(LOG_DEBUG, "Got flash with three way call up, dropping last call on %d\n", p->channel); /* If the primary call isn't answered yet, use it */ if ((p->subs[SUB_REAL].owner->_state != AST_STATE_UP) && (p->subs[SUB_THREEWAY].owner->_state == AST_STATE_UP)) { /* Swap back -- we're dropping the real 3-way that isn't finished yet*/ swap_subs(p, SUB_THREEWAY, SUB_REAL); p->owner = p->subs[SUB_REAL].owner; } /* Drop the last call and stop the conference */ if (option_verbose > 2) ast_verbose(VERBOSE_PREFIX_3 "Dropping three-way call on %s\n", p->subs[SUB_THREEWAY].owner->name); p->subs[SUB_THREEWAY].owner->_softhangup |= AST_SOFTHANGUP_DEV; p->subs[SUB_REAL].inthreeway = 0; p->subs[SUB_THREEWAY].inthreeway = 0; } else { /* Lets see what we're up to */ if (((ast->pbx) || (ast->_state == AST_STATE_UP)) && (p->transfertobusy || (ast->_state != AST_STATE_BUSY))) { int otherindex = SUB_THREEWAY; if (option_verbose > 2) ast_verbose(VERBOSE_PREFIX_3 "Building conference on call on %s and %s\n", p->subs[SUB_THREEWAY].owner->name, p->subs[SUB_REAL].owner->name); /* Put them in the threeway, and flip */ p->subs[SUB_THREEWAY].inthreeway = 1; p->subs[SUB_REAL].inthreeway = 1; if (ast->_state == AST_STATE_UP) { swap_subs(p, SUB_THREEWAY, SUB_REAL); otherindex = SUB_REAL; } if (p->subs[otherindex].owner && ast_bridged_channel(p->subs[otherindex].owner)) ast_queue_control(p->subs[otherindex].owner, AST_CONTROL_UNHOLD); p->subs[otherindex].needunhold = 1; p->owner = p->subs[SUB_REAL].owner; if (ast->_state == AST_STATE_RINGING) { ast_log(LOG_DEBUG, "Enabling ringtone on real and threeway\n"); res = tone_zone_play_tone(p->subs[SUB_REAL].zfd, ZT_TONE_RINGTONE); res = tone_zone_play_tone(p->subs[SUB_THREEWAY].zfd, ZT_TONE_RINGTONE); } } else { if (option_verbose > 2) ast_verbose(VERBOSE_PREFIX_3 "Dumping incomplete call on on %s\n", p->subs[SUB_THREEWAY].owner->name); swap_subs(p, SUB_THREEWAY, SUB_REAL); p->subs[SUB_THREEWAY].owner->_softhangup |= AST_SOFTHANGUP_DEV; p->owner = p->subs[SUB_REAL].owner; if (p->subs[SUB_REAL].owner && ast_bridged_channel(p->subs[SUB_REAL].owner)) ast_queue_control(p->subs[SUB_REAL].owner, AST_CONTROL_UNHOLD); p->subs[SUB_REAL].needunhold = 1; zt_enable_ec(p); } } } winkflashdone: update_conf(p); break; case SIG_EM: case SIG_EM_E1: case SIG_EMWINK: case SIG_FEATD: case SIG_SF: case SIG_SFWINK: case SIG_SF_FEATD: case SIG_FXSLS: case SIG_FXSGS: if (p->dialing) ast_log(LOG_DEBUG, "Ignoring wink on channel %d\n", p->channel); else ast_log(LOG_DEBUG, "Got wink in weird state %d on channel %d\n", ast->_state, p->channel); break; case SIG_FEATDMF_TA: switch (p->whichwink) { case 0: ast_log(LOG_DEBUG, "ANI2 set to '%d' and ANI is '%s'\n", p->owner->cid.cid_ani2, p->owner->cid.cid_ani); snprintf(p->dop.dialstr, sizeof(p->dop.dialstr), "M*%d%s#", p->owner->cid.cid_ani2, p->owner->cid.cid_ani); break; case 1: ast_copy_string(p->dop.dialstr, p->finaldial, sizeof(p->dop.dialstr)); break; case 2: ast_log(LOG_WARNING, "Received unexpected wink on channel of type SIG_FEATDMF_TA\n"); return NULL; } p->whichwink++; /* Fall through */ case SIG_FEATDMF: case SIG_E911: case SIG_FGC_CAMAMF: case SIG_FGC_CAMA: case SIG_FEATB: case SIG_SF_FEATDMF: case SIG_SF_FEATB: /* FGD MF *Must* wait for wink */ if (!ast_strlen_zero(p->dop.dialstr)) res = ioctl(p->subs[SUB_REAL].zfd, ZT_DIAL, &p->dop); else if (res < 0) { ast_log(LOG_WARNING, "Unable to initiate dialing on trunk channel %d\n", p->channel); p->dop.dialstr[0] = '\0'; return NULL; } else ast_log(LOG_DEBUG, "Sent deferred digit string: %s\n", p->dop.dialstr); p->dop.dialstr[0] = '\0'; break; default: ast_log(LOG_WARNING, "Don't know how to handle ring/off hoook for signalling %d\n", p->sig); } break; case ZT_EVENT_HOOKCOMPLETE: if (p->inalarm) break; if ((p->radio || (p->oprmode < 0))) break; switch (mysig) { case SIG_FXSLS: /* only interesting for FXS */ case SIG_FXSGS: case SIG_FXSKS: case SIG_EM: case SIG_EM_E1: case SIG_EMWINK: case SIG_FEATD: case SIG_SF: case SIG_SFWINK: case SIG_SF_FEATD: if (!ast_strlen_zero(p->dop.dialstr)) res = ioctl(p->subs[SUB_REAL].zfd, ZT_DIAL, &p->dop); else if (res < 0) { ast_log(LOG_WARNING, "Unable to initiate dialing on trunk channel %d\n", p->channel); p->dop.dialstr[0] = '\0'; return NULL; } else ast_log(LOG_DEBUG, "Sent deferred digit string: %s\n", p->dop.dialstr); p->dop.dialstr[0] = '\0'; p->dop.op = ZT_DIAL_OP_REPLACE; break; case SIG_FEATDMF: case SIG_FEATDMF_TA: case SIG_E911: case SIG_FGC_CAMA: case SIG_FGC_CAMAMF: case SIG_FEATB: case SIG_SF_FEATDMF: case SIG_SF_FEATB: ast_log(LOG_DEBUG, "Got hook complete in MF FGD, waiting for wink now on channel %d\n",p->channel); break; default: break; } break; case ZT_EVENT_POLARITY: /* * If we get a Polarity Switch event, check to see * if we should change the polarity state and * mark the channel as UP or if this is an indication * of remote end disconnect. */ if (p->polarity == POLARITY_IDLE) { p->polarity = POLARITY_REV; if (p->answeronpolarityswitch && ((ast->_state == AST_STATE_DIALING) || (ast->_state == AST_STATE_RINGING))) { ast_log(LOG_DEBUG, "Answering on polarity switch!\n"); ast_setstate(p->owner, AST_STATE_UP); if (p->hanguponpolarityswitch) { gettimeofday(&p->polaritydelaytv, NULL); } } else ast_log(LOG_DEBUG, "Ignore switch to REVERSED Polarity on channel %d, state %d\n", p->channel, ast->_state); } /* Removed else statement from here as it was preventing hangups from ever happening*/ /* Added AST_STATE_RING in if statement below to deal with calling party hangups that take place when ringing */ if (p->hanguponpolarityswitch && (p->polarityonanswerdelay > 0) && (p->polarity == POLARITY_REV) && ((ast->_state == AST_STATE_UP) || (ast->_state == AST_STATE_RING)) ) { /* Added log_debug information below to provide a better indication of what is going on */ ast_log(LOG_DEBUG, "Polarity Reversal event occured - DEBUG 1: channel %d, state %d, pol= %d, aonp= %d, honp= %d, pdelay= %d, tv= %d\n", p->channel, ast->_state, p->polarity, p->answeronpolarityswitch, p->hanguponpolarityswitch, p->polarityonanswerdelay, ast_tvdiff_ms(ast_tvnow(), p->polaritydelaytv) ); if (ast_tvdiff_ms(ast_tvnow(), p->polaritydelaytv) > p->polarityonanswerdelay) { ast_log(LOG_DEBUG, "Polarity Reversal detected and now Hanging up on channel %d\n", p->channel); ast_softhangup(p->owner, AST_SOFTHANGUP_EXPLICIT); p->polarity = POLARITY_IDLE; } else { ast_log(LOG_DEBUG, "Polarity Reversal detected but NOT hanging up (too close to answer event) on channel %d, state %d\n", p->channel, ast->_state); } } else { p->polarity = POLARITY_IDLE; ast_log(LOG_DEBUG, "Ignoring Polarity switch to IDLE on channel %d, state %d\n", p->channel, ast->_state); } /* Added more log_debug information below to provide a better indication of what is going on */ ast_log(LOG_DEBUG, "Polarity Reversal event occured - DEBUG 2: channel %d, state %d, pol= %d, aonp= %d, honp= %d, pdelay= %d, tv= %d\n", p->channel, ast->_state, p->polarity, p->answeronpolarityswitch, p->hanguponpolarityswitch, p->polarityonanswerdelay, ast_tvdiff_ms(ast_tvnow(), p->polaritydelaytv) ); break; default: ast_log(LOG_DEBUG, "Dunno what to do with event %d on channel %d\n", res, p->channel); } return &p->subs[index].f; } static struct ast_frame *__zt_exception(struct ast_channel *ast) { struct zt_pvt *p = ast->tech_pvt; int res; int usedindex=-1; int index; struct ast_frame *f; index = zt_get_index(ast, p, 1); p->subs[index].f.frametype = AST_FRAME_NULL; p->subs[index].f.datalen = 0; p->subs[index].f.samples = 0; p->subs[index].f.mallocd = 0; p->subs[index].f.offset = 0; p->subs[index].f.subclass = 0; p->subs[index].f.delivery = ast_tv(0,0); p->subs[index].f.src = "zt_exception"; p->subs[index].f.data = NULL; if ((!p->owner) && (!(p->radio || (p->oprmode < 0)))) { /* If nobody owns us, absorb the event appropriately, otherwise we loop indefinitely. This occurs when, during call waiting, the other end hangs up our channel so that it no longer exists, but we have neither FLASH'd nor ONHOOK'd to signify our desire to change to the other channel. */ if (p->fake_event) { res = p->fake_event; p->fake_event = 0; } else res = zt_get_event(p->subs[SUB_REAL].zfd); /* Switch to real if there is one and this isn't something really silly... */ if ((res != ZT_EVENT_RINGEROFF) && (res != ZT_EVENT_RINGERON) && (res != ZT_EVENT_HOOKCOMPLETE)) { ast_log(LOG_DEBUG, "Restoring owner of channel %d on event %d\n", p->channel, res); p->owner = p->subs[SUB_REAL].owner; if (p->owner && ast_bridged_channel(p->owner)) ast_queue_control(p->owner, AST_CONTROL_UNHOLD); p->subs[SUB_REAL].needunhold = 1; } switch (res) { case ZT_EVENT_ONHOOK: zt_disable_ec(p); if (p->owner) { if (option_verbose > 2) ast_verbose(VERBOSE_PREFIX_3 "Channel %s still has call, ringing phone\n", p->owner->name); zt_ring_phone(p); p->callwaitingrepeat = 0; p->cidcwexpire = 0; } else ast_log(LOG_WARNING, "Absorbed on hook, but nobody is left!?!?\n"); update_conf(p); break; case ZT_EVENT_RINGOFFHOOK: zt_enable_ec(p); zt_set_hook(p->subs[SUB_REAL].zfd, ZT_OFFHOOK); if (p->owner && (p->owner->_state == AST_STATE_RINGING)) { p->subs[SUB_REAL].needanswer = 1; p->dialing = 0; } break; case ZT_EVENT_HOOKCOMPLETE: case ZT_EVENT_RINGERON: case ZT_EVENT_RINGEROFF: /* Do nothing */ break; case ZT_EVENT_WINKFLASH: gettimeofday(&p->flashtime, NULL); if (p->owner) { if (option_verbose > 2) ast_verbose(VERBOSE_PREFIX_3 "Channel %d flashed to other channel %s\n", p->channel, p->owner->name); if (p->owner->_state != AST_STATE_UP) { /* Answer if necessary */ usedindex = zt_get_index(p->owner, p, 0); if (usedindex > -1) { p->subs[usedindex].needanswer = 1; } ast_setstate(p->owner, AST_STATE_UP); } p->callwaitingrepeat = 0; p->cidcwexpire = 0; if (ast_bridged_channel(p->owner)) ast_queue_control(p->owner, AST_CONTROL_UNHOLD); p->subs[SUB_REAL].needunhold = 1; } else ast_log(LOG_WARNING, "Absorbed on hook, but nobody is left!?!?\n"); update_conf(p); break; default: ast_log(LOG_WARNING, "Don't know how to absorb event %s\n", event2str(res)); } f = &p->subs[index].f; return f; } if (!(p->radio || (p->oprmode < 0)) && option_debug) ast_log(LOG_DEBUG, "Exception on %d, channel %d\n", ast->fds[0],p->channel); /* If it's not us, return NULL immediately */ if (ast != p->owner) { ast_log(LOG_WARNING, "We're %s, not %s\n", ast->name, p->owner->name); f = &p->subs[index].f; return f; } f = zt_handle_event(ast); return f; } static struct ast_frame *zt_exception(struct ast_channel *ast) { struct zt_pvt *p = ast->tech_pvt; struct ast_frame *f; ast_mutex_lock(&p->lock); f = __zt_exception(ast); ast_mutex_unlock(&p->lock); return f; } static struct ast_frame *zt_read(struct ast_channel *ast) { struct zt_pvt *p = ast->tech_pvt; int res; int index; void *readbuf; struct ast_frame *f; ast_mutex_lock(&p->lock); index = zt_get_index(ast, p, 0); /* Hang up if we don't really exist */ if (index < 0) { ast_log(LOG_WARNING, "We dont exist?\n"); ast_mutex_unlock(&p->lock); return NULL; } if ((p->radio || (p->oprmode < 0)) && p->inalarm) return NULL; p->subs[index].f.frametype = AST_FRAME_NULL; p->subs[index].f.datalen = 0; p->subs[index].f.samples = 0; p->subs[index].f.mallocd = 0; p->subs[index].f.offset = 0; p->subs[index].f.subclass = 0; p->subs[index].f.delivery = ast_tv(0,0); p->subs[index].f.src = "zt_read"; p->subs[index].f.data = NULL; /* make sure it sends initial key state as first frame */ if ((p->radio || (p->oprmode < 0)) && (!p->firstradio)) { ZT_PARAMS ps; ps.channo = p->channel; if (ioctl(p->subs[SUB_REAL].zfd, ZT_GET_PARAMS, &ps) < 0) { ast_mutex_unlock(&p->lock); return NULL; } p->firstradio = 1; p->subs[index].f.frametype = AST_FRAME_CONTROL; if (ps.rxisoffhook) { p->subs[index].f.subclass = AST_CONTROL_RADIO_KEY; } else { p->subs[index].f.subclass = AST_CONTROL_RADIO_UNKEY; } ast_mutex_unlock(&p->lock); return &p->subs[index].f; } if (p->ringt == 1) { ast_mutex_unlock(&p->lock); return NULL; } else if (p->ringt > 0) p->ringt--; if (p->subs[index].needringing) { /* Send ringing frame if requested */ p->subs[index].needringing = 0; p->subs[index].f.frametype = AST_FRAME_CONTROL; p->subs[index].f.subclass = AST_CONTROL_RINGING; ast_setstate(ast, AST_STATE_RINGING); ast_mutex_unlock(&p->lock); return &p->subs[index].f; } if (p->subs[index].needbusy) { /* Send busy frame if requested */ p->subs[index].needbusy = 0; p->subs[index].f.frametype = AST_FRAME_CONTROL; p->subs[index].f.subclass = AST_CONTROL_BUSY; ast_mutex_unlock(&p->lock); return &p->subs[index].f; } if (p->subs[index].needcongestion) { /* Send congestion frame if requested */ p->subs[index].needcongestion = 0; p->subs[index].f.frametype = AST_FRAME_CONTROL; p->subs[index].f.subclass = AST_CONTROL_CONGESTION; ast_mutex_unlock(&p->lock); return &p->subs[index].f; } if (p->subs[index].needcallerid) { ast_set_callerid(ast, S_OR(p->lastcid_num, NULL), S_OR(p->lastcid_name, NULL), S_OR(p->lastcid_num, NULL) ); p->subs[index].needcallerid = 0; } if (p->subs[index].needanswer) { /* Send answer frame if requested */ p->subs[index].needanswer = 0; p->subs[index].f.frametype = AST_FRAME_CONTROL; p->subs[index].f.subclass = AST_CONTROL_ANSWER; ast_mutex_unlock(&p->lock); return &p->subs[index].f; } if (p->subs[index].needflash) { /* Send answer frame if requested */ p->subs[index].needflash = 0; p->subs[index].f.frametype = AST_FRAME_CONTROL; p->subs[index].f.subclass = AST_CONTROL_FLASH; ast_mutex_unlock(&p->lock); return &p->subs[index].f; } if (p->subs[index].needhold) { /* Send answer frame if requested */ p->subs[index].needhold = 0; p->subs[index].f.frametype = AST_FRAME_CONTROL; p->subs[index].f.subclass = AST_CONTROL_HOLD; ast_mutex_unlock(&p->lock); ast_log(LOG_DEBUG, "Sending hold on '%s'\n", ast->name); return &p->subs[index].f; } if (p->subs[index].needunhold) { /* Send answer frame if requested */ p->subs[index].needunhold = 0; p->subs[index].f.frametype = AST_FRAME_CONTROL; p->subs[index].f.subclass = AST_CONTROL_UNHOLD; ast_mutex_unlock(&p->lock); ast_log(LOG_DEBUG, "Sending unhold on '%s'\n", ast->name); return &p->subs[index].f; } if (ast->rawreadformat == AST_FORMAT_SLINEAR) { if (!p->subs[index].linear) { p->subs[index].linear = 1; res = zt_setlinear(p->subs[index].zfd, p->subs[index].linear); if (res) ast_log(LOG_WARNING, "Unable to set channel %d (index %d) to linear mode.\n", p->channel, index); } } else if ((ast->rawreadformat == AST_FORMAT_ULAW) || (ast->rawreadformat == AST_FORMAT_ALAW)) { if (p->subs[index].linear) { p->subs[index].linear = 0; res = zt_setlinear(p->subs[index].zfd, p->subs[index].linear); if (res) ast_log(LOG_WARNING, "Unable to set channel %d (index %d) to companded mode.\n", p->channel, index); } } else { ast_log(LOG_WARNING, "Don't know how to read frames in format %s\n", ast_getformatname(ast->rawreadformat)); ast_mutex_unlock(&p->lock); return NULL; } readbuf = ((unsigned char *)p->subs[index].buffer) + AST_FRIENDLY_OFFSET; CHECK_BLOCKING(ast); res = read(p->subs[index].zfd, readbuf, p->subs[index].linear ? READ_SIZE * 2 : READ_SIZE); ast_clear_flag(ast, AST_FLAG_BLOCKING); /* Check for hangup */ if (res < 0) { f = NULL; if (res == -1) { if (errno == EAGAIN) { /* Return "NULL" frame if there is nobody there */ ast_mutex_unlock(&p->lock); return &p->subs[index].f; } else if (errno == ELAST) { f = __zt_exception(ast); } else ast_log(LOG_WARNING, "zt_rec: %s\n", strerror(errno)); } ast_mutex_unlock(&p->lock); return f; } if (res != (p->subs[index].linear ? READ_SIZE * 2 : READ_SIZE)) { ast_log(LOG_DEBUG, "Short read (%d/%d), must be an event...\n", res, p->subs[index].linear ? READ_SIZE * 2 : READ_SIZE); f = __zt_exception(ast); ast_mutex_unlock(&p->lock); return f; } if (p->tdd) { /* if in TDD mode, see if we receive that */ int c; c = tdd_feed(p->tdd,readbuf,READ_SIZE); if (c < 0) { ast_log(LOG_DEBUG,"tdd_feed failed\n"); ast_mutex_unlock(&p->lock); return NULL; } if (c) { /* if a char to return */ p->subs[index].f.subclass = 0; p->subs[index].f.frametype = AST_FRAME_TEXT; p->subs[index].f.mallocd = 0; p->subs[index].f.offset = AST_FRIENDLY_OFFSET; p->subs[index].f.data = p->subs[index].buffer + AST_FRIENDLY_OFFSET; p->subs[index].f.datalen = 1; *((char *) p->subs[index].f.data) = c; ast_mutex_unlock(&p->lock); return &p->subs[index].f; } } if (p->callwaitingrepeat) p->callwaitingrepeat--; if (p->cidcwexpire) p->cidcwexpire--; /* Repeat callwaiting */ if (p->callwaitingrepeat == 1) { p->callwaitrings++; zt_callwait(ast); } /* Expire CID/CW */ if (p->cidcwexpire == 1) { if (option_verbose > 2) ast_verbose(VERBOSE_PREFIX_3 "CPE does not support Call Waiting Caller*ID.\n"); restore_conference(p); } if (p->subs[index].linear) { p->subs[index].f.datalen = READ_SIZE * 2; } else p->subs[index].f.datalen = READ_SIZE; /* Handle CallerID Transmission */ if ((p->owner == ast) && p->cidspill &&((ast->_state == AST_STATE_UP) || (ast->rings == p->cidrings))) { send_callerid(p); } p->subs[index].f.frametype = AST_FRAME_VOICE; p->subs[index].f.subclass = ast->rawreadformat; p->subs[index].f.samples = READ_SIZE; p->subs[index].f.mallocd = 0; p->subs[index].f.offset = AST_FRIENDLY_OFFSET; p->subs[index].f.data = p->subs[index].buffer + AST_FRIENDLY_OFFSET / sizeof(p->subs[index].buffer[0]); #if 0 ast_log(LOG_DEBUG, "Read %d of voice on %s\n", p->subs[index].f.datalen, ast->name); #endif if (p->dialing || /* Transmitting something */ (index && (ast->_state != AST_STATE_UP)) || /* Three-way or callwait that isn't up */ ((index == SUB_CALLWAIT) && !p->subs[SUB_CALLWAIT].inthreeway) /* Inactive and non-confed call-wait */ ) { /* Whoops, we're still dialing, or in a state where we shouldn't transmit.... don't send anything */ p->subs[index].f.frametype = AST_FRAME_NULL; p->subs[index].f.subclass = 0; p->subs[index].f.samples = 0; p->subs[index].f.mallocd = 0; p->subs[index].f.offset = 0; p->subs[index].f.data = NULL; p->subs[index].f.datalen= 0; } if (p->dsp && (!p->ignoredtmf || p->callwaitcas || p->busydetect || p->callprogress) && !index) { /* Perform busy detection. etc on the zap line */ f = ast_dsp_process(ast, p->dsp, &p->subs[index].f); if (f) { if ((f->frametype == AST_FRAME_CONTROL) && (f->subclass == AST_CONTROL_BUSY)) { if ((ast->_state == AST_STATE_UP) && !p->outgoing) { /* Treat this as a "hangup" instead of a "busy" on the assumption that a busy */ f = NULL; } } else if (f->frametype == AST_FRAME_DTMF) { #ifdef HAVE_PRI if (!p->proceeding && p->sig==SIG_PRI && p->pri && p->pri->overlapdial) { /* Don't accept in-band DTMF when in overlap dial mode */ f->frametype = AST_FRAME_NULL; f->subclass = 0; } #endif /* DSP clears us of being pulse */ p->pulsedial = 0; } } } else f = &p->subs[index].f; if (f && (f->frametype == AST_FRAME_DTMF)) zt_handle_dtmfup(ast, index, &f); /* If we have a fake_event, trigger exception to handle it */ if (p->fake_event) ast_set_flag(ast, AST_FLAG_EXCEPTION); ast_mutex_unlock(&p->lock); return f; } static int my_zt_write(struct zt_pvt *p, unsigned char *buf, int len, int index, int linear) { int sent=0; int size; int res; int fd; fd = p->subs[index].zfd; while (len) { size = len; if (size > (linear ? READ_SIZE * 2 : READ_SIZE)) size = (linear ? READ_SIZE * 2 : READ_SIZE); res = write(fd, buf, size); if (res != size) { if (option_debug) ast_log(LOG_DEBUG, "Write returned %d (%s) on channel %d\n", res, strerror(errno), p->channel); return sent; } len -= size; buf += size; } return sent; } static int zt_write(struct ast_channel *ast, struct ast_frame *frame) { struct zt_pvt *p = ast->tech_pvt; int res; int index; index = zt_get_index(ast, p, 0); if (index < 0) { ast_log(LOG_WARNING, "%s doesn't really exist?\n", ast->name); return -1; } #if 0 #ifdef HAVE_PRI ast_mutex_lock(&p->lock); if (!p->proceeding && p->sig==SIG_PRI && p->pri && !p->outgoing) { if (p->pri->pri) { if (!pri_grab(p, p->pri)) { pri_progress(p->pri->pri,p->call, PVT_TO_CHANNEL(p), !p->digital); pri_rel(p->pri); } else ast_log(LOG_WARNING, "Unable to grab PRI on span %d\n", p->span); } p->proceeding=1; } ast_mutex_unlock(&p->lock); #endif #endif /* Write a frame of (presumably voice) data */ if (frame->frametype != AST_FRAME_VOICE) { if (frame->frametype != AST_FRAME_IMAGE) ast_log(LOG_WARNING, "Don't know what to do with frame type '%d'\n", frame->frametype); return 0; } if ((frame->subclass != AST_FORMAT_SLINEAR) && (frame->subclass != AST_FORMAT_ULAW) && (frame->subclass != AST_FORMAT_ALAW)) { ast_log(LOG_WARNING, "Cannot handle frames in %d format\n", frame->subclass); return -1; } if (p->dialing) { if (option_debug) ast_log(LOG_DEBUG, "Dropping frame since I'm still dialing on %s...\n",ast->name); return 0; } if (!p->owner) { if (option_debug) ast_log(LOG_DEBUG, "Dropping frame since there is no active owner on %s...\n",ast->name); return 0; } if (p->cidspill) { if (option_debug) ast_log(LOG_DEBUG, "Dropping frame since I've still got a callerid spill\n"); return 0; } /* Return if it's not valid data */ if (!frame->data || !frame->datalen) return 0; if (frame->subclass == AST_FORMAT_SLINEAR) { if (!p->subs[index].linear) { p->subs[index].linear = 1; res = zt_setlinear(p->subs[index].zfd, p->subs[index].linear); if (res) ast_log(LOG_WARNING, "Unable to set linear mode on channel %d\n", p->channel); } res = my_zt_write(p, (unsigned char *)frame->data, frame->datalen, index, 1); } else { /* x-law already */ if (p->subs[index].linear) { p->subs[index].linear = 0; res = zt_setlinear(p->subs[index].zfd, p->subs[index].linear); if (res) ast_log(LOG_WARNING, "Unable to set companded mode on channel %d\n", p->channel); } res = my_zt_write(p, (unsigned char *)frame->data, frame->datalen, index, 0); } if (res < 0) { ast_log(LOG_WARNING, "write failed: %s\n", strerror(errno)); return -1; } return 0; } static int zt_indicate(struct ast_channel *chan, int condition, const void *data, size_t datalen) { struct zt_pvt *p = chan->tech_pvt; int res=-1; int index; int func = ZT_FLASH; ast_mutex_lock(&p->lock); index = zt_get_index(chan, p, 0); if (option_debug) ast_log(LOG_DEBUG, "Requested indication %d on channel %s\n", condition, chan->name); if (index == SUB_REAL) { switch (condition) { case AST_CONTROL_BUSY: #ifdef HAVE_PRI if (p->priindication_oob && p->sig == SIG_PRI) { chan->hangupcause = AST_CAUSE_USER_BUSY; chan->_softhangup |= AST_SOFTHANGUP_DEV; res = 0; } else if (!p->progress && p->sig==SIG_PRI && p->pri && !p->outgoing) { if (p->pri->pri) { if (!pri_grab(p, p->pri)) { pri_progress(p->pri->pri,p->call, PVT_TO_CHANNEL(p), 1); pri_rel(p->pri); } else ast_log(LOG_WARNING, "Unable to grab PRI on span %d\n", p->span); } p->progress = 1; res = tone_zone_play_tone(p->subs[index].zfd, ZT_TONE_BUSY); } else #endif res = tone_zone_play_tone(p->subs[index].zfd, ZT_TONE_BUSY); break; case AST_CONTROL_RINGING: #ifdef HAVE_PRI if ((!p->alerting) && p->sig==SIG_PRI && p->pri && !p->outgoing && (chan->_state != AST_STATE_UP)) { if (p->pri->pri) { if (!pri_grab(p, p->pri)) { pri_acknowledge(p->pri->pri,p->call, PVT_TO_CHANNEL(p), !p->digital); pri_rel(p->pri); } else ast_log(LOG_WARNING, "Unable to grab PRI on span %d\n", p->span); } p->alerting = 1; } #endif res = tone_zone_play_tone(p->subs[index].zfd, ZT_TONE_RINGTONE); if (chan->_state != AST_STATE_UP) { if ((chan->_state != AST_STATE_RING) || ((p->sig != SIG_FXSKS) && (p->sig != SIG_FXSLS) && (p->sig != SIG_FXSGS))) ast_setstate(chan, AST_STATE_RINGING); } break; case AST_CONTROL_PROCEEDING: ast_log(LOG_DEBUG,"Received AST_CONTROL_PROCEEDING on %s\n",chan->name); #ifdef HAVE_PRI if (!p->proceeding && p->sig==SIG_PRI && p->pri && !p->outgoing) { if (p->pri->pri) { if (!pri_grab(p, p->pri)) { pri_proceeding(p->pri->pri,p->call, PVT_TO_CHANNEL(p), !p->digital); pri_rel(p->pri); } else ast_log(LOG_WARNING, "Unable to grab PRI on span %d\n", p->span); } p->proceeding = 1; } #endif /* don't continue in ast_indicate */ res = 0; break; case AST_CONTROL_PROGRESS: ast_log(LOG_DEBUG,"Received AST_CONTROL_PROGRESS on %s\n",chan->name); #ifdef HAVE_PRI p->digital = 0; /* Digital-only calls isn't allows any inband progress messages */ if (!p->progress && p->sig==SIG_PRI && p->pri && !p->outgoing) { if (p->pri->pri) { if (!pri_grab(p, p->pri)) { pri_progress(p->pri->pri,p->call, PVT_TO_CHANNEL(p), 1); pri_rel(p->pri); } else ast_log(LOG_WARNING, "Unable to grab PRI on span %d\n", p->span); } p->progress = 1; } #endif /* don't continue in ast_indicate */ res = 0; break; case AST_CONTROL_CONGESTION: chan->hangupcause = AST_CAUSE_CONGESTION; #ifdef HAVE_PRI if (p->priindication_oob && p->sig == SIG_PRI) { chan->hangupcause = AST_CAUSE_SWITCH_CONGESTION; chan->_softhangup |= AST_SOFTHANGUP_DEV; res = 0; } else if (!p->progress && p->sig==SIG_PRI && p->pri && !p->outgoing) { if (p->pri) { if (!pri_grab(p, p->pri)) { pri_progress(p->pri->pri,p->call, PVT_TO_CHANNEL(p), 1); pri_rel(p->pri); } else ast_log(LOG_WARNING, "Unable to grab PRI on span %d\n", p->span); } p->progress = 1; res = tone_zone_play_tone(p->subs[index].zfd, ZT_TONE_CONGESTION); } else #endif res = tone_zone_play_tone(p->subs[index].zfd, ZT_TONE_CONGESTION); break; case AST_CONTROL_HOLD: #ifdef HAVE_PRI if (p->pri && !strcasecmp(p->mohinterpret, "passthrough")) { if (!pri_grab(p, p->pri)) { res = pri_notify(p->pri->pri, p->call, p->prioffset, PRI_NOTIFY_REMOTE_HOLD); pri_rel(p->pri); } else ast_log(LOG_WARNING, "Unable to grab PRI on span %d\n", p->span); } else #endif ast_moh_start(chan, data, p->mohinterpret); break; case AST_CONTROL_UNHOLD: #ifdef HAVE_PRI if (p->pri && !strcasecmp(p->mohinterpret, "passthrough")) { if (!pri_grab(p, p->pri)) { res = pri_notify(p->pri->pri, p->call, p->prioffset, PRI_NOTIFY_REMOTE_RETRIEVAL); pri_rel(p->pri); } else ast_log(LOG_WARNING, "Unable to grab PRI on span %d\n", p->span); } else #endif ast_moh_stop(chan); break; case AST_CONTROL_RADIO_KEY: if (p->radio) res = zt_set_hook(p->subs[index].zfd, ZT_OFFHOOK); res = 0; break; case AST_CONTROL_RADIO_UNKEY: if (p->radio) res = zt_set_hook(p->subs[index].zfd, ZT_RINGOFF); res = 0; break; case AST_CONTROL_FLASH: /* flash hookswitch */ if (ISTRUNK(p) && (p->sig != SIG_PRI)) { /* Clear out the dial buffer */ p->dop.dialstr[0] = '\0'; if ((ioctl(p->subs[SUB_REAL].zfd,ZT_HOOK,&func) == -1) && (errno != EINPROGRESS)) { ast_log(LOG_WARNING, "Unable to flash external trunk on channel %s: %s\n", chan->name, strerror(errno)); } else res = 0; } else res = 0; break; case AST_CONTROL_SRCUPDATE: res = 0; break; case -1: res = tone_zone_play_tone(p->subs[index].zfd, -1); break; } } else res = 0; ast_mutex_unlock(&p->lock); return res; } static struct ast_channel *zt_new(struct zt_pvt *i, int state, int startpbx, int index, int law, int transfercapability) { struct ast_channel *tmp; int deflaw; int res; int x,y; int features; char *b2 = NULL; ZT_PARAMS ps; if (i->subs[index].owner) { ast_log(LOG_WARNING, "Channel %d already has a %s call\n", i->channel,subnames[index]); return NULL; } y = 1; do { if (b2) free(b2); #ifdef HAVE_PRI if (i->bearer || (i->pri && (i->sig == SIG_FXSKS))) b2 = ast_safe_string_alloc("%d:%d-%d", i->pri->trunkgroup, i->channel, y); else #endif if (i->channel == CHAN_PSEUDO) b2 = ast_safe_string_alloc("pseudo-%ld", ast_random()); else b2 = ast_safe_string_alloc("%d-%d", i->channel, y); for (x = 0; x < 3; x++) { if ((index != x) && i->subs[x].owner && !strcasecmp(b2, i->subs[x].owner->name)) break; } y++; } while (x < 3); tmp = ast_channel_alloc(0, state, i->cid_num, i->cid_name, i->accountcode, i->exten, i->context, i->amaflags, "Zap/%s", b2); if (b2) /*!