/* * Asterisk -- An open source telephony toolkit. * * Copyright (C) 1999 - 2006, Digium, Inc. * * Mark Spencer * * See http://www.asterisk.org for more information about * the Asterisk project. Please do not directly contact * any of the maintainers of this project for assistance; * the project provides a web site, mailing lists and IRC * channels for your use. * * This program is free software, distributed under the terms of * the GNU General Public License Version 2. See the LICENSE file * at the top of the source tree. */ /*! \file * * \brief Implementation of Media Gateway Control Protocol * * \author Mark Spencer * * \ingroup channel_drivers */ /*! \li \ref chan_mgcp.c uses the configuration file \ref mgcp.conf * \addtogroup configuration_file */ /*! \page mgcp.conf mgcp.conf * \verbinclude mgcp.conf.sample */ /*** MODULEINFO res_pktccops extended 19 21 ***/ #include "asterisk.h" #include #include #include #include #include #include #include #include #include #include #include #include "asterisk/lock.h" #include "asterisk/channel.h" #include "asterisk/config.h" #include "asterisk/module.h" #include "asterisk/pickup.h" #include "asterisk/pbx.h" #include "asterisk/sched.h" #include "asterisk/io.h" #include "asterisk/rtp_engine.h" #include "asterisk/acl.h" #include "asterisk/callerid.h" #include "asterisk/cli.h" #include "asterisk/say.h" #include "asterisk/astdb.h" #include "asterisk/features.h" #include "asterisk/app.h" #include "asterisk/mwi.h" #include "asterisk/musiconhold.h" #include "asterisk/utils.h" #include "asterisk/netsock2.h" #include "asterisk/causes.h" #include "asterisk/dsp.h" #include "asterisk/devicestate.h" #include "asterisk/stringfields.h" #include "asterisk/abstract_jb.h" #include "asterisk/chanvars.h" #include "asterisk/pktccops.h" #include "asterisk/stasis.h" #include "asterisk/bridge.h" #include "asterisk/features_config.h" #include "asterisk/parking.h" #include "asterisk/stasis_channels.h" #include "asterisk/format_cache.h" /* * Define to work around buggy dlink MGCP phone firmware which * appears not to know that "rt" is part of the "G" package. */ /* #define DLINK_BUGGY_FIRMWARE */ #define MGCPDUMPER #define DEFAULT_EXPIRY 120 #define MAX_EXPIRY 3600 #define DIRECTMEDIA 1 #ifndef INADDR_NONE #define INADDR_NONE (in_addr_t)(-1) #endif /*! Global jitterbuffer configuration - by default, jb is disabled * \note Values shown here match the defaults shown in mgcp.conf.sample */ static struct ast_jb_conf default_jbconf = { .flags = 0, .max_size = 200, .resync_threshold = 1000, .impl = "fixed", .target_extra = 40, }; static struct ast_jb_conf global_jbconf; static const char tdesc[] = "Media Gateway Control Protocol (MGCP)"; static const char config[] = "mgcp.conf"; #define MGCP_DTMF_RFC2833 (1 << 0) #define MGCP_DTMF_INBAND (1 << 1) #define MGCP_DTMF_HYBRID (1 << 2) #define DEFAULT_MGCP_GW_PORT 2427 /*!< From RFC 2705 */ #define DEFAULT_MGCP_CA_PORT 2727 /*!< From RFC 2705 */ #define MGCP_MAX_PACKET 1500 /*!< Also from RFC 2543, should sub headers tho */ #define DEFAULT_RETRANS 1000 /*!< How frequently to retransmit */ #define MAX_RETRANS 5 /*!< Try only 5 times for retransmissions */ /*! MGCP rtp stream modes { */ #define MGCP_CX_SENDONLY 0 #define MGCP_CX_RECVONLY 1 #define MGCP_CX_SENDRECV 2 #define MGCP_CX_CONF 3 #define MGCP_CX_CONFERENCE 3 #define MGCP_CX_MUTE 4 #define MGCP_CX_INACTIVE 4 /*! } */ static const char * const mgcp_cxmodes[] = { "sendonly", "recvonly", "sendrecv", "confrnce", "inactive" }; enum { MGCP_CMD_EPCF, MGCP_CMD_CRCX, MGCP_CMD_MDCX, MGCP_CMD_DLCX, MGCP_CMD_RQNT, MGCP_CMD_NTFY, MGCP_CMD_AUEP, MGCP_CMD_AUCX, MGCP_CMD_RSIP }; static char context[AST_MAX_EXTENSION] = "default"; static char language[MAX_LANGUAGE] = ""; static char musicclass[MAX_MUSICCLASS] = ""; static char parkinglot[AST_MAX_CONTEXT]; static char cid_num[AST_MAX_EXTENSION] = ""; static char cid_name[AST_MAX_EXTENSION] = ""; static int dtmfmode = 0; static int nat = 0; static int ncs = 0; static int pktcgatealloc = 0; static int hangupongateremove = 0; static ast_group_t cur_callergroup = 0; static ast_group_t cur_pickupgroup = 0; static struct { unsigned int tos; unsigned int tos_audio; unsigned int cos; unsigned int cos_audio; } qos = { 0, 0, 0, 0 }; static int immediate = 0; static int callwaiting = 0; static int callreturn = 0; static int slowsequence = 0; static int threewaycalling = 0; /*! This is for flashhook transfers */ static int transfer = 0; static int cancallforward = 0; static int singlepath = 0; static int directmedia = DIRECTMEDIA; static char accountcode[AST_MAX_ACCOUNT_CODE] = ""; static char mailbox[AST_MAX_MAILBOX_UNIQUEID]; static int amaflags = 0; static int adsi = 0; static unsigned int oseq_global = 0; AST_MUTEX_DEFINE_STATIC(oseq_lock); /*! Wait up to 16 seconds for first digit (FXO logic) */ static int firstdigittimeout = 16000; /*! How long to wait for following digits (FXO logic) */ static int gendigittimeout = 8000; /*! How long to wait for an extra digit, if there is an ambiguous match */ static int matchdigittimeout = 3000; /*! Protect the monitoring thread, so only one process can kill or start it, and not when it's doing something critical. */ AST_MUTEX_DEFINE_STATIC(netlock); AST_MUTEX_DEFINE_STATIC(monlock); /*! This is the thread for the monitor which checks for input on the channels * which are not currently in use. */ static pthread_t monitor_thread = AST_PTHREADT_NULL; static int restart_monitor(void); static struct ast_format_cap *global_capability; static int nonCodecCapability = AST_RTP_DTMF; static char ourhost[MAXHOSTNAMELEN]; static struct in_addr __ourip; static int ourport; static struct ast_sched_context *sched; static struct io_context *io; /*! The private structures of the mgcp channels are linked for * selecting outgoing channels */ #define MGCP_MAX_HEADERS 64 #define MGCP_MAX_LINES 64 struct mgcp_request { int len; char *verb; char *identifier; char *endpoint; char *version; int headers; /*!< MGCP Headers */ char *header[MGCP_MAX_HEADERS]; int lines; /*!< SDP Content */ char *line[MGCP_MAX_LINES]; char data[MGCP_MAX_PACKET]; int cmd; /*!< int version of verb = command */ unsigned int trid; /*!< int version of identifier = transaction id */ struct mgcp_request *next; /*!< next in the queue */ }; /*! \brief mgcp_message: MGCP message for queuing up */ struct mgcp_message { struct mgcp_endpoint *owner_ep; struct mgcp_subchannel *owner_sub; int retrans; unsigned long expire; unsigned int seqno; int len; struct mgcp_message *next; char buf[0]; }; #define RESPONSE_TIMEOUT 30 /*!< in seconds */ struct mgcp_response { time_t whensent; int len; int seqno; struct mgcp_response *next; char buf[0]; }; #define MAX_SUBS 2 #define SUB_REAL 0 #define SUB_ALT 1 struct mgcp_subchannel { /*! subchannel magic string. Needed to prove that any subchannel pointer passed by asterisk really points to a valid subchannel memory area. Ugly.. But serves the purpose for the time being. */ #define MGCP_SUBCHANNEL_MAGIC "!978!" char magic[6]; ast_mutex_t lock; int id; struct ast_channel *owner; struct mgcp_endpoint *parent; struct ast_rtp_instance *rtp; struct sockaddr_in tmpdest; char txident[80]; /*! \todo FIXME txident is replaced by rqnt_ident in endpoint. This should be obsoleted */ char cxident[80]; char callid[80]; int cxmode; struct mgcp_request *cx_queue; /*!< pending CX commands */ ast_mutex_t cx_queue_lock; /*!< CX queue lock */ int nat; int iseq; /*!< Not used? RTP? */ int outgoing; int alreadygone; int sdpsent; struct cops_gate *gate; struct mgcp_subchannel *next; /*!< for out circular linked list */ }; #define MGCP_ONHOOK 1 #define MGCP_OFFHOOK 2 #define TYPE_TRUNK 1 #define TYPE_LINE 2 struct mgcp_endpoint { ast_mutex_t lock; char name[80]; struct mgcp_subchannel *sub; /*!< Pointer to our current connection, channel and stuff */ char accountcode[AST_MAX_ACCOUNT_CODE]; char exten[AST_MAX_EXTENSION]; /*!< Extension where to start */ char context[AST_MAX_EXTENSION]; char language[MAX_LANGUAGE]; char cid_num[AST_MAX_EXTENSION]; /*!< Caller*ID number */ char cid_name[AST_MAX_EXTENSION]; /*!< Caller*ID name */ char lastcallerid[AST_MAX_EXTENSION]; /*!< Last Caller*ID */ char dtmf_buf[AST_MAX_EXTENSION]; /*!< place to collect digits be */ char call_forward[AST_MAX_EXTENSION]; /*!< Last Caller*ID */ char musicclass[MAX_MUSICCLASS]; char curtone[80]; /*!< Current tone */ char mailbox[AST_MAX_EXTENSION]; char parkinglot[AST_MAX_CONTEXT]; /*!< Parkinglot */ struct ast_mwi_subscriber *mwi_event_sub; ast_group_t callgroup; ast_group_t pickupgroup; int callwaiting; int hascallwaiting; int transfer; int threewaycalling; int singlepath; int cancallforward; int directmedia; int callreturn; int dnd; /* How does this affect callwait? Do we just deny a mgcp_request if we're dnd? */ int hascallerid; int hidecallerid; int dtmfmode; int amaflags; int ncs; int pktcgatealloc; int hangupongateremove; int type; int slowsequence; /*!< MS: Sequence the endpoint as a whole */ int group; int iseq; /*!< Not used? */ int lastout; /*!< tracking this on the subchannels. Is it needed here? */ int needdestroy; /*!< Not used? */ struct ast_format_cap *cap; int nonCodecCapability; int onhooktime; int msgstate; /*!< voicemail message state */ int immediate; int hookstate; int adsi; char rqnt_ident[80]; /*!< request identifier */ struct mgcp_request *rqnt_queue; /*!< pending RQNT commands */ ast_mutex_t rqnt_queue_lock; struct mgcp_request *cmd_queue; /*!< pending commands other than RQNT */ ast_mutex_t cmd_queue_lock; int delme; /*!< needed for reload */ int needaudit; /*!< needed for reload */ struct ast_dsp *dsp; /*!< XXX Should there be a dsp/subchannel? XXX */ /* owner is tracked on the subchannels, and the *sub indicates whos in charge */ /* struct ast_channel *owner; */ /* struct ast_rtp *rtp; */ /* struct sockaddr_in tmpdest; */ /* message go the endpoint and not the channel so they stay here */ struct ast_variable *chanvars; /*!< Variables to set for channel created by user */ struct mgcp_endpoint *next; struct mgcp_gateway *parent; }; static struct mgcp_gateway { /* A gateway containing one or more endpoints */ char name[80]; int isnamedottedip; /*!< is the name FQDN or dotted ip */ struct sockaddr_in addr; struct sockaddr_in defaddr; struct in_addr ourip; int dynamic; int expire; /*!< XXX Should we ever expire dynamic registrations? XXX */ struct mgcp_endpoint *endpoints; struct ast_ha *ha; /* obsolete time_t lastouttime; int lastout; int messagepending; */ /* Wildcard endpoint name */ char wcardep[30]; struct mgcp_message *msgs; /*!< gw msg queue */ ast_mutex_t msgs_lock; /*!< queue lock */ int retransid; /*!< retrans timer id */ int delme; /*!< needed for reload */ int realtime; struct mgcp_response *responses; struct mgcp_gateway *next; } *gateways = NULL; AST_MUTEX_DEFINE_STATIC(mgcp_reload_lock); static int mgcp_reloading = 0; /*! \brief gatelock: mutex for gateway/endpoint lists */ AST_MUTEX_DEFINE_STATIC(gatelock); static int mgcpsock = -1; static struct sockaddr_in bindaddr; static void mgcp_set_owner(struct mgcp_subchannel *sub, struct ast_channel *chan); static struct ast_frame *mgcp_read(struct ast_channel *ast); static int transmit_response(struct mgcp_subchannel *sub, char *msg, struct mgcp_request *req, char *msgrest); static int transmit_notify_request(struct mgcp_subchannel *sub, char *tone); static int transmit_modify_request(struct mgcp_subchannel *sub); static int transmit_connect(struct mgcp_subchannel *sub); static int transmit_notify_request_with_callerid(struct mgcp_subchannel *sub, char *tone, char *callernum, char *callername); static int transmit_modify_with_sdp(struct mgcp_subchannel *sub, struct ast_rtp_instance *rtp, const struct ast_format_cap *codecs); static int transmit_connection_del(struct mgcp_subchannel *sub); static int transmit_audit_endpoint(struct mgcp_endpoint *p); static void start_rtp(struct mgcp_subchannel *sub); static void handle_response(struct mgcp_endpoint *p, struct mgcp_subchannel *sub, int result, unsigned int ident, struct mgcp_request *resp); static void dump_cmd_queues(struct mgcp_endpoint *p, struct mgcp_subchannel *sub); static char *mgcp_reload(struct ast_cli_entry *e, int cmd, struct ast_cli_args *a); static int reload_config(int reload); static struct ast_channel *mgcp_request(const char *type, struct ast_format_cap *cap, const struct ast_assigned_ids *assignedids, const struct ast_channel *requestor, const char *dest, int *cause); static int mgcp_call(struct ast_channel *ast, const char *dest, int timeout); static int mgcp_hangup(struct ast_channel *ast); static int mgcp_answer(struct ast_channel *ast); static struct ast_frame *mgcp_read(struct ast_channel *ast); static int mgcp_write(struct ast_channel *ast, struct ast_frame *frame); static int mgcp_indicate(struct ast_channel *ast, int ind, const void *data, size_t datalen); static int mgcp_fixup(struct ast_channel *oldchan, struct ast_channel *newchan); static int mgcp_senddigit_begin(struct ast_channel *ast, char digit); static int mgcp_senddigit_end(struct ast_channel *ast, char digit, unsigned int duration); static int mgcp_devicestate(const char *data); static void add_header_offhook(struct mgcp_subchannel *sub, struct mgcp_request *resp, char *tone); static int transmit_connect_with_sdp(struct mgcp_subchannel *sub, struct ast_rtp_instance *rtp); static struct mgcp_gateway *build_gateway(char *cat, struct ast_variable *v); static int mgcp_alloc_pktcgate(struct mgcp_subchannel *sub); static int acf_channel_read(struct ast_channel *chan, const char *funcname, char *preparse, char *buf, size_t buflen); static struct ast_variable *add_var(const char *buf, struct ast_variable *list); static struct ast_variable *copy_vars(struct ast_variable *src); static struct ast_channel_tech mgcp_tech = { .type = "MGCP", .description = tdesc, .properties = AST_CHAN_TP_WANTSJITTER | AST_CHAN_TP_CREATESJITTER, .requester = mgcp_request, .devicestate = mgcp_devicestate, .call = mgcp_call, .hangup = mgcp_hangup, .answer = mgcp_answer, .read = mgcp_read, .write = mgcp_write, .indicate = mgcp_indicate, .fixup = mgcp_fixup, .send_digit_begin = mgcp_senddigit_begin, .send_digit_end = mgcp_senddigit_end, .func_channel_read = acf_channel_read, }; static int has_voicemail(struct mgcp_endpoint *p) { int new_msgs; RAII_VAR(struct stasis_message *, msg, NULL, ao2_cleanup); msg = stasis_cache_get(ast_mwi_state_cache(), ast_mwi_state_type(), p->mailbox); if (msg) { struct ast_mwi_state *mwi_state = stasis_message_data(msg); new_msgs = mwi_state->new_msgs; } else { new_msgs = ast_app_has_voicemail(p->mailbox, NULL); } return new_msgs; } static int unalloc_sub(struct mgcp_subchannel *sub) { struct mgcp_endpoint *p = sub->parent; if (p->sub == sub) { ast_log(LOG_WARNING, "Trying to unalloc the real channel %s@%s?!?\n", p->name, p->parent->name); return -1; } ast_debug(1, "Released sub %d of channel %s@%s\n", sub->id, p->name, p->parent->name); mgcp_set_owner(sub, NULL); if (!ast_strlen_zero(sub->cxident)) { transmit_connection_del(sub); } sub->cxident[0] = '\0'; sub->callid[0] = '\0'; sub->cxmode = MGCP_CX_INACTIVE; sub->outgoing = 0; sub->alreadygone = 0; memset(&sub->tmpdest, 0, sizeof(sub->tmpdest)); if (sub->rtp) { ast_rtp_instance_destroy(sub->rtp); sub->rtp = NULL; } dump_cmd_queues(NULL, sub); return 0; } /* modified for new transport mechanism */ static int __mgcp_xmit(struct mgcp_gateway *gw, char *data, int len) { int res; if (gw->addr.sin_addr.s_addr) res=sendto(mgcpsock, data, len, 0, (struct sockaddr *)&gw->addr, sizeof(struct sockaddr_in)); else res=sendto(mgcpsock, data, len, 0, (struct sockaddr *)&gw->defaddr, sizeof(struct sockaddr_in)); if (res != len) { ast_log(LOG_WARNING, "mgcp_xmit returned %d: %s\n", res, strerror(errno)); } return res; } static int resend_response(struct mgcp_subchannel *sub, struct mgcp_response *resp) { struct mgcp_endpoint *p = sub->parent; int res; ast_debug(1, "Retransmitting:\n%s\n to %s:%d\n", resp->buf, ast_inet_ntoa(p->parent->addr.sin_addr), ntohs(p->parent->addr.sin_port)); res = __mgcp_xmit(p->parent, resp->buf, resp->len); if (res > 0) res = 0; return res; } static int send_response(struct mgcp_subchannel *sub, struct mgcp_request *req) { struct mgcp_endpoint *p = sub->parent; int res; ast_debug(1, "Transmitting:\n%s\n to %s:%d\n", req->data, ast_inet_ntoa(p->parent->addr.sin_addr), ntohs(p->parent->addr.sin_port)); res = __mgcp_xmit(p->parent, req->data, req->len); if (res > 0) res = 0; return res; } /* modified for new transport framework */ static void dump_queue(struct mgcp_gateway *gw, struct mgcp_endpoint *p) { struct mgcp_message *cur, *q = NULL, *w, *prev; ast_mutex_lock(&gw->msgs_lock); for (prev = NULL, cur = gw->msgs; cur; prev = cur, cur = cur->next) { if (!p || cur->owner_ep == p) { if (prev) { prev->next = cur->next; } else { gw->msgs = cur->next; } ast_log(LOG_NOTICE, "Removing message from %s transaction %u\n", gw->name, cur->seqno); w = cur; if (q) { w->next = q; } else { w->next = NULL; } q = w; } } ast_mutex_unlock(&gw->msgs_lock); while (q) { cur = q; q = q->next; ast_free(cur); } } static void mgcp_queue_frame(struct mgcp_subchannel *sub, struct ast_frame *f) { for (;;) { if (sub->owner) { if (!ast_channel_trylock(sub->owner)) { ast_queue_frame(sub->owner, f); ast_channel_unlock(sub->owner); break; } else { DEADLOCK_AVOIDANCE(&sub->lock); } } else { break; } } } static void mgcp_queue_hangup(struct mgcp_subchannel *sub) { for (;;) { if (sub->owner) { if (!ast_channel_trylock(sub->owner)) { ast_queue_hangup(sub->owner); ast_channel_unlock(sub->owner); break; } else { DEADLOCK_AVOIDANCE(&sub->lock); } } else { break; } } } static void mgcp_queue_control(struct mgcp_subchannel *sub, int control) { struct ast_frame f = { AST_FRAME_CONTROL, { control } }; return mgcp_queue_frame(sub, &f); } static int retrans_pkt(const void *data) { struct mgcp_gateway *gw = (struct mgcp_gateway *)data; struct mgcp_message *cur, *exq = NULL, *w, *prev; int res = 0; /* find out expired msgs */ ast_mutex_lock(&gw->msgs_lock); for (prev = NULL, cur = gw->msgs; cur; prev = cur, cur = cur->next) { if (cur->retrans < MAX_RETRANS) { cur->retrans++; ast_debug(1, "Retransmitting #%d transaction %u on [%s]\n", cur->retrans, cur->seqno, gw->name); __mgcp_xmit(gw, cur->buf, cur->len); } else { if (prev) prev->next = cur->next; else gw->msgs = cur->next; ast_log(LOG_WARNING, "Maximum retries exceeded for transaction %u on [%s]\n", cur->seqno, gw->name); w = cur; if (exq) { w->next = exq; } else { w->next = NULL; } exq = w; } } if (!gw->msgs) { gw->retransid = -1; res = 0; } else { res = 1; } ast_mutex_unlock(&gw->msgs_lock); while (exq) { cur = exq; /* time-out transaction */ handle_response(cur->owner_ep, cur->owner_sub, 406, cur->seqno, NULL); exq = exq->next; ast_free(cur); } return res; } /* modified for the new transaction mechanism */ static int mgcp_postrequest(struct mgcp_endpoint *p, struct mgcp_subchannel *sub, char *data, int len, unsigned int seqno) { struct mgcp_message *msg; struct mgcp_message *cur; struct mgcp_gateway *gw; struct timeval now; if (!