/* l4isup.c - ISUP protocol * * Copyright (C) 2006, Sifira A/S. * * Author: Anders Baekgaard * Anders Baekgaard * Based on work by: Kristian Nielsen , * * This file is part of chan_ss7. * * chan_ss7 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. * * chan_ss7 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 chan_ss7; if not, write to the Free Software * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "asterisk/logger.h" #include "asterisk/options.h" #include "asterisk/channel.h" #include "asterisk/frame.h" #include "asterisk/utils.h" #include "asterisk/sched.h" #include "asterisk/cli.h" #include "asterisk/lock.h" #include "asterisk/causes.h" #include "asterisk/pbx.h" #include "asterisk/dsp.h" #include "asterisk/callerid.h" #include "asterisk/indications.h" #include "asterisk/module.h" #include "asterisk/alaw.h" #include "asterisk/ulaw.h" #include "zaptel.h" #include "astversion.h" #include "config.h" #include "lffifo.h" #include "utils.h" #include "mtp.h" #include "transport.h" #include "isup.h" #include "l4isup.h" #include "cluster.h" #include "mtp3io.h" #ifdef MODULETEST #include "moduletest.h" #endif enum circuit_states { /* Circuit idle, ready to accept or initiate calls. */ ST_IDLE, /* An IAM has been received, but no ACM or CON has been sent back yet. */ ST_GOT_IAM, /* An IAM has been sent to initiate a call, but no ACM or CON has been received back yet. */ ST_SENT_IAM, /* We have sent an ACM and have to send an ANM now */ ST_SENT_ACM, /* We have sent IAM and received ACM, so waiting for ANM. */ ST_GOT_ACM, /* A call is connected (incoming or outgoing). */ ST_CONNECTED, /* A continuity check is ongoing */ ST_CONCHECK, /* A REL message has been received, but RLC has not been sent yet. ast_softhangup() has been called on the channel.*/ ST_GOT_REL, /* A REL has been sent (from ss7_hangup), and so the struct ast_channel * has been deallocated, but the circuit is still waiting for RLC to be received before being able to initiate new calls. If timer T16 or T17 is running, this state instead means that a "circuit reset" has been sent, and we are waiting for RLC. If a REL is received in this state, send RLC and stay in this state, still waiting for RLC */ ST_SENT_REL, }; struct ss7_chan { /* The first few fields of this struct are protected by the global lock mutex, not by the ss7_chan->lock mutex embedded in the struct. This is necessary to preserve locking order and avoid deadlocks. */ struct ast_channel *owner; struct ss7_chan *next_idle; /* Linked list of idle CICs */ struct link* link; /* Link carrying circuit */ int cic; int reset_done; /* False until circuit has been init reset */ int hangupcause; int dohangup; int has_inband_ind; int charge_indicator; int is_digital; /* Circuit blocking status: {local,remote} {maintenance,hardware}. */ enum { BL_LM=1, BL_LH=2, BL_RM=4, BL_RH=8, BL_UNEQUIPPED=0x10, BL_LINKDOWN=0x20 } blocked; /* Circuit equipped */ int equipped; ast_mutex_t lock; /* Protects rest of this struct */ enum circuit_states state; int zaptel_fd; int t1; int t2; int t5; int t6; int t7; int t9; int t16; int t17; int t18; int t19; int t20; int t21; int t22; int t23; int t35; int t36; struct iam iam; /* Last incoming IAM parameters */ char* addr; /* called addr */ int attempts; /* Number of outgoing call attempts on addr */ int echocan_start; int echocancel; struct timeval lastread; unsigned char buffer[AST_FRIENDLY_OFFSET + AUDIO_READSIZE]; struct ast_frame frame; int sending_dtmf; struct ast_dsp *dsp; int grs_count; /* Count of CICs in ISUP GRS message */ int cgb_mask; /* Mask of CICs in ISUP CGB message */ int law; char context[AST_MAX_CONTEXT]; char language[MAX_LANGUAGE]; }; /* Locking order (deadlock avoidance): global lock, chan->lock, pvt->lock */ /* Global list of idle CICs, sorted in order of "time free". Linked through the ss7_chan->next_idle pointers. Protected by global lock. */ static struct timeval now; static struct timeval mtp_fifo_full_report; /* used by moduletest.c */ int isup_called_party_num_encode(char *number, unsigned char *param, int plen); int isup_called_party_num_encode_no_st(char *number, unsigned char *param, int plen); int isup_calling_party_num_encode(char *number, int pres_restr, unsigned char *param, int plen); static pthread_t continuity_check_thread = AST_PTHREADT_NULL; static int continuity_check_thread_running = 0; AST_MUTEX_DEFINE_STATIC(continuity_check_lock); static int continuity_check_changes = 0; static int must_stop_continuity_check_thread = 0; static struct ss7_chan dummy_pvt; static void isup_send_grs(struct ss7_chan *pvt, int count, int do_timers); static struct ast_channel *ss7_requester(const char *type, int format, void *data, int *cause); static int ss7_send_digit_begin(struct ast_channel *chan, char digit); static int ss7_send_digit_end(struct ast_channel *chan, char digit, unsigned int duration); static int ss7_call(struct ast_channel *chan, char *addr, int timeout); static int ss7_hangup(struct ast_channel *chan); static int ss7_answer(struct ast_channel *chan); static struct ast_frame *ss7_read(struct ast_channel * chan); static int ss7_write(struct ast_channel * chan, struct ast_frame *frame); static struct ast_frame *ss7_exception(struct ast_channel *chan); static int ss7_fixup(struct ast_channel *oldchan, struct ast_channel *newchan); #ifdef USE_ASTERISK_1_2 static int ss7_indicate(struct ast_channel *chan, int condition); #else static int ss7_indicate(struct ast_channel *chan, int condition, const void* data, size_t datalen); #endif static void t7_clear(struct ss7_chan *pvt); static void t1_start(struct ss7_chan *pvt); static void t5_start(struct ss7_chan *pvt); static void t16_start(struct ss7_chan *pvt); static void t16_clear(struct ss7_chan *pvt); static void t17_start(struct ss7_chan *pvt); static void t19_start(struct ss7_chan *pvt); static void t21_start(struct ss7_chan *pvt); static int do_group_circuit_block_unblock(struct linkset* linkset, int firstcic, unsigned long cgb_mask, int sup_type_ind, int own_cics_only, int do_timers, int do_block); static struct ss7_chan* reattempt_call(struct ss7_chan *pvt); static void *continuity_check_thread_main(void *data); static void handle_complete_address(struct ss7_chan *pvt); static const char type[] = "SS7"; static const char tdesc[] = "SS7 Protocol Driver"; static const struct ast_channel_tech ss7_tech = { .type = type, .description = tdesc, .capabilities = AST_FORMAT_ALAW, .requester = ss7_requester, #ifdef USE_ASTERISK_1_2 .send_digit = ss7_send_digit_begin, #else .send_digit_begin = ss7_send_digit_begin, .send_digit_end = ss7_send_digit_end, #endif .call = ss7_call, .hangup = ss7_hangup, .answer = ss7_answer, .read = ss7_read, .write = ss7_write, .exception = ss7_exception, .fixup = ss7_fixup, .indicate = ss7_indicate, }; /* Send fifo for sending protocol requests to the MTP thread. The fifo is lock-free (one thread may put and another get simultaneously), but multiple threads doing put must be serialized with this mutex. */ AST_MUTEX_DEFINE_STATIC(mtp_send_mutex); static struct lffifo **mtp_send_fifo; #ifdef USE_ASTERISK_1_2 #define ast_channel_lock(chan) ast_mutex_lock(&chan->lock) #define ast_channel_unlock(chan) ast_mutex_unlock(&chan->lock) #define ast_strdup(s) strdup(s) #define ast_malloc(d) malloc(d) #endif static int usecnt = 0; #ifdef USE_ASTERISK_1_2 AST_MUTEX_DEFINE_STATIC(usecnt_lock); int usecount(void); static void incr_usecount(void) { ast_mutex_lock(&usecnt_lock); usecnt++; ast_mutex_unlock(&usecnt_lock); } static void decr_usecount(void) { ast_mutex_lock(&usecnt_lock); usecnt--; if (usecnt < 0) ast_log(LOG_WARNING, "Usecnt < 0???\n"); ast_mutex_unlock(&usecnt_lock); } int usecount(void) { int res; ast_mutex_lock(&usecnt_lock); res = usecnt; ast_mutex_unlock(&usecnt_lock); return res; } #else static void incr_usecount(void) { ast_atomic_fetchadd_int(&usecnt, 1); ast_update_use_count(); } static void decr_usecount(void) { ast_atomic_fetchadd_int(&usecnt, -1); ast_update_use_count(); if (usecnt < 0) ast_log(LOG_WARNING, "Usecnt < 0???\n"); } #endif static void request_hangup(struct ast_channel* chan, int hangupcause) { chan->hangupcause = hangupcause; ast_softhangup_nolock(chan, AST_SOFTHANGUP_DEV); } /* Lookup DPC for circuit */ static inline int peerpc(struct ss7_chan* pvt) { return pvt->link->linkset->dpc; } static void mtp_enqueue_isup_packet(struct link* link, int cic, unsigned char *msg, int msglen, int reqtyp) { int res; unsigned char req_buf[MTP_REQ_MAX_SIZE]; struct mtp_req *req = (struct mtp_req *)req_buf; struct linkset* linkset = link->linkset; struct link* slink = NULL; int lsi = link->linkset->lsi; if(sizeof(struct mtp_req) + msglen > sizeof(req_buf)) { ast_log(LOG_ERROR, "Attempt to send oversized ISUP message of len " "%d > %lu.\n", msglen, sizeof(req_buf) - sizeof(struct mtp_req)); return; } switch (link->linkset->loadshare) { case LOADSHARE_NONE: if (link->schannel != -1) slink = link; break; case LOADSHARE_LINKSET: if (linkset->n_schannels) slink = linkset->schannels[cic % linkset->n_schannels]; break; case LOADSHARE_COMBINED_LINKSET: { int n_schannels = 0; int schannel; for (lsi = 0; lsi < n_linksets; lsi++) if (linksets[lsi].enabled) if (&linksets[lsi] == linkset || (is_combined_linkset(linkset, &linksets[lsi]))) n_schannels += linksets[lsi].n_schannels; if (n_schannels) { schannel = cic % n_schannels; n_schannels = 0; for (lsi = 0; lsi < n_linksets; lsi++) if (linksets[lsi].enabled) if (&linksets[lsi] == linkset || (is_combined_linkset(linkset, &linksets[lsi]))) { if (schannel - n_schannels < linksets[lsi].n_schannels) { slink = linksets[lsi].schannels[schannel - n_schannels]; break; } n_schannels += linksets[lsi].n_schannels; } } } break; } if (slink) lsi = slink->linkset->lsi; else lsi = linkset->lsi; req->typ = reqtyp; req->isup.slink = slink; req->isup.link = link; req->isup.slinkix = slink ? slink->linkix : 0; req->len = msglen; memcpy(req->buf, msg, msglen); if(slink && slink->mtp3fd > -1) { res = mtp3_send(slink->mtp3fd, (unsigned char *)req, sizeof(struct mtp_req) + req->len); if (res < 0) { close(slink->mtp3fd); slink->mtp3fd = -1; } return; } ast_mutex_lock(&mtp_send_mutex); if (!mtp_send_fifo || !mtp_send_fifo[lsi]) { if (cluster_receivers_alive(linkset)) { ast_log(LOG_DEBUG, "MTP send fifo not ready, forwarding to cluster.\n"); cluster_mtp_forward(req); } else ast_log(LOG_WARNING, "MTP send fifo not ready.\n"); ast_mutex_unlock(&mtp_send_mutex); return; } ast_log(LOG_DEBUG, "Queue packet CIC=%d, len=%d, linkset='%s', link='%s', slinkset='%s', slink='%s'\n", cic, msglen, linkset->name, link->name, linksets[lsi].name, slink ? slink->name : "(none)"); res = lffifo_put(mtp_send_fifo[lsi], (unsigned char *)req, sizeof(struct mtp_req) + req->len); ast_mutex_unlock(&mtp_send_mutex); if(res != 0) { gettimeofday(&now, NULL); if (timediff_msec(now, mtp_fifo_full_report) > 30000) { ast_log(LOG_WARNING, "MTP send fifo full (MTP thread blocked?).\n"); gettimeofday(&mtp_fifo_full_report, NULL); } } } static void mtp_enqueue_isup(struct ss7_chan* pvt, unsigned char *msg, int msglen) { mtp_enqueue_isup_packet(pvt->link, pvt->cic, msg, msglen, MTP_REQ_ISUP); } static void mtp_enqueue_isup_forward(struct ss7_chan* pvt, unsigned char *msg, int msglen) { mtp_enqueue_isup_packet(pvt->link, pvt->cic, msg, msglen, MTP_REQ_ISUP_FORWARD); } static struct ss7_chan* find_pvt(struct link* slink, int cic) { struct linkset* ls; int lsi; ls = slink->linkset; if (ls->cic_list[cic]) return ls->cic_list[cic]; for (lsi = 0; lsi < n_linksets; lsi++) if (is_combined_linkset(ls, &linksets[lsi])) if (linksets[lsi].cic_list[cic]) return linksets[lsi].cic_list[cic]; return NULL; } /* This function must be called with the global lock mutex held. */ static void remove_from_idlelist(struct ss7_chan *pvt) { struct linkset* linkset = pvt->link->linkset; struct ss7_chan *prev, *cur; cur = linkset->idle_list; prev = NULL; while(cur != NULL) { if(pvt->cic == cur->cic) { if(prev == NULL) { linkset->idle_list = pvt->next_idle; } else { prev->next_idle = pvt->next_idle; } pvt->next_idle = NULL; return; } prev = cur; cur = cur->next_idle; } ast_log(LOG_NOTICE, "Trying to remove CIC=%d from idle list, but not " "found?!?.\n", pvt->cic); } /* This function must be called with the global lock mutex held. */ static void add_to_idlelist(struct ss7_chan *pvt) { struct linkset* linkset = pvt->link->linkset; struct ss7_chan *prev, *cur; #if 1 cur = linkset->idle_list; prev = NULL; while(cur != NULL) { if(pvt->cic == cur->cic) { ast_log(LOG_NOTICE, "Trying to add CIC=%d to idle list, but already there?!?\n", pvt->cic); return; } cur = cur->next_idle; } #endif pvt->next_idle = linkset->idle_list; linkset->idle_list = pvt; } /* This implements hunting policy. It must be called with the global lock mutex held. */ /* This implements the policy: Primary hunting group odd CICs, secondary hunting group even CICs. Choose least recently used CIC. */ static struct ss7_chan *cic_hunt_odd_lru(struct linkset* linkset) { struct ss7_chan *cur, *prev, *best, *best_prev; int odd; best = NULL; best_prev = NULL; for(odd = 1; odd >= 0; odd--) { for(cur = linkset->idle_list, prev = NULL; cur != NULL; prev = cur, cur = cur->next_idle) { /* Don't select lines that are resetting or blocked. */ if(!cur->reset_done || (cur->blocked & (BL_LH|BL_RM|BL_RH|BL_UNEQUIPPED|BL_LINKDOWN))) { continue; } if((cur->cic % 2) == odd) { best = cur; best_prev = prev; } } if(best != NULL) { if(best_prev == NULL) { linkset->idle_list = best->next_idle; } else { best_prev->next_idle = best->next_idle; } best->next_idle = NULL; return best; } } ast_log(LOG_WARNING, "No idle circuit found.\n"); return NULL; } /* This implements the policy: Primary hunting group even CICs, secondary hunting group odd CICs. Choose most recently used CIC. */ static struct ss7_chan *cic_hunt_even_mru(struct linkset* linkset) { struct ss7_chan *cur, *prev, *best, *best_prev; best = NULL; best_prev = NULL; for(cur = linkset->idle_list, prev = NULL; cur != NULL; prev = cur, cur = cur->next_idle) { /* Don't select lines that are resetting or blocked. */ if(!cur->reset_done || (cur->blocked & (BL_LH|BL_RM|BL_RH|BL_UNEQUIPPED|BL_LINKDOWN))) { continue; } if((cur->cic % 2) == 0) { /* Choose the first idle even circuit, if any. */ best = cur; best_prev = prev; break; } else if(best == NULL) { /* Remember the first odd circuit, in case no even circuits are available. */ best = cur; best_prev = prev; } } if(best != NULL) { if(best_prev == NULL) { linkset->idle_list = best->next_idle; } else { best_prev->next_idle = best->next_idle; } best->next_idle = NULL; return best; } else { ast_log(LOG_WARNING, "No idle circuit found.\n"); return NULL; } } /* This implements the policy: Sequential low to high CICs */ static struct ss7_chan *cic_hunt_seq_lth_htl(struct linkset* linkset, int lth) { struct ss7_chan *cur, *prev, *best = NULL, *best_prev = NULL; for(cur = linkset->idle_list, prev = NULL; cur != NULL; prev = cur, cur = cur->next_idle) { /* Don't select lines that are resetting or blocked. */ if(!cur->reset_done || (cur->blocked & (BL_LH|BL_RM|BL_RH|BL_UNEQUIPPED|BL_LINKDOWN))) { continue; } if (!best) { best = cur; continue; } if (lth) { if (cur->cic < best->cic) { best = cur; best_prev = prev; } } else { if (cur->cic > best->cic) { best = cur; best_prev = prev; } } } if(best != NULL) { if(best_prev == NULL) { linkset->idle_list = best->next_idle; } else { best_prev->next_idle = best->next_idle; } best->next_idle = NULL; return best; } else { ast_log(LOG_WARNING, "No idle circuit found.