> b2 can be freed now, it's been copied into the channel structure */ free(b2); if (!tmp) return NULL; tmp->tech = &zap_tech; ps.channo = i->channel; res = ioctl(i->subs[SUB_REAL].zfd, ZT_GET_PARAMS, &ps); if (res) { ast_log(LOG_WARNING, "Unable to get parameters, assuming MULAW\n"); ps.curlaw = ZT_LAW_MULAW; } if (ps.curlaw == ZT_LAW_ALAW) deflaw = AST_FORMAT_ALAW; else deflaw = AST_FORMAT_ULAW; if (law) { if (law == ZT_LAW_ALAW) deflaw = AST_FORMAT_ALAW; else deflaw = AST_FORMAT_ULAW; } tmp->fds[0] = i->subs[index].zfd; tmp->nativeformats = AST_FORMAT_SLINEAR | deflaw; /* Start out assuming ulaw since it's smaller :) */ tmp->rawreadformat = deflaw; tmp->readformat = deflaw; tmp->rawwriteformat = deflaw; tmp->writeformat = deflaw; i->subs[index].linear = 0; zt_setlinear(i->subs[index].zfd, i->subs[index].linear); features = 0; if (index == SUB_REAL) { if (i->busydetect && CANBUSYDETECT(i)) features |= DSP_FEATURE_BUSY_DETECT; if ((i->callprogress & 1) && CANPROGRESSDETECT(i)) features |= DSP_FEATURE_CALL_PROGRESS; if ((!i->outgoing && (i->callprogress & 4)) || (i->outgoing && (i->callprogress & 2))) { features |= DSP_FEATURE_FAX_DETECT; } #ifdef ZT_TONEDETECT x = ZT_TONEDETECT_ON | ZT_TONEDETECT_MUTE; if (ioctl(i->subs[index].zfd, ZT_TONEDETECT, &x)) { #endif i->hardwaredtmf = 0; features |= DSP_FEATURE_DTMF_DETECT; #ifdef ZT_TONEDETECT } else if (NEED_MFDETECT(i)) { i->hardwaredtmf = 1; features |= DSP_FEATURE_DTMF_DETECT; } #endif } if (features) { if (i->dsp) { ast_log(LOG_DEBUG, "Already have a dsp on %s?\n", tmp->name); } else { if (i->channel != CHAN_PSEUDO) i->dsp = ast_dsp_new(); else i->dsp = NULL; if (i->dsp) { i->dsp_features = features & ~DSP_PROGRESS_TALK; #ifdef HAVE_PRI /* We cannot do progress detection until receives PROGRESS message */ if (i->outgoing && (i->sig == SIG_PRI)) { /* Remember requested DSP features, don't treat talking as ANSWER */ features = 0; } #endif ast_dsp_set_features(i->dsp, features); ast_dsp_digitmode(i->dsp, DSP_DIGITMODE_DTMF | i->dtmfrelax); if (!ast_strlen_zero(progzone)) ast_dsp_set_call_progress_zone(i->dsp, progzone); if (i->busydetect && CANBUSYDETECT(i)) { ast_dsp_set_busy_count(i->dsp, i->busycount); ast_dsp_set_busy_pattern(i->dsp, i->busy_tonelength, i->busy_quietlength); } } } } if (state == AST_STATE_RING) tmp->rings = 1; tmp->tech_pvt = i; if ((i->sig == SIG_FXOKS) || (i->sig == SIG_FXOGS) || (i->sig == SIG_FXOLS)) { /* Only FXO signalled stuff can be picked up */ tmp->callgroup = i->callgroup; tmp->pickupgroup = i->pickupgroup; } if (!ast_strlen_zero(i->language)) ast_string_field_set(tmp, language, i->language); if (!i->owner) i->owner = tmp; if (!ast_strlen_zero(i->accountcode)) ast_string_field_set(tmp, accountcode, i->accountcode); if (i->amaflags) tmp->amaflags = i->amaflags; i->subs[index].owner = tmp; ast_copy_string(tmp->context, i->context, sizeof(tmp->context)); ast_string_field_set(tmp, call_forward, i->call_forward); /* If we've been told "no ADSI" then enforce it */ if (!i->adsi) tmp->adsicpe = AST_ADSI_UNAVAILABLE; if (!ast_strlen_zero(i->exten)) ast_copy_string(tmp->exten, i->exten, sizeof(tmp->exten)); if (!ast_strlen_zero(i->rdnis)) tmp->cid.cid_rdnis = ast_strdup(i->rdnis); if (!ast_strlen_zero(i->dnid)) tmp->cid.cid_dnid = ast_strdup(i->dnid); /* Don't use ast_set_callerid() here because it will * generate a needless NewCallerID event */ #ifdef PRI_ANI if (!ast_strlen_zero(i->cid_ani)) tmp->cid.cid_ani = ast_strdup(i->cid_ani); else tmp->cid.cid_ani = ast_strdup(i->cid_num); #else tmp->cid.cid_ani = ast_strdup(i->cid_num); #endif tmp->cid.cid_pres = i->callingpres; tmp->cid.cid_ton = i->cid_ton; #ifdef HAVE_PRI tmp->transfercapability = transfercapability; pbx_builtin_setvar_helper(tmp, "TRANSFERCAPABILITY", ast_transfercapability2str(transfercapability)); if (transfercapability & PRI_TRANS_CAP_DIGITAL) i->digital = 1; /* Assume calls are not idle calls unless we're told differently */ i->isidlecall = 0; i->alreadyhungup = 0; #endif /* clear the fake event in case we posted one before we had ast_channel */ i->fake_event = 0; /* Assure there is no confmute on this channel */ zt_confmute(i, 0); /* Configure the new channel jb */ ast_jb_configure(tmp, &global_jbconf); if (startpbx) { if (ast_pbx_start(tmp)) { ast_log(LOG_WARNING, "Unable to start PBX on %s\n", tmp->name); ast_hangup(tmp); i->owner = NULL; return NULL; } } ast_module_ref(ast_module_info->self); return tmp; } static int my_getsigstr(struct ast_channel *chan, char *str, const char *term, int ms) { char c; *str = 0; /* start with empty output buffer */ for (;;) { /* Wait for the first digit (up to specified ms). */ c = ast_waitfordigit(chan, ms); /* if timeout, hangup or error, return as such */ if (c < 1) return c; *str++ = c; *str = 0; if (strchr(term, c)) return 1; } } static int zt_wink(struct zt_pvt *p, int index) { int j; zt_set_hook(p->subs[index].zfd, ZT_WINK); for (;;) { /* set bits of interest */ j = ZT_IOMUX_SIGEVENT; /* wait for some happening */ if (ioctl(p->subs[index].zfd,ZT_IOMUX,&j) == -1) return(-1); /* exit loop if we have it */ if (j & ZT_IOMUX_SIGEVENT) break; } /* get the event info */ if (ioctl(p->subs[index].zfd,ZT_GETEVENT,&j) == -1) return(-1); return 0; } static void *ss_thread(void *data) { struct ast_channel *chan = data; struct zt_pvt *p = chan->tech_pvt; char exten[AST_MAX_EXTENSION] = ""; char exten2[AST_MAX_EXTENSION] = ""; unsigned char buf[256]; char dtmfcid[300]; char dtmfbuf[300]; struct callerid_state *cs = NULL; char *name = NULL, *number = NULL; int distMatches; int curRingData[3]; int receivedRingT; int counter1; int counter; int samples = 0; struct ast_smdi_md_message *smdi_msg = NULL; int flags; int i; int timeout; int getforward = 0; char *s1, *s2; int len = 0; int res; int index; /* in the bizarre case where the channel has become a zombie before we even get started here, abort safely */ if (!p) { ast_log(LOG_WARNING, "Channel became a zombie before simple switch could be started (%s)\n", chan->name); ast_hangup(chan); return NULL; } if (option_verbose > 2) ast_verbose( VERBOSE_PREFIX_3 "Starting simple switch on '%s'\n", chan->name); index = zt_get_index(chan, p, 1); if (index < 0) { ast_log(LOG_WARNING, "Huh?\n"); ast_hangup(chan); return NULL; } if (p->dsp) ast_dsp_digitreset(p->dsp); switch (p->sig) { #ifdef HAVE_PRI case SIG_PRI: /* Now loop looking for an extension */ ast_copy_string(exten, p->exten, sizeof(exten)); len = strlen(exten); res = 0; while ((len < AST_MAX_EXTENSION-1) && ast_matchmore_extension(chan, chan->context, exten, 1, p->cid_num)) { if (len && !ast_ignore_pattern(chan->context, exten)) tone_zone_play_tone(p->subs[index].zfd, -1); else tone_zone_play_tone(p->subs[index].zfd, ZT_TONE_DIALTONE); if (ast_exists_extension(chan, chan->context, exten, 1, p->cid_num)) timeout = matchdigittimeout; else timeout = gendigittimeout; res = ast_waitfordigit(chan, timeout); if (res < 0) { ast_log(LOG_DEBUG, "waitfordigit returned < 0...\n"); ast_hangup(chan); return NULL; } else if (res) { exten[len++] = res; exten[len] = '\0'; } else break; } /* if no extension was received ('unspecified') on overlap call, use the 's' extension */ if (ast_strlen_zero(exten)) { if (option_verbose > 2) ast_verbose(VERBOSE_PREFIX_3 "Going to extension s|1 because of empty extension received on overlap call\n"); exten[0] = 's'; exten[1] = '\0'; } tone_zone_play_tone(p->subs[index].zfd, -1); if (ast_exists_extension(chan, chan->context, exten, 1, p->cid_num)) { /* Start the real PBX */ ast_copy_string(chan->exten, exten, sizeof(chan->exten)); if (p->dsp) ast_dsp_digitreset(p->dsp); zt_enable_ec(p); ast_setstate(chan, AST_STATE_RING); res = ast_pbx_run(chan); if (res) { ast_log(LOG_WARNING, "PBX exited non-zero!\n"); } } else { ast_log(LOG_DEBUG, "No such possible extension '%s' in context '%s'\n", exten, chan->context); chan->hangupcause = AST_CAUSE_UNALLOCATED; ast_hangup(chan); p->exten[0] = '\0'; /* Since we send release complete here, we won't get one */ p->call = NULL; } return NULL; break; #endif case SIG_FEATD: case SIG_FEATDMF: case SIG_FEATDMF_TA: case SIG_E911: case SIG_FGC_CAMAMF: case SIG_FEATB: case SIG_EMWINK: case SIG_SF_FEATD: case SIG_SF_FEATDMF: case SIG_SF_FEATB: case SIG_SFWINK: if (zt_wink(p, index)) return NULL; /* Fall through */ case SIG_EM: case SIG_EM_E1: case SIG_SF: case SIG_FGC_CAMA: res = tone_zone_play_tone(p->subs[index].zfd, -1); if (p->dsp) ast_dsp_digitreset(p->dsp); /* set digit mode appropriately */ if (p->dsp) { if (NEED_MFDETECT(p)) ast_dsp_digitmode(p->dsp,DSP_DIGITMODE_MF | p->dtmfrelax); else ast_dsp_digitmode(p->dsp,DSP_DIGITMODE_DTMF | p->dtmfrelax); } memset(dtmfbuf, 0, sizeof(dtmfbuf)); /* Wait for the first digit only if immediate=no */ if (!p->immediate) /* Wait for the first digit (up to 5 seconds). */ res = ast_waitfordigit(chan, 5000); else res = 0; if (res > 0) { /* save first char */ dtmfbuf[0] = res; switch (p->sig) { case SIG_FEATD: case SIG_SF_FEATD: res = my_getsigstr(chan, dtmfbuf + 1, "*", 3000); if (res > 0) res = my_getsigstr(chan, dtmfbuf + strlen(dtmfbuf), "*", 3000); if ((res < 1) && (p->dsp)) ast_dsp_digitreset(p->dsp); break; case SIG_FEATDMF_TA: res = my_getsigstr(chan, dtmfbuf + 1, "#", 3000); if ((res < 1) && (p->dsp)) ast_dsp_digitreset(p->dsp); if (zt_wink(p, index)) return NULL; dtmfbuf[0] = 0; /* Wait for the first digit (up to 5 seconds). */ res = ast_waitfordigit(chan, 5000); if (res <= 0) break; dtmfbuf[0] = res; /* fall through intentionally */ case SIG_FEATDMF: case SIG_E911: case SIG_FGC_CAMAMF: case SIG_SF_FEATDMF: res = my_getsigstr(chan, dtmfbuf + 1, "#", 3000); /* if international caca, do it again to get real ANO */ if ((p->sig == SIG_FEATDMF) && (dtmfbuf[1] != '0') && (strlen(dtmfbuf) != 14)) { if (zt_wink(p, index)) return NULL; dtmfbuf[0] = 0; /* Wait for the first digit (up to 5 seconds). */ res = ast_waitfordigit(chan, 5000); if (res <= 0) break; dtmfbuf[0] = res; res = my_getsigstr(chan, dtmfbuf + 1, "#", 3000); } if (res > 0) { /* if E911, take off hook */ if (p->sig == SIG_E911) zt_set_hook(p->subs[SUB_REAL].zfd, ZT_OFFHOOK); res = my_getsigstr(chan, dtmfbuf + strlen(dtmfbuf), "#", 3000); } if ((res < 1) && (p->dsp)) ast_dsp_digitreset(p->dsp); break; case SIG_FEATB: case SIG_SF_FEATB: res = my_getsigstr(chan, dtmfbuf + 1, "#", 3000); if ((res < 1) && (p->dsp)) ast_dsp_digitreset(p->dsp); break; case SIG_EMWINK: /* if we received a '*', we are actually receiving Feature Group D dial syntax, so use that mode; otherwise, fall through to normal mode */ if (res == '*') { res = my_getsigstr(chan, dtmfbuf + 1, "*", 3000); if (res > 0) res = my_getsigstr(chan, dtmfbuf + strlen(dtmfbuf), "*", 3000); if ((res < 1) && (p->dsp)) ast_dsp_digitreset(p->dsp); break; } default: /* If we got the first digit, get the rest */ len = 1; dtmfbuf[len] = '\0'; while ((len < AST_MAX_EXTENSION-1) && ast_matchmore_extension(chan, chan->context, dtmfbuf, 1, p->cid_num)) { if (ast_exists_extension(chan, chan->context, dtmfbuf, 1, p->cid_num)) { timeout = matchdigittimeout; } else { timeout = gendigittimeout; } res = ast_waitfordigit(chan, timeout); if (res < 0) { ast_log(LOG_DEBUG, "waitfordigit returned < 0...\n"); ast_hangup(chan); return NULL; } else if (res) { dtmfbuf[len++] = res; dtmfbuf[len] = '\0'; } else { break; } } break; } } if (res == -1) { ast_log(LOG_WARNING, "getdtmf on channel %d: %s\n", p->channel, strerror(errno)); ast_hangup(chan); return NULL; } else if (res < 0) { ast_log(LOG_DEBUG, "Got hung up before digits finished\n"); ast_hangup(chan); return NULL; } if (p->sig == SIG_FGC_CAMA) { char anibuf[100]; if (ast_safe_sleep(chan,1000) == -1) { ast_hangup(chan); return NULL; } zt_set_hook(p->subs[SUB_REAL].zfd, ZT_OFFHOOK); ast_dsp_digitmode(p->dsp,DSP_DIGITMODE_MF | p->dtmfrelax); res = my_getsigstr(chan, anibuf, "#", 10000); if ((res > 0) && (strlen(anibuf) > 2)) { if (anibuf[strlen(anibuf) - 1] == '#') anibuf[strlen(anibuf) - 1] = 0; ast_set_callerid(chan, anibuf + 2, NULL, anibuf + 2); } ast_dsp_digitmode(p->dsp,DSP_DIGITMODE_DTMF | p->dtmfrelax); } ast_copy_string(exten, dtmfbuf, sizeof(exten)); if (ast_strlen_zero(exten)) ast_copy_string(exten, "s", sizeof(exten)); if (p->sig == SIG_FEATD || p->sig == SIG_EMWINK) { /* Look for Feature Group D on all E&M Wink and Feature Group D trunks */ if (exten[0] == '*') { char *stringp=NULL; ast_copy_string(exten2, exten, sizeof(exten2)); /* Parse out extension and callerid */ stringp=exten2 +1; s1 = strsep(&stringp, "*"); s2 = strsep(&stringp, "*"); if (s2) { if (!ast_strlen_zero(p->cid_num)) ast_set_callerid(chan, p->cid_num, NULL, p->cid_num); else ast_set_callerid(chan, s1, NULL, s1); ast_copy_string(exten, s2, sizeof(exten)); } else ast_copy_string(exten, s1, sizeof(exten)); } else if (p->sig == SIG_FEATD) ast_log(LOG_WARNING, "Got a non-Feature Group D input on channel %d. Assuming E&M Wink instead\n", p->channel); } if ((p->sig == SIG_FEATDMF) || (p->sig == SIG_FEATDMF_TA)) { if (exten[0] == '*') { char *stringp=NULL; ast_copy_string(exten2, exten, sizeof(exten2)); /* Parse out extension and callerid */ stringp=exten2 +1; s1 = strsep(&stringp, "#"); s2 = strsep(&stringp, "#"); if (s2) { if (!ast_strlen_zero(p->cid_num)) ast_set_callerid(chan, p->cid_num, NULL, p->cid_num); else if (*(s1 + 2)) ast_set_callerid(chan, s1 + 2, NULL, s1 + 2); ast_copy_string(exten, s2 + 1, sizeof(exten)); } else ast_copy_string(exten, s1 + 2, sizeof(exten)); } else ast_log(LOG_WARNING, "Got a non-Feature Group D input on channel %d. Assuming E&M Wink instead\n", p->channel); } if ((p->sig == SIG_E911) || (p->sig == SIG_FGC_CAMAMF)) { if (exten[0] == '*') { char *stringp=NULL; ast_copy_string(exten2, exten, sizeof(exten2)); /* Parse out extension and callerid */ stringp=exten2 +1; s1 = strsep(&stringp, "#"); s2 = strsep(&stringp, "#"); if (s2 && (*(s2 + 1) == '0')) { if (*(s2 + 2)) ast_set_callerid(chan, s2 + 2, NULL, s2 + 2); } if (s1) ast_copy_string(exten, s1, sizeof(exten)); else ast_copy_string(exten, "911", sizeof(exten)); } else ast_log(LOG_WARNING, "Got a non-E911/FGC CAMA input on channel %d. Assuming E&M Wink instead\n", p->channel); } if (p->sig == SIG_FEATB) { if (exten[0] == '*') { char *stringp=NULL; ast_copy_string(exten2, exten, sizeof(exten2)); /* Parse out extension and callerid */ stringp=exten2 +1; s1 = strsep(&stringp, "#"); ast_copy_string(exten, exten2 + 1, sizeof(exten)); } else ast_log(LOG_WARNING, "Got a non-Feature Group B input on channel %d. Assuming E&M Wink instead\n", p->channel); } if ((p->sig == SIG_FEATDMF) || (p->sig == SIG_FEATDMF_TA)) { zt_wink(p, index); /* some switches require a minimum guard time between the last FGD wink and something that answers immediately. This ensures it */ if (ast_safe_sleep(chan,100)) return NULL; } zt_enable_ec(p); if (NEED_MFDETECT(p)) { if (p->dsp) { if (!p->hardwaredtmf) ast_dsp_digitmode(p->dsp,DSP_DIGITMODE_DTMF | p->dtmfrelax); else { ast_dsp_free(p->dsp); p->dsp = NULL; } } } if (ast_exists_extension(chan, chan->context, exten, 1, chan->cid.cid_num)) { ast_copy_string(chan->exten, exten, sizeof(chan->exten)); if (p->dsp) ast_dsp_digitreset(p->dsp); res = ast_pbx_run(chan); if (res) { ast_log(LOG_WARNING, "PBX exited non-zero\n"); res = tone_zone_play_tone(p->subs[index].zfd, ZT_TONE_CONGESTION); } return NULL; } else { if (option_verbose > 2) ast_verbose(VERBOSE_PREFIX_2 "Unknown extension '%s' in context '%s' requested\n", exten, chan->context); sleep(2); res = tone_zone_play_tone(p->subs[index].zfd, ZT_TONE_INFO); if (res < 0) ast_log(LOG_WARNING, "Unable to start special tone on %d\n", p->channel); else sleep(1); res = ast_streamfile(chan, "ss-noservice", chan->language); if (res >= 0) ast_waitstream(chan, ""); res = tone_zone_play_tone(p->subs[index].zfd, ZT_TONE_CONGESTION); ast_hangup(chan); return NULL; } break; case SIG_FXOLS: case SIG_FXOGS: case SIG_FXOKS: /* Read the first digit */ timeout = firstdigittimeout; /* If starting a threeway call, never timeout on the first digit so someone can use flash-hook as a "hold" feature */ if (p->subs[SUB_THREEWAY].owner) timeout = 999999; while (len < AST_MAX_EXTENSION-1) { /* Read digit unless it's supposed to be immediate, in which case the only answer is 's' */ if (p->immediate) res = 's'; else res = ast_waitfordigit(chan, timeout); timeout = 0; if (res < 0) { ast_log(LOG_DEBUG, "waitfordigit returned < 0...\n"); res = tone_zone_play_tone(p->subs[index].zfd, -1); ast_hangup(chan); return NULL; } else if (res) { exten[len++]=res; exten[len] = '\0'; } if (!ast_ignore_pattern(chan->context, exten)) tone_zone_play_tone(p->subs[index].zfd, -1); else tone_zone_play_tone(p->subs[index].zfd, ZT_TONE_DIALTONE); if (ast_exists_extension(chan, chan->context, exten, 1, p->cid_num) && strcmp(exten, ast_parking_ext())) { if (!res || !ast_matchmore_extension(chan, chan->context, exten, 1, p->cid_num)) { if (getforward) { /* Record this as the forwarding extension */ ast_copy_string(p->call_forward, exten, sizeof(p->call_forward)); if (option_verbose > 2) ast_verbose(VERBOSE_PREFIX_3 "Setting call forward to '%s' on channel %d\n", p->call_forward, p->channel); res = tone_zone_play_tone(p->subs[index].zfd, ZT_TONE_DIALRECALL); if (res) break; usleep(500000); res = tone_zone_play_tone(p->subs[index].zfd, -1); sleep(1); memset(exten, 0, sizeof(exten)); res = tone_zone_play_tone(p->subs[index].zfd, ZT_TONE_DIALTONE); len = 0; getforward = 0; } else { res = tone_zone_play_tone(p->subs[index].zfd, -1); ast_copy_string(chan->exten, exten, sizeof(chan->exten)); if (!ast_strlen_zero(p->cid_num)) { if (!p->hidecallerid) ast_set_callerid(chan, p->cid_num, NULL, p->cid_num); else ast_set_callerid(chan, NULL, NULL, p->cid_num); } if (!ast_strlen_zero(p->cid_name)) { if (!p->hidecallerid) ast_set_callerid(chan, NULL, p->cid_name, NULL); } ast_setstate(chan, AST_STATE_RING); zt_enable_ec(p); res = ast_pbx_run(chan); if (res) { ast_log(LOG_WARNING, "PBX exited non-zero\n"); res = tone_zone_play_tone(p->subs[index].zfd, ZT_TONE_CONGESTION); } return NULL; } } else { /* It's a match, but they just typed a digit, and there is an ambiguous match, so just set the timeout to matchdigittimeout and wait some more */ timeout = matchdigittimeout; } } else if (res == 0) { ast_log(LOG_DEBUG, "not enough digits (and no ambiguous match)...\n"); res = tone_zone_play_tone(p->subs[index].zfd, ZT_TONE_CONGESTION); zt_wait_event(p->subs[index].zfd); ast_hangup(chan); return NULL; } else if (p->callwaiting && !strcmp(exten, "*70")) { if (option_verbose > 2) ast_verbose(VERBOSE_PREFIX_3 "Disabling call waiting on %s\n", chan->name); /* Disable call waiting if enabled */ p->callwaiting = 0; res = tone_zone_play_tone(p->subs[index].zfd, ZT_TONE_DIALRECALL); if (res) { ast_log(LOG_WARNING, "Unable to do dial recall on channel %s: %s\n", chan->name, strerror(errno)); } len = 0; ioctl(p->subs[index].zfd,ZT_CONFDIAG,&len); memset(exten, 0, sizeof(exten)); timeout = firstdigittimeout; } else if (!strcmp(exten,ast_pickup_ext())) { /* Scan all channels and see if there are any * ringing channels that have call groups * that equal this channels pickup group */ if (index == SUB_REAL) { /* Switch us from Third call to Call Wait */ if (p->subs[SUB_THREEWAY].owner) { /* If you make a threeway call and the *8# a call, it should actually look like a callwait */ alloc_sub(p, SUB_CALLWAIT); swap_subs(p, SUB_CALLWAIT, SUB_THREEWAY); unalloc_sub(p, SUB_THREEWAY); } zt_enable_ec(p); if (ast_pickup_call(chan)) { ast_log(LOG_DEBUG, "No call pickup possible...\n"); res = tone_zone_play_tone(p->subs[index].zfd, ZT_TONE_CONGESTION); zt_wait_event(p->subs[index].zfd); } ast_hangup(chan); return NULL; } else { ast_log(LOG_WARNING, "Huh? Got *8# on call not on real\n"); ast_hangup(chan); return NULL; } } else if (!p->hidecallerid && !strcmp(exten, "*67")) { if (option_verbose > 2) ast_verbose(VERBOSE_PREFIX_3 "Disabling Caller*ID on %s\n", chan->name); /* Disable Caller*ID if enabled */ p->hidecallerid = 1; if (chan->cid.cid_num) free(chan->cid.cid_num); chan->cid.cid_num = NULL; if (chan->cid.cid_name) free(chan->cid.cid_name); chan->cid.cid_name = NULL; res = tone_zone_play_tone(p->subs[index].zfd, ZT_TONE_DIALRECALL); if (res) { ast_log(LOG_WARNING, "Unable to do dial recall on channel %s: %s\n", chan->name, strerror(errno)); } len = 0; memset(exten, 0, sizeof(exten)); timeout = firstdigittimeout; } else if (p->callreturn && !strcmp(exten, "*69")) { res = 0; if (!ast_strlen_zero(p->lastcid_num)) { res = ast_say_digit_str(chan, p->lastcid_num, "", chan->language); } if (!res) res = tone_zone_play_tone(p->subs[index].zfd, ZT_TONE_DIALRECALL); break; } else if (!strcmp(exten, "*78")) { /* Do not disturb */ if (option_verbose > 2) ast_verbose(VERBOSE_PREFIX_3 "Enabled DND on channel %d\n", p->channel); manager_event(EVENT_FLAG_SYSTEM, "DNDState", "Channel: Zap/%d\r\n" "Status: enabled\r\n", p->channel); res = tone_zone_play_tone(p->subs[index].zfd, ZT_TONE_DIALRECALL); p->dnd = 1; getforward = 0; memset(exten, 0, sizeof(exten)); len = 0; } else if (!strcmp(exten, "*79")) { /* Do not disturb */ if (option_verbose > 2) ast_verbose(VERBOSE_PREFIX_3 "Disabled DND on channel %d\n", p->channel); manager_event(EVENT_FLAG_SYSTEM, "DNDState", "Channel: Zap/%d\r\n" "Status: disabled\r\n", p->channel); res = tone_zone_play_tone(p->subs[index].zfd, ZT_TONE_DIALRECALL); p->dnd = 0; getforward = 0; memset(exten, 0, sizeof(exten)); len = 0; } else if (p->cancallforward && !strcmp(exten, "*72")) { res = tone_zone_play_tone(p->subs[index].zfd, ZT_TONE_DIALRECALL); getforward = 1; memset(exten, 0, sizeof(exten)); len = 0; } else if (p->cancallforward && !strcmp(exten, "*73")) { if (option_verbose > 2) ast_verbose(VERBOSE_PREFIX_3 "Cancelling call forwarding on channel %d\n", p->channel); res = tone_zone_play_tone(p->subs[index].zfd, ZT_TONE_DIALRECALL); memset(p->call_forward, 0, sizeof(p->call_forward)); getforward = 0; memset(exten, 0, sizeof(exten)); len = 0; } else if ((p->transfer || p->canpark) && !strcmp(exten, ast_parking_ext()) && p->subs[SUB_THREEWAY].owner && ast_bridged_channel(p->subs[SUB_THREEWAY].owner)) { /* This is a three way call, the main call being a real channel, and we're parking the first call. */ ast_masq_park_call(ast_bridged_channel(p->subs[SUB_THREEWAY].owner), chan, 0, NULL); if (option_verbose > 2) ast_verbose(VERBOSE_PREFIX_3 "Parking call to '%s'\n", chan->name); break; } else if (!ast_strlen_zero(p->lastcid_num) && !strcmp(exten, "*60")) { if (option_verbose > 2) ast_verbose(VERBOSE_PREFIX_3 "Blacklisting number %s\n", p->lastcid_num); res = ast_db_put("blacklist", p->lastcid_num, "1"); if (!res) { res = tone_zone_play_tone(p->subs[index].zfd, ZT_TONE_DIALRECALL); memset(exten, 0, sizeof(exten)); len = 0; } } else if (p->hidecallerid && !strcmp(exten, "*82")) { if (option_verbose > 2) ast_verbose(VERBOSE_PREFIX_3 "Enabling Caller*ID on %s\n", chan->name); /* Enable Caller*ID if enabled */ p->hidecallerid = 0; if (chan->cid.cid_num) free(chan->cid.cid_num); chan->cid.cid_num = NULL; if (chan->cid.cid_name) free(chan->cid.cid_name); chan->cid.cid_name = NULL; ast_set_callerid(chan, p->cid_num, p->cid_name, NULL); res = tone_zone_play_tone(p->subs[index].zfd, ZT_TONE_DIALRECALL); if (res) { ast_log(LOG_WARNING, "Unable to do dial recall on channel %s: %s\n", chan->name, strerror(errno)); } len = 0; memset(exten, 0, sizeof(exten)); timeout = firstdigittimeout; } else if (!strcmp(exten, "*0")) { struct ast_channel *nbridge = p->subs[SUB_THREEWAY].owner; struct zt_pvt *pbridge = NULL; /* set up the private struct of the bridged one, if any */ if (nbridge && ast_bridged_channel(nbridge)) pbridge = ast_bridged_channel(nbridge)->tech_pvt; if (nbridge && pbridge && (nbridge->tech == &zap_tech) && (ast_bridged_channel(nbridge)->tech == &zap_tech) && ISTRUNK(pbridge)) { int func = ZT_FLASH; /* Clear out the dial buffer */ p->dop.dialstr[0] = '\0'; /* flash hookswitch */ if ((ioctl(pbridge->subs[SUB_REAL].zfd,ZT_HOOK,&func) == -1) && (errno != EINPROGRESS)) { ast_log(LOG_WARNING, "Unable to flash external trunk on channel %s: %s\n", nbridge->name, strerror(errno)); } swap_subs(p, SUB_REAL, SUB_THREEWAY); unalloc_sub(p, SUB_THREEWAY); p->owner = p->subs[SUB_REAL].owner; if (ast_bridged_channel(p->subs[SUB_REAL].owner)) ast_queue_control(p->subs[SUB_REAL].owner, AST_CONTROL_UNHOLD); ast_hangup(chan); return NULL; } else { tone_zone_play_tone(p->subs[index].zfd, ZT_TONE_CONGESTION); zt_wait_event(p->subs[index].zfd); tone_zone_play_tone(p->subs[index].zfd, -1); swap_subs(p, SUB_REAL, SUB_THREEWAY); unalloc_sub(p, SUB_THREEWAY); p->owner = p->subs[SUB_REAL].owner; ast_hangup(chan); return NULL; } } else if (!ast_canmatch_extension(chan, chan->context, exten, 1, chan->cid.cid_num) && ((exten[0] != '*') || (strlen(exten) > 2))) { if (option_debug) ast_log(LOG_DEBUG, "Can't match %s from '%s' in context %s\n", exten, chan->cid.cid_num ? chan->cid.cid_num : "", chan->context); break; } if (!timeout) timeout = gendigittimeout; if (len && !ast_ignore_pattern(chan->context, exten)) tone_zone_play_tone(p->subs[index].zfd, -1); } break; case SIG_FXSLS: case SIG_FXSGS: case SIG_FXSKS: #ifdef HAVE_PRI if (p->pri) { /* This is a GR-303 trunk actually. Wait for the first ring... */ struct ast_frame *f; int res; time_t start; time(&start); ast_setstate(chan, AST_STATE_RING); while (time(NULL) < start + 3) { res = ast_waitfor(chan, 1000); if (res) { f = ast_read(chan); if (!f) { ast_log(LOG_WARNING, "Whoa, hangup while waiting for first ring!\n"); ast_hangup(chan); return NULL; } else if ((f->frametype == AST_FRAME_CONTROL) && (f->subclass == AST_CONTROL_RING)) { res = 1; } else res = 0; ast_frfree(f); if (res) { ast_log(LOG_DEBUG, "Got ring!