/** @file app_rpt.c * * Asterisk -- A telephony toolkit for Linux. * * Radio Repeater / Remote Base program * version 0.12 6/28/04 * * Copyright (C) 2002-2004, Jim Dixon, WB6NIL * * Jim Dixon, WB6NIL * * This program is free software, distributed under the terms of * the GNU General Public License * * Repeater / Remote Functions: * "Simple" Mode: * - autopatch access, # - autopatch hangup * Normal mode: * *0 - autopatch off * *1XXX - remote link off * *2XXX - remote link monitor * *3XXX - remote link tranceive * *4XXX - remote link command mode * *6 - autopatch access/send (*) * *7 - system status * *80 - system ID * *81 - system time * *82 - system version * *90 - system disable (and reset) * *91 - system enable * *99 - system reset * * To send an asterisk (*) while dialing or talking on phone, * use the autopatch acess code. * * * Remote cmds: * * *0 - Recall Memory MM (*000-*099) (Gets memory from rpt.conf) * *1 - Set VFO MMMMM*KKK*O (Mhz digits, Khz digits, Offset) * *2 - Set Rx PL Tone HHH*D* * *3 - Set Tx PL Tone HHH*D* * *40 - RX PL off (Default) * *41 - RX PL On * *42 - TX PL Off (Default) * *43 - TX PL On * *44 - Low Power * *45 - Med Power * *46 - Hi Power * */ /* number of digits for function after *. Must be at least 1 */ #define FUNCTION_LEN 4 /* string containing all of the 1 digit functions */ #define SHORTFUNCS "0567" /* string containing all of the 2 digit functions */ #define MEDFUNCS "89" /* maximum digits in DTMF buffer, and seconds after * for DTMF command timeout */ #define MAXDTMF 10 #define DTMF_TIMEOUT 3 #define MAXREMSTR 15 #define NODES "nodes" #define MEMORY "memory" #define DEFAULT_IOBASE 0x378 #define MAXCONNECTTIME 5000 #define MAXNODESTR 300 enum {REM_OFF,REM_MONITOR,REM_TX}; enum{ID,PROC,TERM,COMPLETE,UNKEY,REMDISC,REMALREADY,REMNOTFOUND,REMGO, CONNECTED,CONNFAIL,STATUS,TIMEOUT,ID1, STATS_TIME, STATS_VERSION}; enum {REM_SIMPLEX,REM_MINUS,REM_PLUS}; enum {REM_LOWPWR,REM_MEDPWR,REM_HIPWR}; #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include static char *tdesc = "Radio Repeater / Remote Base version 0.12 06/28/2004"; static char *app = "Rpt"; static char *synopsis = "Radio Repeater/Remote Base Control System"; static char *descrip = " Rpt(sysname): Radio Remote Link or Remote Base Link Endpoint Process.\n"; static int debug = 0; static int nrpts = 0; struct ast_config *cfg; STANDARD_LOCAL_USER; LOCAL_USER_DECL; #define MSWAIT 200 #define HANGTIME 5000 #define TOTIME 180000 #define IDTIME 300000 #define MAXRPTS 20 #define POLITEID 30000 static pthread_t rpt_master_thread; struct rpt; struct rpt_link { struct rpt_link *next; struct rpt_link *prev; char mode; /* 1 if in tx mode */ char isremote; char name[MAXNODESTR]; /* identifier (routing) string */ char lasttx; char lastrx; char connected; char outbound; long elaptime; struct ast_channel *chan; struct ast_channel *pchan; } ; struct rpt_tele { struct rpt_tele *next; struct rpt_tele *prev; struct rpt *rpt; int mode; struct rpt_link mylink; pthread_t threadid; } ; static struct rpt { char *name; ast_mutex_t lock; char *rxchanname; char *txchanname; char *ourcontext; char *ourcallerid; char *acctcode; char *ident; char *tonezone; struct rpt_link links; int hangtime; int totime; int idtime; char exttx; char localtx; char remoterx; char remotetx; char remoteon; char simple; char remote; char tounkeyed; char tonotify; char enable; char dtmfbuf[MAXDTMF]; char rem_dtmfbuf[MAXDTMF]; char cmdnode[50]; struct ast_channel *rxchannel,*txchannel; struct ast_channel *pchannel,*txpchannel; struct rpt_tele tele; pthread_t rpt_call_thread,rpt_thread; time_t rem_dtmf_time,dtmf_time_rem; int tailtimer,totimer,idtimer,txconf,conf,callmode,cidx; int mustid; int politeid; int dtmfidx,rem_dtmfidx; char mydtmf; int iobase; char exten[AST_MAX_EXTENSION]; char freq[MAXREMSTR],rxpl[MAXREMSTR],txpl[MAXREMSTR]; char offset; char powerlevel; char txplon; char rxplon; } rpt_vars[MAXRPTS]; static int sayfile(struct ast_channel *mychannel,char *fname) { int res; res = ast_streamfile(mychannel, fname, mychannel->language); if (!res) res = ast_waitstream(mychannel, ""); else ast_log(LOG_WARNING, "ast_streamfile failed on %s\n", mychannel->name); ast_stopstream(mychannel); return res; } static int saycharstr(struct ast_channel *mychannel,char *str) { int res; res = ast_say_character_str(mychannel,str,NULL,mychannel->language); if (!res) res = ast_waitstream(mychannel, ""); else ast_log(LOG_WARNING, "ast_streamfile failed on %s\n", mychannel->name); ast_stopstream(mychannel); return res; } static void *rpt_tele_thread(void *this) { ZT_CONFINFO ci; /* conference info */ int res = 0,hastx,imdone = 0; struct rpt_tele *mytele = (struct rpt_tele *)this; struct rpt *myrpt; struct rpt_link *l,*m,linkbase; struct ast_channel *mychannel; int vmajor, vminor; char *p; time_t t; struct tm localtm; /* get a pointer to myrpt */ myrpt = mytele->rpt; /* allocate a pseudo-channel thru asterisk */ mychannel = ast_request("zap",AST_FORMAT_SLINEAR,"pseudo"); if (!mychannel) { fprintf(stderr,"rpt:Sorry unable to obtain pseudo channel\n"); ast_mutex_lock(&myrpt->lock); remque((struct qelem *)mytele); ast_mutex_unlock(&myrpt->lock); free(mytele); pthread_exit(NULL); } /* make a conference for the tx */ ci.chan = 0; /* If there's an ID queued, only connect the ID audio to the local tx conference so linked systems can't hear it */ ci.confno = (((mytele->mode == ID) || (mytele->mode == UNKEY)) ? myrpt->txconf : myrpt->conf); ci.confmode = ZT_CONF_CONFANN; /* first put the channel on the conference in announce mode */ if (ioctl(mychannel->fds[0],ZT_SETCONF,&ci) == -1) { ast_log(LOG_WARNING, "Unable to set conference mode to Announce\n"); ast_mutex_lock(&myrpt->lock); remque((struct qelem *)mytele); ast_mutex_unlock(&myrpt->lock); free(mytele); ast_hangup(mychannel); pthread_exit(NULL); } ast_stopstream(mychannel); switch(mytele->mode) { case ID: case ID1: /* wait a bit */ usleep(500000); res = ast_streamfile(mychannel, myrpt->ident, mychannel->language); break; case PROC: /* wait a little bit longer */ usleep(1500000); res = ast_streamfile(mychannel, "rpt/callproceeding", mychannel->language); break; case TERM: /* wait a little bit longer */ usleep(1500000); res = ast_streamfile(mychannel, "rpt/callterminated", mychannel->language); break; case COMPLETE: /* wait a little bit */ usleep(1000000); res = ast_streamfile(mychannel, "rpt/functioncomplete", mychannel->language); break; case UNKEY: /* wait a little bit */ usleep(1000000); hastx = 0; l = myrpt->links.next; if (l != &myrpt->links) { ast_mutex_lock(&myrpt->lock); while(l != &myrpt->links) { if (l->mode) hastx++; l = l->next; } ast_mutex_unlock(&myrpt->lock); res = ast_streamfile(mychannel, ((!hastx) ? "rpt/remote_monitor" : "rpt/remote_tx"), mychannel->language); if (!res) res = ast_waitstream(mychannel, ""); else ast_log(LOG_WARNING, "ast_streamfile failed on %s\n", mychannel->name); ast_stopstream(mychannel); } /* if in remote cmd mode, indicate it */ if (myrpt->cmdnode[0]) { ast_safe_sleep(mychannel,200); res = ast_streamfile(mychannel, "rpt/remote_cmd", mychannel->language); if (!res) res = ast_waitstream(mychannel, ""); else ast_log(LOG_WARNING, "ast_streamfile failed on %s\n", mychannel->name); ast_stopstream(mychannel); } imdone = 1; break; case REMDISC: /* wait a little bit */ usleep(1000000); res = ast_streamfile(mychannel, "rpt/node", mychannel->language); if (!res) res = ast_waitstream(mychannel, ""); else ast_log(LOG_WARNING, "ast_streamfile failed on %s\n", mychannel->name); ast_stopstream(mychannel); ast_say_character_str(mychannel,mytele->mylink.name,NULL,mychannel->language); res = ast_streamfile(mychannel, ((mytele->mylink.connected) ? "rpt/remote_disc" : "rpt/remote_busy"), mychannel->language); break; case REMALREADY: /* wait a little bit */ usleep(1000000); res = ast_streamfile(mychannel, "rpt/remote_already", mychannel->language); break; case REMNOTFOUND: /* wait a little bit */ usleep(1000000); res = ast_streamfile(mychannel, "rpt/remote_notfound", mychannel->language); break; case REMGO: /* wait a little bit */ usleep(1000000); res = ast_streamfile(mychannel, "rpt/remote_go", mychannel->language); break; case CONNECTED: /* wait a little bit */ usleep(1000000); res = ast_streamfile(mychannel, "rpt/node", mychannel->language); if (!res) res = ast_waitstream(mychannel, ""); else ast_log(LOG_WARNING, "ast_streamfile failed on %s\n", mychannel->name); ast_stopstream(mychannel); ast_say_character_str(mychannel,mytele->mylink.name,NULL,mychannel->language); res = ast_streamfile(mychannel, "rpt/connected", mychannel->language); break; case CONNFAIL: res = ast_streamfile(mychannel, "rpt/node", mychannel->language); if (!res) res = ast_waitstream(mychannel, ""); else ast_log(LOG_WARNING, "ast_streamfile failed on %s\n", mychannel->name); ast_stopstream(mychannel); ast_say_character_str(mychannel,mytele->mylink.name,NULL,mychannel->language); res = ast_streamfile(mychannel, "rpt/connection_failed", mychannel->language); break; case STATUS: /* wait a little bit */ usleep(1000000); hastx = 0; linkbase.next = &linkbase; linkbase.prev = &linkbase; ast_mutex_lock(&myrpt->lock); /* make our own list of links */ l = myrpt->links.next; while(l != &myrpt->links) { m = malloc(sizeof(struct rpt_link)); if (!m) { ast_log(LOG_WARNING, "Cannot alloc memory on %s\n", mychannel->name); pthread_exit(NULL); } memcpy(m,l,sizeof(struct rpt_link)); m->next = m->prev = NULL; insque((struct qelem *)m,(struct qelem *)linkbase.next); l = l->next; } ast_mutex_unlock(&myrpt->lock); res = ast_streamfile(mychannel, "rpt/node", mychannel->language); if (!res) res = ast_waitstream(mychannel, ""); else ast_log(LOG_WARNING, "ast_streamfile failed on %s\n", mychannel->name); ast_stopstream(mychannel); ast_say_character_str(mychannel,myrpt->name,NULL,mychannel->language); if (!res) res = ast_waitstream(mychannel, ""); else ast_log(LOG_WARNING, "ast_streamfile failed on %s\n", mychannel->name); ast_stopstream(mychannel); if (myrpt->callmode) { hastx = 1; res = ast_streamfile(mychannel, "rpt/autopatch_on", mychannel->language); if (!res) res = ast_waitstream(mychannel, ""); else ast_log(LOG_WARNING, "ast_streamfile failed on %s\n", mychannel->name); ast_stopstream(mychannel); } l = linkbase.next; while(l != &linkbase) { hastx = 1; res = ast_streamfile(mychannel, "rpt/node", mychannel->language); if (!res) res = ast_waitstream(mychannel, ""); else ast_log(LOG_WARNING, "ast_streamfile failed on %s\n", mychannel->name); ast_stopstream(mychannel); ast_say_character_str(mychannel,l->name,NULL,mychannel->language); if (!res) res = ast_waitstream(mychannel, ""); else ast_log(LOG_WARNING, "ast_streamfile failed on %s\n", mychannel->name); ast_stopstream(mychannel); res = ast_streamfile(mychannel, ((l->mode) ? "rpt/tranceive" : "rpt/monitor"), mychannel->language); if (!res) res = ast_waitstream(mychannel, ""); else ast_log(LOG_WARNING, "ast_streamfile failed on %s\n", mychannel->name); ast_stopstream(mychannel); l = l->next; } if (!hastx) { res = ast_streamfile(mychannel, "rpt/repeat_only", mychannel->language); if (!res) res = ast_waitstream(mychannel, ""); else ast_log(LOG_WARNING, "ast_streamfile failed on %s\n", mychannel->name); ast_stopstream(mychannel); } /* destroy our local link queue */ l = linkbase.next; while(l != &linkbase) { m = l; l = l->next; remque((struct qelem *)m); free(m); } imdone = 1; break; case TIMEOUT: res = ast_streamfile(mychannel, "rpt/node", mychannel->language); if (!res) res = ast_waitstream(mychannel, ""); else ast_log(LOG_WARNING, "ast_streamfile failed on %s\n", mychannel->name); ast_stopstream(mychannel); ast_say_character_str(mychannel,myrpt->name,NULL,mychannel->language); res = ast_streamfile(mychannel, "rpt/timeout", mychannel->language); break; case STATS_TIME: usleep(1000000); /* Wait a little bit */ t = time(NULL); ast_localtime(&t, &localtm, NULL); /* Say the phase of the day is before the time */ if((localtm.tm_hour >= 0) && (localtm.tm_hour < 12)) p = "rpt/goodmorning"; else if((localtm.tm_hour >= 12) && (localtm.tm_hour < 18)) p = "rpt/goodafternoon"; else p = "rpt/goodevening"; if (sayfile(mychannel,p) == -1) { imdone = 1; break; } /* Say the time is ... */ if (sayfile(mychannel,"rpt/thetimeis") == -1) { imdone = 1; break; } /* Say the time */ res = ast_say_time(mychannel, t, "", mychannel->language); if (!res) res = ast_waitstream(mychannel, ""); ast_stopstream(mychannel); imdone = 1; break; case STATS_VERSION: p = strstr(tdesc, "version"); if(!p) break; if(sscanf(p, "version %d.%d", &vmajor, &vminor) != 2) break; usleep(1000000); /* Wait a little bit */ /* Say "version" */ if (sayfile(mychannel,"rpt/version") == -1) { imdone = 1; break; } if(!res) /* Say "X" */ ast_say_number(mychannel, vmajor, "", mychannel->language, (char *) NULL); if (!res) res = ast_waitstream(mychannel, ""); ast_stopstream(mychannel); if (saycharstr(mychannel,".") == -1) { imdone = 1; break; } if(!res) /* Say "Y" */ ast_say_number(mychannel, vminor, "", mychannel->language, (char *) NULL); if (!res){ res = ast_waitstream(mychannel, ""); ast_stopstream(mychannel); } else ast_log(LOG_WARNING, "ast_streamfile failed on %s\n", mychannel->name); imdone = 1; break; default: break; } if (!imdone) { if (!res) res = ast_waitstream(mychannel, ""); else { ast_log(LOG_WARNING, "ast_streamfile failed on %s\n", mychannel->name); res = 0; } } ast_stopstream(mychannel); ast_mutex_lock(&myrpt->lock); remque((struct qelem *)mytele); ast_mutex_unlock(&myrpt->lock); free(mytele); ast_hangup(mychannel); pthread_exit(NULL); } static void rpt_telemetry(struct rpt *myrpt,int mode,struct rpt_link *mylink) { struct rpt_tele *tele; pthread_attr_t attr; tele = malloc(sizeof(struct rpt_tele)); if (!tele) { ast_log(LOG_WARNING, "Unable to allocate memory\n"); pthread_exit(NULL); return; } /* zero it out */ memset((char *)tele,0,sizeof(struct rpt_tele)); tele->rpt = myrpt; tele->mode = mode; ast_mutex_lock(&myrpt->lock); memset(&tele->mylink,0,sizeof(struct rpt_link)); if (mylink) { memcpy(&tele->mylink,mylink,sizeof(struct rpt_link)); } insque((struct qelem *)tele,(struct qelem *)myrpt->tele.next); ast_mutex_unlock(&myrpt->lock); pthread_attr_init(&attr); pthread_attr_setdetachstate(&attr, PTHREAD_CREATE_DETACHED); pthread_create(&tele->threadid,&attr,rpt_tele_thread,(void *) tele); return; } static void *rpt_call(void *this) { ZT_CONFINFO ci; /* conference info */ struct rpt *myrpt = (struct rpt *)this; int res; struct ast_frame *f,wf; int stopped,congstarted; struct ast_channel *mychannel,*genchannel; myrpt->mydtmf = 0; /* allocate a pseudo-channel thru asterisk */ mychannel = ast_request("zap",AST_FORMAT_SLINEAR,"pseudo"); if (!mychannel) { fprintf(stderr,"rpt:Sorry unable to obtain pseudo channel\n"); pthread_exit(NULL); } ci.chan = 0; ci.confno = myrpt->conf; /* use the pseudo conference */ ci.confmode = ZT_CONF_REALANDPSEUDO | ZT_CONF_TALKER | ZT_CONF_LISTENER | ZT_CONF_PSEUDO_TALKER | ZT_CONF_PSEUDO_LISTENER; /* first put the channel on the conference */ if (ioctl(mychannel->fds[0],ZT_SETCONF,&ci) == -1) { ast_log(LOG_WARNING, "Unable to set conference mode to Announce\n"); ast_hangup(mychannel); myrpt->callmode = 0; pthread_exit(NULL); } /* allocate a pseudo-channel thru asterisk */ genchannel = ast_request("zap",AST_FORMAT_SLINEAR,"pseudo"); if (!genchannel) { fprintf(stderr,"rpt:Sorry unable to obtain pseudo channel\n"); ast_hangup(mychannel); pthread_exit(NULL); } ci.chan = 0; ci.confno = myrpt->conf; ci.confmode = ZT_CONF_REALANDPSEUDO | ZT_CONF_TALKER | ZT_CONF_LISTENER | ZT_CONF_PSEUDO_TALKER | ZT_CONF_PSEUDO_LISTENER; /* first put the channel on the conference */ if (ioctl(genchannel->fds[0],ZT_SETCONF,&ci) == -1) { ast_log(LOG_WARNING, "Unable to set conference mode to Announce\n"); ast_hangup(mychannel); ast_hangup(genchannel); myrpt->callmode = 0; pthread_exit(NULL); } if (myrpt->tonezone && (tone_zone_set_zone(mychannel->fds[0],myrpt->tonezone) == -1)) { ast_log(LOG_WARNING, "Unable to set tone zone %s\n",myrpt->tonezone); ast_hangup(mychannel); ast_hangup(genchannel); myrpt->callmode = 0; pthread_exit(NULL); } if (myrpt->tonezone && (tone_zone_set_zone(genchannel->fds[0],myrpt->tonezone) == -1)) { ast_log(LOG_WARNING, "Unable to set tone zone %s\n",myrpt->tonezone); ast_hangup(mychannel); ast_hangup(genchannel); myrpt->callmode = 0; pthread_exit(NULL); } /* start dialtone */ if (tone_zone_play_tone(mychannel->fds[0],ZT_TONE_DIALTONE) < 0) { ast_log(LOG_WARNING, "Cannot start dialtone\n"); ast_hangup(mychannel); ast_hangup(genchannel); myrpt->callmode = 0; pthread_exit(NULL); } stopped = 0; congstarted = 0; while ((myrpt->callmode == 1) || (myrpt->callmode == 4)) { if ((myrpt->callmode == 1) && (myrpt->cidx > 0) && (!stopped)) { stopped = 1; /* stop dial tone */ tone_zone_play_tone(mychannel->fds[0],-1); } if ((myrpt->callmode == 4) && (!congstarted)) { congstarted = 1; /* start congestion tone */ tone_zone_play_tone(mychannel->fds[0],ZT_TONE_CONGESTION); } res = ast_waitfor(mychannel, MSWAIT); if (res < 0) { ast_hangup(mychannel); ast_hangup(genchannel); ast_mutex_lock(&myrpt->lock); myrpt->callmode = 0; ast_mutex_unlock(&myrpt->lock); pthread_exit(NULL); } if (res == 0) continue; f = ast_read(mychannel); if (f == NULL) { ast_hangup(mychannel); ast_hangup(genchannel); ast_mutex_lock(&myrpt->lock); myrpt->callmode = 0; ast_mutex_unlock(&myrpt->lock); pthread_exit(NULL); } if ((f->frametype == AST_FRAME_CONTROL) && (f->subclass == AST_CONTROL_HANGUP)) { ast_frfree(f); ast_hangup(mychannel); ast_hangup(genchannel); ast_mutex_lock(&myrpt->lock); myrpt->callmode = 0; ast_mutex_unlock(&myrpt->lock); pthread_exit(NULL); } ast_frfree(f); } /* stop any tone generation */ tone_zone_play_tone(mychannel->fds[0],-1); /* end if done */ if (!myrpt->callmode) { ast_hangup(mychannel); ast_hangup(genchannel); ast_mutex_lock(&myrpt->lock); myrpt->callmode = 0; ast_mutex_unlock(&myrpt->lock); pthread_exit(NULL); } if (myrpt->ourcallerid && *myrpt->ourcallerid) { if (mychannel->callerid) free(mychannel->callerid); mychannel->callerid = strdup(myrpt->ourcallerid); } strcpy(mychannel->exten,myrpt->exten); strcpy(mychannel->context,myrpt->ourcontext); if (myrpt->acctcode) strcpy(mychannel->accountcode,myrpt->acctcode); mychannel->priority = 1; ast_channel_undefer_dtmf(mychannel); if (ast_pbx_start(mychannel) < 0) { ast_log(LOG_WARNING, "Unable to start PBX!!