\n"); return NULL; } } /* Send a "release" message. */ static void isup_send_rel(struct ss7_chan *pvt, int cause) { unsigned char msg[MTP_MAX_PCK_SIZE]; int current, varptr; unsigned char param[2]; isup_msg_init(msg, sizeof(msg), this_host->opc, peerpc(pvt), pvt->cic, ISUP_REL, ¤t); isup_msg_start_variable_part(msg, sizeof(msg), &varptr, ¤t, 1, 1); param[0] = 0x85; /* Last octet, ITU-T coding, private network */ param[1] = 0x80 | (cause & 0x7f); /* Last octet */ isup_msg_add_variable(msg, sizeof(msg), &varptr, ¤t, param, 2); isup_msg_start_optional_part(msg, sizeof(msg), &varptr, ¤t); isup_msg_end_optional_part(msg, sizeof(msg), ¤t); mtp_enqueue_isup(pvt, msg, current); } /* Send a "release confirmed" message. */ static void isup_send_rlc(struct ss7_chan* pvt) { unsigned char msg[MTP_MAX_PCK_SIZE]; int current, varptr; int cic = pvt->cic; isup_msg_init(msg, sizeof(msg), this_host->opc, peerpc(pvt), cic, ISUP_RLC, ¤t); isup_msg_start_variable_part(msg, sizeof(msg), &varptr, ¤t, 0, 1); isup_msg_start_optional_part(msg, sizeof(msg), &varptr, ¤t); isup_msg_end_optional_part(msg, sizeof(msg), ¤t); mtp_enqueue_isup(pvt, msg, current); } /* Send a "reset circuit" message. */ static void isup_send_rsc(struct ss7_chan* pvt) { unsigned char msg[MTP_MAX_PCK_SIZE]; int current, varptr; int cic = pvt->cic; isup_msg_init(msg, sizeof(msg), this_host->opc, peerpc(pvt), cic, ISUP_RSC, ¤t); isup_msg_start_variable_part(msg, sizeof(msg), &varptr, ¤t, 0, 0); mtp_enqueue_isup(pvt, msg, current); } /* Send an "address complete" message. */ static void isup_send_acm(struct ss7_chan* pvt) { unsigned char msg[MTP_MAX_PCK_SIZE]; int current, varptr; unsigned char param[2]; int cic = pvt->cic; isup_msg_init(msg, sizeof(msg), this_host->opc, peerpc(pvt), cic, ISUP_ACM, ¤t); param[0] = 0x12; param[1] = 0x14; isup_msg_add_fixed(msg, sizeof(msg), ¤t, param, 2); if (pvt->has_inband_ind) { unsigned char param_opt_backw_ind[1]; param_opt_backw_ind[0] = 0x01; isup_msg_start_variable_part(msg, sizeof(msg), &varptr, ¤t, 0, 1); isup_msg_start_optional_part(msg, sizeof(msg), &varptr, ¤t); isup_msg_add_optional(msg, sizeof(msg), ¤t, IP_OPTIONAL_BACKWARD_CALL_INDICATORS, param_opt_backw_ind, 1); isup_msg_end_optional_part(msg, sizeof(msg), ¤t); } else { isup_msg_start_variable_part(msg, sizeof(msg), &varptr, ¤t, 0, 1); } mtp_enqueue_isup(pvt, msg, current); } /* Send a "circuit group blocking" message. */ static void isup_send_cgb(struct ss7_chan* pvt, int mask) { int sup_type_ind = 0x00; /* Maintenance oriented supervision message type */ int cic = pvt->cic; if (pvt->equipped) sup_type_ind = 0x00; /* Maintenance oriented supervision message type */ else sup_type_ind = 0x01; /* Hardware failure oriented */ do_group_circuit_block_unblock(pvt->link->linkset, cic, mask, sup_type_ind, 0, 0, 1); } /* Send a "circuit group unblocking" message. */ static void isup_send_cgu(struct ss7_chan* pvt, int mask) { int sup_type_ind = 0x00; /* Maintenance oriented supervision message type */ int cic = pvt->cic; if (pvt->equipped) sup_type_ind = 0x00; /* Maintenance oriented supervision message type */ else sup_type_ind = 0x01; /* Hardware failure oriented */ do_group_circuit_block_unblock(pvt->link->linkset, cic, mask, sup_type_ind, 0, 0, 0); } /* Send a "blocked" message. */ static void isup_send_blk(struct ss7_chan *pvt) { unsigned char msg[MTP_MAX_PCK_SIZE]; int current, varptr; isup_msg_init(msg, sizeof(msg), this_host->opc, peerpc(pvt), pvt->cic, ISUP_BLK, ¤t); isup_msg_start_variable_part(msg, sizeof(msg), &varptr, ¤t, 0, 0); mtp_enqueue_isup(pvt, msg, current); } /* Reset circuit. Called with pvt->lock held */ static void reset_circuit(struct ss7_chan* pvt) { isup_send_rsc(pvt); t16_start(pvt); } /* Initiate release circuit. Called with pvt->lock held */ static void initiate_release_circuit(struct ss7_chan* pvt, int cause) { pvt->hangupcause = cause; /* Remember for REL retransmit */ /* We sometimes get hangupcause=0 (seen when no match in dialplan, not even invalid handler). This doesn't work too well, for example ast_softhangup() doesn't actually hang up when hangupcause=0. */ if(pvt->hangupcause == 0) { pvt->hangupcause = AST_CAUSE_NORMAL_CLEARING; } isup_send_rel(pvt, pvt->hangupcause); pvt->state = ST_SENT_REL; /* Set up timer T1 and T5 waiting for RLC. */ t1_start(pvt); t5_start(pvt); } /* Setup a new channel, for an incoming or an outgoing call. Assumes called with global lock and pvt->lock held. */ static struct ast_channel *ss7_new(struct ss7_chan *pvt, int state, char* cid_num, char* exten) { struct ast_channel *chan; #ifdef USE_ASTERISK_1_2 chan = ast_channel_alloc(1); if(!chan) { return NULL; } snprintf(chan->name, sizeof(chan->name), "%s/%s/%d", type, pvt->link->linkset->name, pvt->cic); chan->type = type; #else chan = ast_channel_alloc(1, state, cid_num, NULL, NULL, exten, pvt->context, 0, "%s/%s/%d", type, pvt->link->linkset->name, pvt->cic); ast_jb_configure(chan, ss7_get_global_jbconf()); if(!chan) { return NULL; } #endif chan->tech = &ss7_tech; chan->nativeformats = AST_FORMAT_ALAW; chan->rawreadformat = AST_FORMAT_ALAW; chan->rawwriteformat = AST_FORMAT_ALAW; chan->readformat = AST_FORMAT_ALAW; chan->writeformat = AST_FORMAT_ALAW; ast_setstate(chan, state); chan->fds[0] = pvt->zaptel_fd; chan->tech_pvt = pvt; pvt->owner = chan; incr_usecount(); flushchannel(pvt->zaptel_fd, pvt->cic); pvt->lastread.tv_sec = pvt->lastread.tv_usec = 0; return chan; } /* hunt free CIC */ static struct ss7_chan* cic_hunt(struct linkset* linkset) { struct ss7_chan* pvt; switch(linkset->hunt_policy) { case HUNT_ODD_LRU: pvt = cic_hunt_odd_lru(linkset); break; case HUNT_EVEN_MRU: pvt = cic_hunt_even_mru(linkset); break; case HUNT_SEQ_LTH: pvt = cic_hunt_seq_lth_htl(linkset, 1); break; case HUNT_SEQ_HTL: pvt = cic_hunt_seq_lth_htl(linkset, 0); break; default: pvt = NULL; ast_log(LOG_ERROR, "Internal error: invalid hunting policy %d.\n", linkset->hunt_policy); } return pvt; } /* Request an SS7 channel. */ static struct ast_channel *ss7_requester(const char *type, int format, void *data, int *cause) { char *arg = data; struct ast_channel *chan; struct ss7_chan *pvt; struct linkset* linkset = this_host->default_linkset; char *sep = strchr(arg, '/'); ast_log(LOG_DEBUG, "SS7 request (%s/%s) format = 0x%X.\n", type, arg, format); if(!(format & AST_FORMAT_ALAW)) { ast_log(LOG_NOTICE, "Audio format 0x%X not supported by SS7 channel.\n", format); return NULL; } if (sep) { char name_buf[100]; strncpy(name_buf, arg, sep-arg); name_buf[sep-arg] = 0; linkset = lookup_linkset(name_buf); if (!linkset) { ast_log(LOG_ERROR, "SS7 requester: No such linkset: '%s', using default\n", name_buf); linkset = this_host->default_linkset; } } lock_global(); pvt = cic_hunt(linkset); if(pvt == NULL) { unlock_global(); *cause = AST_CAUSE_CONGESTION; ast_log(LOG_WARNING, "SS7 requester: No idle circuit available.\n"); return NULL; } ast_mutex_lock(&pvt->lock); chan = ss7_new(pvt, AST_STATE_DOWN, NULL, sep ? sep+1 : arg); if(!chan) { ast_mutex_unlock(&pvt->lock); unlock_global(); *cause = AST_CAUSE_CONGESTION; ast_log(LOG_WARNING, "Unable to allocate SS7 channel structure.\n"); return NULL; } ast_mutex_unlock(&pvt->lock); unlock_global(); ast_update_use_count(); ast_log(LOG_DEBUG, "SS7 channel %s/%s allocated successfully.\n", type, arg); return chan; } static int ss7_send_digit_begin(struct ast_channel *chan, char digit) { struct ss7_chan *pvt = chan->tech_pvt; ast_mutex_lock(&pvt->lock); if (!io_send_dtmf(pvt->zaptel_fd, pvt->cic, digit)) pvt->sending_dtmf = 1; ast_mutex_unlock(&pvt->lock); return 0; } static int ss7_send_digit_end(struct ast_channel *chan, char digit, unsigned int duration) { return 0; } static void ss7_send_call_progress(struct ss7_chan *pvt, int value) { unsigned char msg[MTP_MAX_PCK_SIZE]; int current, varptr; unsigned char param[1]; unsigned char param_backward_ind[2]; unsigned char param_opt_backw_ind[1]; isup_msg_init(msg, sizeof(msg), this_host->opc, peerpc(pvt), pvt->cic, ISUP_CPR, ¤t); param[0] = value; /* Event information */ param_backward_ind[0] = 0x16; /* Charge, subscriber free, ordinary subscriber, no end-to-end */ param_backward_ind[1] = 0x14; /* No interworking, no end-to-end, ISDN all the way, no hold, terminating access ISDN, no echo control */ param_opt_backw_ind[0] = 0x01; isup_msg_add_fixed(msg, sizeof(msg), ¤t, param, 1); isup_msg_start_variable_part(msg, sizeof(msg), &varptr, ¤t, 0, 1); isup_msg_start_optional_part(msg, sizeof(msg), &varptr, ¤t); isup_msg_add_optional(msg, sizeof(msg), ¤t, IP_BACKWARD_CALL_INDICATORS, param_backward_ind, 2); isup_msg_add_optional(msg, sizeof(msg), ¤t, IP_OPTIONAL_BACKWARD_CALL_INDICATORS, param_opt_backw_ind, 1); isup_msg_end_optional_part(msg, sizeof(msg), ¤t); mtp_enqueue_isup(pvt, msg, current); } #ifdef USE_ASTERISK_1_2 static int ss7_indicate(struct ast_channel *chan, int condition) { #else static int ss7_indicate(struct ast_channel *chan, int condition, const void* data, size_t datalen) { #endif struct ss7_chan *pvt = chan->tech_pvt; int res; ast_mutex_lock(&pvt->lock); ast_log(LOG_DEBUG, "SS7 indicate CIC=%d.\n", pvt->cic); switch(condition) { case AST_CONTROL_RINGING: ast_log(LOG_DEBUG, "Sending ALERTING call progress for CIC=%d in-band ind=%d.\n", pvt->cic, pvt->has_inband_ind); ss7_send_call_progress(pvt, 0x01); ast_setstate(chan, AST_STATE_RINGING); res = !pvt->has_inband_ind && !pvt->is_digital; /* If there is no indication of in-band information, tell asterisk to generate ringing indication tone */ break; case AST_CONTROL_PROGRESS: ast_log(LOG_DEBUG, "Sending in-band information available call progress for CIC=%d..\n", pvt->cic); ss7_send_call_progress(pvt, 0x03); ast_playtones_stop(chan); res = 0; break; default: /* Not supported. */ res = !pvt->has_inband_ind && !pvt->is_digital; /* If there is no indication of in-band information, tell asterisk to generate ringing indication tone */ } ast_mutex_unlock(&pvt->lock); if (!res) ast_log(LOG_DEBUG, "Generating in-band indication tones for CIC=%d, condition=%d.\n", pvt->cic, condition); return res; } static int t1_timeout(void *arg) { struct ss7_chan *pvt = arg; ast_log(LOG_NOTICE, "T1 timeout (waiting for RLC) CIC=%d.\n", pvt->cic); isup_send_rel(pvt, pvt->hangupcause); return 1; /* Run us again the next period */ } /* This should be called with pvt->lock held. */ static void t1_clear(struct ss7_chan *pvt) { if(pvt->t1 != -1) { stop_timer(pvt->t1); pvt->t1 = -1; } } /* This should be called with pvt->lock held. */ static void t1_start(struct ss7_chan *pvt) { t1_clear(pvt); pvt->t1 = start_timer(30000, t1_timeout, pvt); } static int t2_timeout(void *arg) { struct ss7_chan *pvt = arg; struct ast_channel *chan = pvt->owner; ast_log(LOG_NOTICE, "T2 timeout (waiting for RES, user) CIC=%d.\n", pvt->cic); request_hangup(chan, AST_CAUSE_NORMAL_CLEARING); /* Q.764 2.4.3 and Annex A */ pvt->t2 = -1; return 0; /* Remove us from sched */ } /* This should be called with pvt->lock held. */ static void t2_clear(struct ss7_chan *pvt) { if(pvt->t2 != -1) { stop_timer(pvt->t2); pvt->t2 = -1; } } /* This should be called with pvt->lock held. */ static void t2_start(struct ss7_chan *pvt) { t2_clear(pvt); pvt->t2 = start_timer(180000, t2_timeout, pvt); } /* This should be called with pvt->lock held. */ static void t5_clear(struct ss7_chan *pvt) { if(pvt->t5 != -1) { stop_timer(pvt->t5); pvt->t5 = -1; } } static int t5_timeout(void *arg) { struct ss7_chan *pvt = arg; /* For the long T5 timeout, alert maintenance, and switch to sending "reset circuit". */ ast_log(LOG_WARNING, "T5 timeout (No \"release complete\" from peer) CIC=%d.\n", pvt->cic); t1_clear(pvt); isup_send_rsc(pvt); t17_start(pvt); pvt->t5 = -1; return 0; /* Remove us from sched */ } /* This should be called with pvt->lock held. */ static void t5_start(struct ss7_chan *pvt) { t5_clear(pvt); pvt->t5 = start_timer(600000, t5_timeout, pvt); } static int t6_timeout(void *arg) { struct ss7_chan *pvt = arg; struct ast_channel *chan = pvt->owner; ast_log(LOG_NOTICE, "T6 timeout (waiting for RES, network) CIC=%d.\n", pvt->cic); request_hangup(chan, AST_CAUSE_RECOVERY_ON_TIMER_EXPIRE); pvt->t6 = -1; return 0; /* Remove us from sched */ } /* This should be called with pvt->lock held. */ static void t6_clear(struct ss7_chan *pvt) { if(pvt->t6 != -1) { stop_timer(pvt->t6); pvt->t6 = -1; } } /* This should be called with pvt->lock held. */ static void t6_start(struct ss7_chan *pvt) { t6_clear(pvt); pvt->t6 = start_timer(60000, t6_timeout, pvt); } static int t7_timeout(void *arg) { struct ast_channel *chan = arg; struct ss7_chan *pvt = chan->tech_pvt; ast_log(LOG_NOTICE, "T7 timeout (waiting for ACM or CON) CIC=%d.\n", pvt->cic); /* Q.764 2.4.3 */ request_hangup(chan, AST_CAUSE_NORMAL_CLEARING); pvt->t7 = -1; /* asterisk sometimes fail to call ss7_hangup ... */ return 0; /* Remove us from sched */ } /* This should be called with pvt->lock held. */ static void t7_clear(struct ss7_chan *pvt) { if(pvt->t7 != -1) { stop_timer(pvt->t7); pvt->t7 = -1; } } /* This should be called with pvt->lock held. */ static void t7_start(struct ast_channel *chan) { struct ss7_chan *pvt = chan->tech_pvt; t7_clear(pvt); pvt->t7 = start_timer(25000, t7_timeout, chan); } static int t9_timeout(void *arg) { struct ast_channel *chan = arg; struct ss7_chan *pvt = chan->tech_pvt; ast_log(LOG_NOTICE, "T9 timeout (waiting for ANM).\n"); request_hangup(chan, AST_CAUSE_NETWORK_OUT_OF_ORDER); pvt->t9 = -1; return 0; /* Remove us from sched */ } /* This should be called with pvt->lock held. */ static void t9_clear(struct ss7_chan *pvt) { if(pvt->t9 != -1) { stop_timer(pvt->t9); pvt->t9 = -1; } } /* This should be called with pvt->lock held. */ static void t9_start(struct ast_channel *chan) { struct ss7_chan *pvt = chan->tech_pvt; t9_clear(pvt); pvt->t9 = start_timer(90000, t9_timeout, chan); } /* This should be called with pvt->lock held. */ static void t16_clear(struct ss7_chan *pvt) { if(pvt->t16 != -1) { stop_timer(pvt->t16); pvt->t16 = -1; } } static int t16_timeout(void *arg) { struct ss7_chan *pvt = arg; /* For the long T16 timeout, alert maintenance, and switch to sending "reset circuit". */ ast_log(LOG_WARNING, "T16 timeout (No \"release complete\" from peer) CIC=%d, sent RSC.\n", pvt->cic); isup_send_rsc(pvt); return 1; /* Run us again the next period */ } /* This should be called with pvt->lock held. */ static void t16_start(struct ss7_chan *pvt) { t16_clear(pvt); pvt->t16 = start_timer(30000, t16_timeout, pvt); } /* This should be called with pvt->lock held. */ static void t17_clear(struct ss7_chan *pvt) { if(pvt->t17 != -1) { stop_timer(pvt->t17); pvt->t17 = -1; } } static int t17_timeout(void *arg) { struct ss7_chan *pvt = arg; /* For the long T17 timeout, alert maintenance, and switch to sending "reset circuit". */ ast_log(LOG_WARNING, "T17 timeout (No \"release complete\" from peer) CIC=%d.