/* * libpri: An implementation of Primary Rate ISDN * * Written by Mark Spencer * * Copyright (C) 2001, Linux Support Services, Inc. * All Rights Reserved. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. * */ /* * This program tests libpri call reception using a zaptel interface. * Its state machines are setup for RECEIVING CALLS ONLY, so if you * are trying to both place and receive calls you have to a bit more. */ #include #include #include #include #include #include #include #include #include #include #include #include #if defined(__linux__) #include #elif defined(__FreeBSD__) #include #endif #include #include "libpri.h" #define PRI_DEF_NODETYPE PRI_CPE #define PRI_DEF_SWITCHTYPE PRI_SWITCH_NI2 #define MAX_CHAN 32 #define DCHANNEL_TIMESLOT 16 static int offset = 0; static void do_channel(ZAP *z) { /* This is the part that runs on a given channel */ zap_playf(z, "raw.ulaw", 0); } struct pri_chan { pid_t pid; int needhangup; int alreadyhungup; q931_call *call; } chans[MAX_CHAN]; static int str2node(char *node) { if (!strcasecmp(node, "cpe")) return PRI_CPE; if (!strcasecmp(node, "network")) return PRI_NETWORK; return -1; } static void chan_ended(int sig) { int status; int x; struct rusage rusage; pid_t pid; pid = wait4(-1, &status, WNOHANG, &rusage); for (x=0;x -1) { fprintf(stderr, "--!! Unknown PID %d exited\n", pid); return; } } static int str2switch(char *swtype) { if (!strcasecmp(swtype, "ni2")) return PRI_SWITCH_NI2; if (!strcasecmp(swtype, "dms100")) return PRI_SWITCH_DMS100; if (!strcasecmp(swtype, "lucent5e")) return PRI_SWITCH_LUCENT5E; if (!strcasecmp(swtype, "att4ess")) return PRI_SWITCH_ATT4ESS; if (!strcasecmp(swtype, "euroisdn")) return PRI_SWITCH_EUROISDN_E1; if (!strcasecmp(swtype, "gr303eoc")) return PRI_SWITCH_GR303_EOC; if (!strcasecmp(swtype, "gr303tmc")) return PRI_SWITCH_GR303_TMC; return -1; } static void hangup_channel(int channo) { if (chans[channo].pid) { #if 0 printf("Killing channel %d (pid = %d)\n", channo, chans[channo].pid); #endif chans[channo].alreadyhungup = 1; kill(chans[channo].pid, SIGTERM); } else if (chans[channo].needhangup) chans[channo].needhangup = 0; } static void launch_channel(int channo) { pid_t pid; ZAP *z; char ch[80]; /* Make sure hangup state is reset */ chans[channo].needhangup = 0; chans[channo].alreadyhungup = 0; pid = fork(); if (pid < 0) { fprintf(stderr, "--!! Unable to fork\n"); chans[channo].needhangup = 1; } if (pid) { printf("-- Launching process %d to handle channel %d\n", pid, channo); chans[channo].pid = pid; } else { sprintf(ch, "%d", channo + offset); z = zap_open(ch, 0); if (z) { do_channel(z); exit(0); } else { fprintf(stderr, "--!! Unable to open channel %d\n", channo); exit(1); } } } static int get_free_channel(int channo) { channo--; if((channo>MAX_CHAN)||(channo<0)) { fprintf(stderr, "Invalid Bchannel RANGE <%d", channo); return 0; }; while(chans[channo].pid) { channo--; } return channo; } /* place here criteria for completion of destination number */ static int number_incommplete(char *number) { return strlen(number) < 3; } static void start_channel(struct pri *pri, pri_event *e) { int channo = e->ring.channel; int flag = 1; pri_event_ring *ring = &e->ring; if(channo == -1) { channo = e->ring.channel = get_free_channel(MAX_CHAN); if(channo == DCHANNEL_TIMESLOT) channo = e->ring.channel = get_free_channel(MAX_CHAN); fprintf(stdout, "Any channel selected: %d\n", channo); if(!channo) { pri_release(pri, ring->call, PRI_CAUSE_REQUESTED_CHAN_UNAVAIL); fprintf(stdout, "Abort call due to no avl B channels\n"); return; } flag = 0; } /* Make sure it's a valid number */ if ((channo >= MAX_CHAN) || (channo < 0)) { fprintf(stderr, "--!! Channel %d is out of range\n", channo); return; } /* Make sure nothing is there */ if (chans[channo].pid) { fprintf(stderr, "--!! Channel %d still has a call on it, ending it...