\n"); ast_hangup(mychannel); ast_hangup(genchannel); ast_mutex_lock(&myrpt->lock); myrpt->callmode = 0; ast_mutex_unlock(&myrpt->lock); pthread_exit(NULL); } ast_mutex_lock(&myrpt->lock); myrpt->callmode = 3; while(myrpt->callmode) { if ((!mychannel->pvt) && (myrpt->callmode != 4)) { myrpt->callmode = 4; ast_mutex_unlock(&myrpt->lock); /* start congestion tone */ tone_zone_play_tone(genchannel->fds[0],ZT_TONE_CONGESTION); ast_mutex_lock(&myrpt->lock); } if (myrpt->mydtmf) { wf.frametype = AST_FRAME_DTMF; wf.subclass = myrpt->mydtmf; wf.offset = 0; wf.mallocd = 0; wf.data = NULL; wf.datalen = 0; wf.samples = 0; ast_mutex_unlock(&myrpt->lock); ast_write(genchannel,&wf); ast_mutex_lock(&myrpt->lock); myrpt->mydtmf = 0; } ast_mutex_unlock(&myrpt->lock); usleep(25000); ast_mutex_lock(&myrpt->lock); } ast_mutex_unlock(&myrpt->lock); tone_zone_play_tone(genchannel->fds[0],-1); if (mychannel->pvt) ast_softhangup(mychannel,AST_SOFTHANGUP_DEV); ast_hangup(genchannel); ast_mutex_lock(&myrpt->lock); myrpt->callmode = 0; ast_mutex_unlock(&myrpt->lock); pthread_exit(NULL); } static void send_link_dtmf(struct rpt *myrpt,char c) { char str[300]; struct ast_frame wf; struct rpt_link *l; sprintf(str,"D %s %s %d %c",myrpt->cmdnode,myrpt->name,++(myrpt->dtmfidx),c); wf.frametype = AST_FRAME_TEXT; wf.subclass = 0; wf.offset = 0; wf.mallocd = 1; wf.datalen = strlen(str) + 1; wf.samples = 0; l = myrpt->links.next; /* first, see if our dude is there */ while(l != &myrpt->links) { /* if we found it, write it and were done */ if (!strcmp(l->name,myrpt->cmdnode)) { wf.data = strdup(str); ast_write(l->chan,&wf); return; } l = l->next; } l = myrpt->links.next; /* if not, give it to everyone */ while(l != &myrpt->links) { wf.data = strdup(str); ast_write(l->chan,&wf); l = l->next; } return; } static void process_dtmf(char *cmd,struct rpt *myrpt, int allow_linkcmd) { pthread_attr_t attr; char *tele,tmp[300],deststr[300],*val,*s,*s1; struct rpt_link *l; ZT_CONFINFO ci; /* conference info */ switch(atoi(cmd) / 1000) { case 6: /* autopatch on / send asterisk (*) */ if (!myrpt->enable) return; ast_mutex_lock(&myrpt->lock); /* if on call, force * into current audio stream */ if ((myrpt->callmode == 2) || (myrpt->callmode == 3)) { myrpt->mydtmf = '*'; ast_mutex_unlock(&myrpt->lock); break; } if (myrpt->callmode) { ast_mutex_unlock(&myrpt->lock); return; } myrpt->callmode = 1; myrpt->cidx = 0; myrpt->exten[myrpt->cidx] = 0; ast_mutex_unlock(&myrpt->lock); pthread_attr_init(&attr); pthread_attr_setdetachstate(&attr, PTHREAD_CREATE_DETACHED); pthread_create(&myrpt->rpt_call_thread,&attr,rpt_call,(void *) myrpt); return; case 0: /* autopatch off */ if (!myrpt->enable) return; ast_mutex_lock(&myrpt->lock); if (!myrpt->callmode) { ast_mutex_unlock(&myrpt->lock); return; } myrpt->callmode = 0; ast_mutex_unlock(&myrpt->lock); rpt_telemetry(myrpt,TERM,NULL); return; case 9: /* system control group */ /* if invalid, just ignore */ if ((cmd[1] >= '2') && (cmd[1] <= '8')) return; ast_mutex_lock(&myrpt->lock); if (cmd[1] == '1') /* system enable */ { myrpt->enable = 1; } if (cmd[1] == '0') /* system disable */ { myrpt->enable = 0; } /* reset system */ myrpt->callmode = 0; ast_mutex_unlock(&myrpt->lock); l = myrpt->links.next; /* disconnect all of the remote stuff */ while(l != &myrpt->links) { ast_softhangup(l->chan,AST_SOFTHANGUP_DEV); l = l->next; } break; case 1: /* remote base off */ if (!myrpt->enable) return; val = ast_variable_retrieve(cfg,NODES,cmd + 1); if (!val) { rpt_telemetry(myrpt,REMNOTFOUND,NULL); return; } strncpy(tmp,val,sizeof(tmp) - 1); s = tmp; s1 = strsep(&s,","); ast_mutex_lock(&myrpt->lock); l = myrpt->links.next; /* try to find this one in queue */ while(l != &myrpt->links) { /* if found matching string */ if (!strcmp(l->name,cmd + 1)) break; l = l->next; } if (l != &myrpt->links) /* if found */ { ast_mutex_unlock(&myrpt->lock); ast_softhangup(l->chan,AST_SOFTHANGUP_DEV); break; } ast_mutex_unlock(&myrpt->lock); return; case 2: /* remote base monitor */ if (!myrpt->enable) return; val = ast_variable_retrieve(cfg,NODES,cmd + 1); if (!val) { rpt_telemetry(myrpt,REMNOTFOUND,NULL); return; } strncpy(tmp,val,sizeof(tmp) - 1); s = tmp; s1 = strsep(&s,","); ast_mutex_lock(&myrpt->lock); l = myrpt->links.next; /* try to find this one in queue */ while(l != &myrpt->links) { /* if found matching string */ if (!strcmp(l->name,cmd + 1)) break; l = l->next; } /* if found */ if (l != &myrpt->links) { /* if already in this mode, just ignore */ if (!l->mode) { ast_mutex_unlock(&myrpt->lock); rpt_telemetry(myrpt,REMALREADY,NULL); return; } ast_softhangup(l->chan,AST_SOFTHANGUP_DEV); } ast_mutex_unlock(&myrpt->lock); /* establish call in monitor mode */ l = malloc(sizeof(struct rpt_link)); if (!l) { ast_log(LOG_WARNING, "Unable to malloc\n"); pthread_exit(NULL); } /* zero the silly thing */ memset((char *)l,0,sizeof(struct rpt_link)); sprintf(deststr,"IAX2/%s",s1); tele = strchr(deststr,'/'); if (!tele) { fprintf(stderr,"rpt:Dial number (%s) must be in format tech/number\n",deststr); pthread_exit(NULL); } *tele++ = 0; l->isremote = (s && ast_true(s)); strncpy(l->name,cmd + 1,MAXNODESTR - 1); l->chan = ast_request(deststr,AST_FORMAT_SLINEAR,tele); if (l->chan) { ast_set_read_format(l->chan,AST_FORMAT_SLINEAR); ast_set_write_format(l->chan,AST_FORMAT_SLINEAR); l->chan->whentohangup = 0; l->chan->appl = "Apprpt"; l->chan->data = "(Remote Rx)"; if (option_verbose > 2) ast_verbose(VERBOSE_PREFIX_3 "rpt (remote) initiating call to %s/%s on %s\n", deststr,tele,l->chan->name); l->chan->callerid = strdup(myrpt->name); ast_call(l->chan,tele,0); } else { free(l); if (option_verbose > 2) ast_verbose(VERBOSE_PREFIX_3 "Unable to place call to %s/%s on %s\n", deststr,tele,l->chan->name); return; } /* allocate a pseudo-channel thru asterisk */ l->pchan = ast_request("zap",AST_FORMAT_SLINEAR,"pseudo"); if (!l->pchan) { fprintf(stderr,"rpt:Sorry unable to obtain pseudo channel\n"); pthread_exit(NULL); } ast_set_read_format(l->pchan,AST_FORMAT_SLINEAR); ast_set_write_format(l->pchan,AST_FORMAT_SLINEAR); /* make a conference for the pseudo-one */ ci.chan = 0; ci.confno = myrpt->conf; ci.confmode = ZT_CONF_CONF | ZT_CONF_LISTENER | ZT_CONF_TALKER; /* first put the channel on the conference in proper mode */ if (ioctl(l->pchan->fds[0],ZT_SETCONF,&ci) == -1) { ast_log(LOG_WARNING, "Unable to set conference mode to Announce\n"); pthread_exit(NULL); } ast_mutex_lock(&myrpt->lock); /* insert at end of queue */ insque((struct qelem *)l,(struct qelem *)myrpt->links.next); ast_mutex_unlock(&myrpt->lock); break; case 3: /* remote base tranceieve */ if (!myrpt->enable) return; val = ast_variable_retrieve(cfg,NODES,cmd + 1); if (!val) { rpt_telemetry(myrpt,REMNOTFOUND,NULL); return; } strncpy(tmp,val,sizeof(tmp) - 1); s = tmp; s1 = strsep(&s,","); ast_mutex_lock(&myrpt->lock); l = myrpt->links.next; /* try to find this one in queue */ while(l != &myrpt->links) { /* if found matching string */ if (!strcmp(l->name,cmd + 1)) break; l = l->next; } /* if found */ if (l != &myrpt->links) { /* if already in this mode, just ignore */ if (l->mode) { ast_mutex_unlock(&myrpt->lock); rpt_telemetry(myrpt,REMALREADY,NULL); return; } ast_softhangup(l->chan,AST_SOFTHANGUP_DEV); } ast_mutex_unlock(&myrpt->lock); /* establish call in tranceive mode */ l = malloc(sizeof(struct rpt_link)); if (!l) { ast_log(LOG_WARNING, "Unable to malloc\n"); pthread_exit(NULL); } /* zero the silly thing */ memset((char *)l,0,sizeof(struct rpt_link)); l->mode = 1; strncpy(l->name,cmd + 1,MAXNODESTR - 1); l->isremote = (s && ast_true(s)); sprintf(deststr,"IAX2/%s",s1); tele = strchr(deststr,'/'); if (!tele) { fprintf(stderr,"rpt:Dial number must be in format tech/number\n"); pthread_exit(NULL); } *tele++ = 0; l->chan = ast_request(deststr,AST_FORMAT_SLINEAR,tele); if (l->chan) { ast_set_read_format(l->chan,AST_FORMAT_SLINEAR); ast_set_write_format(l->chan,AST_FORMAT_SLINEAR); l->chan->whentohangup = 0; l->chan->appl = "Apprpt"; l->chan->data = "(Remote Rx)"; if (option_verbose > 2) ast_verbose(VERBOSE_PREFIX_3 "rpt (remote) initiating call to %s/%s on %s\n", deststr,tele,l->chan->name); l->chan->callerid = strdup(myrpt->name); ast_call(l->chan,tele,999); } else { free(l); if (option_verbose > 2) ast_verbose(VERBOSE_PREFIX_3 "Unable to place call to %s/%s on %s\n", deststr,tele,l->chan->name); return; } /* allocate a pseudo-channel thru