\n", pvt->cic); isup_send_rsc(pvt); return 1; /* Run us again the next period */ } /* This should be called with pvt->lock held. */ static void t17_start(struct ss7_chan *pvt) { t17_clear(pvt); pvt->t17 = start_timer(600000, t17_timeout, pvt); } /* This should be called with pvt->lock held. */ static void t18_clear(struct ss7_chan *pvt) { if(pvt->t18 != -1) { stop_timer(pvt->t18); pvt->t18 = -1; } } static int t18_timeout(void *arg) { struct ss7_chan *pvt = arg; /* For the long T18 timeout, alert maintenance, and switch to sending "reset circuit". */ ast_log(LOG_WARNING, "T18 timeout (No \"circuit group blocking acknowledge\" from peer) CIC=%d.\n", pvt->cic); isup_send_cgb(pvt, pvt->cgb_mask); pvt->t18 = -1; t19_start(pvt); return 0; /* Remove us from sched */ } /* This should be called with pvt->lock held. */ static void t18_start(struct ss7_chan *pvt) { t18_clear(pvt); pvt->t18 = start_timer(30000, t18_timeout, pvt); } /* This should be called with pvt->lock held. */ static void t19_clear(struct ss7_chan *pvt) { if(pvt->t19 != -1) { stop_timer(pvt->t19); pvt->t19 = -1; } } static int t19_timeout(void *arg) { struct ss7_chan *pvt = arg; /* For the long T19 timeout, alert maintenance, and switch to sending "reset circuit". */ ast_log(LOG_WARNING, "T19 timeout (No \"circuit group blocking acknowledge\" from peer) CIC=%d.\n", pvt->cic); isup_send_cgb(pvt, pvt->cgb_mask); return 1; /* Run us again the next period */ } /* This should be called with pvt->lock held. */ static void t19_start(struct ss7_chan *pvt) { t19_clear(pvt); pvt->t19 = start_timer(600000, t19_timeout, pvt); } /* This should be called with pvt->lock held. */ static void t20_clear(struct ss7_chan *pvt) { if(pvt->t20 != -1) { stop_timer(pvt->t20); pvt->t20 = -1; } } static int t20_timeout(void *arg) { struct ss7_chan *pvt = arg; /* For the long T20 timeout, alert maintenance, and switch to sending "reset circuit". */ ast_log(LOG_WARNING, "T20 timeout (No \"circuit group unblocking acknowledge\" from peer) CIC=%d.\n", pvt->cic); isup_send_cgu(pvt, pvt->cgb_mask); pvt->t20 = -1; t21_start(pvt); return 0; /* Remove us from sched */ } /* This should be called with pvt->lock held. */ static void t20_start(struct ss7_chan *pvt) { t20_clear(pvt); pvt->t20 = start_timer(30000, t20_timeout, pvt); } /* This should be called with pvt->lock held. */ static void t21_clear(struct ss7_chan *pvt) { if(pvt->t21 != -1) { stop_timer(pvt->t21); pvt->t21 = -1; } } static int t21_timeout(void *arg) { struct ss7_chan *pvt = arg; /* For the long T21 timeout, alert maintenance, and switch to sending "reset circuit". */ ast_log(LOG_WARNING, "T21 timeout (No \"circuit group blocking acknowledge\" from peer) CIC=%d.\n", pvt->cic); isup_send_cgu(pvt, pvt->cgb_mask); return 1; /* Run us again the next period */ } /* This should be called with pvt->lock held. */ static void t21_start(struct ss7_chan *pvt) { t21_clear(pvt); pvt->t21 = start_timer(600000, t21_timeout, pvt); } /* This should be called with pvt->lock held. */ static void t22_clear(struct ss7_chan *pvt) { if(pvt->t22 != -1) { stop_timer(pvt->t22); pvt->t22 = -1; } } static int t22_timeout(void *arg) { struct ss7_chan *pvt = arg; ast_log(LOG_NOTICE, "T22 timeout (No \"circuit group reset acknowledge\" from peer) CIC=%d.\n", pvt->cic); isup_send_grs(pvt, pvt->grs_count, 0); return 1; /* Run us again the next period */ } /* This should be called with pvt->lock held. */ static void t22_start(struct ss7_chan *pvt) { t22_clear(pvt); pvt->t22 = start_timer(30000, t22_timeout, pvt); } /* This should be called with pvt->lock held. */ static void t23_clear(struct ss7_chan *pvt) { if(pvt->t23 != -1) { stop_timer(pvt->t23); pvt->t23 = -1; } } static int t23_timeout(void *arg) { struct ss7_chan *pvt = arg; /* For the long T23 timeout, alert maintenance using LOG_WARNING. */ ast_log(LOG_WARNING, "T23 timeout (No \"circuit group reset acknowledge\" from peer) CIC=%d.\n", pvt->cic); t22_clear(pvt); isup_send_grs(pvt, pvt->grs_count, 0); return 1; /* Run us again the next period */ } /* This should be called with pvt->lock held. */ static void t23_start(struct ss7_chan *pvt) { t23_clear(pvt); pvt->t23 = start_timer(10*60*1000, t23_timeout, pvt); } static int t35_timeout(void *arg) { struct ss7_chan *pvt = arg; pvt->t35 = -1; if (pvt->link->linkset->t35_action) { pvt->iam.dni.complete = 1; handle_complete_address(pvt); return 0; /* Remove us from sched */ } ast_log(LOG_NOTICE, "T35 timeout (waiting for end-of-pulsing) CIC=%d.\n", pvt->cic); initiate_release_circuit(pvt, AST_CAUSE_INVALID_NUMBER_FORMAT); return 0; /* Remove us from sched */ } /* This should be called with pvt->lock held. */ static void t35_clear(struct ss7_chan *pvt) { if(pvt->t35 != -1) { stop_timer(pvt->t35); pvt->t35 = -1; } } /* This should be called with pvt->lock held. */ static void t35_start(struct ss7_chan* pvt) { t35_clear(pvt); pvt->t35 = start_timer(pvt->link->linkset->t35_value, t35_timeout, pvt); } static int t36_timeout(void *arg) { struct ss7_chan *pvt = arg; ast_log(LOG_NOTICE, "T36 timeout (waiting for COT or REL) CIC=%d.\n", pvt->cic); initiate_release_circuit(pvt, AST_CAUSE_NORMAL_TEMPORARY_FAILURE); ast_mutex_lock(&continuity_check_lock); continuity_check_changes = 1; ast_mutex_unlock(&continuity_check_lock); pvt->t36 = -1; return 0; /* Remove us from sched */ } /* This should be called with pvt->lock held. */ static void t36_clear(struct ss7_chan *pvt) { if(pvt->t36 != -1) { stop_timer(pvt->t36); pvt->t36 = -1; } } /* This should be called with pvt->lock held. */ static void t36_start(struct ss7_chan* pvt) { t36_clear(pvt); pvt->t36 = start_timer(12000, t36_timeout, pvt); } static void isup_send_grs(struct ss7_chan *pvt, int count, int do_timers) { unsigned char msg[MTP_MAX_PCK_SIZE]; int current, varptr; unsigned char param[1]; if(pvt == NULL) { ast_log(LOG_NOTICE, "Error: NULL pvt passed in?!?.\n"); return; } if(count < 2) { ast_log(LOG_NOTICE, "Error (CIC=%d), cannot send group reset for %d " "circuits (need at least 2).\n", pvt->cic, count); return; } isup_msg_init(msg, sizeof(msg), this_host->opc, peerpc(pvt), pvt->cic, ISUP_GRS, ¤t); isup_msg_start_variable_part(msg, sizeof(msg), &varptr, ¤t, 1, 0); param[0] = count - 1; isup_msg_add_variable(msg, sizeof(msg), &varptr, ¤t, param, 1); mtp_enqueue_isup(pvt, msg, current); if(do_timers) { t22_start(pvt); t23_start(pvt); } } /* At startup, send an initial GRS to reset all circuits, and setup a timer to wait for the ack. */ static void send_init_grs(struct linkset* linkset) { int i; int first_equipped; /* Left end of a range in CIC scan. */ int range; ast_log(LOG_DEBUG, "Sending GROUP RESET messages on linkset '%s'.\n", linkset->name); lock_global(); /* Send a GRS for each continuous range of circuits. */ first_equipped = -1; for(i = linkset->first_cic; i <= linkset->last_cic; i++) { if(linkset->cic_list[i] && linkset->cic_list[i]->equipped) { /* Clear the blocked status for the circuits; any remote blocking will be reported by the peer. */ linkset->cic_list[i]->blocked = 0; /* Look for the start of a range. */ if(first_equipped == -1) { first_equipped = i; } } /* Look for the end of a range. */ if(first_equipped != -1 && (i == linkset->last_cic || !(linkset->cic_list[i+1] && linkset->cic_list[i+1]->equipped) || first_equipped + 31 == i)) { range = i - first_equipped; if(range == 0) { struct ss7_chan *pvt = linkset->cic_list[first_equipped]; ast_mutex_lock(&pvt->lock); pvt->state = ST_SENT_REL; isup_send_rsc(pvt); t16_start(pvt); ast_mutex_unlock(&pvt->lock); first_equipped = -1; } else { linkset->cic_list[first_equipped]->grs_count = range + 1; isup_send_grs(linkset->cic_list[first_equipped], range + 1, 1); } ast_log(LOG_DEBUG, "Group reset first %d, range %d \n", first_equipped, range); first_equipped = -1; } } unlock_global(); /* When the reset acknowledge arrives, the pvt->reset_done is set true for all affected circuits. Until then, messages for that circuit are discarded. */ } /* Release circuit after receiving GRS */ static void release_circuit(struct ss7_chan* pvt) { struct ast_channel *chan = pvt->owner; if(chan != NULL) { ast_mutex_lock(&chan->lock); } ast_mutex_lock(&pvt->lock); if(pvt->state != ST_IDLE) { pvt->state = ST_IDLE; if(chan != NULL) { request_hangup(chan, AST_CAUSE_NETWORK_OUT_OF_ORDER); } else { /* Channel already hung up */ } } t1_clear(pvt); t2_clear(pvt); t5_clear(pvt); t6_clear(pvt); t7_clear(pvt); t9_clear(pvt); t16_clear(pvt); t17_clear(pvt); t18_clear(pvt); t19_clear(pvt); t20_clear(pvt); t21_clear(pvt); t35_clear(pvt); ast_mutex_unlock(&pvt->lock); if(chan != NULL) { ast_mutex_unlock(&chan->lock); } } static void free_cic(struct ss7_chan* pvt) { pvt->state = ST_IDLE; pvt->hangupcause = 0; pvt->dohangup = 0; pvt->has_inband_ind = 0; pvt->charge_indicator = 0; pvt->is_digital = 0; pvt->sending_dtmf = 0; pvt->owner = NULL; add_to_idlelist(pvt); } static void handle_complete_address(struct ss7_chan *pvt) { int res; struct iam* iam = &pvt->iam; struct ast_channel *chan = ss7_new(pvt, AST_STATE_RING, iam->ani.present ? iam->ani.num : NULL, iam->dni.num); if(chan == NULL) { ast_log(LOG_WARNING, "Failed to allocate struct ast_channel * " "for CIC=%d.\n", pvt->cic); /* Q.764 2.2 c) Initiate release procedure */ initiate_release_circuit(pvt, AST_CAUSE_NORMAL_CLEARING); return; } #ifdef USE_ASTERISK_1_2 ast_copy_string(chan->exten, iam->dni.num, sizeof(chan->exten)); ast_copy_string(chan->context, pvt->context, sizeof(chan->context)); ast_copy_string(chan->language, pvt->language, sizeof(chan->language)); #else ast_string_field_set(chan, language, pvt->language); #endif if(iam->ani.present) { chan->cid.cid_num = strdup(iam->ani.num); /* ToDo: Handle screening. */ if(iam->ani.restricted) { chan->cid.cid_pres = AST_PRES_PROHIB_NETWORK_NUMBER; } else { chan->cid.cid_pres = AST_PRES_ALLOWED_NETWORK_NUMBER; } } if(iam->rni.present) { /* ToDo: implement redirection reason in Asterisk, and handle it here. */ chan->cid.cid_rdnis = strdup(iam->rni.num); } if(iam->redir_inf.is_redirect) { char *string_reason; /* The names here are taken to match with those used in chan_zap.c redirectingreason2str(). */ switch(iam->redir_inf.reason) { case 1: string_reason = "BUSY"; break; case 2: /* Cause 4 "deflection during alerting"; not sure, but it seems to be more or less equivalent to "no reply".*/ case 4: string_reason = "NO_REPLY"; break; case 3: /* Cause 5 "deflection immediate response"; not sure, but it seems to be more or less equivalent to "unconditional".*/ case 5: string_reason = "UNCONDITIONAL"; break; case 6: string_reason = "UNREACHABLE"; break; default: string_reason = "UNKNOWN"; break; } /* Use underscore variable to make it inherit like other callerid info. */ pbx_builtin_setvar_helper(chan, "__PRIREDIRECTREASON", string_reason); } if (!pvt->link->linkset->use_connect) { isup_send_acm(pvt); pvt->state = ST_SENT_ACM; } res = ast_pbx_start(chan); if(res != 0) { ast_log(LOG_WARNING, "Unable to start PBX for incoming call on CIC=%d.\n", pvt->cic); ast_hangup(chan); } } static void check_iam_sam(struct ss7_chan* pvt) { int complete = (pvt->link->linkset->enable_st && pvt->iam.dni.complete) || ast_exists_extension(pvt->owner, pvt->context, pvt->iam.dni.num, 1, pvt->iam.rni.num); if (complete) { pvt->iam.dni.complete = 1; ast_log(LOG_DEBUG, "Setting iam.dni.complete\n"); handle_complete_address(pvt); } else { if (ast_canmatch_extension(pvt->owner, pvt->context, pvt->iam.dni.num, 1, pvt->iam.rni.num) != 0) { ast_log(LOG_DEBUG, "Processing addr %s, incomplete, starting T35\n", pvt->iam.dni.num); t35_start(pvt); } else { ast_log(LOG_DEBUG, "Unable to match extension, context: %s, dni: %s, rni: %s\n", pvt->context, pvt->iam.dni.num, pvt->iam.rni.num); initiate_release_circuit(pvt, AST_CAUSE_UNALLOCATED); } } } static void check_obci(struct ss7_chan* pvt, int obci) { struct ast_channel* chan = pvt->owner; if ((obci & 0x1) == 1) { if (!pvt->has_inband_ind) { ast_log(LOG_DEBUG, "Got optional backward call indicator, queueing PROGRESS (Inband-information available) indication for Asterisk, CIC=%d.\n", pvt->cic); ast_queue_control(chan, AST_CONTROL_PROGRESS); pvt->has_inband_ind = 1; } } } static int isup_phonenum_check(char **number, int *nlen, int *is_international) { if(*number == NULL) { ast_log(LOG_DEBUG, "NULL phonenumber, encoding failed.\n"); return -1; } *nlen = strlen(*number); if(*nlen == 0) { ast_log(LOG_DEBUG, "Empty phonenumber, encoding failed.\n"); return -1; } /* Handle both '00' and '+' as international prefix. */ if(strncmp(*number, "00", 2) == 0) { *is_international = 1; *number += 2; *nlen -= 2; } else if(strncmp(*number, "+", 1) == 0) { *is_international = 1; *number += 1; *nlen -= 1; } else { *is_international = 0; } return 0; /* Success */ } static int isup_phonenum_digits(char *number, int add_st, int nlen, unsigned char *param) { int i, d; for(i = 0; i <= nlen; i++) { if(i == nlen) { if(add_st) { d = 0xf; /* Digit "ST", meaning "number complete" */ } else { break; } } else { if ((number[i] >= '0') && (number[i] <= '9')) d = number[i] - '0'; else if ((number[i] == 'b') || (number[i] == 'B')) d = 0x0b; else if ((number[i] == 'c') || (number[i] == 'C')) d = 0x0c; else if ((number[i] == 'e') || (number[i] == 'E')) d = 0x0e; else { ast_log(LOG_DEBUG, "Invalid digit '%c' in phonenumber.\n", number[i]); return -1; } } if((i % 2) == 0) { param[2 + i/2] = d; } else { param[2 + (i - 1)/2] |= d << 4; } } return 0; } /* Encode a phone number in ISUP "Called Party Number" format. (Q.763 (3.9)) Returns encoded length on success, -1 on error. */ int isup_called_party_num_encode(char *number, unsigned char *param, int plen) { int nlen; int is_odd; int is_international; int result_len; if(isup_phonenum_check(&number, &nlen, &is_international) == -1) { return -1; } /* We terminate the number with ST to signify that the number is complete (no overlapped dialing). Hence length is one more than nlen. */ is_odd = (nlen + 1) % 2; /* Need room for two header bytes + all of the (nlen + 1) digits. */ result_len = 2 + (nlen + 2)/2; if(result_len > plen) { ast_log(LOG_DEBUG, "Phonenumber too large to fit in parameter, " "len %d < %d.\n", plen, result_len); return -1; } param[0] = (is_odd << 7) | (is_international ? 4 : 3); param[1] = 0x10; /* Internal routing allowed, ISDN number plan */ if(isup_phonenum_digits(number, 1, nlen, param) == -1) { return -1; } return result_len; /* Success */ } /* Encode a phone number in ISUP "Called Party Number" format. (Q.763 (3.9)) Returns encoded length on success, -1 on error. */ int isup_called_party_num_encode_no_st(char *number, unsigned char *param, int plen) { int nlen; int is_odd; int is_international; int result_len; if(isup_phonenum_check(&number, &nlen, &is_international) == -1) { return -1; } /* We do not termminate the number with ST to signify that the number is incomplete (overlapped dialing). */ is_odd = (nlen) % 2; /* Need room for two header bytes + all of the (nlen) digits. */ result_len = 2 + (nlen + 1)/2; if(result_len > plen) { ast_log(LOG_DEBUG, "Phonenumber too large to fit in parameter, " "len %d < %d.\n", plen, result_len); return -1; } param[0] = (is_odd << 7) | (is_international ? 