/*****************************************************************************\ ** ** ** Linux Call Router ** ** ** **---------------------------------------------------------------------------** ** Copyright: Andreas Eversberg ** ** ** ** SIP port ** ** ** \*****************************************************************************/ #include "main.h" #include #include #include #include #include #include #include #ifndef SOFIA_SIP_GCC_4_8_PATCH_APLLIED #warning ******************************************************** #warning Please apply the sofia-sip-gcc-4.8.patch ! #warning If this issue is already fixed, just remove this check. #warning ******************************************************** #error #endif #undef NUTAG_AUTO100 unsigned char flip[256]; int any_sip_interface = 0; //pthread_mutex_t mutex_msg; su_home_t sip_home[1]; #define REGISTER_STATE_UNREGISTERED 1 #define REGISTER_STATE_REGISTERING 2 #define REGISTER_STATE_REGISTERED 3 #define REGISTER_STATE_FAILED 4 #define STUN_RETRY_TIMER 10, 0 #define REGISTER_RETRY_TIMER 10, 0 #define STUN_STATE_UNRESOLVED 1 #define STUN_STATE_RESOLVING 2 #define STUN_STATE_RESOLVED 3 #define STUN_STATE_FAILED 4 #define RTP_PORT_BASE 30000 #define RTP_PORT_MAX 39998 struct sip_inst { char interface_name[64]; char local_peer[128]; char remote_peer[128]; char asserted_id[128]; int allow_register; int register_state; char register_user[128]; char register_host[128]; nua_handle_t *register_handle; struct lcr_timer register_retry_timer; struct lcr_timer register_option_timer; int register_interval; int options_interval; char auth_user[128]; char auth_password[128]; char auth_realm[128]; char auth_nonce[128]; su_root_t *root; nua_t *nua; char public_ip[128]; int stun_state; char stun_server[128]; stun_handle_t *stun_handle; su_socket_t stun_socket; struct lcr_timer stun_retry_timer; int stun_interval; unsigned short rtp_port_from; unsigned short rtp_port_to; unsigned short next_rtp_port; }; static int delete_event(struct lcr_work *work, void *instance, int index); static int invite_option_timer(struct lcr_timer *timer, void *instance, int index); static int load_timer(struct lcr_timer *timer, void *instance, int index); /* * initialize SIP port */ Psip::Psip(int type, char *portname, struct port_settings *settings, struct interface *interface) : Port(type, portname, settings, interface) { p_s_rtp_bridge = 0; if (interface->rtp_bridge) p_s_rtp_bridge = 1; p_s_sip_inst = interface->sip_inst; memset(&p_s_delete, 0, sizeof(p_s_delete)); add_work(&p_s_delete, delete_event, this, 0); p_s_handle = 0; p_s_magic = 0; memset(&p_s_rtp_fd, 0, sizeof(p_s_rtp_fd)); memset(&p_s_rtcp_fd, 0, sizeof(p_s_rtcp_fd)); memset(&p_s_rtp_sin_local, 0, sizeof(p_s_rtp_sin_local)); memset(&p_s_rtcp_sin_local, 0, sizeof(p_s_rtcp_sin_local)); memset(&p_s_rtp_sin_remote, 0, sizeof(p_s_rtp_sin_remote)); memset(&p_s_rtcp_sin_remote, 0, sizeof(p_s_rtcp_sin_remote)); p_s_rtp_ip_local = 0; p_s_rtp_ip_remote = 0; p_s_rtp_port_local = 0; p_s_rtp_port_remote = 0; p_s_b_sock = -1; p_s_b_index = -1; p_s_b_active = 0; p_s_rxpos = 0; p_s_rtp_tx_action = 0; p_s_rtp_is_connected = 0; /* create option timer */ memset(&p_s_invite_option_timer, 0, sizeof(p_s_invite_option_timer)); add_timer(&p_s_invite_option_timer, invite_option_timer, this, 0); p_s_invite_direction = 0; /* audio */ memset(&p_s_load_timer, 0, sizeof(p_s_load_timer)); add_timer(&p_s_load_timer, load_timer, this, 0); p_s_next_tv_sec = 0; PDEBUG(DEBUG_SIP, "Created new Psip(%s).\n", portname); if (!p_s_sip_inst) FATAL("No SIP instance for interface\n"); } /* * destructor */ Psip::~Psip() { PDEBUG(DEBUG_SIP, "Destroyed SIP process(%s).