asterisk */ l->pchan = ast_request("zap",AST_FORMAT_SLINEAR,"pseudo"); if (!l->pchan) { fprintf(stderr,"rpt:Sorry unable to obtain pseudo channel\n"); pthread_exit(NULL); } ast_set_read_format(l->pchan,AST_FORMAT_SLINEAR); ast_set_write_format(l->pchan,AST_FORMAT_SLINEAR); /* make a conference for the tx */ ci.chan = 0; ci.confno = myrpt->conf; ci.confmode = ZT_CONF_CONF | ZT_CONF_LISTENER | ZT_CONF_TALKER; /* first put the channel on the conference in proper mode */ if (ioctl(l->pchan->fds[0],ZT_SETCONF,&ci) == -1) { ast_log(LOG_WARNING, "Unable to set conference mode to Announce\n"); pthread_exit(NULL); } ast_mutex_lock(&myrpt->lock); /* insert at end of queue */ insque((struct qelem *)l,(struct qelem *)myrpt->links.next); ast_mutex_unlock(&myrpt->lock); break; case 4: /* remote cmd mode */ if (!myrpt->enable) return; /* if doesnt allow link cmd, return */ if ((!allow_linkcmd) || (myrpt->links.next == &myrpt->links)) return; /* if already in cmd mode, or selected self, forget it */ if ((myrpt->cmdnode[0]) || (!strcmp(myrpt->name,cmd + 1))) { rpt_telemetry(myrpt,REMALREADY,NULL); return; } /* node must at least exist in list */ val = ast_variable_retrieve(cfg,NODES,cmd + 1); if (!val) { rpt_telemetry(myrpt,REMNOTFOUND,NULL); return; } ast_mutex_lock(&myrpt->lock); myrpt->dtmfidx = -1; myrpt->dtmfbuf[0] = 0; myrpt->rem_dtmfidx = -1; myrpt->rem_dtmfbuf[0] = 0; strcpy(myrpt->cmdnode,cmd + 1); ast_mutex_unlock(&myrpt->lock); rpt_telemetry(myrpt,REMGO,NULL); return; case 7: /* system status */ if (!myrpt->enable) return; rpt_telemetry(myrpt,STATUS,NULL); return; case 8: /* Statistics */ if (!myrpt->enable) return; switch(cmd[1]){ case '0': /* Repeater ID */ rpt_telemetry(myrpt,ID1,NULL); return; case '1': /* Time */ rpt_telemetry(myrpt, STATS_TIME, NULL); return; case '2': /* Version */ rpt_telemetry(myrpt, STATS_VERSION, NULL); return; default: return; } default: return; } if (!myrpt->enable) return; rpt_telemetry(myrpt,COMPLETE,NULL); } static void handle_link_data(struct rpt *myrpt, struct rpt_link *mylink, char *str) { char tmp[300],cmd[300],dest[300],src[300],c; int seq; struct rpt_link *l; struct ast_frame wf; wf.frametype = AST_FRAME_TEXT; wf.subclass = 0; wf.offset = 0; wf.mallocd = 1; wf.datalen = strlen(str) + 1; wf.samples = 0; /* put string in our buffer */ strncpy(tmp,str,sizeof(tmp) - 1); if (sscanf(tmp,"%s %s %s %d %c",cmd,dest,src,&seq,&c) != 5) { ast_log(LOG_WARNING, "Unable to parse link string %s\n",str); return; } if (strcmp(cmd,"D")) { ast_log(LOG_WARNING, "Unable to parse link string %s\n",str); return; } /* if not for me, redistribute to all links */ if (strcmp(dest,myrpt->name)) { l = myrpt->links.next; /* see if this is one in list */ while(l != &myrpt->links) { /* dont send back from where it came */ if ((l == mylink) || (!strcmp(l->name,mylink->name))) { l = l->next; continue; } /* if it is, send it and we're done */ if (!strcmp(l->name,dest)) { /* send, but not to src */ if (strcmp(l->name,src)) { wf.data = strdup(str); ast_write(l->chan,&wf); } return; } l = l->next; } l = myrpt->links.next; /* otherwise, send it to all of em */ while(l != &myrpt->links) { /* dont send back from where it came */ if ((l == mylink) || (!strcmp(l->name,mylink->name))) { l = l->next; continue; } /* send, but not to src */ if (strcmp(l->name,src)) { wf.data = strdup(str); ast_write(l->chan,&wf); } l = l->next; } return; } ast_mutex_lock(&myrpt->lock); if (myrpt->callmode == 1) { myrpt->exten[myrpt->cidx++] = c; myrpt->exten[myrpt->cidx] = 0; /* if this exists */ if (ast_exists_extension(myrpt->pchannel,myrpt->ourcontext,myrpt->exten,1,NULL)) { myrpt->callmode = 2; rpt_telemetry(myrpt,PROC,NULL); } /* if can continue, do so */ if (!ast_canmatch_extension(myrpt->pchannel,myrpt->ourcontext,myrpt->exten,1,NULL)) { /* call has failed, inform user */ myrpt->callmode = 4; } } if ((myrpt->callmode == 2) || (myrpt->callmode == 3)) { myrpt->mydtmf = c; } if (c == '*') { myrpt->rem_dtmfidx = 0; myrpt->rem_dtmfbuf[myrpt->rem_dtmfidx] = 0; time(&myrpt->rem_dtmf_time); ast_mutex_unlock(&myrpt->lock); return; } else if ((c != '#') && (myrpt->rem_dtmfidx >= 0)) { time(&myrpt->rem_dtmf_time); if (myrpt->rem_dtmfidx < MAXDTMF) { myrpt->rem_dtmfbuf[myrpt->rem_dtmfidx++] = c; myrpt->rem_dtmfbuf[myrpt->rem_dtmfidx] = 0; /* if to terminate function now */ if ((myrpt->rem_dtmfidx == 1) && strchr(SHORTFUNCS,c)) { while(myrpt->rem_dtmfidx < FUNCTION_LEN) myrpt->rem_dtmfbuf[myrpt->rem_dtmfidx++] = '0'; myrpt->rem_dtmfbuf[myrpt->rem_dtmfidx] = 0; } /* if to terminate function now */ if ((myrpt->rem_dtmfidx == 2) && strchr(MEDFUNCS,myrpt->rem_dtmfbuf[0])) { while(myrpt->rem_dtmfidx < FUNCTION_LEN) myrpt->rem_dtmfbuf[myrpt->rem_dtmfidx++] = '0'; myrpt->rem_dtmfbuf[myrpt->rem_dtmfidx] = 0; } } if (myrpt->rem_dtmfidx == FUNCTION_LEN) { strcpy(cmd,myrpt->rem_dtmfbuf); myrpt->rem_dtmfbuf[0] = 0; myrpt->rem_dtmfidx = -1; ast_mutex_unlock(&myrpt->lock); process_dtmf(cmd,myrpt,0); return; } } ast_mutex_unlock(&myrpt->lock); return; } /* Doug Hall RBI-1 serial data definitions: * * Byte 0: Expansion external outputs * Byte 1: * Bits 0-3 are BAND as follows: * Bits 4-5 are POWER bits as follows: * 00 - Low Power * 01 - Hi Power * 02 - Med Power * Bits 6-7 are always set * Byte 2: * Bits 0-3 MHZ in BCD format * Bits 4-5 are offset as follows: * 00 - minus * 01 - plus * 02 - simplex * 03 - minus minus (whatever that is) * Bit 6 is the 0/5 KHZ bit * Bit 7 is always set * Byte 3: * Bits 0-3 are 10 KHZ in BCD format * Bits 4-7 are 100 KHZ in BCD format * Byte 4: PL Tone code and encode/decode enable bits * Bits 0-5 are PL tone code (comspec binary codes) * Bit 6 is encode enable/disable * Bit 7 is decode enable/disable */ /* take the frequency from the 10 mhz digits (and up) and convert it to a band number */ static int rbi_mhztoband(char *str) { int i; i = atoi(str) / 10; /* get the 10's of mhz */ switch(i) { case 2: return 10; case 5: return 11; case 14: return 2; case 22: return 3; case 44: return 4; case 124: return 0; case 125: return 1; case 126: return 8; case 127: return 5; case 128: return 6; case 129: return 7; default: break; } return -1; } /* take a PL frequency and turn it into a code */ static int rbi_pltocode(char *str) { int i; char *s; s = strchr(str,'.'); i = 0; if (s) i = atoi(s + 1); i += atoi(str) * 10; switch(i) { case 670: return 0; case 719: return 1; case 744: return 2; case 770: return 3; case 797: return 4; case 825: return 5; case 854: return 6; case 885: return 7; case 915: return 8; case 948: return 9; case 974: return 10; case 1000: return 11; case 1035: return 12; case 1072: return 13; case 1109: return 14; case 1148: return 15; case 1188: return 16; case 1230: return 17; case 1273: return 18; case 1318: return 19; case 1365: return 20; case 1413: return 21; case 1462: return 22; case 1514: return 23; case 1567: return 24; case 1622: return 25; case 1679: return 26; case 1738: return 27; case 1799: return 28; case 1862: return 29; case 1928: return 30; case 2035: return 31; case 2107: return 32; case 2181: return 33; case 2257: return 34; case 2336: return 35; case 2418: return 36; case 2503: return 37; } return -1; } /* * Shift out a formatted serial bit stream */ static void rbi_out(struct rpt *myrpt,unsigned char *data) { int i,j; unsigned char od,d; static volatile long long delayvar; for(i = 0 ; i < 5 ; i++){ od = *data++; for(j = 0 ; j < 8 ; j++){ d = od & 1; outb(d,myrpt->iobase); /* >= 15 us */ for(delayvar = 1; delayvar < 15000; delayvar++); od >>= 1; outb(d | 2,myrpt->iobase); /* >= 30 us */ for(delayvar = 1; delayvar < 30000; delayvar++); outb(d,myrpt->iobase); /* >= 10 us */ for(delayvar = 1; delayvar < 10000; delayvar++); } } /* >= 50 us */ for(delayvar = 1; delayvar < 50000; delayvar++); } static int setrbi(struct rpt *myrpt) { char tmp[MAXREMSTR],rbicmd[5],*s; int band,txoffset = 0,txpower = 0,rxpl; strcpy(tmp,myrpt->freq); s = strchr(tmp,'.'); /* if no decimal, is invalid */ if (s == NULL) return -1; *s++ = 0; if (strlen(tmp) < 2) return -1; if (strlen(s) < 3) return -1; if ((s[2] != '0') && (s[2] != '5')) return -1; band = rbi_mhztoband(tmp); if (band == -1) return -1; rxpl = rbi_pltocode(myrpt->rxpl); if (rxpl == -1) return -1; switch(myrpt->offset) { case REM_MINUS: txoffset = 0; break; case REM_PLUS: txoffset = 0x10; break; case REM_SIMPLEX: txoffset = 0x20; break; } switch(myrpt->powerlevel) { case REM_LOWPWR: txpower = 0; break; case REM_MEDPWR: txpower = 0x20; break; case REM_HIPWR: txpower = 0x10; break; } rbicmd[0] = 0; rbicmd[1] = band | txpower | 0xc0; rbicmd[2] = (*(s - 2) - '0') | txoffset | 0x80; if (s[2] == '5') rbicmd[2] |= 0x40; rbicmd[3] = ((*s - '0') << 4) + (s[1] - '0'); rbicmd[4] = rxpl; if (myrpt->txplon) rbicmd[4] |= 0x40; if (myrpt->rxplon) rbicmd[4] |= 0x80; rbi_out(myrpt,rbicmd); return 0; } static int remote_function(struct rpt *myrpt,char *cmd, struct ast_channel *mychannel) { char *s,*s1,tmp[300],oc,savestr[MAXREMSTR],*val; switch(cmd[0]) { case '0': /* retrieve memory */ val = ast_variable_retrieve(cfg,MEMORY,cmd + 1); if (!val) { if (ast_safe_sleep(mychannel,1000) == -1) return -1; return(sayfile(mychannel,"rpt/memory_notfound")); } strncpy(tmp,val,sizeof(tmp) - 1); s = strchr(tmp,','); if (!s) return 0; *s++ = 0; s1 = strchr(s,','); if (!s1) return 0; *s1++ = 0; strcpy(myrpt->freq,tmp); strcpy(myrpt->rxpl,s); myrpt->offset = REM_SIMPLEX; myrpt->powerlevel = REM_MEDPWR; myrpt->rxplon = 0; myrpt->txplon = 0; while(*s1) { switch(*s1++) { case 'L': case 'l': myrpt->powerlevel = REM_LOWPWR; break; case 'H': case 'h': myrpt->powerlevel = REM_HIPWR; break; case 'M': case 'm': myrpt->powerlevel = REM_MEDPWR; break; case '-': myrpt->offset = REM_MINUS; break; case '+': myrpt->offset = REM_PLUS; break; case 'S': case 's': myrpt->offset = REM_SIMPLEX; break; case 'T': case 't': myrpt->txplon = 1; break; case 'R': case 'r': myrpt->rxplon = 1; break; } } if (setrbi(myrpt) == -1) return 0; break; case '1': /* set freq + offset */ strncpy(tmp,cmd,sizeof(tmp) - 1); s1 = NULL; oc = 0; /* see if we have at least 1 */ s = strchr(tmp,'*'); if (s) { *s++ = 0; s1 = strchr(s,'*'); if (s1) { *s1++ = 0; oc = *s1; } if (strlen(s) > 3) return 0; if (strlen(s) < 3) memset(s + strlen(s),'0',3 - strlen(s)); s[3] = 0; } else strcat(tmp,".000"); if (oc) { switch(oc) { case '1': myrpt->offset = REM_MINUS; break; case '2': myrpt->offset = REM_SIMPLEX; break; case '3': myrpt->offset = REM_PLUS; break; default: return 0; } } else myrpt->offset = REM_SIMPLEX; if(s) *--s = '.'; strcpy(savestr,myrpt->freq); strcpy(myrpt->freq,tmp + 1); if (setrbi(myrpt) == -1) { strcpy(myrpt->freq,savestr); return 0; } break; case '2': /* set rx PL tone */ strncpy(tmp,cmd,sizeof(tmp) - 1); /* see if we have at least 1 */ s = strchr(tmp,'*'); if (s) { *s++ = '.'; if (strlen(s + 1) > 1) return 0; } else strcat(tmp,".0"); strcpy(savestr,myrpt->rxpl); strcpy(myrpt->rxpl,tmp + 1); if (setrbi(myrpt) == -1) { strcpy(myrpt->rxpl,savestr); return 0; } break; case '4': /* other stuff */ if (strlen(cmd) > 2) return 0; switch(cmd[1]) { case '0': /* RX PL Off */ myrpt->rxplon = 0; break; case '1': /* RX PL On */ myrpt->rxplon = 1; break; case '2': /* TX PL Off */ myrpt->txplon = 0; break; case '3': /* TX PL On */ myrpt->txplon = 1; break; case '4': /* Low Power */ myrpt->powerlevel = REM_LOWPWR; break; case '5': /* Medium Power */ myrpt->powerlevel = REM_MEDPWR; break; case '6': /* Hi Power */ myrpt->powerlevel = REM_HIPWR; break; default: return 0; } if (setrbi(myrpt) == -1) return 0; break; default: return 0; } return 1; } static int handle_dtmf_digit(struct rpt *myrpt,char c, struct ast_channel *mychannel) { char str[MAXDTMF],*s,*s1; time_t now; int res = 0; time(&now); /* if timed-out */ if ((myrpt->dtmf_time_rem + DTMF_TIMEOUT) < now) { strcpy(str,myrpt->dtmfbuf); myrpt->dtmfidx = -1; myrpt->dtmfbuf[0] = 0; myrpt->dtmf_time_rem = 0; } /* if decode not active */ if (myrpt->dtmfidx == -1) { /* if not lead-in digit, dont worry */ if (c != '*') return 0; myrpt->dtmfidx = 0; myrpt->dtmfbuf[0] = 0; myrpt->dtmf_time_rem = now; return 0; } /* if too many in buffer, start over */ if (myrpt->dtmfidx >= MAXDTMF) { myrpt->dtmfidx = 0; myrpt->dtmfbuf[0] = 0; myrpt->dtmf_time_rem = now; } if (c == '*') { /* if star at beginning, or 2 together, erase buffer */ if ((myrpt->dtmfidx < 1) || (myrpt->dtmfbuf[myrpt->dtmfidx - 1] == '*')) { myrpt->dtmfidx = 0; myrpt->dtmfbuf[0] = 0; myrpt->dtmf_time_rem = now; return 0; } } myrpt->dtmfbuf[myrpt->dtmfidx++] = c; myrpt->dtmfbuf[myrpt->dtmfidx] = 0; myrpt->dtmf_time_rem = now; switch(myrpt->dtmfbuf[0]) { case '4': /* wait for 1 more digit */ /* if we are at end, process it */ if (myrpt->dtmfidx >= 2) break; return 0; case '0': /* wait for 2 more digits */ /* if we are at end, process it */ if (myrpt->dtmfidx >= 3) break; return 0; case '2': case '3': /* go until 1 digit after * */ s = strchr(myrpt->dtmfbuf,'*'); /* if we dont have a star, dont worry yet */ if (s == NULL) return 0; /* if nothing after star yet */ if (!s[1]) return 0; /* okay, we got it */ break; case '1': /* go until 1 digit after second * */ s = strchr(myrpt->dtmfbuf,'*'); /* if we dont have a star, dont worry yet */ if (s == NULL) return 0; /* if nothing after star yet */ if (!s[1]) return 0; s1 = strchr(s + 1,'*'); /* if we dont have a 2nd star, dont worry yet */ if (s1 == NULL) return 0; /* if nothing after 2nd * yet */ if (!s1[1]) return 0; /* okay, we got it */ break; case '5': /* status, just deux it here */ myrpt->remotetx = 0; ast_indicate(myrpt->txchannel,AST_CONTROL_RADIO_UNKEY); if (!myrpt->remoterx) { ast_indicate(mychannel,AST_CONTROL_RADIO_KEY); } if ((sayfile(mychannel,"rpt/node") == -1) || (saycharstr(mychannel,myrpt->name) == -1) || (sayfile(mychannel,"rpt/frequency") == -1) || (saycharstr(mychannel,myrpt->freq) == -1)) { if (!myrpt->remoterx) { ast_indicate(mychannel,AST_CONTROL_RADIO_UNKEY); } return -1; } switch(myrpt->offset) { case REM_MINUS: res = sayfile(mychannel,"rpt/minus"); break; case REM_SIMPLEX: res = sayfile(mychannel,"rpt/simplex"); break; case REM_PLUS: res = sayfile(mychannel,"rpt/plus"); break; } if (res == -1) { if (!myrpt->remoterx) { ast_indicate(mychannel,AST_CONTROL_RADIO_UNKEY); } return -1; } switch(myrpt->powerlevel) { case REM_LOWPWR: res = sayfile(mychannel,"rpt/lopwr") ; break; case REM_MEDPWR: res = sayfile(mychannel,"rpt/medpwr"); break; case REM_HIPWR: res = sayfile(mychannel,"rpt/hipwr"); break; } if (res || (sayfile(mychannel,"rpt/rxpl") == -1) || (sayfile(mychannel,"rpt/frequency") == -1) || (saycharstr(mychannel,myrpt->rxpl) == -1) || (sayfile(mychannel,"rpt/txpl") == -1) || (sayfile(mychannel,((myrpt->txplon) ? "rpt/on" : "rpt/off")) == -1) || (sayfile(mychannel,"rpt/rxpl") == -1) || (sayfile(mychannel,((myrpt->rxplon) ? "rpt/on" : "rpt/off")) == -1)) { if (!myrpt->remoterx) { ast_indicate(mychannel,AST_CONTROL_RADIO_UNKEY); } return -1; } if (!myrpt->remoterx) { ast_indicate(mychannel,AST_CONTROL_RADIO_UNKEY); } myrpt->dtmfidx = -1; myrpt->dtmfbuf[0] = 0; myrpt->dtmf_time_rem = 0; return 1; default: myrpt->dtmfidx = -1; myrpt->dtmfbuf[0] = 0; myrpt->dtmf_time_rem = 0; return 0; } strcpy(str,myrpt->dtmfbuf); myrpt->remotetx = 0; ast_indicate(myrpt->txchannel,AST_CONTROL_RADIO_UNKEY); if (!myrpt->remoterx) { ast_indicate(mychannel,AST_CONTROL_RADIO_KEY); } myrpt->dtmfidx = -1; myrpt->dtmfbuf[0] = 0; myrpt->dtmf_time_rem = 0; res = remote_function(myrpt,str,mychannel); if (!myrpt->remoterx) { ast_indicate(mychannel,AST_CONTROL_RADIO_UNKEY); } return res; } static int handle_remote_data(struct rpt *myrpt, char *str, struct ast_channel *mychannel) { char tmp[300],cmd[300],dest[300],src[300],c; int seq,res; /* put string in our buffer */ strncpy(tmp,str,sizeof(tmp) - 1); if (sscanf(tmp,"%s %s %s %d %c",cmd,dest,src,&seq,&c) != 5) { ast_log(LOG_WARNING, "Unable to parse link string %s\n",str); return 0; } if (strcmp(cmd,"D")) { ast_log(LOG_WARNING, "Unable to parse link string %s\n",str); return 0; } /* if not for me, ignore */ if (strcmp(dest,myrpt->name)) return 0; res = handle_dtmf_digit(myrpt,c,mychannel); if (res != 1) return res; myrpt->remotetx = 0; ast_indicate(myrpt->txchannel,AST_CONTROL_RADIO_UNKEY); if (!myrpt->remoterx) { ast_indicate(mychannel,AST_CONTROL_RADIO_KEY); } if (ast_safe_sleep(mychannel,1000) == -1) return -1; res = sayfile(mychannel,"rpt/functioncomplete"); if (!myrpt->remoterx) { ast_indicate(mychannel,AST_CONTROL_RADIO_UNKEY); } return res; } /* single thread with one file (request) to dial */ static void *rpt(void *this) { struct rpt *myrpt = (struct rpt *)this; char *tele; int ms = MSWAIT,lasttx,keyed,val,remrx,identqueued,nonidentqueued; struct ast_channel *who; ZT_CONFINFO ci; /* conference info */ time_t dtmf_time,t; struct rpt_link *l,*m; struct rpt_tele *telem; pthread_attr_t attr; ast_mutex_lock(&myrpt->lock); tele = strchr(myrpt->rxchanname,'/'); if (!tele) { fprintf(stderr,"rpt:Dial number must be in format tech/number\n"); ast_mutex_unlock(&myrpt->lock); pthread_exit(NULL); } *tele++ = 0; myrpt->rxchannel = ast_request(myrpt->rxchanname,AST_FORMAT_SLINEAR,tele); if (myrpt->rxchannel) { ast_set_read_format(myrpt->rxchannel,AST_FORMAT_SLINEAR); ast_set_write_format(myrpt->rxchannel,AST_FORMAT_SLINEAR); myrpt->rxchannel->whentohangup = 0; myrpt->rxchannel->appl = "Apprpt"; myrpt->rxchannel->data = "(Repeater Rx)"; if (option_verbose > 2) ast_verbose(VERBOSE_PREFIX_3 "rpt (Rx) initiating call to %s/%s on %s\n", myrpt->rxchanname,tele,myrpt->rxchannel->name); ast_call(myrpt->rxchannel,tele,999); } else { fprintf(stderr,"rpt:Sorry unable to obtain Rx channel\n"); ast_mutex_unlock(&myrpt->lock); pthread_exit(NULL); } if (myrpt->txchanname) { tele = strchr(myrpt->txchanname,'/'); if (!tele) { fprintf(stderr,"rpt:Dial number must be in format tech/number\n"); ast_mutex_unlock(&myrpt->lock); pthread_exit(NULL); } *tele++ = 0; myrpt->txchannel = ast_request(myrpt->txchanname,AST_FORMAT_SLINEAR,tele); if (myrpt->txchannel) { ast_set_read_format(myrpt->txchannel,AST_FORMAT_SLINEAR); ast_set_write_format(myrpt->txchannel,AST_FORMAT_SLINEAR); myrpt->txchannel->whentohangup = 0; myrpt->txchannel->appl = "Apprpt"; myrpt->txchannel->data = "(Repeater Rx)"; if (option_verbose > 2) ast_verbose(VERBOSE_PREFIX_3 "rpt (Tx) initiating call to %s/%s on %s\n", myrpt->txchanname,tele,myrpt->txchannel->name); ast_call(myrpt->txchannel,tele,999); } else { fprintf(stderr,"rpt:Sorry unable to obtain Tx channel\n"); ast_mutex_unlock(&myrpt->lock); pthread_exit(NULL); } } else { myrpt->txchannel = myrpt->rxchannel; } /* allocate a pseudo-channel thru asterisk */ myrpt->pchannel = ast_request("zap",AST_FORMAT_SLINEAR,"pseudo"); if (!myrpt->pchannel) { fprintf(stderr,"rpt:Sorry unable to obtain pseudo channel\n"); ast_mutex_unlock(&myrpt->lock); pthread_exit(NULL); } /* make a conference for the tx */ ci.chan = 0; ci.confno = -1; /* make a new conf */ ci.confmode = ZT_CONF_CONF | ZT_CONF_LISTENER; /* first put the channel on the conference in proper mode */ if (ioctl(myrpt->txchannel->fds[0],ZT_SETCONF,&ci) == -1) { ast_log(LOG_WARNING, "Unable to set conference mode to Announce\n"); ast_mutex_unlock(&myrpt->lock); pthread_exit(NULL); } /* save tx conference number */ myrpt->txconf = ci.confno; /* make a conference for the pseudo */ ci.chan = 0; ci.confno = -1; /* make a new conf */ ci.confmode = ZT_CONF_CONFANNMON; /* first put the channel on the conference in announce mode */ if (ioctl(myrpt->pchannel->fds[0],ZT_SETCONF,&ci) == -1) { ast_log(LOG_WARNING, "Unable to set conference mode to Announce\n"); ast_mutex_unlock(&myrpt->lock); pthread_exit(NULL); } /* save pseudo channel conference number */ myrpt->conf = ci.confno; /* allocate a pseudo-channel thru asterisk */ myrpt->txpchannel = ast_request("zap",AST_FORMAT_SLINEAR,"pseudo"); if (!myrpt->txpchannel) { fprintf(stderr,"rpt:Sorry unable to obtain pseudo channel\n"); ast_mutex_unlock(&myrpt->lock); pthread_exit(NULL); } /* make a conference for the tx */ ci.chan = 0; ci.confno = myrpt->txconf; ci.confmode = ZT_CONF_CONF | ZT_CONF_TALKER ; /* first put the channel on the conference in proper mode */ if (ioctl(myrpt->txpchannel->fds[0],ZT_SETCONF,&ci) == -1) { ast_log(LOG_WARNING, "Unable to set conference mode to Announce\n"); ast_mutex_unlock(&myrpt->lock); pthread_exit(NULL); } /* Now, the idea here is to copy from the physical rx channel buffer into the pseudo tx buffer, and from the pseudo rx buffer into the tx channel buffer */ myrpt->links.next = &myrpt->links; myrpt->links.prev = &myrpt->links; myrpt->tailtimer = 0; myrpt->totimer = 0; myrpt->idtimer = myrpt->politeid; myrpt->mustid = 0; myrpt->callmode = 0; myrpt->tounkeyed = 0; myrpt->tonotify = 0; lasttx = 0; keyed = 0; myrpt->dtmfidx = -1; myrpt->dtmfbuf[0] = 0; myrpt->rem_dtmfidx = -1; myrpt->rem_dtmfbuf[0] = 0; dtmf_time = 0; myrpt->rem_dtmf_time = 0; myrpt->enable = 1; ast_mutex_unlock(&myrpt->lock); val = 0; ast_channel_setoption(myrpt->rxchannel,AST_OPTION_TONE_VERIFY,&val,sizeof(char),0); val = 1; ast_channel_setoption(myrpt->rxchannel,AST_OPTION_RELAXDTMF,&val,sizeof(char),0); while (ms >= 0) { struct ast_frame *f; struct ast_channel *cs[300]; int totx,elap,n,toexit; if (ast_check_hangup(myrpt->rxchannel)) break; if (ast_check_hangup(myrpt->txchannel)) break; if (ast_check_hangup(myrpt->pchannel)) break; if (ast_check_hangup(myrpt->txpchannel)) break; ast_mutex_lock(&myrpt->lock); myrpt->localtx = keyed && (myrpt->dtmfidx == -1) && (!myrpt->cmdnode[0]); l = myrpt->links.next; remrx = 0; while(l != &myrpt->links) { if (l->lastrx) remrx = 1; l = l->next; } /* Create a "must_id" flag for the cleanup ID */ myrpt->mustid |= (myrpt->idtimer) && (keyed || remrx) ; /* Build a fresh totx from keyed and autopatch activated */ totx = myrpt->localtx || myrpt->callmode; /* Traverse the telemetry list to see if there's an ID queued and if there is not an ID queued */ identqueued = 0; nonidentqueued = 0; telem = myrpt->tele.next; while(telem != &myrpt->tele) { if(telem->mode == ID) identqueued = 1; else nonidentqueued = 1; telem = telem->next; } /* Add in any non-id telemetry */ totx = totx || nonidentqueued; /* Update external transmitter PTT state with everything but ID telemetry */ myrpt->exttx = totx; /* Add in ID telemetry to local transmitter */ totx = totx || remrx || identqueued; if (!totx) { myrpt->totimer = myrpt->totime; myrpt->tounkeyed = 0; myrpt->tonotify = 0; } else myrpt->tailtimer = myrpt->hangtime; totx = totx && myrpt->totimer; /* if timed-out and not said already, say it */ if ((!myrpt->totimer) && (!myrpt->tonotify)) { myrpt->tonotify = 1; rpt_telemetry(myrpt,TIMEOUT,NULL); } /* if wants to transmit and in phone call, but timed out, reset time-out timer if keyed */ if ((!totx) && (!myrpt->totimer) && (!myrpt->tounkeyed) && (!keyed)) { myrpt->tounkeyed = 1; } if ((!totx) && (!myrpt->totimer) && myrpt->tounkeyed && myrpt->localtx) { myrpt->totimer = myrpt->totime; myrpt->tounkeyed = 0; myrpt->tonotify = 0; ast_mutex_unlock(&myrpt->lock); continue; } /* if timed-out and in circuit busy after call */ if ((!totx) && (!myrpt->totimer) && (myrpt->callmode == 4)) { myrpt->callmode = 0; } /* get rid of tail if timed out */ if (!myrpt->totimer) myrpt->tailtimer = 0; /* if not timed-out, add in tail */ if (myrpt->totimer) totx = totx || myrpt->tailtimer; /* Try to be polite */ /* If the repeater has been inactive for longer than the ID time, do an initial ID in the tail*/ /* If within 30 seconds of the time to ID, try do it in the tail */ /* else if at ID time limit, do it right over the top of them */ /* Lastly, if the repeater has been keyed, and the ID timer is expired, do a clean up ID */ if (((totx && (!myrpt->exttx) && (myrpt->idtimer <= myrpt->politeid) && myrpt->tailtimer)) || (myrpt->mustid && (!myrpt->idtimer))) { myrpt->mustid = 0; myrpt->idtimer = myrpt->idtime; /* Reset our ID timer */ ast_mutex_unlock(&myrpt->lock); rpt_telemetry(myrpt,ID,NULL); ast_mutex_lock(&myrpt->lock); } /* let telemetry transmit anyway (regardless of timeout) */ totx = totx || (myrpt->tele.next != &myrpt->tele); if (totx && (!lasttx)) { lasttx = 1; ast_mutex_unlock(&myrpt->lock); ast_indicate(myrpt->txchannel,AST_CONTROL_RADIO_KEY); ast_mutex_lock(&myrpt->lock); } totx = totx && myrpt->enable; if ((!totx) && lasttx) { lasttx = 0; ast_mutex_unlock(&myrpt->lock); ast_indicate(myrpt->txchannel,AST_CONTROL_RADIO_UNKEY); ast_mutex_lock(&myrpt->lock); } time(&t); /* if DTMF timeout */ if ((!myrpt->cmdnode[0]) && (myrpt->dtmfidx >= 0) && ((dtmf_time + DTMF_TIMEOUT) < t)) { myrpt->dtmfidx = -1; myrpt->dtmfbuf[0] = 0; } /* if remote DTMF timeout */ if ((myrpt->rem_dtmfidx >= 0) && ((myrpt->rem_dtmf_time + DTMF_TIMEOUT) < t)) { myrpt->rem_dtmfidx = -1; myrpt->rem_dtmfbuf[0] = 0; } n = 0; cs[n++] = myrpt->rxchannel; cs[n++] = myrpt->pchannel; cs[n++] = myrpt->txpchannel; if (myrpt->txchannel != myrpt->rxchannel) cs[n++] = myrpt->txchannel; l = myrpt->links.next; while(l != &myrpt->links) { cs[n++] = l->chan; cs[n++] = l->pchan; l = l->next; } ast_mutex_unlock(&myrpt->lock); ms = MSWAIT; who = ast_waitfor_n(cs,n,&ms); if (who == NULL) ms = 0; elap = MSWAIT - ms; ast_mutex_lock(&myrpt->lock); l = myrpt->links.next; while(l != &myrpt->links) { /* ignore non-timing channels */ if (l->elaptime < 0) { l = l->next; continue; } l->elaptime += elap; /* if connection has taken too long */ if ((l->elaptime > MAXCONNECTTIME) && (l->chan->_state != AST_STATE_UP)) { ast_mutex_unlock(&myrpt->lock); ast_softhangup(l->chan,AST_SOFTHANGUP_DEV); rpt_telemetry(myrpt,CONNFAIL,l); ast_mutex_lock(&myrpt->lock); } l = l->next; } if (myrpt->tailtimer) myrpt->tailtimer -= elap; if (myrpt->tailtimer < 0) myrpt->tailtimer = 0; if (myrpt->totimer) myrpt->totimer -= elap; if (myrpt->totimer < 0) myrpt->totimer = 0; if (myrpt->idtimer) myrpt->idtimer -= elap; if (myrpt->idtimer < 0) myrpt->idtimer = 0; ast_mutex_unlock(&myrpt->lock); if (!ms) continue; if (who == myrpt->rxchannel) /* if it was a read from rx */ { f = ast_read(myrpt->rxchannel); if (!f) { if (debug) printf("@@@@ rpt:Hung Up\n"); break; } if (f->frametype == AST_FRAME_VOICE) { if (!myrpt->localtx) memset(f->data,0,f->datalen); ast_write(myrpt->pchannel,f); } else if (f->frametype == AST_FRAME_DTMF) { char c; c = (char) f->subclass; /* get DTMF char */ if (c == '#') { /* if in simple mode, kill autopatch */ if (myrpt->simple && myrpt->callmode) { myrpt->callmode = 0; rpt_telemetry(myrpt,TERM,NULL); continue; } ast_mutex_lock(&myrpt->lock); if (myrpt->cmdnode[0]) { myrpt->cmdnode[0] = 0; myrpt->dtmfidx = -1; myrpt->dtmfbuf[0] = 0; ast_mutex_unlock(&myrpt->lock); rpt_telemetry(myrpt,COMPLETE,NULL); } else ast_mutex_unlock(&myrpt->lock); continue; } if (myrpt->cmdnode[0]) { send_link_dtmf(myrpt,c); continue; } if (!myrpt->simple) { if (c == '*') { myrpt->dtmfidx = 