/*****************************************************************************\ ** ** ** Linux Call Router ** ** ** **---------------------------------------------------------------------------** ** Copyright: Andreas Eversberg ** ** ** ** Socket link server ** ** ** \*****************************************************************************/ #include "main.h" #include #include #include char *socket_name = SOCKET_NAME; int sock = -1; struct sockaddr_un sock_address; struct admin_list *admin_first = NULL; /* * initialize admin socket */ int admin_init(void) { unsigned long on = 1; /* open and bind socket */ if ((sock = socket(PF_UNIX, SOCK_STREAM, 0)) < 0) { PERROR("Failed to create admin socket. (errno=%d)\n", errno); return(-1); } fhuse++; memset(&sock_address, 0, sizeof(sock_address)); sock_address.sun_family = AF_UNIX; UCPY(sock_address.sun_path, socket_name); unlink(socket_name); if (bind(sock, (struct sockaddr *)(&sock_address), SUN_LEN(&sock_address)) < 0) { close(sock); unlink(socket_name); fhuse--; sock = -1; PERROR("Failed to bind admin socket to \"%s\". (errno=%d)\n", sock_address.sun_path, errno); return(-1); } if (listen(sock, 5) < 0) { close(sock); unlink(socket_name); fhuse--; sock = -1; PERROR("Failed to listen to socket \"%s\". (errno=%d)\n", sock_address.sun_path, errno); return(-1); } if (ioctl(sock, FIONBIO, (unsigned char *)(&on)) < 0) { close(sock); unlink(socket_name); fhuse--; sock = -1; PERROR("Failed to set socket \"%s\" into non-blocking mode. (errno=%d)\n", sock_address.sun_path, errno); return(-1); } return(0); } /* * free connection * also releases all remote joins */ void free_connection(struct admin_list *admin) { struct admin_queue *response; void *temp; union parameter param; class Join *join, *joinnext; /* free remote joins */ if (admin->remote_name[0]) { start_trace(0, NULL, NULL, NULL, DIRECTION_NONE, 0, 0, "REMOTE APP release"); add_trace("app", "name", "%s", admin->remote_name); end_trace(); join = join_first; while(join) { joinnext = join->next; if (join->j_type==JOIN_TYPE_REMOTE) if (((class JoinRemote *)join)->j_remote_id == admin->sock) { memset(¶m, 0, sizeof(param)); param.disconnectinfo.cause = CAUSE_OUTOFORDER; param.disconnectinfo.location = LOCATION_PRIVATE_LOCAL; ((class JoinRemote *)join)->message_remote(MESSAGE_RELEASE, ¶m); /* join is now destroyed, so we go to next join */ } join = joinnext; } } if (admin->sock >= 0) { close(admin->sock); fhuse--; } // printf("new\n", response); response = admin->response; while (response) { //#warning // printf("%x\n", response); temp = response->next; FREE(response, 0); memuse--; response = (struct admin_queue *)temp; } // printf("new2\n", response); FREE(admin, 0); // printf("new3\n", response); memuse--; } /* * cleanup admin socket */ void admin_cleanup(void) { struct admin_list *admin, *next;; admin = admin_first; while(admin) { //printf("clean\n"); next = admin->next; free_connection(admin); admin = next; } if (sock >= 0) { close(sock); fhuse--; } } /* * do interface reload */ int admin_interface(struct admin_queue **responsep) { struct admin_queue *response; /* response pointer */ char *err_txt = ""; int err = 0; if (read_interfaces()) { relink_interfaces(); free_interfaces(interface_first); interface_first = interface_newlist; interface_newlist = NULL; } else { err_txt = interface_error; err = -1; } /* create state response */ response = (struct admin_queue *)MALLOC(sizeof(struct admin_queue)+sizeof(admin_message)); memuse++; response->num = 1; /* message */ response->am[0].message = ADMIN_RESPONSE_CMD_INTERFACE; /* error */ response->am[0].u.x.error = err; /* message */ SCPY(response->am[0].u.x.message, err_txt); /* attach to response chain */ *responsep = response; responsep = &response->next; return(0); } /* * do route reload */ int admin_route(struct admin_queue **responsep) { struct route_ruleset *ruleset_new; struct admin_queue *response; /* response pointer */ char err_txt[256] = ""; int err = 0; #if 0 int n; #endif class EndpointAppPBX *apppbx; #if 0 n = 0; apppbx = apppbx_first; while(apppbx) { n++; apppbx = apppbx->next; } if (apppbx_first) { SPRINT(err_txt, "Cannot reload routing, because %d endpoints active\n", n); err = -1; goto response; } #endif if (!