\n", p_name); del_timer(&p_s_invite_option_timer); del_timer(&p_s_load_timer); del_work(&p_s_delete); rtp_close(); } static const char *media_type2name(uint8_t media_type) { switch (media_type) { case MEDIA_TYPE_ULAW: return "PCMU"; case MEDIA_TYPE_ALAW: return "PCMA"; case MEDIA_TYPE_GSM: return "GSM"; case MEDIA_TYPE_GSM_HR: return "GSM-HR"; case MEDIA_TYPE_GSM_EFR: return "GSM-EFR"; case MEDIA_TYPE_AMR: return "AMR"; } return "UKN"; } static void sip_trace_header(class Psip *sip, const char *interface_name, const char *message, int direction) { struct interface *interface = NULL; if (interface_name) interface = getinterfacebyname(interface_name); /* init trace with given values */ start_trace(-1, interface, sip?numberrize_callerinfo(sip->p_callerinfo.id, sip->p_callerinfo.ntype, options.national, options.international):NULL, sip?sip->p_dialinginfo.id:NULL, direction, CATEGORY_CH, sip?sip->p_serial:0, message); } /* * RTP */ /* according to RFC 3550 */ struct rtp_hdr { #if __BYTE_ORDER == __LITTLE_ENDIAN uint8_t csrc_count:4, extension:1, padding:1, version:2; uint8_t payload_type:7, marker:1; #elif __BYTE_ORDER == __BIG_ENDIAN uint8_t version:2, padding:1, extension:1, csrc_count:4; uint8_t marker:1, payload_type:7; #endif uint16_t sequence; uint32_t timestamp; uint32_t ssrc; } __attribute__((packed)); struct rtp_x_hdr { uint16_t by_profile; uint16_t length; } __attribute__((packed)); #define RTP_VERSION 2 #define PAYLOAD_TYPE_ULAW 0 #define PAYLOAD_TYPE_ALAW 8 #define PAYLOAD_TYPE_GSM 3 /* decode an rtp frame */ static int rtp_decode(class Psip *psip, unsigned char *data, int len) { struct rtp_hdr *rtph = (struct rtp_hdr *)data; struct rtp_x_hdr *rtpxh; uint8_t *payload; int payload_len; int x_len; unsigned char *from, *to; int n; if (len < 12) { PDEBUG(DEBUG_SIP, "received RTP frame too short (len = %d)\n", len); return -EINVAL; } if (rtph->version != RTP_VERSION) { PDEBUG(DEBUG_SIP, "received RTP version %d not supported.\n", rtph->version); return -EINVAL; } payload = data + sizeof(struct rtp_hdr) + (rtph->csrc_count << 2); payload_len = len - sizeof(struct rtp_hdr) - (rtph->csrc_count << 2); if (payload_len < 0) { PDEBUG(DEBUG_SIP, "received RTP frame too short (len = %d, " "csrc count = %d)\n", len, rtph->csrc_count); return -EINVAL; } if (rtph->extension) { if (payload_len < (int)sizeof(struct rtp_x_hdr)) { PDEBUG(DEBUG_SIP, "received RTP frame too short for " "extension header\n"); return -EINVAL; } rtpxh = (struct rtp_x_hdr *)payload; x_len = ntohs(rtpxh->length) * 4 + sizeof(struct rtp_x_hdr); payload += x_len; payload_len -= x_len; if (payload_len < 0) { PDEBUG(DEBUG_SIP, "received RTP frame too short, " "extension header exceeds frame length\n"); return -EINVAL; } } if (rtph->padding) { if (payload_len < 0) { PDEBUG(DEBUG_SIP, "received RTP frame too short for " "padding length\n"); return -EINVAL; } payload_len -= payload[payload_len - 1]; if (payload_len < 0) { PDEBUG(DEBUG_SIP, "received RTP frame with padding " "greater than payload\n"); return -EINVAL; } } switch (rtph->payload_type) { #if 0 we only support alaw and ulaw! case RTP_PT_GSM_FULL: if (payload_len != 33) { PDEBUG(DEBUG_SIP, "received RTP full rate frame with " "payload length != 33 (len = %d)\n", payload_len); return -EINVAL; } break; case RTP_PT_GSM_EFR: if (payload_len != 31) { PDEBUG(DEBUG_SIP, "received RTP full rate frame with " "payload length != 31 (len = %d)\n", payload_len); return -EINVAL; } break; case RTP_PT_GSM_HALF: if (payload_len != 