0; myrpt->dtmfbuf[myrpt->dtmfidx] = 0; time(&dtmf_time); continue; } else if ((c != '#') && (myrpt->dtmfidx >= 0)) { time(&dtmf_time); if (myrpt->dtmfidx < MAXDTMF) { myrpt->dtmfbuf[myrpt->dtmfidx++] = c; myrpt->dtmfbuf[myrpt->dtmfidx] = 0; /* if to terminate function now */ if ((myrpt->dtmfidx == 1) && strchr(SHORTFUNCS,c)) { while(myrpt->dtmfidx < FUNCTION_LEN) myrpt->dtmfbuf[myrpt->dtmfidx++] = '0'; myrpt->dtmfbuf[myrpt->dtmfidx] = 0; } /* if to terminate function now */ if ((myrpt->dtmfidx == 2) && strchr(MEDFUNCS,myrpt->dtmfbuf[0])) { while(myrpt->dtmfidx < FUNCTION_LEN) myrpt->dtmfbuf[myrpt->dtmfidx++] = '0'; myrpt->dtmfbuf[myrpt->dtmfidx] = 0; } } if (myrpt->dtmfidx == FUNCTION_LEN) { process_dtmf(myrpt->dtmfbuf,myrpt,1); myrpt->dtmfbuf[0] = 0; myrpt->dtmfidx = -1; continue; } } } else { if ((!myrpt->callmode) && (c == '*')) { myrpt->callmode = 1; myrpt->cidx = 0; myrpt->exten[myrpt->cidx] = 0; pthread_attr_init(&attr); pthread_attr_setdetachstate(&attr, PTHREAD_CREATE_DETACHED); pthread_create(&myrpt->rpt_call_thread,&attr,rpt_call,(void *)myrpt); continue; } } if (myrpt->callmode == 1) { myrpt->exten[myrpt->cidx++] = c; myrpt->exten[myrpt->cidx] = 0; /* if this exists */ if (ast_exists_extension(myrpt->pchannel,myrpt->ourcontext,myrpt->exten,1,NULL)) { myrpt->callmode = 2; rpt_telemetry(myrpt,PROC,NULL); } /* if can continue, do so */ if (ast_canmatch_extension(myrpt->pchannel,myrpt->ourcontext,myrpt->exten,1,NULL)) continue; /* call has failed, inform user */ myrpt->callmode = 4; continue; } if ((myrpt->callmode == 2) || (myrpt->callmode == 3)) { myrpt->mydtmf = f->subclass; } } else if (f->frametype == AST_FRAME_CONTROL) { if (f->subclass == AST_CONTROL_HANGUP) { if (debug) printf("@@@@ rpt:Hung Up\n"); ast_frfree(f); break; } /* if RX key */ if (f->subclass == AST_CONTROL_RADIO_KEY) { if (debug) printf("@@@@ rx key\n"); keyed = 1; } /* if RX un-key */ if (f->subclass == AST_CONTROL_RADIO_UNKEY) { if (debug) printf("@@@@ rx un-key\n"); keyed = 0; /* if we have remotes, twiddle */ if (myrpt->cmdnode[0] || (myrpt->links.next != &myrpt->links)) { rpt_telemetry(myrpt,UNKEY,NULL); } } } ast_frfree(f); continue; } if (who == myrpt->pchannel) /* if it was a read from pseudo */ { f = ast_read(myrpt->pchannel); if (!f) { if (debug) printf("@@@@ rpt:Hung Up\n"); break; } if (f->frametype == AST_FRAME_VOICE) { ast_write(myrpt->txpchannel,f); } if (f->frametype == AST_FRAME_CONTROL) { if (f->subclass == AST_CONTROL_HANGUP) { if (debug) printf("@@@@ rpt:Hung Up\n"); ast_frfree(f); break; } } ast_frfree(f); continue; } if (who == myrpt->txchannel) /* if it was a read from tx */ { f = ast_read(myrpt->txchannel); if (!f) { if (debug) printf("@@@@ rpt:Hung Up\n"); break; } if (f->frametype == AST_FRAME_CONTROL) { if (f->subclass == AST_CONTROL_HANGUP) { if (debug) printf("@@@@ rpt:Hung Up\n"); ast_frfree(f); break; } } ast_frfree(f); continue; } toexit = 0; l = myrpt->links.next; while(l != &myrpt->links) { if (who == l->chan) /* if it was a read from rx */ { ast_mutex_lock(&myrpt->lock); remrx = 0; /* see if any other links are receiving */ m = myrpt->links.next; while(m != &myrpt->links) { /* if not us, count it */ if ((m != l) && (m->lastrx)) remrx = 1; m = m->next; } ast_mutex_unlock(&myrpt->lock); totx = (((l->isremote) ? myrpt->localtx : myrpt->exttx) || remrx) && l->mode; if (l->lasttx != totx) { if (totx) { ast_indicate(l->chan,AST_CONTROL_RADIO_KEY); } else { ast_indicate(l->chan,AST_CONTROL_RADIO_UNKEY); } } l->lasttx = totx; f = ast_read(l->chan); if (!f) { ast_mutex_lock(&myrpt->lock); /* remove from queue */ remque((struct qelem *) l); if (!strcmp(myrpt->cmdnode,l->name)) myrpt->cmdnode[0] = 0; ast_mutex_unlock(&myrpt->lock); rpt_telemetry(myrpt,REMDISC,l); /* hang-up on call to device */ ast_hangup(l->chan); ast_hangup(l->pchan); free(l); break; } if (f->frametype == AST_FRAME_VOICE) { ast_write(l->pchan,f); } if (f->frametype == AST_FRAME_TEXT) { handle_link_data(myrpt,l,f->data); } if (f->frametype == AST_FRAME_CONTROL) { if (f->subclass == AST_CONTROL_ANSWER) { l->connected = 1; l->elaptime = -1; rpt_telemetry(myrpt,CONNECTED,l); } /* if RX key */ if (f->subclass == AST_CONTROL_RADIO_KEY) { if (debug) printf("@@@@ rx key\n"); l->lastrx = 1; } /* if RX un-key */ if (f->subclass == AST_CONTROL_RADIO_UNKEY) { if (debug) printf("@@@@ rx un-key\n"); l->lastrx = 0; } if (f->subclass == AST_CONTROL_HANGUP) { ast_frfree(f); ast_mutex_lock(&myrpt->lock); /* remove from queue */ remque((struct qelem *) l); if (!strcmp(myrpt->cmdnode,l->name)) myrpt->cmdnode[0] = 0; ast_mutex_unlock(&myrpt->lock); rpt_telemetry(myrpt,REMDISC,l); /* hang-up on call to device */ ast_hangup(l->chan); ast_hangup(l->pchan); free(l); break; } } ast_frfree(f); break; } if (who == l->pchan) { f = ast_read(l->pchan); if (!f) { if (debug) printf("@@@@ rpt:Hung Up\n"); toexit = 1; break; } if (f->frametype == AST_FRAME_VOICE) { ast_write(l->chan,f); } if (f->frametype == AST_FRAME_CONTROL) { if (f->subclass == AST_CONTROL_HANGUP) { if (debug) printf("@@@@ rpt:Hung Up\n"); ast_frfree(f); toexit = 1; break; } } ast_frfree(f); break; } l = l->next; } if (toexit) break; if (who == myrpt->txpchannel) /* if it was a read from remote tx */ { f = ast_read(myrpt->txpchannel); if (!f) { if (debug) printf("@@@@ rpt:Hung Up\n"); break; } if (f->frametype == AST_FRAME_CONTROL) { if (f->subclass == AST_CONTROL_HANGUP) { if (debug) printf("@@@@ rpt:Hung Up\n"); ast_frfree(f); break; } } ast_frfree(f); continue; } } ast_mutex_lock(&myrpt->lock); ast_hangup(myrpt->pchannel); ast_hangup(myrpt->txpchannel); ast_hangup(myrpt->rxchannel); if (myrpt->txchannel != myrpt->rxchannel) ast_hangup(myrpt->txchannel); l = myrpt->links.next; while(l != &myrpt->links) { struct rpt_link *ll = l; /* remove from queue */ remque((struct qelem *) l); /* hang-up on call to device */ ast_hangup(l->chan); ast_hangup(l->pchan); l = l->next; free(ll); } ast_mutex_unlock(&myrpt->lock); if (debug) printf("@@@@ rpt:Hung up channel\n"); pthread_exit(NULL); return NULL; } static void *rpt_master(void *ignore) { char *this,*val; int i,n; /* start with blank config */ memset(&rpt_vars,0,sizeof(rpt_vars)); cfg = ast_load("rpt.conf"); if (!cfg) { ast_log(LOG_NOTICE, "Unable to open radio repeater configuration rpt.conf. Radio Repeater disabled.\n"); pthread_exit(NULL); } /* go thru all the specified repeaters */ this = NULL; n = 0; while((this = ast_category_browse(cfg,this)) != NULL) { if (!strcmp(this,NODES)) continue; if (!strcmp(this,MEMORY)) continue; ast_log(LOG_DEBUG,"Loading config for repeater %s\n",this); ast_mutex_init(&rpt_vars[n].lock); rpt_vars[n].tele.next = &rpt_vars[n].tele; rpt_vars[n].tele.prev = &rpt_vars[n].tele; rpt_vars[n].name = this; rpt_vars[n].rxchanname = ast_variable_retrieve(cfg,this,"rxchannel"); rpt_vars[n].txchanname = ast_variable_retrieve(cfg,this,"txchannel"); rpt_vars[n].ourcontext = ast_variable_retrieve(cfg,this,"context"); if (!rpt_vars[n].ourcontext) rpt_vars[n].ourcontext = this; rpt_vars[n].ourcallerid = ast_variable_retrieve(cfg,this,"callerid"); rpt_vars[n].acctcode = ast_variable_retrieve(cfg,this,"accountcode"); rpt_vars[n].ident = ast_variable_retrieve(cfg,this,"idrecording"); val = ast_variable_retrieve(cfg,this,"hangtime"); if (val) rpt_vars[n].hangtime = atoi(val); else rpt_vars[n].hangtime = HANGTIME; val = ast_variable_retrieve(cfg,this,"totime"); if (val) rpt_vars[n].totime = atoi(val); else rpt_vars[n].totime = TOTIME; val = ast_variable_retrieve(cfg,this,"idtime"); if (val) rpt_vars[n].idtime = atoi(val); else rpt_vars[n].idtime = IDTIME; val = ast_variable_retrieve(cfg,this,"politeid"); if (val) rpt_vars[n].politeid = atoi(val); else rpt_vars[n].politeid = POLITEID; val = ast_variable_retrieve(cfg,this,"simple"); if (val) rpt_vars[n].simple = ast_true(val); else rpt_vars[n].simple = 0; val = ast_variable_retrieve(cfg,this,"remote"); if (val) rpt_vars[n].remote = ast_true(val); else rpt_vars[n].remote = 0; rpt_vars[n].tonezone = ast_variable_retrieve(cfg,this,"tonezone"); val = ast_variable_retrieve(cfg,this,"iobase"); if (val) rpt_vars[n].iobase = atoi(val); else rpt_vars[n].iobase = DEFAULT_IOBASE; n++; } nrpts = n; ast_log(LOG_DEBUG, "Total of %d repeaters configured.