(ruleset_new = ruleset_parse())) { SPRINT(err_txt, ruleset_error); err = -1; goto response; } ruleset_free(ruleset_first); ruleset_first = ruleset_new; ruleset_main = getrulesetbyname("main"); if (!ruleset_main) { SPRINT(err_txt, "Ruleset reloaded, but rule 'main' not found.\n"); err = -1; } apppbx = apppbx_first; while(apppbx) { if (apppbx->e_action) { switch(apppbx->e_action->index) { case ACTION_INTERNAL: apppbx->e_action = &action_internal; break; case ACTION_EXTERNAL: apppbx->e_action = &action_external; break; case ACTION_REMOTE: apppbx->e_action = &action_remote; break; case ACTION_VBOX_RECORD: apppbx->e_action = &action_vbox; break; case ACTION_PARTYLINE: apppbx->e_action = &action_partyline; break; default: goto release; } } else if (apppbx->e_state != EPOINT_STATE_CONNECT) { release: apppbx->e_callback = 0; apppbx->e_action = NULL; apppbx->release(RELEASE_ALL, LOCATION_PRIVATE_LOCAL, CAUSE_NORMAL, LOCATION_PRIVATE_LOCAL, CAUSE_NORMAL); start_trace(0, NULL, numberrize_callerinfo(apppbx->e_callerinfo.id, apppbx->e_callerinfo.ntype, options.national, options.international), apppbx->e_dialinginfo.id, DIRECTION_NONE, CATEGORY_EP, apppbx->ea_endpoint->ep_serial, "KICK (reload routing)"); end_trace(); } apppbx->e_action_timeout = 0; apppbx->e_rule = NULL; apppbx->e_ruleset = NULL; apppbx = apppbx->next; } response: /* create state response */ response = (struct admin_queue *)MALLOC(sizeof(struct admin_queue)+sizeof(admin_message)); memuse++; response->num = 1; /* message */ response->am[0].message = ADMIN_RESPONSE_CMD_ROUTE; /* error */ response->am[0].u.x.error = err; /* message */ SCPY(response->am[0].u.x.message, err_txt); /* attach to response chain */ *responsep = response; responsep = &response->next; return(0); } /* * do dialing */ int admin_dial(struct admin_queue **responsep, char *message) { struct extension ext; /* temporary extension's settings */ struct admin_queue *response; /* response pointer */ char *p; /* pointer to dialing digits */ /* create state response */ response = (struct admin_queue *)MALLOC(sizeof(struct admin_queue)+sizeof(admin_message)); memuse++; response->num = 1; /* message */ response->am[0].message = ADMIN_RESPONSE_CMD_DIAL; /* process request */ if (!(p = strchr(message,':'))) { response->am[0].u.x.error = -EINVAL; SPRINT(response->am[0].u.x.message, "no seperator ':' in message to seperate number from extension"); goto out; } *p++ = 0; /* modify extension */ if (!read_extension(&ext, message)) { response->am[0].u.x.error = -EINVAL; SPRINT(response->am[0].u.x.message, "extension doesn't exist"); goto out; } SCPY(ext.next, p); write_extension(&ext, message); out: /* attach to response chain */ *responsep = response; responsep = &response->next; return(0); } /* * do tracing */ int admin_trace(struct admin_list *admin, struct admin_trace_req *trace) { memcpy(&admin->trace, trace, sizeof(struct admin_trace_req)); return(0); } /* * do blocking * * 0 = make port available * 1 = make port administratively blocked * 2 = unload port * the result is returned: * 0 = port is now available * 1 = port is now blocked * 2 = port cannot be loaded or has been unloaded * -1 = port doesn't exist */ int admin_block(struct admin_queue **responsep, int