\n"); res = 0; break; } } } } #endif /* check for SMDI messages */ if (p->use_smdi && p->smdi_iface) { smdi_msg = ast_smdi_md_message_wait(p->smdi_iface, SMDI_MD_WAIT_TIMEOUT); if (smdi_msg != NULL) { ast_copy_string(chan->exten, smdi_msg->fwd_st, sizeof(chan->exten)); if (smdi_msg->type == 'B') pbx_builtin_setvar_helper(chan, "_SMDI_VM_TYPE", "b"); else if (smdi_msg->type == 'N') pbx_builtin_setvar_helper(chan, "_SMDI_VM_TYPE", "u"); ast_log(LOG_DEBUG, "Recieved SMDI message on %s\n", chan->name); } else { ast_log(LOG_WARNING, "SMDI enabled but no SMDI message present\n"); } } if (p->use_callerid && (p->cid_signalling == CID_SIG_SMDI && smdi_msg)) { number = smdi_msg->calling_st; /* If we want caller id, we're in a prering state due to a polarity reversal * and we're set to use a polarity reversal to trigger the start of caller id, * grab the caller id and wait for ringing to start... */ } else if (p->use_callerid && (chan->_state == AST_STATE_PRERING && p->cid_start == CID_START_POLARITY)) { /* If set to use DTMF CID signalling, listen for DTMF */ if (p->cid_signalling == CID_SIG_DTMF) { int i = 0; cs = NULL; ast_log(LOG_DEBUG, "Receiving DTMF cid on " "channel %s\n", chan->name); zt_setlinear(p->subs[index].zfd, 0); res = 2000; for (;;) { struct ast_frame *f; res = ast_waitfor(chan, res); if (res <= 0) { ast_log(LOG_WARNING, "DTMFCID timed out waiting for ring. " "Exiting simple switch\n"); ast_hangup(chan); return NULL; } f = ast_read(chan); if (!f) break; if (f->frametype == AST_FRAME_DTMF) { dtmfbuf[i++] = f->subclass; ast_log(LOG_DEBUG, "CID got digit '%c'\n", f->subclass); res = 2000; } ast_frfree(f); if (chan->_state == AST_STATE_RING || chan->_state == AST_STATE_RINGING) break; /* Got ring */ } dtmfbuf[i] = '\0'; zt_setlinear(p->subs[index].zfd, p->subs[index].linear); /* Got cid and ring. */ ast_log(LOG_DEBUG, "CID got string '%s'\n", dtmfbuf); callerid_get_dtmf(dtmfbuf, dtmfcid, &flags); ast_log(LOG_DEBUG, "CID is '%s', flags %d\n", dtmfcid, flags); /* If first byte is NULL, we have no cid */ if (!ast_strlen_zero(dtmfcid)) number = dtmfcid; else number = NULL; /* If set to use V23 Signalling, launch our FSK gubbins and listen for it */ } else if ((p->cid_signalling == CID_SIG_V23) || (p->cid_signalling == CID_SIG_V23_JP)) { cs = callerid_new(p->cid_signalling); if (cs) { samples = 0; #if 1 bump_gains(p); #endif /* Take out of linear mode for Caller*ID processing */ zt_setlinear(p->subs[index].zfd, 0); /* First we wait and listen for the Caller*ID */ for (;;) { i = ZT_IOMUX_READ | ZT_IOMUX_SIGEVENT; if ((res = ioctl(p->subs[index].zfd, ZT_IOMUX, &i))) { ast_log(LOG_WARNING, "I/O MUX failed: %s\n", strerror(errno)); callerid_free(cs); ast_hangup(chan); return NULL; } if (i & ZT_IOMUX_SIGEVENT) { res = zt_get_event(p->subs[index].zfd); ast_log(LOG_NOTICE, "Got event %d (%s)...\n", res, event2str(res)); if (p->cid_signalling == CID_SIG_V23_JP) { #ifdef ZT_EVENT_RINGBEGIN if (res == ZT_EVENT_RINGBEGIN) { res = zt_set_hook(p->subs[SUB_REAL].zfd, ZT_OFFHOOK); usleep(1); } #endif } else { res = 0; break; } } else if (i & ZT_IOMUX_READ) { res = read(p->subs[index].zfd, buf, sizeof(buf)); if (res < 0) { if (errno != ELAST) { ast_log(LOG_WARNING, "read returned error: %s\n", strerror(errno)); callerid_free(cs); ast_hangup(chan); return NULL; } break; } samples += res; if (p->cid_signalling == CID_SIG_V23_JP) { res = callerid_feed_jp(cs, buf, res, AST_LAW(p)); } else { res = callerid_feed(cs, buf, res, AST_LAW(p)); } if (res < 0) { ast_log(LOG_WARNING, "CallerID feed failed: %s\n", strerror(errno)); break; } else if (res) break; else if (samples > (8000 * 10)) break; } } if (res == 1) { callerid_get(cs, &name, &number, &flags); ast_log(LOG_NOTICE, "CallerID number: %s, name: %s, flags=%d\n", number, name, flags); } if (res < 0) { ast_log(LOG_WARNING, "CallerID returned with error on channel '%s'\n", chan->name); } if (p->cid_signalling == CID_SIG_V23_JP) { res = zt_set_hook(p->subs[SUB_REAL].zfd, ZT_ONHOOK); usleep(1); res = 4000; } else { /* Finished with Caller*ID, now wait for a ring to make sure there really is a call coming */ res = 2000; } for (;;) { struct ast_frame *f; res = ast_waitfor(chan, res); if (res <= 0) { ast_log(LOG_WARNING, "CID timed out waiting for ring. " "Exiting simple switch\n"); ast_hangup(chan); return NULL; } f = ast_read(chan); ast_frfree(f); if (chan->_state == AST_STATE_RING || chan->_state == AST_STATE_RINGING) break; /* Got ring */ } /* We must have a ring by now, so, if configured, lets try to listen for * distinctive ringing */ if (p->usedistinctiveringdetection == 1) { len = 0; distMatches = 0; /* Clear the current ring data array so we dont have old data in it. */ for (receivedRingT = 0; receivedRingT < (sizeof(curRingData) / sizeof(curRingData[0])); receivedRingT++) curRingData[receivedRingT] = 0; receivedRingT = 0; counter = 0; counter1 = 0; /* Check to see if context is what it should be, if not set to be. */ if (strcmp(p->context,p->defcontext) != 0) { ast_copy_string(p->context, p->defcontext, sizeof(p->context)); ast_copy_string(chan->context,p->defcontext,sizeof(chan->context)); } for (;;) { i = ZT_IOMUX_READ | ZT_IOMUX_SIGEVENT; if ((res = ioctl(p->subs[index].zfd, ZT_IOMUX, &i))) { ast_log(LOG_WARNING, "I/O MUX failed: %s\n", strerror(errno)); callerid_free(cs); ast_hangup(chan); return NULL; } if (i & ZT_IOMUX_SIGEVENT) { res = zt_get_event(p->subs[index].zfd); ast_log(LOG_NOTICE, "Got event %d (%s)...\n", res, event2str(res)); res = 0; /* Let us detect distinctive ring */ curRingData[receivedRingT] = p->ringt; if (p->ringt < p->ringt_base/2) break; /* Increment the ringT counter so we can match it against values in zapata.conf for distinctive ring */ if (++receivedRingT == (sizeof(curRingData) / sizeof(curRingData[0]))) break; } else if (i & ZT_IOMUX_READ) { res = read(p->subs[index].zfd, buf, sizeof(buf)); if (res < 0) { if (errno != ELAST) { ast_log(LOG_WARNING, "read returned error: %s\n", strerror(errno)); callerid_free(cs); ast_hangup(chan); return NULL; } break; } if (p->ringt) p->ringt--; if (p->ringt == 1) { res = -1; break; } } } if (option_verbose > 2) /* this only shows up if you have n of the dring patterns filled in */ ast_verbose( VERBOSE_PREFIX_3 "Detected ring pattern: %d,%d,%d\n",curRingData[0],curRingData[1],curRingData[2]); for (counter = 0; counter < 3; counter++) { /* Check to see if the rings we received match any of the ones in zapata.conf for this channel */ distMatches = 0; for (counter1 = 0; counter1 < 3; counter1++) { if (curRingData[counter1] <= (p->drings.ringnum[counter].ring[counter1]+10) && curRingData[counter1] >= (p->drings.ringnum[counter].ring[counter1]-10)) { distMatches++; } } if (distMatches == 3) { /* The ring matches, set the context to whatever is for distinctive ring.. */ ast_copy_string(p->context, p->drings.ringContext[counter].contextData, sizeof(p->context)); ast_copy_string(chan->context, p->drings.ringContext[counter].contextData, sizeof(chan->context)); if (option_verbose > 2) ast_verbose( VERBOSE_PREFIX_3 "Distinctive Ring matched context %s\n",p->context); break; } } } /* Restore linear mode (if appropriate) for Caller*ID processing */ zt_setlinear(p->subs[index].zfd, p->subs[index].linear); #if 1 restore_gains(p); #endif } else ast_log(LOG_WARNING, "Unable to get caller ID space\n"); } else { ast_log(LOG_WARNING, "Channel %s in prering " "state, but I have nothing to do. " "Terminating simple switch, should be " "restarted by the actual ring.\n", chan->name); ast_hangup(chan); return NULL; } } else if (p->use_callerid && p->cid_start == CID_START_RING) { /* FSK Bell202 callerID */ cs = callerid_new(p->cid_signalling); if (cs) { #if 1 bump_gains(p); #endif samples = 0; len = 0; distMatches = 0; /* Clear the current ring data array so we dont have old data in it. */ for (receivedRingT = 0; receivedRingT < (sizeof(curRingData) / sizeof(curRingData[0])); receivedRingT++) curRingData[receivedRingT] = 0; receivedRingT = 0; counter = 0; counter1 = 0; /* Check to see if context is what it should be, if not set to be. */ if (strcmp(p->context,p->defcontext) != 0) { ast_copy_string(p->context, p->defcontext, sizeof(p->context)); ast_copy_string(chan->context,p->defcontext,sizeof(chan->context)); } /* Take out of linear mode for Caller*ID processing */ zt_setlinear(p->subs[index].zfd, 0); for (;;) { i = ZT_IOMUX_READ | ZT_IOMUX_SIGEVENT; if ((res = ioctl(p->subs[index].zfd, ZT_IOMUX, &i))) { ast_log(LOG_WARNING, "I/O MUX failed: %s\n", strerror(errno)); callerid_free(cs); ast_hangup(chan); return NULL; } if (i & ZT_IOMUX_SIGEVENT) { res = zt_get_event(p->subs[index].zfd); ast_log(LOG_NOTICE, "Got event %d (%s)...\n", res, event2str(res)); /* If we get a PR event, they hung up while processing calerid */ if ( res == ZT_EVENT_POLARITY && p->hanguponpolarityswitch && p->polarity == POLARITY_REV) { ast_log(LOG_DEBUG, "Hanging up due to polarity reversal on channel %d while detecting callerid\n", p->channel); p->polarity = POLARITY_IDLE; callerid_free(cs); ast_hangup(chan); return NULL; } res = 0; /* Let us detect callerid when the telco uses distinctive ring */ curRingData[receivedRingT] = p->ringt; if (p->ringt < p->ringt_base/2) break; /* Increment the ringT counter so we can match it against values in zapata.conf for distinctive ring */ if (++receivedRingT == (sizeof(curRingData) / sizeof(curRingData[0]))) break; } else if (i & ZT_IOMUX_READ) { res = read(p->subs[index].zfd, buf, sizeof(buf)); if (res < 0) { if (errno != ELAST) { ast_log(LOG_WARNING, "read returned error: %s\n", strerror(errno)); callerid_free(cs); ast_hangup(chan); return NULL; } break; } if (p->ringt) p->ringt--; if (p->ringt == 1) { res = -1; break; } samples += res; res = callerid_feed(cs, buf, res, AST_LAW(p)); if (res < 0) { ast_log(LOG_WARNING, "CallerID feed failed: %s\n", strerror(errno)); break; } else if (res) break; else if (samples > (8000 * 10)) break; } } if (res == 1) { callerid_get(cs, &name, &number, &flags); if (option_debug) ast_log(LOG_DEBUG, "CallerID number: %s, name: %s, flags=%d\n", number, name, flags); } if (distinctiveringaftercid == 1) { /* Clear the current ring data array so we dont have old data in it. */ for (receivedRingT = 0; receivedRingT < 3; receivedRingT++) { curRingData[receivedRingT] = 0; } receivedRingT = 0; if (option_verbose > 2) ast_verbose( VERBOSE_PREFIX_3 "Detecting post-CID distinctive ring\n"); for (;;) { i = ZT_IOMUX_READ | ZT_IOMUX_SIGEVENT; if ((res = ioctl(p->subs[index].zfd, ZT_IOMUX, &i))) { ast_log(LOG_WARNING, "I/O MUX failed: %s\n", strerror(errno)); callerid_free(cs); ast_hangup(chan); return NULL; } if (i & ZT_IOMUX_SIGEVENT) { res = zt_get_event(p->subs[index].zfd); ast_log(LOG_NOTICE, "Got event %d (%s)...\n", res, event2str(res)); res = 0; /* Let us detect callerid when the telco uses distinctive ring */ curRingData[receivedRingT] = p->ringt; if (p->ringt < p->ringt_base/2) break; /* Increment the ringT counter so we can match it against values in zapata.conf for distinctive ring */ if (++receivedRingT == (sizeof(curRingData) / sizeof(curRingData[0]))) break; } else if (i & ZT_IOMUX_READ) { res = read(p->subs[index].zfd, buf, sizeof(buf)); if (res < 0) { if (errno != ELAST) { ast_log(LOG_WARNING, "read returned error: %s\n", strerror(errno)); callerid_free(cs); ast_hangup(chan); return NULL; } break; } if (p->ringt) p->ringt--; if (p->ringt == 1) { res = -1; break; } } } } if (p->usedistinctiveringdetection == 1) { if (option_verbose > 2) /* this only shows up if you have n of the dring patterns filled in */ ast_verbose( VERBOSE_PREFIX_3 "Detected ring pattern: %d,%d,%d\n",curRingData[0],curRingData[1],curRingData[2]); for (counter = 0; counter < 3; counter++) { /* Check to see if the rings we received match any of the ones in zapata.conf for this channel */ if (option_verbose > 2) /* this only shows up if you have n of the dring patterns filled in */ ast_verbose( VERBOSE_PREFIX_3 "Checking %d,%d,%d\n", p->drings.ringnum[counter].ring[0], p->drings.ringnum[counter].ring[1], p->drings.ringnum[counter].ring[2]); distMatches = 0; for (counter1 = 0; counter1 < 3; counter1++) { if (curRingData[counter1] <= (p->drings.ringnum[counter].ring[counter1]+10) && curRingData[counter1] >= (p->drings.ringnum[counter].ring[counter1]-10)) { distMatches++; } } if (distMatches == 3) { /* The ring matches, set the context to whatever is for distinctive ring.. */ ast_copy_string(p->context, p->drings.ringContext[counter].contextData, sizeof(p->context)); ast_copy_string(chan->context, p->drings.ringContext[counter].contextData, sizeof(chan->context)); if (option_verbose > 2) ast_verbose( VERBOSE_PREFIX_3 "Distinctive Ring matched context %s\n",p->context); break; } } } /* Restore linear mode (if appropriate) for Caller*ID processing */ zt_setlinear(p->subs[index].zfd, p->subs[index].linear); #if 1 restore_gains(p); #endif if (res < 0) { ast_log(LOG_WARNING, "CallerID returned with error on channel '%s'\n", chan->name); } } else ast_log(LOG_WARNING, "Unable to get caller ID space\n"); } else cs = NULL; if (number) ast_shrink_phone_number(number); ast_set_callerid(chan, number, name, number); if (smdi_msg) ASTOBJ_UNREF(smdi_msg, ast_smdi_md_message_destroy); if (cs) callerid_free(cs); ast_setstate(chan, AST_STATE_RING); chan->rings = 1; p->ringt = p->ringt_base; res = ast_pbx_run(chan); if (res) { ast_hangup(chan); ast_log(LOG_WARNING, "PBX exited non-zero\n"); } return NULL; default: ast_log(LOG_WARNING, "Don't know how to handle simple switch with signalling %s on channel %d\n", sig2str(p->sig), p->channel); res = tone_zone_play_tone(p->subs[index].zfd, ZT_TONE_CONGESTION); if (res < 0) ast_log(LOG_WARNING, "Unable to play congestion tone on channel %d\n", p->channel); } res = tone_zone_play_tone(p->subs[index].zfd, ZT_TONE_CONGESTION); if (res < 0) ast_log(LOG_WARNING, "Unable to play congestion tone on channel %d\n", p->channel); ast_hangup(chan); return NULL; } /* destroy a zaptel channel, identified by its number */ static int zap_destroy_channel_bynum(int channel) { struct zt_pvt *tmp = NULL; struct zt_pvt *prev = NULL; tmp = iflist; while (tmp) { if (tmp->channel == channel) { destroy_channel(prev, tmp, 1); return RESULT_SUCCESS; } prev = tmp; tmp = tmp->next; } return RESULT_FAILURE; } static int handle_init_event(struct zt_pvt *i, int event) { int res; pthread_t threadid; pthread_attr_t attr; struct ast_channel *chan; pthread_attr_init(&attr); pthread_attr_setdetachstate(&attr, PTHREAD_CREATE_DETACHED); /* Handle an event on a given channel for the monitor thread. */ switch (event) { case ZT_EVENT_NONE: case ZT_EVENT_BITSCHANGED: break; case ZT_EVENT_WINKFLASH: case ZT_EVENT_RINGOFFHOOK: if (i->inalarm) break; if (i->radio) break; /* Got a ring/answer. What kind of channel are we? */ switch (i->sig) { case SIG_FXOLS: case SIG_FXOGS: case SIG_FXOKS: res = zt_set_hook(i->subs[SUB_REAL].zfd, ZT_OFFHOOK); if (res && (errno == EBUSY)) break; if (i->cidspill) { /* Cancel VMWI spill */ free(i->cidspill); i->cidspill = NULL; } if (i->immediate) { zt_enable_ec(i); /* The channel is immediately up. Start right away */ res = tone_zone_play_tone(i->subs[SUB_REAL].zfd, ZT_TONE_RINGTONE); chan = zt_new(i, AST_STATE_RING, 1, SUB_REAL, 0, 0); if (!chan) { ast_log(LOG_WARNING, "Unable to start PBX on channel %d\n", i->channel); res = tone_zone_play_tone(i->subs[SUB_REAL].zfd, ZT_TONE_CONGESTION); if (res < 0) ast_log(LOG_WARNING, "Unable to play congestion tone on channel %d\n", i->channel); } } else { /* Check for callerid, digits, etc */ chan = zt_new(i, AST_STATE_RESERVED, 0, SUB_REAL, 0, 0); if (chan) { if (has_voicemail(i)) res = tone_zone_play_tone(i->subs[SUB_REAL].zfd, ZT_TONE_STUTTER); else res = tone_zone_play_tone(i->subs[SUB_REAL].zfd, ZT_TONE_DIALTONE); if (res < 0) ast_log(LOG_WARNING, "Unable to play dialtone on channel %d, do you have defaultzone and loadzone defined?\n", i->channel); if (ast_pthread_create(&threadid, &attr, ss_thread, chan)) { ast_log(LOG_WARNING, "Unable to start simple switch thread on channel %d\n", i->channel); res = tone_zone_play_tone(i->subs[SUB_REAL].zfd, ZT_TONE_CONGESTION); if (res < 0) ast_log(LOG_WARNING, "Unable to play congestion tone on channel %d\n", i->channel); ast_hangup(chan); } } else ast_log(LOG_WARNING, "Unable to create channel\n"); } break; case SIG_FXSLS: case SIG_FXSGS: case SIG_FXSKS: i->ringt = i->ringt_base; /* Fall through */ case SIG_EMWINK: case SIG_FEATD: case SIG_FEATDMF: case SIG_FEATDMF_TA: case SIG_E911: case SIG_FGC_CAMA: case SIG_FGC_CAMAMF: case SIG_FEATB: case SIG_EM: case SIG_EM_E1: case SIG_SFWINK: case SIG_SF_FEATD: case SIG_SF_FEATDMF: case SIG_SF_FEATB: case SIG_SF: /* Check for callerid, digits, etc */ chan = zt_new(i, AST_STATE_RING, 0, SUB_REAL, 0, 0); if (chan && ast_pthread_create(&threadid, &attr, ss_thread, chan)) { ast_log(LOG_WARNING, "Unable to start simple switch thread on channel %d\n", i->channel); res = tone_zone_play_tone(i->subs[SUB_REAL].zfd, ZT_TONE_CONGESTION); if (res < 0) ast_log(LOG_WARNING, "Unable to play congestion tone on channel %d\n", i->channel); ast_hangup(chan); } else if (!chan) { ast_log(LOG_WARNING, "Cannot allocate new structure on channel %d\n", i->channel); } break; default: ast_log(LOG_WARNING, "Don't know how to handle ring/answer with signalling %s on channel %d\n", sig2str(i->sig), i->channel); res = tone_zone_play_tone(i->subs[SUB_REAL].zfd, ZT_TONE_CONGESTION); if (res < 0) ast_log(LOG_WARNING, "Unable to play congestion tone on channel %d\n", i->channel); return -1; } break; case ZT_EVENT_NOALARM: i->inalarm = 0; if (!i->unknown_alarm) { ast_log(LOG_NOTICE, "Alarm cleared on channel %d\n", i->channel); manager_event(EVENT_FLAG_SYSTEM, "AlarmClear", "Channel: %d\r\n", i->channel); } else { i->unknown_alarm = 0; } break; case ZT_EVENT_ALARM: i->inalarm = 1; res = get_alarms(i); do { const char *alarm_str = alarm2str(res); /* hack alert! Zaptel 1.4 now exposes FXO battery as an alarm, but asterisk 1.4 * doesn't know what to do with it. Don't confuse users with log messages. */ if (!strcasecmp(alarm_str, "No Alarm") || !strcasecmp(alarm_str, "Unknown Alarm")) { i->unknown_alarm = 1; break; } else { i->unknown_alarm = 0; } ast_log(LOG_WARNING, "Detected alarm on channel %d: %s\n", i->channel, alarm_str); manager_event(EVENT_FLAG_SYSTEM, "Alarm", "Alarm: %s\r\n" "Channel: %d\r\n", alarm_str, i->channel); } while (0); /* fall thru intentionally */ case ZT_EVENT_ONHOOK: if (i->radio) break; /* Back on hook. Hang up. */ switch (i->sig) { case SIG_FXOLS: case SIG_FXOGS: case SIG_FEATD: case SIG_FEATDMF: case SIG_FEATDMF_TA: case SIG_E911: case SIG_FGC_CAMA: case SIG_FGC_CAMAMF: case SIG_FEATB: case SIG_EM: case SIG_EM_E1: case SIG_EMWINK: case SIG_SF_FEATD: case SIG_SF_FEATDMF: case SIG_SF_FEATB: case SIG_SF: case SIG_SFWINK: case SIG_FXSLS: case SIG_FXSGS: case SIG_FXSKS: case SIG_GR303FXSKS: zt_disable_ec(i); res = tone_zone_play_tone(i->subs[SUB_REAL].zfd, -1); zt_set_hook(i->subs[SUB_REAL].zfd, ZT_ONHOOK); break; case SIG_GR303FXOKS: case SIG_FXOKS: zt_disable_ec(i); /* Diddle the battery for the zhone */ #ifdef ZHONE_HACK zt_set_hook(i->subs[SUB_REAL].zfd, ZT_OFFHOOK); usleep(1); #endif res = tone_zone_play_tone(i->subs[SUB_REAL].zfd, -1); zt_set_hook(i->subs[SUB_REAL].zfd, ZT_ONHOOK); break; case SIG_PRI: zt_disable_ec(i); res = tone_zone_play_tone(i->subs[SUB_REAL].zfd, -1); break; default: ast_log(LOG_WARNING, "Don't know how to handle on hook with signalling %s on channel %d\n", sig2str(i->sig), i->channel); res = tone_zone_play_tone(i->subs[SUB_REAL].zfd, -1); return -1; } break; case ZT_EVENT_POLARITY: switch (i->sig) { case SIG_FXSLS: case SIG_FXSKS: case SIG_FXSGS: /* We have already got a PR before the channel was created, but it wasn't handled. We need polarity to be REV for remote hangup detection to work. At least in Spain */ if (i->hanguponpolarityswitch) i->polarity = POLARITY_REV; if (i->cid_start == CID_START_POLARITY) { i->polarity = POLARITY_REV; ast_verbose(VERBOSE_PREFIX_2 "Starting post polarity " "CID detection on channel %d\n", i->channel); chan = zt_new(i, AST_STATE_PRERING, 0, SUB_REAL, 0, 0); if (chan && ast_pthread_create(&threadid, &attr, ss_thread, chan)) { ast_log(LOG_WARNING, "Unable to start simple switch thread on channel %d\n", i->channel); } } break; default: ast_log(LOG_WARNING, "handle_init_event detected " "polarity reversal on non-FXO (SIG_FXS) " "interface %d\n", i->channel); } break; case ZT_EVENT_REMOVED: /* destroy channel */ ast_log(LOG_NOTICE, "Got ZT_EVENT_REMOVED. Destroying channel %d\n", i->channel); zap_destroy_channel_bynum(i->channel); break; } pthread_attr_destroy(&attr); return 0; } static void *do_monitor(void *data) { int count, res, res2, spoint, pollres=0; struct zt_pvt *i; struct zt_pvt *last = NULL; time_t thispass = 0, lastpass = 0; int found; char buf[1024]; struct pollfd *pfds=NULL; int lastalloc = -1; /* This thread monitors all the frame relay interfaces which are not yet in use (and thus do not have a separate thread) indefinitely */ /* From here on out, we die whenever asked */ #if 0 if (pthread_setcanceltype(PTHREAD_CANCEL_ASYNCHRONOUS, NULL)) { ast_log(LOG_WARNING, "Unable to set cancel type to asynchronous\n"); return NULL; } ast_log(LOG_DEBUG, "Monitor starting...\n"); #endif for (;;) { /* Lock the interface list */ ast_mutex_lock(&iflock); if (!pfds || (lastalloc != ifcount)) { if (pfds) { free(pfds); pfds = NULL; } if (ifcount) { if (!(pfds = ast_calloc(1, ifcount * sizeof(*pfds)))) { ast_mutex_unlock(&iflock); return NULL; } } lastalloc = ifcount; } /* Build the stuff we're going to poll on, that is the socket of every zt_pvt that does not have an associated owner channel */ count = 0; i = iflist; while (i) { if ((i->subs[SUB_REAL].zfd > -1) && i->sig && (!i->radio)) { if (!i->owner && !i->subs[SUB_REAL].owner) { /* This needs to be watched, as it lacks an owner */ pfds[count].fd = i->subs[SUB_REAL].zfd; pfds[count].events = POLLPRI; pfds[count].revents = 0; /* Message waiting or r2 channels also get watched for reading */ if (i->cidspill) pfds[count].events |= POLLIN; count++; } } i = i->next; } /* Okay, now that we know what to do, release the interface lock */ ast_mutex_unlock(&iflock); pthread_testcancel(); /* Wait at least a second for something to happen */ res = poll(pfds, count, 1000); pthread_testcancel(); /* Okay, poll has finished. Let's see what happened. */ if (res < 0) { if ((errno != EAGAIN) && (errno != EINTR)) ast_log(LOG_WARNING, "poll return %d: %s\n", res, strerror(errno)); continue; } /* Alright, lock the interface list again, and let's look and see what has happened */ ast_mutex_lock(&iflock); found = 0; spoint = 0; lastpass = thispass; thispass = time(NULL); i = iflist; while (i) { if (thispass != lastpass) { if (!found && ((i == last) || ((i == iflist) && !last))) { last = i; if (last) { if (!last->cidspill && !last->owner && !ast_strlen_zero(last->mailbox) && (thispass - last->onhooktime > 3) && (last->sig & __ZT_SIG_FXO)) { res = ast_app_has_voicemail(last->mailbox, NULL); if (last->msgstate != res) { int x; ast_log(LOG_DEBUG, "Message status for %s changed from %d to %d on %d\n", last->mailbox, last->msgstate, res, last->channel); x = ZT_FLUSH_BOTH; res2 = ioctl(last->subs[SUB_REAL].zfd, ZT_FLUSH, &x); if (res2) ast_log(LOG_WARNING, "Unable to flush input on channel %d\n", last->channel); if ((last->cidspill = ast_calloc(1, MAX_CALLERID_SIZE))) { /* Turn on on hook transfer for 4 seconds */ x = 4000; ioctl(last->subs[SUB_REAL].zfd, ZT_ONHOOKTRANSFER, &x); last->cidlen = vmwi_generate(last->cidspill, res, 1, AST_LAW(last)); last->cidpos = 0; last->msgstate = res; last->onhooktime = thispass; } found ++; } } last = last->next; } } } if ((i->subs[SUB_REAL].zfd > -1) && i->sig) { if (i->radio && !i->owner) { res = zt_get_event(i->subs[SUB_REAL].zfd); if (res) { if (option_debug) ast_log(LOG_DEBUG, "Monitor doohicky got event %s on radio channel %d\n", event2str(res), i->channel); /* Don't hold iflock while handling init events */ ast_mutex_unlock(&iflock); handle_init_event(i, res); ast_mutex_lock(&iflock); } i = i->next; continue; } pollres = ast_fdisset(pfds, i->subs[SUB_REAL].zfd, count, &spoint); if (pollres & POLLIN) { if (i->owner || i->subs[SUB_REAL].owner) { #ifdef HAVE_PRI if (!i->pri) #endif ast_log(LOG_WARNING, "Whoa.... I'm owned but found (%d) in read...\n", i->subs[SUB_REAL].zfd); i = i->next; continue; } if (!i->cidspill) { ast_log(LOG_WARNING, "Whoa.... I'm reading but have no cidspill (%d)...\n", i->subs[SUB_REAL].zfd); i = i->next; continue; } res = read(i->subs[SUB_REAL].zfd, buf, sizeof(buf)); if (res > 0) { /* We read some number of bytes. Write an equal amount of data */ if (res > i->cidlen - i->cidpos) res = i->cidlen - i->cidpos; res2 = write(i->subs[SUB_REAL].zfd, i->cidspill + i->cidpos, res); if (res2 > 0) { i->cidpos += res2; if (i->cidpos >= i->cidlen) { free(i->cidspill); i->cidspill = 0; i->cidpos = 0; i->cidlen = 0; } } else { ast_log(LOG_WARNING, "Write failed: %s\n", strerror(errno)); i->msgstate = -1; } } else { ast_log(LOG_WARNING, "Read failed with %d: %s\n", res, strerror(errno)); } } if (pollres & POLLPRI) { if (i->owner || i->subs[SUB_REAL].owner) { #ifdef HAVE_PRI if (!i->pri) #endif ast_log(LOG_WARNING, "Whoa.... I'm owned but found (%d)...\n", i->subs[SUB_REAL].zfd); i = i->next; continue; } res = zt_get_event(i->subs[SUB_REAL].zfd); if (option_debug) ast_log(LOG_DEBUG, "Monitor doohicky got event %s on channel %d\n", event2str(res), i->channel); /* Don't hold iflock while handling init events */ ast_mutex_unlock(&iflock); handle_init_event(i, res); ast_mutex_lock(&iflock); } } i=i->next; } ast_mutex_unlock(&iflock); } /* Never reached */ return NULL; } static int restart_monitor(void) { pthread_attr_t attr; pthread_attr_init(&attr); pthread_attr_setdetachstate(&attr, PTHREAD_CREATE_DETACHED); /* If we're supposed to be stopped -- stay stopped */ if (monitor_thread == AST_PTHREADT_STOP) return 0; ast_mutex_lock(&monlock); if (monitor_thread == pthread_self()) { ast_mutex_unlock(&monlock); ast_log(LOG_WARNING, "Cannot kill myself\n"); return -1; } if (monitor_thread != AST_PTHREADT_NULL) { /* Wake up the thread */ pthread_kill(monitor_thread, SIGURG); } else { /* Start a new monitor */ if (ast_pthread_create_background(&monitor_thread, &attr, do_monitor, NULL) < 0) { ast_mutex_unlock(&monlock); ast_log(LOG_ERROR, "Unable to start monitor thread.\n"); pthread_attr_destroy(&attr); return -1; } } ast_mutex_unlock(&monlock); pthread_attr_destroy(&attr); return 0; } #ifdef HAVE_PRI static int pri_resolve_span(int *span, int channel, int offset, struct zt_spaninfo *si) { int x; int trunkgroup; /* Get appropriate trunk group if there is one */ trunkgroup = pris[*span].mastertrunkgroup; if (trunkgroup) { /* Select a specific trunk group */ for (x = 0; x < NUM_SPANS; x++) { if (pris[x].trunkgroup == trunkgroup) { *span = x; return 0; } } ast_log(LOG_WARNING, "Channel %d on span %d configured to use nonexistent trunk group %d\n", channel, *span, trunkgroup); *span = -1; } else { if (pris[*span].trunkgroup) { ast_log(LOG_WARNING, "Unable to use span %d implicitly since it is trunk group %d (please use spanmap)\n", *span, pris[*span].trunkgroup); *span = -1; } else if (pris[*span].mastertrunkgroup) { ast_log(LOG_WARNING, "Unable to use span %d implicitly since it is already part of trunk group %d\n", *span, pris[*span].mastertrunkgroup); *span = -1; } else { if (si->totalchans == 31) { /* if it's an E1 */ pris[*span].dchannels[0] = 16 + offset; } else { pris[*span].dchannels[0] = 24 + offset; } pris[*span].dchanavail[0] |= DCHAN_PROVISIONED; pris[*span].offset = offset; pris[*span].span = *span + 1; } } return 0; } static int pri_create_trunkgroup(int trunkgroup, int *channels) { struct zt_spaninfo si; ZT_PARAMS p; int fd; int span; int ospan=0; int x,y; for (x = 0; x < NUM_SPANS; x++) { if (pris[x].trunkgroup == trunkgroup) { ast_log(LOG_WARNING, "Trunk group %d already exists on span %d, Primary d-channel %d\n", trunkgroup, x + 1, pris[x].dchannels[0]); return -1; } } for (y = 0; y < NUM_DCHANS; y++) { if (!channels[y]) break; memset(&si, 0, sizeof(si)); memset(&p, 0, sizeof(p)); fd = open("/dev/zap/channel", O_RDWR); if (fd < 0) { ast_log(LOG_WARNING, "Failed to open channel: %s\n", strerror(errno)); return -1; } x = channels[y]; if (ioctl(fd, ZT_SPECIFY, &x)) { ast_log(LOG_WARNING, "Failed to specify channel %d: %s\n", channels[y], strerror(errno)); zt_close(fd); return -1; } if (ioctl(fd, ZT_GET_PARAMS, &p)) { ast_log(LOG_WARNING, "Failed to get channel parameters for channel %d: %s\n", channels[y], strerror(errno)); return -1; } if (ioctl(fd, ZT_SPANSTAT, &si)) { ast_log(LOG_WARNING, "Failed go get span information on channel %d (span %d)\n", channels[y], p.spanno); zt_close(fd); return -1; } span = p.spanno - 1; if (pris[span].trunkgroup) { ast_log(LOG_WARNING, "Span %d is already provisioned for trunk group %d\n", span + 1, pris[span].trunkgroup); zt_close(fd); return -1; } if (pris[span].pvts[0]) { ast_log(LOG_WARNING, "Span %d is already provisioned with channels (implicit PRI maybe?)