(msg = ast_malloc(sizeof(*msg) + len))) { return -1; } if (!(gw = ((p && p->parent) ? p->parent : NULL))) { ast_free(msg); return -1; } msg->owner_sub = sub; msg->owner_ep = p; msg->seqno = seqno; msg->next = NULL; msg->len = len; msg->retrans = 0; memcpy(msg->buf, data, msg->len); ast_mutex_lock(&gw->msgs_lock); for (cur = gw->msgs; cur && cur->next; cur = cur->next); if (cur) { cur->next = msg; } else { gw->msgs = msg; } now = ast_tvnow(); msg->expire = now.tv_sec * 1000 + now.tv_usec / 1000 + DEFAULT_RETRANS; if (gw->retransid == -1) gw->retransid = ast_sched_add(sched, DEFAULT_RETRANS, retrans_pkt, (void *)gw); ast_mutex_unlock(&gw->msgs_lock); __mgcp_xmit(gw, msg->buf, msg->len); /* XXX Should schedule retransmission XXX */ return 0; } /* modified for new transport */ static int send_request(struct mgcp_endpoint *p, struct mgcp_subchannel *sub, struct mgcp_request *req, unsigned int seqno) { int res = 0; struct mgcp_request **queue, *q, *r, *t; ast_mutex_t *l; ast_debug(1, "Slow sequence is %d\n", p->slowsequence); if (p->slowsequence) { queue = &p->cmd_queue; l = &p->cmd_queue_lock; ast_mutex_lock(l); } else { switch (req->cmd) { case MGCP_CMD_DLCX: queue = &sub->cx_queue; l = &sub->cx_queue_lock; ast_mutex_lock(l); q = sub->cx_queue; /* delete pending cx cmds */ /* buggy sb5120 */ if (!sub->parent->ncs) { while (q) { r = q->next; ast_free(q); q = r; } *queue = NULL; } break; case MGCP_CMD_CRCX: case MGCP_CMD_MDCX: queue = &sub->cx_queue; l = &sub->cx_queue_lock; ast_mutex_lock(l); break; case MGCP_CMD_RQNT: queue = &p->rqnt_queue; l = &p->rqnt_queue_lock; ast_mutex_lock(l); break; default: queue = &p->cmd_queue; l = &p->cmd_queue_lock; ast_mutex_lock(l); break; } } if (!(r = ast_malloc(sizeof(*r)))) { ast_log(LOG_WARNING, "Cannot post MGCP request: insufficient memory\n"); ast_mutex_unlock(l); return -1; } memcpy(r, req, sizeof(*r)); if (!(*queue)) { ast_debug(1, "Posting Request:\n%s to %s:%d\n", req->data, ast_inet_ntoa(p->parent->addr.sin_addr), ntohs(p->parent->addr.sin_port)); res = mgcp_postrequest(p, sub, req->data, req->len, seqno); } else { ast_debug(1, "Queueing Request:\n%s to %s:%d\n", req->data, ast_inet_ntoa(p->parent->addr.sin_addr), ntohs(p->parent->addr.sin_port)); } /* XXX find tail. We could also keep tail in the data struct for faster access */ for (t = *queue; t && t->next; t = t->next); r->next = NULL; if (t) t->next = r; else *queue = r; ast_mutex_unlock(l); return res; } static int mgcp_call(struct ast_channel *ast, const char *dest, int timeout) { int res; struct mgcp_endpoint *p; struct mgcp_subchannel *sub; char tone[50] = ""; const char *distinctive_ring = pbx_builtin_getvar_helper(ast, "ALERT_INFO"); ast_debug(3, "MGCP mgcp_call(%s)\n", ast_channel_name(ast)); sub = ast_channel_tech_pvt(ast); p = sub->parent; ast_mutex_lock(&sub->lock); switch (p->hookstate) { case MGCP_OFFHOOK: if (!ast_strlen_zero(distinctive_ring)) { snprintf(tone, sizeof(tone), "L/wt%s", distinctive_ring); ast_debug(3, "MGCP distinctive callwait %s\n", tone); } else { ast_copy_string(tone, (p->ncs ? "L/wt1" : "L/wt"), sizeof(tone)); ast_debug(3, "MGCP normal callwait %s\n", tone); } break; case MGCP_ONHOOK: default: if (!ast_strlen_zero(distinctive_ring)) { snprintf(tone, sizeof(tone), "L/r%s", distinctive_ring); ast_debug(3, "MGCP distinctive ring %s\n", tone); } else { ast_copy_string(tone, "L/rg", sizeof(tone)); ast_debug(3, "MGCP default ring\n"); } break; } if ((ast_channel_state(ast) != AST_STATE_DOWN) && (ast_channel_state(ast) != AST_STATE_RESERVED)) { ast_log(LOG_WARNING, "mgcp_call called on %s, neither down nor reserved\n", ast_channel_name(ast)); ast_mutex_unlock(&sub->lock); return -1; } res = 0; sub->outgoing = 1; sub->cxmode = MGCP_CX_RECVONLY; ast_setstate(ast, AST_STATE_RINGING); if (p->type == TYPE_LINE) { if (!sub->rtp) { start_rtp(sub); } else { transmit_modify_request(sub); } if (sub->next->owner && !ast_strlen_zero(sub->next->cxident) && !ast_strlen_zero(sub->next->callid)) { /* try to prevent a callwait from disturbing the other connection */ sub->next->cxmode = MGCP_CX_RECVONLY; transmit_modify_request(sub->next); } transmit_notify_request_with_callerid(sub, tone, S_COR(ast_channel_connected(ast)->id.number.valid, ast_channel_connected(ast)->id.number.str, ""), S_COR(ast_channel_connected(ast)->id.name.valid, ast_channel_connected(ast)->id.name.str, "")); ast_setstate(ast, AST_STATE_RINGING); if (sub->next->owner && !ast_strlen_zero(sub->next->cxident) && !ast_strlen_zero(sub->next->callid)) { /* Put the connection back in sendrecv */ sub->next->cxmode = MGCP_CX_SENDRECV; transmit_modify_request(sub->next); } } else { ast_log(LOG_NOTICE, "Don't know how to dial on trunks yet\n"); res = -1; } ast_mutex_unlock(&sub->lock); return res; } static int mgcp_hangup(struct ast_channel *ast) { struct mgcp_subchannel *sub = ast_channel_tech_pvt(ast); struct mgcp_endpoint *p = sub->parent; ast_debug(1, "mgcp_hangup(%s)\n", ast_channel_name(ast)); if (!ast_channel_tech_pvt(ast)) { ast_debug(1, "Asked to hangup channel not connected\n"); return 0; } if (strcmp(sub->magic, MGCP_SUBCHANNEL_MAGIC)) { ast_debug(1, "Invalid magic. MGCP subchannel freed up already.\n"); return 0; } ast_mutex_lock(&sub->lock); ast_debug(3, "MGCP mgcp_hangup(%s) on %s@%s\n", ast_channel_name(ast), p->name, p->parent->name); if ((p->dtmfmode & MGCP_DTMF_INBAND) && p->dsp) { /* check whether other channel is active. */ if (!sub->next->owner) { if (p->dtmfmode & MGCP_DTMF_HYBRID) { p->dtmfmode &= ~MGCP_DTMF_INBAND; } ast_debug(2, "MGCP free dsp on %s@%s\n", p->name, p->parent->name); ast_dsp_free(p->dsp); p->dsp = NULL; } } mgcp_set_owner(sub, NULL); /* for deleting gate */ if (p->pktcgatealloc && sub->gate) { sub->gate->gate_open = NULL; sub->gate->gate_remove = NULL; sub->gate->got_dq_gi = NULL; sub->gate->tech_pvt = NULL; if (sub->gate->state == GATE_ALLOC_PROGRESS || sub->gate->state == GATE_ALLOCATED) { ast_pktccops_gate_alloc(GATE_DEL, sub->gate, 0, 0, 0, 0, 0, 0, NULL, NULL); } else { sub->gate->deltimer = time(NULL) + 5; } sub->gate = NULL; } if (!ast_strlen_zero(sub->cxident)) { transmit_connection_del(sub); } sub->cxident[0] = '\0'; if ((sub == p->sub) && sub->next->owner) { RAII_VAR(struct ast_channel *, bridged, ast_channel_bridge_peer(sub->next->owner), ast_channel_cleanup); if (p->hookstate == MGCP_OFFHOOK) { if (sub->next->owner && bridged) { /* ncs fix! */ transmit_notify_request_with_callerid(p->sub, (p->ncs ? "L/wt1" : "L/wt"), S_COR(ast_channel_caller(bridged)->id.number.valid, ast_channel_caller(bridged)->id.number.str, ""), S_COR(ast_channel_caller(bridged)->id.name.valid, ast_channel_caller(bridged)->id.name.str, "")); } } else { /* set our other connection as the primary and swith over to it */ p->sub = sub->next; p->sub->cxmode = MGCP_CX_RECVONLY; transmit_modify_request(p->sub); if (sub->next->owner && bridged) { transmit_notify_request_with_callerid(p->sub, "L/rg", S_COR(ast_channel_caller(bridged)->id.number.valid, ast_channel_caller(bridged)->id.number.str, ""), S_COR(ast_channel_caller(bridged)->id.name.valid, ast_channel_caller(bridged)->id.name.str, "")); } } } else if ((sub == p->sub->next) && p->hookstate == MGCP_OFFHOOK) { transmit_notify_request(sub, p->ncs ? "" : "L/v"); } else if (p->hookstate == MGCP_OFFHOOK) { transmit_notify_request(sub, "L/ro"); } else { transmit_notify_request(sub, ""); } ast_channel_tech_pvt_set(ast, NULL); sub->alreadygone = 0; sub->outgoing = 0; sub->cxmode = MGCP_CX_INACTIVE; sub->callid[0] = '\0'; if (p) { memset(p->dtmf_buf, 0, sizeof(p->dtmf_buf)); } /* Reset temporary destination */ memset(&sub->tmpdest, 0, sizeof(sub->tmpdest)); if (sub->rtp) { ast_rtp_instance_destroy(sub->rtp); sub->rtp = NULL; } ast_module_unref(ast_module_info->self); if ((p->hookstate == MGCP_ONHOOK) && (!sub->next->rtp)) { p->hidecallerid = 0; if (p->hascallwaiting && !p->callwaiting) { ast_verb(3, "Enabling call waiting on %s\n", ast_channel_name(ast)); p->callwaiting = -1; } if (has_voicemail(p)) { ast_debug(3, "MGCP mgcp_hangup(%s) on %s@%s set vmwi(+)\n", ast_channel_name(ast), p->name, p->parent->name); transmit_notify_request(sub, "L/vmwi(+)"); } else { ast_debug(3, "MGCP mgcp_hangup(%s) on %s@%s set vmwi(-)\n", ast_channel_name(ast), p->name, p->parent->name); transmit_notify_request(sub, "L/vmwi(-)"); } } ast_mutex_unlock(&sub->lock); return 0; } static char *handle_mgcp_show_endpoints(struct ast_cli_entry *e, int cmd, struct ast_cli_args *a) { struct mgcp_gateway *mg; struct mgcp_endpoint *me; int hasendpoints = 0; struct ast_variable * v = NULL; switch (cmd) { case CLI_INIT: e->command = "mgcp show endpoints"; e->usage = "Usage: mgcp show endpoints\n" " Lists all endpoints known to the MGCP (Media Gateway Control Protocol) subsystem.\n"; return NULL; case CLI_GENERATE: return NULL; } if (a->argc != 3) { return CLI_SHOWUSAGE; } ast_mutex_lock(&gatelock); for (mg = gateways; mg; mg = mg->next) { ast_cli(a->fd, "Gateway '%s' at %s (%s%s)\n", mg->name, mg->addr.sin_addr.s_addr ? ast_inet_ntoa(mg->addr.sin_addr) : ast_inet_ntoa(mg->defaddr.sin_addr), mg->realtime ? "Realtime, " : "", mg->dynamic ? "Dynamic" : "Static"); for (me = mg->endpoints; me; me = me->next) { ast_cli(a->fd, " -- '%s@%s in '%s' is %s\n", me->name, mg->name, me->context, me->sub->owner ? "active" : "idle"); if (me->chanvars) { ast_cli(a->fd, " Variables:\n"); for (v = me->chanvars ; v ; v = v->next) { ast_cli(a->fd, " %s = '%s'\n", v->name, v->value); } } hasendpoints = 1; } if (!hasendpoints) { ast_cli(a->fd, " << No Endpoints Defined >> "); } } ast_mutex_unlock(&gatelock); return CLI_SUCCESS; } static char *handle_mgcp_audit_endpoint(struct ast_cli_entry *e, int cmd, struct ast_cli_args *a) { struct mgcp_gateway *mg; struct mgcp_endpoint *me; int found = 0; char *ename,*gname, *c; switch (cmd) { case CLI_INIT: e->command = "mgcp audit endpoint"; e->usage = "Usage: mgcp audit endpoint \n" " Lists the capabilities of an endpoint in the MGCP (Media Gateway Control Protocol) subsystem.\n" " Debug logging (core set debug on) MUST be on to see the results of this command.\n"; return NULL; case CLI_GENERATE: return NULL; } if (!DEBUG_ATLEAST(1)) { return CLI_SHOWUSAGE; } if (a->argc != 4) return CLI_SHOWUSAGE; /* split the name into parts by null */ ename = ast_strdupa(a->argv[3]); for (gname = ename; *gname; gname++) { if (*gname == '@') { *gname = 0; gname++; break; } } if (gname[0] == '[') { gname++; } if ((c = strrchr(gname, ']'))) { *c = '\0'; } ast_mutex_lock(&gatelock); for (mg = gateways; mg; mg = mg->next) { if (!strcasecmp(mg->name, gname)) { for (me = mg->endpoints; me; me = me->next) { if (!strcasecmp(me->name, ename)) { found = 1; transmit_audit_endpoint(me); break; } } if (found) { break; } } } if (!found) { ast_cli(a->fd, " << Could not find endpoint >> "); } ast_mutex_unlock(&gatelock); return CLI_SUCCESS; } static struct ast_cli_entry cli_mgcp[] = { AST_CLI_DEFINE(handle_mgcp_audit_endpoint, "Audit specified MGCP endpoint"), AST_CLI_DEFINE(handle_mgcp_show_endpoints, "List defined MGCP endpoints"), AST_CLI_DEFINE(mgcp_reload, "Reload MGCP configuration"), }; static int mgcp_answer(struct ast_channel *ast) { int res = 0; struct mgcp_subchannel *sub = ast_channel_tech_pvt(ast); struct mgcp_endpoint *p = sub->parent; ast_mutex_lock(&sub->lock); sub->cxmode = MGCP_CX_SENDRECV; if (!sub->rtp) { start_rtp(sub); } else { transmit_modify_request(sub); } ast_verb(3, "MGCP mgcp_answer(%s) on %s@%s-%d\n", ast_channel_name(ast), p->name, p->parent->name, sub->id); if (ast_channel_state(ast) != AST_STATE_UP) { ast_setstate(ast, AST_STATE_UP); ast_debug(1, "mgcp_answer(%s)\n", ast_channel_name(ast)); transmit_notify_request(sub, ""); transmit_modify_request(sub); } ast_mutex_unlock(&sub->lock); return res; } static struct ast_frame *mgcp_rtp_read(struct mgcp_subchannel *sub) { /* Retrieve audio/etc from channel. Assumes sub->lock is already held. */ struct ast_frame *f; f = ast_rtp_instance_read(sub->rtp, 0); /* Don't send RFC2833 if we're not supposed to */ if (f && (f->frametype == AST_FRAME_DTMF) && !(sub->parent->dtmfmode & MGCP_DTMF_RFC2833)) return &ast_null_frame; if (sub->owner) { /* We already hold the channel lock */ if (f->frametype == AST_FRAME_VOICE) { if (ast_format_cap_iscompatible_format(ast_channel_nativeformats(sub->owner), f->subclass.format) == AST_FORMAT_CMP_NOT_EQUAL) { struct ast_format_cap *caps; ast_debug(1, "Oooh, format changed to %s\n", ast_format_get_name(f->subclass.format)); caps = ast_format_cap_alloc(AST_FORMAT_CAP_FLAG_DEFAULT); if (caps) { ast_format_cap_append(caps, f->subclass.format, 0); ast_channel_nativeformats_set(sub->owner, caps); ao2_ref(caps, -1); } else { return &ast_null_frame; } ast_set_read_format(sub->owner, ast_channel_readformat(sub->owner)); ast_set_write_format(sub->owner, ast_channel_writeformat(sub->owner)); } /* Courtesy fearnor aka alex@pilosoft.com */ if ((sub->parent->dtmfmode & MGCP_DTMF_INBAND) && (sub->parent->dsp)) { #if 0 ast_log(LOG_NOTICE, "MGCP ast_dsp_process\n"); #endif f = ast_dsp_process(sub->owner, sub->parent->dsp, f); } } } return f; } static void mgcp_set_owner(struct mgcp_subchannel *sub, struct ast_channel *chan) { sub->owner = chan; if (sub->rtp) { ast_rtp_instance_set_channel_id(sub->rtp, sub->owner ? ast_channel_uniqueid(chan) : ""); } } static struct ast_frame *mgcp_read(struct ast_channel *ast) { struct ast_frame *f; struct mgcp_subchannel *sub = ast_channel_tech_pvt(ast); ast_mutex_lock(&sub->lock); f = mgcp_rtp_read(sub); ast_mutex_unlock(&sub->lock); return f; } static int mgcp_write(struct ast_channel *ast, struct ast_frame *frame) { struct mgcp_subchannel *sub = ast_channel_tech_pvt(ast); int res = 0; if (frame->frametype != AST_FRAME_VOICE) { if (frame->frametype == AST_FRAME_IMAGE) return 0; else { ast_log(LOG_WARNING, "Can't send %u type frames with MGCP write\n", frame->frametype); return 0; } } else { if (ast_format_cap_iscompatible_format(ast_channel_nativeformats(ast), frame->subclass.format) == AST_FORMAT_CMP_NOT_EQUAL) { struct ast_str *cap_buf = ast_str_alloca(AST_FORMAT_CAP_NAMES_LEN); ast_log(LOG_WARNING, "Asked to transmit frame type %s, while native formats is %s (read/write = %s/%s)\n", ast_format_get_name(frame->subclass.format), ast_format_cap_get_names(ast_channel_nativeformats(ast), &cap_buf), ast_format_get_name(ast_channel_readformat(ast)), ast_format_get_name(ast_channel_writeformat(ast))); /* return -1; */ } } if (sub) { ast_mutex_lock(&sub->lock); if (!sub->sdpsent && sub->gate) { if (sub->gate->state == GATE_ALLOCATED) { ast_debug(1, "GATE ALLOCATED, sending sdp\n"); transmit_modify_with_sdp(sub, NULL, 0); } } if ((sub->parent->sub == sub) || !sub->parent->singlepath) { if (sub->rtp) { res = ast_rtp_instance_write(sub->rtp, frame); } } ast_mutex_unlock(&sub->lock); } return res; } static int mgcp_fixup(struct ast_channel *oldchan, struct ast_channel *newchan) { struct mgcp_subchannel *sub = ast_channel_tech_pvt(newchan); ast_mutex_lock(&sub->lock); ast_log(LOG_NOTICE, "mgcp_fixup(%s, %s)\n", ast_channel_name(oldchan), ast_channel_name(newchan)); if (sub->owner != oldchan) { ast_mutex_unlock(&sub->lock); ast_log(LOG_WARNING, "old channel wasn't %p but was %p\n", oldchan, sub->owner); return -1; } mgcp_set_owner(sub, newchan); ast_mutex_unlock(&sub->lock); return 0; } static int mgcp_senddigit_begin(struct ast_channel *ast, char digit) { struct mgcp_subchannel *sub = ast_channel_tech_pvt(ast); struct mgcp_endpoint *p = sub->parent; int res = 0; ast_mutex_lock(&sub->lock); if (p->dtmfmode & MGCP_DTMF_INBAND || p->dtmfmode & MGCP_DTMF_HYBRID) { ast_debug(1, "Sending DTMF using inband/hybrid\n"); res = -1; /* Let asterisk play inband indications */ } else if (p->dtmfmode & MGCP_DTMF_RFC2833) { ast_debug(1, "Sending DTMF using RFC2833\n"); ast_rtp_instance_dtmf_begin(sub->rtp, digit); } else { ast_log(LOG_ERROR, "Don't know about DTMF_MODE %d\n", p->dtmfmode); } ast_mutex_unlock(&sub->lock); return res; } static int mgcp_senddigit_end(struct ast_channel *ast, char digit, unsigned int duration) { struct mgcp_subchannel *sub = ast_channel_tech_pvt(ast); struct mgcp_endpoint *p = sub->parent; int res = 0; char