14) { PDEBUG(DEBUG_SIP, "received RTP half rate frame with " "payload length != 14 (len = %d)\n", payload_len); return -EINVAL; } break; #endif case PAYLOAD_TYPE_ALAW: if (options.law != 'a') { PDEBUG(DEBUG_SIP, "received Alaw, but we don't do Alaw\n"); return -EINVAL; } break; case PAYLOAD_TYPE_ULAW: if (options.law == 'a') { PDEBUG(DEBUG_SIP, "received Ulaw, but we don't do Ulaw\n"); return -EINVAL; } break; default: PDEBUG(DEBUG_SIP, "received RTP frame with unknown payload " "type %d\n", rtph->payload_type); return -EINVAL; } if (payload_len <= 0) { PDEBUG(DEBUG_SIP, "received RTP payload is too small: %d\n", payload_len); return 0; } /* record audio */ if (psip->p_record) psip->record(payload, payload_len, 0); // from down if (psip->p_tap) psip->tap(payload, payload_len, 0); // from down n = payload_len; from = payload; to = payload; if (psip->p_echotest) { /* echo rtp data we just received */ psip->rtp_send_frame(from, n, (options.law=='a')?PAYLOAD_TYPE_ALAW:PAYLOAD_TYPE_ULAW); return 0; } while(n--) *to++ = flip[*from++]; if (psip->p_dov_rx) psip->dov_rx(payload, payload_len); psip->bridge_tx(payload, payload_len); return 0; } static int rtp_sock_callback(struct lcr_fd *fd, unsigned int what, void *instance, int index) { class Psip *psip = (class Psip *) instance; int len; unsigned char buffer[256]; int rc = 0; if ((what & LCR_FD_READ)) { len = read(fd->fd, &buffer, sizeof(buffer)); if (len <= 0) { PDEBUG(DEBUG_SIP, "read result=%d\n", len); // psip->rtp_close(); // psip->rtp_shutdown(); return len; } if (psip->p_s_rtp_is_connected) rc = rtp_decode(psip, buffer, len); } return rc; } static int rtcp_sock_callback(struct lcr_fd *fd, unsigned int what, void *instance, int index) { // class Psip *psip = (class Psip *) instance; int len; unsigned char buffer[256]; if ((what & LCR_FD_READ)) { len = read(fd->fd, &buffer, sizeof(buffer)); if (len <= 0) { PDEBUG(DEBUG_SIP, "read result=%d\n", len); // psip->rtp_close(); // psip->rtp_shutdown(); return len; } PDEBUG(DEBUG_SIP, "rtcp!\n"); } return 0; } static int rtp_sub_socket_bind(int fd, struct sockaddr_in *sin_local, uint32_t ip, uint16_t port) { int rc; socklen_t alen = sizeof(*sin_local); sin_local->sin_family = AF_INET; sin_local->sin_addr.s_addr = htonl(ip); sin_local->sin_port = htons(port); rc = bind(fd, (struct sockaddr *) sin_local, sizeof(*sin_local)); if (rc < 0) return rc; /* retrieve the address we actually bound to, in case we * passed INADDR_ANY as IP address */ return getsockname(fd, (struct sockaddr *) sin_local, &alen); } static int rtp_sub_socket_connect(int fd, struct sockaddr_in *sin_local, struct sockaddr_in *sin_remote, uint32_t ip, uint16_t port) { int rc; socklen_t alen = sizeof(*sin_local); sin_remote->sin_family = AF_INET; sin_remote->sin_addr.s_addr = htonl(ip); sin_remote->sin_port = htons(port); rc = connect(fd, (struct sockaddr *) sin_remote, sizeof(*sin_remote)); if (rc < 0) { PERROR("failed to connect to ip %08x port %d rc=%d\n", ip, port, rc); return rc; } return getsockname(fd, (struct sockaddr *) sin_local, &alen); } int Psip::rtp_open(void) { struct sip_inst *inst = (struct sip_inst *) p_s_sip_inst; int rc, rc2; // struct in_addr ia; unsigned int ip; unsigned short start_port; PDEBUG(DEBUG_SIP, "rtp_open\n"); /* create socket */ rc = socket(AF_INET, SOCK_DGRAM, IPPROTO_UDP); if (rc < 0) { rtp_close(); return -EIO; } p_s_rtp_fd.fd = rc; register_fd(&p_s_rtp_fd, LCR_FD_READ, rtp_sock_callback, this, 0); rc = socket(AF_INET, SOCK_DGRAM, IPPROTO_UDP); if (rc < 0) { rtp_close(); return -EIO; } p_s_rtcp_fd.fd = rc; register_fd(&p_s_rtcp_fd, LCR_FD_READ, rtcp_sock_callback, this, 