portnum, int block) { struct admin_queue *response; /* response pointer */ struct interface *interface; struct interface_port *ifport; /* create block response */ response = (struct admin_queue *)MALLOC(sizeof(struct admin_queue)+sizeof(admin_message)); memuse++; response->num = 1; /* message */ response->am[0].message = ADMIN_RESPONSE_CMD_BLOCK; response->am[0].u.x.portnum = portnum; /* search for port */ interface = interface_first; while(interface) { ifport = interface->ifport; while(ifport) { if (ifport->portnum == portnum) break; ifport = ifport->next; } if (ifport) break; interface = interface->next; } /* not found, we return -1 */ if (!ifport) { response->am[0].u.x.block = -1; response->am[0].u.x.error = 1; SPRINT(response->am[0].u.x.message, "Port %d does not exist.", portnum); goto out; } /* no interface */ if (!ifport->mISDNport) { /* not loaded anyway */ if (block >= 2) { response->am[0].u.x.block = 2; goto out; } /* try loading interface */ ifport->block = block; load_port(ifport); /* port cannot load */ if (ifport->block >= 2) { response->am[0].u.x.block = 2; response->am[0].u.x.error = 1; SPRINT(response->am[0].u.x.message, "Port %d will not load.", portnum); goto out; } /* port loaded */ response->am[0].u.x.block = ifport->block; goto out; } /* if we shall unload interface */ if (block >= 2) { mISDNport_close(ifport->mISDNport); ifport->mISDNport = 0; ifport->block = 2; goto out; } /* port new blocking state */ ifport->block = response->am[0].u.x.block = block; out: /* attach to response chain */ *responsep = response; responsep = &response->next; return(0); } /* * do release */ int admin_release(struct admin_queue **responsep, char *message) { unsigned long id; struct admin_queue *response; /* response pointer */ class EndpointAppPBX *apppbx; /* create state response */ response = (struct admin_queue *)MALLOC(sizeof(struct admin_queue)+sizeof(admin_message)); memuse++; response->num = 1; /* message */ response->am[0].message = ADMIN_RESPONSE_CMD_RELEASE; id = atoi(message); apppbx = apppbx_first; while(apppbx) { if (apppbx->ea_endpoint->ep_serial == id) break; apppbx = apppbx->next; } if (!apppbx) { response->am[0].u.x.error = -EINVAL; SPRINT(response->am[0].u.x.message, "Given endpoint %d doesn't exist.", id); goto out; } apppbx->e_callback = 0; apppbx->release(RELEASE_ALL, LOCATION_PRIVATE_LOCAL, CAUSE_NORMAL, LOCATION_PRIVATE_LOCAL, CAUSE_NORMAL); out: /* attach to response chain */ *responsep = response; responsep = &response->next; return(0); } /* * do call */ int admin_call(struct admin_list *admin, struct admin_message *msg) { class Endpoint *epoint; class EndpointAppPBX *apppbx; if (!(epoint = new Endpoint(0, 0))) FATAL("No memory for Endpoint instance\n"); if (!(epoint->ep_app = apppbx = new DEFAULT_ENDPOINT_APP(epoint, 1))) // outgoing FATAL("No memory for Endpoint Application instance\n"); apppbx->e_adminid = admin->sockserial; admin->epointid = epoint->ep_serial; SCPY(apppbx->e_callerinfo.id, nationalize_callerinfo(msg->u.call.callerid, &apppbx->e_callerinfo.ntype, options.national, options.international)); if (msg->u.call.present) apppbx->e_callerinfo.present = INFO_PRESENT_ALLOWED; else apppbx->e_callerinfo.present = INFO_PRESENT_RESTRICTED; apppbx->e_callerinfo.screen = INFO_SCREEN_NETWORK; //printf("hh=%d\n", apppbx->e_capainfo.hlc); apppbx->e_capainfo.bearer_capa = msg->u.call.bc_capa; apppbx->e_capainfo.bearer_mode = msg->u.call.bc_mode; apppbx->e_capainfo.bearer_info1 = msg->u.call.bc_info1; apppbx->e_capainfo.hlc = msg->u.call.hlc; apppbx->e_capainfo.exthlc = msg->u.call.exthlc; SCPY(apppbx->e_dialinginfo.id, msg->u.call.dialing); SCPY(apppbx->e_dialinginfo.interfaces, msg->u.call.interface); apppbx->e_dialinginfo.sending_complete = 1; apppbx->new_state(PORT_STATE_OUT_SETUP); apppbx->out_setup(); return(0); } /* * this function is called for response whenever a call state changes. */ void admin_call_response(int adminid, int message, char *connected, int cause, int location, int notify) { struct admin_list *admin; struct admin_queue *response, **responsep; /* response pointer */ /* searching for admin id * maybe there is no admin instance, because the calling port was not * initiated by admin_call */ admin = admin_first; while(admin) { if (adminid == admin->sockserial) break; admin = admin->next; } if (!admin) return; /* seek to end of response list */ response = admin->response; responsep = &admin->response; while(response) { responsep = &response->next; response = response->next; } /* create state response */ response = (struct admin_queue *)MALLOC(sizeof(struct admin_queue)+sizeof(admin_message)); memuse++; response->num = 1; /* message */ response->am[0].message = message; // printf("MESSAGE: %d\n", message); SCPY(response->am[0].u.call.callerid, connected); response->am[0].u.call.cause = cause; response->am[0].u.call.location = location; response->am[0].u.call.notify = notify; /* attach to response chain */ *responsep = response; responsep = &response->next; } /* * send data to the remote socket join instance */ int admin_message_to_join(struct admin_msg *msg, struct admin_list *admin) { class Join *join; struct admin_list *temp; /* hello message */ if (msg->type == MESSAGE_HELLO) { if (admin->remote_name[0]) { PERROR("Remote application repeats hello message.\n"); return(-1); } /* look for second application */ temp = admin_first; while(temp) { if (!strcmp(temp->remote_name, msg->param.hello.application)) break; temp = temp->next; } if (temp) { PERROR("Remote application connects twice??? (ignoring)\n"); return(-1); } /* set remote socket instance */ SCPY(admin->remote_name, msg->param.hello.application); start_trace(0, NULL, NULL, NULL, DIRECTION_NONE, 0, 0, "REMOTE APP registers"); add_trace("app", "name", "%s", admin->remote_name); end_trace(); return(0); } /* check we have no application name */ if (!admin->remote_name[0]) { PERROR("Remote application did not send us a hello message.\n"); return(-1); } /* new join */ if (msg->type == MESSAGE_NEWREF) { /* create new join instance */ join = new JoinRemote(0, admin->remote_name, admin->sock); // must have no serial, because no endpoint is connected if (!join) { FATAL("No memory for remote join instance\n"); return(-1); } return(0); } /* bchannel message * no ref given for *_ack */ if (msg->type == MESSAGE_BCHANNEL) if (msg->param.bchannel.type == BCHANNEL_ASSIGN_ACK || msg->param.bchannel.type == BCHANNEL_REMOVE_ACK) { /* no ref, but address */ message_bchannel_from_join(NULL, msg->param.bchannel.type, msg->param.bchannel.handle); return(0); } /* check for ref */ if (!msg->ref) { PERROR("Remote application did not send us a valid ref with a message.\n"); return(-1); } /* find join instance */ join = join_first; while(join) { if (join->j_serial == msg->ref) break; join = join->next; } if (!join) { PERROR("No join found with serial %d.\n", msg->ref); return(-1); } /* check application */ if (join->j_type != JOIN_TYPE_REMOTE) { PERROR("Ref %d does not belong to a remote join instance.\n", msg->ref); return(-1); } if (admin->sock != ((class JoinRemote *)join)->j_remote_id) { PERROR("Ref %d belongs to remote application %s, but not to sending application %s.