tmp[4]; ast_mutex_lock(&sub->lock); if (p->dtmfmode & MGCP_DTMF_INBAND || p->dtmfmode & MGCP_DTMF_HYBRID) { ast_debug(1, "Stopping DTMF using inband/hybrid\n"); res = -1; /* Tell Asterisk to stop inband indications */ } else if (p->dtmfmode & MGCP_DTMF_RFC2833) { ast_debug(1, "Stopping DTMF using RFC2833\n"); if (sub->parent->ncs) { tmp[0] = digit; tmp[1] = '\0'; } else { tmp[0] = 'D'; tmp[1] = '/'; tmp[2] = digit; tmp[3] = '\0'; } transmit_notify_request(sub, tmp); ast_rtp_instance_dtmf_end(sub->rtp, digit); } else { ast_log(LOG_ERROR, "Don't know about DTMF_MODE %d\n", p->dtmfmode); } ast_mutex_unlock(&sub->lock); return res; } /*! * \brief mgcp_devicestate: channel callback for device status monitoring * \param data tech/resource name of MGCP device to query * * Callback for device state management in channel subsystem * to obtain device status (up/down) of a specific MGCP endpoint * * \return device status result (from devicestate.h) AST_DEVICE_INVALID (not available) or AST_DEVICE_UNKNOWN (available but unknown state) */ static int mgcp_devicestate(const char *data) { struct mgcp_gateway *g; struct mgcp_endpoint *e = NULL; char *tmp, *endpt, *gw; int ret = AST_DEVICE_INVALID; endpt = ast_strdupa(data); if ((tmp = strchr(endpt, '@'))) { *tmp++ = '\0'; gw = tmp; } else goto error; ast_mutex_lock(&gatelock); for (g = gateways; g; g = g->next) { if (strcasecmp(g->name, gw) == 0) { e = g->endpoints; break; } } if (!e) goto error; for (; e; e = e->next) { if (strcasecmp(e->name, endpt) == 0) { break; } } if (!e) goto error; /* * As long as the gateway/endpoint is valid, we'll * assume that the device is available and its state * can be tracked. */ ret = AST_DEVICE_UNKNOWN; error: ast_mutex_unlock(&gatelock); return ret; } static char *control2str(int ind) { switch (ind) { case AST_CONTROL_HANGUP: return "Other end has hungup"; case AST_CONTROL_RING: return "Local ring"; case AST_CONTROL_RINGING: return "Remote end is ringing"; case AST_CONTROL_ANSWER: return "Remote end has answered"; case AST_CONTROL_BUSY: return "Remote end is busy"; case AST_CONTROL_TAKEOFFHOOK: return "Make it go off hook"; case AST_CONTROL_OFFHOOK: return "Line is off hook"; case AST_CONTROL_CONGESTION: return "Congestion (circuits busy)"; case AST_CONTROL_FLASH: return "Flash hook"; case AST_CONTROL_WINK: return "Wink"; case AST_CONTROL_OPTION: return "Set a low-level option"; case AST_CONTROL_RADIO_KEY: return "Key Radio"; case AST_CONTROL_RADIO_UNKEY: return "Un-Key Radio"; } return "UNKNOWN"; } static int mgcp_indicate(struct ast_channel *ast, int ind, const void *data, size_t datalen) { struct mgcp_subchannel *sub = ast_channel_tech_pvt(ast); int res = 0; ast_debug(3, "MGCP asked to indicate %d '%s' condition on channel %s\n", ind, control2str(ind), ast_channel_name(ast)); ast_mutex_lock(&sub->lock); switch(ind) { case AST_CONTROL_RINGING: #ifdef DLINK_BUGGY_FIRMWARE transmit_notify_request(sub, "rt"); #else if (!sub->sdpsent) { /* will hide the inband progress!!! */ transmit_notify_request(sub, sub->parent->ncs ? "L/rt" : "G/rt"); } #endif break; case AST_CONTROL_BUSY: transmit_notify_request(sub, "L/bz"); break; case AST_CONTROL_INCOMPLETE: /* We do not currently support resetting of the Interdigit Timer, so treat * Incomplete control frames as a congestion response */ case AST_CONTROL_CONGESTION: transmit_notify_request(sub, sub->parent->ncs ? "L/cg" : "G/cg"); break; case AST_CONTROL_HOLD: ast_moh_start(ast, data, NULL); break; case AST_CONTROL_UNHOLD: ast_moh_stop(ast); break; case AST_CONTROL_SRCUPDATE: ast_rtp_instance_update_source(sub->rtp); break; case AST_CONTROL_SRCCHANGE: ast_rtp_instance_change_source(sub->rtp); break; case AST_CONTROL_PROGRESS: case AST_CONTROL_PROCEEDING: transmit_modify_request(sub); case -1: transmit_notify_request(sub, ""); break; default: ast_log(LOG_WARNING, "Don't know how to indicate condition %d\n", ind); /* fallthrough */ case AST_CONTROL_PVT_CAUSE_CODE: res = -1; } ast_mutex_unlock(&sub->lock); return res; } static struct ast_channel *mgcp_new(struct mgcp_subchannel *sub, int state, const struct ast_assigned_ids *assignedids, const struct ast_channel *requestor) { struct ast_format_cap *caps = NULL; struct ast_channel *tmp; struct ast_variable *v = NULL; struct mgcp_endpoint *i = sub->parent; struct ast_format *tmpfmt; caps = ast_format_cap_alloc(AST_FORMAT_CAP_FLAG_DEFAULT); if (!caps) { ast_log(LOG_ERROR, "Format capabilities could not be created\n"); return NULL; } tmp = ast_channel_alloc(1, state, i->cid_num, i->cid_name, i->accountcode, i->exten, i->context, assignedids, requestor, i->amaflags, "MGCP/%s@%s-%d", i->name, i->parent->name, sub->id); if (!tmp) { ast_log(LOG_WARNING, "Channel could not be created\n"); ao2_ref(caps, -1); return NULL; } ast_channel_stage_snapshot(tmp); ast_channel_tech_set(tmp, &mgcp_tech); if (ast_format_cap_count(i->cap)) { ast_format_cap_append_from_cap(caps, i->cap, AST_MEDIA_TYPE_UNKNOWN); } else { ast_format_cap_append_from_cap(caps, global_capability, AST_MEDIA_TYPE_UNKNOWN); } ast_channel_nativeformats_set(tmp, caps); ao2_ref(caps, -1); if (sub->rtp) { ast_channel_set_fd(tmp, 0, ast_rtp_instance_fd(sub->rtp, 0)); } if (i->dtmfmode & (MGCP_DTMF_INBAND | MGCP_DTMF_HYBRID)) { i->dsp = ast_dsp_new(); ast_dsp_set_features(i->dsp, DSP_FEATURE_DIGIT_DETECT); /* this is to prevent clipping of dtmf tones during dsp processing */ ast_dsp_set_digitmode(i->dsp, DSP_DIGITMODE_NOQUELCH); } else { i->dsp = NULL; } if (state == AST_STATE_RING) { ast_channel_rings_set(tmp, 1); } tmpfmt = ast_format_cap_get_format(ast_channel_nativeformats(tmp), 0); ast_channel_set_writeformat(tmp, tmpfmt); ast_channel_set_rawwriteformat(tmp, tmpfmt); ast_channel_set_readformat(tmp, tmpfmt); ast_channel_set_rawreadformat(tmp, tmpfmt); ao2_ref(tmpfmt, -1); ast_channel_tech_pvt_set(tmp, sub); if (!ast_strlen_zero(i->language)) ast_channel_language_set(tmp, i->language); if (!ast_strlen_zero(i->accountcode)) ast_channel_accountcode_set(tmp, i->accountcode); if (i->amaflags) ast_channel_amaflags_set(tmp, i->amaflags); mgcp_set_owner(sub, tmp); ast_module_ref(ast_module_info->self); ast_channel_callgroup_set(tmp, i->callgroup); ast_channel_pickupgroup_set(tmp, i->pickupgroup); ast_channel_call_forward_set(tmp, i->call_forward); ast_channel_context_set(tmp, i->context); ast_channel_exten_set(tmp, i->exten); /* Don't use ast_set_callerid() here because it will * generate a needless NewCallerID event */ if (!ast_strlen_zero(i->cid_num)) { ast_channel_caller(tmp)->ani.number.valid = 1; ast_channel_caller(tmp)->ani.number.str = ast_strdup(i->cid_num); } if (!i->adsi) { ast_channel_adsicpe_set(tmp, AST_ADSI_UNAVAILABLE); } ast_channel_priority_set(tmp, 1); /* Set channel variables for this call from configuration */ for (v = i->chanvars ; v ; v = v->next) { char valuebuf[1024]; pbx_builtin_setvar_helper(tmp, v->name, ast_get_encoded_str(v->value, valuebuf, sizeof(valuebuf))); } if (sub->rtp) { ast_jb_configure(tmp, &global_jbconf); } ast_channel_stage_snapshot_done(tmp); ast_channel_unlock(tmp); if (state != AST_STATE_DOWN) { if (ast_pbx_start(tmp)) { ast_log(LOG_WARNING, "Unable to start PBX on %s\n", ast_channel_name(tmp)); ast_hangup(tmp); tmp = NULL; } } ast_verb(3, "MGCP mgcp_new(%s) created in state: %s\n", ast_channel_name(tmp), ast_state2str(state)); return tmp; } static char *get_sdp_by_line(char* line, char *name, int nameLen) { if (strncasecmp(line, name, nameLen) == 0 && line[nameLen] == '=') { char *r = line + nameLen + 1; while (*r && (*r < 33)) ++r; return r; } return ""; } static char *get_sdp(struct mgcp_request *req, char *name) { int x; int len = strlen(name); char *r; for (x = 0; x < req->lines; x++) { r = get_sdp_by_line(req->line[x], name, len); if (r[0] != '\0') return r; } return ""; } static void sdpLineNum_iterator_init(int *iterator) { *iterator = 0; } static char *get_sdp_iterate(int* iterator, struct mgcp_request *req, char *name) { int len = strlen(name); char *r; while (*iterator < req->lines) { r = get_sdp_by_line(req->line[(*iterator)++], name, len); if (r[0] != '\0') return r; } return ""; } static char *__get_header(struct mgcp_request *req, char *name, int *start, char *def) { int x; int len = strlen(name); char *r; for (x = *start; x < req->headers; x++) { if (!strncasecmp(req->header[x], name, len) && (req->header[x][len] == ':')) { r = req->header[x] + len + 1; while (*r && (*r < 33)) { r++; } *start = x + 1; return r; } } /* Don't return NULL, so get_header is always a valid pointer */ return def; } static char *get_header(struct mgcp_request *req, char *name) { int start = 0; return __get_header(req, name, &start, ""); } /*! \brief get_csv: (SC:) get comma separated value */ static char *get_csv(char *c, int *len, char **next) { char *s; *next = NULL, *len = 0; if (!c) return NULL; while (*c && (*c < 33 || *c == ',')) { c++; } s = c; while (*c && (*c >= 33 && *c != ',')) { c++, (*len)++; } *next = c; if (*len == 0) { s = NULL, *next = NULL; } return s; } static struct mgcp_gateway *find_realtime_gw(char *name, char *at, struct sockaddr_in *sin) { struct mgcp_gateway *g = NULL; struct ast_variable *mgcpgwconfig = NULL; struct ast_variable *gwv, *epname = NULL; struct mgcp_endpoint *e; char lines[256]; int i, j; ast_debug(1, "*** find Realtime MGCPGW\n"); if (!(i = ast_check_realtime("mgcpgw")) || !(j = ast_check_realtime("mgcpep"))) { return NULL; } if (ast_strlen_zero(at)) { ast_debug(1, "null gw name\n"); return NULL; } if (!(mgcpgwconfig = ast_load_realtime("mgcpgw", "name", at, NULL))) { return NULL; } /*! * \note This is a fairly odd way of instantiating lines. Instead of each * line created by virtue of being in the database (and loaded via * ast_load_realtime_multientry), this code forces a specific order with a * "lines" entry in the "mgcpgw" record. This has benefits, because as with * chan_dahdi, values are inherited across definitions. The downside is * that it's not as clear what the values will be simply by looking at a * single row in the database, and it's probable that the sanest configuration * should have the first column in the "mgcpep" table be "clearvars", with a * static value of "all", if any variables are set at all. It may be worth * making this assumption explicit in the code in the future, and then just * using ast_load_realtime_multientry for the "mgcpep" records. */ lines[0] = '\0'; for (gwv = mgcpgwconfig; gwv; gwv = gwv->next) { if (!strcasecmp(gwv->name, "lines")) { ast_copy_string(lines, gwv->value, sizeof(lines)); break; } } /* Position gwv at the end of the list */ for (gwv = gwv && gwv->next ? gwv : mgcpgwconfig; gwv->next; gwv = gwv->next); if (!ast_strlen_zero(lines)) { AST_DECLARE_APP_ARGS(args, AST_APP_ARG(line)[100]; ); AST_STANDARD_APP_ARGS(args, lines); for (i = 0; i < args.argc; i++) { gwv->next = ast_load_realtime("mgcpep", "name", at, "line", args.line[i], NULL); /* Remove "line" AND position gwv at the end of the list. */ for (epname = NULL; gwv->next; gwv = gwv->next) { if (!strcasecmp(gwv->next->name, "line")) { /* Remove it from the list */ epname = gwv->next; gwv->next = gwv->next->next; } } /* Since "line" instantiates the configuration, we have to move it to the end. */ if (epname) { gwv->next = epname; epname->next = NULL; gwv = gwv->next; } } } for (gwv = mgcpgwconfig; gwv; gwv = gwv->next) { ast_debug(1, "MGCP Realtime var: %s => %s\n", gwv->name, gwv->value); } if (mgcpgwconfig) { g = build_gateway(at, mgcpgwconfig); ast_variables_destroy(mgcpgwconfig); } if (g) { g->next = gateways; g->realtime = 1; gateways = g; for (e = g->endpoints; e; e = e->next) { transmit_audit_endpoint(e); e->needaudit = 0; } } return g; } static struct mgcp_subchannel *find_subchannel_and_lock(char *name, int msgid, struct sockaddr_in *sin) { struct mgcp_endpoint *p = NULL; struct mgcp_subchannel *sub = NULL; struct mgcp_gateway *g; char tmp[256] = ""; char *at = NULL, *c; int found = 0; if (name) { ast_copy_string(tmp, name, sizeof(tmp)); at = strchr(tmp, '@'); if (!at) { ast_log(LOG_NOTICE, "Endpoint '%s' has no at sign!\n", name); return NULL; } *at++ = '\0'; } ast_mutex_lock(&gatelock); if (at && (at[0] == '[')) { at++; c = strrchr(at, ']'); if (c) { *c = '\0'; } } for (g = gateways ? gateways : find_realtime_gw(name, at, sin); g; g = g->next ? g->next : find_realtime_gw(name, at, sin)) { if ((!name || !strcasecmp(g->name, at)) && (sin || g->addr.sin_addr.s_addr || g->defaddr.sin_addr.s_addr)) { /* Found the gateway. If it's dynamic, save it's address -- now for the endpoint */ if (sin && g->dynamic && name) { if ((g->addr.sin_addr.s_addr != sin->sin_addr.s_addr) || (g->addr.sin_port != sin->sin_port)) { memcpy(&g->addr, sin, sizeof(g->addr)); { struct ast_sockaddr tmp1, tmp2; struct sockaddr_in tmp3 = {0,}; tmp3.sin_addr = g->ourip; ast_sockaddr_from_sin(&tmp1, &g->addr); ast_sockaddr_from_sin(&tmp2, &tmp3); if (ast_ouraddrfor(&tmp1, &tmp2)) { memcpy(&g->ourip, &__ourip, sizeof(g->ourip)); } ast_sockaddr_to_sin(&tmp2, &tmp3); g->ourip = tmp3.sin_addr; } ast_verb(3, "Registered MGCP gateway '%s' at %s port %d\n", g->name, ast_inet_ntoa(g->addr.sin_addr), ntohs(g->addr.sin_port)); } /* not dynamic, check if the name matches */ } else if (name) { if (strcasecmp(g->name, at)) { continue; } /* not dynamic, no name, check if the addr matches */ } else if (!name && sin) { if ((g->addr.sin_addr.s_addr != sin->sin_addr.s_addr) || (g->addr.sin_port != sin->sin_port)) { continue; } } else { continue; } for (p = g->endpoints; p; p = p->next) { ast_debug(1, "Searching on %s@%s for subchannel\n", p->name, g->name); if (msgid) { sub = p->sub; found = 1; break; } else if (name && !strcasecmp(p->name, tmp)) { ast_debug(1, "Coundn't determine subchannel, assuming current master %s@%s-%d\n", p->name, g->name, p->sub->id); sub = p->sub; found = 1; break; } } if (sub && found) { ast_mutex_lock(&sub->lock); break; } } } ast_mutex_unlock(&gatelock); if (!sub) { if (name) { if (g) { ast_log(LOG_NOTICE, "Endpoint '%s' not found on gateway '%s'\n", tmp, at); } else { ast_log(LOG_NOTICE, "Gateway '%s' (and thus its endpoint '%s') does not exist\n", at, tmp); } } } return sub; } static void parse(struct mgcp_request *req) { /* Divide fields by NULL's */ char *c; int f = 0; c = req->data; /* First header starts immediately */ req->header[f] = c; for (; *c; c++) { if (*c == '\n') { /* We've got a new header */ *c = 0; ast_debug(3, "Header: %s (%d)\n", req->header[f], (int) strlen(req->header[f])); if (ast_strlen_zero(req->header[f])) { /* Line by itself means we're now in content */ c++; break; } if (f >= MGCP_MAX_HEADERS - 1) { ast_log(LOG_WARNING, "Too many MGCP headers...\n"); } else { f++; } req->header[f] = c + 1; } else if (*c == '\r') { /* Ignore but eliminate \r's */ *c = 0; } } /* Check for last header */ if (!ast_strlen_zero(req->header[f])) { f++; } req->headers = f; /* Now we process any mime content */ f = 0; req->line[f] = c; for (; *c; c++) { if (*c == '\n') { /* We've got a new line */ *c = 0; ast_debug(3, "Line: %s (%d)\n", req->line[f], (int) strlen(req->line[f])); if (f >= MGCP_MAX_LINES - 1) { ast_log(LOG_WARNING, "Too many SDP lines...\n"); } else { f++; } req->line[f] = c + 1; } else if (*c == '\r') { /* Ignore and eliminate \r's */ *c = 0; } } /* Check for last line */ if (!ast_strlen_zero(req->line[f])) { f++; } req->lines = f; /* Parse up the initial header */ c = req->header[0]; while (*c && *c < 33) c++; /* First the verb */ req->verb = c; while (*c && (*c > 32)) c++; if (*c) { *c = '\0'; c++; while (*c && (*c < 33)) c++; req->identifier = c; while (*c && (*c > 32)) c++; if (*c) { *c = '\0'; c++; while (*c && (*c < 33)) c++; req->endpoint = c; while (*c && (*c > 32)) c++; if (*c) { *c = '\0'; c++; while (*c && (*c < 33)) c++; req->version = c; while (*c && (*c > 32)) c++; while (*c && (*c < 33)) c++; while (*c && (*c > 32)) c++; *c = '\0'; } } } ast_debug(1, "Verb: '%s', Identifier: '%s', Endpoint: '%s', Version: '%s'\n", req->verb, req->identifier, req->endpoint, req->version); ast_debug(1, "%d headers, %d lines\n", req->headers, req->lines); if (*c) { ast_log(LOG_WARNING, "Odd content, extra stuff left over ('%s')\n", c); } } static int process_sdp(struct mgcp_subchannel *sub, struct mgcp_request *req) { char *m; char *c; char *a; char host[258]; int len = 0; int portno; struct ast_format_cap *peercap; int peerNonCodecCapability; struct ast_sockaddr addr = { {0,} }; char *codecs; int codec, codec_count=0; int iterator; struct mgcp_endpoint *p = sub->parent; struct ast_str *global_buf = ast_str_alloca(AST_FORMAT_CAP_NAMES_LEN); struct ast_str *peer_buf = ast_str_alloca(AST_FORMAT_CAP_NAMES_LEN); struct ast_str *pvt_buf = ast_str_alloca(AST_FORMAT_CAP_NAMES_LEN); /* Get codec and RTP info from SDP */ m = get_sdp(req, "m"); c = get_sdp(req, "c"); if (ast_strlen_zero(m) || ast_strlen_zero(c)) { ast_log(LOG_WARNING, "Insufficient information for SDP (m = '%s', c = '%s')\n", m, c); return -1; } if (sscanf(c, "IN IP4 %256s", host) != 1) { ast_log(LOG_WARNING, "Invalid host in c= line, '%s'\n", c); return -1; } /* XXX This could block for a long time, and block the main thread! XXX */ if (ast_sockaddr_resolve_first_af(&addr, host, PARSE_PORT_FORBID, AF_INET)) { ast_log(LOG_WARNING, "Unable to lookup host in c= line, '%s'\n", c); return -1; } if (sscanf(m, "audio %30d RTP/AVP %n", &portno, &len) != 1 || !len) { ast_log(LOG_WARNING, "Malformed media stream descriptor: %s\n", m); return -1; } ast_sockaddr_set_port(&addr, portno); ast_rtp_instance_set_remote_address(sub->rtp, &addr); ast_debug(3, "Peer RTP is at port %s\n", ast_sockaddr_stringify(&addr)); /* Scan through the RTP payload types specified in a "m=" line: */ codecs = ast_strdupa(m + len); while (!ast_strlen_zero(codecs)) { if (sscanf(codecs, "%30d%n", &codec, &len) != 1) { if (codec_count) { break; } ast_log(LOG_WARNING, "Error in codec string '%s' at '%s'\n", m, codecs); return -1; } ast_rtp_codecs_payloads_set_m_type(ast_rtp_instance_get_codecs(sub->rtp), sub->rtp, codec); codec_count++; codecs += len; } /* Next, scan through each "a=rtpmap:" line, noting each */ /* specified RTP payload type (with corresponding MIME subtype): */ sdpLineNum_iterator_init(&iterator); while ((a = get_sdp_iterate(&iterator, req, "a"))[0] != '\0') { char* mimeSubtype = ast_strdupa(a); /* ensures we have enough space */ if (sscanf(a, "rtpmap: %30d %127[^/]/", &codec, mimeSubtype) != 2) continue; /* Note: should really look at the 'freq' and '#chans' params too */ ast_rtp_codecs_payloads_set_rtpmap_type(ast_rtp_instance_get_codecs(sub->rtp), sub->rtp, codec, "audio", mimeSubtype, 0); } /* Now gather all of the codecs that were asked for: */ if (!