\n",n); /* start em all */ for(i = 0; i < n; i++) { if (!rpt_vars[i].rxchanname) { ast_log(LOG_WARNING,"Did not specify rxchanname for node %s\n",rpt_vars[i].name); pthread_exit(NULL); } /* if is a remote, dont start one for it */ if (rpt_vars[i].remote) { strcpy(rpt_vars[i].freq,"146.460"); strcpy(rpt_vars[i].rxpl,"100.0"); rpt_vars[i].offset = REM_SIMPLEX; rpt_vars[i].powerlevel = REM_MEDPWR; continue; } if (!rpt_vars[i].ident) { ast_log(LOG_WARNING,"Did not specify ident for node %s\n",rpt_vars[i].name); pthread_exit(NULL); } pthread_create(&rpt_vars[i].rpt_thread,NULL,rpt,(void *) &rpt_vars[i]); } /* wait for first one to die (should be never) */ pthread_join(rpt_vars[0].rpt_thread,NULL); pthread_exit(NULL); } static int rpt_exec(struct ast_channel *chan, void *data) { int res=-1,i,keyed = 0,rem_totx; struct localuser *u; char tmp[256]; char *options,*stringp,*tele; struct rpt *myrpt; struct ast_frame *f; struct ast_channel *who; struct ast_channel *cs[20]; struct rpt_link *l; ZT_CONFINFO ci; /* conference info */ int ms,elap; if (!data || ast_strlen_zero((char *)data)) { ast_log(LOG_WARNING, "Rpt requires an argument (system node)\n"); return -1; } strncpy(tmp, (char *)data, sizeof(tmp)-1); stringp=tmp; strsep(&stringp, "|"); options = strsep(&stringp, "|"); myrpt = NULL; /* see if we can find our specified one */ for(i = 0; i < nrpts; i++) { /* if name matches, assign it and exit loop */ if (!strcmp(tmp,rpt_vars[i].name)) { myrpt = &rpt_vars[i]; break; } } if (myrpt == NULL) { ast_log(LOG_WARNING, "Cannot find specified system node %s\n",tmp); return -1; } /* if is not a remote */ if (!myrpt->remote) { char *b,*b1; /* look at callerid to see what node this comes from */ if (!chan->callerid) /* if doesnt have callerid */ { ast_log(LOG_WARNING, "Doesnt have callerid on %s\n",tmp); return -1; } ast_callerid_parse(chan->callerid,&b,&b1); ast_shrink_phone_number(b1); if (!strcmp(myrpt->name,b1)) { ast_log(LOG_WARNING, "Trying to link to self!!\n"); return -1; } ast_mutex_lock(&myrpt->lock); l = myrpt->links.next; /* try to find this one in queue */ while(l != &myrpt->links) { /* if found matching string */ if (!strcmp(l->name,b1)) break; l = l->next; } /* if found */ if (l != &myrpt->links) { /* remove from queue */ remque((struct qelem *) l); ast_mutex_unlock(&myrpt->lock); /* hang-up on call to device */ ast_hangup(l->chan); ast_hangup(l->pchan); free(l); usleep(500000); } else ast_mutex_unlock(&myrpt->lock); /* establish call in tranceive mode */ l = malloc(sizeof(struct rpt_link)); if (!l) { ast_log(LOG_WARNING, "Unable to malloc\n"); pthread_exit(NULL); } /* zero the silly thing */ memset((char *)l,0,sizeof(struct rpt_link)); l->mode = 1; strncpy(l->name,b1,MAXNODESTR - 1); l->isremote = 0; l->chan = chan; l->connected = 1; ast_set_read_format(l->chan,AST_FORMAT_SLINEAR); ast_set_write_format(l->chan,AST_FORMAT_SLINEAR); /* allocate a pseudo-channel thru asterisk */ l->pchan = ast_request("zap",AST_FORMAT_SLINEAR,"pseudo"); if (!l->pchan) { fprintf(stderr,"rpt:Sorry unable to obtain pseudo channel\n"); pthread_exit(NULL); } ast_set_read_format(l->pchan,AST_FORMAT_SLINEAR); ast_set_write_format(l->pchan,AST_FORMAT_SLINEAR); /* make a conference for the tx */ ci.chan = 0; ci.confno = myrpt->conf; ci.confmode = ZT_CONF_CONF | ZT_CONF_LISTENER | ZT_CONF_TALKER; /* first put the channel on the conference in proper mode */ if (ioctl(l->pchan->fds[0],ZT_SETCONF,&ci) == -1) { ast_log(LOG_WARNING, "Unable to set conference mode to Announce\n"); pthread_exit(NULL); } ast_mutex_lock(&myrpt->lock); /* insert at end of queue */ insque((struct qelem *)l,(struct qelem *)myrpt->links.next); ast_mutex_unlock(&myrpt->lock); if (chan->_state != AST_STATE_UP) { ast_answer(chan); } return AST_PBX_KEEPALIVE; } /* if remote, error if anyone else already linked */ if (myrpt->remoteon) { ast_mutex_unlock(&myrpt->lock); usleep(500000); ast_mutex_lock(&myrpt->lock); if (myrpt->remoteon) { ast_mutex_unlock(&myrpt->lock); ast_log(LOG_WARNING, "Trying to use busy link on %s\n",tmp); return -1; } } if (ioperm(myrpt->iobase,1,1) == -1) { ast_mutex_unlock(&myrpt->lock); ast_log(LOG_WARNING, "Cant get io permission on IO port %x hex\n",myrpt->iobase); return -1; } LOCAL_USER_ADD(u); tele = strchr(myrpt->rxchanname,'/'); if (!tele) { fprintf(stderr,"rpt:Dial number must be in format tech/number\n"); ast_mutex_unlock(&myrpt->lock); pthread_exit(NULL); } *tele++ = 0; ast_mutex_lock(&myrpt->lock); myrpt->rxchannel = ast_request(myrpt->rxchanname,AST_FORMAT_SLINEAR,tele); if (myrpt->rxchannel) { ast_set_read_format(myrpt->rxchannel,AST_FORMAT_SLINEAR); ast_set_write_format(myrpt->rxchannel,AST_FORMAT_SLINEAR); myrpt->rxchannel->whentohangup = 0; myrpt->rxchannel->appl = "Apprpt"; myrpt->rxchannel->data = "(Repeater Rx)"; if (option_verbose > 2) ast_verbose(VERBOSE_PREFIX_3 "rpt (Rx) initiating call to %s/%s on %s\n", myrpt->rxchanname,tele,myrpt->rxchannel->name); ast_mutex_unlock(&myrpt->lock); ast_call(myrpt->rxchannel,tele,999); ast_mutex_lock(&myrpt->lock); } else { fprintf(stderr,"rpt:Sorry unable to obtain Rx channel\n"); ast_mutex_unlock(&myrpt->lock); pthread_exit(NULL); } *--tele = '/'; if (myrpt->txchanname) { tele = strchr(myrpt->txchanname,'/'); if (!tele) { fprintf(stderr,"rpt:Dial number must be in format tech/number\n"); ast_mutex_unlock(&myrpt->lock); pthread_exit(NULL); } *tele++ = 0; myrpt->txchannel = ast_request(myrpt->txchanname,AST_FORMAT_SLINEAR,tele); if (myrpt->txchannel) { ast_set_read_format(myrpt->txchannel,AST_FORMAT_SLINEAR); ast_set_write_format(myrpt->txchannel,AST_FORMAT_SLINEAR); myrpt->txchannel->whentohangup = 0; myrpt->txchannel->appl = "Apprpt"; myrpt->txchannel->data = "(Repeater Rx)"; if (option_verbose > 2) ast_verbose(VERBOSE_PREFIX_3 "rpt (Tx) initiating call to %s/%s on %s\n", myrpt->txchanname,tele,myrpt->txchannel->name); ast_mutex_unlock(&myrpt->lock); ast_call(myrpt->txchannel,tele,999); ast_mutex_lock(&myrpt->lock); } else { fprintf(stderr,"rpt:Sorry unable to obtain Tx channel\n"); ast_mutex_unlock(&myrpt->lock); pthread_exit(NULL); } *--tele = '/'; } else { myrpt->txchannel = myrpt->rxchannel; } myrpt->remoterx = 0; myrpt->remotetx = 0; myrpt->remoteon = 1; myrpt->dtmfidx = -1; myrpt->dtmfbuf[0] = 0; myrpt->dtmf_time_rem = 0; ast_mutex_unlock(&myrpt->lock); setrbi(myrpt); ast_set_write_format(chan, AST_FORMAT_SLINEAR); ast_set_read_format(chan, AST_FORMAT_SLINEAR); /* if we are on 2w loop and are a remote, turn EC on */ if (myrpt->remote && (myrpt->rxchannel == myrpt->txchannel)) { i = 128; ioctl(myrpt->rxchannel->fds[0],ZT_ECHOCANCEL,&i); } if (chan->_state != AST_STATE_UP) { ast_answer(chan); } cs[0] = chan; cs[1] = myrpt->rxchannel; for(;;) { if (ast_check_hangup(chan)) break; if (ast_check_hangup(myrpt->rxchannel)) break; ms = MSWAIT; who = ast_waitfor_n(cs,2,&ms); if (who == NULL) ms = 0; elap = MSWAIT - ms; if (!ms) continue; rem_totx = keyed; if (rem_totx && (!myrpt->remotetx)) { myrpt->remotetx = 1; ast_indicate(myrpt->txchannel,AST_CONTROL_RADIO_KEY); } if ((!rem_totx) && myrpt->remotetx) { myrpt->remotetx = 0; ast_indicate(myrpt->txchannel,AST_CONTROL_RADIO_UNKEY); } if (who == chan) /* if it was a read from incomming */ { f = ast_read(chan); if (!f) { if (debug) printf("@@@@ link:Hung Up\n"); break; } if (f->frametype == AST_FRAME_VOICE) { /* if not transmitting, zero-out audio */ if (!myrpt->remotetx) memset(f->data,0,f->datalen); ast_write(myrpt->txchannel,f); } else if (f->frametype == AST_FRAME_TEXT) { if (handle_remote_data(myrpt,f->data,chan) == -1) { if (debug) printf("@@@@ rpt:Hung Up\n"); ast_frfree(f); break; } } else if (f->frametype == AST_FRAME_CONTROL) { if (f->subclass == AST_CONTROL_HANGUP) { if (debug) printf("@@@@ rpt:Hung Up\n"); ast_frfree(f); break; } /* if RX key */ if (f->subclass == AST_CONTROL_RADIO_KEY) { if (debug) printf("@@@@ rx key\n"); keyed = 1; } /* if RX un-key */ if (f->subclass == AST_CONTROL_RADIO_UNKEY) { if (debug) printf("@@@@ rx un-key\n"); keyed = 0; } } ast_frfree(f); continue; } if (who == myrpt->rxchannel) /* if it was a read from radio */ { f = ast_read(myrpt->rxchannel); if (!f) { if (debug) printf("@@@@ link:Hung Up\n"); break; } if (f->frametype == AST_FRAME_VOICE) { if ((myrpt->remote) && (myrpt->remotetx)) memset(f->data,0,f->datalen); ast_write(chan,f); } else if (f->frametype == AST_FRAME_CONTROL) { if (f->subclass == AST_CONTROL_HANGUP) { if (debug) printf("@@@@ rpt:Hung Up\n"); ast_frfree(f); break; } /* if RX key */ if (f->subclass == AST_CONTROL_RADIO_KEY) { if (debug) printf("@@@@ remote rx key\n"); if (!myrpt->remotetx) { ast_indicate(chan,AST_CONTROL_RADIO_KEY); myrpt->remoterx = 1; } } /* if RX un-key */ if (f->subclass == AST_CONTROL_RADIO_UNKEY) { if (debug) printf("@@@@ remote rx un-key\n"); if (!myrpt->remotetx) { ast_indicate(chan,AST_CONTROL_RADIO_UNKEY); myrpt->remoterx = 0; } } } ast_frfree(f); continue; } } ast_mutex_lock(&myrpt->lock); if (myrpt->rxchannel != myrpt->txchannel) ast_hangup(myrpt->txchannel); ast_hangup(myrpt->rxchannel); myrpt->remoteon = 0; ast_mutex_unlock(&myrpt->lock); LOCAL_USER_REMOVE(u); return res; } int unload_module(void) { int i; STANDARD_HANGUP_LOCALUSERS; for(i = 0; i < nrpts; i++) { if (!strcmp(rpt_vars[i].name,NODES)) continue; ast_mutex_destroy(&rpt_vars[i].lock); } return ast_unregister_application(app); return 0; } int load_module(void) { pthread_create(&rpt_master_thread,NULL,rpt_master,NULL); return ast_register_application(app, rpt_exec, synopsis, descrip); } char *description(void) { return tdesc; } int usecount(void) { int res; STANDARD_USECOUNT(res); return res; } char *key() { return ASTERISK_GPL_KEY; }