4 : 3); param[1] = 0x10; /* Internal routing allowed, ISDN number plan */ if(isup_phonenum_digits(number, 0, nlen, param) == -1) { return -1; } return result_len; /* Success */ } /* Encode a phone number in ISUP "Calling Party Number" format. (Q.763 (3.10)) Returns encoded length on success, -1 on error. */ int isup_calling_party_num_encode(char *number, int pres_restr, unsigned char *param, int plen) { int nlen; int is_odd; int is_international; int result_len; if(isup_phonenum_check(&number, &nlen, &is_international) == -1) { return -1; } is_odd = nlen % 2; /* Need room for two header bytes + all of the nlen digits. */ result_len = 2 + (nlen + 1)/2; if(result_len > plen) { ast_log(LOG_DEBUG, "Phonenumber too large to fit in parameter, " "len %d < %d.\n", plen, result_len); return -1; } param[0] = (is_odd << 7) | (is_international ? 4 : 3); param[1] = 0x13; /* Number complete; ISDN number plan; network provided */ /* 0x11: Number complete; ISDN number plan; user provided, verified and passed */ if(pres_restr) { param[1] |= (0x1 << 2); } if(isup_phonenum_digits(number, 0, nlen, param) == -1) { return -1; } return result_len; /* Success */ } static int isup_send_sam(struct ss7_chan *pvt, char* addr, int complete) { unsigned char msg[MTP_MAX_PCK_SIZE]; int current, varptr; unsigned char param[2 + PHONENUM_MAX]; int res; isup_msg_init(msg, sizeof(msg), this_host->opc, peerpc(pvt), pvt->cic, ISUP_SAM, ¤t); if (complete) res = isup_called_party_num_encode(addr, param, sizeof(param)); else res = isup_called_party_num_encode_no_st(addr, param, sizeof(param)); isup_msg_start_variable_part(msg, sizeof(msg), &varptr, ¤t, 1, 0); /* Param index 1 not used with SAM, change it */ param[1] = param[0]; res--; isup_msg_add_variable(msg, sizeof(msg), &varptr, ¤t, ¶m[1], res); isup_msg_start_optional_part(msg, sizeof(msg), &varptr, ¤t); isup_msg_end_optional_part(msg, sizeof(msg), ¤t); mtp_enqueue_isup(pvt, msg, current); return 0; } static int isup_send_iam(struct ast_channel *chan, char *addr, char *rdni, char *dni, int dnilimit) { struct ss7_chan *pvt = chan->tech_pvt; unsigned char msg[MTP_MAX_PCK_SIZE]; unsigned char param[2 + PHONENUM_MAX]; int current, varptr; char dnicpy[100]; int pres_restr; int res; const char *isdn_h324m; int h324m_usi=0, h324m_llc=0; isdn_h324m = pbx_builtin_getvar_helper(chan, "ISDN_H324M"); if (isdn_h324m) { ast_verbose(VERBOSE_PREFIX_3 "chan_ss7: isup_send_iam: ISDN_H324M=%s\n", isdn_h324m); if (strstr(isdn_h324m,"USI")) { h324m_usi = 1; } if (strstr(isdn_h324m,"LLC")) { h324m_llc = 1; } ast_verbose(VERBOSE_PREFIX_3 "chan_ss7: isup_send_iam: h324m_usi=%d, h324m_llc=%d\n", h324m_usi, h324m_llc); } else { ast_verbose(VERBOSE_PREFIX_3 "chan_ss7: isup_send_iam: ISDN_H324M is not set.\n"); } isup_msg_init(msg, sizeof(msg), this_host->opc, peerpc(pvt), pvt->cic, ISUP_IAM, ¤t); /* Nature of connection indicators Q.763 (3.35). */ param[0] = 0x00; /* No sattelite, no continuity check, no echo control */ isup_msg_add_fixed(msg, sizeof(msg), ¤t, param, 1); /* Forward call indicator Q.763 (3.23). */ if (h324m_usi || h324m_llc) { param[0] = 0xA0; /* No end-to-end method , no interworking, no end-to-end info, ISDN all the way, ISDN required */ } else { param[0] = 0x60; /* No end-to-end method , no interworking, no end-to-end info, ISDN all the way, ISDN not required */ } param[1] = 0x01; /* Originating access ISDN, no SCCP indication */ isup_msg_add_fixed(msg, sizeof(msg), ¤t, param, 2); /* Calling party's category Q.763 (3.11). */ param[0] = 0x0a; /* Ordinary calling subscriber */ isup_msg_add_fixed(msg, sizeof(msg), ¤t, param, 1); /* Transmission medium requirement Q.763 (3.54). */ if (h324m_usi || h324m_llc) { param[0] = 0x02; /* 64 kbit/s unrestricted */ pvt->is_digital = 1; } else { param[0] = 0x00; /* Speech */ } isup_msg_add_fixed(msg, sizeof(msg), ¤t, param, 1); /* Called party number Q.763 (3.9). */ isup_msg_start_variable_part(msg, sizeof(msg), &varptr, ¤t, 1, 1); if (dnilimit > 0 && strlen(dni) > dnilimit) { /* Make part of dni */ strncpy(dnicpy, dni, dnilimit); dnicpy[dnilimit] = '\0'; res = isup_called_party_num_encode_no_st(dnicpy, param, sizeof(param)); } else { res = isup_called_party_num_encode(dni, param, sizeof(param)); } if(res < 0) { ast_log(LOG_NOTICE, "Invalid format for phonenumber '%s'.\n", dni); request_hangup(chan, AST_CAUSE_INVALID_NUMBER_FORMAT); ast_mutex_unlock(&pvt->lock); return -1; } isup_msg_add_variable(msg, sizeof(msg), &varptr, ¤t, param, res); isup_msg_start_optional_part(msg, sizeof(msg), &varptr, ¤t); /* Calling partys number Q.763 (3.10). */ if((chan->cid.cid_pres & AST_PRES_RESTRICTION) == AST_PRES_RESTRICTED) { pres_restr = 1; } else { pres_restr = 0; } res = isup_calling_party_num_encode(chan->cid.cid_num, pres_restr, param, sizeof(param)); if(res < 0) { ast_log(LOG_DEBUG, "Invalid format for calling number, dropped.\n"); } else { isup_msg_add_optional(msg, sizeof(msg), ¤t, IP_CALLING_PARTY_NUMBER, param, res); } /* Some switches do not understand H.223. Those switches use Access Transport * (Low Layer Compatibility) to signal the video call end-to-end. */ if (h324m_usi) { /* User Service Information: Q.763 3.57 */ param[0] = 0x88; /* unrestricted digital information */ param[1] = 0x90; /* circuit mode, 64 kbit */ param[2] = 0xA6; /* UL1, H.223 and H.245 */ isup_msg_add_optional(msg, sizeof(msg), ¤t, IP_USER_SERVICE_INFORMATION, param, 3); } if (h324m_llc) { /* Access Transport Q.763 3.3 */ param[0] = 0x7C; /* unrestricted digital information */ param[1] = 0x03; /* circuit mode, 64 kbit */ param[2] = 0x88; /* UL1, H.223 and H.245 */ param[3] = 0x90; /* UL1, H.223 and H.245 */ param[4] = 0xA6; /* UL1, H.223 and H.245 */ isup_msg_add_optional(msg, sizeof(msg), ¤t, IP_ACCESS_TRANSPORT, param, 5); } if (*rdni) { /* ToDo: Pass on RDNIS (and redirection cause when we implement that) as ISUP parameters? */ /* Q.763 3.45 */ res = isup_calling_party_num_encode(rdni, pres_restr, param, sizeof(param)); isup_msg_add_optional(msg, sizeof(msg), ¤t, IP_REDIRECTING_NUMBER, param, res); param[0] = 0x04; /* redirecting indicator: call diverted, all redirection information presentation restricted, original redirection reason: unknown */ param[1] = 0x31; /* reredicting counter: 1 redirection reason: unconditional */ isup_msg_add_optional(msg, sizeof(msg), ¤t, IP_REDIRECTION_INFORMATION, param, 2); } /* End and send the message. */ isup_msg_end_optional_part(msg, sizeof(msg), ¤t); mtp_enqueue_isup(pvt, msg, current); ast_verbose(VERBOSE_PREFIX_3 "Sent IAM CIC=%-3d ANI=%s DNI=%s RNI=%s\n", pvt->cic, pres_restr ? "*****" : chan->cid.cid_num, dni, rdni); return 0; } /* Assume that we are called with chan->lock held (as ast_call() does). */ static int ss7_call(struct ast_channel *chan, char *addr, int timeout) { struct ss7_chan *pvt = chan->tech_pvt; char *sep = strchr(addr, '/'); char rdni[100]; char dnicpy[100]; char dni[100]; int chunk_limit, chunk_sofar=0; int res; ast_mutex_lock(&pvt->lock); ast_log(LOG_DEBUG, "SS7 call, addr=%s, cid=%s(0x%x/%s) CIC=%d. linkset '%s'\n", (addr ? addr : ""), (chan->cid.cid_num ? chan->cid.cid_num : ""), chan->cid.cid_pres, ast_describe_caller_presentation(chan->cid.cid_pres), pvt->cic, pvt->link->linkset->name); pvt->addr = addr; pvt->attempts = 1; if (sep) addr = sep+1; strcpy(dni, addr); strcpy(rdni, chan->cid.cid_rdnis ? chan->cid.cid_rdnis : ""); sep = strchr(dni, ':'); if (sep) { *sep = '\0'; strcpy(rdni, sep+1); } chunk_limit = pvt->link->linkset->dni_chunk_limit; pvt->link->linkset->outgoing_calls++; res = isup_send_iam(chan, addr, rdni, dni, chunk_limit); if (res < 0) { ast_log(LOG_WARNING, "SS7 call failed, addr=%s CIC=%d. linkset '%s'\n", (addr ? addr : ""), pvt->cic, pvt->link->linkset->name); free_cic(pvt); ast_mutex_unlock(&pvt->lock); return res; } if (chunk_limit > 0 && strlen(dni) > chunk_limit) { while(chunk_sofar < strlen(dni)) { strncpy(dnicpy, &dni[chunk_sofar], chunk_limit); chunk_sofar += chunk_limit; dnicpy[chunk_sofar] = '\0'; isup_send_sam(pvt, dnicpy, 1); } } pvt->state = ST_SENT_IAM; t7_start(chan); ast_mutex_unlock(&pvt->lock); return 0; } static int ss7_hangup(struct ast_channel *chan) { struct ss7_chan *pvt = chan->tech_pvt; if (!pvt || pvt->cic == -1) { decr_usecount(); ast_update_use_count(); return 0; } ast_verbose( VERBOSE_PREFIX_3 "SS7 hangup '%s' CIC=%d Cause=%d (state=%d)\n", chan->name, pvt->cic, chan->hangupcause, pvt->state); /* Digium insists that ss7_hangup() must be called with chan->lock() held, even though it is the wrong thing to do (bug 5051). So we have to unlock it on entry and re-lock it on exit to get sane locking semantics. */ ast_mutex_unlock(&chan->lock); /* First remove us from the global circuit list. */ lock_global(); ast_mutex_lock(&pvt->lock); decr_usecount(); ast_log(LOG_DEBUG, "SS7 hangup '%s' CIC=%d (state=%d), chan=0x%08lx\n", chan->name, pvt->cic, pvt->state, (unsigned long) chan); chan->tech_pvt = NULL; pvt->owner = NULL; /* Clear all the timers that may hold on to references to chan. This must be done while global lock is held to prevent races. */ t1_clear(pvt); t2_clear(pvt); t5_clear(pvt); t6_clear(pvt); t7_clear(pvt); t9_clear(pvt); t16_clear(pvt); t17_clear(pvt); t18_clear(pvt); t19_clear(pvt); t20_clear(pvt); t21_clear(pvt); t35_clear(pvt); if(pvt->state == ST_GOT_REL) { isup_send_rlc(pvt); ast_setstate(chan, AST_STATE_DOWN); free_cic(pvt); } else if(pvt->state == ST_SENT_REL) { t1_start(pvt); t5_start(pvt); } else if(pvt->state != ST_IDLE) { ast_log(LOG_DEBUG, "SS7 hangup '%s' CIC=%d cause=%d\n", chan->name, pvt->cic, chan->hangupcause); initiate_release_circuit(pvt, chan->hangupcause); } if (pvt->echocancel) { io_disable_echo_cancellation(pvt->zaptel_fd, pvt->cic); pvt->echocancel = 0; } clear_audiomode(pvt->zaptel_fd); ast_mutex_unlock(&pvt->lock); unlock_global(); ast_update_use_count(); ast_mutex_lock(&chan->lock); /* See above */ return 0; } static int ss7_answer(struct ast_channel *chan) { struct ss7_chan *pvt = chan->tech_pvt; unsigned char msg[MTP_MAX_PCK_SIZE]; int current, varptr; unsigned char param[2]; ast_mutex_lock(&pvt->lock); ast_log(LOG_DEBUG, "SS7 answer CIC=%d, pvt->state=%d.\n", pvt->cic, pvt->state); /* Send ANM instead of CON if previously sent ACM. */ if (pvt->state == ST_SENT_ACM) { isup_msg_init(msg, sizeof(msg), this_host->opc, peerpc(pvt), pvt->cic, ISUP_ANM, ¤t); param[0] = 0x14; /* Subscriber free, ordinary subscriber, no end-to-end */ param[1] = 0x14; /* No interworking, no end-to-end, ISDN all the way, no hold, terminating access ISDN, no echo control */ isup_msg_start_variable_part(msg, sizeof(msg), &varptr, ¤t, 0, 1); isup_msg_start_optional_part(msg, sizeof(msg), &varptr, ¤t); isup_msg_add_optional(msg, sizeof(msg), ¤t, IP_BACKWARD_CALL_INDICATORS, param, 2); isup_msg_end_optional_part(msg, sizeof(msg), ¤t); mtp_enqueue_isup(pvt, msg, current); } else if (pvt->state == ST_GOT_IAM) { isup_msg_init(msg, sizeof(msg), this_host->opc, peerpc(pvt), pvt->cic, ISUP_CON, ¤t); param[0] = 0x14; /* Subscriber free, ordinary subscriber, no end-to-end */ param[1] = 0x14; /* No interworking, no end-to-end, ISDN all the way, no hold, terminating access ISDN, no echo control */ isup_msg_add_fixed(msg, sizeof(msg), ¤t, param, 2); isup_msg_start_variable_part(msg, sizeof(msg), &varptr, ¤t, 0, 1); mtp_enqueue_isup(pvt, msg, current); } /* else: already connected */ pvt->state = ST_CONNECTED; ast_setstate(chan, AST_STATE_UP); set_audiomode(pvt->zaptel_fd); /* Start echo-cancelling if required */ if (pvt->echocan_start) { if (!io_enable_echo_cancellation(pvt->zaptel_fd, pvt->cic, pvt->link->echocan_taps, pvt->link->echocan_train)) pvt->echocancel = 1; pvt->echocan_start = 0; } ast_mutex_unlock(&pvt->lock); return 0; } static void ss7_handle_event(struct ss7_chan *pvt, int event) { int res, doing_dtmf; switch(event) { case ZT_EVENT_DIALCOMPLETE: /* Chech if still doing DTMF sending. If not, set flag to start outputting audio again. */ res = ioctl(pvt->zaptel_fd, ZT_DIALING, &doing_dtmf); if(res < 0) { ast_log(LOG_WARNING, "Error querying zaptel for ZT_DIALING on cic=%d: %s.\n", pvt->cic, strerror(errno)); /* Better start the audio, don't want to permanently disable it. */ pvt->sending_dtmf = 0; } else if(!doing_dtmf) { /* Now we can start sending normal audio again. */ pvt->sending_dtmf = 0; } break; default: ast_log(LOG_NOTICE, "Unhandled zaptel event 0x%x on CIC=%d.\n", event, pvt->cic); } } static void get_zaptel_event(struct ss7_chan* pvt) { int res, event; /* While these should really be handled in ss7_exception(), they can also occur here, probably because of a race between the zaptel driver and the channel poll() loop. */ res = io_get_zaptel_event(pvt->zaptel_fd, &event); if(res < 0) { ast_mutex_unlock(&pvt->lock); ast_log(LOG_WARNING, "Error reading zaptel event for CIC=%d: %s.\n", pvt->cic, strerror(errno)); return; } else { ast_log(LOG_DEBUG, "Got event %d for CIC=%d, handling.\n", event, pvt->cic); ss7_handle_event(pvt, event); } } /* ast_read() calls us with chan->lock held, so we assume that this is always the case. */ static struct ast_frame *ss7_read(struct ast_channel * chan) { struct ss7_chan *pvt = chan->tech_pvt; static struct ast_frame null_frame = { AST_FRAME_NULL }; struct ast_frame *processed_frame; int res, sofar; if (pvt->dohangup) { chan->hangupcause = pvt->dohangup; return NULL; } ast_mutex_lock(&pvt->lock); memset(&pvt->frame, 0, sizeof(pvt->frame)); pvt->frame.frametype = AST_FRAME_VOICE; pvt->frame.subclass = AST_FORMAT_ALAW; pvt->frame.datalen = AUDIO_READSIZE; pvt->frame.samples = AUDIO_READSIZE; pvt->frame.mallocd = 0; pvt->frame.offset = AST_FRIENDLY_OFFSET; pvt->frame.src = NULL; pvt->frame.data = &(pvt->buffer[AST_FRIENDLY_OFFSET]); memset(pvt->buffer, 0, sizeof(pvt->buffer)); sofar = 0; while(sofar < AUDIO_READSIZE) { res = read(pvt->zaptel_fd, &(pvt->buffer[AST_FRIENDLY_OFFSET + sofar]), AUDIO_READSIZE - sofar); if(res < 0) { if(errno == EINTR) { /* Interrupted syscall, try again. */ } else if(errno == EAGAIN || errno == EWOULDBLOCK) { static struct timeval lastreport = {0, 0}; static int supress = 0; struct timeval now; gettimeofday(&now, NULL); if (now.tv_sec - lastreport.tv_sec > 10) { ast_log(LOG_NOTICE, "Short read on CIC=%d (read only %d of %d) errno=%d (%s) (supressed %d).\n", pvt->cic, sofar, AUDIO_READSIZE, errno, strerror(errno), supress); lastreport = now; supress = 0; } else supress++; break; } else if(errno == ELAST) { struct pollfd fds[1]; get_zaptel_event(pvt); fds[0].fd = pvt->zaptel_fd; fds[0].events = POLLIN; /* we are trying to read data, wait up to 20 msec for next frame */ res = poll(fds, 1, 20); } else { ast_mutex_unlock(&pvt->lock); ast_log(LOG_WARNING, "Read error on CIC=%d: %s.\n", pvt->cic, strerror(errno)); return NULL; } } else if(res == 0) { ast_mutex_unlock(&pvt->lock); ast_log(LOG_WARNING, "EOF on zaptel device CIC=%d?!?\n", pvt->cic); return NULL; } else { sofar += res; } } if(sofar == 0) { ast_mutex_unlock(&pvt->lock); return &null_frame; } #ifndef xxxxx { int msecs = sofar / 8; struct timeval now; static struct timeval lastreport = {0, 0}; static int supress = 0; int tdiff;//xxx gettimeofday(&now, NULL); if (pvt->lastread.tv_sec) { tdiff = (now.tv_sec - pvt->lastread.tv_sec) * 1000000 + (now.tv_usec - pvt->lastread.tv_usec); if (tdiff/1000 > msecs + 100) { if (now.tv_sec - lastreport.tv_sec > 10) { ast_log(LOG_NOTICE, "Audio buffer underrun, data %d msecs, real time: %d msecs! (supressed %d)\n", msecs, tdiff / 1000, supress); lastreport = now; supress = 0; } else supress++; } } pvt->lastread = now; } #endif pvt->frame.datalen = sofar; pvt->frame.samples = sofar; processed_frame = ast_dsp_process(chan, pvt->dsp, &pvt->frame); ast_mutex_unlock(&pvt->lock); return processed_frame; } static int ss7_write(struct ast_channel * chan, struct ast_frame *frame) { struct ss7_chan *pvt = chan->tech_pvt; int res, sofar; ast_mutex_lock(&pvt->lock); if(frame->frametype != AST_FRAME_VOICE || frame->subclass != AST_FORMAT_ALAW) { ast_mutex_unlock(&pvt->lock); ast_log(LOG_WARNING, "Unexpected frame.