\n", span + 1); zt_close(fd); return -1; } if (!y) { pris[span].trunkgroup = trunkgroup; pris[span].offset = channels[y] - p.chanpos; ospan = span; } pris[ospan].dchannels[y] = channels[y]; pris[ospan].dchanavail[y] |= DCHAN_PROVISIONED; pris[span].span = span + 1; zt_close(fd); } return 0; } static int pri_create_spanmap(int span, int trunkgroup, int logicalspan) { if (pris[span].mastertrunkgroup) { ast_log(LOG_WARNING, "Span %d is already part of trunk group %d, cannot add to trunk group %d\n", span + 1, pris[span].mastertrunkgroup, trunkgroup); return -1; } pris[span].mastertrunkgroup = trunkgroup; pris[span].prilogicalspan = logicalspan; return 0; } #endif static struct zt_pvt *mkintf(int channel, struct zt_chan_conf conf, struct zt_pri *pri, int reloading) { /* Make a zt_pvt structure for this interface (or CRV if "pri" is specified) */ struct zt_pvt *tmp = NULL, *tmp2, *prev = NULL; char fn[80]; #if 1 struct zt_bufferinfo bi; #endif struct zt_spaninfo si; int res; int span=0; int here = 0; int x; struct zt_pvt **wlist; struct zt_pvt **wend; ZT_PARAMS p; wlist = &iflist; wend = &ifend; #ifdef HAVE_PRI if (pri) { wlist = &pri->crvs; wend = &pri->crvend; } #endif tmp2 = *wlist; prev = NULL; while (tmp2) { if (!tmp2->destroy) { if (tmp2->channel == channel) { tmp = tmp2; here = 1; break; } if (tmp2->channel > channel) { break; } } prev = tmp2; tmp2 = tmp2->next; } if (!here && !reloading) { if (!(tmp = ast_calloc(1, sizeof(*tmp)))) { destroy_zt_pvt(&tmp); return NULL; } ast_mutex_init(&tmp->lock); ifcount++; for (x = 0; x < 3; x++) tmp->subs[x].zfd = -1; tmp->channel = channel; } if (tmp) { if (!here) { if ((channel != CHAN_PSEUDO) && !pri) { snprintf(fn, sizeof(fn), "%d", channel); /* Open non-blocking */ if (!here) tmp->subs[SUB_REAL].zfd = zt_open(fn); /* Allocate a zapata structure */ if (tmp->subs[SUB_REAL].zfd < 0) { ast_log(LOG_ERROR, "Unable to open channel %d: %s\nhere = %d, tmp->channel = %d, channel = %d\n", channel, strerror(errno), here, tmp->channel, channel); destroy_zt_pvt(&tmp); return NULL; } memset(&p, 0, sizeof(p)); res = ioctl(tmp->subs[SUB_REAL].zfd, ZT_GET_PARAMS, &p); if (res < 0) { ast_log(LOG_ERROR, "Unable to get parameters\n"); destroy_zt_pvt(&tmp); return NULL; } if (p.sigtype != (conf.chan.sig & 0x3ffff)) { ast_log(LOG_ERROR, "Signalling requested on channel %d is %s but line is in %s signalling\n", channel, sig2str(conf.chan.sig), sig2str(p.sigtype)); destroy_zt_pvt(&tmp); return NULL; } tmp->law = p.curlaw; tmp->span = p.spanno; span = p.spanno - 1; } else { if (channel == CHAN_PSEUDO) conf.chan.sig = 0; else if ((conf.chan.sig != SIG_FXOKS) && (conf.chan.sig != SIG_FXSKS)) { ast_log(LOG_ERROR, "CRV's must use FXO/FXS Kewl Start (fxo_ks/fxs_ks) signalling only.\n"); return NULL; } } #ifdef HAVE_PRI if ((conf.chan.sig == SIG_PRI) || (conf.chan.sig == SIG_GR303FXOKS) || (conf.chan.sig == SIG_GR303FXSKS)) { int offset; int myswitchtype; int matchesdchan; int x,y; offset = 0; if ((conf.chan.sig == SIG_PRI) && ioctl(tmp->subs[SUB_REAL].zfd, ZT_AUDIOMODE, &offset)) { ast_log(LOG_ERROR, "Unable to set clear mode on clear channel %d of span %d: %s\n", channel, p.spanno, strerror(errno)); destroy_zt_pvt(&tmp); return NULL; } if (span >= NUM_SPANS) { ast_log(LOG_ERROR, "Channel %d does not lie on a span I know of (%d)\n", channel, span); destroy_zt_pvt(&tmp); return NULL; } else { si.spanno = 0; if (ioctl(tmp->subs[SUB_REAL].zfd,ZT_SPANSTAT,&si) == -1) { ast_log(LOG_ERROR, "Unable to get span status: %s\n", strerror(errno)); destroy_zt_pvt(&tmp); return NULL; } /* Store the logical span first based upon the real span */ tmp->logicalspan = pris[span].prilogicalspan; pri_resolve_span(&span, channel, (channel - p.chanpos), &si); if (span < 0) { ast_log(LOG_WARNING, "Channel %d: Unable to find locate channel/trunk group!\n", channel); destroy_zt_pvt(&tmp); return NULL; } if (conf.chan.sig == SIG_PRI) myswitchtype = conf.pri.switchtype; else myswitchtype = PRI_SWITCH_GR303_TMC; /* Make sure this isn't a d-channel */ matchesdchan=0; for (x = 0; x < NUM_SPANS; x++) { for (y = 0; y < NUM_DCHANS; y++) { if (pris[x].dchannels[y] == tmp->channel) { matchesdchan = 1; break; } } } offset = p.chanpos; if (!matchesdchan) { if (pris[span].nodetype && (pris[span].nodetype != conf.pri.nodetype)) { ast_log(LOG_ERROR, "Span %d is already a %s node\n", span + 1, pri_node2str(pris[span].nodetype)); destroy_zt_pvt(&tmp); return NULL; } if (pris[span].switchtype && (pris[span].switchtype != myswitchtype)) { ast_log(LOG_ERROR, "Span %d is already a %s switch\n", span + 1, pri_switch2str(pris[span].switchtype)); destroy_zt_pvt(&tmp); return NULL; } if ((pris[span].dialplan) && (pris[span].dialplan != conf.pri.dialplan)) { ast_log(LOG_ERROR, "Span %d is already a %s dialing plan\n", span + 1, dialplan2str(pris[span].dialplan)); destroy_zt_pvt(&tmp); return NULL; } if (!ast_strlen_zero(pris[span].idledial) && strcmp(pris[span].idledial, conf.pri.idledial)) { ast_log(LOG_ERROR, "Span %d already has idledial '%s'.\n", span + 1, conf.pri.idledial); destroy_zt_pvt(&tmp); return NULL; } if (!ast_strlen_zero(pris[span].idleext) && strcmp(pris[span].idleext, conf.pri.idleext)) { ast_log(LOG_ERROR, "Span %d already has idleext '%s'.\n", span + 1, conf.pri.idleext); destroy_zt_pvt(&tmp); return NULL; } if (pris[span].minunused && (pris[span].minunused != conf.pri.minunused)) { ast_log(LOG_ERROR, "Span %d already has minunused of %d.\n", span + 1, conf.pri.minunused); destroy_zt_pvt(&tmp); return NULL; } if (pris[span].minidle && (pris[span].minidle != conf.pri.minidle)) { ast_log(LOG_ERROR, "Span %d already has minidle of %d.\n", span + 1, conf.pri.minidle); destroy_zt_pvt(&tmp); return NULL; } if (pris[span].numchans >= MAX_CHANNELS) { ast_log(LOG_ERROR, "Unable to add channel %d: Too many channels in trunk group %d!\n", channel, pris[span].trunkgroup); destroy_zt_pvt(&tmp); return NULL; } pris[span].nodetype = conf.pri.nodetype; pris[span].switchtype = myswitchtype; pris[span].nsf = conf.pri.nsf; pris[span].dialplan = conf.pri.dialplan; pris[span].localdialplan = conf.pri.localdialplan; pris[span].pvts[pris[span].numchans++] = tmp; pris[span].minunused = conf.pri.minunused; pris[span].minidle = conf.pri.minidle; pris[span].overlapdial = conf.pri.overlapdial; pris[span].facilityenable = conf.pri.facilityenable; ast_copy_string(pris[span].idledial, conf.pri.idledial, sizeof(pris[span].idledial)); ast_copy_string(pris[span].idleext, conf.pri.idleext, sizeof(pris[span].idleext)); ast_copy_string(pris[span].internationalprefix, conf.pri.internationalprefix, sizeof(pris[span].internationalprefix)); ast_copy_string(pris[span].nationalprefix, conf.pri.nationalprefix, sizeof(pris[span].nationalprefix)); ast_copy_string(pris[span].localprefix, conf.pri.localprefix, sizeof(pris[span].localprefix)); ast_copy_string(pris[span].privateprefix, conf.pri.privateprefix, sizeof(pris[span].privateprefix)); ast_copy_string(pris[span].unknownprefix, conf.pri.unknownprefix, sizeof(pris[span].unknownprefix)); pris[span].resetinterval = conf.pri.resetinterval; tmp->pri = &pris[span]; tmp->prioffset = offset; tmp->call = NULL; } else { ast_log(LOG_ERROR, "Channel %d is reserved for D-channel.\n", offset); destroy_zt_pvt(&tmp); return NULL; } } } else { tmp->prioffset = 0; } #endif } else { conf.chan.sig = tmp->sig; conf.chan.radio = tmp->radio; memset(&p, 0, sizeof(p)); if (tmp->subs[SUB_REAL].zfd > -1) res = ioctl(tmp->subs[SUB_REAL].zfd, ZT_GET_PARAMS, &p); } /* Adjust starttime on loopstart and kewlstart trunks to reasonable values */ if ((conf.chan.sig == SIG_FXSKS) || (conf.chan.sig == SIG_FXSLS) || (conf.chan.sig == SIG_EM) || (conf.chan.sig == SIG_EM_E1) || (conf.chan.sig == SIG_EMWINK) || (conf.chan.sig == SIG_FEATD) || (conf.chan.sig == SIG_FEATDMF) || (conf.chan.sig == SIG_FEATDMF_TA) || (conf.chan.sig == SIG_FEATB) || (conf.chan.sig == SIG_E911) || (conf.chan.sig == SIG_SF) || (conf.chan.sig == SIG_SFWINK) || (conf.chan.sig == SIG_FGC_CAMA) || (conf.chan.sig == SIG_FGC_CAMAMF) || (conf.chan.sig == SIG_SF_FEATD) || (conf.chan.sig == SIG_SF_FEATDMF) || (conf.chan.sig == SIG_SF_FEATB)) { p.starttime = 250; } if (conf.chan.radio) { /* XXX Waiting to hear back from Jim if these should be adjustable XXX */ p.channo = channel; p.rxwinktime = 1; p.rxflashtime = 1; p.starttime = 1; p.debouncetime = 5; } if (!conf.chan.radio) { p.channo = channel; /* Override timing settings based on config file */ if (conf.timing.prewinktime >= 0) p.prewinktime = conf.timing.prewinktime; if (conf.timing.preflashtime >= 0) p.preflashtime = conf.timing.preflashtime; if (conf.timing.winktime >= 0) p.winktime = conf.timing.winktime; if (conf.timing.flashtime >= 0) p.flashtime = conf.timing.flashtime; if (conf.timing.starttime >= 0) p.starttime = conf.timing.starttime; if (conf.timing.rxwinktime >= 0) p.rxwinktime = conf.timing.rxwinktime; if (conf.timing.rxflashtime >= 0) p.rxflashtime = conf.timing.rxflashtime; if (conf.timing.debouncetime >= 0) p.debouncetime = conf.timing.debouncetime; } /* dont set parms on a pseudo-channel (or CRV) */ if (tmp->subs[SUB_REAL].zfd >= 0) { res = ioctl(tmp->subs[SUB_REAL].zfd, ZT_SET_PARAMS, &p); if (res < 0) { ast_log(LOG_ERROR, "Unable to set parameters\n"); destroy_zt_pvt(&tmp); return NULL; } } #if 1 if (!here && (tmp->subs[SUB_REAL].zfd > -1)) { memset(&bi, 0, sizeof(bi)); res = ioctl(tmp->subs[SUB_REAL].zfd, ZT_GET_BUFINFO, &bi); if (!res) { bi.txbufpolicy = ZT_POLICY_IMMEDIATE; bi.rxbufpolicy = ZT_POLICY_IMMEDIATE; bi.numbufs = numbufs; res = ioctl(tmp->subs[SUB_REAL].zfd, ZT_SET_BUFINFO, &bi); if (res < 0) { ast_log(LOG_WARNING, "Unable to set buffer policy on channel %d\n", channel); } } else ast_log(LOG_WARNING, "Unable to check buffer policy on channel %d\n", channel); } #endif tmp->immediate = conf.chan.immediate; tmp->transfertobusy = conf.chan.transfertobusy; tmp->sig = conf.chan.sig; tmp->outsigmod = conf.chan.outsigmod; tmp->radio = conf.chan.radio; tmp->ringt_base = ringt_base; tmp->firstradio = 0; if ((conf.chan.sig == SIG_FXOKS) || (conf.chan.sig == SIG_FXOLS) || (conf.chan.sig == SIG_FXOGS)) tmp->permcallwaiting = conf.chan.callwaiting; else tmp->permcallwaiting = 0; /* Flag to destroy the channel must be cleared on new mkif. Part of changes for reload to work */ tmp->destroy = 0; tmp->drings = drings; tmp->usedistinctiveringdetection = conf.chan.usedistinctiveringdetection; tmp->callwaitingcallerid = conf.chan.callwaitingcallerid; tmp->threewaycalling = conf.chan.threewaycalling; tmp->adsi = conf.chan.adsi; tmp->use_smdi = conf.chan.use_smdi; tmp->permhidecallerid = conf.chan.hidecallerid; tmp->callreturn = conf.chan.callreturn; tmp->echocancel = conf.chan.echocancel; tmp->echotraining = conf.chan.echotraining; tmp->pulse = conf.chan.pulse; if (tmp->echocancel) tmp->echocanbridged = conf.chan.echocanbridged; else { if (conf.chan.echocanbridged) ast_log(LOG_NOTICE, "echocancelwhenbridged requires echocancel to be enabled; ignoring\n"); tmp->echocanbridged = 0; } tmp->busydetect = conf.chan.busydetect; tmp->busycount = conf.chan.busycount; tmp->busy_tonelength = conf.chan.busy_tonelength; tmp->busy_quietlength = conf.chan.busy_quietlength; tmp->callprogress = conf.chan.callprogress; tmp->cancallforward = conf.chan.cancallforward; tmp->dtmfrelax = conf.chan.dtmfrelax; tmp->callwaiting = tmp->permcallwaiting; tmp->hidecallerid = tmp->permhidecallerid; tmp->channel = channel; tmp->stripmsd = conf.chan.stripmsd; tmp->use_callerid = conf.chan.use_callerid; tmp->cid_signalling = conf.chan.cid_signalling; tmp->cid_start = conf.chan.cid_start; tmp->zaptrcallerid = conf.chan.zaptrcallerid; tmp->restrictcid = conf.chan.restrictcid; tmp->use_callingpres = conf.chan.use_callingpres; tmp->priindication_oob = conf.chan.priindication_oob; tmp->priexclusive = conf.chan.priexclusive; if (tmp->usedistinctiveringdetection) { if (!tmp->use_callerid) { ast_log(LOG_NOTICE, "Distinctive Ring detect requires 'usecallerid' be on\n"); tmp->use_callerid = 1; } } if (tmp->cid_signalling == CID_SIG_SMDI) { if (!tmp->use_smdi) { ast_log(LOG_WARNING, "SMDI callerid requires SMDI to be enabled, enabling...\n"); tmp->use_smdi = 1; } } if (tmp->use_smdi) { tmp->smdi_iface = ast_smdi_interface_find(conf.smdi_port); if (!(tmp->smdi_iface)) { ast_log(LOG_ERROR, "Invalid SMDI port specfied, disabling SMDI support\n"); tmp->use_smdi = 0; } } ast_copy_string(tmp->accountcode, conf.chan.accountcode, sizeof(tmp->accountcode)); tmp->amaflags = conf.chan.amaflags; if (!here) { tmp->confno = -1; tmp->propconfno = -1; } tmp->canpark = conf.chan.canpark; tmp->transfer = conf.chan.transfer; ast_copy_string(tmp->defcontext,conf.chan.context,sizeof(tmp->defcontext)); ast_copy_string(tmp->language, conf.chan.language, sizeof(tmp->language)); ast_copy_string(tmp->mohinterpret, conf.chan.mohinterpret, sizeof(tmp->mohinterpret)); ast_copy_string(tmp->mohsuggest, conf.chan.mohsuggest, sizeof(tmp->mohsuggest)); ast_copy_string(tmp->context, conf.chan.context, sizeof(tmp->context)); ast_copy_string(tmp->cid_num, conf.chan.cid_num, sizeof(tmp->cid_num)); tmp->cid_ton = 0; ast_copy_string(tmp->cid_name, conf.chan.cid_name, sizeof(tmp->cid_name)); ast_copy_string(tmp->mailbox, conf.chan.mailbox, sizeof(tmp->mailbox)); tmp->msgstate = -1; tmp->group = conf.chan.group; tmp->callgroup = conf.chan.callgroup; tmp->pickupgroup= conf.chan.pickupgroup; tmp->rxgain = conf.chan.rxgain; tmp->txgain = conf.chan.txgain; tmp->tonezone = conf.chan.tonezone; tmp->onhooktime = time(NULL); if (tmp->subs[SUB_REAL].zfd > -1) { set_actual_gain(tmp->subs[SUB_REAL].zfd, 0, tmp->rxgain, tmp->txgain, tmp->law); if (tmp->dsp) ast_dsp_digitmode(tmp->dsp, DSP_DIGITMODE_DTMF | tmp->dtmfrelax); update_conf(tmp); if (!here) { if (conf.chan.sig != SIG_PRI) /* Hang it up to be sure it's good */ zt_set_hook(tmp->subs[SUB_REAL].zfd, ZT_ONHOOK); } ioctl(tmp->subs[SUB_REAL].zfd,ZT_SETTONEZONE,&tmp->tonezone); #ifdef HAVE_PRI /* the dchannel is down so put the channel in alarm */ if (tmp->pri && !pri_is_up(tmp->pri)) tmp->inalarm = 1; else tmp->inalarm = 0; #endif memset(&si, 0, sizeof(si)); if (ioctl(tmp->subs[SUB_REAL].zfd,ZT_SPANSTAT,&si) == -1) { ast_log(LOG_ERROR, "Unable to get span status: %s\n", strerror(errno)); destroy_zt_pvt(&tmp); return NULL; } if (si.alarms) tmp->inalarm = 1; } tmp->polarityonanswerdelay = conf.chan.polarityonanswerdelay; tmp->answeronpolarityswitch = conf.chan.answeronpolarityswitch; tmp->hanguponpolarityswitch = conf.chan.hanguponpolarityswitch; tmp->sendcalleridafter = conf.chan.sendcalleridafter; } if (tmp && !here) { /* nothing on the iflist */ if (!*wlist) { *wlist = tmp; tmp->prev = NULL; tmp->next = NULL; *wend = tmp; } else { /* at least one member on the iflist */ struct zt_pvt *working = *wlist; /* check if we maybe have to put it on the begining */ if (working->channel > tmp->channel) { tmp->next = *wlist; tmp->prev = NULL; (*wlist)->prev = tmp; *wlist = tmp; } else { /* go through all the members and put the member in the right place */ while (working) { /* in the middle */ if (working->next) { if (working->channel < tmp->channel && working->next->channel > tmp->channel) { tmp->next = working->next; tmp->prev = working; working->next->prev = tmp; working->next = tmp; break; } } else { /* the last */ if (working->channel < tmp->channel) { working->next = tmp; tmp->next = NULL; tmp->prev = working; *wend = tmp; break; } } working = working->next; } } } } return tmp; } static inline int available(struct zt_pvt *p, int channelmatch, ast_group_t groupmatch, int *busy, int *channelmatched, int *groupmatched) { int res; ZT_PARAMS par; /* First, check group matching */ if (groupmatch) { if ((p->group & groupmatch) != groupmatch) return 0; *groupmatched = 1; } /* Check to see if we have a channel match */ if (channelmatch != -1) { if (p->channel != channelmatch) return 0; *channelmatched = 1; } /* We're at least busy at this point */ if (busy) { if ((p->sig == SIG_FXOKS) || (p->sig == SIG_FXOLS) || (p->sig == SIG_FXOGS)) *busy = 1; } /* If do not disturb, definitely not */ if (p->dnd) return 0; /* If guard time, definitely not */ if (p->guardtime && (time(NULL) < p->guardtime)) return 0; /* If no owner definitely available */ if (!p->owner) { #ifdef HAVE_PRI /* Trust PRI */ if (p->pri) { if (p->resetting || p->call) return 0; else return 1; } #endif if (!(p->radio || (p->oprmode < 0))) { if (!p->sig || (p->sig == SIG_FXSLS)) return 1; /* Check hook state */ if (p->subs[SUB_REAL].zfd > -1) res = ioctl(p->subs[SUB_REAL].zfd, ZT_GET_PARAMS, &par); else { /* Assume not off hook on CVRS */ res = 0; par.rxisoffhook = 0; } if (res) { ast_log(LOG_WARNING, "Unable to check hook state on channel %d\n", p->channel); } else if ((p->sig == SIG_FXSKS) || (p->sig == SIG_FXSGS)) { /* When "onhook" that means no battery on the line, and thus it is out of service..., if it's on a TDM card... If it's a channel bank, there is no telling... */ if (par.rxbits > -1) return 1; if (par.rxisoffhook) return 1; else #ifdef ZAP_CHECK_HOOKSTATE return 0; #else return 1; #endif } else if (par.rxisoffhook) { ast_log(LOG_DEBUG, "Channel %d off hook, can't use\n", p->channel); /* Not available when the other end is off hook */ return 0; } } return 1; } /* If it's not an FXO, forget about call wait */ if ((p->sig != SIG_FXOKS) && (p->sig != SIG_FXOLS) && (p->sig != SIG_FXOGS)) return 0; if (!p->callwaiting) { /* If they don't have call waiting enabled, then for sure they're unavailable at this point */ return 0; } if (p->subs[SUB_CALLWAIT].zfd > -1) { /* If there is already a call waiting call, then we can't take a second one */ return 0; } if ((p->owner->_state != AST_STATE_UP) && ((p->owner->_state != AST_STATE_RINGING) || p->outgoing)) { /* If the current call is not up, then don't allow the call */ return 0; } if ((p->subs[SUB_THREEWAY].owner) && (!p->subs[SUB_THREEWAY].inthreeway)) { /* Can't take a call wait when the three way calling hasn't been merged yet. */ return 0; } /* We're cool */ return 1; } static struct zt_pvt *chandup(struct zt_pvt *src) { struct zt_pvt *p; ZT_BUFFERINFO bi; int res; if ((p = ast_malloc(sizeof(*p)))) { memcpy(p, src, sizeof(struct zt_pvt)); ast_mutex_init(&p->lock); p->subs[SUB_REAL].zfd = zt_open("/dev/zap/pseudo"); /* Allocate a zapata structure */ if (p->subs[SUB_REAL].zfd < 0) { ast_log(LOG_ERROR, "Unable to dup channel: %s\n", strerror(errno)); destroy_zt_pvt(&p); return NULL; } res = ioctl(p->subs[SUB_REAL].zfd, ZT_GET_BUFINFO, &bi); if (!res) { bi.txbufpolicy = ZT_POLICY_IMMEDIATE; bi.rxbufpolicy = ZT_POLICY_IMMEDIATE; bi.numbufs = numbufs; res = ioctl(p->subs[SUB_REAL].zfd, ZT_SET_BUFINFO, &bi); if (res < 0) { ast_log(LOG_WARNING, "Unable to set buffer policy on dup channel\n"); } } else ast_log(LOG_WARNING, "Unable to check buffer policy on dup channel\n"); } p->destroy = 1; p->next = iflist; p->prev = NULL; iflist = p; if (iflist->next) iflist->next->prev = p; return p; } #ifdef HAVE_PRI static int pri_find_empty_chan(struct zt_pri *pri, int backwards) { int x; if (backwards) x = pri->numchans; else x = 0; for (;;) { if (backwards && (x < 0)) break; if (!backwards && (x >= pri->numchans)) break; if (pri->pvts[x] && !pri->pvts[x]->inalarm && !pri->pvts[x]->owner) { ast_log(LOG_DEBUG, "Found empty available channel %d/%d\n", pri->pvts[x]->logicalspan, pri->pvts[x]->prioffset); return x; } if (backwards) x--; else x++; } return -1; } #endif static struct ast_channel *zt_request(const char *type, int format, void *data, int *cause) { ast_group_t groupmatch = 0; int channelmatch = -1; int roundrobin = 0; int callwait = 0; int busy = 0; struct zt_pvt *p; struct ast_channel *tmp = NULL; char *dest=NULL; int x; char *s; char opt=0; int res=0, y=0; int backwards = 0; #ifdef HAVE_PRI int crv; int bearer = -1; int trunkgroup; struct zt_pri *pri=NULL; #endif struct zt_pvt *exit, *start, *end; ast_mutex_t *lock; int channelmatched = 0; int groupmatched = 0; /* Assume we're locking the iflock */ lock = &iflock; start = iflist; end = ifend; if (data) { dest = ast_strdupa((char *)data); } else { ast_log(LOG_WARNING, "Channel requested with no data\n"); return NULL; } if (toupper(dest[0]) == 'G' || toupper(dest[0])=='R') { /* Retrieve the group number */ char *stringp=NULL; stringp=dest + 1; s = strsep(&stringp, "/"); if ((res = sscanf(s, "%d%c%d", &x, &opt, &y)) < 1) { ast_log(LOG_WARNING, "Unable to determine group for data %s\n", (char *)data); return NULL; } groupmatch = ((ast_group_t) 1 << x); if (toupper(dest[0]) == 'G') { if (dest[0] == 'G') { backwards = 1; p = ifend; } else p = iflist; } else { if (dest[0] == 'R') { backwards = 1; p = round_robin[x]?round_robin[x]->prev:ifend; if (!p) p = ifend; } else { p = round_robin[x]?round_robin[x]->next:iflist; if (!p) p = iflist; } roundrobin = 1; } } else { char *stringp=NULL; stringp=dest; s = strsep(&stringp, "/"); p = iflist; if (!strcasecmp(s, "pseudo")) { /* Special case for pseudo */ x = CHAN_PSEUDO; channelmatch = x; } #ifdef HAVE_PRI else if ((res = sscanf(s, "%d:%d%c%d", &trunkgroup, &crv, &opt, &y)) > 1) { if ((trunkgroup < 1) || (crv < 1)) { ast_log(LOG_WARNING, "Unable to determine trunk group and CRV for data %s\n", (char *)data); return NULL; } res--; for (x = 0; x < NUM_SPANS; x++) { if (pris[x].trunkgroup == trunkgroup) { pri = pris + x; lock = &pri->lock; start = pri->crvs; end = pri->crvend; break; } } if (!pri) { ast_log(LOG_WARNING, "Unable to find trunk group %d\n", trunkgroup); return NULL; } channelmatch = crv; p = pris[x].crvs; } #endif else if ((res = sscanf(s, "%d%c%d", &x, &opt, &y)) < 1) { ast_log(LOG_WARNING, "Unable to determine channel for data %s\n", (char *)data); return NULL; } else { channelmatch = x; } } /* Search for an unowned channel */ ast_mutex_lock(lock); exit = p; while (p && !tmp) { if (roundrobin) round_robin[x] = p; #if 0 ast_verbose("name = %s, %d, %d, %d\n",p->owner ? p->owner->name : "", p->channel, channelmatch, groupmatch); #endif if (p && available(p, channelmatch, groupmatch, &busy, &channelmatched, &groupmatched)) { if (option_debug) ast_log(LOG_DEBUG, "Using channel %d\n", p->channel); if (p->inalarm) goto next; callwait = (p->owner != NULL); #ifdef HAVE_PRI if (pri && (p->subs[SUB_REAL].zfd < 0)) { if (p->sig != SIG_FXSKS) { /* Gotta find an actual channel to use for this CRV if this isn't a callwait */ bearer = pri_find_empty_chan(pri, 0); if (bearer < 0) { ast_log(LOG_NOTICE, "Out of bearer channels on span %d for call to CRV %d:%d\n", pri->span, trunkgroup, crv); p = NULL; break; } pri_assign_bearer(p, pri, pri->pvts[bearer]); } else { if (alloc_sub(p, 0)) { ast_log(LOG_NOTICE, "Failed to allocate place holder pseudo channel!\n"); p = NULL; break; } else ast_log(LOG_DEBUG, "Allocated placeholder pseudo channel\n"); p->pri = pri; } } #endif if (p->channel == CHAN_PSEUDO) { p = chandup(p); if (!p) { break; } } if (p->owner) { if (alloc_sub(p, SUB_CALLWAIT)) { p = NULL; break; } } p->outgoing = 1; tmp = zt_new(p, AST_STATE_RESERVED, 0, p->owner ? SUB_CALLWAIT : SUB_REAL, 0, 0); #ifdef HAVE_PRI if (p->bearer) { /* Log owner to bearer channel, too */ p->bearer->owner = tmp; } #endif /* Make special notes */ if (res > 1) { if (opt == 'c') { /* Confirm answer */ p->confirmanswer = 1; } else if (opt == 'r') { /* Distinctive ring */ if (res < 3) ast_log(LOG_WARNING, "Distinctive ring missing identifier in '%s'\n", (char *)data); else p->distinctivering = y; } else if (opt == 'd') { /* If this is an ISDN call, make it digital */ p->digital = 1; if (tmp) tmp->transfercapability = AST_TRANS_CAP_DIGITAL; } else { ast_log(LOG_WARNING, "Unknown option '%c' in '%s'\n", opt, (char *)data); } } /* Note if the call is a call waiting call */ if (tmp && callwait) tmp->cdrflags |= AST_CDR_CALLWAIT; break; } next: if (backwards) { p = p->prev; if (!p) p = end; } else { p = p->next; if (!p) p = start; } /* stop when you roll to the one that we started from */ if (p == exit) break; } ast_mutex_unlock(lock); restart_monitor(); if (callwait) *cause = AST_CAUSE_BUSY; else if (!tmp) { if (channelmatched) { if (busy) *cause = AST_CAUSE_BUSY; } else if (groupmatched) { *cause = AST_CAUSE_CONGESTION; } } return tmp; } #ifdef HAVE_PRI static struct zt_pvt *pri_find_crv(struct zt_pri *pri, int crv) { struct zt_pvt *p; p = pri->crvs; while (p) { if (p->channel == crv) return p; p = p->next; } return NULL; } static int pri_find_principle(struct zt_pri *pri, int channel) { int x; int span = PRI_SPAN(channel); int spanfd; ZT_PARAMS param; int principle = -1; int explicit = PRI_EXPLICIT(channel); channel = PRI_CHANNEL(channel); if (!explicit) { spanfd = pri_active_dchan_fd(pri); if (ioctl(spanfd, ZT_GET_PARAMS, ¶m)) return -1; span = pris[param.spanno - 1].prilogicalspan; } for (x = 0; x < pri->numchans; x++) { if (pri->pvts[x] && (pri->pvts[x]->prioffset == channel) && (pri->pvts[x]->logicalspan == span)) { principle = x; break; } } return principle; } static int pri_fixup_principle(struct zt_pri *pri, int principle, q931_call *c) { int x; struct zt_pvt *crv; if (!c) { if (principle < 0) return -1; return principle; } if ((principle > -1) && (principle < pri->numchans) && (pri->pvts[principle]) && (pri->pvts[principle]->call == c)) return principle; /* First, check for other bearers */ for (x = 0; x < pri->numchans; x++) { if (!pri->pvts[x]) continue; if (pri->pvts[x]->call == c) { /* Found our call */ if (principle != x) { struct zt_pvt *new = pri->pvts[principle], *old = pri->pvts[x]; if (option_verbose > 2) ast_verbose(VERBOSE_PREFIX_3 "Moving call from channel %d to channel %d\n", old->channel, new->channel); if (new->owner) { ast_log(LOG_WARNING, "Can't fix up channel from %d to %d because %d is already in use\n", old->channel, new->channel, new->channel); return -1; } /* Fix it all up now */ new->owner = old->owner; old->owner = NULL; if (new->owner) { ast_string_field_build(new->owner, name, "Zap/%d:%d-%d", pri->trunkgroup, new->channel, 1); new->owner->tech_pvt = new; new->owner->fds[0] = new->subs[SUB_REAL].zfd; new->subs[SUB_REAL].owner = old->subs[SUB_REAL].owner; old->subs[SUB_REAL].owner = NULL; } else ast_log(LOG_WARNING, "Whoa, there's no owner, and we're having to fix up channel %d to channel %d\n", old->channel, new->channel); new->call = old->call; old->call = NULL; /* Copy any DSP that may be present */ new->dsp = old->dsp; new->dsp_features = old->dsp_features; old->dsp = NULL; old->dsp_features = 0; } return principle; } } /* Now check for a CRV with no bearer */ crv = pri->crvs; while (crv) { if (crv->call == c) { /* This is our match... Perform some basic checks */ if (crv->bearer) ast_log(LOG_WARNING, "Trying to fix up call which already has a bearer which isn't the one we think it is\n"); else if (pri->pvts[principle]->owner) ast_log(LOG_WARNING, "Tring to fix up a call to a bearer which already has an owner!