(peercap = ast_format_cap_alloc(AST_FORMAT_CAP_FLAG_DEFAULT))) { return -1; } ast_rtp_codecs_payload_formats(ast_rtp_instance_get_codecs(sub->rtp), peercap, &peerNonCodecCapability); ast_format_cap_get_compatible(global_capability, peercap, p->cap); ast_debug(1, "Capabilities: us - %s, them - %s, combined - %s\n", ast_format_cap_get_names(global_capability, &global_buf), ast_format_cap_get_names(peercap, &peer_buf), ast_format_cap_get_names(p->cap, &pvt_buf)); ao2_ref(peercap, -1); ast_debug(1, "Non-codec capabilities: us - %d, them - %d, combined - %d\n", nonCodecCapability, peerNonCodecCapability, p->nonCodecCapability); if (!ast_format_cap_count(p->cap)) { ast_log(LOG_WARNING, "No compatible codecs!\n"); return -1; } return 0; } static int add_header(struct mgcp_request *req, const char *var, const char *value) { if (req->len >= sizeof(req->data) - 4) { ast_log(LOG_WARNING, "Out of space, can't add anymore\n"); return -1; } if (req->lines) { ast_log(LOG_WARNING, "Can't add more headers when lines have been added\n"); return -1; } req->header[req->headers] = req->data + req->len; snprintf(req->header[req->headers], sizeof(req->data) - req->len, "%s: %s\r\n", var, value); req->len += strlen(req->header[req->headers]); if (req->headers < MGCP_MAX_HEADERS) { req->headers++; } else { ast_log(LOG_WARNING, "Out of header space\n"); return -1; } return 0; } static int add_line(struct mgcp_request *req, char *line) { if (req->len >= sizeof(req->data) - 4) { ast_log(LOG_WARNING, "Out of space, can't add anymore\n"); return -1; } if (!req->lines) { /* Add extra empty return */ ast_copy_string(req->data + req->len, "\r\n", sizeof(req->data) - req->len); req->len += strlen(req->data + req->len); } req->line[req->lines] = req->data + req->len; snprintf(req->line[req->lines], sizeof(req->data) - req->len, "%s", line); req->len += strlen(req->line[req->lines]); if (req->lines < MGCP_MAX_LINES) { req->lines++; } else { ast_log(LOG_WARNING, "Out of line space\n"); return -1; } return 0; } static int init_resp(struct mgcp_request *req, char *resp, struct mgcp_request *orig, char *resprest) { /* Initialize a response */ if (req->headers || req->len) { ast_log(LOG_WARNING, "Request already initialized?!?\n"); return -1; } req->header[req->headers] = req->data + req->len; snprintf(req->header[req->headers], sizeof(req->data) - req->len, "%s %s %s\r\n", resp, orig->identifier, resprest); req->len += strlen(req->header[req->headers]); if (req->headers < MGCP_MAX_HEADERS) { req->headers++; } else { ast_log(LOG_WARNING, "Out of header space\n"); } return 0; } static int init_req(struct mgcp_endpoint *p, struct mgcp_request *req, char *verb, unsigned int oseq) { /* Initialize a response */ if (req->headers || req->len) { ast_log(LOG_WARNING, "Request already initialized?!?\n"); return -1; } req->header[req->headers] = req->data + req->len; /* check if we need brackets around the gw name */ if (p->parent->isnamedottedip) { snprintf(req->header[req->headers], sizeof(req->data) - req->len, "%s %u %s@[%s] MGCP 1.0%s\r\n", verb, oseq, p->name, p->parent->name, p->ncs ? " NCS 1.0" : ""); } else { + snprintf(req->header[req->headers], sizeof(req->data) - req->len, "%s %u %s@%s MGCP 1.0%s\r\n", verb, oseq, p->name, p->parent->name, p->ncs ? " NCS 1.0" : ""); } req->len += strlen(req->header[req->headers]); if (req->headers < MGCP_MAX_HEADERS) { req->headers++; } else { ast_log(LOG_WARNING, "Out of header space\n"); } return 0; } static int respprep(struct mgcp_request *resp, struct mgcp_endpoint *p, char *msg, struct mgcp_request *req, char *msgrest) { memset(resp, 0, sizeof(*resp)); init_resp(resp, msg, req, msgrest); return 0; } static int reqprep(struct mgcp_request *req, struct mgcp_endpoint *p, char *verb) { unsigned int oseq; memset(req, 0, sizeof(struct mgcp_request)); ast_mutex_lock(&oseq_lock); oseq_global++; if (oseq_global > 999999999) { oseq_global = 1; } oseq = oseq_global; ast_mutex_unlock(&oseq_lock); init_req(p, req, verb, oseq); return oseq; } static int transmit_response(struct mgcp_subchannel *sub, char *msg, struct mgcp_request *req, char *msgrest) { struct mgcp_request resp; struct mgcp_endpoint *p = sub->parent; struct mgcp_response *mgr; if (!sub) { return -1; } respprep(&resp, p, msg, req, msgrest); if (!(mgr = ast_calloc(1, sizeof(*mgr) + resp.len + 1))) { return send_response(sub, &resp); } /* Store MGCP response in case we have to retransmit */ sscanf(req->identifier, "%30d", &mgr->seqno); time(&mgr->whensent); mgr->len = resp.len; memcpy(mgr->buf, resp.data, resp.len); mgr->buf[resp.len] = '\0'; mgr->next = p->parent->responses; p->parent->responses = mgr; return send_response(sub, &resp); } static int add_sdp(struct mgcp_request *resp, struct mgcp_subchannel *sub, struct ast_rtp_instance *rtp) { int len; int codec; char costr[80]; struct sockaddr_in sin; struct ast_sockaddr sin_tmp; char v[256]; char s[256]; char o[256]; char c[256]; char t[256]; char m[256] = ""; char a[1024] = ""; int x; struct sockaddr_in dest = { 0, }; struct ast_sockaddr dest_tmp; struct mgcp_endpoint *p = sub->parent; /* XXX We break with the "recommendation" and send our IP, in order that our peer doesn't have to ast_gethostbyname() us XXX */ len = 0; if (!sub->rtp) { ast_log(LOG_WARNING, "No way to add SDP without an RTP structure\n"); return -1; } ast_rtp_instance_get_local_address(sub->rtp, &sin_tmp); ast_sockaddr_to_sin(&sin_tmp, &sin); if (rtp) { ast_rtp_instance_get_remote_address(sub->rtp, &dest_tmp); ast_sockaddr_to_sin(&dest_tmp, &dest); } else { if (sub->tmpdest.sin_addr.s_addr) { dest.sin_addr = sub->tmpdest.sin_addr; dest.sin_port = sub->tmpdest.sin_port; /* Reset temporary destination */ memset(&sub->tmpdest, 0, sizeof(sub->tmpdest)); } else { dest.sin_addr = p->parent->ourip; dest.sin_port = sin.sin_port; } } ast_debug(1, "We're at %s port %d\n", ast_inet_ntoa(p->parent->ourip), ntohs(sin.sin_port)); ast_copy_string(v, "v=0\r\n", sizeof(v)); snprintf(o, sizeof(o), "o=root %d %d IN IP4 %s\r\n", (int)getpid(), (int)getpid(), ast_inet_ntoa(dest.sin_addr)); ast_copy_string(s, "s=session\r\n", sizeof(s)); snprintf(c, sizeof(c), "c=IN IP4 %s\r\n", ast_inet_ntoa(dest.sin_addr)); ast_copy_string(t, "t=0 0\r\n", sizeof(t)); snprintf(m, sizeof(m), "m=audio %d RTP/AVP", ntohs(dest.sin_port)); for (x = 0; x < ast_format_cap_count(p->cap); x++) { struct ast_format *format = ast_format_cap_get_format(p->cap, x); if (ast_format_get_type(format) != AST_MEDIA_TYPE_AUDIO) { ao2_ref(format, -1); continue; } ast_debug(1, "Answering with capability %s\n", ast_format_get_name(format)); codec = ast_rtp_codecs_payload_code(ast_rtp_instance_get_codecs(sub->rtp), 1, format, 0); if (codec > -1) { snprintf(costr, sizeof(costr), " %d", codec); strncat(m, costr, sizeof(m) - strlen(m) - 1); snprintf(costr, sizeof(costr), "a=rtpmap:%d %s/8000\r\n", codec, ast_rtp_lookup_mime_subtype2(1, format, 0, 0)); strncat(a, costr, sizeof(a) - strlen(a) - 1); } ao2_ref(format, -1); } for (x = 1LL; x <= AST_RTP_MAX; x <<= 1) { if (p->nonCodecCapability & x) { ast_debug(1, "Answering with non-codec capability %d\n", (int) x); codec = ast_rtp_codecs_payload_code(ast_rtp_instance_get_codecs(sub->rtp), 0, NULL, x); if (codec > -1) { snprintf(costr, sizeof(costr), " %d", codec); strncat(m, costr, sizeof(m) - strlen(m) - 1); snprintf(costr, sizeof(costr), "a=rtpmap:%d %s/8000\r\n", codec, ast_rtp_lookup_mime_subtype2(0, NULL, x, 0)); strncat(a, costr, sizeof(a) - strlen(a) - 1); if (x == AST_RTP_DTMF) { /* Indicate we support DTMF... Not sure about 16, but MSN supports it so dang it, we will too... */ snprintf(costr, sizeof costr, "a=fmtp:%d 0-16\r\n", codec); strncat(a, costr, sizeof(a) - strlen(a) - 1); } } } } strncat(m, "\r\n", sizeof(m) - strlen(m) - 1); len = strlen(v) + strlen(s) + strlen(o) + strlen(c) + strlen(t) + strlen(m) + strlen(a); snprintf(costr, sizeof(costr), "%d", len); add_line(resp, v); add_line(resp, o); add_line(resp, s); add_line(resp, c); add_line(resp, t); add_line(resp, m); add_line(resp, a); return 0; } static int transmit_modify_with_sdp(struct mgcp_subchannel *sub, struct ast_rtp_instance *rtp, const struct ast_format_cap *codecs) { struct mgcp_request resp; char local[256]; char tmp[80]; struct mgcp_endpoint *p = sub->parent; int i; struct ast_sockaddr sub_tmpdest_tmp; unsigned int oseq; if (ast_strlen_zero(sub->cxident) && rtp) { /* We don't have a CXident yet, store the destination and wait a bit */ ast_rtp_instance_get_remote_address(rtp, &sub_tmpdest_tmp); ast_sockaddr_to_sin(&sub_tmpdest_tmp, &sub->tmpdest); return 0; } ast_copy_string(local, "e:on, s:off, p:20", sizeof(local)); for (i = 0; i < ast_format_cap_count(p->cap); i++) { struct ast_format *format = ast_format_cap_get_format(p->cap, i); if (ast_format_get_type(format) != AST_MEDIA_TYPE_AUDIO) { ao2_ref(format, -1); continue; } snprintf(tmp, sizeof(tmp), ", a:%s", ast_rtp_lookup_mime_subtype2(1, format, 0, 0)); strncat(local, tmp, sizeof(local) - strlen(local) - 1); ao2_ref(format, -1); } if (sub->gate) { if (sub->gate->state == GATE_ALLOCATED || sub->gate->state == GATE_OPEN) { snprintf(tmp, sizeof(tmp), ", dq-gi:%x", sub->gate->gateid); strncat(local, tmp, sizeof(local) - strlen(local) - 1); sub->sdpsent = 1; } else { /* oops wait */ ast_debug(1, "Waiting for opened gate...\n"); sub->sdpsent = 0; return 0; } } oseq = reqprep(&resp, p, "MDCX"); add_header(&resp, "C", sub->callid); add_header(&resp, "L", local); add_header(&resp, "M", mgcp_cxmodes[sub->cxmode]); /* X header should not be sent. kept for compatibility */ add_header(&resp, "X", sub->txident); add_header(&resp, "I", sub->cxident); /*add_header(&resp, "S", "");*/ add_sdp(&resp, sub, rtp); /* fill in new fields */ resp.cmd = MGCP_CMD_MDCX; resp.trid = oseq; return send_request(p, sub, &resp, oseq); } static int transmit_connect_with_sdp(struct mgcp_subchannel *sub, struct ast_rtp_instance *rtp) { struct mgcp_request resp; char local[256]; char tmp[80]; int i; struct mgcp_endpoint *p = sub->parent; unsigned int oseq; ast_debug(3, "Creating connection for %s@%s-%d in cxmode: %s callid: %s\n", p->name, p->parent->name, sub->id, mgcp_cxmodes[sub->cxmode], sub->callid); ast_copy_string(local, "e:on, s:off, p:20", sizeof(local)); for (i = 0; i < ast_format_cap_count(p->cap); i++) { struct ast_format *format = ast_format_cap_get_format(p->cap, i); if (ast_format_get_type(format) != AST_MEDIA_TYPE_AUDIO) { ao2_ref(format, -1); continue; } snprintf(tmp, sizeof(tmp), ", a:%s", ast_rtp_lookup_mime_subtype2(1, format, 0, 0)); strncat(local, tmp, sizeof(local) - strlen(local) - 1); ao2_ref(format, -1); } if (sub->gate) { if(sub->gate->state == GATE_ALLOCATED) { snprintf(tmp, sizeof(tmp), ", dq-gi:%x", sub->gate->gateid); strncat(local, tmp, sizeof(local) - strlen(local) - 1); } } sub->sdpsent = 1; oseq = reqprep(&resp, p, "CRCX"); add_header(&resp, "C", sub->callid); add_header(&resp, "L", local); add_header(&resp, "M", mgcp_cxmodes[sub->cxmode]); /* X header should not be sent. kept for compatibility */ add_header(&resp, "X", sub->txident); /*add_header(&resp, "S", "");*/ add_sdp(&resp, sub, rtp); /* fill in new fields */ resp.cmd = MGCP_CMD_CRCX; resp.trid = oseq; return send_request(p, sub, &resp, oseq); } static int mgcp_pktcgate_remove(struct cops_gate *gate) { struct mgcp_subchannel *sub = gate->tech_pvt; if (!sub) { return 1; } ast_mutex_lock(&sub->lock); ast_debug(1, "Pktc: gate 0x%x deleted\n", gate->gateid); if (sub->gate->state != GATE_CLOSED && sub->parent->hangupongateremove) { sub->gate = NULL; if (sub->owner) { ast_softhangup(sub->owner, AST_CAUSE_REQUESTED_CHAN_UNAVAIL); ast_channel_unlock(sub->owner); } } else { sub->gate = NULL; } ast_mutex_unlock(&sub->lock); return 1; } static int mgcp_pktcgate_open(struct cops_gate *gate) { struct mgcp_subchannel *sub = gate->tech_pvt; if (!sub) { return 1; } ast_mutex_lock(&sub->lock); ast_debug(1, "Pktc: gate 0x%x open\n", gate->gateid); if (!sub->sdpsent) transmit_modify_with_sdp(sub, NULL, 0); ast_mutex_unlock(&sub->lock); return 1; } static int mgcp_alloc_pktcgate(struct mgcp_subchannel *sub) { struct mgcp_endpoint *p = sub->parent; sub->gate = ast_pktccops_gate_alloc(GATE_SET, NULL, ntohl(p->parent->addr.sin_addr.s_addr), 8, 128000, 232, 0, 0, NULL, &mgcp_pktcgate_remove); if (!sub->gate) { return 0; } sub->gate->tech_pvt = sub; sub->gate->gate_open = &mgcp_pktcgate_open; return 1; } static int transmit_connect(struct mgcp_subchannel *sub) { struct mgcp_request resp; int x; char local[256]; char tmp[80]; struct ast_format *tmpfmt; struct mgcp_endpoint *p = sub->parent; unsigned int oseq; ast_copy_string(local, "p:20, s:off, e:on", sizeof(local)); for (x = 0; x < ast_format_cap_count(p->cap); x++) { tmpfmt = ast_format_cap_get_format(p->cap, x); snprintf(tmp, sizeof(tmp), ", a:%s", ast_rtp_lookup_mime_subtype2(1, tmpfmt, 0, 0)); strncat(local, tmp, sizeof(local) - strlen(local) - 1); ao2_ref(tmpfmt, -1); } ast_debug(3, "Creating connection for %s@%s-%d in cxmode: %s callid: %s\n", p->name, p->parent->name, sub->id, mgcp_cxmodes[sub->cxmode], sub->callid); sub->sdpsent = 0; oseq = reqprep(&resp, p, "CRCX"); add_header(&resp, "C", sub->callid); add_header(&resp, "L", local); add_header(&resp, "M", "inactive"); /* X header should not be sent. kept for compatibility */ add_header(&resp, "X", sub->txident); /*add_header(&resp, "S", "");*/ /* fill in new fields */ resp.cmd = MGCP_CMD_CRCX; resp.trid = oseq; return send_request(p, sub, &resp, oseq); } static int transmit_notify_request(struct mgcp_subchannel *sub, char *tone) { struct mgcp_request resp; struct mgcp_endpoint *p = sub->parent; unsigned int oseq; ast_debug(3, "MGCP Asked to indicate tone: %s on %s@%s-%d in cxmode: %s\n", tone, p->name, p->parent->name, sub->id, mgcp_cxmodes[sub->cxmode]); ast_copy_string(p->curtone, tone, sizeof(p->curtone)); oseq = reqprep(&resp, p, "RQNT"); add_header(&resp, "X", p->rqnt_ident); switch (p->hookstate) { case MGCP_ONHOOK: add_header(&resp, "R", "L/hd(N)"); break; case MGCP_OFFHOOK: add_header_offhook(sub, &resp, tone); break; } if (!ast_strlen_zero(tone)) { add_header(&resp, "S", tone); } /* fill in new fields */ resp.cmd = MGCP_CMD_RQNT; resp.trid = oseq; return send_request(p, NULL, &resp, oseq); } static int transmit_notify_request_with_callerid(struct mgcp_subchannel *sub, char *tone, char *callernum, char *callername) { struct mgcp_request resp; char tone2[256]; char *l, *n; struct timeval t = ast_tvnow(); struct ast_tm tm; struct mgcp_endpoint *p = sub->parent; unsigned int oseq; ast_localtime(&t, &tm, NULL); n = callername; l = callernum; if (!n) n = ""; if (!l) l = ""; /* Keep track of last callerid for blacklist and callreturn */ ast_copy_string(p->lastcallerid, l, sizeof(p->lastcallerid)); snprintf(tone2, sizeof(tone2), "%s,L/ci(%02d/%02d/%02d/%02d,%s,%s)", tone, tm.tm_mon + 1, tm.tm_mday, tm.tm_hour, tm.tm_min, l, n); ast_copy_string(p->curtone, tone, sizeof(p->curtone)); oseq = reqprep(&resp, p, "RQNT"); add_header(&resp, "X", p->rqnt_ident); switch (p->hookstate) { case MGCP_ONHOOK: add_header(&resp, "R", "L/hd(N)"); break; case MGCP_OFFHOOK: add_header_offhook(sub, &resp, tone); break; } if (!ast_strlen_zero(tone2)) { add_header(&resp, "S", tone2); } ast_debug(3, "MGCP Asked to indicate tone: %s on %s@%s-%d in cxmode: %s\n", tone2, p->name, p->parent->name, sub->id, mgcp_cxmodes[sub->cxmode]); /* fill in new fields */ resp.cmd = MGCP_CMD_RQNT; resp.trid = oseq; return send_request(p, NULL, &resp, oseq); } static int transmit_modify_request(struct mgcp_subchannel *sub) { struct mgcp_request resp; struct mgcp_endpoint *p = sub->parent; int i; int fc = 1; char local[256]; char tmp[80]; unsigned int oseq; if (ast_strlen_zero(sub->cxident)) { /* We don't have a CXident yet, store the destination and wait a bit */ return 0; } ast_debug(3, "Modified %s@%s-%d with new mode: %s on callid: %s\n", p->name, p->parent->name, sub->id, mgcp_cxmodes[sub->cxmode], sub->callid); ast_copy_string(local, "", sizeof(local)); for (i = 0; i < ast_format_cap_count(p->cap); i++) { struct ast_format *format = ast_format_cap_get_format(p->cap, i); if (p->ncs && !fc) { ast_format_cap_remove_by_type(p->cap, AST_MEDIA_TYPE_UNKNOWN); ast_format_cap_append(p->cap, format, 0); /* sb5120e bug */ ao2_ref(format, -1); break; } else { fc = 0; snprintf(tmp, sizeof(tmp), ", a:%s", ast_rtp_lookup_mime_subtype2(1, format, 0, 0)); } strncat(local, tmp, sizeof(local) - strlen(local) - 1); ao2_ref(format, -1); } if (!sub->sdpsent) { if (sub->gate) { if (sub->gate->state == GATE_ALLOCATED || sub->gate->state == GATE_OPEN) { snprintf(tmp, sizeof(tmp), ", dq-gi:%x", sub->gate->gateid); strncat(local, tmp, sizeof(local) - strlen(local) - 1); } else { /* we still don't have gateid wait */ return 0; } } } oseq = reqprep(&resp, p, "MDCX"); add_header(&resp, "C", sub->callid); if (!sub->sdpsent) { add_header(&resp, "L", local); } add_header(&resp, "M", mgcp_cxmodes[sub->cxmode]); /* X header should not be sent. kept for compatibility */ add_header(&resp, "X", sub->txident); add_header(&resp, "I", sub->cxident); switch (sub->parent->hookstate) { case MGCP_ONHOOK: add_header(&resp, "R", "L/hd(N)"); break; case MGCP_OFFHOOK: add_header_offhook(sub, &resp, ""); break; } if (!sub->sdpsent) { add_sdp(&resp, sub, NULL); sub->sdpsent = 1; } /* fill in new fields */ resp.cmd = MGCP_CMD_MDCX; resp.trid = oseq; return send_request(p, sub, &resp, oseq); } static void add_header_offhook(struct mgcp_subchannel *sub, struct mgcp_request *resp, char *tone) { struct mgcp_endpoint *p = sub->parent; char tone_indicate_end = 0; /* We also should check the tone to indicate, because it have no sense to request notify D/[0-9#*] (dtmf keys) if we are sending congestion tone for example G/cg */ if (p && (!strcasecmp(tone, (p->ncs ? "L/ro" : "G/cg")))) { tone_indicate_end = 1; } if (p && p->sub && p->sub->owner && ast_channel_state(p->sub->owner) >= AST_STATE_RINGING && (p->dtmfmode & (MGCP_DTMF_INBAND | MGCP_DTMF_HYBRID))) { add_header(resp, "R", "L/hu(N),L/hf(N)"); } else if (!tone_indicate_end){ add_header(resp, "R", (p->ncs ? "L/hu(N),L/hf(N),L/[0-9#*](N)" : "L/hu(N),L/hf(N),D/[0-9#*](N)")); } else { ast_debug(1, "We don't want more digits if we will end the call\n"); add_header(resp, "R", "L/hu(N),L/hf(N)"); } } static int transmit_audit_endpoint(struct mgcp_endpoint *p) { struct mgcp_request resp; unsigned int oseq; oseq = reqprep(&resp, p, "AUEP"); /* removed unknown param VS */ /*add_header(&resp, "F", "A,R,D,S,X,N,I,T,O,ES,E,MD,M");*/ add_header(&resp, "F", "A"); /* fill in new fields */ resp.cmd = MGCP_CMD_AUEP; resp.trid = oseq; return send_request(p, NULL, &resp, oseq); } static int transmit_connection_del(struct mgcp_subchannel *sub) { struct mgcp_endpoint *p = sub->parent; struct mgcp_request resp; unsigned int oseq; ast_debug(3, "Delete connection %s %s@%s-%d with new mode: %s on callid: %s\n", sub->cxident, p->name, p->parent->name, sub->id, mgcp_cxmodes[sub->cxmode], sub->callid); oseq = reqprep(&resp, p, "DLCX"); /* check if call id is avail */ if (sub->callid[0]) add_header(&resp, "C", sub->callid); /* X header should not be sent. kept for compatibility */ add_header(&resp, "X", sub->txident); /* check if cxident is avail */ if (sub->cxident[0]) add_header(&resp, "I", sub->cxident); /* fill in new fields */ resp.cmd = MGCP_CMD_DLCX; resp.trid = oseq; return send_request(p, sub, &resp, oseq); } static int transmit_connection_del_w_params(struct mgcp_endpoint *p, char *callid, char *cxident) { struct mgcp_request resp; unsigned int oseq; ast_debug(3, "Delete connection %s %s@%s on callid: %s\n", cxident ? cxident : "", p->name, p->parent->name, callid ? callid : ""); oseq = reqprep(&resp, p, "DLCX"); /* check if call id is avail */ if (callid && *callid) add_header(&resp, "C", callid); /* check if cxident is avail */ if (cxident && *cxident) add_header(&resp, "I", cxident); /* fill in new fields */ resp.cmd = MGCP_CMD_DLCX; resp.trid = oseq; return send_request(p, p->sub, &resp, oseq); } /*! \brief dump_cmd_queues: (SC:) cleanup pending commands */ static void dump_cmd_queues(struct mgcp_endpoint *p, struct mgcp_subchannel *sub) { struct mgcp_request *t, *q; if (p) { ast_mutex_lock(&p->rqnt_queue_lock); for (q = p->rqnt_queue; q; t = q->next, ast_free(q), q=t); p->rqnt_queue = NULL; ast_mutex_unlock(&p->rqnt_queue_lock); ast_mutex_lock(&p->cmd_queue_lock); for (q = p->cmd_queue; q; t = q->next, ast_free(q), q=t); p->cmd_queue = NULL; ast_mutex_unlock(&p->cmd_queue_lock); ast_mutex_lock(&p->sub->cx_queue_lock); for (q = p->sub->cx_queue; q; t = q->next, ast_free(q), q=t); p->sub->cx_queue = NULL; ast_mutex_unlock(&p->sub->cx_queue_lock); ast_mutex_lock(&p->sub->next->cx_queue_lock); for (q = p->sub->next->cx_queue; q; t = q->next, ast_free(q), q=t); p->sub->next->cx_queue = NULL; ast_mutex_unlock(&p->sub->next->cx_queue_lock); } else if (sub) { ast_mutex_lock(&sub->cx_queue_lock); for (q = sub->cx_queue; q; t = q->next, ast_free(q), q=t); sub->cx_queue = NULL; ast_mutex_unlock(&sub->cx_queue_lock); } } /*! \brief find_command: (SC:) remove command transaction from queue */ static struct mgcp_request *find_command(struct mgcp_endpoint *p, struct mgcp_subchannel *sub, struct mgcp_request **queue, ast_mutex_t *l, int ident) { struct mgcp_request *prev, *req; ast_mutex_lock(l); for (prev = NULL, req = *queue; req; prev = req, req = req->next) { if (req->trid == ident) { /* remove from queue */ if (!prev) *queue = req->next; else prev->next = req->next; /* send next pending command */ if (*queue) { ast_debug(1, "Posting Queued Request:\n%s to %s:%d\n", (*queue)->data, ast_inet_ntoa(p->parent->addr.sin_addr), ntohs(p->parent->addr.sin_port)); mgcp_postrequest(p, sub, (*queue)->data, (*queue)->len, (*queue)->trid); } break; } } ast_mutex_unlock(l); return req; } /* modified for new transport mechanism */ static void handle_response(struct mgcp_endpoint *p, struct mgcp_subchannel *sub, int result, unsigned int ident, struct mgcp_request *resp) { char *c; struct mgcp_request *req; struct mgcp_gateway *gw = p->parent; if (result < 200) { /* provisional response */ return; } if (p->slowsequence) req = find_command(p, sub, &p->cmd_queue, &p->cmd_queue_lock, ident); else if (sub) req = find_command(p, sub, &sub->cx_queue, &sub->cx_queue_lock, ident); else if (!(req = find_command(p, sub, &p->rqnt_queue, &p->rqnt_queue_lock, ident))) req = find_command(p, sub, &p->cmd_queue, &p->cmd_queue_lock, ident); if (!req) { ast_verb(3, "No command found on [%s] for transaction %u. Ignoring...\n", gw->name, ident); return; } if (p && (result >= 400) && (result <= 599)) { switch (result) { case 401: p->hookstate = MGCP_OFFHOOK; break; case 402: p->hookstate = MGCP_ONHOOK; break; case 406: ast_log(LOG_NOTICE, "Transaction %u timed out\n", ident); break; case 407: ast_log(LOG_NOTICE, "Transaction %u aborted\n", ident); break; } if (sub) { if (!sub->cxident[0] && (req->cmd == MGCP_CMD_CRCX)) { ast_log(LOG_NOTICE, "DLCX for all connections on %s due to error %d\n", gw->name, result); transmit_connection_del(sub); } if (sub->owner) { ast_log(LOG_NOTICE, "Terminating on result %d from %s@%s-%d\n", result, p->name, p->parent->name, sub ? sub->id:-1); mgcp_queue_hangup(sub); } } else { if (p->sub->next->owner) { ast_log(LOG_NOTICE, "Terminating on result %d from %s@%s-%d\n", result, p->name, p->parent->name, sub ? sub->id:-1); mgcp_queue_hangup(p->sub); } if (p->sub->owner) { ast_log(LOG_NOTICE, "Terminating on result %d from %s@%s-%d\n", result, p->name, p->parent->name, sub ? sub->id:-1); mgcp_queue_hangup(p->sub); } dump_cmd_queues(p, NULL); } } if (resp) { /* responseAck: */ if (result == 200 && (req->cmd == MGCP_CMD_CRCX || req->cmd == MGCP_CMD_MDCX)) { if (sub) { transmit_response(sub, "000", resp, "OK"); if (sub->owner && ast_channel_state(sub->owner) == AST_STATE_RINGING) { ast_queue_control(sub->owner, AST_CONTROL_RINGING); } } } if (req->cmd == MGCP_CMD_CRCX) { if ((c = get_header(resp, "I"))) { if (!ast_strlen_zero(c) && sub) { /* if we are hanging up do not process this conn. */ if (sub->owner) { if (!ast_strlen_zero(sub->cxident)) { if (strcasecmp(c, sub->cxident)) { ast_log(LOG_WARNING, "Subchannel already has a cxident. sub->cxident: %s requested %s\n", sub->cxident, c); } } ast_copy_string(sub->cxident, c, sizeof(sub->cxident)); if (sub->tmpdest.sin_addr.s_addr) { transmit_modify_with_sdp(sub, NULL, 0); } } else { /* XXX delete this one callid and conn id may already be lost. so the following del conn may have a side effect of cleaning up the next subchannel */ transmit_connection_del(sub); } } } } if (req->cmd == MGCP_CMD_AUEP) { /* check stale connection ids */ if ((c = get_header(resp, "I"))) { char *v, *n; int len; while ((v = get_csv(c, &len, &n))) { if (len) { if (strncasecmp(v, p->sub->cxident, len) && strncasecmp(v, p->sub->next->cxident, len)) { /* connection id not found. delete it */ char cxident[80] = ""; if (len > (sizeof(cxident) - 1)) len = sizeof(cxident) - 1; ast_copy_string(cxident, v, len); ast_verb(3, "Non existing connection id %s on %s@%s \n", cxident, p->name, gw->name); transmit_connection_del_w_params(p, NULL, cxident); } } c = n; } } /* Try to determine the hookstate returned from an audit endpoint command */ if ((c = get_header(resp, "ES"))) { if (!ast_strlen_zero(c)) { if (strstr(c, "hu")) { if (p->hookstate != MGCP_ONHOOK) { /* XXX cleanup if we think we are offhook XXX */ if ((p->sub->owner || p->sub->next->owner ) && p->hookstate == MGCP_OFFHOOK) mgcp_queue_hangup(sub); p->hookstate = MGCP_ONHOOK; /* update the requested events according to the new hookstate */ transmit_notify_request(p->sub, ""); ast_verb(3, "Setting hookstate of %s@%s to ONHOOK\n", p->name, gw->name); } } else if (strstr(c, "hd")) { if (p->hookstate != MGCP_OFFHOOK) { p->hookstate = MGCP_OFFHOOK; /* update the requested events according to the new hookstate */ transmit_notify_request(p->sub, ""); ast_verb(3, "Setting hookstate of %s@%s to OFFHOOK\n", p->name, gw->name); } } } } } if (resp && resp->lines) { /* do not process sdp if we are hanging up. this may be a late response */ if (sub && sub->owner) { if (!sub->rtp) start_rtp(sub); if (sub->rtp) process_sdp(sub, resp); } } } ast_free(req); } static void start_rtp(struct mgcp_subchannel *sub) { struct ast_sockaddr bindaddr_tmp; ast_mutex_lock(&sub->lock); /* check again to be on the safe side */ if (sub->rtp) { ast_rtp_instance_destroy(sub->rtp); sub->rtp = NULL; } /* Allocate the RTP now */ ast_sockaddr_from_sin(&bindaddr_tmp, &bindaddr); sub->rtp = ast_rtp_instance_new("asterisk", sched, &bindaddr_tmp, NULL); if (sub->rtp && sub->owner) ast_channel_set_fd(sub->owner, 0, ast_rtp_instance_fd(sub->rtp, 0)); if (sub->rtp) { ast_rtp_instance_set_qos(sub->rtp, qos.tos_audio, qos.cos_audio, "MGCP RTP"); ast_rtp_instance_set_prop(sub->rtp, AST_RTP_PROPERTY_NAT, sub->nat); } /* Make a call*ID */ snprintf(sub->callid, sizeof(sub->callid), "%08lx%s", (unsigned long)ast_random(), sub->txident); /* Transmit the connection create */ if(!sub->parent->pktcgatealloc) { transmit_connect_with_sdp(sub, NULL); } else { transmit_connect(sub); sub->gate = NULL; if(!mgcp_alloc_pktcgate(sub)) mgcp_queue_hangup(sub); } ast_mutex_unlock(&sub->lock); } static void *mgcp_ss(void *data) { struct ast_channel *chan = data; struct mgcp_subchannel *sub = ast_channel_tech_pvt(chan); struct mgcp_endpoint *p = sub->parent; /* char exten[AST_MAX_EXTENSION] = ""; */ int len = 0; int timeout = firstdigittimeout; int res= 0; int getforward = 0; int loop_pause = 100; RAII_VAR(struct ast_features_pickup_config *, pickup_cfg, NULL, ao2_cleanup); const char *pickupexten; len = strlen(p->dtmf_buf); ast_channel_lock(chan); pickup_cfg = ast_get_chan_features_pickup_config(chan); if (!pickup_cfg) { ast_log(LOG_ERROR, "Unable to retrieve pickup configuration options. Unable to detect call pickup extension\n"); pickupexten = ""; } else { pickupexten = ast_strdupa(pickup_cfg->pickupexten); } ast_channel_unlock(chan); while (len < AST_MAX_EXTENSION - 1) { ast_debug(1, "Dtmf buffer '%s' for '%s@%s'\n", p->dtmf_buf, p->name, p->parent->name); res = 1; /* Assume that we will get a digit */ while (strlen(p->dtmf_buf) == len) { ast_safe_sleep(chan, loop_pause); timeout -= loop_pause; if (timeout <= 0){ res = 0; break; } res = 1; } timeout = 0; len = strlen(p->dtmf_buf); if (!ast_ignore_pattern(ast_channel_context(chan), p->dtmf_buf)) { /*res = tone_zone_play_tone(p->subs[index].zfd, -1);*/ ast_indicate(chan, -1); } else { /* XXX Redundant? We should already be playing dialtone */ /*tone_zone_play_tone(p->subs[index].zfd, DAHDI_TONE_DIALTONE);*/ transmit_notify_request(sub, "L/dl"); } if (ast_exists_extension(chan, ast_channel_context(chan), p->dtmf_buf, 1, p->cid_num)) { if (!res || !ast_matchmore_extension(chan, ast_channel_context(chan), p->dtmf_buf, 1, p->cid_num)) { if (getforward) { /* Record this as the forwarding extension */ ast_copy_string(p->call_forward, p->dtmf_buf, sizeof(p->call_forward)); ast_verb(3, "Setting call forward to '%s' on channel %s\n", p->call_forward, ast_channel_name(chan)); /*res = tone_zone_play_tone(p->subs[index].zfd, DAHDI_TONE_DIALRECALL);*/ transmit_notify_request(sub, "L/sl"); if (res) break; usleep(500000); /*res = tone_zone_play_tone(p->subs[index].zfd, -1);*/ ast_indicate(chan, -1); sleep(1); memset(p->dtmf_buf, 0, sizeof(p->dtmf_buf)); /*res = tone_zone_play_tone(p->subs[index].zfd, DAHDI_TONE_DIALTONE);*/ transmit_notify_request(sub, "L/dl"); len = 0; getforward = 0; } else { /*res = tone_zone_play_tone(p->subs[index].zfd, -1);*/ ast_indicate(chan, -1); ast_channel_lock(chan); ast_channel_exten_set(chan, p->dtmf_buf); ast_channel_dialed(chan)->number.str = ast_strdup(p->dtmf_buf); memset(p->dtmf_buf, 0, sizeof(p->dtmf_buf)); ast_set_callerid(chan, p->hidecallerid ? "" : p->cid_num, p->hidecallerid ? "" : p->cid_name, ast_channel_caller(chan)->ani.number.valid ? NULL : p->cid_num); ast_setstate(chan, AST_STATE_RING); ast_channel_unlock(chan); if (p->dtmfmode & MGCP_DTMF_HYBRID) { p->dtmfmode |= MGCP_DTMF_INBAND; ast_indicate(chan, -1); } res = ast_pbx_run(chan); if (res) { ast_log(LOG_WARNING, "PBX exited non-zero\n"); /*res = tone_zone_play_tone(p->subs[index].zfd, DAHDI_TONE_CONGESTION);*/ /*transmit_notify_request(p, "nbz", 1);*/ transmit_notify_request(sub, p->ncs ? "L/cg" : "G/cg"); } return NULL; } } else { /* It's a match, but they just typed a digit, and there is an ambiguous match, so just set the timeout to matchdigittimeout and wait some more */ timeout = matchdigittimeout; } } else if (res == 0) { ast_debug(1, "not enough digits (and no ambiguous match)...\n"); /*res = tone_zone_play_tone(p->subs[index].zfd, DAHDI_TONE_CONGESTION);*/ transmit_notify_request(sub, p->ncs ? "L/cg" : "G/cg"); /*dahdi_wait_event(p->subs[index].zfd);*/ ast_hangup(chan); memset(p->dtmf_buf, 0, sizeof(p->dtmf_buf)); return NULL; } else if (p->hascallwaiting && p->callwaiting && !strcmp(p->dtmf_buf, "*70")) { ast_verb(3, "Disabling call waiting on %s\n", ast_channel_name(chan)); /* Disable call waiting if enabled */ p->callwaiting = 0; /*res = tone_zone_play_tone(p->subs[index].zfd, DAHDI_TONE_DIALRECALL);*/ transmit_notify_request(sub, "L/sl"); len = 0; memset(p->dtmf_buf, 0, sizeof(p->dtmf_buf)); timeout = firstdigittimeout; } else if (!strcmp(p->dtmf_buf, pickupexten)) { /* Scan all channels and see if any there * ringing channels with that have call groups * that equal this channels pickup group */ if (ast_pickup_call(chan)) { ast_log(LOG_WARNING, "No call pickup possible...\n"); /*res = tone_zone_play_tone(p->subs[index].zfd, DAHDI_TONE_CONGESTION);*/ transmit_notify_request(sub, p->ncs ? "L/cg" : "G/cg"); } memset(p->dtmf_buf, 0, sizeof(p->dtmf_buf)); ast_hangup(chan); return NULL; } else if (!p->hidecallerid && !strcmp(p->dtmf_buf, "*67")) { ast_verb(3, "Disabling Caller*ID on %s\n", ast_channel_name(chan)); /* Disable Caller*ID if enabled */ p->hidecallerid = 1; ast_set_callerid(chan, "", "", NULL); /*res = tone_zone_play_tone(p->subs[index].zfd, DAHDI_TONE_DIALRECALL);*/ transmit_notify_request(sub, "L/sl"); len = 0; memset(p->dtmf_buf, 0, sizeof(p->dtmf_buf)); timeout = firstdigittimeout; } else if (p->callreturn && !strcmp(p->dtmf_buf, "*69")) { res = 0; if (!ast_strlen_zero(p->lastcallerid)) { res = ast_say_digit_str(chan, p->lastcallerid, "", ast_channel_language(chan)); } if (!res) /*res = tone_zone_play_tone(p->subs[index].zfd, DAHDI_TONE_DIALRECALL);*/ transmit_notify_request(sub, "L/sl"); break; } else if (!strcmp(p->dtmf_buf, "*78")) { /* Do not disturb */ ast_verb(3, "Enabled DND on channel %s\n", ast_channel_name(chan)); /*res = tone_zone_play_tone(p->subs[index].zfd, DAHDI_TONE_DIALRECALL);*/ transmit_notify_request(sub, "L/sl"); p->dnd = 1; getforward = 0; memset(p->dtmf_buf, 0, sizeof(p->dtmf_buf)); len = 0; } else if (!strcmp(p->dtmf_buf, "*79")) { /* Do not disturb */ ast_verb(3, "Disabled DND on channel %s\n", ast_channel_name(chan)); /*res = tone_zone_play_tone(p->subs[index].zfd, DAHDI_TONE_DIALRECALL);*/ transmit_notify_request(sub, "L/sl"); p->dnd = 0; getforward = 0; memset(p->dtmf_buf, 0, sizeof(p->dtmf_buf)); len = 0; } else if (p->cancallforward && !strcmp(p->dtmf_buf, "*72")) { /*res = tone_zone_play_tone(p->subs[index].zfd, DAHDI_TONE_DIALRECALL);*/ transmit_notify_request(sub, "L/sl"); getforward = 1; memset(p->dtmf_buf, 0, sizeof(p->dtmf_buf)); len = 0; } else if (p->cancallforward && !strcmp(p->dtmf_buf, "*73")) { ast_verb(3, "Cancelling call forwarding on channel %s\n", ast_channel_name(chan)); /*res = tone_zone_play_tone(p->subs[index].zfd, DAHDI_TONE_DIALRECALL);*/ transmit_notify_request(sub, "L/sl"); memset(p->call_forward, 0, sizeof(p->call_forward)); getforward = 0; memset(p->dtmf_buf, 0, sizeof(p->dtmf_buf)); len = 0; } else if (ast_parking_provider_registered() && ast_parking_is_exten_park(ast_channel_context(chan), p->dtmf_buf) && sub->next->owner) { RAII_VAR(struct ast_bridge_channel *, bridge_channel, NULL, ao2_cleanup); /* This is a three way call, the main call being a real channel, and we're parking the first call. */ ast_channel_lock(chan); bridge_channel = ast_channel_get_bridge_channel(chan); ast_channel_unlock(chan); if (bridge_channel && !ast_parking_blind_transfer_park(bridge_channel, ast_channel_context(chan), p->dtmf_buf, NULL, NULL)) { ast_verb(3, "Parking call to '%s'\n", ast_channel_name(chan)); } break; } else if (!ast_strlen_zero(p->lastcallerid) && !strcmp(p->dtmf_buf, "*60")) { ast_verb(3, "Blacklisting number %s\n", p->lastcallerid); res = ast_db_put("blacklist", p->lastcallerid, "1"); if (!res) { /*res = tone_zone_play_tone(p->subs[index].zfd, DAHDI_TONE_DIALRECALL);*/ transmit_notify_request(sub, "L/sl"); memset(p->dtmf_buf, 0, sizeof(p->dtmf_buf)); len = 0; } } else if (p->hidecallerid && !strcmp(p->dtmf_buf, "*82")) { ast_verb(3, "Enabling Caller*ID on %s\n", ast_channel_name(chan)); /* Enable Caller*ID if enabled */ p->hidecallerid = 0; ast_set_callerid(chan, p->cid_num, p->cid_name, NULL); /*res = tone_zone_play_tone(p->subs[index].zfd, DAHDI_TONE_DIALRECALL);*/ transmit_notify_request(sub, "L/sl"); len = 0; memset(p->dtmf_buf, 0, sizeof(p->dtmf_buf)); timeout = firstdigittimeout; } else if (!ast_canmatch_extension(chan, ast_channel_context(chan), p->dtmf_buf, 1, S_COR(ast_channel_caller(chan)->id.number.valid, ast_channel_caller(chan)->id.number.str, NULL)) && ((p->dtmf_buf[0] != '*') || (strlen(p->dtmf_buf) > 2))) { ast_debug(1, "Can't match %s from '%s' in context %s\n", p->dtmf_buf, S_COR(ast_channel_caller(chan)->id.number.valid, ast_channel_caller(chan)->id.number.str, ""), ast_channel_context(chan)); break; } if (!timeout) timeout = gendigittimeout; if (len && !ast_ignore_pattern(ast_channel_context(chan), p->dtmf_buf)) /*tone_zone_play_tone(p->subs[index].zfd, -1);*/ ast_indicate(chan, -1); } #if 0 for (;;) { res = ast_waitfordigit(chan, to); if (!res) { ast_debug(1, "Timeout...