\n"); return -1; } if(pvt->sending_dtmf) { /* If we send audio while playing DTMF, the tone seems to be lost. */ ast_mutex_unlock(&pvt->lock); return 0; } sofar = 0; while(sofar < frame->datalen) { res = write(pvt->zaptel_fd, (unsigned char *)frame->data + sofar, frame->datalen - sofar); if(res > 0) { sofar += res; } else if(res == 0) { ast_mutex_unlock(&pvt->lock); ast_log(LOG_WARNING, "EOF on zaptel device CIC=%d?!?\n", pvt->cic); return -1; } else { if(errno == EINTR) { /* Interrupted syscall, try again. */ } else if(errno == EAGAIN || errno == EWOULDBLOCK) { if (!adjust_buffers(pvt->zaptel_fd, pvt->cic)) { static struct timeval lastreport = {0, 0}; static int supress = 0; struct timeval now; ast_mutex_unlock(&pvt->lock); gettimeofday(&now, NULL); if (now.tv_sec - lastreport.tv_sec > 10) { ast_log(LOG_NOTICE, "Write buffer full on CIC=%d (wrote only %d of %d), audio lost (suppress %d).\n", pvt->cic, sofar, frame->datalen, supress); lastreport = now; supress = 0; } else supress++; return 0; } } else if(errno == ELAST) { get_zaptel_event(pvt); } else { ast_mutex_unlock(&pvt->lock); ast_log(LOG_WARNING, "Write error on CIC=%d: %s.\n", pvt->cic, strerror(errno)); return -1; } } } ast_mutex_unlock(&pvt->lock); return 0; } static struct ast_frame *ss7_exception(struct ast_channel *chan) { struct ss7_chan *pvt = chan->tech_pvt; int res, event; ast_mutex_lock(&pvt->lock); memset(&pvt->frame, 0, sizeof(pvt->frame)); pvt->frame.frametype = AST_FRAME_NULL; pvt->frame.subclass = 0; pvt->frame.datalen = 0; pvt->frame.samples = 0; pvt->frame.mallocd = 0; pvt->frame.offset = AST_FRIENDLY_OFFSET; pvt->frame.src = NULL; pvt->frame.data = NULL; res = io_get_zaptel_event(pvt->zaptel_fd, &event); if(res < 0) { ast_log(LOG_WARNING, "Error reading zaptel event for CIC=%d: %s.\n", pvt->cic, strerror(errno)); } else { ss7_handle_event(pvt, event); } ast_mutex_unlock(&pvt->lock); return &pvt->frame; } static int ss7_fixup(struct ast_channel *oldchan, struct ast_channel *newchan) { { struct ss7_chan *pvt = newchan->tech_pvt; ast_mutex_lock(&pvt->lock); if (pvt->owner != oldchan) { ast_log(LOG_WARNING, "Old channel wasn't %p but was %p\n", oldchan, pvt->owner); ast_mutex_unlock(&pvt->lock); return -1; } pvt->owner = newchan; ast_mutex_unlock(&pvt->lock); return 0; } ast_log(LOG_WARNING, "SS7 fixup not implemented.\n"); return -1; } static void handle_GRS_send_hwblock(struct ss7_chan* ipvt, struct isup_msg *grs_msg) { struct linkset* linkset = ipvt->link->linkset; unsigned char msg[MTP_MAX_PCK_SIZE]; int current, varpart; unsigned char param[34]; int i, cic, mask, need_hw_block; int range; unsigned long cgb_mask = 0; ast_log(LOG_NOTICE, "Got GROUP RESET message, opc=0x%x, dpc=0x%x, sls=0x%x, cic=%d, range=%d.\n", grs_msg->opc, grs_msg->dpc, grs_msg->sls, grs_msg->cic, grs_msg->grs.range); if(grs_msg->cic < 0 || grs_msg->cic + grs_msg->grs.range + 1 >= MAX_CIC) { ast_log(LOG_NOTICE, "Got unreasonable GRS with range %d-%d, discarding.\n", grs_msg->cic, grs_msg->cic + grs_msg->grs.range); return; } lock_global(); /* First send hardware blocked, if required. */ isup_msg_init(msg, sizeof(msg), this_host->opc, grs_msg->opc, grs_msg->cic, ISUP_CGB, ¤t); param[0] = 0x01; /* Hardware failure oriented */ isup_msg_add_fixed(msg, sizeof(msg), ¤t, param, 1); isup_msg_start_variable_part(msg, sizeof(msg), &varpart, ¤t, 1, 0); i = 0; range = grs_msg->grs.range; if(range > 31) { unlock_global(); ast_log(LOG_NOTICE, "Got unreasonable range %d in GRS message, " "discarding.\n", range); return; } param[i++] = range; memset(¶m[i], 0, (range + 8) / 8); mask = 1; need_hw_block = 0; /* real range is range code + 1 (Q.763 (3.43)) */ for(cic = grs_msg->cic; cic < grs_msg->cic + range + 1; cic++) { if(!linkset->cic_list[cic] || !linkset->cic_list[cic]->equipped) { /* Q.764 (2.9.3.3 iii): Discard GRS concerning unequipped CIC. */ unlock_global(); ast_log(LOG_NOTICE, "Got GRS concerning unequipped CIC %d, " "discarding.\n", cic); return; } if(linkset->cic_list[cic]->blocked & BL_LH) { /* Mark that circuit is locally maintenance blocked. */ param[i] |= mask; need_hw_block = 1; cgb_mask = cgb_mask | (1 << (cic - grs_msg->cic)); } mask <<= 1; if(mask == 0x100) { i++; mask = 1; } } /* Pad with zero bits up to an even number of bytes. */ if(mask != 1) { i++; } /* Don't send an empty hardware blocking message. */ if(need_hw_block) { struct ss7_chan *pvt = linkset->cic_list[grs_msg->cic]; pvt->cgb_mask = cgb_mask; mtp_enqueue_isup(pvt, msg, current); ast_mutex_lock(&pvt->lock); t18_start(pvt); ast_mutex_unlock(&pvt->lock); ast_log(LOG_DEBUG, "Sending CIRCUIT GROUP BLOCKING before GRA, cic=%d\n", pvt->cic); } /* Now send a GRA (group reset acknowledgement). */ isup_msg_init(msg, sizeof(msg), this_host->opc, grs_msg->opc, grs_msg->cic, ISUP_GRA, ¤t); isup_msg_start_variable_part(msg, sizeof(msg), &varpart, ¤t, 1, 0); i = 0; range = grs_msg->grs.range; param[i++] = range; memset(¶m[i], 0, (range + 8) / 8); mask = 1; /* real range is range code + 1 (Q.763 (3.43)) */ for(cic = grs_msg->cic; cic < grs_msg->cic + range + 1; cic++) { struct ss7_chan *pvt = linkset->cic_list[cic]; if(!pvt || !pvt->equipped) { /* Q.764 (2.9.3.3 iii): Discard GRS concerning unequipped CIC. */ unlock_global(); ast_log(LOG_NOTICE, "Got GRS concerning unequipped CIC %d, " "discarding.\n", cic); return; } pvt->blocked &= ~(BL_RM|BL_RH|BL_UNEQUIPPED); if(pvt->blocked & BL_LM) { /* Mark that circuit is locally maintenance blocked. */ param[i] |= mask; } mask <<= 1; if(mask == 0x100) { i++; mask = 1; } } /* Pad with zero bits up to an even number of bytes. */ if(mask != 1) { i++; } /* Separate loop here, since according to Q.764 (2.9.3.3 iii), we must discard the message if it references unused CICs, hence we must check that _before_ releasing circuits. */ for(cic = grs_msg->cic; cic < grs_msg->cic + range + 1; cic++) { struct ss7_chan *pvt = linkset->cic_list[cic]; /* Checked non-NULL in previous loop */ struct ast_channel *chan = pvt->owner; if(chan) { ast_mutex_lock(&chan->lock); } ast_mutex_lock(&pvt->lock); switch(pvt->state) { case ST_SENT_REL: t1_clear(pvt); t2_clear(pvt); t5_clear(pvt); t6_clear(pvt); t16_clear(pvt); t17_clear(pvt); t18_clear(pvt); /* Intentionally fall-through. */ case ST_SENT_ACM: t35_clear(pvt); /* Intentionally fall-through. */ case ST_GOT_REL: free_cic(pvt); /* Intentionally fall-through. */ case ST_IDLE: break; default: if (pvt->state == ST_SENT_IAM) { reattempt_call(pvt); } else { request_hangup(chan, AST_CAUSE_NORMAL_TEMPORARY_FAILURE); free_cic(pvt); } } ast_mutex_unlock(&pvt->lock); if(chan) { ast_mutex_unlock(&chan->lock); } } isup_msg_add_variable(msg, sizeof(msg), &varpart, ¤t, param, i); mtp_enqueue_isup(linkset->cic_list[grs_msg->cic], msg, current); unlock_global(); } /* Send an "unequipped CIC" message. See Q.764 (2.12) and Q.763 table 39. */ static void isup_send_unequipped(struct link* slink, int cic, int dpc) { unsigned char msg[MTP_MAX_PCK_SIZE]; int current, varptr; isup_msg_init(msg, sizeof(msg), this_host->opc, dpc, cic, ISUP_UEC, ¤t); isup_msg_start_variable_part(msg, sizeof(msg), &varptr, ¤t, 0, 0); mtp_enqueue_isup_packet(slink, cic, msg, current, MTP_REQ_ISUP); } /* Find the appropriate pvt structure of a CIC, and call the passed callback on it to handle an ISUP message. The Callback will be called with global lock, chan, and pvt locked (in this order). The pvt pointer is guaranteed to be non-NULL, but the chan pointer may be NULL, and the handler must work correctly in this case. */ static void process_circuit_message(struct link* slink, struct isup_msg *inmsg, void (*handler)(struct ss7_chan *, struct isup_msg *)) { int cic = inmsg->cic; struct ast_channel *chan; struct ss7_chan *pvt; /* Look for the CIC in the global channel list for an active channel. We lock the global lock to avoid races against ss7_hangup(). We next lock chan->lock, if present, to avoid deadlock in ast_queue_frame(). Finally we lock pvt->lock, to avoid races against dialplan threads (probably only needed when chan is NULL, but done always just for good measure). Unfortunately this means the entire ISUP layer may block on a single channel that is locked by another thread. To avoid this we might run a separate monitor thread for each circuit, however this is not likely to be a problem in practice. */ if(cic < 0 || cic >= MAX_CIC) { ast_log(LOG_WARNING, "Received out-of-range CIC %d not within 0-%d, typ=%s.\n", cic, MAX_CIC - 1, isupmsg(inmsg->typ)); return; } lock_global(); pvt = find_pvt(slink, cic); ast_log(LOG_DEBUG, "Process circuit message %s, CIC=%d, state=%d, reset_done=%d\n", isupmsg(inmsg->typ), cic, pvt->state, pvt->reset_done); if(!pvt->equipped) { ast_log(LOG_ERROR, "Received CIC=%d for not equipped circuit (typ=%s), link '%s'.\n", cic, isupmsg(inmsg->typ), slink->name); unlock_global(); /* ToDo: According to Q.764 (2.12), we should send "Unequipped CIC" only in response to a specific list of message types. But don't know what else to do with an unequipped CIC, so for now we send the message in response to all messages with unequipped CIC. */ if (inmsg->typ != ISUP_UEC) isup_send_unequipped(slink, cic, inmsg->opc); return; } if(!pvt->reset_done) { if ((inmsg->typ == ISUP_BLK) && (pvt->state == ST_SENT_REL)) { pvt->state = ST_IDLE; pvt->reset_done = 1; t16_clear(pvt); } else if (inmsg->typ != ISUP_RSC) { if ((pvt->state != ST_SENT_REL) || (inmsg->typ != ISUP_RLC)) { ast_log(LOG_WARNING, "Reset still in progress for CIC=%d, typ=%s, state=%d " "message discarded.\n", cic, isupmsg(inmsg->typ), pvt->state); unlock_global(); return; } } } chan = pvt->owner; if(chan != NULL) { ast_channel_lock(chan); } ast_mutex_lock(&pvt->lock); /* Now that proper locking is done, call on to handle the actual message. */ (*handler)(pvt, inmsg); ast_mutex_unlock(&pvt->lock); if(chan != NULL) { ast_channel_unlock(chan); } unlock_global(); } /* Find the appropriate pvt structure of a CIC, and call the passed callback on it to handle an ISUP message. The Callback will be called with global lock, chan, and pvt locked (in this order). The pvt pointer is guaranteed to be non-NULL, but the chan pointer may be NULL, and the handler must work correctly in this case. */ static void process_circuit_group_message(struct link* slink, struct isup_msg *inmsg, void (*handler)(struct ss7_chan *, struct isup_msg *)) { int cic = inmsg->cic; struct ast_channel *chan; struct ss7_chan *pvt; /* Look for the CIC in the global channel list for an active channel. We lock the global lock to avoid races against ss7_hangup(). We next lock chan->lock, if present, to avoid deadlock in ast_queue_frame(). Finally we lock pvt->lock, to avoid races against dialplan threads (probably only needed when chan is NULL, but done always just for good measure). Unfortunately this means the entire ISUP layer may block on a single channel that is locked by another thread. To avoid this we might run a separate monitor thread for each circuit, however this is not likely to be a problem in practice. */ if(cic < 0 || cic >= MAX_CIC) { ast_log(LOG_WARNING, "Received out-of-range CIC %d not within 0-%d, typ=%s.\n", cic, MAX_CIC - 1, isupmsg(inmsg->typ)); return; } lock_global(); pvt = find_pvt(slink, cic); if(!(pvt->equipped || (inmsg->typ == ISUP_CGA) || (inmsg->typ == ISUP_CUA) || (inmsg->typ == ISUP_GRA))) { ast_log(LOG_ERROR, "Received CIC=%d for not equipped circuit (typ=%s), link '%s'.\n", cic, isupmsg(inmsg->typ), slink->name); unlock_global(); /* ToDo: According to Q.764 (2.12), we should send "Unequipped CIC" only in response to a specific list of message types. But don't know what else to do with an unequipped CIC, so for now we send the message in response to all messages with unequipped CIC. */ if (inmsg->typ != ISUP_UEC) isup_send_unequipped(slink, cic, inmsg->opc); return; } if(!pvt->reset_done && pvt->equipped) { if ((inmsg->typ != ISUP_GRA) && (inmsg->typ != ISUP_GRS)) { ast_log(LOG_WARNING, "Group reset still in progress for CIC=%d, typ=%s " "message discarded.\n", cic, isupmsg(inmsg->typ)); unlock_global(); return; } } chan = pvt->owner; if(chan != NULL) { ast_channel_lock(chan); } ast_mutex_lock(&pvt->lock); /* Now that proper locking is done, call on to handle the actual message. */ (*handler)(pvt, inmsg); ast_mutex_unlock(&pvt->lock); if(chan != NULL) { ast_channel_unlock(chan); } unlock_global(); } /* Reattempt call in chan on another circuit */ static struct ss7_chan* reattempt_call(struct ss7_chan *pvt) { struct ast_channel* chan = pvt->owner; struct ss7_chan* newpvt; t7_clear(pvt); pvt->owner = NULL; chan->tech_pvt = NULL; newpvt = cic_hunt(pvt->link->linkset); if (newpvt) { ast_log(LOG_DEBUG, "Reattempt call: Got cic %d\n", newpvt->cic); chan->tech_pvt = newpvt; newpvt->owner = chan; ss7_call(chan, pvt->addr, 0); } else { ast_log(LOG_WARNING, "Reattempt call: No idle circuit available.\n"); request_hangup(chan, AST_CAUSE_CONGESTION); } free_cic(pvt); return newpvt; } static int resolve_dual_seizure(struct ss7_chan *pvt, struct isup_msg *inmsg) { /* Q.764 2.9.1.4: The switch with the higher point code controls even numbered CICs */ int iscontrolling = (inmsg->dpc > inmsg->opc) ? ((inmsg->cic & 1) == 0) : ((inmsg->cic & 1) != 0); if (iscontrolling) return 1; /* Discard incoming IAM */ /* Try to move chan to another CIC */ reattempt_call(pvt); return 0; /* Process incoming IAM */ } static void process_iam(struct ss7_chan *pvt, struct isup_msg *inmsg) { ast_verbose(VERBOSE_PREFIX_3 "Recv IAM CIC=%-3d ANI=%s DNI=%s RNI=%s redirect=%s/%d complete=%d\n", pvt->cic, inmsg->iam.ani.restricted ? "*****" : inmsg->iam.ani.num, inmsg->iam.dni.num, inmsg->iam.rni.restricted ? "*****" : inmsg->iam.rni.num, inmsg->iam.redir_inf.is_redirect ? "yes" : "no", inmsg->iam.redir_inf.reason, inmsg->iam.dni.complete); if (pvt->state == ST_SENT_IAM) { if (resolve_dual_seizure(pvt, inmsg)) { ast_log(LOG_WARNING, "Dual seizure IAM, discarding on CIC=%d, state=%d.\n", pvt->cic, pvt->state); return; } } else if(pvt->state == ST_GOT_IAM) { struct ast_channel* chan = pvt->owner; ast_log(LOG_WARNING, "Got second IAM on CIC=%d, state=%d.\n", pvt->cic, pvt->state); if (chan) { request_hangup(chan, AST_CAUSE_NORMAL_TEMPORARY_FAILURE); chan->tech_pvt = NULL; pvt->owner = NULL; } free_cic(pvt); } else if(pvt->state != ST_IDLE) { ast_log(LOG_WARNING, "Invalid IAM, discarding on CIC=%d, state=%d.\n", pvt->cic, pvt->state); return; } ast_log(LOG_DEBUG, "IAM cic=%d, owner=0x%08lx\n", pvt->cic, (unsigned long) pvt->owner); if(pvt->owner) { ast_log(LOG_ERROR, "Non-NULL chan found for idle CIC=%d, this shouldn't " "have happened?!?.