\n"); else { /* Looks good. Drop the pseudo channel now, clear up the assignment, and wakeup the potential sleeper */ zt_close(crv->subs[SUB_REAL].zfd); pri->pvts[principle]->call = crv->call; pri_assign_bearer(crv, pri, pri->pvts[principle]); ast_log(LOG_DEBUG, "Assigning bearer %d/%d to CRV %d:%d\n", pri->pvts[principle]->logicalspan, pri->pvts[principle]->prioffset, pri->trunkgroup, crv->channel); wakeup_sub(crv, SUB_REAL, pri); } return principle; } crv = crv->next; } ast_log(LOG_WARNING, "Call specified, but not found?\n"); return -1; } static void *do_idle_thread(void *vchan) { struct ast_channel *chan = vchan; struct zt_pvt *pvt = chan->tech_pvt; struct ast_frame *f; char ex[80]; /* Wait up to 30 seconds for an answer */ int newms, ms = 30000; if (option_verbose > 2) ast_verbose(VERBOSE_PREFIX_3 "Initiating idle call on channel %s\n", chan->name); snprintf(ex, sizeof(ex), "%d/%s", pvt->channel, pvt->pri->idledial); if (ast_call(chan, ex, 0)) { ast_log(LOG_WARNING, "Idle dial failed on '%s' to '%s'\n", chan->name, ex); ast_hangup(chan); return NULL; } while ((newms = ast_waitfor(chan, ms)) > 0) { f = ast_read(chan); if (!f) { /* Got hangup */ break; } if (f->frametype == AST_FRAME_CONTROL) { switch (f->subclass) { case AST_CONTROL_ANSWER: /* Launch the PBX */ ast_copy_string(chan->exten, pvt->pri->idleext, sizeof(chan->exten)); ast_copy_string(chan->context, pvt->pri->idlecontext, sizeof(chan->context)); chan->priority = 1; if (option_verbose > 3) ast_verbose(VERBOSE_PREFIX_3 "Idle channel '%s' answered, sending to %s@%s\n", chan->name, chan->exten, chan->context); ast_pbx_run(chan); /* It's already hungup, return immediately */ return NULL; case AST_CONTROL_BUSY: if (option_verbose > 3) ast_verbose(VERBOSE_PREFIX_3 "Idle channel '%s' busy, waiting...\n", chan->name); break; case AST_CONTROL_CONGESTION: if (option_verbose > 3) ast_verbose(VERBOSE_PREFIX_3 "Idle channel '%s' congested, waiting...\n", chan->name); break; }; } ast_frfree(f); ms = newms; } /* Hangup the channel since nothing happend */ ast_hangup(chan); return NULL; } #ifndef PRI_RESTART #error "Upgrade your libpri" #endif static void zt_pri_message(struct pri *pri, char *s) { int x, y; int dchan = -1, span = -1; int dchancount = 0; if (pri) { for (x = 0; x < NUM_SPANS; x++) { for (y = 0; y < NUM_DCHANS; y++) { if (pris[x].dchans[y]) dchancount++; if (pris[x].dchans[y] == pri) dchan = y; } if (dchan >= 0) { span = x; break; } dchancount = 0; } if ((dchan >= 0) && (span >= 0)) { if (dchancount > 1) ast_verbose("[Span %d D-Channel %d]%s", span, dchan, s); else ast_verbose("%s", s); } else ast_log(LOG_ERROR, "PRI debug error: could not find pri associated it with debug message output\n"); } else ast_verbose("%s", s); ast_mutex_lock(&pridebugfdlock); if (pridebugfd >= 0) write(pridebugfd, s, strlen(s)); ast_mutex_unlock(&pridebugfdlock); } static void zt_pri_error(struct pri *pri, char *s) { int x, y; int dchan = -1, span = -1; int dchancount = 0; if (pri) { for (x = 0; x < NUM_SPANS; x++) { for (y = 0; y < NUM_DCHANS; y++) { if (pris[x].dchans[y]) dchancount++; if (pris[x].dchans[y] == pri) dchan = y; } if (dchan >= 0) { span = x; break; } dchancount = 0; } if ((dchan >= 0) && (span >= 0)) { if (dchancount > 1) ast_log(LOG_ERROR, "[Span %d D-Channel %d] PRI: %s", span, dchan, s); else ast_log(LOG_ERROR, "%s", s); } else ast_log(LOG_ERROR, "PRI debug error: could not find pri associated it with debug message output\n"); } else ast_log(LOG_ERROR, "%s", s); ast_mutex_lock(&pridebugfdlock); if (pridebugfd >= 0) write(pridebugfd, s, strlen(s)); ast_mutex_unlock(&pridebugfdlock); } static int pri_check_restart(struct zt_pri *pri) { do { pri->resetpos++; } while ((pri->resetpos < pri->numchans) && (!pri->pvts[pri->resetpos] || pri->pvts[pri->resetpos]->call || pri->pvts[pri->resetpos]->resetting)); if (pri->resetpos < pri->numchans) { /* Mark the channel as resetting and restart it */ pri->pvts[pri->resetpos]->resetting = 1; pri_reset(pri->pri, PVT_TO_CHANNEL(pri->pvts[pri->resetpos])); } else { pri->resetting = 0; time(&pri->lastreset); } return 0; } static int pri_hangup_all(struct zt_pvt *p, struct zt_pri *pri) { int x; int redo; ast_mutex_unlock(&pri->lock); ast_mutex_lock(&p->lock); do { redo = 0; for (x = 0; x < 3; x++) { while (p->subs[x].owner && ast_mutex_trylock(&p->subs[x].owner->lock)) { redo++; ast_mutex_unlock(&p->lock); usleep(1); ast_mutex_lock(&p->lock); } if (p->subs[x].owner) { ast_queue_hangup(p->subs[x].owner); ast_mutex_unlock(&p->subs[x].owner->lock); } } } while (redo); ast_mutex_unlock(&p->lock); ast_mutex_lock(&pri->lock); return 0; } static char * redirectingreason2str(int redirectingreason) { switch (redirectingreason) { case 0: return "UNKNOWN"; case 1: return "BUSY"; case 2: return "NO_REPLY"; case 0xF: return "UNCONDITIONAL"; default: return "NOREDIRECT"; } } static void apply_plan_to_number(char *buf, size_t size, const struct zt_pri *pri, const char *number, const int plan) { switch (plan) { case PRI_INTERNATIONAL_ISDN: /* Q.931 dialplan == 0x11 international dialplan => prepend international prefix digits */ snprintf(buf, size, "%s%s", pri->internationalprefix, number); break; case PRI_NATIONAL_ISDN: /* Q.931 dialplan == 0x21 national dialplan => prepend national prefix digits */ snprintf(buf, size, "%s%s", pri->nationalprefix, number); break; case PRI_LOCAL_ISDN: /* Q.931 dialplan == 0x41 local dialplan => prepend local prefix digits */ snprintf(buf, size, "%s%s", pri->localprefix, number); break; case PRI_PRIVATE: /* Q.931 dialplan == 0x49 private dialplan => prepend private prefix digits */ snprintf(buf, size, "%s%s", pri->privateprefix, number); break; case PRI_UNKNOWN: /* Q.931 dialplan == 0x00 unknown dialplan => prepend unknown prefix digits */ snprintf(buf, size, "%s%s", pri->unknownprefix, number); break; default: /* other Q.931 dialplan => don't twiddle with callingnum */ snprintf(buf, size, "%s", number); break; } } static int zt_setlaw(int zfd, int law) { int res; res = ioctl(zfd, ZT_SETLAW, &law); if (res) return res; return 0; } static void *pri_dchannel(void *vpri) { struct zt_pri *pri = vpri; pri_event *e; struct pollfd fds[NUM_DCHANS]; int res; int chanpos = 0; int x; int haveidles; int activeidles; int nextidle = -1; struct ast_channel *c; struct timeval tv, lowest, *next; struct timeval lastidle = { 0, 0 }; int doidling=0; char *cc; char idlen[80]; struct ast_channel *idle; pthread_t p; time_t t; int i, which=-1; int numdchans; int cause=0; struct zt_pvt *crv; pthread_t threadid; pthread_attr_t attr; char ani2str[6]; char plancallingnum[256]; char plancallingani[256]; char calledtonstr[10]; gettimeofday(&lastidle, NULL); if (!ast_strlen_zero(pri->idledial) && !ast_strlen_zero(pri->idleext)) { /* Need to do idle dialing, check to be sure though */ cc = strchr(pri->idleext, '@'); if (cc) { *cc = '\0'; cc++; ast_copy_string(pri->idlecontext, cc, sizeof(pri->idlecontext)); #if 0 /* Extensions may not be loaded yet */ if (!ast_exists_extension(NULL, pri->idlecontext, pri->idleext, 1, NULL)) ast_log(LOG_WARNING, "Extension '%s @ %s' does not exist\n", pri->idleext, pri->idlecontext); else #endif doidling = 1; } else ast_log(LOG_WARNING, "Idle dial string '%s' lacks '@context'\n", pri->idleext); } for (;;) { for (i = 0; i < NUM_DCHANS; i++) { if (!pri->dchannels[i]) break; fds[i].fd = pri->fds[i]; fds[i].events = POLLIN | POLLPRI; fds[i].revents = 0; } numdchans = i; time(&t); ast_mutex_lock(&pri->lock); if (pri->switchtype != PRI_SWITCH_GR303_TMC && (pri->resetinterval > 0)) { if (pri->resetting && pri_is_up(pri)) { if (pri->resetpos < 0) pri_check_restart(pri); } else { if (!pri->resetting && (t - pri->lastreset) >= pri->resetinterval) { pri->resetting = 1; pri->resetpos = -1; } } } /* Look for any idle channels if appropriate */ if (doidling && pri_is_up(pri)) { nextidle = -1; haveidles = 0; activeidles = 0; for (x = pri->numchans; x >= 0; x--) { if (pri->pvts[x] && !pri->pvts[x]->owner && !pri->pvts[x]->call) { if (haveidles < pri->minunused) { haveidles++; } else if (!pri->pvts[x]->resetting) { nextidle = x; break; } } else if (pri->pvts[x] && pri->pvts[x]->owner && pri->pvts[x]->isidlecall) activeidles++; } if (nextidle > -1) { if (ast_tvdiff_ms(ast_tvnow(), lastidle) > 1000) { /* Don't create a new idle call more than once per second */ snprintf(idlen, sizeof(idlen), "%d/%s", pri->pvts[nextidle]->channel, pri->idledial); idle = zt_request("Zap", AST_FORMAT_ULAW, idlen, &cause); if (idle) { pri->pvts[nextidle]->isidlecall = 1; if (ast_pthread_create_background(&p, NULL, do_idle_thread, idle)) { ast_log(LOG_WARNING, "Unable to start new thread for idle channel '%s'\n", idle->name); zt_hangup(idle); } } else ast_log(LOG_WARNING, "Unable to request channel 'Zap/%s' for idle call\n", idlen); gettimeofday(&lastidle, NULL); } } else if ((haveidles < pri->minunused) && (activeidles > pri->minidle)) { /* Mark something for hangup if there is something that can be hungup */ for (x = pri->numchans; x >= 0; x--) { /* find a candidate channel */ if (pri->pvts[x] && pri->pvts[x]->owner && pri->pvts[x]->isidlecall) { pri->pvts[x]->owner->_softhangup |= AST_SOFTHANGUP_DEV; haveidles++; /* Stop if we have enough idle channels or can't spare any more active idle ones */ if ((haveidles >= pri->minunused) || (activeidles <= pri->minidle)) break; } } } } /* Start with reasonable max */ lowest = ast_tv(60, 0); for (i = 0; i < NUM_DCHANS; i++) { /* Find lowest available d-channel */ if (!pri->dchannels[i]) break; if ((next = pri_schedule_next(pri->dchans[i]))) { /* We need relative time here */ tv = ast_tvsub(*next, ast_tvnow()); if (tv.tv_sec < 0) { tv = ast_tv(0,0); } if (doidling || pri->resetting) { if (tv.tv_sec > 1) { tv = ast_tv(1, 0); } } else { if (tv.tv_sec > 60) { tv = ast_tv(60, 0); } } } else if (doidling || pri->resetting) { /* Make sure we stop at least once per second if we're monitoring idle channels */ tv = ast_tv(1,0); } else { /* Don't poll for more than 60 seconds */ tv = ast_tv(60, 0); } if (!i || ast_tvcmp(tv, lowest) < 0) { lowest = tv; } } ast_mutex_unlock(&pri->lock); e = NULL; res = poll(fds, numdchans, lowest.tv_sec * 1000 + lowest.tv_usec / 1000); ast_mutex_lock(&pri->lock); if (!res) { for (which = 0; which < NUM_DCHANS; which++) { if (!pri->dchans[which]) break; /* Just a timeout, run the scheduler */ e = pri_schedule_run(pri->dchans[which]); if (e) break; } } else if (res > -1) { for (which = 0; which < NUM_DCHANS; which++) { if (!pri->dchans[which]) break; if (fds[which].revents & POLLPRI) { /* Check for an event */ x = 0; res = ioctl(pri->fds[which], ZT_GETEVENT, &x); if (x) ast_log(LOG_NOTICE, "PRI got event: %s (%d) on %s D-channel of span %d\n", event2str(x), x, pri_order(which), pri->span); /* Keep track of alarm state */ if (x == ZT_EVENT_ALARM) { pri->dchanavail[which] &= ~(DCHAN_NOTINALARM | DCHAN_UP); pri_find_dchan(pri); } else if (x == ZT_EVENT_NOALARM) { pri->dchanavail[which] |= DCHAN_NOTINALARM; pri_restart(pri->dchans[which]); } if (option_debug) ast_log(LOG_DEBUG, "Got event %s (%d) on D-channel for span %d\n", event2str(x), x, pri->span); } else if (fds[which].revents & POLLIN) { e = pri_check_event(pri->dchans[which]); } if (e) break; } } else if (errno != EINTR) ast_log(LOG_WARNING, "pri_event returned error %d (%s)\n", errno, strerror(errno)); if (e) { if (pri->debug) pri_dump_event(pri->dchans[which], e); if (e->e != PRI_EVENT_DCHAN_DOWN) { if (!(pri->dchanavail[which] & DCHAN_UP)) { if (option_verbose > 1) ast_verbose(VERBOSE_PREFIX_2 "%s D-Channel on span %d up\n", pri_order(which), pri->span); } pri->dchanavail[which] |= DCHAN_UP; } else { if (pri->dchanavail[which] & DCHAN_UP) { if (option_verbose > 1) ast_verbose(VERBOSE_PREFIX_2 "%s D-Channel on span %d down\n", pri_order(which), pri->span); } pri->dchanavail[which] &= ~DCHAN_UP; } if ((e->e != PRI_EVENT_DCHAN_UP) && (e->e != PRI_EVENT_DCHAN_DOWN) && (pri->pri != pri->dchans[which])) /* Must be an NFAS group that has the secondary dchan active */ pri->pri = pri->dchans[which]; switch (e->e) { case PRI_EVENT_DCHAN_UP: if (!pri->pri) pri_find_dchan(pri); /* Note presense of D-channel */ time(&pri->lastreset); /* Restart in 5 seconds */ if (pri->resetinterval > -1) { pri->lastreset -= pri->resetinterval; pri->lastreset += 5; } pri->resetting = 0; /* Take the channels from inalarm condition */ for (i = 0; i < pri->numchans; i++) if (pri->pvts[i]) { pri->pvts[i]->inalarm = 0; } break; case PRI_EVENT_DCHAN_DOWN: pri_find_dchan(pri); if (!pri_is_up(pri)) { pri->resetting = 0; /* Hangup active channels and put them in alarm mode */ for (i = 0; i < pri->numchans; i++) { struct zt_pvt *p = pri->pvts[i]; if (p) { if (!p->pri || !p->pri->pri || pri_get_timer(p->pri->pri, PRI_TIMER_T309) < 0) { /* T309 is not enabled : hangup calls when alarm occurs */ if (p->call) { if (p->pri && p->pri->pri) { pri_hangup(p->pri->pri, p->call, -1); pri_destroycall(p->pri->pri, p->call); p->call = NULL; } else ast_log(LOG_WARNING, "The PRI Call have not been destroyed\n"); } if (p->realcall) { pri_hangup_all(p->realcall, pri); } else if (p->owner) p->owner->_softhangup |= AST_SOFTHANGUP_DEV; } p->inalarm = 1; } } } break; case PRI_EVENT_RESTART: if (e->restart.channel > -1) { chanpos = pri_find_principle(pri, e->restart.channel); if (chanpos < 0) ast_log(LOG_WARNING, "Restart requested on odd/unavailable channel number %d/%d on span %d\n", PRI_SPAN(e->restart.channel), PRI_CHANNEL(e->restart.channel), pri->span); else { if (option_verbose > 2) ast_verbose(VERBOSE_PREFIX_3 "B-channel %d/%d restarted on span %d\n", PRI_SPAN(e->restart.channel), PRI_CHANNEL(e->restart.channel), pri->span); ast_mutex_lock(&pri->pvts[chanpos]->lock); if (pri->pvts[chanpos]->call) { pri_destroycall(pri->pri, pri->pvts[chanpos]->call); pri->pvts[chanpos]->call = NULL; } /* Force soft hangup if appropriate */ if (pri->pvts[chanpos]->realcall) pri_hangup_all(pri->pvts[chanpos]->realcall, pri); else if (pri->pvts[chanpos]->owner) pri->pvts[chanpos]->owner->_softhangup |= AST_SOFTHANGUP_DEV; ast_mutex_unlock(&pri->pvts[chanpos]->lock); } } else { if (option_verbose > 2) ast_verbose(VERBOSE_PREFIX_2 "Restart on requested on entire span %d\n", pri->span); for (x = 0; x < pri->numchans; x++) if (pri->pvts[x]) { ast_mutex_lock(&pri->pvts[x]->lock); if (pri->pvts[x]->call) { pri_destroycall(pri->pri, pri->pvts[x]->call); pri->pvts[x]->call = NULL; } if (pri->pvts[chanpos]->realcall) pri_hangup_all(pri->pvts[chanpos]->realcall, pri); else if (pri->pvts[x]->owner) pri->pvts[x]->owner->_softhangup |= AST_SOFTHANGUP_DEV; ast_mutex_unlock(&pri->pvts[x]->lock); } } break; case PRI_EVENT_KEYPAD_DIGIT: chanpos = pri_find_principle(pri, e->digit.channel); if (chanpos < 0) { ast_log(LOG_WARNING, "KEYPAD_DIGITs received on unconfigured channel %d/%d span %d\n", PRI_SPAN(e->digit.channel), PRI_CHANNEL(e->digit.channel), pri->span); } else { chanpos = pri_fixup_principle(pri, chanpos, e->digit.call); if (chanpos > -1) { ast_mutex_lock(&pri->pvts[chanpos]->lock); /* queue DTMF frame if the PBX for this call was already started (we're forwarding KEYPAD_DIGITs further on */ if (pri->overlapdial && pri->pvts[chanpos]->call==e->digit.call && pri->pvts[chanpos]->owner) { /* how to do that */ int digitlen = strlen(e->digit.digits); char digit; int i; for (i = 0; i < digitlen; i++) { digit = e->digit.digits[i]; { struct ast_frame f = { AST_FRAME_DTMF, digit, }; zap_queue_frame(pri->pvts[chanpos], &f, pri); } } } ast_mutex_unlock(&pri->pvts[chanpos]->lock); } } break; case PRI_EVENT_INFO_RECEIVED: chanpos = pri_find_principle(pri, e->ring.channel); if (chanpos < 0) { ast_log(LOG_WARNING, "INFO received on unconfigured channel %d/%d span %d\n", PRI_SPAN(e->ring.channel), PRI_CHANNEL(e->ring.channel), pri->span); } else { chanpos = pri_fixup_principle(pri, chanpos, e->ring.call); if (chanpos > -1) { ast_mutex_lock(&pri->pvts[chanpos]->lock); /* queue DTMF frame if the PBX for this call was already started (we're forwarding INFORMATION further on */ if (pri->overlapdial && pri->pvts[chanpos]->call==e->ring.call && pri->pvts[chanpos]->owner) { /* how to do that */ int digitlen = strlen(e->ring.callednum); char digit; int i; for (i = 0; i < digitlen; i++) { digit = e->ring.callednum[i]; { struct ast_frame f = { AST_FRAME_DTMF, digit, }; zap_queue_frame(pri->pvts[chanpos], &f, pri); } } } ast_mutex_unlock(&pri->pvts[chanpos]->lock); } } break; case PRI_EVENT_RING: crv = NULL; if (e->ring.channel == -1) chanpos = pri_find_empty_chan(pri, 1); else chanpos = pri_find_principle(pri, e->ring.channel); /* if no channel specified find one empty */ if (chanpos < 0) { ast_log(LOG_WARNING, "Ring requested on unconfigured channel %d/%d span %d\n", PRI_SPAN(e->ring.channel), PRI_CHANNEL(e->ring.channel), pri->span); } else { ast_mutex_lock(&pri->pvts[chanpos]->lock); if (pri->pvts[chanpos]->owner) { if (pri->pvts[chanpos]->call == e->ring.call) { ast_log(LOG_WARNING, "Duplicate setup requested on channel %d/%d already in use on span %d\n", PRI_SPAN(e->ring.channel), PRI_CHANNEL(e->ring.channel), pri->span); break; } else { /* This is where we handle initial glare */ ast_log(LOG_DEBUG, "Ring requested on channel %d/%d already in use or previously requested on span %d. Attempting to renegotiating channel.\n", PRI_SPAN(e->ring.channel), PRI_CHANNEL(e->ring.channel), pri->span); ast_mutex_unlock(&pri->pvts[chanpos]->lock); chanpos = -1; } } if (chanpos > -1) ast_mutex_unlock(&pri->pvts[chanpos]->lock); } if ((chanpos < 0) && (e->ring.flexible)) chanpos = pri_find_empty_chan(pri, 1); if (chanpos > -1) { ast_mutex_lock(&pri->pvts[chanpos]->lock); if (pri->switchtype == PRI_SWITCH_GR303_TMC) { /* Should be safe to lock CRV AFAIK while bearer is still locked */ crv = pri_find_crv(pri, pri_get_crv(pri->pri, e->ring.call, NULL)); if (crv) ast_mutex_lock(&crv->lock); if (!crv || crv->owner) { pri->pvts[chanpos]->call = NULL; if (crv) { if (crv->owner) crv->owner->_softhangup |= AST_SOFTHANGUP_DEV; ast_log(LOG_WARNING, "Call received for busy CRV %d on span %d\n", pri_get_crv(pri->pri, e->ring.call, NULL), pri->span); } else ast_log(LOG_NOTICE, "Call received for unconfigured CRV %d on span %d\n", pri_get_crv(pri->pri, e->ring.call, NULL), pri->span); pri_hangup(pri->pri, e->ring.call, PRI_CAUSE_INVALID_CALL_REFERENCE); if (crv) ast_mutex_unlock(&crv->lock); ast_mutex_unlock(&pri->pvts[chanpos]->lock); break; } } pri->pvts[chanpos]->call = e->ring.call; apply_plan_to_number(plancallingnum, sizeof(plancallingnum), pri, e->ring.callingnum, e->ring.callingplan); if (pri->pvts[chanpos]->use_callerid) { ast_shrink_phone_number(plancallingnum); ast_copy_string(pri->pvts[chanpos]->cid_num, plancallingnum, sizeof(pri->pvts[chanpos]->cid_num)); #ifdef PRI_ANI if (!ast_strlen_zero(e->ring.callingani)) { apply_plan_to_number(plancallingani, sizeof(plancallingani), pri, e->ring.callingani, e->ring.callingplanani); ast_shrink_phone_number(plancallingani); ast_copy_string(pri->pvts[chanpos]->cid_ani, plancallingani, sizeof(pri->pvts[chanpos]->cid_ani)); } else { pri->pvts[chanpos]->cid_ani[0] = '\0'; } #endif ast_copy_string(pri->pvts[chanpos]->cid_name, e->ring.callingname, sizeof(pri->pvts[chanpos]->cid_name)); pri->pvts[chanpos]->cid_ton = e->ring.callingplan; /* this is the callingplan (TON/NPI), e->ring.callingplan>>4 would be the TON */ } else { pri->pvts[chanpos]->cid_num[0] = '\0'; pri->pvts[chanpos]->cid_ani[0] = '\0'; pri->pvts[chanpos]->cid_name[0] = '\0'; pri->pvts[chanpos]->cid_ton = 0; } apply_plan_to_number(pri->pvts[chanpos]->rdnis, sizeof(pri->pvts[chanpos]->rdnis), pri, e->ring.redirectingnum, e->ring.callingplanrdnis); /* If immediate=yes go to s|1 */ if (pri->pvts[chanpos]->immediate) { if (option_verbose > 2) ast_verbose(VERBOSE_PREFIX_3 "Going to extension s|1 because of immediate=yes\n"); pri->pvts[chanpos]->exten[0] = 's'; pri->pvts[chanpos]->exten[1] = '\0'; } /* Get called number */ else if (!ast_strlen_zero(e->ring.callednum)) { ast_copy_string(pri->pvts[chanpos]->exten, e->ring.callednum, sizeof(pri->pvts[chanpos]->exten)); ast_copy_string(pri->pvts[chanpos]->dnid, e->ring.callednum, sizeof(pri->pvts[chanpos]->dnid)); } else if (pri->overlapdial) pri->pvts[chanpos]->exten[0] = '\0'; else { /* Some PRI circuits are set up to send _no_ digits. Handle them as 's'. */ pri->pvts[chanpos]->exten[0] = 's'; pri->pvts[chanpos]->exten[1] = '\0'; } /* Set DNID on all incoming calls -- even immediate */ if (!ast_strlen_zero(e->ring.callednum)) ast_copy_string(pri->pvts[chanpos]->dnid, e->ring.callednum, sizeof(pri->pvts[chanpos]->dnid)); /* No number yet, but received "sending complete"? */ if (e->ring.complete && (ast_strlen_zero(e->ring.callednum))) { if (option_verbose > 2) ast_verbose(VERBOSE_PREFIX_3 "Going to extension s|1 because of Complete received\n"); pri->pvts[chanpos]->exten[0] = 's'; pri->pvts[chanpos]->exten[1] = '\0'; } /* Make sure extension exists (or in overlap dial mode, can exist) */ if ((pri->overlapdial && ast_canmatch_extension(NULL, pri->pvts[chanpos]->context, pri->pvts[chanpos]->exten, 1, pri->pvts[chanpos]->cid_num)) || ast_exists_extension(NULL, pri->pvts[chanpos]->context, pri->pvts[chanpos]->exten, 1, pri->pvts[chanpos]->cid_num)) { /* Setup law */ int law; if (pri->switchtype != PRI_SWITCH_GR303_TMC) { /* Set to audio mode at this point */ law = 1; if (ioctl(pri->pvts[chanpos]->subs[SUB_REAL].zfd, ZT_AUDIOMODE, &law) == -1) ast_log(LOG_WARNING, "Unable to set audio mode on channel %d to %d\n", pri->pvts[chanpos]->channel, law); } if (e->ring.layer1 == PRI_LAYER_1_ALAW) law = ZT_LAW_ALAW; else law = ZT_LAW_MULAW; res = zt_setlaw(pri->pvts[chanpos]->subs[SUB_REAL].zfd, law); if (res < 0) ast_log(LOG_WARNING, "Unable to set law on channel %d\n", pri->pvts[chanpos]->channel); res = set_actual_gain(pri->pvts[chanpos]->subs[SUB_REAL].zfd, 0, pri->pvts[chanpos]->rxgain, pri->pvts[chanpos]->txgain, law); if (res < 0) ast_log(LOG_WARNING, "Unable to set gains on channel %d\n", pri->pvts[chanpos]->channel); if (e->ring.complete || !pri->overlapdial) { /* Just announce proceeding */ pri->pvts[chanpos]->proceeding = 1; pri_proceeding(pri->pri, e->ring.call, PVT_TO_CHANNEL(pri->pvts[chanpos]), 0); } else { if (pri->switchtype != PRI_SWITCH_GR303_TMC) pri_need_more_info(pri->pri, e->ring.call, PVT_TO_CHANNEL(pri->pvts[chanpos]), 1); else pri_answer(pri->pri, e->ring.call, PVT_TO_CHANNEL(pri->pvts[chanpos]), 1); } /* Get the use_callingpres state */ pri->pvts[chanpos]->callingpres = e->ring.callingpres; /* Start PBX */ if (!e->ring.complete && pri->overlapdial && ast_matchmore_extension(NULL, pri->pvts[chanpos]->context, pri->pvts[chanpos]->exten, 1, pri->pvts[chanpos]->cid_num)) { /* Release the PRI lock while we create the channel */ ast_mutex_unlock(&pri->lock); if (crv) { /* Set bearer and such */ pri_assign_bearer(crv, pri, pri->pvts[chanpos]); c = zt_new(crv, AST_STATE_RESERVED, 0, SUB_REAL, law, e->ring.ctype); pri->pvts[chanpos]->owner = &inuse; ast_log(LOG_DEBUG, "Started up crv %d:%d on bearer channel %d\n", pri->trunkgroup, crv->channel, crv->bearer->channel); } else { c = zt_new(pri->pvts[chanpos], AST_STATE_RESERVED, 0, SUB_REAL, law, e->ring.ctype); } ast_mutex_unlock(&pri->pvts[chanpos]->lock); if (!ast_strlen_zero(e->ring.callingsubaddr)) { pbx_builtin_setvar_helper(c, "CALLINGSUBADDR", e->ring.callingsubaddr); } if (e->ring.ani2 >= 0) { snprintf(ani2str, 5, "%.2d", e->ring.ani2); pbx_builtin_setvar_helper(c, "ANI2", ani2str); } #ifdef SUPPORT_USERUSER if (!ast_strlen_zero(e->ring.useruserinfo)) { pbx_builtin_setvar_helper(c, "USERUSERINFO", e->ring.useruserinfo); } #endif snprintf(calledtonstr, sizeof(calledtonstr)-1, "%d", e->ring.calledplan); pbx_builtin_setvar_helper(c, "CALLEDTON", calledtonstr); if (e->ring.redirectingreason >= 0) pbx_builtin_setvar_helper(c, "PRIREDIRECTREASON", redirectingreason2str(e->ring.redirectingreason)); ast_mutex_lock(&pri->pvts[chanpos]->lock); ast_mutex_lock(&pri->lock); pthread_attr_init(&attr); pthread_attr_setdetachstate(&attr, PTHREAD_CREATE_DETACHED); if (c && !ast_pthread_create(&threadid, &attr, ss_thread, c)) { if (option_verbose > 2) ast_verbose(VERBOSE_PREFIX_3 "Accepting overlap call from '%s' to '%s' on channel %d/%d, span %d\n", plancallingnum, S_OR(pri->pvts[chanpos]->exten, ""), pri->pvts[chanpos]->logicalspan, pri->pvts[chanpos]->prioffset, pri->span); } else { ast_log(LOG_WARNING, "Unable to start PBX on channel %d/%d, span %d\n", pri->pvts[chanpos]->logicalspan, pri->pvts[chanpos]->prioffset, pri->span); if (c) ast_hangup(c); else { pri_hangup(pri->pri, e->ring.call, PRI_CAUSE_SWITCH_CONGESTION); pri->pvts[chanpos]->call = NULL; } } pthread_attr_destroy(&attr); } else { ast_mutex_unlock(&pri->lock); /* Release PRI lock while we create the channel */ c = zt_new(pri->pvts[chanpos], AST_STATE_RING, 1, SUB_REAL, law, e->ring.ctype); if (c) { char calledtonstr[10]; ast_mutex_unlock(&pri->pvts[chanpos]->lock); if (e->ring.ani2 >= 0) { snprintf(ani2str, 5, "%d", e->ring.ani2); pbx_builtin_setvar_helper(c, "ANI2", ani2str); } #ifdef SUPPORT_USERUSER if (!ast_strlen_zero(e->ring.useruserinfo)) { pbx_builtin_setvar_helper(c, "USERUSERINFO", e->ring.useruserinfo); } #endif if (e->ring.redirectingreason >= 0) pbx_builtin_setvar_helper(c, "PRIREDIRECTREASON", redirectingreason2str(e->ring.redirectingreason)); snprintf(calledtonstr, sizeof(calledtonstr)-1, "%d", e->ring.calledplan); pbx_builtin_setvar_helper(c, "CALLEDTON", calledtonstr); ast_mutex_lock(&pri->pvts[chanpos]->lock); ast_mutex_lock(&pri->lock); if (option_verbose > 2) ast_verbose(VERBOSE_PREFIX_3 "Accepting call from '%s' to '%s' on channel %d/%d, span %d\n", plancallingnum, pri->pvts[chanpos]->exten, pri->pvts[chanpos]->logicalspan, pri->pvts[chanpos]->prioffset, pri->span); zt_enable_ec(pri->pvts[chanpos]); } else { ast_mutex_lock(&pri->lock); ast_log(LOG_WARNING, "Unable to start PBX on channel %d/%d, span %d\n", pri->pvts[chanpos]->logicalspan, pri->pvts[chanpos]->prioffset, pri->span); pri_hangup(pri->pri, e->ring.call, PRI_CAUSE_SWITCH_CONGESTION); pri->pvts[chanpos]->call = NULL; } } } else { if (option_verbose > 2) ast_verbose(VERBOSE_PREFIX_3 "Extension '%s' in context '%s' from '%s' does not exist. Rejecting call on channel %d/%d, span %d\n", pri->pvts[chanpos]->exten, pri->pvts[chanpos]->context, pri->pvts[chanpos]->cid_num, pri->pvts[chanpos]->logicalspan, pri->pvts[chanpos]->prioffset, pri->span); pri_hangup(pri->pri, e->ring.call, PRI_CAUSE_UNALLOCATED); pri->pvts[chanpos]->call = NULL; pri->pvts[chanpos]->exten[0] = '\0'; } if (crv) ast_mutex_unlock(&crv->lock); ast_mutex_unlock(&pri->pvts[chanpos]->lock); } else { if (e->ring.flexible) pri_hangup(pri->pri, e->ring.call, PRI_CAUSE_NORMAL_CIRCUIT_CONGESTION); else pri_hangup(pri->pri, e->ring.call, PRI_CAUSE_REQUESTED_CHAN_UNAVAIL); } break; case PRI_EVENT_RINGING: chanpos = pri_find_principle(pri, e->ringing.channel); if (chanpos < 0) { ast_log(LOG_WARNING, "Ringing requested on unconfigured channel %d/%d span %d\n", PRI_SPAN(e->ringing.channel), PRI_CHANNEL(e->ringing.channel), pri->span); } else { chanpos = pri_fixup_principle(pri, chanpos, e->ringing.call); if (chanpos < 0) { ast_log(LOG_WARNING, "Ringing requested on channel %d/%d not in use on span %d\n", PRI_SPAN(e->ringing.channel), PRI_CHANNEL(e->ringing.channel), pri->span); } else { ast_mutex_lock(&pri->pvts[chanpos]->lock); if (ast_strlen_zero(pri->pvts[chanpos]->dop.dialstr)) { zt_enable_ec(pri->pvts[chanpos]); pri->pvts[chanpos]->subs[SUB_REAL].needringing = 1; pri->pvts[chanpos]->alerting = 1; } else ast_log(LOG_DEBUG, "Deferring ringing notification because of extra digits to dial...