\n", msg->ref, ((class JoinRemote *)join)->j_remote_name, admin->remote_name); return(-1); } /* send message */ ((class JoinRemote *)join)->message_remote(msg->type, &msg->param); return(0); } /* * this function is called for every message to remote socket */ int admin_message_from_join(int remote_id, unsigned long ref, int message_type, union parameter *param) { struct admin_list *admin; struct admin_queue **responsep; /* response pointer */ /* searching for admin id * maybe there is no given remote application */ admin = admin_first; while(admin) { if (admin->remote_name[0] && admin->sock==remote_id) break; admin = admin->next; } /* no given remote application connected */ if (!admin) return(-1); /* seek to end of response list */ responsep = &admin->response; while(*responsep) { responsep = &(*responsep)->next; } /* create state response */ *responsep = (struct admin_queue *)MALLOC(sizeof(struct admin_queue)+sizeof(admin_message)); memuse++; (*responsep)->num = 1; /* message */ (*responsep)->am[0].message = ADMIN_MESSAGE; (*responsep)->am[0].u.msg.type = message_type; (*responsep)->am[0].u.msg.ref = ref; memcpy(&(*responsep)->am[0].u.msg.param, param, sizeof(union parameter)); return(0); } /* * do state debugging */ int admin_state(struct admin_queue **responsep) { class Port *port; class EndpointAppPBX *apppbx; class Join *join; class Pdss1 *pdss1; struct interface *interface; struct interface_port *ifport; struct mISDNport *mISDNport; int i; int num; int anybusy; struct admin_queue *response; struct admin_list *admin; /* create state response */ response = (struct admin_queue *)MALLOC(sizeof(struct admin_queue)+sizeof(admin_message)); memuse++; response->num = 1; /* message */ response->am[0].message = ADMIN_RESPONSE_STATE; /* version */ SCPY(response->am[0].u.s.version_string, VERSION_STRING); /* time */ memcpy(&response->am[0].u.s.tm, now_tm, sizeof(struct tm)); /* log file */ SCPY(response->am[0].u.s.logfile, options.log); /* interface count */ i = 0; interface = interface_first; while(interface) { ifport = interface->ifport; while(ifport) { i++; ifport = ifport->next; } interface = interface->next; } response->am[0].u.s.interfaces = i; /* remote connection count */ i = 0; admin = admin_first; while(admin) { if (admin->remote_name[0]) i++; admin = admin->next; } response->am[0].u.s.remotes = i; /* join count */ join = join_first; i = 0; while(join) { i++; join = join->next; } response->am[0].u.s.joins = i; /* apppbx count */ apppbx = apppbx_first; i = 0; while(apppbx) { i++; apppbx = apppbx->next; } response->am[0].u.s.epoints = i; /* port count */ i = 0; port = port_first; while(port) { i++; port = port->next; } response->am[0].u.s.ports = i; /* attach to response chain */ *responsep = response; responsep = &response->next; /* create response for all instances */ num = (response->am[0].u.s.interfaces) + (response->am[0].u.s.remotes) + (response->am[0].u.s.joins) + (response->am[0].u.s.epoints) + (response->am[0].u.s.ports); if (num == 0) return(0); response = (struct admin_queue *)MALLOC(sizeof(admin_queue)+(num*sizeof(admin_message))); memuse++; response->num = num; *responsep = response; responsep = &response->next; interface = interface_first; num = 0; while(interface) { ifport = interface->ifport; while(ifport) { /* message */ response->am[num].message = ADMIN_RESPONSE_S_INTERFACE; /* interface */ SCPY(response->am[num].u.i.interface_name, interface->name); /* portnum */ response->am[num].u.i.portnum = ifport->portnum; /* iftype */ response->am[num].u.i.extension = interface->extension; /* block */ response->am[num].u.i.block = ifport->block; if (ifport->mISDNport) { mISDNport = ifport->mISDNport; /* ptp */ response->am[num].u.i.ptp = mISDNport->ptp; /* ntmode */ response->am[num].u.i.ntmode = mISDNport->ntmode; /* pri */ response->am[num].u.i.pri = mISDNport->pri; /* use */ response->am[num].u.i.use = mISDNport->use; /* l1link */ response->am[num].u.i.l1link = mISDNport->l1link; /* l2link */ response->am[num].u.i.l2link = mISDNport->l2link; /* los */ response->am[num].u.i.los = mISDNport->los; /* ais */ response->am[num].u.i.ais = mISDNport->ais; /* rdi */ response->am[num].u.i.rdi = mISDNport->rdi; /* slip */ response->am[num].u.i.slip_tx = mISDNport->slip_tx; response->am[num].u.i.slip_rx = mISDNport->slip_rx; /* channels */ response->am[num].u.i.channels = mISDNport->b_num; /* channel info */ i = 0; anybusy = 0; while(i < mISDNport->b_num) { response->am[num].u.i.busy[i] = mISDNport->b_state[i]; if (mISDNport->b_port[i]) response->am[num].u.i.port[i] = mISDNport->b_port[i]->p_serial; i++; } } num++; ifport = ifport->next; } interface = interface->next; } /* create response for all remotes */ admin = admin_first; while(admin) { if (admin->remote_name[0]) { /* message */ response->am[num].message = ADMIN_RESPONSE_S_REMOTE; /* name */ SCPY(response->am[num].u.r.name, admin->remote_name); /* */ num++; } admin = admin->next; } /* create response for all joins */ join = join_first; while(join) { /* message */ response->am[num].message = ADMIN_RESPONSE_S_JOIN; /* serial */ response->am[num].u.j.serial = join->j_serial; /* partyline */ if (join->j_type == JOIN_TYPE_PBX) response->am[num].u.j.partyline = ((class JoinPBX *)join)->j_partyline; /* remote application */ if (join->j_type == JOIN_TYPE_REMOTE) SCPY(response->am[num].u.j.remote, ((class JoinRemote *)join)->j_remote_name); /* */ join = join->next; num++; } /* create response for all endpoint */ apppbx = apppbx_first; while(apppbx) { /* message */ response->am[num].message = ADMIN_RESPONSE_S_EPOINT; /* serial */ response->am[num].u.e.serial = apppbx->ea_endpoint->ep_serial; /* join */ response->am[num].u.e.join = apppbx->ea_endpoint->ep_join_id; /* rx notification */ response->am[num].u.e.rx_state = apppbx->e_rx_state; /* tx notification */ response->am[num].u.e.tx_state = apppbx->e_tx_state; /* state */ switch(apppbx->e_state) { case EPOINT_STATE_IN_SETUP: response->am[num].u.e.state = ADMIN_STATE_IN_SETUP; break; case EPOINT_STATE_OUT_SETUP: response->am[num].u.e.state = ADMIN_STATE_OUT_SETUP; break; case EPOINT_STATE_IN_OVERLAP: response->am[num].u.e.state = ADMIN_STATE_IN_OVERLAP; break; case EPOINT_STATE_OUT_OVERLAP: response->am[num].u.e.state = ADMIN_STATE_OUT_OVERLAP; break; case EPOINT_STATE_IN_PROCEEDING: response->am[num].u.e.state = ADMIN_STATE_IN_PROCEEDING; break; case EPOINT_STATE_OUT_PROCEEDING: response->am[num].u.e.state = ADMIN_STATE_OUT_PROCEEDING; break; case EPOINT_STATE_IN_ALERTING: response->am[num].u.e.state = ADMIN_STATE_IN_ALERTING; break; case EPOINT_STATE_OUT_ALERTING: response->am[num].u.e.state = ADMIN_STATE_OUT_ALERTING; break; case EPOINT_STATE_CONNECT: response->am[num].u.e.state = ADMIN_STATE_CONNECT; break; case EPOINT_STATE_IN_DISCONNECT: response->am[num].u.e.state = ADMIN_STATE_IN_DISCONNECT; break; case EPOINT_STATE_OUT_DISCONNECT: response->am[num].u.e.state = ADMIN_STATE_OUT_DISCONNECT; break; default: response->am[num].u.e.state = ADMIN_STATE_IDLE; } /* terminal */ SCPY(response->am[num].u.e.terminal, apppbx->e_ext.number); /* callerid */ SCPY(response->am[num].u.e.callerid, apppbx->e_callerinfo.id); /* dialing */ SCPY(response->am[num].u.e.dialing, apppbx->e_dialinginfo.id); /* action string */ if (apppbx->e_action) SCPY(response->am[num].u.e.action, action_defs[apppbx->e_action->index].name); // if (apppbx->e_action) // printf("action=%s\n",action_defs[apppbx->e_action->index].name); /* park */ response->am[num].u.e.park = apppbx->ea_endpoint->ep_park; if (apppbx->ea_endpoint->ep_park && apppbx->ea_endpoint->ep_park_len && apppbx->ea_endpoint->ep_park_len<=(int)sizeof(response->am[num].u.e.park_callid)) memcpy(response->am[num].u.e.park_callid, apppbx->ea_endpoint->ep_park_callid, apppbx->ea_endpoint->ep_park_len); response->am[num].u.e.park_len = apppbx->ea_endpoint->ep_park_len; /* crypt */ if (apppbx->e_crypt == CRYPT_ON) response->am[num].u.e.crypt = 1; /* */ apppbx = apppbx->next; num++; } /* create response for all ports */ port = port_first; while(port) { /* message */ response->am[num].message = ADMIN_RESPONSE_S_PORT; /* serial */ response->am[num].u.p.serial = port->p_serial; /* name */ SCPY(response->am[num].u.p.name, port->p_name); /* epoint */ response->am[num].u.p.epoint = ACTIVE_EPOINT(port->p_epointlist); /* state */ switch(port->p_state) { case PORT_STATE_IN_SETUP: response->am[num].u.p.state = ADMIN_STATE_IN_SETUP; break; case PORT_STATE_OUT_SETUP: response->am[num].u.p.state = ADMIN_STATE_OUT_SETUP; break; case PORT_STATE_IN_OVERLAP: response->am[num].u.p.state = ADMIN_STATE_IN_OVERLAP; break; case PORT_STATE_OUT_OVERLAP: response->am[num].u.p.state = ADMIN_STATE_OUT_OVERLAP; break; case PORT_STATE_IN_PROCEEDING: response->am[num].u.p.state = ADMIN_STATE_IN_PROCEEDING; break; case PORT_STATE_OUT_PROCEEDING: response->am[num].u.p.state = ADMIN_STATE_OUT_PROCEEDING; break; case PORT_STATE_IN_ALERTING: response->am[num].u.p.state = ADMIN_STATE_IN_ALERTING; break; case PORT_STATE_OUT_ALERTING: response->am[num].u.p.state = ADMIN_STATE_OUT_ALERTING; break; case PORT_STATE_CONNECT: response->am[num].u.p.state = ADMIN_STATE_CONNECT; break; case PORT_STATE_IN_DISCONNECT: response->am[num].u.p.state = ADMIN_STATE_IN_DISCONNECT; break; case PORT_STATE_OUT_DISCONNECT: response->am[num].u.p.state = ADMIN_STATE_OUT_DISCONNECT; break; default: response->am[num].u.p.state = ADMIN_STATE_IDLE; } /* isdn */ if ((port->p_type&PORT_CLASS_mISDN_MASK) == PORT_CLASS_mISDN_DSS1) { response->am[num].u.p.isdn = 1; pdss1 = (class Pdss1 *)port; response->am[num].u.p.isdn_chan = pdss1->p_m_b_channel; response->am[num].u.p.isdn_hold = pdss1->p_m_hold; response->am[num].u.p.isdn_ces = pdss1->p_m_d_ces; } /* */ port = port->next; num++; } return(0); } int sockserial = 1; // must start with 1, because 0 is used if no serial is set /* * handle admin socket (non blocking) */ int admin_handle(void) { struct admin_list *admin, **adminp; void *temp; struct admin_message msg; int len; int new_sock; socklen_t sock_len = sizeof(sock_address); unsigned long on = 1; int work = 0; /* if work was done */ struct Endpoint *epoint; if (sock < 0) return(0); /* check for new incoming connections */ if ((new_sock = accept(sock, (struct sockaddr *)&sock_address, &sock_len)) >= 0) { work = 1; /* insert new socket */ admin = (struct admin_list *)MALLOC(sizeof(struct admin_list)); if (ioctl(new_sock, FIONBIO, (unsigned char *)(&on)) >= 0) { //#warning // PERROR("DEBUG incoming socket %d, serial=%d\n", new_sock, sockserial); memuse++; fhuse++; admin->sockserial = sockserial++; admin->next = admin_first; admin_first = admin; admin->sock = new_sock; } else { close(new_sock); FREE(admin, sizeof(struct admin_list)); } } else { if (errno != EWOULDBLOCK) { PERROR("Failed to accept connection from socket \"%s\". (errno=%d) Closing socket.\n", sock_address.sun_path, errno); admin_cleanup(); return(1); } } /* loop all current socket connections */ admin = admin_first; adminp = &admin_first; while(admin) { /* read command */ len = read(admin->sock, &msg, sizeof(msg)); if (len < 0) { if (errno != EWOULDBLOCK) { work = 1; brokenpipe: printf("Broken pipe on socket %d. (errno=%d).\n", admin->sock, errno); PDEBUG(DEBUG_LOG, "Broken pipe on socket %d. (errno=%d).