\n", pvt->cic); request_hangup(pvt->owner, AST_CAUSE_NORMAL_CLEARING); } if (inmsg->iam.trans_medium == 0x02) { /* 64kbit unrestricted data */ pvt->is_digital = 1; } switch (pvt->link->echocancel) { case EC_ALLWAYS: pvt->echocan_start = !pvt->is_digital; break; case EC_31SPEECH: pvt->echocan_start = inmsg->iam.echocontrol == 0 && inmsg->iam.trans_medium == 0x3; break; } remove_from_idlelist(pvt); pvt->state = ST_GOT_IAM; memcpy(&pvt->iam, &inmsg->iam, sizeof(pvt->iam)); check_iam_sam(pvt); pvt->link->linkset->incoming_calls++; } static void process_sam(struct ss7_chan *pvt, struct isup_msg *inmsg) { ast_log(LOG_DEBUG, "SAM (cic=%d): SNI=%s, complete=%d, t35=%d\n", inmsg->cic,inmsg->sam.sni.num, inmsg->sam.sni.complete, pvt->t35); if (pvt->state != ST_GOT_IAM) { ast_log(LOG_WARNING, "Received SAM on CIC=%d, but got no IAM, state=%d.\n", pvt->cic, pvt->state); return; } t35_clear(pvt); if (strlen(inmsg->sam.sni.num) == PHONENUM_MAX-1) { initiate_release_circuit(pvt, AST_CAUSE_INVALID_NUMBER_FORMAT); return; } strcat(pvt->iam.dni.num, inmsg->sam.sni.num); pvt->iam.dni.complete = pvt->iam.dni.complete || inmsg->sam.sni.complete; check_iam_sam(pvt); } static void process_acm(struct ss7_chan *pvt, struct isup_msg *inmsg) { struct ast_channel* chan = pvt->owner; static struct ast_frame ring_frame = { AST_FRAME_CONTROL, AST_CONTROL_RINGING }; /* Q.764 (2.1.4.6 a): When receiving ACM, stop T7 and start T9. */ t7_clear(pvt); if(pvt->state != ST_SENT_IAM) { ast_log(LOG_NOTICE, "Got ACM message, but sent no IAM, on CIC=%d?!?", pvt->cic); /* Q.764 (2.9.5.1 f) error handling for the spurious ACM. */ if(pvt->state == ST_IDLE) reset_circuit(pvt); return; } if(chan == NULL) { ast_log(LOG_NOTICE, "Missing chan pointer for CIC=%d, processing ACM?!?\n", pvt->cic); return; } t9_start(chan); pvt->charge_indicator = inmsg->acm.back_ind.charge_indicator; /* Q.764 (2.1.4.6 a): Alert if called_party_status is "subscriber free". */ if(inmsg->acm.back_ind.called_party_status == 1) { ast_queue_frame(chan, &ring_frame); } pvt->state = ST_GOT_ACM; ast_setstate(chan, AST_STATE_RINGING); check_obci(pvt, inmsg->acm.obc_ind); } static void process_anm(struct ss7_chan *pvt, struct isup_msg *inmsg) { struct ast_channel* chan = pvt->owner; static struct ast_frame answer_frame = { AST_FRAME_CONTROL, AST_CONTROL_ANSWER }; /* Q.764 (2.1.7.6): When receiving ANM, stop T9. */ t9_clear(pvt); if(pvt->state != ST_GOT_ACM) { ast_log(LOG_NOTICE, "Got ANM message, but no ACM, on CIC=%d?!?", pvt->cic); /* Q.764 (2.9.5.1 f) error handling for the spurious ANM. */ if(pvt->state == ST_IDLE) reset_circuit(pvt); return; } if(chan == NULL) { ast_log(LOG_NOTICE, "Missing chan pointer for CIC=%d, processing ANM?!?\n", pvt->cic); return; } set_audiomode(pvt->zaptel_fd); /* Start echo-cancelling */ if (pvt->link->echocancel != EC_DISABLED) { if (!io_enable_echo_cancellation(pvt->zaptel_fd, pvt->cic, pvt->link->echocan_taps, pvt->link->echocan_train)) pvt->echocancel = 1; } ast_queue_frame(chan, &answer_frame); pvt->state = ST_CONNECTED; ast_setstate(chan, AST_STATE_UP); check_obci(pvt, inmsg->anm.obc_ind); } static void process_con(struct ss7_chan *pvt, struct isup_msg *inmsg) { struct ast_channel* chan = pvt->owner; static struct ast_frame answer_frame = { AST_FRAME_CONTROL, AST_CONTROL_ANSWER }; t7_clear(pvt); if(pvt->state == ST_SENT_REL) { /* Sent release before receiving connect */ return; } if(pvt->state != ST_SENT_IAM) { ast_log(LOG_NOTICE, "Got CON message, but sent no IAM, on CIC=%d?!?", pvt->cic); /* Q.764 (2.9.5.1 f) error handling for the spurious CON. */ if(pvt->state == ST_IDLE) reset_circuit(pvt); return; } if(chan == NULL) { ast_log(LOG_NOTICE, "Missing chan pointer for CIC=%d, processing CON?!?\n", pvt->cic); return; } pvt->charge_indicator = inmsg->con.back_ind.charge_indicator; ast_queue_frame(chan, &answer_frame); pvt->state = ST_CONNECTED; ast_setstate(chan, AST_STATE_UP); check_obci(pvt, inmsg->cpr.obc_ind); } static void process_cpr(struct ss7_chan *pvt, struct isup_msg *inmsg) { struct ast_channel* chan = pvt->owner; if(pvt->state != ST_SENT_IAM && pvt->state != ST_GOT_ACM) { ast_log(LOG_NOTICE, "Got call progress, but call setup not active, CIC=%d, state=%d?!?\n", pvt->cic, pvt->state); /* Q.764 (2.9.5.1 f) error handling for the spurious CPR. */ if(pvt->state == ST_IDLE) reset_circuit(pvt); return; } if(chan == NULL) { ast_log(LOG_NOTICE, "Missing chan pointer for CIC=%d, processing CPR?!?\n", pvt->cic); return; } ast_log(LOG_DEBUG, "Process CPR, CIC=%d event=0x%x, obci=0x%x\n", pvt->cic, inmsg->cpr.event_info, inmsg->cpr.obc_ind); /* Q.763 3.21 */ switch(inmsg->cpr.event_info) { case 0x1: /* ALERTING */ ast_log(LOG_DEBUG, "Queueing RINGING indication for Asterisk, CIC=%d.\n", pvt->cic); ast_queue_control(chan, AST_CONTROL_RINGING); break; case 0x2: /* PROGRESS */ ast_log(LOG_DEBUG, "Got CPR Progress, NOT queueing indication for Asterisk, CIC=%d.\n", pvt->cic); #if 0 ast_queue_control(chan, AST_CONTROL_PROGRESS); #endif break; case 0x3: /* In-band information or appropriate pattern available */ if (!pvt->has_inband_ind) { ast_log(LOG_DEBUG, "Queueing PROGRESS (Inband-information available) indication for Asterisk, CIC=%d.\n", pvt->cic); ast_queue_control(chan, AST_CONTROL_PROGRESS); pvt->has_inband_ind = 1; } break; } check_obci(pvt, inmsg->cpr.obc_ind); } static void process_rlc(struct ss7_chan *pvt, struct isup_msg *inmsg) { ast_log(LOG_DEBUG, "Process RLC CIC=%d, state=%d, reset_done %d\n", pvt->cic, pvt->state, pvt->reset_done); if (!pvt->reset_done && ((pvt->state == ST_SENT_REL) || (pvt->state == ST_SENT_REL))) { /* Sent a reset circuit message */ t16_clear(pvt); pvt->state = ST_IDLE; if (pvt->owner) ast_setstate(pvt->owner, AST_STATE_DOWN); pvt->reset_done = 1; ast_log(LOG_NOTICE, "Process RLC CIC=%d, state=%d, sent RSC\n", pvt->cic, pvt->state); return; } if(pvt->state == ST_SENT_REL) { if (pvt->owner) ast_setstate(pvt->owner, AST_STATE_DOWN); free_cic(pvt); /* Clear timer T1 and T5 "waiting for release complete". Also clear T16 "waiting for RLC after circuit reset", and clear T17 "waiting for RLC after circuit reset". */ t1_clear(pvt); t2_clear(pvt); t5_clear(pvt); t6_clear(pvt); t16_clear(pvt); t17_clear(pvt); } else if(pvt->state == ST_IDLE) { /* Q.764 (2.9.5.1 b): Discard spurious RLC. */ t16_clear(pvt); } else { /* Q.764 (2.9.5.1 c): If a RLC is received without sending REL, release the circuit and send REL. */ /* The channel has already been locked in process_isup_message(). */ if(pvt->owner == NULL) { ast_log(LOG_ERROR, "NULL chan, CIC=%d, processing RLC!?!\n", pvt->cic); isup_send_rel(pvt, AST_CAUSE_NORMAL_TEMPORARY_FAILURE); pvt->state = ST_SENT_REL; } else { struct ast_channel* chan = pvt->owner; request_hangup(chan, AST_CAUSE_INVALID_MSG_UNSPECIFIED); } /* We will send REL later, in ss7_hangup(). */ } } static void process_rel(struct ss7_chan *pvt, struct isup_msg *inmsg) { struct ast_channel* chan = pvt->owner; if(pvt->state == ST_GOT_REL) { /* Didn't see this described in Q.764 (receive a second REL before sending first RLC reply). */ reset_circuit(pvt); pvt->state = ST_SENT_REL; return; } if(pvt->state != ST_IDLE && pvt->state != ST_SENT_REL) { if(chan != NULL) { /* The channel has already been locked in process_isup_message(). */ request_hangup(chan, inmsg->rel.cause); /* Q.764 (2.3.1 c): Postpone the RLC until ss7_hangup() when the circuit is ready for re-selection. */ pvt->state = ST_GOT_REL; return; } else { if (pvt->state == ST_GOT_IAM) { t35_clear(pvt); } else if (pvt->state == ST_CONCHECK) { t36_clear(pvt); } else { ast_log(LOG_NOTICE, "NULL chan for non-idle circuit CIC=%d, processing REL?!?.\n", inmsg->cic); /* Intentionally fall through ... */ } } } /* If state == ST_SENT_REL, send RLC and stay in this state, still awaiting RLC */ if(pvt->state != ST_IDLE && pvt->state != ST_SENT_REL) { if (pvt->owner) ast_setstate(pvt->owner, AST_STATE_DOWN); free_cic(pvt); } /* Send "Release Confirmed", Q.764 (2.9.5.1 a). */ isup_send_rlc(pvt); } /* Process suspend message */ static void process_sus(struct ss7_chan *pvt, struct isup_msg *inmsg) { if (pvt->state != ST_CONNECTED) { ast_log(LOG_NOTICE, "Received SUS (%d) while not in connected state, CIC=%d\n", inmsg->sus.indicator, inmsg->cic); return; } if (inmsg->sus.indicator == 0) t2_start(pvt); else if (inmsg->sus.indicator == 1) t6_start(pvt); else ast_log(LOG_NOTICE, "Got invalid indicator=%d CIC=%d, processing SUS\n", inmsg->sus.indicator, inmsg->cic); } /* Process resume message */ static void process_res(struct ss7_chan *pvt, struct isup_msg *inmsg) { if (inmsg->sus.indicator == 0) { if (pvt->t2 == -1) { ast_log(LOG_NOTICE, "Received RES (user) but got no earlier SUS, CIC=%d\n", inmsg->cic); return; } t2_clear(pvt); } else if (inmsg->sus.indicator == 1) { if (pvt->t6 == -1) { ast_log(LOG_NOTICE, "Received RES (network) but got no earlier SUS, CIC=%d\n", inmsg->cic); return; } t6_clear(pvt); } else ast_log(LOG_NOTICE, "Got invalid indicator=%d CIC=%d, processing RES\n", inmsg->sus.indicator, inmsg->cic); } static void process_rsc(struct ss7_chan *pvt, struct isup_msg *inmsg) { struct ast_channel* chan = pvt->owner; /* Send blocking message(s) if we are locally blocked. */ if(pvt->blocked & (BL_LH|BL_LM)) { isup_send_blk(pvt); } pvt->blocked &= ~(BL_RM|BL_RH|BL_UNEQUIPPED); if(pvt->state == ST_GOT_REL) { /* Didn't see this described in Q.764 (receive RSC after REL before sending first RLC reply). In this situation we send a single RLC message, from ss7_hangup(). */ return; } ast_log(LOG_DEBUG, "Reset, CIC=%d state=%d, chan=0x%08lx\n", inmsg->cic, pvt->state, (unsigned long) pvt->owner); if (!pvt->reset_done && (pvt->state == ST_SENT_REL)) { /* Sent a reset circuit message */ ast_log(LOG_NOTICE, "Process RSC CIC=%d, state=%d\n", pvt->cic, pvt->state); t16_clear(pvt); pvt->state = ST_IDLE; if (pvt->owner) ast_setstate(pvt->owner, AST_STATE_DOWN); pvt->reset_done = 1; isup_send_rlc(pvt); return; } if(pvt->state != ST_IDLE) { if(chan != NULL) { /* Q.764 (2.9.3.1 a): For non-idle circuit, treat RSC as REL. */ if (pvt->state == ST_SENT_IAM) { reattempt_call(pvt); /* Send "Release Confirmed", Q.764 (2.9.3.1 a). */ /* Intentionally fall through ... */ } else { request_hangup(chan, AST_CAUSE_NORMAL_TEMPORARY_FAILURE); if (pvt->state != ST_SENT_REL) pvt->state = ST_GOT_REL; return; } } else { if (pvt->state == ST_SENT_REL) { t1_clear(pvt); t5_clear(pvt); /* Send "Release Confirmed", Q.764 (2.9.3.1 a). */ /* Intentionally fall through ... */ } else { ast_log(LOG_NOTICE, "NULL chan for non-idle circuit CIC=%d, processing RSC?!?.\n", inmsg->cic); /* Intentionally fall through ... */ } } } if (pvt->state != ST_IDLE) { if (pvt->owner) ast_setstate(pvt->owner, AST_STATE_DOWN); free_cic(pvt); } /* Send "Release Confirmed", Q.764 (2.9.3.1 b). */ isup_send_rlc(pvt); } /* Process block message */ static void process_blk(struct ss7_chan *pvt, struct isup_msg *inmsg) { unsigned char msg[MTP_MAX_PCK_SIZE]; int current, varptr; if (pvt->state == ST_SENT_IAM) { /* Q.764 2.8.2.1: Make an automated repeat attempt on a non-connected outgoing call. */ reattempt_call(pvt); } /* Mark the circuit as blocked. */ pvt->blocked |= BL_RM; /* Reply with blocking acknowledge. */ isup_msg_init(msg, sizeof(msg), this_host->opc, inmsg->opc, inmsg->cic, ISUP_BLA, ¤t); isup_msg_start_variable_part(msg, sizeof(msg), &varptr, ¤t, 0, 0); mtp_enqueue_isup(pvt, msg, current); if (pvt->state == ST_SENT_IAM) { /* Q.764 2.8.2.1: Release the call in the normal manner */ initiate_release_circuit(pvt, AST_CAUSE_NORMAL_CLEARING); } } /* Process unblock message */ static void process_ubl(struct ss7_chan *pvt, struct isup_msg *inmsg) { unsigned char msg[MTP_MAX_PCK_SIZE]; int current, varptr; /* Mark the circuit as not blocked. */ pvt->blocked &= ~BL_RM; /* Reply with unblocking acknowledge. */ isup_msg_init(msg, sizeof(msg), this_host->opc, inmsg->opc, inmsg->cic, ISUP_UBA, ¤t); isup_msg_start_variable_part(msg, sizeof(msg), &varptr, ¤t, 0, 0); mtp_enqueue_isup(pvt, msg, current); } /* Process unequipped CIC message */ static void process_uec(struct ss7_chan *pvt, struct isup_msg *inmsg) { ast_log(LOG_NOTICE, "Received unequipped CIC message, CIC=%d\n", inmsg->cic); /* Mark the circuit as unequipped. */ pvt->blocked |= BL_UNEQUIPPED; if (pvt->state == ST_SENT_IAM) { /* Q.764 2.12.2 2): Re-attempt if this was first attempt */ if (pvt->attempts == 1) { struct ss7_chan* newpvt = reattempt_call(pvt); if (!newpvt) { return; } newpvt->attempts = 2; if (pvt->owner) ast_setstate(pvt->owner, AST_STATE_DOWN); free_cic(pvt); } else { initiate_release_circuit(pvt, AST_CAUSE_DESTINATION_OUT_OF_ORDER); } } else { /* ToDo: Handle other cases here */ } } /* Process continuity check request */ static void process_ccr(struct ss7_chan *pvt, struct isup_msg *inmsg) { /* Send blocking message(s) if we are locally blocked. */ if(pvt->blocked & (BL_LH|BL_LM)) { isup_send_blk(pvt); } if(pvt->state != ST_IDLE) { ast_log(LOG_NOTICE, "Received CCR but state is not ST_IDLE for CIC=%d\n", pvt->cic); return; } if(pvt->owner != NULL) { ast_log(LOG_ERROR, "Non-NULL chan found for idle CIC=%d, this shouldn't have happened, processing CCR.\n", pvt->cic); return; } if(pvt->cic < 0 || pvt->cic >= MAX_CIC) { ast_log(LOG_ERROR, "Invalid CIC=%d, processing CCR\n", pvt->cic); return; } pvt->state = ST_CONCHECK; t36_start(pvt); ast_mutex_lock(&continuity_check_lock); continuity_check_changes = 1; ast_mutex_unlock(&continuity_check_lock); } /* Process continuity */ static void process_cot(struct ss7_chan *pvt, struct isup_msg *inmsg) { if(pvt->state != ST_CONCHECK) { ast_log(LOG_WARNING, "Received COT, but state is not ST_CONCHECK for CIC=%d?!?\n", pvt->cic); return; } t36_clear(pvt); pvt->state = ST_IDLE; ast_mutex_lock(&continuity_check_lock); continuity_check_changes = 1; ast_mutex_unlock(&continuity_check_lock); } /* Process circuit group reset acknowledge */ static void process_gra(struct ss7_chan* pvt, struct isup_msg *inmsg) { struct linkset* linkset = pvt->link->linkset; int i, j, mask; int cic; ast_log(LOG_NOTICE, "Process GRA, cic=%d, range=%d\n", inmsg->cic, inmsg->gra.range_status.range); cic = inmsg->cic; if(cic < 0 || cic >= MAX_CIC) { ast_log(LOG_NOTICE, "Out-of-range CIC=%d in GRA, discarding.\n", cic); return; } if(pvt->grs_count == -1 || inmsg->gra.range_status.range + 1 != pvt->grs_count) { ast_log(LOG_DEBUG, "Processing unexpected GRA (CIC=%d, range %d) (assuming initiated by other host).\n", inmsg->cic, inmsg->gra.range_status.range); } t22_clear(pvt); t23_clear(pvt); pvt->grs_count = -1; /* I think we have no other locking issues here, since this stuff is only ever accessed from within the monitor thread. */ j = 0; mask = 1; for(i = cic; i <= cic + inmsg->gra.range_status.range; i++) { struct ss7_chan* pvt = linkset->cic_list[i]; if (pvt) { pvt->blocked &= ~(BL_UNEQUIPPED|BL_LH|BL_RH); if(pvt->reset_done) { if(pvt->equipped) { ast_log(LOG_NOTICE, "Unexpected GRA for already reset circuit " "CIC=%d?!?.\n", i); } } else { if(inmsg->gra.range_status.status[j] & mask) { pvt->blocked |= BL_RM; } pvt->reset_done = 1; } } mask <<= 1; if(mask == 0x100) { mask = 1; j++; } } } /* Process circuit group blocking */ static void process_cgb(struct ss7_chan* pvt, struct isup_msg *inmsg) { struct linkset* linkset = pvt->link->linkset; int i, j, n, mask, blockmask; unsigned char msg[MTP_MAX_PCK_SIZE]; int current, varpart; unsigned char param[34]; int range; range = inmsg->cgb.range_status.range; ast_log(LOG_NOTICE, "Process CGB, cic=%d, range=%d\n", inmsg->cic, range); if(range < 1 || range > 255 || inmsg->cic + range + 1 >= MAX_CIC) { ast_log(LOG_WARNING, "Got invalid cic=%d/range=%d for CGB.