\n"); break; } if (res < 0) { ast_debug(1, "Got hangup...\n"); ast_hangup(chan); break; } exten[pos++] = res; if (!ast_ignore_pattern(chan->context, exten)) ast_indicate(chan, -1); if (ast_matchmore_extension(chan, chan->context, exten, 1, chan->callerid)) { if (ast_exists_extension(chan, chan->context, exten, 1, chan->callerid)) to = 3000; else to = 8000; } else break; } if (ast_exists_extension(chan, chan->context, exten, 1, chan->callerid)) { ast_copy_string(chan->exten, exten, sizeof(chan->exten)1); if (!p->rtp) { start_rtp(p); } ast_setstate(chan, AST_STATE_RING); chan->rings = 1; if (ast_pbx_run(chan)) { ast_log(LOG_WARNING, "Unable to launch PBX on %s\n", chan->name); } else { memset(p->dtmf_buf, 0, sizeof(p->dtmf_buf)); return NULL; } } #endif ast_hangup(chan); memset(p->dtmf_buf, 0, sizeof(p->dtmf_buf)); return NULL; } /*! \brief Complete an attended transfer * * \param p The endpoint performing the attended transfer * \param sub The sub-channel completing the attended transfer * * \note p->sub is the currently active sub-channel (the channel the phone is using) * \note p->sub->next is the sub-channel not in use, potentially on hold * * \retval 0 when channel should be hung up * \retval 1 when channel should not be hung up */ static int attempt_transfer(struct mgcp_endpoint *p, struct mgcp_subchannel *sub) { enum ast_transfer_result res; /* Ensure that the other channel goes off hold and that it is indicating properly */ ast_queue_unhold(sub->next->owner); if (ast_channel_state(sub->owner) == AST_STATE_RINGING) { ast_queue_control(sub->next->owner, AST_CONTROL_RINGING); } ast_mutex_unlock(&p->sub->next->lock); ast_mutex_unlock(&p->sub->lock); res = ast_bridge_transfer_attended(sub->owner, sub->next->owner); /* Subs are only freed when the endpoint itself is destroyed, so they will continue to exist * after ast_bridge_transfer_attended returns making this safe without reference counting */ ast_mutex_lock(&p->sub->lock); ast_mutex_lock(&p->sub->next->lock); if (res != AST_BRIDGE_TRANSFER_SUCCESS) { /* If transferring fails hang up the other channel if present and us */ if (sub->next->owner) { ast_channel_softhangup_internal_flag_add(sub->next->owner, AST_SOFTHANGUP_DEV); mgcp_queue_hangup(sub->next); } sub->next->alreadygone = 1; return 0; } unalloc_sub(sub->next); /* If the active sub is NOT the one completing the transfer change it to be, and hang up the other sub */ if (p->sub != sub) { p->sub = sub; return 1; } return 0; } static void handle_hd_hf(struct mgcp_subchannel *sub, char *ev) { struct mgcp_endpoint *p = sub->parent; struct ast_channel *c; pthread_t t; /* Off hook / answer */ if (sub->outgoing) { /* Answered */ if (sub->owner) { ast_queue_unhold(sub->owner); sub->cxmode = MGCP_CX_SENDRECV; if (!sub->rtp) { start_rtp(sub); } else { transmit_modify_request(sub); } /*transmit_notify_request(sub, "aw");*/ transmit_notify_request(sub, ""); mgcp_queue_control(sub, AST_CONTROL_ANSWER); } } else { /* Start switch */ /*sub->cxmode = MGCP_CX_SENDRECV;*/ if (!sub->owner) { if (!sub->rtp) { start_rtp(sub); } else { transmit_modify_request(sub); } if (p->immediate) { /* The channel is immediately up. Start right away */ #ifdef DLINK_BUGGY_FIRMWARE transmit_notify_request(sub, "rt"); #else transmit_notify_request(sub, p->ncs ? "L/rt" : "G/rt"); #endif c = mgcp_new(sub, AST_STATE_RING, NULL, NULL); if (!c) { ast_log(LOG_WARNING, "Unable to start PBX on channel %s@%s\n", p->name, p->parent->name); transmit_notify_request(sub, p->ncs ? "L/cg" : "G/cg"); ast_hangup(c); } } else { if (has_voicemail(p)) { transmit_notify_request(sub, "L/sl"); } else { transmit_notify_request(sub, "L/dl"); } c = mgcp_new(sub, AST_STATE_DOWN, NULL, NULL); if (c) { if (ast_pthread_create_detached(&t, NULL, mgcp_ss, c)) { ast_log(LOG_WARNING, "Unable to create switch thread: %s\n", strerror(errno)); ast_hangup(c); } } else { ast_log(LOG_WARNING, "Unable to create channel for %s@%s\n", p->name, p->parent->name); } } } else { if (p->hookstate == MGCP_OFFHOOK) { ast_log(LOG_WARNING, "Off hook, but already have owner on %s@%s\n", p->name, p->parent->name); } else { ast_log(LOG_WARNING, "On hook, but already have owner on %s@%s\n", p->name, p->parent->name); ast_log(LOG_WARNING, "If we're onhook why are we here trying to handle a hd or hf?\n"); } ast_queue_unhold(sub->owner); sub->cxmode = MGCP_CX_SENDRECV; if (!sub->rtp) { start_rtp(sub); } else { transmit_modify_request(sub); } /*transmit_notify_request(sub, "aw");*/ transmit_notify_request(sub, ""); /*ast_queue_control(sub->owner, AST_CONTROL_ANSWER);*/ } } } static int handle_request(struct mgcp_subchannel *sub, struct mgcp_request *req, struct sockaddr_in *sin) { char *ev, *s; struct ast_frame f = { 0, }; struct mgcp_endpoint *p = sub->parent; struct mgcp_gateway *g = NULL; int res; ast_debug(1, "Handling request '%s' on %s@%s\n", req->verb, p->name, p->parent->name); /* Clear out potential response */ if (!strcasecmp(req->verb, "RSIP")) { /* Test if this RSIP request is just a keepalive */ if (!strcasecmp( get_header(req, "RM"), "X-keepalive")) { ast_verb(3, "Received keepalive request from %s@%s\n", p->name, p->parent->name); transmit_response(sub, "200", req, "OK"); } else { dump_queue(p->parent, p); dump_cmd_queues(p, NULL); if ((strcmp(p->name, p->parent->wcardep) != 0)) { ast_verb(3, "Resetting interface %s@%s\n", p->name, p->parent->name); } /* For RSIP on wildcard we reset all endpoints */ if (!strcmp(p->name, p->parent->wcardep)) { /* Reset all endpoints */ struct mgcp_endpoint *tmp_ep; g = p->parent; for (tmp_ep = g->endpoints; tmp_ep; tmp_ep = tmp_ep->next) { /*if ((strcmp(tmp_ep->name, "*") != 0) && (strcmp(tmp_ep->name, "aaln/" "*") != 0)) {*/ if (strcmp(tmp_ep->name, g->wcardep) != 0) { struct mgcp_subchannel *tmp_sub, *first_sub; ast_verb(3, "Resetting interface %s@%s\n", tmp_ep->name, p->parent->name); first_sub = tmp_ep->sub; tmp_sub = tmp_ep->sub; while (tmp_sub) { mgcp_queue_hangup(tmp_sub); tmp_sub = tmp_sub->next; if (tmp_sub == first_sub) break; } } } } else if (sub->owner) { mgcp_queue_hangup(sub); } transmit_response(sub, "200", req, "OK"); /* We don't send NTFY or AUEP to wildcard ep */ if (strcmp(p->name, p->parent->wcardep) != 0) { transmit_notify_request(sub, ""); /* Audit endpoint. Idea is to prevent lost lines due to race conditions */ transmit_audit_endpoint(p); } } } else if (!strcasecmp(req->verb, "NTFY")) { /* Acknowledge and be sure we keep looking for the same things */ transmit_response(sub, "200", req, "OK"); /* Notified of an event */ ev = get_header(req, "O"); s = strchr(ev, '/'); if (s) ev = s + 1; ast_debug(1, "Endpoint '%s@%s-%d' observed '%s'\n", p->name, p->parent->name, sub->id, ev); /* Keep looking for events unless this was a hangup */ if (strcasecmp(ev, "hu") && strcasecmp(ev, "hd") && strcasecmp(ev, "ping")) { transmit_notify_request(sub, p->curtone); } if (!strcasecmp(ev, "hd")) { p->hookstate = MGCP_OFFHOOK; sub->cxmode = MGCP_CX_SENDRECV; if (p) { /* When the endpoint have a Off hook transition we always starts without any previous dtmfs */ memset(p->dtmf_buf, 0, sizeof(p->dtmf_buf)); } handle_hd_hf(sub, ev); } else if (!strcasecmp(ev, "hf")) { /* We can assume we are offhook if we received a hookflash */ /* First let's just do call wait and ignore threeway */ /* We're currently in charge */ if (p->hookstate != MGCP_OFFHOOK) { /* Cisco c7940 sends hf even if the phone is onhook */ /* Thanks to point on IRC for pointing this out */ return -1; } /* do not let * conference two down channels */ if (sub->owner && ast_channel_state(sub->owner) == AST_STATE_DOWN && !sub->next->owner) return -1; if (p->callwaiting || p->transfer || p->threewaycalling) { ast_verb(3, "Swapping %d for %d on %s@%s\n", p->sub->id, p->sub->next->id, p->name, p->parent->name); p->sub = p->sub->next; /* transfer control to our next subchannel */ if (!sub->next->owner) { /* plave the first call on hold and start up a new call */ sub->cxmode = MGCP_CX_MUTE; ast_verb(3, "MGCP Muting %d on %s@%s\n", sub->id, p->name, p->parent->name); transmit_modify_request(sub); if (sub->owner) { ast_queue_hold(sub->owner, NULL); } sub->next->cxmode = MGCP_CX_RECVONLY; handle_hd_hf(sub->next, ev); } else if (sub->owner && sub->next->owner) { /* We've got two active calls lets decide whether or not to conference or just flip flop */ if ((!sub->outgoing) && (!sub->next->outgoing)) { /* We made both calls lets conference */ ast_verb(3, "MGCP Conferencing %d and %d on %s@%s\n", sub->id, sub->next->id, p->name, p->parent->name); sub->cxmode = MGCP_CX_CONF; sub->next->cxmode = MGCP_CX_CONF; ast_queue_unhold(sub->next->owner); transmit_modify_request(sub); transmit_modify_request(sub->next); } else { /* Let's flipflop between calls */ /* XXX Need to check for state up ??? */ /* XXX Need a way to indicate the current call, or maybe the call that's waiting */ ast_verb(3, "We didn't make one of the calls FLIPFLOP %d and %d on %s@%s\n", sub->id, sub->next->id, p->name, p->parent->name); sub->cxmode = MGCP_CX_MUTE; ast_verb(3, "MGCP Muting %d on %s@%s\n", sub->id, p->name, p->parent->name); transmit_modify_request(sub); ast_queue_hold(sub->owner, NULL); ast_queue_hold(sub->next->owner, NULL); handle_hd_hf(sub->next, ev); } } else { /* We've most likely lost one of our calls find an active call and bring it up */ if (sub->owner) { p->sub = sub; } else if (sub->next->owner) { p->sub = sub->next; } else { /* We seem to have lost both our calls */ /* XXX - What do we do now? */ return -1; } ast_queue_unhold(p->sub->owner); p->sub->cxmode = MGCP_CX_SENDRECV; transmit_modify_request(p->sub); } } else { ast_log(LOG_WARNING, "Callwaiting, call transfer or threeway calling not enabled on endpoint %s@%s\n", p->name, p->parent->name); } } else if (!strcasecmp(ev, "hu")) { p->hookstate = MGCP_ONHOOK; sub->cxmode = MGCP_CX_RECVONLY; ast_debug(1, "MGCP %s@%s Went on hook\n", p->name, p->parent->name); /* Do we need to send MDCX before a DLCX ? if (sub->rtp) { transmit_modify_request(sub); } */ if (p->transfer && (sub->owner && sub->next->owner) && ((!sub->outgoing) || (!sub->next->outgoing))) { /* We're allowed to transfer, we have two active calls and */ /* we made at least one of the calls. Let's try and transfer */ ast_mutex_lock(&p->sub->next->lock); res = attempt_transfer(p, sub); if (res) { ast_log(LOG_WARNING, "Transfer attempt failed\n"); ast_mutex_unlock(&p->sub->next->lock); return -1; } ast_mutex_unlock(&p->sub->next->lock); } else { /* Hangup the current call */ /* If there is another active call, mgcp_hangup will ring the phone with the other call */ if (sub->owner) { sub->alreadygone = 1; mgcp_queue_hangup(sub); } else { ast_verb(3, "MGCP handle_request(%s@%s-%d) ast_channel already destroyed, resending DLCX.\n", p->name, p->parent->name, sub->id); /* Instruct the other side to remove the connection since it apparently * * still thinks the channel is active. * * For Cisco IAD2421 /BAK/ */ transmit_connection_del(sub); } } if ((p->hookstate == MGCP_ONHOOK) && (!sub->rtp) && (!sub->next->rtp)) { p->hidecallerid = 0; if (p->hascallwaiting && !p->callwaiting) { ast_verb(3, "Enabling call waiting on MGCP/%s@%s-%d\n", p->name, p->parent->name, sub->id); p->callwaiting = -1; } if (has_voicemail(p)) { ast_verb(3, "MGCP handle_request(%s@%s) set vmwi(+)\n", p->name, p->parent->name); transmit_notify_request(sub, "L/vmwi(+)"); } else { ast_verb(3, "MGCP handle_request(%s@%s) set vmwi(-)\n", p->name, p->parent->name); transmit_notify_request(sub, "L/vmwi(-)"); } } } else if ((strlen(ev) == 1) && (((ev[0] >= '0') && (ev[0] <= '9')) || ((ev[0] >= 'A') && (ev[0] <= 'D')) || (ev[0] == '*') || (ev[0] == '#'))) { if (sub && sub->owner && (ast_channel_state(sub->owner) >= AST_STATE_UP)) { f.frametype = AST_FRAME_DTMF; f.subclass.integer = ev[0]; f.src = "mgcp"; /* XXX MUST queue this frame to all subs in threeway call if threeway call is active */ mgcp_queue_frame(sub, &f); ast_mutex_lock(&sub->next->lock); if (sub->next->owner) mgcp_queue_frame(sub->next, &f); ast_mutex_unlock(&sub->next->lock); if (strstr(p->curtone, (p->ncs ? "wt1" : "wt")) && (ev[0] == 'A')) { memset(p->curtone, 0, sizeof(p->curtone)); } } else { p->dtmf_buf[strlen(p->dtmf_buf)] = ev[0]; p->dtmf_buf[strlen(p->dtmf_buf)] = '\0'; } } else if (!strcasecmp(ev, "T")) { /* Digit timeout -- unimportant */ } else if (!strcasecmp(ev, "ping")) { /* ping -- unimportant */ } else { ast_log(LOG_NOTICE, "Received unknown event '%s' from %s@%s\n", ev, p->name, p->parent->name); } } else { ast_log(LOG_WARNING, "Unknown verb '%s' received from %s\n", req->verb, ast_inet_ntoa(sin->sin_addr)); transmit_response(sub, "510", req, "Unknown verb"); } return 0; } static int find_and_retrans(struct mgcp_subchannel *sub, struct mgcp_request *req) { int seqno=0; time_t now; struct mgcp_response *prev = NULL, *cur, *next, *answer = NULL; time(&now); if (sscanf(req->identifier, "%30d", &seqno) != 1) { seqno = 0; } for (cur = sub->parent->parent->responses, next = cur ? cur->next : NULL; cur; cur = next, next = cur ? cur->next : NULL) { if (now - cur->whensent > RESPONSE_TIMEOUT) { /* Delete this entry */ if (prev) prev->next = next; else sub->parent->parent->responses = next; ast_free(cur); } else { if (seqno == cur->seqno) answer = cur; prev = cur; } } if (answer) { resend_response(sub, answer); return 1; } return 0; } static int mgcpsock_read(int *id, int fd, short events, void *ignore) { struct mgcp_request req; struct sockaddr_in sin; struct mgcp_subchannel *sub; int res; socklen_t len; int result; int ident; len = sizeof(sin); memset(&req, 0, sizeof(req)); res = recvfrom(mgcpsock, req.data, sizeof(req.data) - 1, 0, (struct sockaddr *)&sin, &len); if (res < 0) { if (errno != ECONNREFUSED) ast_log(LOG_WARNING, "Recv error: %s\n", strerror(errno)); return 1; } req.data[res] = '\0'; req.len = res; ast_debug(1, "MGCP read: \n%s\nfrom %s:%d\n", req.data, ast_inet_ntoa(sin.sin_addr), ntohs(sin.sin_port)); parse(&req); if (req.headers < 1) { /* Must have at least one header */ return 1; } if (ast_strlen_zero(req.identifier)) { ast_log(LOG_NOTICE, "Message from %s missing identifier\n", ast_inet_ntoa(sin.sin_addr)); return 1; } if (sscanf(req.verb, "%30d", &result) && sscanf(req.identifier, "%30d", &ident)) { if (result < 200) { ast_debug(1, "Ignoring provisional response on transaction %d\n", ident); return 1; } /* Try to find who this message is for, if it's important */ sub = find_subchannel_and_lock(NULL, ident, &sin); if (sub) { struct mgcp_gateway *gw = sub->parent->parent; struct mgcp_message *cur, *prev; ast_mutex_unlock(&sub->lock); ast_mutex_lock(&gw->msgs_lock); for (prev = NULL, cur = gw->msgs; cur; prev = cur, cur = cur->next) { if (cur->seqno == ident) { ast_debug(1, "Got response back on transaction %d\n", ident); if (prev) prev->next = cur->next; else gw->msgs = cur->next; break; } } /* stop retrans timer if the queue is empty */ if (!gw->msgs) { AST_SCHED_DEL(sched, gw->retransid); } ast_mutex_unlock(&gw->msgs_lock); if (cur) { handle_response(cur->owner_ep, cur->owner_sub, result, ident, &req); ast_free(cur); return 1; } ast_log(LOG_NOTICE, "Got response back on [%s] for transaction %d we aren't sending?