\n", channo); hangup_channel(channo); /* Wait for it to die */ while(chans[channo].pid) usleep(100); } /* Record call number */ chans[channo].call = e->ring.call; /* Answer the line */ if(flag) { pri_answer(pri, chans[channo].call, channo, 1); } else { pri_need_more_info(pri, chans[channo].call, channo, 1); } /* Launch a process to handle it */ launch_channel(channo); } static void handle_pri_event(struct pri *pri, pri_event *e) { switch(e->e) { case PRI_EVENT_DCHAN_UP: printf("-- D-Channel is now up! :-)\n"); break; case PRI_EVENT_DCHAN_DOWN: printf("-- D-Channel is now down! :-(\n"); break; case PRI_EVENT_RESTART: printf("-- Restarting channel %d\n", e->restart.channel); hangup_channel(e->restart.channel); break; case PRI_EVENT_CONFIG_ERR: printf("-- Configuration error detected: %s\n", e->err.err); break; case PRI_EVENT_RING: printf("-- Ring on channel %d (from %s to %s), answering...\n", e->ring.channel, e->ring.callingnum, e->ring.callednum); start_channel(pri, e); break; case PRI_EVENT_HANGUP: printf("-- Hanging up channel %d\n", e->hangup.channel); hangup_channel(e->hangup.channel); break; case PRI_EVENT_RINGING: case PRI_EVENT_ANSWER: fprintf(stderr, "--!! What? We shouldn't be making any calls...\n"); break; case PRI_EVENT_HANGUP_ACK: /* Ignore */ break; case PRI_EVENT_INFO_RECEIVED: fprintf(stdout, "number is: %s\n", e->ring.callednum); if(!number_incommplete(e->ring.callednum)) { fprintf(stdout, "final number is: %s\n", e->ring.callednum); pri_answer(pri, e->ring.call, 0, 1); } break; default: fprintf(stderr, "--!! Unknown PRI event %d\n", e->e); } } static int run_pri(int dfd, int swtype, int node) { struct pri *pri; pri_event *e; struct timeval tv = {0,0}, *next; fd_set rfds, efds; int res,x; pri = pri_new(dfd, node, swtype); if (!pri) { fprintf(stderr, "Unable to create PRI\n"); return -1; } pri_set_debug(pri, -1); for (;;) { /* Run the D-Channel */ FD_ZERO(&rfds); FD_ZERO(&efds); FD_SET(dfd, &rfds); FD_SET(dfd, &efds); if ((next = pri_schedule_next(pri))) { gettimeofday(&tv, NULL); tv.tv_sec = next->tv_sec - tv.tv_sec; tv.tv_usec = next->tv_usec - tv.tv_usec; if (tv.tv_usec < 0) { tv.tv_usec += 1000000; tv.tv_sec -= 1; } if (tv.tv_sec < 0) { tv.tv_sec = 0; tv.tv_usec = 0; } } res = select(dfd + 1, &rfds, NULL, &efds, next ? &tv : NULL); e = NULL; if (!res) { e = pri_schedule_run(pri); } else if (res > 0) { e = pri_check_event(pri); } else if (errno == ELAST) { res = ioctl(dfd, ZT_GETEVENT, &x); printf("Got Zaptel event: %d\n", x); } else if (errno != EINTR) fprintf(stderr, "Error (%d) on select: %s\n", ELAST, strerror(errno)); if (e) { handle_pri_event(pri, e); } res = ioctl(dfd, ZT_GETEVENT, &x); if (!res && x) { fprintf(stderr, "Got event on PRI interface: %d\n", x); } /* Check for lines that need hangups */ for (x=0;x [swtypetype] [nodetype]\n"); exit(1); } dfd = open(argv[1], O_RDWR); if (dfd < 0) { fprintf(stderr, "Failed to open dchannel '%s': %s\n", argv[1], strerror(errno)); exit(1); } if (ioctl(dfd, ZT_GET_PARAMS, &p)) { fprintf(stderr, "Unable to get parameters on '%s': %s\n", argv[1], strerror(errno)); exit(1); } if ((p.sigtype != ZT_SIG_HDLCRAW) && (p.sigtype != ZT_SIG_HDLCFCS)) { fprintf(stderr, "%s is in %d signalling, not FCS HDLC or RAW HDLC mode\n", argv[1], p.sigtype); exit(1); } if (argc > 2) { swtype = str2switch(argv[2]); if (swtype < 0) { fprintf(stderr, "Valid switchtypes are: ni2, dms100, lucent5e, att4ess, and euroisdn\n"); exit(1); } } if (argc > 3) { node = str2node(argv[3]); if (node < 0) { fprintf(stderr, "Valid node types are: network and cpe\n"); exit(1); } } signal(SIGCHLD, chan_ended); if (run_pri(dfd, swtype, node)) exit(1); exit(0); return 0; }