\n", inmsg->cic, range); return; } switch(inmsg->cgb.cgsmti) { case 0: blockmask = BL_RM; break; case 1: blockmask = BL_RH; break; default: ast_log(LOG_NOTICE, "Unimplemented circuit group blocking type %d, " "discarding.\n", inmsg->cgb.cgsmti); return; } n = 0; for(i = inmsg->cic, j=0; i <= inmsg->cic + range; i++, j++) if(inmsg->cgb.range_status.status[j / 8] & (1<<(j%8))) n++; if (n > 32) { /* Q.764 2.8.2.3 ix) Discard message if more than 32 circuits in mask */ return; } j = 0; mask = 1; for(i = inmsg->cic; i <= inmsg->cic + range; i++) { if(inmsg->cgb.range_status.status[j] & mask) { struct ss7_chan* pvt = linkset->cic_list[i]; if(!pvt || !pvt->equipped) { ast_log(LOG_NOTICE, "Unexpected NULL pvt for CIC=%d to be blocked.\n", i); } else { pvt->blocked |= blockmask; if(pvt->state == ST_SENT_IAM) { if (pvt->owner) request_hangup(pvt->owner, AST_CAUSE_NORMAL_UNSPECIFIED); /* Q.764 (2.8.2.1): Release call attempt */ release_circuit(pvt); free_cic(pvt); } } } mask <<= 1; if(mask == 0x100) { mask = 1; j++; } } /* Reply with circuit group blocking acknowledge. */ isup_msg_init(msg, sizeof(msg), this_host->opc, inmsg->opc, inmsg->cic, ISUP_CGA, ¤t); param[0] = inmsg->cgb.cgsmti; isup_msg_add_fixed(msg, sizeof(msg), ¤t, param, 1); isup_msg_start_variable_part(msg, sizeof(msg), &varpart, ¤t, 1, 0); param[0] = range; memcpy(¶m[1], inmsg->cgb.range_status.status, (range + 8) / 8); isup_msg_add_variable(msg, sizeof(msg), &varpart, ¤t, param, 1 + (range + 8) / 8); mtp_enqueue_isup(pvt, msg, current); } /* Process circuit group blocking acknkowledge */ static void process_cga(struct ss7_chan* pvt, struct isup_msg *inmsg) { struct linkset* linkset = pvt->link->linkset; int i, j, n, mask, blockmask; int range; range = inmsg->cgb.range_status.range; ast_log(LOG_NOTICE, "Process CGA, cic=%d, range=%d\n", inmsg->cic, range); if(range < 1 || range > 255 || inmsg->cic + range + 1 >= MAX_CIC) { ast_log(LOG_WARNING, "Got invalid cic=%d/range=%d for CGB.\n", inmsg->cic, range); return; } switch(inmsg->cgb.cgsmti) { case 0: blockmask = BL_LM; break; case 1: blockmask = BL_LH; break; default: ast_log(LOG_NOTICE, "Unimplemented circuit group blocking type %d, " "discarding.\n", inmsg->cgb.cgsmti); return; } n = 0; for(i = inmsg->cic, j=0; i <= inmsg->cic + range; i++, j++) if(inmsg->cgb.range_status.status[j / 8] & (1<<(j%8))) n++; if (n > 32) { /* Q.764 2.8.2.3 ix) Discard message if more than 32 circuits in mask */ return; } j = 0; mask = 1; for(i = inmsg->cic; i <= inmsg->cic + range; i++) { if(inmsg->cgb.range_status.status[j] & mask) { if (linkset->cic_list[i]) linkset->cic_list[i]->blocked |= blockmask; } mask <<= 1; if(mask == 0x100) { mask = 1; j++; } } t18_clear(pvt); t19_clear(pvt); } /* Process circuit group unblocking acknkowledge */ static void process_cua(struct ss7_chan* pvt, struct isup_msg *inmsg) { struct linkset* linkset = pvt->link->linkset; int i, j, n, mask, blockmask; int range; range = inmsg->cgb.range_status.range; ast_log(LOG_NOTICE, "Process CUA, cic=%d, range=%d\n", inmsg->cic, range); if(range < 1 || range > 255 || inmsg->cic + range + 1 >= MAX_CIC) { ast_log(LOG_WARNING, "Got invalid cic=%d/range=%d for CGB.\n", inmsg->cic, range); return; } switch(inmsg->cgb.cgsmti) { case 0: blockmask = BL_LM; break; case 1: blockmask = BL_LH; break; default: ast_log(LOG_NOTICE, "Unimplemented circuit group unblocking type %d, " "discarding.\n", inmsg->cgb.cgsmti); return; } n = 0; for(i = inmsg->cic, j=0; i <= inmsg->cic + range; i++, j++) if(inmsg->cgb.range_status.status[j / 8] & (1<<(j%8))) n++; if (n > 32) { /* Q.764 2.8.2.3 ix) Discard message if more than 32 circuits in mask */ return; } j = 0; mask = 1; for(i = inmsg->cic; i <= inmsg->cic + range; i++) { if(inmsg->cgb.range_status.status[j] & mask) { if (linkset->cic_list[i]) linkset->cic_list[i]->blocked &= ~blockmask; } mask <<= 1; if(mask == 0x100) { mask = 1; j++; } } t20_clear(pvt); t21_clear(pvt); } /* Process circuit group unblocking */ static void process_cgu(struct ss7_chan* pvt, struct isup_msg *inmsg) { struct linkset* linkset = pvt->link->linkset; int i, j, n, mask, blockmask; unsigned char msg[MTP_MAX_PCK_SIZE]; int current, varpart; unsigned char param[34]; int range; range = inmsg->cgu.range_status.range; ast_log(LOG_NOTICE, "Process CGU, cic=%d, range=%d\n", inmsg->cic, range); if(range < 1 || range > 255 || inmsg->cic + range + 1 >= MAX_CIC) { ast_log(LOG_WARNING, "Got invalid cic=%d/range=%d for CGU.\n", inmsg->cic, range); return; } switch(inmsg->cgu.cgsmti) { case 0: blockmask = ~BL_RM; break; case 1: blockmask = ~BL_RH; break; default: ast_log(LOG_NOTICE, "Unimplemented circuit group unblocking type %d, " "discarding.\n", inmsg->cgu.cgsmti); return; } n = 0; for(i = inmsg->cic, j=0; i <= inmsg->cic + range; i++, j++) if(inmsg->cgb.range_status.status[j / 8] & (1<<(j%8))) n++; if (n > 32) { /* Q.764 2.8.2.3 ix) Discard message if more than 32 circuits in mask */ return; } j = 0; mask = 1; for(i = inmsg->cic; i <= inmsg->cic + range; i++) { if(inmsg->cgu.range_status.status[j] & mask) { struct ss7_chan* pvt = linkset->cic_list[i]; if(!pvt || !pvt->equipped) { ast_log(LOG_NOTICE, "Unexpected NULL pvt for CIC=%d to be unblocked.\n", i); } else { pvt->blocked &= blockmask; } } mask <<= 1; if(mask == 0x100) { mask = 1; j++; } } /* Reply with circuit group unblocking acknowledge. */ isup_msg_init(msg, sizeof(msg), this_host->opc, inmsg->opc, inmsg->cic, ISUP_CUA, ¤t); param[0] = inmsg->cgu.cgsmti; isup_msg_add_fixed(msg, sizeof(msg), ¤t, param, 1); isup_msg_start_variable_part(msg, sizeof(msg), &varpart, ¤t, 1, 0); param[0] = range; memcpy(¶m[1], inmsg->cgu.range_status.status, (range + 8) / 8); isup_msg_add_variable(msg, sizeof(msg), &varpart, ¤t, param, 1 + (range + 8) / 8); mtp_enqueue_isup(pvt, msg, current); } static void process_isup_message(struct link* slink, struct isup_msg *inmsg) { if (inmsg->opc != slink->linkset->dpc) { ast_log(LOG_DEBUG, "Got ISUP message from unconfigured PC=%d, typ=%s, CIC=%d\n", inmsg->opc, isupmsg(inmsg->typ), inmsg->cic); isup_send_unequipped(slink, inmsg->cic, inmsg->opc); return; } // xxx ast_log(LOG_DEBUG, "processing ISUP message, typ=%s, CIC=%d\n", isupmsg(inmsg->typ), inmsg->cic); switch(inmsg->typ) { case ISUP_IAM: process_circuit_message(slink, inmsg, process_iam); break; case ISUP_SAM: process_circuit_message(slink, inmsg, process_sam); break; case ISUP_ACM: process_circuit_message(slink, inmsg, process_acm); break; case ISUP_CON: process_circuit_message(slink, inmsg, process_con); break; case ISUP_ANM: process_circuit_message(slink, inmsg, process_anm); break; case ISUP_CPR: process_circuit_message(slink, inmsg, process_cpr); break; case ISUP_REL: process_circuit_message(slink, inmsg, process_rel); break; case ISUP_RLC: process_circuit_message(slink, inmsg, process_rlc); break; case ISUP_SUS: process_circuit_message(slink, inmsg, process_sus); break; case ISUP_RES: process_circuit_message(slink, inmsg, process_res); break; case ISUP_RSC: process_circuit_message(slink, inmsg, process_rsc); break; case ISUP_BLK: process_circuit_message(slink, inmsg, process_blk); break; case ISUP_UBL: process_circuit_message(slink, inmsg, process_ubl); break; case ISUP_UEC: process_circuit_message(slink, inmsg, process_uec); break; case ISUP_CCR: process_circuit_message(slink, inmsg, process_ccr); break; case ISUP_COT: process_circuit_message(slink, inmsg, process_cot); break; case ISUP_GRS: process_circuit_group_message(slink, inmsg, handle_GRS_send_hwblock); break; case ISUP_GRA: process_circuit_group_message(slink, inmsg, process_gra); break; case ISUP_CGB: process_circuit_group_message(slink, inmsg, process_cgb); break; case ISUP_CGA: process_circuit_group_message(slink, inmsg, process_cga); break; case ISUP_CGU: process_circuit_group_message(slink, inmsg, process_cgu); break; case ISUP_CUA: process_circuit_group_message(slink, inmsg, process_cua); break; default: ast_log(LOG_NOTICE, "Got unimplemented ISUP message type %s.\n", isupmsg(inmsg->typ)); } } static void proxy_process_isup_message(struct link* slink, struct isup_msg *inmsg, unsigned char* buf, unsigned int len) { struct ss7_chan* pvt = slink->linkset->cic_list[inmsg->cic]; ast_log(LOG_DEBUG, "Investigating ISUP event for unequipped CIC=%d, typ=%s \n", inmsg->cic, isupmsg(inmsg->typ)); if((inmsg->typ == ISUP_CGA) || (inmsg->typ == ISUP_CUA) || (inmsg->typ == ISUP_GRA)) { process_isup_message(slink, inmsg); //xxxx return; } if (cluster_receivers_alive(slink->linkset)) { /* Host deals with message itself, cluster module has sent it */ } { unsigned char event_buf[MTP_EVENT_MAX_SIZE]; struct mtp_event *event = (struct mtp_event *)event_buf; event->typ = MTP_EVENT_ISUP; event->isup.slink = slink; event->isup.link = slink; event->len = len; memcpy(event->buf, buf, event->len); cluster_mtp_forward((struct mtp_req*) event);/* fixme */ return; } /* Host owning CIC is down, deal with message */ ast_log(LOG_DEBUG, "Processing ISUP event for unequipped CIC=%d, typ=%s \n", inmsg->cic, isupmsg(inmsg->typ)); lock_global(); ast_mutex_lock(&pvt->lock); switch(inmsg->typ) { case ISUP_IAM: case ISUP_SAM: case ISUP_CCR: case ISUP_ACM: case ISUP_CON: case ISUP_ANM: case ISUP_CPR: isup_send_rel(pvt, AST_CAUSE_DESTINATION_OUT_OF_ORDER); break; case ISUP_REL: case ISUP_RSC: isup_send_rlc(pvt); break; case ISUP_RLC: case ISUP_BLK: case ISUP_UBL: case ISUP_UEC: case ISUP_COT: /* Ignore */ case ISUP_GRS: case ISUP_GRA: case ISUP_CGB: case ISUP_CGA: case ISUP_CGU: case ISUP_CUA: /* Ignore */ break; default: ast_log(LOG_NOTICE, "Got unimplemented ISUP message type %s.\n", isupmsg(inmsg->typ)); } ast_mutex_unlock(&pvt->lock); unlock_global(); } void l4isup_link_status_change(struct link* link, int up) { int i, lsi; lock_global(); if (up) l4isup_inservice(link); link->linkset->inservice += (up*2-1); if (up || (!mtp_has_inservice_schannels(link) && !cluster_receivers_alive(link->linkset))) { for (lsi = 0; lsi < n_linksets; lsi++) { struct linkset* linkset = &linksets[lsi]; if (link->linkset == linkset || is_combined_linkset(link->linkset, linkset)) { for (i = 1; i < MAX_CIC; i++) { struct ss7_chan* pvt = linkset->cic_list[i]; if (!pvt) continue; if (up) pvt->blocked &= ~(BL_LH); else pvt->blocked |= BL_LH; } } } } if (!link->auto_block) { unlock_global(); return; } for (i = 0; i < 32; i++) { if (link->channelmask & (1<linkset->cic_list[link->first_cic + i]; ast_mutex_lock(&pvt->lock); if (up) pvt->blocked &= ~(BL_LINKDOWN); else pvt->blocked |= BL_LINKDOWN; ast_log(LOG_DEBUG, "Block mask 0x%02x, cic=%d.\n", pvt->blocked, link->first_cic + i); ast_mutex_unlock(&pvt->lock); } } unlock_global(); } static void *continuity_check_thread_main(void *data) { int i, lsi, n = 0; int res; struct pollfd fds[MAX_CIC]; struct ss7_chan* fds_pvt[MAX_CIC]; ast_verbose(VERBOSE_PREFIX_3 "Starting continuity check thread, pid=%d.\n", getpid()); while(!must_stop_continuity_check_thread) { int changes = 0; ast_mutex_lock(&continuity_check_lock); changes = continuity_check_changes; continuity_check_changes = 0; ast_mutex_unlock(&continuity_check_lock); if (changes) { n = 0; lock_global(); for (lsi = 0; lsi < n_linksets; lsi++) { struct linkset* linkset = &linksets[lsi]; for (i = linkset->first_cic; i <= linkset->last_cic; i++) { struct ss7_chan* pvt = linkset->cic_list[i]; if (!pvt) continue; if (pvt->state == ST_CONCHECK) { fds[n].fd = pvt->zaptel_fd; fds[n].events = POLLIN; fds_pvt[n] = pvt; n++; } } } unlock_global(); } res = poll(fds, n, 1000); if (res < 0) { if(errno == EINTR) { continue; } else { ast_log(LOG_NOTICE, "poll() failure, errno=%d: %s\n", errno, strerror(errno)); } } else if (res > 0) { for (i = 0; i < n; i++) { if(fds[i].revents & POLLIN) { unsigned char buffer[AST_FRIENDLY_OFFSET + AUDIO_READSIZE]; int total = 0; int p = 0; struct ss7_chan* pvt = fds_pvt[i]; /* No need to take to chan->lock */ ast_mutex_lock(&pvt->lock); while (total < AUDIO_READSIZE) { int count = read(fds[i].fd, &buffer[total], AUDIO_READSIZE-total); if(count < 0) { if(errno == EINTR) { /* Just try again. */ } else if(errno == ELAST) { get_zaptel_event(pvt); } else { ast_log(LOG_NOTICE, "read() failure, errno=%d: %s\n", errno, strerror(errno)); break; } } else if(count > 0) { total += count; } } while (total > 0) { int count = write(fds[i].fd, &buffer[p], total); if(count < 0) { if(errno == EINTR) { /* Just try again. */ } else { ast_log(LOG_NOTICE, "write() failure, errno=%d: %s\n", errno, strerror(errno)); break; } } else { total -= count; p += count; } } ast_mutex_unlock(&pvt->lock); } } } } return NULL; } static int start_continuity_check_thread(void) { return start_thread(&continuity_check_thread, continuity_check_thread_main, &continuity_check_thread_running, 10); } static void stop_continuity_check_thread(void) { must_stop_continuity_check_thread = 1; stop_thread(&continuity_check_thread, &continuity_check_thread_running); } static int do_group_circuit_block_unblock(struct linkset* linkset, int firstcic, unsigned long cgb_mask, int sup_type_ind, int own_cics_only, int do_timers, int do_block) { unsigned char msg[MTP_MAX_PCK_SIZE]; int current, varptr; unsigned char param[6]; unsigned char cir_group_sup_type_ind; unsigned long mask = 0; struct ss7_chan *pvt; int p; if (!cgb_mask) return firstcic+32; lock_global(); memset(param, 0, sizeof(param)); for (p = 0; p < 32; p++) { param[0]++; if (cgb_mask & (1<cic_list[firstcic+p]; if (pvt) { struct link* link = pvt->link; if ((firstcic - link->first_cic + p + 1 == link->schannel)) continue; } if (own_cics_only) if (!pvt || !pvt->equipped) continue; mask |= (1<cic_list[firstcic]; ast_mutex_lock(&pvt->lock); pvt->cgb_mask = cgb_mask; isup_msg_init(msg, sizeof(msg), this_host->opc, peerpc(pvt), firstcic, do_block ? ISUP_CGB : ISUP_CGU, ¤t); cir_group_sup_type_ind = sup_type_ind; isup_msg_add_fixed(msg, sizeof(msg), ¤t, &cir_group_sup_type_ind, 1); /* variable range and status */ isup_msg_start_variable_part(msg, sizeof(msg), &varptr, ¤t, 1, 0); isup_msg_add_variable(msg, sizeof(msg), &varptr, ¤t, param, 6); mtp_enqueue_isup(pvt, msg, current); if (do_timers) { if (do_block) t18_start(pvt); else t20_start(pvt); } ast_mutex_unlock(&pvt->lock); unlock_global(); return firstcic+p; } static int cmd_block_unblock(int fd, int argc, char *argv[], int do_block) { struct ss7_chan *pvt; int first, count; int res = 0; struct linkset* linkset = this_host->default_linkset; if (argc <= 3) { return RESULT_SHOWUSAGE; } if (argc >= 5) { int lsi; char* linksetname = argv[4]; linkset = NULL; for (lsi = 0; lsi < n_linksets; lsi++) if (strcmp(linksets[lsi].name, linksetname) == 0) linkset = &linksets[lsi]; if (!linkset) { ast_cli(fd, "Unknown linkset: '%s'\n", linksetname); return -1; } } first = strtol(argv[2], NULL, 0); if (first < linkset->first_cic || first > linkset->last_cic) { ast_cli(fd, " cic is out of range (%d..