\n"); #ifdef PRI_PROGRESS_MASK if (e->ringing.progressmask & PRI_PROG_INBAND_AVAILABLE) { #else if (e->ringing.progress == 8) { #endif /* Now we can do call progress detection */ if (pri->pvts[chanpos]->dsp && pri->pvts[chanpos]->dsp_features) { /* RINGING detection isn't required because we got ALERTING signal */ ast_dsp_set_features(pri->pvts[chanpos]->dsp, pri->pvts[chanpos]->dsp_features & ~DSP_PROGRESS_RINGING); pri->pvts[chanpos]->dsp_features = 0; } } #ifdef SUPPORT_USERUSER if (!ast_strlen_zero(e->ringing.useruserinfo)) { struct ast_channel *owner = pri->pvts[chanpos]->owner; ast_mutex_unlock(&pri->pvts[chanpos]->lock); pbx_builtin_setvar_helper(owner, "USERUSERINFO", e->ringing.useruserinfo); ast_mutex_lock(&pri->pvts[chanpos]->lock); } #endif ast_mutex_unlock(&pri->pvts[chanpos]->lock); } } break; case PRI_EVENT_PROGRESS: /* Get chan value if e->e is not PRI_EVNT_RINGING */ chanpos = pri_find_principle(pri, e->proceeding.channel); if (chanpos > -1) { #ifdef PRI_PROGRESS_MASK if ((!pri->pvts[chanpos]->progress) || (e->proceeding.progressmask & PRI_PROG_INBAND_AVAILABLE)) { #else if ((!pri->pvts[chanpos]->progress) || (e->proceeding.progress == 8)) { #endif struct ast_frame f = { AST_FRAME_CONTROL, AST_CONTROL_PROGRESS, }; if (e->proceeding.cause > -1) { if (option_verbose > 2) ast_verbose(VERBOSE_PREFIX_3 "PROGRESS with cause code %d received\n", e->proceeding.cause); /* Work around broken, out of spec USER_BUSY cause in a progress message */ if (e->proceeding.cause == AST_CAUSE_USER_BUSY) { if (pri->pvts[chanpos]->owner) { if (option_verbose > 2) ast_verbose(VERBOSE_PREFIX_3 "PROGRESS with 'user busy' received, signaling AST_CONTROL_BUSY instead of AST_CONTROL_PROGRESS\n"); pri->pvts[chanpos]->owner->hangupcause = e->proceeding.cause; f.subclass = AST_CONTROL_BUSY; } } } ast_mutex_lock(&pri->pvts[chanpos]->lock); ast_log(LOG_DEBUG, "Queuing frame from PRI_EVENT_PROGRESS on channel %d/%d span %d\n", pri->pvts[chanpos]->logicalspan, pri->pvts[chanpos]->prioffset,pri->span); zap_queue_frame(pri->pvts[chanpos], &f, pri); #ifdef PRI_PROGRESS_MASK if (e->proceeding.progressmask & PRI_PROG_INBAND_AVAILABLE) { #else if (e->proceeding.progress == 8) { #endif /* Now we can do call progress detection */ if (pri->pvts[chanpos]->dsp && pri->pvts[chanpos]->dsp_features) { ast_dsp_set_features(pri->pvts[chanpos]->dsp, pri->pvts[chanpos]->dsp_features); pri->pvts[chanpos]->dsp_features = 0; } } pri->pvts[chanpos]->progress = 1; ast_mutex_unlock(&pri->pvts[chanpos]->lock); } } break; case PRI_EVENT_PROCEEDING: chanpos = pri_find_principle(pri, e->proceeding.channel); if (chanpos > -1) { if (!pri->pvts[chanpos]->proceeding) { struct ast_frame f = { AST_FRAME_CONTROL, AST_CONTROL_PROCEEDING, }; ast_mutex_lock(&pri->pvts[chanpos]->lock); ast_log(LOG_DEBUG, "Queuing frame from PRI_EVENT_PROCEEDING on channel %d/%d span %d\n", pri->pvts[chanpos]->logicalspan, pri->pvts[chanpos]->prioffset,pri->span); zap_queue_frame(pri->pvts[chanpos], &f, pri); #ifdef PRI_PROGRESS_MASK if (e->proceeding.progressmask & PRI_PROG_INBAND_AVAILABLE) { #else if (e->proceeding.progress == 8) { #endif /* Now we can do call progress detection */ if (pri->pvts[chanpos]->dsp && pri->pvts[chanpos]->dsp_features) { ast_dsp_set_features(pri->pvts[chanpos]->dsp, pri->pvts[chanpos]->dsp_features); pri->pvts[chanpos]->dsp_features = 0; } /* Bring voice path up */ f.subclass = AST_CONTROL_PROGRESS; zap_queue_frame(pri->pvts[chanpos], &f, pri); } pri->pvts[chanpos]->proceeding = 1; ast_mutex_unlock(&pri->pvts[chanpos]->lock); } } break; case PRI_EVENT_FACNAME: chanpos = pri_find_principle(pri, e->facname.channel); if (chanpos < 0) { ast_log(LOG_WARNING, "Facility Name requested on unconfigured channel %d/%d span %d\n", PRI_SPAN(e->facname.channel), PRI_CHANNEL(e->facname.channel), pri->span); } else { chanpos = pri_fixup_principle(pri, chanpos, e->facname.call); if (chanpos < 0) { ast_log(LOG_WARNING, "Facility Name requested on channel %d/%d not in use on span %d\n", PRI_SPAN(e->facname.channel), PRI_CHANNEL(e->facname.channel), pri->span); } else { /* Re-use *69 field for PRI */ ast_mutex_lock(&pri->pvts[chanpos]->lock); ast_copy_string(pri->pvts[chanpos]->lastcid_num, e->facname.callingnum, sizeof(pri->pvts[chanpos]->lastcid_num)); ast_copy_string(pri->pvts[chanpos]->lastcid_name, e->facname.callingname, sizeof(pri->pvts[chanpos]->lastcid_name)); pri->pvts[chanpos]->subs[SUB_REAL].needcallerid =1; zt_enable_ec(pri->pvts[chanpos]); ast_mutex_unlock(&pri->pvts[chanpos]->lock); } } break; case PRI_EVENT_ANSWER: chanpos = pri_find_principle(pri, e->answer.channel); if (chanpos < 0) { ast_log(LOG_WARNING, "Answer on unconfigured channel %d/%d span %d\n", PRI_SPAN(e->answer.channel), PRI_CHANNEL(e->answer.channel), pri->span); } else { chanpos = pri_fixup_principle(pri, chanpos, e->answer.call); if (chanpos < 0) { ast_log(LOG_WARNING, "Answer requested on channel %d/%d not in use on span %d\n", PRI_SPAN(e->answer.channel), PRI_CHANNEL(e->answer.channel), pri->span); } else { ast_mutex_lock(&pri->pvts[chanpos]->lock); /* Now we can do call progress detection */ /* We changed this so it turns on the DSP no matter what... progress or no progress. * By this time, we need DTMF detection and other features that were previously disabled * -- Matt F */ if (pri->pvts[chanpos]->dsp && pri->pvts[chanpos]->dsp_features) { ast_dsp_set_features(pri->pvts[chanpos]->dsp, pri->pvts[chanpos]->dsp_features); pri->pvts[chanpos]->dsp_features = 0; } if (pri->pvts[chanpos]->realcall && (pri->pvts[chanpos]->realcall->sig == SIG_FXSKS)) { ast_log(LOG_DEBUG, "Starting up GR-303 trunk now that we got CONNECT...\n"); x = ZT_START; res = ioctl(pri->pvts[chanpos]->subs[SUB_REAL].zfd, ZT_HOOK, &x); if (res < 0) { if (errno != EINPROGRESS) { ast_log(LOG_WARNING, "Unable to start channel: %s\n", strerror(errno)); } } } else if (!ast_strlen_zero(pri->pvts[chanpos]->dop.dialstr)) { pri->pvts[chanpos]->dialing = 1; /* Send any "w" waited stuff */ res = ioctl(pri->pvts[chanpos]->subs[SUB_REAL].zfd, ZT_DIAL, &pri->pvts[chanpos]->dop); if (res < 0) { ast_log(LOG_WARNING, "Unable to initiate dialing on trunk channel %d\n", pri->pvts[chanpos]->channel); pri->pvts[chanpos]->dop.dialstr[0] = '\0'; } else ast_log(LOG_DEBUG, "Sent deferred digit string: %s\n", pri->pvts[chanpos]->dop.dialstr); pri->pvts[chanpos]->dop.dialstr[0] = '\0'; } else if (pri->pvts[chanpos]->confirmanswer) { ast_log(LOG_DEBUG, "Waiting on answer confirmation on channel %d!\n", pri->pvts[chanpos]->channel); } else { pri->pvts[chanpos]->subs[SUB_REAL].needanswer =1; /* Enable echo cancellation if it's not on already */ zt_enable_ec(pri->pvts[chanpos]); } #ifdef SUPPORT_USERUSER if (!ast_strlen_zero(e->answer.useruserinfo)) { struct ast_channel *owner = pri->pvts[chanpos]->owner; ast_mutex_unlock(&pri->pvts[chanpos]->lock); pbx_builtin_setvar_helper(owner, "USERUSERINFO", e->answer.useruserinfo); ast_mutex_lock(&pri->pvts[chanpos]->lock); } #endif ast_mutex_unlock(&pri->pvts[chanpos]->lock); } } break; case PRI_EVENT_HANGUP: chanpos = pri_find_principle(pri, e->hangup.channel); if (chanpos < 0) { ast_log(LOG_WARNING, "Hangup requested on unconfigured channel %d/%d span %d\n", PRI_SPAN(e->hangup.channel), PRI_CHANNEL(e->hangup.channel), pri->span); } else { chanpos = pri_fixup_principle(pri, chanpos, e->hangup.call); if (chanpos > -1) { ast_mutex_lock(&pri->pvts[chanpos]->lock); if (!pri->pvts[chanpos]->alreadyhungup) { /* we're calling here zt_hangup so once we get there we need to clear p->call after calling pri_hangup */ pri->pvts[chanpos]->alreadyhungup = 1; if (pri->pvts[chanpos]->realcall) pri_hangup_all(pri->pvts[chanpos]->realcall, pri); else if (pri->pvts[chanpos]->owner) { /* Queue a BUSY instead of a hangup if our cause is appropriate */ pri->pvts[chanpos]->owner->hangupcause = e->hangup.cause; if (pri->pvts[chanpos]->owner->_state == AST_STATE_UP) pri->pvts[chanpos]->owner->_softhangup |= AST_SOFTHANGUP_DEV; else { switch (e->hangup.cause) { case PRI_CAUSE_USER_BUSY: pri->pvts[chanpos]->subs[SUB_REAL].needbusy =1; break; case PRI_CAUSE_CALL_REJECTED: case PRI_CAUSE_NETWORK_OUT_OF_ORDER: case PRI_CAUSE_NORMAL_CIRCUIT_CONGESTION: case PRI_CAUSE_SWITCH_CONGESTION: case PRI_CAUSE_DESTINATION_OUT_OF_ORDER: case PRI_CAUSE_NORMAL_TEMPORARY_FAILURE: pri->pvts[chanpos]->subs[SUB_REAL].needcongestion =1; break; default: pri->pvts[chanpos]->owner->_softhangup |= AST_SOFTHANGUP_DEV; } } } if (option_verbose > 2) ast_verbose(VERBOSE_PREFIX_3 "Channel %d/%d, span %d got hangup, cause %d\n", pri->pvts[chanpos]->logicalspan, pri->pvts[chanpos]->prioffset, pri->span, e->hangup.cause); } else { pri_hangup(pri->pri, pri->pvts[chanpos]->call, e->hangup.cause); pri->pvts[chanpos]->call = NULL; } if (e->hangup.cause == PRI_CAUSE_REQUESTED_CHAN_UNAVAIL) { if (option_verbose > 2) ast_verbose(VERBOSE_PREFIX_3 "Forcing restart of channel %d/%d on span %d since channel reported in use\n", PRI_SPAN(e->hangup.channel), PRI_CHANNEL(e->hangup.channel), pri->span); pri_reset(pri->pri, PVT_TO_CHANNEL(pri->pvts[chanpos])); pri->pvts[chanpos]->resetting = 1; } if (e->hangup.aoc_units > -1) if (option_verbose > 2) ast_verbose(VERBOSE_PREFIX_3 "Channel %d/%d, span %d received AOC-E charging %d unit%s\n", pri->pvts[chanpos]->logicalspan, pri->pvts[chanpos]->prioffset, pri->span, (int)e->hangup.aoc_units, (e->hangup.aoc_units == 1) ? "" : "s"); #ifdef SUPPORT_USERUSER if (pri->pvts[chanpos]->owner && !ast_strlen_zero(e->hangup.useruserinfo)) { struct ast_channel *owner = pri->pvts[chanpos]->owner; ast_mutex_unlock(&pri->pvts[chanpos]->lock); pbx_builtin_setvar_helper(owner, "USERUSERINFO", e->hangup.useruserinfo); ast_mutex_lock(&pri->pvts[chanpos]->lock); } #endif ast_mutex_unlock(&pri->pvts[chanpos]->lock); } else { ast_log(LOG_WARNING, "Hangup on bad channel %d/%d on span %d\n", PRI_SPAN(e->hangup.channel), PRI_CHANNEL(e->hangup.channel), pri->span); } } break; #ifndef PRI_EVENT_HANGUP_REQ #error please update libpri #endif case PRI_EVENT_HANGUP_REQ: chanpos = pri_find_principle(pri, e->hangup.channel); if (chanpos < 0) { ast_log(LOG_WARNING, "Hangup REQ requested on unconfigured channel %d/%d span %d\n", PRI_SPAN(e->hangup.channel), PRI_CHANNEL(e->hangup.channel), pri->span); } else { chanpos = pri_fixup_principle(pri, chanpos, e->hangup.call); if (chanpos > -1) { ast_mutex_lock(&pri->pvts[chanpos]->lock); if (pri->pvts[chanpos]->realcall) pri_hangup_all(pri->pvts[chanpos]->realcall, pri); else if (pri->pvts[chanpos]->owner) { pri->pvts[chanpos]->owner->hangupcause = e->hangup.cause; if (pri->pvts[chanpos]->owner->_state == AST_STATE_UP) pri->pvts[chanpos]->owner->_softhangup |= AST_SOFTHANGUP_DEV; else { switch (e->hangup.cause) { case PRI_CAUSE_USER_BUSY: pri->pvts[chanpos]->subs[SUB_REAL].needbusy =1; break; case PRI_CAUSE_CALL_REJECTED: case PRI_CAUSE_NETWORK_OUT_OF_ORDER: case PRI_CAUSE_NORMAL_CIRCUIT_CONGESTION: case PRI_CAUSE_SWITCH_CONGESTION: case PRI_CAUSE_DESTINATION_OUT_OF_ORDER: case PRI_CAUSE_NORMAL_TEMPORARY_FAILURE: pri->pvts[chanpos]->subs[SUB_REAL].needcongestion =1; break; default: pri->pvts[chanpos]->owner->_softhangup |= AST_SOFTHANGUP_DEV; } } if (option_verbose > 2) ast_verbose(VERBOSE_PREFIX_3 "Channel %d/%d, span %d got hangup request, cause %d\n", PRI_SPAN(e->hangup.channel), PRI_CHANNEL(e->hangup.channel), pri->span, e->hangup.cause); if (e->hangup.aoc_units > -1) if (option_verbose > 2) ast_verbose(VERBOSE_PREFIX_3 "Channel %d/%d, span %d received AOC-E charging %d unit%s\n", pri->pvts[chanpos]->logicalspan, pri->pvts[chanpos]->prioffset, pri->span, (int)e->hangup.aoc_units, (e->hangup.aoc_units == 1) ? "" : "s"); } else { pri_hangup(pri->pri, pri->pvts[chanpos]->call, e->hangup.cause); pri->pvts[chanpos]->call = NULL; } if (e->hangup.cause == PRI_CAUSE_REQUESTED_CHAN_UNAVAIL) { if (option_verbose > 2) ast_verbose(VERBOSE_PREFIX_3 "Forcing restart of channel %d/%d span %d since channel reported in use\n", PRI_SPAN(e->hangup.channel), PRI_CHANNEL(e->hangup.channel), pri->span); pri_reset(pri->pri, PVT_TO_CHANNEL(pri->pvts[chanpos])); pri->pvts[chanpos]->resetting = 1; } #ifdef SUPPORT_USERUSER if (!ast_strlen_zero(e->hangup.useruserinfo)) { struct ast_channel *owner = pri->pvts[chanpos]->owner; ast_mutex_unlock(&pri->pvts[chanpos]->lock); pbx_builtin_setvar_helper(owner, "USERUSERINFO", e->hangup.useruserinfo); ast_mutex_lock(&pri->pvts[chanpos]->lock); } #endif ast_mutex_unlock(&pri->pvts[chanpos]->lock); } else { ast_log(LOG_WARNING, "Hangup REQ on bad channel %d/%d on span %d\n", PRI_SPAN(e->hangup.channel), PRI_CHANNEL(e->hangup.channel), pri->span); } } break; case PRI_EVENT_HANGUP_ACK: chanpos = pri_find_principle(pri, e->hangup.channel); if (chanpos < 0) { ast_log(LOG_WARNING, "Hangup ACK requested on unconfigured channel number %d/%d span %d\n", PRI_SPAN(e->hangup.channel), PRI_CHANNEL(e->hangup.channel), pri->span); } else { chanpos = pri_fixup_principle(pri, chanpos, e->hangup.call); if (chanpos > -1) { ast_mutex_lock(&pri->pvts[chanpos]->lock); pri->pvts[chanpos]->call = NULL; pri->pvts[chanpos]->resetting = 0; if (pri->pvts[chanpos]->owner) { if (option_verbose > 2) ast_verbose(VERBOSE_PREFIX_3 "Channel %d/%d, span %d got hangup ACK\n", PRI_SPAN(e->hangup.channel), PRI_CHANNEL(e->hangup.channel), pri->span); } #ifdef SUPPORT_USERUSER if (!ast_strlen_zero(e->hangup.useruserinfo)) { struct ast_channel *owner = pri->pvts[chanpos]->owner; ast_mutex_unlock(&pri->pvts[chanpos]->lock); pbx_builtin_setvar_helper(owner, "USERUSERINFO", e->hangup.useruserinfo); ast_mutex_lock(&pri->pvts[chanpos]->lock); } #endif ast_mutex_unlock(&pri->pvts[chanpos]->lock); } } break; case PRI_EVENT_CONFIG_ERR: ast_log(LOG_WARNING, "PRI Error on span %d: %s\n", pri->trunkgroup, e->err.err); break; case PRI_EVENT_RESTART_ACK: chanpos = pri_find_principle(pri, e->restartack.channel); if (chanpos < 0) { /* Sometime switches (e.g. I421 / British Telecom) don't give us the channel number, so we have to figure it out... This must be why everybody resets exactly a channel at a time. */ for (x = 0; x < pri->numchans; x++) { if (pri->pvts[x] && pri->pvts[x]->resetting) { chanpos = x; ast_mutex_lock(&pri->pvts[chanpos]->lock); ast_log(LOG_DEBUG, "Assuming restart ack is really for channel %d/%d span %d\n", pri->pvts[chanpos]->logicalspan, pri->pvts[chanpos]->prioffset, pri->span); if (pri->pvts[chanpos]->realcall) pri_hangup_all(pri->pvts[chanpos]->realcall, pri); else if (pri->pvts[chanpos]->owner) { ast_log(LOG_WARNING, "Got restart ack on channel %d/%d with owner on span %d\n", pri->pvts[chanpos]->logicalspan, pri->pvts[chanpos]->prioffset, pri->span); pri->pvts[chanpos]->owner->_softhangup |= AST_SOFTHANGUP_DEV; } pri->pvts[chanpos]->resetting = 0; if (option_verbose > 2) ast_verbose(VERBOSE_PREFIX_3 "B-channel %d/%d successfully restarted on span %d\n", pri->pvts[chanpos]->logicalspan, pri->pvts[chanpos]->prioffset, pri->span); ast_mutex_unlock(&pri->pvts[chanpos]->lock); if (pri->resetting) pri_check_restart(pri); break; } } if (chanpos < 0) { ast_log(LOG_WARNING, "Restart ACK requested on strange channel %d/%d span %d\n", PRI_SPAN(e->restartack.channel), PRI_CHANNEL(e->restartack.channel), pri->span); } } else { if (pri->pvts[chanpos]) { ast_mutex_lock(&pri->pvts[chanpos]->lock); if (pri->pvts[chanpos]->realcall) pri_hangup_all(pri->pvts[chanpos]->realcall, pri); else if (pri->pvts[chanpos]->owner) { ast_log(LOG_WARNING, "Got restart ack on channel %d/%d span %d with owner\n", PRI_SPAN(e->restartack.channel), PRI_CHANNEL(e->restartack.channel), pri->span); pri->pvts[chanpos]->owner->_softhangup |= AST_SOFTHANGUP_DEV; } pri->pvts[chanpos]->resetting = 0; if (option_verbose > 2) ast_verbose(VERBOSE_PREFIX_3 "B-channel %d/%d successfully restarted on span %d\n", pri->pvts[chanpos]->logicalspan, pri->pvts[chanpos]->prioffset, pri->span); ast_mutex_unlock(&pri->pvts[chanpos]->lock); if (pri->resetting) pri_check_restart(pri); } } break; case PRI_EVENT_SETUP_ACK: chanpos = pri_find_principle(pri, e->setup_ack.channel); if (chanpos < 0) { ast_log(LOG_WARNING, "Received SETUP_ACKNOWLEDGE on unconfigured channel %d/%d span %d\n", PRI_SPAN(e->setup_ack.channel), PRI_CHANNEL(e->setup_ack.channel), pri->span); } else { chanpos = pri_fixup_principle(pri, chanpos, e->setup_ack.call); if (chanpos > -1) { ast_mutex_lock(&pri->pvts[chanpos]->lock); pri->pvts[chanpos]->setup_ack = 1; /* Send any queued digits */ for (x = 0;x < strlen(pri->pvts[chanpos]->dialdest); x++) { ast_log(LOG_DEBUG, "Sending pending digit '%c'\n", pri->pvts[chanpos]->dialdest[x]); pri_information(pri->pri, pri->pvts[chanpos]->call, pri->pvts[chanpos]->dialdest[x]); } ast_mutex_unlock(&pri->pvts[chanpos]->lock); } else ast_log(LOG_WARNING, "Unable to move channel %d!\n", e->setup_ack.channel); } break; case PRI_EVENT_NOTIFY: chanpos = pri_find_principle(pri, e->notify.channel); if (chanpos < 0) { ast_log(LOG_WARNING, "Received NOTIFY on unconfigured channel %d/%d span %d\n", PRI_SPAN(e->notify.channel), PRI_CHANNEL(e->notify.channel), pri->span); } else { struct ast_frame f = { AST_FRAME_CONTROL, }; ast_mutex_lock(&pri->pvts[chanpos]->lock); switch (e->notify.info) { case PRI_NOTIFY_REMOTE_HOLD: f.subclass = AST_CONTROL_HOLD; zap_queue_frame(pri->pvts[chanpos], &f, pri); break; case PRI_NOTIFY_REMOTE_RETRIEVAL: f.subclass = AST_CONTROL_UNHOLD; zap_queue_frame(pri->pvts[chanpos], &f, pri); break; } ast_mutex_unlock(&pri->pvts[chanpos]->lock); } break; default: ast_log(LOG_DEBUG, "Event: %d\n", e->e); } } ast_mutex_unlock(&pri->lock); } /* Never reached */ return NULL; } static int start_pri(struct zt_pri *pri) { int res, x; ZT_PARAMS p; ZT_BUFFERINFO bi; struct zt_spaninfo si; int i; for (i = 0; i < NUM_DCHANS; i++) { if (!pri->dchannels[i]) break; pri->fds[i] = open("/dev/zap/channel", O_RDWR, 0600); x = pri->dchannels[i]; if ((pri->fds[i] < 0) || (ioctl(pri->fds[i],ZT_SPECIFY,&x) == -1)) { ast_log(LOG_ERROR, "Unable to open D-channel %d (%s)\n", x, strerror(errno)); return -1; } res = ioctl(pri->fds[i], ZT_GET_PARAMS, &p); if (res) { zt_close(pri->fds[i]); pri->fds[i] = -1; ast_log(LOG_ERROR, "Unable to get parameters for D-channel %d (%s)\n", x, strerror(errno)); return -1; } if ((p.sigtype != ZT_SIG_HDLCFCS) && (p.sigtype != ZT_SIG_HARDHDLC)) { zt_close(pri->fds[i]); pri->fds[i] = -1; ast_log(LOG_ERROR, "D-channel %d is not in HDLC/FCS mode. See /etc/zaptel.conf\n", x); return -1; } memset(&si, 0, sizeof(si)); res = ioctl(pri->fds[i], ZT_SPANSTAT, &si); if (res) { zt_close(pri->fds[i]); pri->fds[i] = -1; ast_log(LOG_ERROR, "Unable to get span state for D-channel %d (%s)\n", x, strerror(errno)); } if (!si.alarms) pri->dchanavail[i] |= DCHAN_NOTINALARM; else pri->dchanavail[i] &= ~DCHAN_NOTINALARM; bi.txbufpolicy = ZT_POLICY_IMMEDIATE; bi.rxbufpolicy = ZT_POLICY_IMMEDIATE; bi.numbufs = 32; bi.bufsize = 1024; if (ioctl(pri->fds[i], ZT_SET_BUFINFO, &bi)) { ast_log(LOG_ERROR, "Unable to set appropriate buffering on channel %d\n", x); zt_close(pri->fds[i]); pri->fds[i] = -1; return -1; } pri->dchans[i] = pri_new(pri->fds[i], pri->nodetype, pri->switchtype); /* Force overlap dial if we're doing GR-303! */ if (pri->switchtype == PRI_SWITCH_GR303_TMC) pri->overlapdial = 1; pri_set_overlapdial(pri->dchans[i],pri->overlapdial); /* Enslave to master if appropriate */ if (i) pri_enslave(pri->dchans[0], pri->dchans[i]); if (!pri->dchans[i]) { zt_close(pri->fds[i]); pri->fds[i] = -1; ast_log(LOG_ERROR, "Unable to create PRI structure\n"); return -1; } pri_set_debug(pri->dchans[i], DEFAULT_PRI_DEBUG); pri_set_nsf(pri->dchans[i], pri->nsf); #ifdef PRI_GETSET_TIMERS for (x = 0; x < PRI_MAX_TIMERS; x++) { if (pritimers[x] != 0) pri_set_timer(pri->dchans[i], x, pritimers[x]); } #endif } /* Assume primary is the one we use */ pri->pri = pri->dchans[0]; pri->resetpos = -1; if (ast_pthread_create_background(&pri->master, NULL, pri_dchannel, pri)) { for (i = 0; i < NUM_DCHANS; i++) { if (!pri->dchannels[i]) break; zt_close(pri->fds[i]); pri->fds[i] = -1; } ast_log(LOG_ERROR, "Unable to spawn D-channel: %s\n", strerror(errno)); return -1; } return 0; } static char *complete_span_helper(const char *line, const char *word, int pos, int state, int rpos) { int which, span; char *ret = NULL; if (pos != rpos) return ret; for (which = span = 0; span < NUM_SPANS; span++) { if (pris[span].pri && ++which > state) { asprintf(&ret, "%d", span + 1); /* user indexes start from 1 */ break; } } return ret; } static char *complete_span_4(const char *line, const char *word, int pos, int state) { return complete_span_helper(line,word,pos,state,3); } static char *complete_span_5(const char *line, const char *word, int pos, int state) { return complete_span_helper(line,word,pos,state,4); } static int handle_pri_set_debug_file(int fd, int argc, char **argv) { int myfd; if (!strncasecmp(argv[1], "set", 3)) { if (argc < 5) return RESULT_SHOWUSAGE; if (ast_strlen_zero(argv[4])) return RESULT_SHOWUSAGE; myfd = open(argv[4], O_CREAT|O_WRONLY, 0600); if (myfd < 0) { ast_cli(fd, "Unable to open '%s' for writing\n", argv[4]); return RESULT_SUCCESS; } ast_mutex_lock(&pridebugfdlock); if (pridebugfd >= 0) close(pridebugfd); pridebugfd = myfd; ast_copy_string(pridebugfilename,argv[4],sizeof(pridebugfilename)); ast_mutex_unlock(&pridebugfdlock); ast_cli(fd, "PRI debug output will be sent to '%s'\n", argv[4]); } else { /* Assume it is unset */ ast_mutex_lock(&pridebugfdlock); close(pridebugfd); pridebugfd = -1; ast_cli(fd, "PRI debug output to file disabled\n"); ast_mutex_unlock(&pridebugfdlock); } return RESULT_SUCCESS; } static int handle_pri_debug(int fd, int argc, char *argv[]) { int span; int x; if (argc < 4) { return RESULT_SHOWUSAGE; } span = atoi(argv[3]); if ((span < 1) || (span > NUM_SPANS)) { ast_cli(fd, "Invalid span %s. Should be a number %d to %d\n", argv[3], 1, NUM_SPANS); return RESULT_SUCCESS; } if (!pris[span-1].pri) { ast_cli(fd, "No PRI running on span %d\n", span); return RESULT_SUCCESS; } for (x = 0; x < NUM_DCHANS; x++) { if (pris[span-1].dchans[x]) pri_set_debug(pris[span-1].dchans[x], PRI_DEBUG_APDU | PRI_DEBUG_Q931_DUMP | PRI_DEBUG_Q931_STATE | PRI_DEBUG_Q921_STATE); } ast_cli(fd, "Enabled debugging on span %d\n", span); return RESULT_SUCCESS; } static int handle_pri_no_debug(int fd, int argc, char *argv[]) { int span; int x; if (argc < 5) return RESULT_SHOWUSAGE; span = atoi(argv[4]); if ((span < 1) || (span > NUM_SPANS)) { ast_cli(fd, "Invalid span %s. Should be a number %d to %d\n", argv[4], 1, NUM_SPANS); return RESULT_SUCCESS; } if (!pris[span-1].pri) { ast_cli(fd, "No PRI running on span %d\n", span); return RESULT_SUCCESS; } for (x = 0; x < NUM_DCHANS; x++) { if (pris[span-1].dchans[x]) pri_set_debug(pris[span-1].dchans[x], 0); } ast_cli(fd, "Disabled debugging on span %d\n", span); return RESULT_SUCCESS; } static int handle_pri_really_debug(int fd, int argc, char *argv[]) { int span; int x; if (argc < 5) return RESULT_SHOWUSAGE; span = atoi(argv[4]); if ((span < 1) || (span > NUM_SPANS)) { ast_cli(fd, "Invalid span %s. Should be a number %d to %d\n", argv[4], 1, NUM_SPANS); return RESULT_SUCCESS; } if (!pris[span-1].pri) { ast_cli(fd, "No PRI running on span %d\n", span); return RESULT_SUCCESS; } for (x = 0; x < NUM_DCHANS; x++) { if (pris[span-1].dchans[x]) pri_set_debug(pris[span-1].dchans[x], PRI_DEBUG_APDU | PRI_DEBUG_Q931_DUMP | PRI_DEBUG_Q931_STATE | PRI_DEBUG_Q921_RAW | PRI_DEBUG_Q921_DUMP | PRI_DEBUG_Q921_STATE); } ast_cli(fd, "Enabled EXTENSIVE debugging on span %d\n", span); return RESULT_SUCCESS; } static void build_status(char *s, size_t len, int status, int active) { if (!s || len < 1) { return; } s[0] = '\0'; if (status & DCHAN_PROVISIONED) strncat(s, "Provisioned, ", len - strlen(s) - 1); if (!(status & DCHAN_NOTINALARM)) strncat(s, "In Alarm, ", len - strlen(s) - 1); if (status & DCHAN_UP) strncat(s, "Up", len - strlen(s) - 1); else strncat(s, "Down", len - strlen(s) - 1); if (active) strncat(s, ", Active", len - strlen(s) - 1); else strncat(s, ", Standby", len - strlen(s) - 1); s[len - 1] = '\0'; } static int handle_pri_show_spans(int fd, int argc, char *argv[]) { int span; int x; char status[256]; if (argc != 3) return RESULT_SHOWUSAGE; for (span = 0; span < NUM_SPANS; span++) { if (pris[span].pri) { for (x = 0; x < NUM_DCHANS; x++) { if (pris[span].dchannels[x]) { build_status(status, sizeof(status), pris[span].dchanavail[x], pris[span].dchans[x] == pris[span].pri); ast_cli(fd, "PRI span %d/%d: %s\n", span + 1, x, status); } } } } return RESULT_SUCCESS; } static int handle_pri_show_span(int fd, int argc, char *argv[]) { int span; int x; char status[256]; if (argc < 4) return RESULT_SHOWUSAGE; span = atoi(argv[3]); if ((span < 1) || (span > NUM_SPANS)) { ast_cli(fd, "Invalid span '%s'. Should be a number from %d to %d\n", argv[3], 1, NUM_SPANS); return RESULT_SUCCESS; } if (!pris[span-1].pri) { ast_cli(fd, "No PRI running on span %d\n", span); return RESULT_SUCCESS; } for (x = 0; x < NUM_DCHANS; x++) { if (pris[span-1].dchannels[x]) { #ifdef PRI_DUMP_INFO_STR char *info_str = NULL; #endif ast_cli(fd, "%s D-channel: %d\n", pri_order(x), pris[span-1].dchannels[x]); build_status(status, sizeof(status), pris[span-1].dchanavail[x], pris[span-1].dchans[x] == pris[span-1].pri); ast_cli(fd, "Status: %s\n", status); #ifdef PRI_DUMP_INFO_STR info_str = pri_dump_info_str(pris[span-1].pri); if (info_str) { ast_cli(fd, "%s", info_str); free(info_str); } #else pri_dump_info(pris[span-1].pri); #endif ast_cli(fd, "\n"); } } return RESULT_SUCCESS; } static int handle_pri_show_debug(int fd, int argc, char *argv[]) { int x; int span; int count=0; int debug=0; for (span = 0; span < NUM_SPANS; span++) { if (pris[span].pri) { for (x = 0; x < NUM_DCHANS; x++) { debug = 0; if (pris[span].dchans[x]) { debug = pri_get_debug(pris[span].dchans[x]); ast_cli(fd, "Span %d: Debug: %s\tIntense: %s\n", span+1, (debug&PRI_DEBUG_Q931_STATE)? "Yes" : "No" ,(debug&PRI_DEBUG_Q921_RAW)? "Yes" : "No" ); count++; } } } } ast_mutex_lock(&pridebugfdlock); if (pridebugfd >= 0) ast_cli(fd, "Logging PRI debug to file %s\n", pridebugfilename); ast_mutex_unlock(&pridebugfdlock); if (!count) ast_cli(fd, "No debug set or no PRI running\n"); return RESULT_SUCCESS; } static const char pri_debug_help[] = "Usage: pri debug span \n" " Enables debugging on a given PRI span\n"; static const char pri_no_debug_help[] = "Usage: pri no debug span \n" " Disables debugging on a given PRI span\n"; static const char pri_really_debug_help[] = "Usage: pri intensive debug span \n" " Enables debugging down to the Q.921 level\n"; static const char pri_show_span_help[] = "Usage: pri show span \n" " Displays PRI Information on a given PRI span\n"; static const char pri_show_spans_help[] = "Usage: pri show spans\n" " Displays PRI Information\n"; static struct ast_cli_entry zap_pri_cli[] = { { { "pri", "debug", "span", NULL }, handle_pri_debug, "Enables PRI debugging on a span", pri_debug_help, complete_span_4 }, { { "pri", "no", "debug", "span", NULL }, handle_pri_no_debug, "Disables PRI debugging on a span", pri_no_debug_help, complete_span_5 }, { { "pri", "intense", "debug", "span", NULL }, handle_pri_really_debug, "Enables REALLY INTENSE PRI debugging", pri_really_debug_help, complete_span_5 }, { { "pri", "show", "spans", NULL }, handle_pri_show_spans, "Displays PRI Information", pri_show_spans_help }, { { "pri", "show", "span", NULL }, handle_pri_show_span, "Displays PRI Information", pri_show_span_help, complete_span_4 }, { { "pri", "show", "debug", NULL }, handle_pri_show_debug, "Displays current PRI debug settings" }, { { "pri", "set", "debug", "file", NULL }, handle_pri_set_debug_file, "Sends PRI debug output to the specified file" }, { { "pri", "unset", "debug", "file", NULL }, handle_pri_set_debug_file, "Ends PRI debug output to file" }, }; #endif /* HAVE_PRI */ static int zap_destroy_channel(int fd, int argc, char **argv) { int channel; if (argc != 4) return RESULT_SHOWUSAGE; channel = atoi(argv[3]); return zap_destroy_channel_bynum(channel); } static int setup_zap(int reload); static int zap_restart(void) { if (option_verbose > 0) ast_verbose(VERBOSE_PREFIX_1 "Destroying channels and reloading zaptel configuration.