\n", gw->name, ident); } } else { if (ast_strlen_zero(req.endpoint) || ast_strlen_zero(req.version) || ast_strlen_zero(req.verb)) { ast_log(LOG_NOTICE, "Message must have a verb, an idenitifier, version, and endpoint\n"); return 1; } /* Process request, with iflock held */ sub = find_subchannel_and_lock(req.endpoint, 0, &sin); if (sub) { /* look first to find a matching response in the queue */ if (!find_and_retrans(sub, &req)) /* pass the request off to the currently mastering subchannel */ handle_request(sub, &req, &sin); ast_mutex_unlock(&sub->lock); } } return 1; } static int *mgcpsock_read_id = NULL; static int mgcp_prune_realtime_gateway(struct mgcp_gateway *g) { struct mgcp_endpoint *enext, *e; struct mgcp_subchannel *s, *sub; int i, prune = 1; if (g->ha || !g->realtime || ast_mutex_trylock(&g->msgs_lock) || g->msgs) { ast_mutex_unlock(&g->msgs_lock); return 0; } for (e = g->endpoints; e; e = e->next) { ast_mutex_lock(&e->lock); if (e->dsp || ast_mutex_trylock(&e->rqnt_queue_lock) || ast_mutex_trylock(&e->cmd_queue_lock)) { prune = 0; } else if (e->rqnt_queue || e->cmd_queue) { prune = 0; } s = e->sub; for (i = 0; (i < MAX_SUBS) && s; i++) { ast_mutex_lock(&s->lock); if (!ast_strlen_zero(s->cxident) || s->rtp || ast_mutex_trylock(&s->cx_queue_lock) || s->gate) { prune = 0; } else if (s->cx_queue) { prune = 0; } s = s->next; } } for (e = g->endpoints, sub = e->sub, enext = e->next; e; e = enext, enext = e->next) { for (i = 0; (i < MAX_SUBS) && sub; i++) { s = sub; sub = sub->next; ast_mutex_unlock(&s->lock); ast_mutex_unlock(&s->cx_queue_lock); if (prune) { ast_mutex_destroy(&s->lock); ast_mutex_destroy(&s->cx_queue_lock); ast_free(s); } } ast_mutex_unlock(&e->lock); ast_mutex_unlock(&e->rqnt_queue_lock); ast_mutex_unlock(&e->cmd_queue_lock); if (prune) { ast_mutex_destroy(&e->lock); ast_mutex_destroy(&e->rqnt_queue_lock); ast_mutex_destroy(&e->cmd_queue_lock); ast_free(e); } } if (prune) { ast_debug(1, "***** MGCP REALTIME PRUNE GW: %s\n", g->name); } return prune; } static void *do_monitor(void *data) { int res; int reloading; struct mgcp_gateway *g, *gprev; /*struct mgcp_gateway *g;*/ /*struct mgcp_endpoint *e;*/ /*time_t thispass = 0, lastpass = 0;*/ time_t lastrun = 0; /* Add an I/O event to our UDP socket */ if (mgcpsock > -1) { mgcpsock_read_id = ast_io_add(io, mgcpsock, mgcpsock_read, AST_IO_IN, NULL); } /* This thread monitors all the frame relay interfaces which are not yet in use (and thus do not have a separate thread) indefinitely */ /* From here on out, we die whenever asked */ for (;;) { /* Check for a reload request */ ast_mutex_lock(&mgcp_reload_lock); reloading = mgcp_reloading; mgcp_reloading = 0; ast_mutex_unlock(&mgcp_reload_lock); if (reloading) { ast_verb(1, "Reloading MGCP\n"); reload_config(1); /* Add an I/O event to our UDP socket */ if (mgcpsock > -1 && !mgcpsock_read_id) { mgcpsock_read_id = ast_io_add(io, mgcpsock, mgcpsock_read, AST_IO_IN, NULL); } } /* Check for interfaces needing to be killed */ /* Don't let anybody kill us right away. Nobody should lock the interface list and wait for the monitor list, but the other way around is okay. */ ast_mutex_lock(&monlock); /* Lock the network interface */ ast_mutex_lock(&netlock); #if 0 /* XXX THIS IS COMPLETELY HOSED */ /* The gateway goes into a state of panic */ /* If the vmwi indicator is sent while it is reseting interfaces */ lastpass = thispass; thispass = time(NULL); g = gateways; while(g) { if (thispass != lastpass) { e = g->endpoints; while(e) { if (e->type == TYPE_LINE) { res = has_voicemail(e); if ((e->msgstate != res) && (e->hookstate == MGCP_ONHOOK) && (!e->rtp)){ if (res) { transmit_notify_request(e, "L/vmwi(+)"); } else { transmit_notify_request(e, "L/vmwi(-)"); } e->msgstate = res; e->onhooktime = thispass; } } e = e->next; } } g = g->next; } #endif /* pruning unused realtime gateways, running in every 60 seconds*/ if(time(NULL) > (lastrun + 60)) { ast_mutex_lock(&gatelock); g = gateways; gprev = NULL; while(g) { if(g->realtime) { if(mgcp_prune_realtime_gateway(g)) { if(gprev) { gprev->next = g->next; } else { gateways = g->next; } ast_mutex_unlock(&g->msgs_lock); ast_mutex_destroy(&g->msgs_lock); ast_free(g); } else { ast_mutex_unlock(&g->msgs_lock); gprev = g; } } else { gprev = g; } g = g->next; } ast_mutex_unlock(&gatelock); lastrun = time(NULL); } /* Okay, now that we know what to do, release the network lock */ ast_mutex_unlock(&netlock); /* And from now on, we're okay to be killed, so release the monitor lock as well */ ast_mutex_unlock(&monlock); pthread_testcancel(); /* Wait for sched or io */ res = ast_sched_wait(sched); /* copied from chan_sip.c */ if ((res < 0) || (res > 1000)) { res = 1000; } res = ast_io_wait(io, res); ast_mutex_lock(&monlock); if (res >= 0) { ast_sched_runq(sched); } ast_mutex_unlock(&monlock); } /* Never reached */ return NULL; } static int restart_monitor(void) { /* If we're supposed to be stopped -- stay stopped */ if (monitor_thread == AST_PTHREADT_STOP) return 0; if (ast_mutex_lock(&monlock)) { ast_log(LOG_WARNING, "Unable to lock monitor\n"); return -1; } if (monitor_thread == pthread_self()) { ast_mutex_unlock(&monlock); ast_log(LOG_WARNING, "Cannot kill myself\n"); return -1; } if (monitor_thread != AST_PTHREADT_NULL) { /* Wake up the thread */ pthread_kill(monitor_thread, SIGURG); } else { /* Start a new monitor */ if (ast_pthread_create_background(&monitor_thread, NULL, do_monitor, NULL) < 0) { ast_mutex_unlock(&monlock); ast_log(LOG_ERROR, "Unable to start monitor thread.\n"); return -1; } } ast_mutex_unlock(&monlock); return 0; } static struct ast_channel *mgcp_request(const char *type, struct ast_format_cap *cap, const struct ast_assigned_ids *assignedids, const struct ast_channel *requestor, const char *dest, int *cause) { struct mgcp_subchannel *sub; struct ast_channel *tmpc = NULL; char tmp[256]; if (!(ast_format_cap_iscompatible(cap, global_capability))) { struct ast_str *cap_buf = ast_str_alloca(AST_FORMAT_CAP_NAMES_LEN); ast_log(LOG_NOTICE, "Asked to get a channel of unsupported format '%s'\n", ast_format_cap_get_names(cap, &cap_buf)); /*return NULL;*/ } ast_copy_string(tmp, dest, sizeof(tmp)); if (ast_strlen_zero(tmp)) { ast_log(LOG_NOTICE, "MGCP Channels require an endpoint\n"); return NULL; } if (!(sub = find_subchannel_and_lock(tmp, 0, NULL))) { ast_log(LOG_WARNING, "Unable to find MGCP endpoint '%s'\n", tmp); *cause = AST_CAUSE_UNREGISTERED; return NULL; } ast_verb(3, "MGCP mgcp_request(%s)\n", tmp); ast_verb(3, "MGCP cw: %d, dnd: %d, so: %d, sno: %d\n", sub->parent->callwaiting, sub->parent->dnd, sub->owner ? 1 : 0, sub->next->owner ? 1: 0); /* Must be busy */ if (((sub->parent->callwaiting) && ((sub->owner) && (sub->next->owner))) || ((!sub->parent->callwaiting) && (sub->owner)) || (sub->parent->dnd && (ast_strlen_zero(sub->parent->call_forward)))) { if (sub->parent->hookstate == MGCP_ONHOOK) { if (has_voicemail(sub->parent)) { transmit_notify_request(sub,"L/vmwi(+)"); } else { transmit_notify_request(sub,"L/vmwi(-)"); } } *cause = AST_CAUSE_BUSY; ast_mutex_unlock(&sub->lock); return NULL; } tmpc = mgcp_new(sub->owner ? sub->next : sub, AST_STATE_DOWN, assignedids, requestor); ast_mutex_unlock(&sub->lock); if (!tmpc) ast_log(LOG_WARNING, "Unable to make channel for '%s'\n", tmp); restart_monitor(); return tmpc; } /* modified for reload support */ /*! \brief build_gateway: parse mgcp.conf and create gateway/endpoint structures */ static struct mgcp_gateway *build_gateway(char *cat, struct ast_variable *v) { struct mgcp_gateway *gw; struct mgcp_endpoint *e; struct mgcp_subchannel *sub; struct ast_variable *chanvars = NULL; /*char txident[80];*/ int i=0, y=0; int gw_reload = 0; int ep_reload = 0; directmedia = DIRECTMEDIA; /* locate existing gateway */ for (gw = gateways; gw; gw = gw->next) { if (!strcasecmp(cat, gw->name)) { /* gateway already exists */ gw->delme = 0; gw_reload = 1; break; } } if (!gw && !(gw = ast_calloc(1, sizeof(*gw)))) { return NULL; } if (!gw_reload) { gw->expire = -1; gw->realtime = 0; gw->retransid = -1; ast_mutex_init(&gw->msgs_lock); ast_copy_string(gw->name, cat, sizeof(gw->name)); /* check if the name is numeric ip */ if ((strchr(gw->name, '.')) && inet_addr(gw->name) != INADDR_NONE) gw->isnamedottedip = 1; } for (; v; v = v->next) { if (!strcasecmp(v->name, "host")) { if (!strcasecmp(v->value, "dynamic")) { /* They'll register with us */ gw->dynamic = 1; memset(&gw->addr.sin_addr, 0, 4); if (gw->addr.sin_port) { /* If we've already got a port, make it the default rather than absolute */ gw->defaddr.sin_port = gw->addr.sin_port; gw->addr.sin_port = 0; } } else { /* Non-dynamic. Make sure we become that way if we're not */ AST_SCHED_DEL(sched, gw->expire); gw->dynamic = 0; { struct ast_sockaddr tmp; ast_sockaddr_from_sin(&tmp, &gw->addr); if (ast_get_ip(&tmp, v->value)) { if (!gw_reload) { ast_mutex_destroy(&gw->msgs_lock); ast_free(gw); } return NULL; } ast_sockaddr_to_sin(&tmp, &gw->addr); } } } else if (!strcasecmp(v->name, "defaultip")) { struct ast_sockaddr tmp; ast_sockaddr_from_sin(&tmp, &gw->defaddr); if (ast_get_ip(&tmp, v->value)) { if (!gw_reload) { ast_mutex_destroy(&gw->msgs_lock); ast_free(gw); } return NULL; } ast_sockaddr_to_sin(&tmp, &gw->defaddr); } else if (!strcasecmp(v->name, "permit") || !strcasecmp(v->name, "deny")) { int acl_error = 0; gw->ha = ast_append_ha(v->name, v->value, gw->ha, &acl_error); if (acl_error) { ast_log(LOG_ERROR, "Invalid ACL '%s' specified for MGCP gateway '%s' on line %d. Not creating.\n", v->value, cat, v->lineno); if (!gw_reload) { ast_mutex_destroy(&gw->msgs_lock); ast_free(gw); } else { gw->delme = 1; } return NULL; } } else if (!strcasecmp(v->name, "port")) { gw->addr.sin_port = htons(atoi(v->value)); } else if (!strcasecmp(v->name, "context")) { ast_copy_string(context, v->value, sizeof(context)); } else if (!strcasecmp(v->name, "dtmfmode")) { if (!strcasecmp(v->value, "inband")) dtmfmode = MGCP_DTMF_INBAND; else if (!strcasecmp(v->value, "rfc2833")) dtmfmode = MGCP_DTMF_RFC2833; else if (!strcasecmp(v->value, "hybrid")) dtmfmode = MGCP_DTMF_HYBRID; else if (!strcasecmp(v->value, "none")) dtmfmode = 0; else ast_log(LOG_WARNING, "'%s' is not a valid DTMF mode at line %d\n", v->value, v->lineno); } else if (!strcasecmp(v->name, "nat")) { nat = ast_true(v->value); } else if (!strcasecmp(v->name, "ncs")) { ncs = ast_true(v->value); } else if (!strcasecmp(v->name, "hangupongateremove")) { hangupongateremove = ast_true(v->value); } else if (!strcasecmp(v->name, "pktcgatealloc")) { pktcgatealloc = ast_true(v->value); } else if (!strcasecmp(v->name, "callerid")) { if (!strcasecmp(v->value, "asreceived")) { cid_num[0] = '\0'; cid_name[0] = '\0'; } else { ast_callerid_split(v->value, cid_name, sizeof(cid_name), cid_num, sizeof(cid_num)); } } else if (!strcasecmp(v->name, "language")) { ast_copy_string(language, v->value, sizeof(language)); } else if (!strcasecmp(v->name, "accountcode")) { ast_copy_string(accountcode, v->value, sizeof(accountcode)); } else if (!strcasecmp(v->name, "amaflags")) { y = ast_channel_string2amaflag(v->value); if (y < 0) { ast_log(LOG_WARNING, "Invalid AMA flags: %s at line %d\n", v->value, v->lineno); } else { amaflags = y; } } else if (!strcasecmp(v->name, "setvar")) { chanvars = add_var(v->value, chanvars); } else if (!strcasecmp(v->name, "clearvars")) { if (chanvars) { ast_variables_destroy(chanvars); chanvars = NULL; } } else if (!strcasecmp(v->name, "musiconhold")) { ast_copy_string(musicclass, v->value, sizeof(musicclass)); } else if (!strcasecmp(v->name, "parkinglot")) { ast_copy_string(parkinglot, v->value, sizeof(parkinglot)); } else if (!strcasecmp(v->name, "callgroup")) { cur_callergroup = ast_get_group(v->value); } else if (!strcasecmp(v->name, "pickupgroup")) { cur_pickupgroup = ast_get_group(v->value); } else if (!strcasecmp(v->name, "immediate")) { immediate = ast_true(v->value); } else if (!strcasecmp(v->name, "cancallforward")) { cancallforward = ast_true(v->value); } else if (!strcasecmp(v->name, "singlepath")) { singlepath = ast_true(v->value); } else if (!strcasecmp(v->name, "directmedia") || !strcasecmp(v->name, "canreinvite")) { directmedia = ast_true(v->value); } else if (!strcasecmp(v->name, "mailbox")) { ast_copy_string(mailbox, v->value, sizeof(mailbox)); } else if (!strcasecmp(v->name, "hasvoicemail")) { if (ast_true(v->value) && ast_strlen_zero(mailbox)) { /* * hasvoicemail is a users.conf legacy voicemail enable method. * hasvoicemail is only going to work for app_voicemail mailboxes. */ if (strchr(gw->name, '@')) { ast_copy_string(mailbox, gw->name, sizeof(mailbox)); } else { snprintf(mailbox, sizeof(mailbox), "%s@default", gw->name); } } } else if (!strcasecmp(v->name, "adsi")) { adsi = ast_true(v->value); } else if (!strcasecmp(v->name, "callreturn")) { callreturn = ast_true(v->value); } else if (!strcasecmp(v->name, "callwaiting")) { callwaiting = ast_true(v->value); } else if (!strcasecmp(v->name, "slowsequence")) { slowsequence = ast_true(v->value); } else if (!strcasecmp(v->name, "transfer")) { transfer = ast_true(v->value); } else if (!strcasecmp(v->name, "threewaycalling")) { threewaycalling = ast_true(v->value); } else if (!strcasecmp(v->name, "wcardep")) { /* locate existing endpoint */ for (e = gw->endpoints; e; e = e->next) { if (!strcasecmp(v->value, e->name)) { /* endpoint already exists */ e->delme = 0; ep_reload = 1; break; } } if (!e) { /* Allocate wildcard endpoint */ e = ast_calloc(1, sizeof(*e)); ep_reload = 0; } if (e) { if (!ep_reload) { memset(e, 0, sizeof(struct mgcp_endpoint)); ast_mutex_init(&e->lock); ast_mutex_init(&e->rqnt_queue_lock); ast_mutex_init(&e->cmd_queue_lock); e->cap = ast_format_cap_alloc(AST_FORMAT_CAP_FLAG_DEFAULT); ast_copy_string(e->name, v->value, sizeof(e->name)); e->needaudit = 1; } ast_copy_string(gw->wcardep, v->value, sizeof(gw->wcardep)); /* XXX Should we really check for uniqueness?? XXX */ ast_copy_string(e->accountcode, accountcode, sizeof(e->accountcode)); ast_copy_string(e->context, context, sizeof(e->context)); ast_copy_string(e->cid_num, cid_num, sizeof(e->cid_num)); ast_copy_string(e->cid_name, cid_name, sizeof(e->cid_name)); ast_copy_string(e->language, language, sizeof(e->language)); ast_copy_string(e->musicclass, musicclass, sizeof(e->musicclass)); ast_copy_string(e->mailbox, mailbox, sizeof(e->mailbox)); ast_copy_string(e->parkinglot, parkinglot, sizeof(e->parkinglot)); if (!ast_strlen_zero(e->mailbox)) { /* This module does not handle MWI in an event-based manner. However, it * subscribes to MWI for each mailbox that is configured so that the core * knows that we care about it. Then, chan_mgcp will get the MWI from the * event cache instead of checking the mailbox directly. */ e->mwi_event_sub = ast_mwi_subscribe_pool(e->mailbox, stasis_subscription_cb_noop, NULL); } snprintf(e->rqnt_ident, sizeof(e->rqnt_ident), "%08lx", (unsigned long)ast_random()); e->msgstate = -1; e->amaflags = amaflags; ast_format_cap_append_from_cap(e->cap, global_capability, AST_MEDIA_TYPE_UNKNOWN); e->parent = gw; e->ncs = ncs; e->dtmfmode = dtmfmode; if (!ep_reload && e->sub && e->sub->rtp) { e->dtmfmode |= MGCP_DTMF_INBAND; } e->adsi = adsi; e->type = TYPE_LINE; e->immediate = immediate; e->callgroup=cur_callergroup; e->pickupgroup=cur_pickupgroup; e->callreturn = callreturn; e->cancallforward = cancallforward; e->singlepath = singlepath; e->directmedia = directmedia; e->callwaiting = callwaiting; e->hascallwaiting = callwaiting; e->slowsequence = slowsequence; e->transfer = transfer; e->threewaycalling = threewaycalling; e->onhooktime = time(NULL); /* ASSUME we're onhook */ e->hookstate = MGCP_ONHOOK; e->chanvars = copy_vars(chanvars); if (!ep_reload) { /*snprintf(txident, sizeof(txident), "%08lx", (unsigned long)ast_random());*/ for (i = 0; i < MAX_SUBS; i++) { sub = ast_calloc(1, sizeof(*sub)); if (sub) { ast_verb(3, "Allocating subchannel '%d' on %s@%s\n", i, e->name, gw->name); ast_mutex_init(&sub->lock); ast_mutex_init(&sub->cx_queue_lock); sub->parent = e; sub->id = i; snprintf(sub->txident, sizeof(sub->txident), "%08lx", (unsigned long)ast_random()); /*stnrcpy(sub->txident, txident, sizeof(sub->txident) - 1);*/ sub->cxmode = MGCP_CX_INACTIVE; sub->nat = nat; sub->gate = NULL; sub->sdpsent = 0; sub->next = e->sub; e->sub = sub; } else { /* XXX Should find a way to clean up our memory */ ast_log(LOG_WARNING, "Out of memory allocating subchannel\n"); return NULL; } } /* Make out subs a circular linked list so we can always sping through the whole bunch */ /* find the end of the list */ for (sub = e->sub; sub && sub->next; sub = sub->next); /* set the last sub->next to the first sub */ sub->next = e->sub; e->next = gw->endpoints; gw->endpoints = e; } } } else if (!strcasecmp(v->name, "trunk") || !strcasecmp(v->name, "line")) { /* locate existing endpoint */ for (e = gw->endpoints; e; e = e->next) { if (!strcasecmp(v->value, e->name)) { /* endpoint already exists */ e->delme = 0; ep_reload = 1; break; } } if (!e) { e = ast_calloc(1, sizeof(*e)); ep_reload = 0; } if (e) { if (!ep_reload) { ast_mutex_init(&e->lock); ast_mutex_init(&e->rqnt_queue_lock); ast_mutex_init(&e->cmd_queue_lock); e->cap = ast_format_cap_alloc(AST_FORMAT_CAP_FLAG_DEFAULT); ast_copy_string(e->name, v->value, sizeof(e->name)); e->needaudit = 1; } /* XXX Should we really check for uniqueness?? XXX */ ast_copy_string(e->accountcode, accountcode, sizeof(e->accountcode)); ast_copy_string(e->context, context, sizeof(e->context)); ast_copy_string(e->cid_num, cid_num, sizeof(e->cid_num)); ast_copy_string(e->cid_name, cid_name, sizeof(e->cid_name)); ast_copy_string(e->language, language, sizeof(e->language)); ast_copy_string(e->musicclass, musicclass, sizeof(e->musicclass)); ast_copy_string(e->mailbox, mailbox, sizeof(e->mailbox)); ast_copy_string(e->parkinglot, parkinglot, sizeof(e->parkinglot)); if (!ast_strlen_zero(mailbox)) { ast_verb(3, "Setting mailbox '%s' on %s@%s\n", mailbox, gw->name, e->name); } if (!ep_reload) { /* XXX potential issue due to reload */ e->msgstate = -1; e->parent = gw; } e->amaflags = amaflags; ast_format_cap_append_from_cap(e->cap, global_capability, AST_MEDIA_TYPE_UNKNOWN); e->dtmfmode = dtmfmode; e->ncs = ncs; e->pktcgatealloc = pktcgatealloc; e->hangupongateremove = hangupongateremove; e->adsi = adsi; e->type = (!strcasecmp(v->name, "trunk")) ? TYPE_TRUNK : TYPE_LINE; e->immediate = immediate; e->callgroup=cur_callergroup; e->pickupgroup=cur_pickupgroup; e->callreturn = callreturn; e->cancallforward = cancallforward; e->directmedia = directmedia; e->singlepath = singlepath; e->callwaiting = callwaiting; e->hascallwaiting = callwaiting; e->slowsequence = slowsequence; e->transfer = transfer; e->threewaycalling = threewaycalling; /* If we already have a valid chanvars, it's not a new endpoint (it's a reload), so first, free previous mem */ if (e->chanvars) { ast_variables_destroy(e->chanvars); e->chanvars = NULL; } e->chanvars = copy_vars(chanvars); if (!ep_reload) { e->onhooktime = time(NULL); /* ASSUME we're onhook */ e->hookstate = MGCP_ONHOOK; snprintf(e->rqnt_ident, sizeof(e->rqnt_ident), "%08lx", (unsigned long)ast_random()); } for (i = 0, sub = NULL; i < MAX_SUBS; i++) { if (!ep_reload) { sub = ast_calloc(1, sizeof(*sub)); } else { if (!sub) { sub = e->sub; } else { sub = sub->next; } } if (sub) { if (!ep_reload) { ast_verb(3, "Allocating subchannel '%d' on %s@%s\n", i, e->name, gw->name); ast_mutex_init(&sub->lock); ast_mutex_init(&sub->cx_queue_lock); ast_copy_string(sub->magic, MGCP_SUBCHANNEL_MAGIC, sizeof(sub->magic)); sub->parent = e; sub->id = i; snprintf(sub->txident, sizeof(sub->txident), "%08lx", (unsigned long)ast_random()); sub->cxmode = MGCP_CX_INACTIVE; sub->next = e->sub; e->sub = sub; } sub->nat = nat; } else { /* XXX Should find a way to clean up our memory */ ast_log(LOG_WARNING, "Out of memory allocating subchannel\n"); return NULL; } } if (!ep_reload) { /* Make out subs a circular linked list so we can always sping through the whole bunch */ /* find the end of the list */ for (sub = e->sub; sub && sub->next; sub = sub->next); /* set the last sub->next to the first sub */ sub->next = e->sub; e->next = gw->endpoints; gw->endpoints = e; } } } else if (!strcasecmp(v->name, "name") || !strcasecmp(v->name, "lines")) { /* just eliminate realtime warnings */ } else { ast_log(LOG_WARNING, "Don't know keyword '%s' at line %d\n", v->name, v->lineno); } } if (!ntohl(gw->addr.sin_addr.s_addr) && !gw->dynamic) { ast_log(LOG_WARNING, "Gateway '%s' lacks IP address and isn't dynamic\n", gw->name); if (!gw_reload) { ast_mutex_destroy(&gw->msgs_lock); ast_free(gw); } /* Return NULL */ gw_reload = 1; } else { gw->defaddr.sin_family = AF_INET; gw->addr.sin_family = AF_INET; if (gw->defaddr.sin_addr.s_addr && !ntohs(gw->defaddr.sin_port)) { gw->defaddr.sin_port = htons(DEFAULT_MGCP_GW_PORT); } if (gw->addr.sin_addr.s_addr && !ntohs(gw->addr.sin_port)) { gw->addr.sin_port = htons(DEFAULT_MGCP_GW_PORT); } { struct ast_sockaddr tmp1, tmp2; struct sockaddr_in tmp3 = {0,}; tmp3.sin_addr = gw->ourip; ast_sockaddr_from_sin(&tmp1, &gw->addr); ast_sockaddr_from_sin(&tmp2, &tmp3); if (gw->addr.sin_addr.s_addr && ast_ouraddrfor(&tmp1, &tmp2)) { memcpy(&gw->ourip, &__ourip, sizeof(gw->ourip)); } else { ast_sockaddr_to_sin(&tmp2, &tmp3); gw->ourip = tmp3.sin_addr; } } } if (chanvars) { ast_variables_destroy(chanvars); chanvars = NULL; } return (gw_reload ? NULL : gw); } static enum ast_rtp_glue_result mgcp_get_rtp_peer(struct ast_channel *chan, struct ast_rtp_instance **instance) { struct mgcp_subchannel *sub = NULL; if (!(sub = ast_channel_tech_pvt(chan)) || !(sub->rtp)) return AST_RTP_GLUE_RESULT_FORBID; ao2_ref(sub->rtp, +1); *instance = sub->rtp; if (sub->parent->directmedia) return AST_RTP_GLUE_RESULT_REMOTE; else return AST_RTP_GLUE_RESULT_LOCAL; } static int mgcp_set_rtp_peer(struct ast_channel *chan, struct ast_rtp_instance *rtp, struct ast_rtp_instance *vrtp, struct ast_rtp_instance *trtp, const struct ast_format_cap *cap, int nat_active) { /* XXX Is there such thing as video support with MGCP? XXX */ struct mgcp_subchannel *sub; sub = ast_channel_tech_pvt(chan); if (sub && !sub->alreadygone) { transmit_modify_with_sdp(sub, rtp, cap); return 0; } return -1; } static void mgcp_get_codec(struct ast_channel *chan, struct ast_format_cap *result) { struct mgcp_subchannel *sub = ast_channel_tech_pvt(chan); struct mgcp_endpoint *p = sub->parent; ast_format_cap_append_from_cap(result, p->cap, AST_MEDIA_TYPE_UNKNOWN); } static struct ast_rtp_glue mgcp_rtp_glue = { .type = "MGCP", .get_rtp_info = mgcp_get_rtp_peer, .update_peer = mgcp_set_rtp_peer, .get_codec = mgcp_get_codec, }; static int acf_channel_read(struct ast_channel *chan, const char *funcname, char *args, char *buf, size_t buflen) { struct mgcp_subchannel *sub = ast_channel_tech_pvt(chan); int res = 0; /* Sanity check */ if (!chan || ast_channel_tech(chan) != &mgcp_tech) { ast_log(LOG_ERROR, "This function requires a valid MGCP channel\n"); return -1; } if (!strcasecmp(args, "ncs")) { snprintf(buf, buflen, "%s", sub->parent->ncs ? "yes":"no"); } else { res = -1; } return res; } static void destroy_endpoint(struct mgcp_endpoint *e) { struct mgcp_subchannel *sub = e->sub->next, *s; int i; for (i = 0; i < MAX_SUBS; i++) { ast_mutex_lock(&sub->lock); if (!ast_strlen_zero(sub->cxident)) { transmit_connection_del(sub); } if (sub->rtp) { ast_rtp_instance_destroy(sub->rtp); sub->rtp = NULL; } memset(sub->magic, 0, sizeof(sub->magic)); mgcp_queue_hangup(sub); dump_cmd_queues(NULL, sub); if(sub->gate) { sub->gate->tech_pvt = NULL; sub->gate->got_dq_gi = NULL; sub->gate->gate_remove = NULL; sub->gate->gate_open = NULL; } ast_mutex_unlock(&sub->lock); sub = sub->next; } if (e->dsp) { ast_dsp_free(e->dsp); } dump_queue(e->parent, e); dump_cmd_queues(e, NULL); sub = e->sub; for (i = 0; (i < MAX_SUBS) && sub; i++) { s = sub; sub = sub->next; ast_mutex_destroy(&s->lock); ast_mutex_destroy(&s->cx_queue_lock); ast_free(s); } if (e->mwi_event_sub) { e->mwi_event_sub = ast_mwi_unsubscribe(e->mwi_event_sub); } if (e->chanvars) { ast_variables_destroy(e->chanvars); e->chanvars = NULL; } ast_mutex_destroy(&e->lock); ast_mutex_destroy(&e->rqnt_queue_lock); ast_mutex_destroy(&e->cmd_queue_lock); ao2_ref(e->cap, -1); ast_free(e); } static void destroy_gateway(struct mgcp_gateway *g) { if (g->ha) ast_free_ha(g->ha); dump_queue(g, NULL); ast_free(g); } static void prune_gateways(void) { struct mgcp_gateway *g, *z, *r; struct mgcp_endpoint *e, *p, *t; ast_mutex_lock(&gatelock); /* prune gateways */ for (z = NULL, g = gateways; g;) { /* prune endpoints */ for (p = NULL, e = g->endpoints; e; ) { if (!g->realtime && (e->delme || g->delme)) { t = e; e = e->next; if (!p) g->endpoints = e; else p->next = e; destroy_endpoint(t); } else { p = e; e = e->next; } } if (g->delme) { r = g; g = g->next; if (!z) gateways = g; else z->next = g; destroy_gateway(r); } else { z = g; g = g->next; } } ast_mutex_unlock(&gatelock); } static struct ast_variable *add_var(const char *buf, struct ast_variable *list) { struct ast_variable *tmpvar = NULL; char *varname = ast_strdupa(buf), *varval = NULL; if ((varval = strchr(varname, '='))) { *varval++ = '\0'; if ((tmpvar = ast_variable_new(varname, varval, ""))) { tmpvar->next = list; list = tmpvar; } } return list; } /*! \brief * duplicate a list of channel variables, \return the copy. */ static struct ast_variable *copy_vars(struct ast_variable *src) { struct ast_variable *res = NULL, *tmp, *v = NULL; for (v = src ; v ; v = v->next) { if ((tmp = ast_variable_new(v->name, v->value, v->file))) { tmp->next = res; res = tmp; } } return res; } /*! * \brief Resolve the given hostname and save its IPv4 address. * * \param[in] hostname The hostname to resolve. * \param[out] sin_addr Pointer to a struct in_addr in which to * store the resolved IPv4 address. \c sin_addr will * not be changed if resolution fails. * * \retval 0 if successful * \retval 1 on failure */ static int resolve_first_addr(const char *hostname, struct in_addr *sin_addr) { struct ast_sockaddr addr = { {0,} }; struct sockaddr_in tmp; if (ast_sockaddr_resolve_first_af(&addr, hostname, PARSE_PORT_FORBID, AF_INET)) { return 1; } ast_sockaddr_to_sin(&addr, &tmp); *sin_addr = tmp.sin_addr; return 0; } static int reload_config(int reload) { struct ast_config *cfg; struct ast_variable *v; struct mgcp_gateway *g; struct mgcp_endpoint *e; char *cat; struct ast_flags config_flags = { reload ? CONFIG_FLAG_FILEUNCHANGED : 0 }; if (gethostname(ourhost, sizeof(ourhost)-1)) { ast_log(LOG_WARNING, "Unable to get hostname, MGCP disabled\n"); return 0; } cfg = ast_config_load(config, config_flags); /* We *must* have a config file otherwise stop immediately */ if (!cfg) { ast_log(LOG_NOTICE, "Unable to load config %s, MGCP disabled\n", config); return 0; } else if (cfg == CONFIG_STATUS_FILEUNCHANGED) { return 0; } else if (cfg == CONFIG_STATUS_FILEINVALID) { ast_log(LOG_ERROR, "Config file %s is in an invalid format. Aborting.\n", config); return 0; } memset(&bindaddr, 0, sizeof(bindaddr)); dtmfmode = 0; /* Copy the default jb config over global_jbconf */ memcpy(&global_jbconf, &default_jbconf, sizeof(struct ast_jb_conf)); for (v = ast_variable_browse(cfg, "general"); v; v = v->next) { /* handle jb conf */ if (!ast_jb_read_conf(&global_jbconf, v->name, v->value)) { continue; } /* Create the interface list */ if (!strcasecmp(v->name, "bindaddr")) { if (resolve_first_addr(v->value, &bindaddr.sin_addr)) { ast_log(LOG_WARNING, "Invalid address: %s\n", v->value); } } else if (!strcasecmp(v->name, "allow")) { ast_format_cap_update_by_allow_disallow(global_capability, v->value, 1); } else if (!strcasecmp(v->name, "disallow")) { ast_format_cap_update_by_allow_disallow(global_capability, v->value, 0); } else if (!strcasecmp(v->name, "tos")) { if (ast_str2tos(v->value, &qos.tos)) { ast_log(LOG_WARNING, "Invalid tos value at line %d, refer to QoS documentation\n", v->lineno); } } else if (!strcasecmp(v->name, "tos_audio")) { if (ast_str2tos(v->value, &qos.tos_audio)) ast_log(LOG_WARNING, "Invalid tos_audio value at line %d, refer to QoS documentation\n", v->lineno); } else if (!strcasecmp(v->name, "cos")) { if (ast_str2cos(v->value, &qos.cos)) ast_log(LOG_WARNING, "Invalid cos value at line %d, refer to QoS documentation\n", v->lineno); } else if (!strcasecmp(v->name, "cos_audio")) { if (ast_str2cos(v->value, &qos.cos_audio)) ast_log(LOG_WARNING, "Invalid cos_audio value at line %d, refer to QoS documentation\n", v->lineno); } else if (!strcasecmp(v->name, "port")) { if (sscanf(v->value, "%5d", &ourport) == 1) { bindaddr.sin_port = htons(ourport); } else { ast_log(LOG_WARNING, "Invalid port number '%s' at line %d of %s\n", v->value, v->lineno, config); } } else if (!strcasecmp(v->name, "firstdigittimeout")) { firstdigittimeout = atoi(v->value); } else if (!strcasecmp(v->name, "gendigittimeout")) { gendigittimeout = atoi(v->value); } else if (!strcasecmp(v->name, "matchdigittimeout")) { matchdigittimeout = atoi(v->value); } } /* mark existing entries for deletion */ ast_mutex_lock(&gatelock); for (g = gateways; g; g = g->next) { g->delme = 1; for (e = g->endpoints; e; e = e->next) { e->delme = 1; } } ast_mutex_unlock(&gatelock); for (cat = ast_category_browse(cfg, NULL); cat; cat = ast_category_browse(cfg, cat)) { if (strcasecmp(cat, "general")) { ast_mutex_lock(&gatelock); if ((g = build_gateway(cat, ast_variable_browse(cfg, cat)))) { ast_verb(3, "Added gateway '%s'\n", g->name); g->next = gateways; gateways = g; } ast_mutex_unlock(&gatelock); /* FS: process queue and IO */ if (monitor_thread == pthread_self()) { if (sched) ast_sched_runq(sched); if (io) ast_io_wait(io, 10); } } } /* prune deleted entries etc. */ prune_gateways(); if (ntohl(bindaddr.sin_addr.s_addr)) { memcpy(&__ourip, &bindaddr.sin_addr, sizeof(__ourip)); } else { if (resolve_first_addr(ourhost, &__ourip)) { ast_log(LOG_WARNING, "Unable to get our IP address, MGCP disabled\n"); ast_config_destroy(cfg); return 0; } } if (!ntohs(bindaddr.sin_port)) bindaddr.sin_port = htons(DEFAULT_MGCP_CA_PORT); bindaddr.sin_family = AF_INET; ast_mutex_lock(&netlock); if (mgcpsock > -1) close(mgcpsock); if (mgcpsock_read_id != NULL) ast_io_remove(io, mgcpsock_read_id); mgcpsock_read_id = NULL; mgcpsock = socket(AF_INET, SOCK_DGRAM, 0); if (mgcpsock < 0) { ast_log(LOG_WARNING, "Unable to create MGCP socket: %s\n", strerror(errno)); } else { if (bind(mgcpsock, (struct sockaddr *)&bindaddr, sizeof(bindaddr)) < 0) { ast_log(LOG_WARNING, "Failed to bind to %s:%d: %s\n", ast_inet_ntoa(bindaddr.sin_addr), ntohs(bindaddr.sin_port), strerror(errno)); close(mgcpsock); mgcpsock = -1; } else { ast_verb(2, "MGCP Listening on %s:%d\n", ast_inet_ntoa(bindaddr.sin_addr), ntohs(bindaddr.sin_port)); ast_set_qos(mgcpsock, qos.tos, qos.cos, "MGCP"); } } ast_mutex_unlock(&netlock); ast_config_destroy(cfg); /* send audit only to the new endpoints */ for (g = gateways; g; g = g->next) { for (e = g->endpoints; e && e->needaudit; e = e->next) { e->needaudit = 0; transmit_audit_endpoint(e); ast_verb(3, "MGCP Auditing endpoint %s@%s for hookstate\n", e->name, g->name); } } return 0; } /*! * \brief Load the module * * Module loading including tests for configuration or dependencies. * This function can return AST_MODULE_LOAD_FAILURE, AST_MODULE_LOAD_DECLINE, * or AST_MODULE_LOAD_SUCCESS. If a dependency or environment variable fails * tests return AST_MODULE_LOAD_FAILURE. If the module can not load the * configuration file or other non-critical problem return * AST_MODULE_LOAD_DECLINE. On success return AST_MODULE_LOAD_SUCCESS. */ static int load_module(void) { if (!(global_capability = ast_format_cap_alloc(AST_FORMAT_CAP_FLAG_DEFAULT))) { return AST_MODULE_LOAD_DECLINE; } if (!(mgcp_tech.capabilities = ast_format_cap_alloc(AST_FORMAT_CAP_FLAG_DEFAULT))) { ao2_ref(global_capability, -1); return AST_MODULE_LOAD_DECLINE; } ast_format_cap_append(global_capability, ast_format_ulaw, 0); ast_format_cap_append(mgcp_tech.capabilities, ast_format_ulaw, 0); ast_format_cap_append(mgcp_tech.capabilities, ast_format_alaw, 0); if (!(sched = ast_sched_context_create())) { ast_log(LOG_WARNING, "Unable to create schedule context\n"); ao2_ref(global_capability, -1); ao2_ref(mgcp_tech.capabilities, -1); return AST_MODULE_LOAD_DECLINE; } if (!(io = io_context_create())) { ast_log(LOG_WARNING, "Unable to create I/O context\n"); ast_sched_context_destroy(sched); ao2_ref(global_capability, -1); ao2_ref(mgcp_tech.capabilities, -1); return AST_MODULE_LOAD_DECLINE; } if (reload_config(0)) { ao2_ref(global_capability, -1); ao2_ref(mgcp_tech.capabilities, -1); return AST_MODULE_LOAD_DECLINE; } /* Make sure we can register our mgcp channel type */ if (ast_channel_register(&mgcp_tech)) { ast_log(LOG_ERROR, "Unable to register channel class 'MGCP'\n"); io_context_destroy(io); ast_sched_context_destroy(sched); ao2_ref(global_capability, -1); ao2_ref(mgcp_tech.capabilities, -1); return AST_MODULE_LOAD_DECLINE; } ast_rtp_glue_register(&mgcp_rtp_glue); ast_cli_register_multiple(cli_mgcp, sizeof(cli_mgcp) / sizeof(struct ast_cli_entry)); /* And start the monitor for the first time */ restart_monitor(); return AST_MODULE_LOAD_SUCCESS; } static char *mgcp_reload(struct ast_cli_entry *e, int cmd, struct ast_cli_args *a) { static int deprecated = 0; if (e) { switch (cmd) { case CLI_INIT: e->command = "mgcp reload"; e->usage = "Usage: mgcp reload\n" " 'mgcp reload' is deprecated. Please use 'reload chan_mgcp.so' instead.\n"; return NULL; case CLI_GENERATE: return NULL; } } if (!deprecated && a && a->argc > 0) { ast_log(LOG_WARNING, "'mgcp reload' is deprecated. Please use 'reload chan_mgcp.so' instead.\n"); deprecated = 1; } ast_mutex_lock(&mgcp_reload_lock); if (mgcp_reloading) { ast_verbose("Previous mgcp reload not yet done\n"); } else { mgcp_reloading = 1; } ast_mutex_unlock(&mgcp_reload_lock); restart_monitor(); return CLI_SUCCESS; } static int reload(void) { mgcp_reload(NULL, 0, NULL); return 0; } static int unload_module(void) { struct mgcp_endpoint *e; struct mgcp_gateway *g; /* Check to see if we're reloading */ if (ast_mutex_trylock(&mgcp_reload_lock)) { ast_log(LOG_WARNING, "MGCP is currently reloading. Unable to remove module.\n"); return -1; } else { mgcp_reloading = 1; ast_mutex_unlock(&mgcp_reload_lock); } /* First, take us out of the channel loop */ ast_channel_unregister(&mgcp_tech); /* Shut down the monitoring thread */ if (!ast_mutex_lock(&monlock)) { if (monitor_thread && (monitor_thread != AST_PTHREADT_STOP)) { pthread_cancel(monitor_thread); pthread_kill(monitor_thread, SIGURG); pthread_join(monitor_thread, NULL); } monitor_thread = AST_PTHREADT_STOP; ast_mutex_unlock(&monlock); } else { ast_log(LOG_WARNING, "Unable to lock the monitor\n"); /* We always want to leave this in a consistent state */ ast_channel_register(&mgcp_tech); mgcp_reloading = 0; mgcp_reload(NULL, 0, NULL); return -1; } if (!ast_mutex_lock(&gatelock)) { for (g = gateways; g; g = g->next) { g->delme = 1; for (e = g->endpoints; e; e = e->next) { e->delme = 1; } } prune_gateways(); ast_mutex_unlock(&gatelock); } else { ast_log(LOG_WARNING, "Unable to lock the gateways list.\n"); /* We always want to leave this in a consistent state */ ast_channel_register(&mgcp_tech); /* Allow the monitor to restart */ monitor_thread = AST_PTHREADT_NULL; mgcp_reloading = 0; mgcp_reload(NULL, 0, NULL); return -1; } if (mgcpsock > -1) { close(mgcpsock); } ast_rtp_glue_unregister(&mgcp_rtp_glue); ast_cli_unregister_multiple(cli_mgcp, sizeof(cli_mgcp) / sizeof(struct ast_cli_entry)); ast_sched_context_destroy(sched); ao2_ref(global_capability, -1); global_capability = NULL; ao2_ref(mgcp_tech.capabilities, -1); mgcp_tech.capabilities = NULL; return 0; } AST_MODULE_INFO(ASTERISK_GPL_KEY, AST_MODFLAG_LOAD_ORDER, "Media Gateway Control Protocol (MGCP)", .support_level = AST_MODULE_SUPPORT_EXTENDED, .load = load_module, .unload = unload_module, .reload = reload, .load_pri = AST_MODPRI_CHANNEL_DRIVER, .optional_modules = "res_pktccops", );