%d)\n", linkset->first_cic, linkset->last_cic); return RESULT_SHOWUSAGE; } count = strtol(argv[3], NULL, 0); if (count <= 0 || count > 32) { ast_cli(fd, "Number of circuits should be between 1 and 32\n"); return RESULT_SHOWUSAGE; } lock_global(); pvt = linkset->cic_list[first]; if (!pvt->equipped) { ast_cli(fd, "cic %d is not an audio circuit\n", first); unlock_global(); return RESULT_FAILURE; } while ((first <= linkset->last_cic) && (count > 0)) { int sup_type_ind = 0x00; /* Maintenance oriented supervision message type */ unsigned long mask; if (count >= 32) mask = 0xffffffff; else mask = (1<enabled) continue; lock_global(); ast_cli(fd, "Linkset: %s\n", linkset->name); for(i = linkset->first_cic; i <= linkset->last_cic; i++) { char blbuf[100]; char statbuf[50]; struct ss7_chan* pvt = linkset->cic_list[i]; if (!pvt) continue; *blbuf = 0; *statbuf = 0; if (pvt->blocked) { char* lm = ""; char* lh = ""; char* rm = ""; char* rh = ""; char* ue = ""; char* ld = ""; if (pvt->blocked & BL_LM) lm =" Local Maintenance"; if (pvt->blocked & BL_LH) lh =" Local Hardware"; if (pvt->blocked & BL_RM) rm =" Remote Maintenance"; if (pvt->blocked & BL_RH) rh =" Remote Hardware"; if (pvt->blocked & BL_UNEQUIPPED) ue =" Unequipped CIC"; if (pvt->blocked & BL_LINKDOWN) ld =" Link down"; sprintf(blbuf, " BLOCKED%s%s%s%s%s%s", lm, lh, rm, rh, ue, ld); } switch (pvt->state) { case ST_IDLE: sprintf(statbuf, "Idle"); break; case ST_GOT_IAM: sprintf(statbuf, "Ringing"); break; case ST_SENT_IAM: case ST_GOT_ACM: case ST_SENT_ACM: sprintf(statbuf, "Initiating call"); break; case ST_CONNECTED: case ST_SENT_REL: case ST_GOT_REL: sprintf(statbuf, "Busy"); break; default: sprintf(statbuf, "Unknown state: 0x%x!", pvt->state); break; } if (!pvt->equipped) strcat(statbuf, " Unequipped"); if (!pvt->reset_done) strcat(statbuf, " Reset pending"); ast_cli(fd, format, i, statbuf, blbuf); } unlock_global(); } return RESULT_SUCCESS; } int cmd_reset(int fd, int argc, char *argv[]) { int i, lsi; struct ss7_chan* idle_list; for (lsi = 0; lsi < n_linksets; lsi++) { lock_global(); struct linkset* linkset = &linksets[lsi]; for(i = linkset->first_cic; i <= linkset->last_cic; i++) { struct ss7_chan* pvt = linkset->cic_list[i]; if (!pvt) continue; ast_mutex_lock(&pvt->lock); #ifdef MODULETEST pvt->reset_done = 1; #else pvt->reset_done = 0; #endif pvt->state = ST_IDLE; t1_clear(pvt); t2_clear(pvt); t5_clear(pvt); t6_clear(pvt); t7_clear(pvt); t9_clear(pvt); t16_clear(pvt); t17_clear(pvt); t18_clear(pvt); t19_clear(pvt); t20_clear(pvt); t21_clear(pvt); ast_mutex_unlock(&pvt->lock); } idle_list = NULL; while (linkset->idle_list) { struct ss7_chan* best = NULL, *cur; for (cur = linkset->idle_list; cur != NULL; cur = cur->next_idle) { if (!best || (best->cic > cur->cic)) { remove_from_idlelist(cur); cur->next_idle = idle_list; idle_list = cur; break; } } } linkset->idle_list = idle_list; unlock_global(); #ifndef MODULETEST send_init_grs(linkset); #endif } return RESULT_SUCCESS; } int cmd_linkset_status(int fd, int argc, char *argv[]) { int i, lsi; struct ss7_chan* cur; for (lsi = 0; lsi < n_linksets; lsi++) { int n_idle = 0; int n_initiating = 0; int n_busy = 0; int n_pendingreset = 0; int n_idlelist = 0; struct linkset* linkset = &linksets[lsi]; if (!linkset->enabled) continue; lock_global(); for(i = linkset->first_cic; i <= linkset->last_cic; i++) { struct ss7_chan* pvt = linkset->cic_list[i]; if (!pvt) continue; ast_mutex_lock(&pvt->lock); if (!pvt->reset_done) { n_pendingreset++; continue; } else { switch (pvt->state) { case ST_IDLE: n_idle++; break; case ST_GOT_IAM: case ST_SENT_IAM: case ST_GOT_ACM: case ST_SENT_ACM: n_initiating++; break; default: n_busy++; break; } } ast_mutex_unlock(&pvt->lock); } for (cur = linkset->idle_list, n_idlelist = 0; cur; cur=cur->next_idle, n_idlelist++); ast_cli(fd, "linkset idle busy initiating resetting total incoming total outgoing\n"); ast_cli(fd, "%-14s %4d %4d %10d %9d %14d %14d\n", linkset->name, n_idle, n_busy, n_initiating, n_pendingreset, linkset->incoming_calls, linkset->outgoing_calls); if (n_idle != n_idlelist) { ast_cli(fd, "*** Idle list lenth is: %d\n", n_idlelist); } unlock_global(); } return RESULT_SUCCESS; } static int fill_gain_alaw(float gain, float linear_gain, int idx) { int val, res; if (gain) { val = (int) (((float) AST_ALAW(idx)) * linear_gain); if (val > 32767) val = 32767; if (val < -32767) val = -32767; res = AST_LIN2A(val); } else { res = idx; } return res; } static int fill_gain_ulaw(float gain, float linear_gain, int idx) { int val, res; if (gain) { val = (int) (((float) AST_MULAW(idx)) * linear_gain); if (val > 32767) val = 32767; if (val < -32767) val = -32767; res = AST_LIN2MU(val); } else { res = idx; } return res; } static int set_gain(struct ss7_chan *pvt, float rx_gain, float tx_gain) { struct zt_gains gain; float rx_linear_gain, tx_linear_gain; int res, i; memset(&gain, 0, sizeof(gain)); gain.chan = 0; res = ioctl(pvt->zaptel_fd, ZT_GETGAINS, &gain); if (res) { ast_log(LOG_WARNING, "Failed to read gains: %s\n", strerror(errno)); return -1; } rx_linear_gain = pow(10.0, rx_gain / 20.0); tx_linear_gain = pow(10.0, tx_gain / 20.0); switch (pvt->law) { case ZT_LAW_ALAW: /* Calculate receive-gain alaw-values */ for (i = 0; i < (sizeof(gain.rxgain) / sizeof(gain.rxgain[0])); i++) { gain.rxgain[i] = fill_gain_alaw(rx_gain, rx_linear_gain, i); } /* Calculate transmit-gain alaw-values */ for (i = 0; i < (sizeof(gain.txgain) / sizeof(gain.txgain[0])); i++) { gain.txgain[i] = fill_gain_alaw(tx_gain, tx_linear_gain, i); } break; case ZT_LAW_MULAW: /* Calculate receive-gain ulaw-values */ for (i = 0; i < (sizeof(gain.rxgain) / sizeof(gain.rxgain[0])); i++) { gain.rxgain[i] = fill_gain_ulaw(rx_gain, rx_linear_gain, i); } /* Calculate transmit-gain ulaw-values */ for (i = 0; i < (sizeof(gain.txgain) / sizeof(gain.txgain[0])); i++) { gain.txgain[i] = fill_gain_ulaw(tx_gain, tx_linear_gain, i); } break; } ast_log(LOG_DEBUG, "Configuring gain on cic %d (link %s) rxgain: %.1f txgain: %.1f\n", pvt->cic, pvt->link->name, rx_gain, tx_gain); /* Set gain-config on one timeslot */ res = ioctl(pvt->zaptel_fd, ZT_SETGAINS, &gain); if (res) { ast_log(LOG_WARNING, "Failed to set gains: %s\n", strerror(errno)); } return res; } /* Initialize a struct ss7_chan. */ static void init_pvt(struct ss7_chan *pvt, int cic) { pvt->owner = NULL; pvt->next_idle = NULL; pvt->link = NULL; pvt->cic = cic; pvt->reset_done = 0; pvt->blocked = 0; pvt->equipped = 0; ast_mutex_init(&pvt->lock); pvt->state = ST_IDLE; pvt->zaptel_fd = -1; pvt->t1 = -1; pvt->t2 = -1; pvt->t5 = -1; pvt->t6 = -1; pvt->t7 = -1; pvt->t9 = -1; pvt->t16 = -1; pvt->t17 = -1; pvt->t18 = -1; pvt->t19 = -1; pvt->t20 = -1; pvt->t21 = -1; pvt->t22 = -1; pvt->t23 = -1; pvt->t35 = -1; memset(pvt->buffer, 0, sizeof(pvt->buffer)); memset(&pvt->frame, 0, sizeof(pvt->frame)); pvt->frame.frametype = AST_FRAME_VOICE; pvt->frame.subclass = AST_FORMAT_ALAW; pvt->frame.datalen = AUDIO_READSIZE; pvt->frame.samples = AUDIO_READSIZE; pvt->frame.mallocd = 0; pvt->frame.offset = AST_FRIENDLY_OFFSET; pvt->frame.src = NULL; pvt->frame.data = &(pvt->buffer[AST_FRIENDLY_OFFSET]); pvt->sending_dtmf = 0; pvt->dsp = NULL; pvt->hangupcause = 0; pvt->dohangup = 0; pvt->echocan_start = 0; pvt->echocancel = 0; pvt->has_inband_ind = 0; pvt->charge_indicator = 0; pvt->is_digital = 0; pvt->grs_count = -1; pvt->cgb_mask = 0; pvt->law = ZT_LAW_ALAW; memset(pvt->context, 0, sizeof(pvt->context)); memset(pvt->language, 0, sizeof(pvt->language)); }; /* Deallocate any resources associated with a struct ss7_chan. Assumes that no other actions need to be taken (ie. no signalling). */ static void cleanup_pvt(struct ss7_chan *pvt) { if(pvt->owner != NULL) { ast_log(LOG_NOTICE, "pvt->owner non-NULL, while cleaning up pvt!\n"); } if(pvt->zaptel_fd != -1) { close(pvt->zaptel_fd); } t1_clear(pvt); t2_clear(pvt); t5_clear(pvt); t6_clear(pvt); t7_clear(pvt); t9_clear(pvt); t16_clear(pvt); t17_clear(pvt); t18_clear(pvt); t19_clear(pvt); t20_clear(pvt); t21_clear(pvt); t22_clear(pvt); t23_clear(pvt); t35_clear(pvt); if(pvt->dsp != NULL) { ast_dsp_free(pvt->dsp); } free(pvt); } static int setup_cic(struct link* link, int channel) { int cic = link->first_cic + channel; char* lang = link->linkset->language; char* ctxt = link->linkset->context; struct ss7_chan *pvt; pvt = malloc(sizeof(*pvt)); if(pvt == NULL) { ast_log(LOG_ERROR, "Out of memory allocating %lu bytes.\n", sizeof(*pvt)); return -1; } init_pvt(pvt, cic); pvt->link = link; pvt->equipped = 1; if(ctxt != NULL) { ast_copy_string(pvt->context, ctxt, sizeof(pvt->context)); } if(lang != NULL) { ast_copy_string(pvt->language, lang, sizeof(pvt->language)); } link->linkset->cic_list[cic] = pvt; add_to_idlelist(pvt); pvt->zaptel_fd = openchannel(link, channel); if (pvt->zaptel_fd < 0) return pvt->zaptel_fd < 0; pvt->dsp = ast_dsp_new(); if(pvt->dsp == NULL) { ast_log(LOG_WARNING, "Failed to allocate DSP for CIC=%d.\n", pvt->cic); return -1; } ast_dsp_set_features(pvt->dsp, DSP_FEATURE_DTMF_DETECT); ast_dsp_digitmode(pvt->dsp, DSP_DIGITMODE_DTMF | (link->relaxdtmf ? DSP_DIGITMODE_RELAXDTMF : 0)); /* Set gain - Channel must be in audiomode when setting gain */ set_audiomode(pvt->zaptel_fd); set_gain(pvt, link->rxgain, link->txgain); clear_audiomode(pvt->zaptel_fd); return 0; } static void isup_event_handler(struct mtp_event* event) { struct mtp_req* req = (struct mtp_req*) event; struct isup_msg isup_msg; struct linkset* linkset; struct ss7_chan *pvt; int cic, dpc = 0; int res; if (event->typ == MTP_EVENT_ISUP) { res = decode_isup_msg(&isup_msg, event->buf, event->len); dpc = isup_msg.opc; } else if (event->typ == MTP_REQ_ISUP_FORWARD) { res = decode_isup_msg(&isup_msg, req->buf, req->len); dpc = isup_msg.dpc; } else { ast_log(LOG_ERROR, "Invalid event/request: %d\n", event->typ); return; } cic = isup_msg.cic; if(!res) { /* Q.764 (2.9.5): Discard invalid message.*/ ast_log(LOG_NOTICE, "ISUP decoding error, message discarded (typ=%d).\n", isup_msg.typ); return; } lock_global(); if ((linkset = find_linkset_for_dpc(dpc, cic)) == NULL) { if (dpc == this_host->opc) ast_log(LOG_DEBUG, "No linkset for for ISUP event, typ=%s, cic=%d, pc=%d eventtyp=%d dpc=ownpc\n", isupmsg(isup_msg.typ), cic, dpc, event->typ); else ast_log(LOG_ERROR, "No linkset for for ISUP event, typ=%s, cic=%d, pc=%d eventtyp=%d\n", isupmsg(isup_msg.typ), cic, dpc, event->typ); unlock_global(); return; } pvt = find_pvt(linkset->links[0], cic); ast_log(LOG_DEBUG, "Got ISUP event, typ=%s, cic=%d, dpc=%d, linkset=%s, pvt=0x%08lx, pvt.eq=%d \n", isupmsg(isup_msg.typ), cic, dpc, linkset->name, (unsigned long int) pvt, pvt ? pvt->equipped : -1); unlock_global(); if (!pvt) return; if (event->typ == MTP_EVENT_ISUP) { if(pvt->equipped || (isup_msg.typ == ISUP_CGA) || (isup_msg.typ == ISUP_CUA) || (isup_msg.typ == ISUP_GRA)) { process_isup_message(pvt->link, &isup_msg); } } else { ast_log(LOG_DEBUG, "Forward ISUP event %s, CIC=%d, len=%d\n", isupmsg(isup_msg.typ), cic, req->len); mtp_enqueue_isup_forward(pvt, req->buf, req->len); } } static void isup_block_handler(struct link* link) { int sup_type_ind = 0x01; /* Hardware failure oriented */ ast_log(LOG_DEBUG, "ISUP block firstcic=%d, mask=0x%08lx \n", link->first_cic, link->channelmask); do_group_circuit_block_unblock(link->linkset, link->first_cic, link->channelmask, sup_type_ind, 0, 1, 1); } void l4isup_inservice(struct link* link) { struct linkset* linkset = link->linkset; if (!mtp_send_fifo) mtp_send_fifo = mtp_get_send_fifo(); if (!linkset->init_grs_done) { send_init_grs(linkset); linkset->init_grs_done = 1; } /* ToDo: maybe also need a reset if all links are down for an extended period of time? */ } void l4isup_event(struct mtp_event* event) { struct isup_msg isup_msg; int res; res = decode_isup_msg(&isup_msg, event->buf, event->len); if(!res) { /* Q.764 (2.9.5): Discard invalid message.*/ ast_log(LOG_NOTICE, "ISUP decoding error, message discarded. (typ=%d)\n", isup_msg.typ); } else { struct ss7_chan* pvt = find_pvt(event->isup.slink, isup_msg.cic); if (pvt) { if(pvt->equipped) process_isup_message(pvt->link, &isup_msg); else proxy_process_isup_message(pvt->link, &isup_msg, event->buf, event->len); } else { if (isup_msg.typ != ISUP_UEC) isup_send_unequipped(event->isup.slink, isup_msg.cic, isup_msg.opc); ast_log(LOG_WARNING, "Received CIC=%d for unequipped circuit (typ=%s), link '%s'.\n", isup_msg.cic, isupmsg(isup_msg.typ), event->isup.slink->name); } } } int isup_init(void) { int i; /* Configure CIC ranges, specified in 'channel' lines. */ ast_log(LOG_DEBUG, "Links %d, host %s \n", this_host->n_spans, this_host->name); for (i = 0; i < this_host->n_spans; i++) { struct link* link = this_host->spans[i].link; int connector = this_host->spans[i].connector; int firstcic = link->first_cic; int c; if (!link->enabled) continue; ast_log(LOG_DEBUG, "New CIC, first_zapid %d, channelmask 0x%08lx, connector %d, firstcic %d, schannel %d \n", link->first_zapid, link->channelmask, connector, firstcic, link->schannel); for (c = 0; c < 31; c++) { if (link->channelmask & (1 << c)) { int cic = firstcic + c; /* channel to zap id mapping: 1 -> 1, 2 -> 2, 3 -> 3, ... 32-> none 33 -> 32, 34 -> 33, 35 -> 34, ... 64-> none 65 -> 63, 66 -> 64, 67 -> 65, ... 96-> none 97 -> 94, 98 -> 95, 99 -> 96, ... 128-> none */ if (c+1 == link->schannel) { ast_log(LOG_ERROR, "Error: Zap channel %d is used for SS7 signalling, " "hence cannot be allocated for a CIC.\n", link->schannel); return -1; } if(link->linkset->cic_list[cic] != NULL) { ast_log(LOG_ERROR, "Overlapping CIC=%d, aborting.\n", cic); return -1; } if(setup_cic(link, c)) { return -1; } } } } /* Configure all links that are on our linksets */ for (i = 0; i < this_host->n_spans; i++) { struct linkset* linkset = this_host->spans[i].link->linkset; int li; for(li = 0; li < linkset->n_links; li++) { struct link* link = linkset->links[li]; int c; for (c = 0; c < 32; c++) { int cic = link->first_cic + c; struct ss7_chan* pvt; if (linkset->cic_list[cic]) continue; if (link->channelmask & (1 << c)) { pvt = malloc(sizeof(*pvt)); if(pvt == NULL) { ast_log(LOG_ERROR, "Out of memory allocating %lu bytes.\n", sizeof(*pvt)); return -1; } init_pvt(pvt, cic); ast_log(LOG_DEBUG, "Configuring peers CIC %d on linkset '%s'\n", cic, linkset->name); linkset->cic_list[cic] = pvt; pvt->link = link; pvt->equipped = 0; } } } } init_pvt(&dummy_pvt, -1); #ifdef MODULETEST { int lsi; moduletest_init(); for (lsi = 0; lsi < n_linksets; lsi++) { struct linkset* linkset = &linksets[lsi]; for(i = linkset->first_cic; i <= linkset->last_cic; i++) { struct ss7_chan* pvt = linkset->cic_list[i]; if (pvt) pvt->reset_done = 1; } } } #else if(cluster_init(isup_event_handler, isup_block_handler)) { ast_log(LOG_ERROR, "Unable to initialize cluster.\n"); return -1; } #endif if(start_continuity_check_thread()) { ast_log(LOG_ERROR, "Unable to start continuity check thread.\n"); return -1; } if(ast_channel_register(&ss7_tech)) { ast_log(LOG_ERROR, "Unable to register channel class %s\n", type); return -1; } return 0; } int isup_cleanup(void) { int lsi, i; ast_channel_unregister(&ss7_tech); lock_global(); for (lsi = 0; lsi < n_linksets; lsi++) { struct linkset* linkset = &linksets[lsi]; for(i = 0; i < MAX_CIC; i++) { struct ss7_chan* pvt = linkset->cic_list[i]; if (pvt) { ast_mutex_lock(&pvt->lock); if (pvt->state != ST_IDLE) { struct ast_channel* chan = pvt->owner; if (chan) { request_hangup(chan, AST_CAUSE_PRE_EMPTED); chan->tech_pvt = NULL; pvt->owner = NULL; } release_circuit(pvt); } ast_mutex_unlock(&pvt->lock); cleanup_pvt(pvt); linkset->cic_list[i] = NULL; } } linkset->idle_list = NULL; } unlock_global(); stop_continuity_check_thread(); cluster_cleanup(); return 0; }