\n"); while (iflist) { if (option_debug) ast_log(LOG_DEBUG, "Destroying zaptel channel no. %d\n", iflist->channel); /* Also updates iflist: */ destroy_channel(NULL, iflist, 1); } if (option_debug) ast_log(LOG_DEBUG, "Channels destroyed. Now re-reading config.\n"); if (setup_zap(0) != 0) { ast_log(LOG_WARNING, "Reload channels from zap config failed!\n"); return 1; } return 0; } static int zap_restart_cmd(int fd, int argc, char **argv) { if (argc != 2) { return RESULT_SHOWUSAGE; } if (zap_restart() != 0) return RESULT_FAILURE; return RESULT_SUCCESS; } static int action_zaprestart(struct mansession *s, const struct message *m) { if (zap_restart() != 0) { astman_send_error(s, m, "Failed rereading zaptel configuration"); return 1; } astman_send_ack(s, m, "ZapRestart: Success"); return 0; } static int zap_show_channels(int fd, int argc, char **argv) { #define FORMAT "%7s %-10.10s %-15.15s %-10.10s %-20.20s\n" #define FORMAT2 "%7s %-10.10s %-15.15s %-10.10s %-20.20s\n" struct zt_pvt *tmp = NULL; char tmps[20] = ""; ast_mutex_t *lock; struct zt_pvt *start; #ifdef HAVE_PRI int trunkgroup; struct zt_pri *pri = NULL; int x; #endif lock = &iflock; start = iflist; #ifdef HAVE_PRI if (argc == 4) { if ((trunkgroup = atoi(argv[3])) < 1) return RESULT_SHOWUSAGE; for (x = 0; x < NUM_SPANS; x++) { if (pris[x].trunkgroup == trunkgroup) { pri = pris + x; break; } } if (pri) { start = pri->crvs; lock = &pri->lock; } else { ast_cli(fd, "No such trunk group %d\n", trunkgroup); return RESULT_FAILURE; } } else #endif if (argc != 3) return RESULT_SHOWUSAGE; ast_mutex_lock(lock); #ifdef HAVE_PRI ast_cli(fd, FORMAT2, pri ? "CRV" : "Chan", "Extension", "Context", "Language", "MOH Interpret"); #else ast_cli(fd, FORMAT2, "Chan", "Extension", "Context", "Language", "MOH Interpret"); #endif tmp = start; while (tmp) { if (tmp->channel > 0) { snprintf(tmps, sizeof(tmps), "%d", tmp->channel); } else ast_copy_string(tmps, "pseudo", sizeof(tmps)); ast_cli(fd, FORMAT, tmps, tmp->exten, tmp->context, tmp->language, tmp->mohinterpret); tmp = tmp->next; } ast_mutex_unlock(lock); return RESULT_SUCCESS; #undef FORMAT #undef FORMAT2 } static int zap_show_channel(int fd, int argc, char **argv) { int channel; struct zt_pvt *tmp = NULL; ZT_CONFINFO ci; ZT_PARAMS ps; int x; ast_mutex_t *lock; struct zt_pvt *start; #ifdef HAVE_PRI char *c; int trunkgroup; struct zt_pri *pri=NULL; #endif lock = &iflock; start = iflist; if (argc != 4) return RESULT_SHOWUSAGE; #ifdef HAVE_PRI if ((c = strchr(argv[3], ':'))) { if (sscanf(argv[3], "%d:%d", &trunkgroup, &channel) != 2) return RESULT_SHOWUSAGE; if ((trunkgroup < 1) || (channel < 1)) return RESULT_SHOWUSAGE; for (x = 0; x < NUM_SPANS; x++) { if (pris[x].trunkgroup == trunkgroup) { pri = pris + x; break; } } if (pri) { start = pri->crvs; lock = &pri->lock; } else { ast_cli(fd, "No such trunk group %d\n", trunkgroup); return RESULT_FAILURE; } } else #endif channel = atoi(argv[3]); ast_mutex_lock(lock); tmp = start; while (tmp) { if (tmp->channel == channel) { #ifdef HAVE_PRI if (pri) ast_cli(fd, "Trunk/CRV: %d/%d\n", trunkgroup, tmp->channel); else #endif ast_cli(fd, "Channel: %d\n", tmp->channel); ast_cli(fd, "File Descriptor: %d\n", tmp->subs[SUB_REAL].zfd); ast_cli(fd, "Span: %d\n", tmp->span); ast_cli(fd, "Extension: %s\n", tmp->exten); ast_cli(fd, "Dialing: %s\n", tmp->dialing ? "yes" : "no"); ast_cli(fd, "Context: %s\n", tmp->context); ast_cli(fd, "Caller ID: %s\n", tmp->cid_num); ast_cli(fd, "Calling TON: %d\n", tmp->cid_ton); ast_cli(fd, "Caller ID name: %s\n", tmp->cid_name); ast_cli(fd, "Destroy: %d\n", tmp->destroy); ast_cli(fd, "InAlarm: %d\n", tmp->inalarm); ast_cli(fd, "Signalling Type: %s\n", sig2str(tmp->sig)); ast_cli(fd, "Radio: %d\n", tmp->radio); ast_cli(fd, "Owner: %s\n", tmp->owner ? tmp->owner->name : ""); ast_cli(fd, "Real: %s%s%s\n", tmp->subs[SUB_REAL].owner ? tmp->subs[SUB_REAL].owner->name : "", tmp->subs[SUB_REAL].inthreeway ? " (Confed)" : "", tmp->subs[SUB_REAL].linear ? " (Linear)" : ""); ast_cli(fd, "Callwait: %s%s%s\n", tmp->subs[SUB_CALLWAIT].owner ? tmp->subs[SUB_CALLWAIT].owner->name : "", tmp->subs[SUB_CALLWAIT].inthreeway ? " (Confed)" : "", tmp->subs[SUB_CALLWAIT].linear ? " (Linear)" : ""); ast_cli(fd, "Threeway: %s%s%s\n", tmp->subs[SUB_THREEWAY].owner ? tmp->subs[SUB_THREEWAY].owner->name : "", tmp->subs[SUB_THREEWAY].inthreeway ? " (Confed)" : "", tmp->subs[SUB_THREEWAY].linear ? " (Linear)" : ""); ast_cli(fd, "Confno: %d\n", tmp->confno); ast_cli(fd, "Propagated Conference: %d\n", tmp->propconfno); ast_cli(fd, "Real in conference: %d\n", tmp->inconference); ast_cli(fd, "DSP: %s\n", tmp->dsp ? "yes" : "no"); ast_cli(fd, "Relax DTMF: %s\n", tmp->dtmfrelax ? "yes" : "no"); ast_cli(fd, "Dialing/CallwaitCAS: %d/%d\n", tmp->dialing, tmp->callwaitcas); ast_cli(fd, "Default law: %s\n", tmp->law == ZT_LAW_MULAW ? "ulaw" : tmp->law == ZT_LAW_ALAW ? "alaw" : "unknown"); ast_cli(fd, "Fax Handled: %s\n", tmp->faxhandled ? "yes" : "no"); ast_cli(fd, "Pulse phone: %s\n", tmp->pulsedial ? "yes" : "no"); ast_cli(fd, "Echo Cancellation: %d taps%s, currently %s\n", tmp->echocancel, tmp->echocanbridged ? "" : " unless TDM bridged", tmp->echocanon ? "ON" : "OFF"); if (tmp->master) ast_cli(fd, "Master Channel: %d\n", tmp->master->channel); for (x = 0; x < MAX_SLAVES; x++) { if (tmp->slaves[x]) ast_cli(fd, "Slave Channel: %d\n", tmp->slaves[x]->channel); } #ifdef HAVE_PRI if (tmp->pri) { ast_cli(fd, "PRI Flags: "); if (tmp->resetting) ast_cli(fd, "Resetting "); if (tmp->call) ast_cli(fd, "Call "); if (tmp->bearer) ast_cli(fd, "Bearer "); ast_cli(fd, "\n"); if (tmp->logicalspan) ast_cli(fd, "PRI Logical Span: %d\n", tmp->logicalspan); else ast_cli(fd, "PRI Logical Span: Implicit\n"); } #endif memset(&ci, 0, sizeof(ci)); ps.channo = tmp->channel; if (tmp->subs[SUB_REAL].zfd > -1) { if (!ioctl(tmp->subs[SUB_REAL].zfd, ZT_GETCONF, &ci)) { ast_cli(fd, "Actual Confinfo: Num/%d, Mode/0x%04x\n", ci.confno, ci.confmode); } #ifdef ZT_GETCONFMUTE if (!ioctl(tmp->subs[SUB_REAL].zfd, ZT_GETCONFMUTE, &x)) { ast_cli(fd, "Actual Confmute: %s\n", x ? "Yes" : "No"); } #endif if (ioctl(tmp->subs[SUB_REAL].zfd, ZT_GET_PARAMS, &ps) < 0) { ast_log(LOG_WARNING, "Failed to get parameters on channel %d\n", tmp->channel); } else { ast_cli(fd, "Hookstate (FXS only): %s\n", ps.rxisoffhook ? "Offhook" : "Onhook"); } } ast_mutex_unlock(lock); return RESULT_SUCCESS; } tmp = tmp->next; } ast_cli(fd, "Unable to find given channel %d\n", channel); ast_mutex_unlock(lock); return RESULT_FAILURE; } static char zap_show_cadences_help[] = "Usage: zap show cadences\n" " Shows all cadences currently defined\n"; static int handle_zap_show_cadences(int fd, int argc, char *argv[]) { int i, j; for (i = 0; i < num_cadence; i++) { char output[1024]; char tmp[16], tmp2[64]; snprintf(tmp, sizeof(tmp), "r%d: ", i + 1); term_color(output, tmp, COLOR_GREEN, COLOR_BLACK, sizeof(output)); for (j = 0; j < 16; j++) { if (cadences[i].ringcadence[j] == 0) break; snprintf(tmp, sizeof(tmp), "%d", cadences[i].ringcadence[j]); if (cidrings[i] * 2 - 1 == j) term_color(tmp2, tmp, COLOR_MAGENTA, COLOR_BLACK, sizeof(tmp2) - 1); else term_color(tmp2, tmp, COLOR_GREEN, COLOR_BLACK, sizeof(tmp2) - 1); if (j != 0) strncat(output, ",", sizeof(output) - strlen(output) - 1); strncat(output, tmp2, sizeof(output) - strlen(output) - 1); } ast_cli(fd,"%s\n",output); } return 0; } /* Based on irqmiss.c */ static int zap_show_status(int fd, int argc, char *argv[]) { #define FORMAT "%-40.40s %-10.10s %-10d %-10d %-10d\n" #define FORMAT2 "%-40.40s %-10.10s %-10.10s %-10.10s %-10.10s\n" int span; int res; char alarms[50]; int ctl; ZT_SPANINFO s; ctl = open("/dev/zap/ctl", O_RDWR); if (ctl < 0) { ast_log(LOG_WARNING, "Unable to open /dev/zap/ctl: %s\n", strerror(errno)); ast_cli(fd, "No Zaptel interface found.\n"); return RESULT_FAILURE; } ast_cli(fd, FORMAT2, "Description", "Alarms", "IRQ", "bpviol", "CRC4"); for (span = 1; span < ZT_MAX_SPANS; ++span) { s.spanno = span; res = ioctl(ctl, ZT_SPANSTAT, &s); if (res) { continue; } alarms[0] = '\0'; if (s.alarms > 0) { if (s.alarms & ZT_ALARM_BLUE) strcat(alarms, "BLU/"); if (s.alarms & ZT_ALARM_YELLOW) strcat(alarms, "YEL/"); if (s.alarms & ZT_ALARM_RED) strcat(alarms, "RED/"); if (s.alarms & ZT_ALARM_LOOPBACK) strcat(alarms, "LB/"); if (s.alarms & ZT_ALARM_RECOVER) strcat(alarms, "REC/"); if (s.alarms & ZT_ALARM_NOTOPEN) strcat(alarms, "NOP/"); if (!strlen(alarms)) strcat(alarms, "UUU/"); if (strlen(alarms)) { /* Strip trailing / */ alarms[strlen(alarms) - 1] = '\0'; } } else { if (s.numchans) strcpy(alarms, "OK"); else strcpy(alarms, "UNCONFIGURED"); } ast_cli(fd, FORMAT, s.desc, alarms, s.irqmisses, s.bpvcount, s.crc4count); } close(ctl); return RESULT_SUCCESS; #undef FORMAT #undef FORMAT2 } static char show_channels_usage[] = "Usage: zap show channels\n" " Shows a list of available channels\n"; static char show_channel_usage[] = "Usage: zap show channel \n" " Detailed information about a given channel\n"; static char zap_show_status_usage[] = "Usage: zap show status\n" " Shows a list of Zaptel cards with status\n"; static char destroy_channel_usage[] = "Usage: zap destroy channel \n" " DON'T USE THIS UNLESS YOU KNOW WHAT YOU ARE DOING. Immediately removes a given channel, whether it is in use or not\n"; static char zap_restart_usage[] = "Usage: zap restart\n" " Restarts the zaptel channels: destroys them all and then\n" " re-reads them from zapata.conf.\n" " Note that this will STOP any running CALL on zaptel channels.\n" ""; static struct ast_cli_entry zap_cli[] = { { { "zap", "show", "cadences", NULL }, handle_zap_show_cadences, "List cadences", zap_show_cadences_help }, { { "zap", "show", "channels", NULL}, zap_show_channels, "Show active zapata channels", show_channels_usage }, { { "zap", "show", "channel", NULL}, zap_show_channel, "Show information on a channel", show_channel_usage }, { { "zap", "destroy", "channel", NULL}, zap_destroy_channel, "Destroy a channel", destroy_channel_usage }, { { "zap", "restart", NULL}, zap_restart_cmd, "Fully restart zaptel channels", zap_restart_usage }, { { "zap", "show", "status", NULL}, zap_show_status, "Show all Zaptel cards status", zap_show_status_usage }, }; #define TRANSFER 0 #define HANGUP 1 static int zap_fake_event(struct zt_pvt *p, int mode) { if (p) { switch (mode) { case TRANSFER: p->fake_event = ZT_EVENT_WINKFLASH; break; case HANGUP: p->fake_event = ZT_EVENT_ONHOOK; break; default: ast_log(LOG_WARNING, "I don't know how to handle transfer event with this: %d on channel %s\n",mode, p->owner->name); } } return 0; } static struct zt_pvt *find_channel(int channel) { struct zt_pvt *p = iflist; while (p) { if (p->channel == channel) { break; } p = p->next; } return p; } static int action_zapdndon(struct mansession *s, const struct message *m) { struct zt_pvt *p = NULL; const char *channel = astman_get_header(m, "ZapChannel"); if (ast_strlen_zero(channel)) { astman_send_error(s, m, "No channel specified"); return 0; } p = find_channel(atoi(channel)); if (!p) { astman_send_error(s, m, "No such channel"); return 0; } p->dnd = 1; astman_send_ack(s, m, "DND Enabled"); return 0; } static int action_zapdndoff(struct mansession *s, const struct message *m) { struct zt_pvt *p = NULL; const char *channel = astman_get_header(m, "ZapChannel"); if (ast_strlen_zero(channel)) { astman_send_error(s, m, "No channel specified"); return 0; } p = find_channel(atoi(channel)); if (!p) { astman_send_error(s, m, "No such channel"); return 0; } p->dnd = 0; astman_send_ack(s, m, "DND Disabled"); return 0; } static int action_transfer(struct mansession *s, const struct message *m) { struct zt_pvt *p = NULL; const char *channel = astman_get_header(m, "ZapChannel"); if (ast_strlen_zero(channel)) { astman_send_error(s, m, "No channel specified"); return 0; } p = find_channel(atoi(channel)); if (!p) { astman_send_error(s, m, "No such channel"); return 0; } zap_fake_event(p,TRANSFER); astman_send_ack(s, m, "ZapTransfer"); return 0; } static int action_transferhangup(struct mansession *s, const struct message *m) { struct zt_pvt *p = NULL; const char *channel = astman_get_header(m, "ZapChannel"); if (ast_strlen_zero(channel)) { astman_send_error(s, m, "No channel specified"); return 0; } p = find_channel(atoi(channel)); if (!p) { astman_send_error(s, m, "No such channel"); return 0; } zap_fake_event(p,HANGUP); astman_send_ack(s, m, "ZapHangup"); return 0; } static int action_zapdialoffhook(struct mansession *s, const struct message *m) { struct zt_pvt *p = NULL; const char *channel = astman_get_header(m, "ZapChannel"); const char *number = astman_get_header(m, "Number"); int i; if (ast_strlen_zero(channel)) { astman_send_error(s, m, "No channel specified"); return 0; } if (ast_strlen_zero(number)) { astman_send_error(s, m, "No number specified"); return 0; } p = find_channel(atoi(channel)); if (!p) { astman_send_error(s, m, "No such channel"); return 0; } if (!p->owner) { astman_send_error(s, m, "Channel does not have it's owner"); return 0; } for (i = 0; i < strlen(number); i++) { struct ast_frame f = { AST_FRAME_DTMF, number[i] }; zap_queue_frame(p, &f, NULL); } astman_send_ack(s, m, "ZapDialOffhook"); return 0; } static int action_zapshowchannels(struct mansession *s, const struct message *m) { struct zt_pvt *tmp = NULL; const char *id = astman_get_header(m, "ActionID"); char idText[256] = ""; astman_send_ack(s, m, "Zapata channel status will follow"); if (!ast_strlen_zero(id)) snprintf(idText, sizeof(idText) - 1, "ActionID: %s\r\n", id); ast_mutex_lock(&iflock); tmp = iflist; while (tmp) { if (tmp->channel > 0) { int alarm = get_alarms(tmp); astman_append(s, "Event: ZapShowChannels\r\n" "Channel: %d\r\n" "Signalling: %s\r\n" "Context: %s\r\n" "DND: %s\r\n" "Alarm: %s\r\n" "%s" "\r\n", tmp->channel, sig2str(tmp->sig), tmp->context, tmp->dnd ? "Enabled" : "Disabled", alarm2str(alarm), idText); } tmp = tmp->next; } ast_mutex_unlock(&iflock); astman_append(s, "Event: ZapShowChannelsComplete\r\n" "%s" "\r\n", idText); return 0; } static int __unload_module(void) { int x; struct zt_pvt *p, *pl; #ifdef HAVE_PRI int i; for (i = 0; i < NUM_SPANS; i++) { if (pris[i].master != AST_PTHREADT_NULL) pthread_cancel(pris[i].master); } ast_cli_unregister_multiple(zap_pri_cli, sizeof(zap_pri_cli) / sizeof(struct ast_cli_entry)); ast_unregister_application(zap_send_keypad_facility_app); #endif ast_cli_unregister_multiple(zap_cli, sizeof(zap_cli) / sizeof(struct ast_cli_entry)); ast_manager_unregister( "ZapDialOffhook" ); ast_manager_unregister( "ZapHangup" ); ast_manager_unregister( "ZapTransfer" ); ast_manager_unregister( "ZapDNDoff" ); ast_manager_unregister( "ZapDNDon" ); ast_manager_unregister("ZapShowChannels"); ast_manager_unregister("ZapRestart"); ast_channel_unregister(&zap_tech); ast_mutex_lock(&iflock); /* Hangup all interfaces if they have an owner */ p = iflist; while (p) { if (p->owner) ast_softhangup(p->owner, AST_SOFTHANGUP_APPUNLOAD); p = p->next; } ast_mutex_unlock(&iflock); ast_mutex_lock(&monlock); if (monitor_thread && (monitor_thread != AST_PTHREADT_STOP) && (monitor_thread != AST_PTHREADT_NULL)) { pthread_cancel(monitor_thread); pthread_kill(monitor_thread, SIGURG); pthread_join(monitor_thread, NULL); } monitor_thread = AST_PTHREADT_STOP; ast_mutex_unlock(&monlock); ast_mutex_lock(&iflock); /* Destroy all the interfaces and free their memory */ p = iflist; while (p) { /* Free any callerid */ if (p->cidspill) free(p->cidspill); /* Close the zapata thingy */ if (p->subs[SUB_REAL].zfd > -1) zt_close(p->subs[SUB_REAL].zfd); pl = p; p = p->next; x = pl->channel; /* Free associated memory */ if (pl) destroy_zt_pvt(&pl); ast_verbose(VERBOSE_PREFIX_3 "Unregistered channel %d\n", x); } iflist = NULL; ifcount = 0; ast_mutex_unlock(&iflock); #ifdef HAVE_PRI for (i = 0; i < NUM_SPANS; i++) { if (pris[i].master && (pris[i].master != AST_PTHREADT_NULL)) pthread_join(pris[i].master, NULL); zt_close(pris[i].fds[i]); } #endif return 0; } static int unload_module(void) { #ifdef HAVE_PRI int y; for (y = 0; y < NUM_SPANS; y++) ast_mutex_destroy(&pris[y].lock); #endif return __unload_module(); } static int build_channels(struct zt_chan_conf conf, int iscrv, const char *value, int reload, int lineno, int *found_pseudo) { char *c, *chan; int x, start, finish; struct zt_pvt *tmp; #ifdef HAVE_PRI struct zt_pri *pri; int trunkgroup, y; #endif if ((reload == 0) && (conf.chan.sig < 0)) { ast_log(LOG_ERROR, "Signalling must be specified before any channels are.\n"); return -1; } c = ast_strdupa(value); #ifdef HAVE_PRI pri = NULL; if (iscrv) { if (sscanf(c, "%d:%n", &trunkgroup, &y) != 1) { ast_log(LOG_WARNING, "CRV must begin with trunkgroup followed by a colon at line %d\n", lineno); return -1; } if (trunkgroup < 1) { ast_log(LOG_WARNING, "CRV trunk group must be a positive number at line %d\n", lineno); return -1; } c += y; for (y = 0; y < NUM_SPANS; y++) { if (pris[y].trunkgroup == trunkgroup) { pri = pris + y; break; } } if (!pri) { ast_log(LOG_WARNING, "No such trunk group %d at CRV declaration at line %d\n", trunkgroup, lineno); return -1; } } #endif while ((chan = strsep(&c, ","))) { if (sscanf(chan, "%d-%d", &start, &finish) == 2) { /* Range */ } else if (sscanf(chan, "%d", &start)) { /* Just one */ finish = start; } else if (!strcasecmp(chan, "pseudo")) { finish = start = CHAN_PSEUDO; if (found_pseudo) *found_pseudo = 1; } else { ast_log(LOG_ERROR, "Syntax error parsing '%s' at '%s'\n", value, chan); return -1; } if (finish < start) { ast_log(LOG_WARNING, "Sillyness: %d < %d\n", start, finish); x = finish; finish = start; start = x; } for (x = start; x <= finish; x++) { #ifdef HAVE_PRI tmp = mkintf(x, conf, pri, reload); #else tmp = mkintf(x, conf, NULL, reload); #endif if (tmp) { if (option_verbose > 2) { #ifdef HAVE_PRI if (pri) ast_verbose(VERBOSE_PREFIX_3 "%s CRV %d:%d, %s signalling\n", reload ? "Reconfigured" : "Registered", trunkgroup, x, sig2str(tmp->sig)); else #endif ast_verbose(VERBOSE_PREFIX_3 "%s channel %d, %s signalling\n", reload ? "Reconfigured" : "Registered", x, sig2str(tmp->sig)); } } else { ast_log(LOG_ERROR, "Unable to %s channel '%s'\n", (reload == 1) ? "reconfigure" : "register", value); return -1; } } } return 0; } /** The length of the parameters list of 'zapchan'. * \todo Move definition of MAX_CHANLIST_LEN to a proper place. */ #define MAX_CHANLIST_LEN 80 static int process_zap(struct zt_chan_conf *confp, struct ast_variable *v, int reload, int skipchannels) { struct zt_pvt *tmp; char *ringc; /* temporary string for parsing the dring number. */ int y; int found_pseudo = 0; char zapchan[MAX_CHANLIST_LEN] = {}; for (; v; v = v->next) { if (!ast_jb_read_conf(&global_jbconf, v->name, v->value)) continue; /* Create the interface list */ if (!strcasecmp(v->name, "channel") #ifdef HAVE_PRI || !strcasecmp(v->name, "crv") #endif ) { int iscrv; if (skipchannels) continue; iscrv = !strcasecmp(v->name, "crv"); if (build_channels(*confp, iscrv, v->value, reload, v->lineno, &found_pseudo)) return -1; } else if (!strcasecmp(v->name, "zapchan")) { ast_copy_string(zapchan, v->value, sizeof(zapchan)); } else if (!strcasecmp(v->name, "usedistinctiveringdetection")) { if (ast_true(v->value)) confp->chan.usedistinctiveringdetection = 1; } else if (!strcasecmp(v->name, "distinctiveringaftercid")) { if (ast_true(v->value)) distinctiveringaftercid = 1; } else if (!strcasecmp(v->name, "dring1context")) { ast_copy_string(drings.ringContext[0].contextData, v->value, sizeof(drings.ringContext[0].contextData)); } else if (!strcasecmp(v->name, "dring2context")) { ast_copy_string(drings.ringContext[1].contextData, v->value, sizeof(drings.ringContext[1].contextData)); } else if (!strcasecmp(v->name, "dring3context")) { ast_copy_string(drings.ringContext[2].contextData, v->value, sizeof(drings.ringContext[2].contextData)); } else if (!strcasecmp(v->name, "dring1")) { ringc = v->value; sscanf(ringc, "%d,%d,%d", &drings.ringnum[0].ring[0], &drings.ringnum[0].ring[1], &drings.ringnum[0].ring[2]); } else if (!strcasecmp(v->name, "dring2")) { ringc = v->value; sscanf(ringc, "%d,%d,%d", &drings.ringnum[1].ring[0], &drings.ringnum[1].ring[1], &drings.ringnum[1].ring[2]); } else if (!strcasecmp(v->name, "dring3")) { ringc = v->value; sscanf(ringc, "%d,%d,%d", &drings.ringnum[2].ring[0], &drings.ringnum[2].ring[1], &drings.ringnum[2].ring[2]); } else if (!strcasecmp(v->name, "usecallerid")) { confp->chan.use_callerid = ast_true(v->value); } else if (!strcasecmp(v->name, "cidsignalling")) { if (!strcasecmp(v->value, "bell")) confp->chan.cid_signalling = CID_SIG_BELL; else if (!strcasecmp(v->value, "v23")) confp->chan.cid_signalling = CID_SIG_V23; else if (!strcasecmp(v->value, "dtmf")) confp->chan.cid_signalling = CID_SIG_DTMF; else if (!strcasecmp(v->value, "smdi")) confp->chan.cid_signalling = CID_SIG_SMDI; else if (!strcasecmp(v->value, "v23_jp")) confp->chan.cid_signalling = CID_SIG_V23_JP; else if (ast_true(v->value)) confp->chan.cid_signalling = CID_SIG_BELL; } else if (!strcasecmp(v->name, "cidstart")) { if (!strcasecmp(v->value, "ring")) confp->chan.cid_start = CID_START_RING; else if (!strcasecmp(v->value, "polarity")) confp->chan.cid_start = CID_START_POLARITY; else if (ast_true(v->value)) confp->chan.cid_start = CID_START_RING; } else if (!strcasecmp(v->name, "threewaycalling")) { confp->chan.threewaycalling = ast_true(v->value); } else if (!strcasecmp(v->name, "cancallforward")) { confp->chan.cancallforward = ast_true(v->value); } else if (!strcasecmp(v->name, "relaxdtmf")) { if (ast_true(v->value)) confp->chan.dtmfrelax = DSP_DIGITMODE_RELAXDTMF; else confp->chan.dtmfrelax = 0; } else if (!strcasecmp(v->name, "mailbox")) { ast_copy_string(confp->chan.mailbox, v->value, sizeof(confp->chan.mailbox)); } else if (!strcasecmp(v->name, "adsi")) { confp->chan.adsi = ast_true(v->value); } else if (!strcasecmp(v->name, "usesmdi")) { confp->chan.use_smdi = ast_true(v->value); } else if (!strcasecmp(v->name, "smdiport")) { ast_copy_string(confp->smdi_port, v->value, sizeof(confp->smdi_port)); } else if (!strcasecmp(v->name, "transfer")) { confp->chan.transfer = ast_true(v->value); } else if (!strcasecmp(v->name, "canpark")) { confp->chan.canpark = ast_true(v->value); } else if (!strcasecmp(v->name, "echocancelwhenbridged")) { confp->chan.echocanbridged = ast_true(v->value); } else if (!strcasecmp(v->name, "busydetect")) { confp->chan.busydetect = ast_true(v->value); } else if (!strcasecmp(v->name, "busycount")) { confp->chan.busycount = atoi(v->value); } else if (!strcasecmp(v->name, "busypattern")) { if (sscanf(v->value, "%d,%d", &confp->chan.busy_tonelength, &confp->chan.busy_quietlength) != 2) { ast_log(LOG_ERROR, "busypattern= expects busypattern=tonelength,quietlength\n"); } } else if (!strcasecmp(v->name, "callprogress")) { if (ast_true(v->value)) confp->chan.callprogress |= 1; else confp->chan.callprogress &= ~1; } else if (!strcasecmp(v->name, "faxdetect")) { if (!strcasecmp(v->value, "incoming")) { confp->chan.callprogress |= 4; confp->chan.callprogress &= ~2; } else if (!strcasecmp(v->value, "outgoing")) { confp->chan.callprogress &= ~4; confp->chan.callprogress |= 2; } else if (!strcasecmp(v->value, "both") || ast_true(v->value)) confp->chan.callprogress |= 6; else confp->chan.callprogress &= ~6; } else if (!strcasecmp(v->name, "echocancel")) { if (!ast_strlen_zero(v->value)) { y = atoi(v->value); } else y = 0; if ((y == 32) || (y == 64) || (y == 128) || (y == 256) || (y == 512) || (y == 1024)) confp->chan.echocancel = y; else { confp->chan.echocancel = ast_true(v->value); if (confp->chan.echocancel) confp->chan.echocancel=128; } } else if (!strcasecmp(v->name, "echotraining")) { if (sscanf(v->value, "%d", &y) == 1) { if ((y < 10) || (y > 4000)) { ast_log(LOG_WARNING, "Echo training time must be within the range of 10 to 4000 ms at line %d\n", v->lineno); } else { confp->chan.echotraining = y; } } else if (ast_true(v->value)) { confp->chan.echotraining = 400; } else confp->chan.echotraining = 0; } else if (!strcasecmp(v->name, "hidecallerid")) { confp->chan.hidecallerid = ast_true(v->value); } else if (!strcasecmp(v->name, "hidecalleridname")) { confp->chan.hidecalleridname = ast_true(v->value); } else if (!strcasecmp(v->name, "pulsedial")) { confp->chan.pulse = ast_true(v->value); } else if (!strcasecmp(v->name, "callreturn")) { confp->chan.callreturn = ast_true(v->value); } else if (!strcasecmp(v->name, "callwaiting")) { confp->chan.callwaiting = ast_true(v->value); } else if (!strcasecmp(v->name, "callwaitingcallerid")) { confp->chan.callwaitingcallerid = ast_true(v->value); } else if (!strcasecmp(v->name, "context")) { ast_copy_string(confp->chan.context, v->value, sizeof(confp->chan.context)); } else if (!strcasecmp(v->name, "language")) { ast_copy_string(confp->chan.language, v->value, sizeof(confp->chan.language)); } else if (!strcasecmp(v->name, "progzone")) { ast_copy_string(progzone, v->value, sizeof(progzone)); } else if (!strcasecmp(v->name, "mohinterpret") ||!strcasecmp(v->name, "musiconhold") || !strcasecmp(v->name, "musicclass")) { ast_copy_string(confp->chan.mohinterpret, v->value, sizeof(confp->chan.mohinterpret)); } else if (!strcasecmp(v->name, "mohsuggest")) { ast_copy_string(confp->chan.mohsuggest, v->value, sizeof(confp->chan.mohsuggest)); } else if (!strcasecmp(v->name, "stripmsd")) { confp->chan.stripmsd = atoi(v->value); } else if (!strcasecmp(v->name, "jitterbuffers")) { numbufs = atoi(v->value); } else if (!strcasecmp(v->name, "group")) { confp->chan.group = ast_get_group(v->value); } else if (!strcasecmp(v->name, "callgroup")) { confp->chan.callgroup = ast_get_group(v->value); } else if (!strcasecmp(v->name, "pickupgroup")) { confp->chan.pickupgroup = ast_get_group(v->value); } else if (!strcasecmp(v->name, "immediate")) { confp->chan.immediate = ast_true(v->value); } else if (!strcasecmp(v->name, "transfertobusy")) { confp->chan.transfertobusy = ast_true(v->value); } else if (!strcasecmp(v->name, "rxgain")) { if (sscanf(v->value, "%f", &confp->chan.rxgain) != 1) { ast_log(LOG_WARNING, "Invalid rxgain: %s\n", v->value); } } else if (!strcasecmp(v->name, "txgain")) { if (sscanf(v->value, "%f", &confp->chan.txgain) != 1) { ast_log(LOG_WARNING, "Invalid txgain: %s\n", v->value); } } else if (!strcasecmp(v->name, "tonezone")) { if (sscanf(v->value, "%d", &confp->chan.tonezone) != 1) { ast_log(LOG_WARNING, "Invalid tonezone: %s\n", v->value); } } else if (!strcasecmp(v->name, "callerid")) { if (!strcasecmp(v->value, "asreceived")) { confp->chan.cid_num[0] = '\0'; confp->chan.cid_name[0] = '\0'; } else { ast_callerid_split(v->value, confp->chan.cid_name, sizeof(confp->chan.cid_name), confp->chan.cid_num, sizeof(confp->chan.cid_num)); } } else if (!strcasecmp(v->name, "fullname")) { ast_copy_string(confp->chan.cid_name, v->value, sizeof(confp->chan.cid_name)); } else if (!strcasecmp(v->name, "cid_number")) { ast_copy_string(confp->chan.cid_num, v->value, sizeof(confp->chan.cid_num)); } else if (!strcasecmp(v->name, "useincomingcalleridonzaptransfer")) { confp->chan.zaptrcallerid = ast_true(v->value); } else if (!strcasecmp(v->name, "restrictcid")) { confp->chan.restrictcid = ast_true(v->value); } else if (!strcasecmp(v->name, "usecallingpres")) { confp->chan.use_callingpres = ast_true(v->value); } else if (!strcasecmp(v->name, "accountcode")) { ast_copy_string(confp->chan.accountcode, v->value, sizeof(confp->chan.accountcode)); } else if (!strcasecmp(v->name, "amaflags")) { y = ast_cdr_amaflags2int(v->value); if (y < 0) ast_log(LOG_WARNING, "Invalid AMA flags: %s at line %d\n", v->value, v->lineno); else confp->chan.amaflags = y; } else if (!strcasecmp(v->name, "polarityonanswerdelay")) { confp->chan.polarityonanswerdelay = atoi(v->value); } else if (!strcasecmp(v->name, "answeronpolarityswitch")) { confp->chan.answeronpolarityswitch = ast_true(v->value); } else if (!strcasecmp(v->name, "hanguponpolarityswitch")) { confp->chan.hanguponpolarityswitch = ast_true(v->value); } else if (!strcasecmp(v->name, "sendcalleridafter")) { confp->chan.sendcalleridafter = atoi(v->value); } else if (!reload){ if (!strcasecmp(v->name, "signalling")) { confp->chan.outsigmod = -1; if (!strcasecmp(v->value, "em")) { confp->chan.sig = SIG_EM; } else if (!strcasecmp(v->value, "em_e1")) { confp->chan.sig = SIG_EM_E1; } else if (!strcasecmp(v->value, "em_w")) { confp->chan.sig = SIG_EMWINK; confp->chan.radio = 0; } else if (!strcasecmp(v->value, "fxs_ls")) { confp->chan.sig = SIG_FXSLS; confp->chan.radio = 0; } else if (!strcasecmp(v->value, "fxs_gs")) { confp->chan.sig = SIG_FXSGS; confp->chan.radio = 0; } else if (!strcasecmp(v->value, "fxs_ks")) { confp->chan.sig = SIG_FXSKS; confp->chan.radio = 0; } else if (!strcasecmp(v->value, "fxo_ls")) { confp->chan.sig = SIG_FXOLS; confp->chan.radio = 0; } else if (!strcasecmp(v->value, "fxo_gs")) { confp->chan.sig = SIG_FXOGS; confp->chan.radio = 0; } else if (!strcasecmp(v->value, "fxo_ks")) { confp->chan.sig = SIG_FXOKS; confp->chan.radio = 0; } else if (!strcasecmp(v->value, "fxs_rx")) { confp->chan.sig = SIG_FXSKS; confp->chan.radio = 1; } else if (!strcasecmp(v->value, "fxo_rx")) { confp->chan.sig = SIG_FXOLS; confp->chan.radio = 1; } else if (!strcasecmp(v->value, "fxs_tx")) { confp->chan.sig = SIG_FXSLS; confp->chan.radio = 1; } else if (!strcasecmp(v->value, "fxo_tx")) { confp->chan.sig = SIG_FXOGS; confp->chan.radio = 1; } else if (!strcasecmp(v->value, "em_rx")) { confp->chan.sig = SIG_EM; confp->chan.radio = 1; } else if (!strcasecmp(v->value, "em_tx")) { confp->chan.sig = SIG_EM; confp->chan.radio = 1; } else if (!strcasecmp(v->value, "em_rxtx")) { confp->chan.sig = SIG_EM; confp->chan.radio = 2; } else if (!strcasecmp(v->value, "em_txrx")) { confp->chan.sig = SIG_EM; confp->chan.radio = 2; } else if (!strcasecmp(v->value, "sf")) { confp->chan.sig = SIG_SF; confp->chan.radio = 0; } else if (!strcasecmp(v->value, "sf_w")) { confp->chan.sig = SIG_SFWINK; confp->chan.radio = 0; } else if (!strcasecmp(v->value, "sf_featd")) { confp->chan.sig = SIG_FEATD; confp->chan.radio = 0; } else if (!strcasecmp(v->value, "sf_featdmf")) { confp->chan.sig = SIG_FEATDMF; confp->chan.radio = 0; } else if (!strcasecmp(v->value, "sf_featb")) { confp->chan.sig = SIG_SF_FEATB; confp->chan.radio = 0; } else if (!strcasecmp(v->value, "sf")) { confp->chan.sig = SIG_SF; confp->chan.radio = 0; } else if (!strcasecmp(v->value, "sf_rx")) { confp->chan.sig = SIG_SF; confp->chan.radio = 1; } else if (!strcasecmp(v->value, "sf_tx")) { confp->chan.sig = SIG_SF; confp->chan.radio = 1; } else if (!strcasecmp(v->value, "sf_rxtx")) { confp->chan.sig = SIG_SF; confp->chan.radio = 2; } else if (!strcasecmp(v->value, "sf_txrx")) { confp->chan.sig = SIG_SF; confp->chan.radio = 2; } else if (!strcasecmp(v->value, "featd")) { confp->chan.sig = SIG_FEATD; confp->chan.radio = 0; } else if (!strcasecmp(v->value, "featdmf")) { confp->chan.sig = SIG_FEATDMF; confp->chan.radio = 0; } else if (!strcasecmp(v->value, "featdmf_ta")) { confp->chan.sig = SIG_FEATDMF_TA; confp->chan.radio = 0; } else if (!strcasecmp(v->value, "e911")) { confp->chan.sig = SIG_E911; confp->chan.radio = 0; } else if (!strcasecmp(v->value, "fgccama")) { confp->chan.sig = SIG_FGC_CAMA; confp->chan.radio = 0; } else if (!strcasecmp(v->value, "fgccamamf")) { confp->chan.sig = SIG_FGC_CAMAMF; confp->chan.radio = 0; } else if (!strcasecmp(v->value, "featb")) { confp->chan.sig = SIG_FEATB; confp->chan.radio = 0; #ifdef HAVE_PRI } else if (!strcasecmp(v->value, "pri_net")) { confp->chan.radio = 0; confp->chan.sig = SIG_PRI; confp->pri.nodetype = PRI_NETWORK; } else if (!strcasecmp(v->value, "pri_cpe")) { confp->chan.sig = SIG_PRI; confp->chan.radio = 0; confp->pri.nodetype = PRI_CPE; } else if (!strcasecmp(v->value, "gr303fxoks_net")) { confp->chan.sig = SIG_GR303FXOKS; confp->chan.radio = 0; confp->pri.nodetype = PRI_NETWORK; } else if (!strcasecmp(v->value, "gr303fxsks_cpe")) { confp->chan.sig = SIG_GR303FXSKS; confp->chan.radio = 0; confp->pri.nodetype = PRI_CPE; #endif } else { ast_log(LOG_ERROR, "Unknown signalling method '%s'\n", v->value); } } else if (!strcasecmp(v->name, "outsignalling")) { if (!strcasecmp(v->value, "em")) { confp->chan.outsigmod = SIG_EM; } else if (!strcasecmp(v->value, "em_e1")) { confp->chan.outsigmod = SIG_EM_E1; } else if (!strcasecmp(v->value, "em_w")) { confp->chan.outsigmod = SIG_EMWINK; } else if (!strcasecmp(v->value, "sf")) { confp->chan.outsigmod = SIG_SF; } else if (!strcasecmp(v->value, "sf_w")) { confp->chan.outsigmod = SIG_SFWINK; } else if (!strcasecmp(v->value, "sf_featd")) { confp->chan.outsigmod = SIG_FEATD; } else if (!strcasecmp(v->value, "sf_featdmf")) { confp->chan.outsigmod = SIG_FEATDMF; } else if (!strcasecmp(v->value, "sf_featb")) { confp->chan.outsigmod = SIG_SF_FEATB; } else if (!strcasecmp(v->value, "sf")) { confp->chan.outsigmod = SIG_SF; } else if (!strcasecmp(v->value, "featd")) { confp->chan.outsigmod = SIG_FEATD; } else if (!strcasecmp(v->value, "featdmf")) { confp->chan.outsigmod = SIG_FEATDMF; } else if (!strcasecmp(v->value, "featdmf_ta")) { confp->chan.outsigmod = SIG_FEATDMF_TA; } else if (!strcasecmp(v->value, "e911")) { confp->chan.outsigmod = SIG_E911; } else if (!strcasecmp(v->value, "fgccama")) { confp->chan.outsigmod = SIG_FGC_CAMA; } else if (!strcasecmp(v->value, "fgccamamf")) { confp->chan.outsigmod = SIG_FGC_CAMAMF; } else if (!strcasecmp(v->value, "featb")) { confp->chan.outsigmod = SIG_FEATB; } else { ast_log(LOG_ERROR, "Unknown signalling method '%s'\n", v->value); } #ifdef HAVE_PRI } else if (!strcasecmp(v->name, "pridialplan")) { if (!strcasecmp(v->value, "national")) { confp->pri.dialplan = PRI_NATIONAL_ISDN + 1; } else if (!strcasecmp(v->value, "unknown")) { confp->pri.dialplan = PRI_UNKNOWN + 1; } else if (!strcasecmp(v->value, "private")) { confp->pri.dialplan = PRI_PRIVATE + 1; } else if (!strcasecmp(v->value, "international")) { confp->pri.dialplan = PRI_INTERNATIONAL_ISDN + 1; } else if (!strcasecmp(v->value, "local")) { confp->pri.dialplan = PRI_LOCAL_ISDN + 1; } else if (!strcasecmp(v->value, "dynamic")) { confp->pri.dialplan = -1; } else { ast_log(LOG_WARNING, "Unknown PRI dialplan '%s' at line %d.\n", v->value, v->lineno); } } else if (!strcasecmp(v->name, "prilocaldialplan")) { if (!strcasecmp(v->value, "national")) { confp->pri.localdialplan = PRI_NATIONAL_ISDN + 1; } else if (!strcasecmp(v->value, "unknown")) { confp->pri.localdialplan = PRI_UNKNOWN + 1; } else if (!strcasecmp(v->value, "private")) { confp->pri.localdialplan = PRI_PRIVATE + 1; } else if (!strcasecmp(v->value, "international")) { confp->pri.localdialplan = PRI_INTERNATIONAL_ISDN + 1; } else if (!strcasecmp(v->value, "local")) { confp->pri.localdialplan = PRI_LOCAL_ISDN + 1; } else if (!strcasecmp(v->value, "dynamic")) { confp->pri.localdialplan = -1; } else { ast_log(LOG_WARNING, "Unknown PRI dialplan '%s' at line %d.\n", v->value, v->lineno); } } else if (!strcasecmp(v->name, "switchtype")) { if (!strcasecmp(v->value, "national")) confp->pri.switchtype = PRI_SWITCH_NI2; else if (!strcasecmp(v->value, "ni1")) confp->pri.switchtype = PRI_SWITCH_NI1; else if (!strcasecmp(v->value, "dms100")) confp->pri.switchtype = PRI_SWITCH_DMS100; else if (!strcasecmp(v->value, "4ess")) confp->pri.switchtype = PRI_SWITCH_ATT4ESS; else if (!strcasecmp(v->value, "5ess")) confp->pri.switchtype = PRI_SWITCH_LUCENT5E; else if (!strcasecmp(v->value, "euroisdn")) confp->pri.switchtype = PRI_SWITCH_EUROISDN_E1; else if (!strcasecmp(v->value, "qsig")) confp->pri.switchtype = PRI_SWITCH_QSIG; else { ast_log(LOG_ERROR, "Unknown switchtype '%s'\n", v->value); return -1; } } else if (!strcasecmp(v->name, "nsf")) { if (!strcasecmp(v->value, "sdn")) confp->pri.nsf = PRI_NSF_SDN; else if (!strcasecmp(v->value, "megacom")) confp->pri.nsf = PRI_NSF_MEGACOM; else if (!strcasecmp(v->value, "tollfreemegacom")) confp->pri.nsf = PRI_NSF_TOLL_FREE_MEGACOM; else if (!strcasecmp(v->value, "accunet")) confp->pri.nsf = PRI_NSF_ACCUNET; else if (!strcasecmp(v->value, "none")) confp->pri.nsf = PRI_NSF_NONE; else { ast_log(LOG_WARNING, "Unknown network-specific facility '%s'\n", v->value); confp->pri.nsf = PRI_NSF_NONE; } } else if (!strcasecmp(v->name, "priindication")) { if (!strcasecmp(v->value, "outofband")) confp->chan.priindication_oob = 1; else if (!strcasecmp(v->value, "inband")) confp->chan.priindication_oob = 0; else ast_log(LOG_WARNING, "'%s' is not a valid pri indication value, should be 'inband' or 'outofband' at line %d\n", v->value, v->lineno); } else if (!strcasecmp(v->name, "priexclusive")) { confp->chan.priexclusive = ast_true(v->value); } else if (!strcasecmp(v->name, "internationalprefix")) { ast_copy_string(confp->pri.internationalprefix, v->value, sizeof(confp->pri.internationalprefix)); } else if (!strcasecmp(v->name, "nationalprefix")) { ast_copy_string(confp->pri.nationalprefix, v->value, sizeof(confp->pri.nationalprefix)); } else if (!strcasecmp(v->name, "localprefix")) { ast_copy_string(confp->pri.localprefix, v->value, sizeof(confp->pri.localprefix)); } else if (!strcasecmp(v->name, "privateprefix")) { ast_copy_string(confp->pri.privateprefix, v->value, sizeof(confp->pri.privateprefix)); } else if (!strcasecmp(v->name, "unknownprefix")) { ast_copy_string(confp->pri.unknownprefix, v->value, sizeof(confp->pri.unknownprefix)); } else if (!strcasecmp(v->name, "resetinterval")) { if (!strcasecmp(v->value, "never")) confp->pri.resetinterval = -1; else if (atoi(v->value) >= 60) confp->pri.resetinterval = atoi(v->value); else ast_log(LOG_WARNING, "'%s' is not a valid reset interval, should be >= 60 seconds or 'never' at line %d\n", v->value, v->lineno); } else if (!strcasecmp(v->name, "minunused")) { confp->pri.minunused = atoi(v->value); } else if (!strcasecmp(v->name, "minidle")) { confp->pri.minidle = atoi(v->value); } else if (!strcasecmp(v->name, "idleext")) { ast_copy_string(confp->pri.idleext, v->value, sizeof(confp->pri.idleext)); } else if (!strcasecmp(v->name, "idledial")) { ast_copy_string(confp->pri.idledial, v->value, sizeof(confp->pri.idledial)); } else if (!strcasecmp(v->name, "overlapdial")) { confp->pri.overlapdial = ast_true(v->value); } else if (!strcasecmp(v->name, "pritimer")) { #ifdef PRI_GETSET_TIMERS char *timerc, *c; int timer, timeridx; c = v->value; timerc = strsep(&c, ","); if (timerc) { timer = atoi(c); if (!timer) ast_log(LOG_WARNING, "'%s' is not a valid value for an ISDN timer\n", timerc); else { if ((timeridx = pri_timer2idx(timerc)) >= 0) pritimers[timeridx] = timer; else ast_log(LOG_WARNING, "'%s' is not a valid ISDN timer\n", timerc); } } else ast_log(LOG_WARNING, "'%s' is not a valid ISDN timer configuration string\n", v->value); } else if (!strcasecmp(v->name, "facilityenable")) { confp->pri.facilityenable = ast_true(v->value); #endif /* PRI_GETSET_TIMERS */ #endif /* HAVE_PRI */ } else if (!strcasecmp(v->name, "cadence")) { /* setup to scan our argument */ int element_count, c[16] = {0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0}; int i; struct zt_ring_cadence new_cadence; int cid_location = -1; int firstcadencepos = 0; char original_args[80]; int cadence_is_ok = 1; ast_copy_string(original_args, v->value, sizeof(original_args)); /* 16 cadences allowed (8 pairs) */ element_count = sscanf(v->value, "%d,%d,%d,%d,%d,%d,%d,%d,%d,%d,%d,%d,%d,%d,%d,%d", &c[0], &c[1], &c[2], &c[3], &c[4], &c[5], &c[6], &c[7], &c[8], &c[9], &c[10], &c[11], &c[12], &c[13], &c[14], &c[15]); /* Cadence must be even (on/off) */ if (element_count % 2 == 1) { ast_log(LOG_ERROR, "Must be a silence duration for each ring duration: %s\n",original_args); cadence_is_ok = 0; } /* Ring cadences cannot be negative */ for (i = 0; i < element_count; i++) { if (c[i] == 0) { ast_log(LOG_ERROR, "Ring or silence duration cannot be zero: %s\n", original_args); cadence_is_ok = 0; break; } else if (c[i] < 0) { if (i % 2 == 1) { /* Silence duration, negative possibly okay */ if (cid_location == -1) { cid_location = i; c[i] *= -1; } else { ast_log(LOG_ERROR, "CID location specified twice: %s\n",original_args); cadence_is_ok = 0; break; } } else { if (firstcadencepos == 0) { firstcadencepos = i; /* only recorded to avoid duplicate specification */ /* duration will be passed negative to the zaptel driver */ } else { ast_log(LOG_ERROR, "First cadence position specified twice: %s\n",original_args); cadence_is_ok = 0; break; } } } } /* Substitute our scanned cadence */ for (i = 0; i < 16; i++) { new_cadence.ringcadence[i] = c[i]; } if (cadence_is_ok) { /* ---we scanned it without getting annoyed; now some sanity checks--- */ if (element_count < 2) { ast_log(LOG_ERROR, "Minimum cadence is ring,pause: %s\n", original_args); } else { if (cid_location == -1) { /* user didn't say; default to first pause */ cid_location = 1; } else { /* convert element_index to cidrings value */ cid_location = (cid_location + 1) / 2; } /* ---we like their cadence; try to install it--- */ if (!user_has_defined_cadences++) /* this is the first user-defined cadence; clear the default user cadences */ num_cadence = 0; if ((num_cadence+1) >= NUM_CADENCE_MAX) ast_log(LOG_ERROR, "Already %d cadences; can't add another: %s\n", NUM_CADENCE_MAX, original_args); else { cadences[num_cadence] = new_cadence; cidrings[num_cadence++] = cid_location; if (option_verbose > 2) ast_verbose(VERBOSE_PREFIX_3 "cadence 'r%d' added: %s\n",num_cadence,original_args); } } } } else if (!strcasecmp(v->name, "ringtimeout")) { ringt_base = (atoi(v->value) * 8) / READ_SIZE; } else if (!strcasecmp(v->name, "prewink")) { confp->timing.prewinktime = atoi(v->value); } else if (!strcasecmp(v->name, "preflash")) { confp->timing.preflashtime = atoi(v->value); } else if (!strcasecmp(v->name, "wink")) { confp->timing.winktime = atoi(v->value); } else if (!strcasecmp(v->name, "flash")) { confp->timing.flashtime = atoi(v->value); } else if (!strcasecmp(v->name, "start")) { confp->timing.starttime = atoi(v->value); } else if (!strcasecmp(v->name, "rxwink")) { confp->timing.rxwinktime = atoi(v->value); } else if (!strcasecmp(v->name, "rxflash")) { confp->timing.rxflashtime = atoi(v->value); } else if (!strcasecmp(v->name, "debounce")) { confp->timing.debouncetime = atoi(v->value); } else if (!strcasecmp(v->name, "toneduration")) { int toneduration; int ctlfd; int res; struct zt_dialparams dps; ctlfd = open("/dev/zap/ctl", O_RDWR); if (ctlfd == -1) { ast_log(LOG_ERROR, "Unable to open /dev/zap/ctl to set toneduration\n"); return -1; } toneduration = atoi(v->value); if (toneduration > -1) { dps.dtmf_tonelen = dps.mfv1_tonelen = toneduration; res = ioctl(ctlfd, ZT_SET_DIALPARAMS, &dps); if (res < 0) { ast_log(LOG_ERROR, "Invalid tone duration: %d ms\n", toneduration); return -1; } } close(ctlfd); } else if (!strcasecmp(v->name, "defaultcic")) { ast_copy_string(defaultcic, v->value, sizeof(defaultcic)); } else if (!strcasecmp(v->name, "defaultozz")) { ast_copy_string(defaultozz, v->value, sizeof(defaultozz)); } } else if (!skipchannels) ast_log(LOG_WARNING, "Ignoring %s\n", v->name); } if (zapchan[0]) { /* The user has set 'zapchan' */ /*< \todo pass proper line number instead of 0 */ if (build_channels(*confp, 0, zapchan, reload, 0, &found_pseudo)) { return -1; } } /*< \todo why check for the pseudo in the per-channel section. * Any actual use for manual setup of the pseudo channel? */ if (!found_pseudo && reload == 0) { /* Make sure pseudo isn't a member of any groups if we're automatically making it. */ confp->chan.group = 0; confp->chan.callgroup = 0; confp->chan.pickupgroup = 0; tmp = mkintf(CHAN_PSEUDO, *confp, NULL, reload); if (tmp) { if (option_verbose > 2) ast_verbose(VERBOSE_PREFIX_3 "Automatically generated pseudo channel\n"); } else { ast_log(LOG_WARNING, "Unable to register pseudo channel!\n"); } } return 0; } static int setup_zap(int reload) { struct ast_config *cfg; struct ast_variable *v; struct zt_chan_conf conf = zt_chan_conf_default(); int res; #ifdef HAVE_PRI char *c; int spanno; int i, x; int logicalspan; int trunkgroup; int dchannels[NUM_DCHANS]; #endif cfg = ast_config_load(config); /* Error if we have no config file */ if (!cfg) { ast_log(LOG_ERROR, "Unable to load config %s\n", config); return 0; } /* It's a little silly to lock it, but we mind as well just to be sure */ ast_mutex_lock(&iflock); #ifdef HAVE_PRI if (!reload) { /* Process trunkgroups first */ v = ast_variable_browse(cfg, "trunkgroups"); while (v) { if (!strcasecmp(v->name, "trunkgroup")) { trunkgroup = atoi(v->value); if (trunkgroup > 0) { if ((c = strchr(v->value, ','))) { i = 0; memset(dchannels, 0, sizeof(dchannels)); while (c && (i < NUM_DCHANS)) { dchannels[i] = atoi(c + 1); if (dchannels[i] < 0) { ast_log(LOG_WARNING, "D-channel for trunk group %d must be a postiive number at line %d of zapata.conf\n", trunkgroup, v->lineno); } else i++; c = strchr(c + 1, ','); } if (i) { if (pri_create_trunkgroup(trunkgroup, dchannels)) { ast_log(LOG_WARNING, "Unable to create trunk group %d with Primary D-channel %d at line %d of zapata.conf\n", trunkgroup, dchannels[0], v->lineno); } else if (option_verbose > 1) ast_verbose(VERBOSE_PREFIX_2 "Created trunk group %d with Primary D-channel %d and %d backup%s\n", trunkgroup, dchannels[0], i - 1, (i == 1) ? "" : "s"); } else ast_log(LOG_WARNING, "Trunk group %d lacks any valid D-channels at line %d of zapata.conf\n", trunkgroup, v->lineno); } else ast_log(LOG_WARNING, "Trunk group %d lacks a primary D-channel at line %d of zapata.conf\n", trunkgroup, v->lineno); } else ast_log(LOG_WARNING, "Trunk group identifier must be a positive integer at line %d of zapata.conf\n", v->lineno); } else if (!strcasecmp(v->name, "spanmap")) { spanno = atoi(v->value); if (spanno > 0) { if ((c = strchr(v->value, ','))) { trunkgroup = atoi(c + 1); if (trunkgroup > 0) { if ((c = strchr(c + 1, ','))) logicalspan = atoi(c + 1); else logicalspan = 0; if (logicalspan >= 0) { if (pri_create_spanmap(spanno - 1, trunkgroup, logicalspan)) { ast_log(LOG_WARNING, "Failed to map span %d to trunk group %d (logical span %d)\n", spanno, trunkgroup, logicalspan); } else if (option_verbose > 1) ast_verbose(VERBOSE_PREFIX_2 "Mapped span %d to trunk group %d (logical span %d)\n", spanno, trunkgroup, logicalspan); } else ast_log(LOG_WARNING, "Logical span must be a postive number, or '0' (for unspecified) at line %d of zapata.conf\n", v->lineno); } else ast_log(LOG_WARNING, "Trunk group must be a postive number at line %d of zapata.conf\n", v->lineno); } else ast_log(LOG_WARNING, "Missing trunk group for span map at line %d of zapata.conf\n", v->lineno); } else ast_log(LOG_WARNING, "Span number must be a postive integer at line %d of zapata.conf\n", v->lineno); } else { ast_log(LOG_NOTICE, "Ignoring unknown keyword '%s' in trunkgroups\n", v->name); } v = v->next; } } #endif /* Copy the default jb config over global_jbconf */ memcpy(&global_jbconf, &default_jbconf, sizeof(struct ast_jb_conf)); v = ast_variable_browse(cfg, "channels"); res = process_zap(&conf, v, reload, 0); ast_mutex_unlock(&iflock); ast_config_destroy(cfg); if (res) return res; cfg = ast_config_load("users.conf"); if (cfg) { char *cat; const char *chans; process_zap(&conf, ast_variable_browse(cfg, "general"), 1, 1); for (cat = ast_category_browse(cfg, NULL); cat ; cat = ast_category_browse(cfg, cat)) { if (!strcasecmp(cat, "general")) continue; chans = ast_variable_retrieve(cfg, cat, "zapchan"); if (!ast_strlen_zero(chans)) { /** \todo At this point we should probably * duplicate conf, and pass a copy, to prevent * one section from affecting another */ process_zap(&conf, ast_variable_browse(cfg, cat), reload, 0); } } ast_config_destroy(cfg); } #ifdef HAVE_PRI if (!reload) { for (x = 0; x < NUM_SPANS; x++) { if (pris[x].pvts[0]) { if (start_pri(pris + x)) { ast_log(LOG_ERROR, "Unable to start D-channel on span %d\n", x + 1); return -1; } else if (option_verbose > 1) ast_verbose(VERBOSE_PREFIX_2 "Starting D-Channel on span %d\n", x + 1); } } } #endif /* And start the monitor for the first time */ restart_monitor(); return 0; } static int load_module(void) { int res; #ifdef HAVE_PRI int y,i; memset(pris, 0, sizeof(pris)); for (y = 0; y < NUM_SPANS; y++) { ast_mutex_init(&pris[y].lock); pris[y].offset = -1; pris[y].master = AST_PTHREADT_NULL; for (i = 0; i < NUM_DCHANS; i++) pris[y].fds[i] = -1; } pri_set_error(zt_pri_error); pri_set_message(zt_pri_message); ast_register_application(zap_send_keypad_facility_app, zap_send_keypad_facility_exec, zap_send_keypad_facility_synopsis, zap_send_keypad_facility_descrip); #endif res = setup_zap(0); /* Make sure we can register our Zap channel type */ if (res) return AST_MODULE_LOAD_DECLINE; if (ast_channel_register(&zap_tech)) { ast_log(LOG_ERROR, "Unable to register channel class 'Zap'\n"); __unload_module(); return -1; } #ifdef HAVE_PRI ast_string_field_init(&inuse, 16); ast_string_field_set(&inuse, name, "GR-303InUse"); ast_cli_register_multiple(zap_pri_cli, sizeof(zap_pri_cli) / sizeof(struct ast_cli_entry)); #endif ast_cli_register_multiple(zap_cli, sizeof(zap_cli) / sizeof(struct ast_cli_entry)); memset(round_robin, 0, sizeof(round_robin)); ast_manager_register( "ZapTransfer", 0, action_transfer, "Transfer Zap Channel" ); ast_manager_register( "ZapHangup", 0, action_transferhangup, "Hangup Zap Channel" ); ast_manager_register( "ZapDialOffhook", 0, action_zapdialoffhook, "Dial over Zap channel while offhook" ); ast_manager_register( "ZapDNDon", 0, action_zapdndon, "Toggle Zap channel Do Not Disturb status ON" ); ast_manager_register( "ZapDNDoff", 0, action_zapdndoff, "Toggle Zap channel Do Not Disturb status OFF" ); ast_manager_register("ZapShowChannels", 0, action_zapshowchannels, "Show status zapata channels"); ast_manager_register("ZapRestart", 0, action_zaprestart, "Fully Restart zaptel channels (terminates calls)"); return res; } static int zt_sendtext(struct ast_channel *c, const char *text) { #define END_SILENCE_LEN 400 #define HEADER_MS 50 #define TRAILER_MS 5 #define HEADER_LEN ((HEADER_MS + TRAILER_MS) * 8) #define ASCII_BYTES_PER_CHAR 80 unsigned char *buf,*mybuf; struct zt_pvt *p = c->tech_pvt; struct pollfd fds[1]; int size,res,fd,len,x; int bytes=0; /* Initial carrier (imaginary) */ float cr = 1.0; float ci = 0.0; float scont = 0.0; int index; index = zt_get_index(c, p, 0); if (index < 0) { ast_log(LOG_WARNING, "Huh? I don't exist?\n"); return -1; } if (!text[0]) return(0); /* if nothing to send, dont */ if ((!p->tdd) && (!p->mate)) return(0); /* if not in TDD mode, just return */ if (p->mate) buf = ast_malloc(((strlen(text) + 1) * ASCII_BYTES_PER_CHAR) + END_SILENCE_LEN + HEADER_LEN); else buf = ast_malloc(((strlen(text) + 1) * TDD_BYTES_PER_CHAR) + END_SILENCE_LEN); if (!buf) return -1; mybuf = buf; if (p->mate) { int codec = AST_LAW(p); for (x = 0; x < HEADER_MS; x++) { /* 50 ms of Mark */ PUT_CLID_MARKMS; } /* Put actual message */ for (x = 0; text[x]; x++) { PUT_CLID(text[x]); } for (x = 0; x < TRAILER_MS; x++) { /* 5 ms of Mark */ PUT_CLID_MARKMS; } len = bytes; buf = mybuf; } else { len = tdd_generate(p->tdd, buf, text); if (len < 1) { ast_log(LOG_ERROR, "TDD generate (len %d) failed!!\n", (int)strlen(text)); free(mybuf); return -1; } } memset(buf + len, 0x7f, END_SILENCE_LEN); len += END_SILENCE_LEN; fd = p->subs[index].zfd; while (len) { if (ast_check_hangup(c)) { free(mybuf); return -1; } size = len; if (size > READ_SIZE) size = READ_SIZE; fds[0].fd = fd; fds[0].events = POLLOUT | POLLPRI; fds[0].revents = 0; res = poll(fds, 1, -1); if (!res) { ast_log(LOG_DEBUG, "poll (for write) ret. 0 on channel %d\n", p->channel); continue; } /* if got exception */ if (fds[0].revents & POLLPRI) { ast_free(mybuf); return -1; } if (!(fds[0].revents & POLLOUT)) { ast_log(LOG_DEBUG, "write fd not ready on channel %d\n", p->channel); continue; } res = write(fd, buf, size); if (res != size) { if (res == -1) { free(mybuf); return -1; } if (option_debug) ast_log(LOG_DEBUG, "Write returned %d (%s) on channel %d\n", res, strerror(errno), p->channel); break; } len -= size; buf += size; } free(mybuf); return(0); } static int reload(void) { int res = 0; res = setup_zap(1); if (res) { ast_log(LOG_WARNING, "Reload of chan_zap.so is unsuccessful!\n"); return -1; } return 0; } /* This is a workaround so that menuselect displays a proper description * AST_MODULE_INFO(, , "Zapata Telephony" */ #ifdef ZAPATA_PRI #define tdesc "Zapata Telephony w/PRI" #else #define tdesc "Zapata Telephony" #endif AST_MODULE_INFO(ASTERISK_GPL_KEY, AST_MODFLAG_DEFAULT, tdesc, .load = load_module, .unload = unload_module, .reload = reload, );