\n", admin->sock, errno); *adminp = admin->next; free_connection(admin); admin = *adminp; continue; } goto send_data; } work = 1; //#warning //PERROR("DEBUG socket %d got data. serial=%d\n", admin->sock, admin->sockserial); if (len == 0) { end: /*release endpoint if exists */ if (admin->epointid) { epoint = find_epoint_id(admin->epointid); if (epoint) { ((class DEFAULT_ENDPOINT_APP *)epoint->ep_app)-> release(RELEASE_ALL, LOCATION_PRIVATE_LOCAL, CAUSE_NORMAL, LOCATION_PRIVATE_LOCAL, CAUSE_NORMAL); } } //#warning //PERROR("DEBUG socket %d closed by remote.\n", admin->sock); *adminp = admin->next; free_connection(admin); admin = *adminp; //PERROR("DEBUG (admin_first=%x)\n", admin_first); continue; } if (len != sizeof(msg)) { PERROR("Short/long read on socket %d. (len=%d != size=%d).\n", admin->sock, len, sizeof(msg)); *adminp = admin->next; free_connection(admin); admin = *adminp; continue; } /* process socket command */ if (admin->response && msg.message != ADMIN_MESSAGE) { PERROR("Data from socket %d while sending response.\n", admin->sock); *adminp = admin->next; free_connection(admin); admin = *adminp; continue; } switch (msg.message) { case ADMIN_REQUEST_CMD_INTERFACE: if (admin_interface(&admin->response) < 0) { PERROR("Failed to create dial response for socket %d.\n", admin->sock); goto response_error; } break; case ADMIN_REQUEST_CMD_ROUTE: if (admin_route(&admin->response) < 0) { PERROR("Failed to create dial response for socket %d.\n", admin->sock); goto response_error; } break; case ADMIN_REQUEST_CMD_DIAL: if (admin_dial(&admin->response, msg.u.x.message) < 0) { PERROR("Failed to create dial response for socket %d.\n", admin->sock); goto response_error; } break; case ADMIN_REQUEST_CMD_RELEASE: if (admin_release(&admin->response, msg.u.x.message) < 0) { PERROR("Failed to create release response for socket %d.\n", admin->sock); goto response_error; } break; case ADMIN_REQUEST_STATE: if (admin_state(&admin->response) < 0) { PERROR("Failed to create state response for socket %d.\n", admin->sock); goto response_error; } break; case ADMIN_TRACE_REQUEST: if (admin_trace(admin, &msg.u.trace_req) < 0) { PERROR("Failed to create trace response for socket %d.\n", admin->sock); goto response_error; } break; case ADMIN_REQUEST_CMD_BLOCK: if (admin_block(&admin->response, msg.u.x.portnum, msg.u.x.block) < 0) { PERROR("Failed to create block response for socket %d.\n", admin->sock); goto response_error; } break; case ADMIN_MESSAGE: if (admin_message_to_join(&msg.u.msg, admin) < 0) { PERROR("Failed to deliver message for socket %d.\n", admin->sock); goto response_error; } #if 0 #warning DEBUGGING { struct admin_queue *response; printf("Chain: "); response = admin->response; while(response) { printf("%c", '0'+response->am[0].message); response=response->next; } printf("\n"); } #endif break; case ADMIN_CALL_SETUP: if (admin_call(admin, &msg) < 0) { PERROR("Failed to create call for socket %d.\n", admin->sock); response_error: *adminp = admin->next; free_connection(admin); admin = *adminp; continue; } break; default: PERROR("Invalid message %d from socket %d.\n", msg.message, admin->sock); *adminp = admin->next; free_connection(admin); admin = *adminp; continue; } /* write queue */ send_data: if (admin->response) { //#warning //PERROR("DEBUG socket %d sending data.\n", admin->sock); len = write(admin->sock, ((unsigned char *)(admin->response->am))+admin->response->offset, sizeof(struct admin_message)*(admin->response->num)-admin->response->offset); if (len < 0) { if (errno != EWOULDBLOCK) { work = 1; goto brokenpipe; } goto next; } work = 1; if (len == 0) goto end; if (len < (int)(sizeof(struct admin_message)*(admin->response->num) - admin->response->offset)) { admin->response->offset+=len; goto next; } else { temp = admin->response; admin->response = admin->response->next; FREE(temp, 0); memuse--; } } /* done with socket instance */ next: adminp = &admin->next; admin = admin->next; } return(work); }