0); /* bind socket */ ip = htonl(INADDR_ANY); start_port = inst->next_rtp_port; while (1) { rc = rtp_sub_socket_bind(p_s_rtp_fd.fd, &p_s_rtp_sin_local, ip, inst->next_rtp_port); if (rc != 0) goto try_next_port; rc = rtp_sub_socket_bind(p_s_rtcp_fd.fd, &p_s_rtcp_sin_local, ip, inst->next_rtp_port + 1); if (rc == 0) { p_s_rtp_port_local = inst->next_rtp_port; inst->next_rtp_port = (inst->next_rtp_port + 2 > inst->rtp_port_to) ? inst->rtp_port_from : inst->next_rtp_port + 2; break; } /* reopen rtp socket and try again with next udp port */ unregister_fd(&p_s_rtp_fd); close(p_s_rtp_fd.fd); p_s_rtp_fd.fd = 0; rc2 = socket(AF_INET, SOCK_DGRAM, IPPROTO_UDP); if (rc2 < 0) { rtp_close(); return -EIO; } p_s_rtp_fd.fd = rc2; register_fd(&p_s_rtp_fd, LCR_FD_READ, rtp_sock_callback, this, 0); try_next_port: inst->next_rtp_port = (inst->next_rtp_port + 2 > inst->rtp_port_to) ? inst->rtp_port_from : inst->next_rtp_port + 2; if (inst->next_rtp_port == start_port) break; /* we must use rc2, in order to preserve rc */ } if (rc < 0) { PDEBUG(DEBUG_SIP, "failed to find port\n"); rtp_close(); return rc; } p_s_rtp_ip_local = ntohl(p_s_rtp_sin_local.sin_addr.s_addr); PDEBUG(DEBUG_SIP, "local ip %08x port %d\n", p_s_rtp_ip_local, p_s_rtp_port_local); PDEBUG(DEBUG_SIP, "remote ip %08x port %d\n", p_s_rtp_ip_remote, p_s_rtp_port_remote); return p_s_rtp_port_local; } int Psip::rtp_connect(void) { int rc; struct in_addr ia; ia.s_addr = htonl(p_s_rtp_ip_remote); if (p_s_rtp_is_connected) PDEBUG(DEBUG_SIP, "reconnecting existing RTP connection to new/same destination\n"); PDEBUG(DEBUG_SIP, "rtp_connect(ip=%s, port=%u)\n", inet_ntoa(ia), p_s_rtp_port_remote); rc = rtp_sub_socket_connect(p_s_rtp_fd.fd, &p_s_rtp_sin_local, &p_s_rtp_sin_remote, p_s_rtp_ip_remote, p_s_rtp_port_remote); if (rc < 0) return rc; rc = rtp_sub_socket_connect(p_s_rtcp_fd.fd, &p_s_rtcp_sin_local, &p_s_rtcp_sin_remote, p_s_rtp_ip_remote, p_s_rtp_port_remote + 1); if (rc < 0) return rc; p_s_rtp_ip_local = ntohl(p_s_rtp_sin_local.sin_addr.s_addr); PDEBUG(DEBUG_SIP, "local ip %08x port %d\n", p_s_rtp_ip_local, p_s_rtp_port_local); PDEBUG(DEBUG_SIP, "remote ip %08x port %d\n", p_s_rtp_ip_remote, p_s_rtp_port_remote); p_s_rtp_is_connected = 1; return 0; } void Psip::rtp_close(void) { if (p_s_rtp_fd.fd > 0) { unregister_fd(&p_s_rtp_fd); close(p_s_rtp_fd.fd); p_s_rtp_fd.fd = 0; } if (p_s_rtcp_fd.fd > 0) { unregister_fd(&p_s_rtcp_fd); close(p_s_rtcp_fd.fd); p_s_rtcp_fd.fd = 0; } if (p_s_rtp_is_connected) { PDEBUG(DEBUG_SIP, "rtp closed\n"); p_s_rtp_is_connected = 0; } } /* "to - from" */ void tv_difference(struct timeval *diff, const struct timeval *from, const struct timeval *__to) { struct timeval _to = *__to, *to = &_to; if (to->tv_usec < from->tv_usec) { to->tv_sec -= 1; to->tv_usec += 1000000; } diff->tv_usec = to->tv_usec - from->tv_usec; diff->tv_sec = to->tv_sec - from->tv_sec; } /* encode and send a rtp frame */ int Psip::rtp_send_frame(unsigned char *data, unsigned int len, uint8_t payload_type) { struct rtp_hdr *rtph; int payload_len; int duration; /* in samples */ unsigned char buffer[256]; /* record audio */ if (p_record) record(data, len, 1); // from up if (p_tap) tap(data, len, 1); // from up if (!p_s_rtp_is_connected) { /* drop silently */ return 0; } if (!p_s_rtp_tx_action) { /* initialize sequences */ p_s_rtp_tx_action = 1; p_s_rtp_tx_ssrc = rand(); p_s_rtp_tx_sequence = random(); p_s_rtp_tx_timestamp = random(); memset(&p_s_rtp_tx_last_tv, 0, sizeof(p_s_rtp_tx_last_tv)); } switch (payload_type) { #if 0 we only support alaw and ulaw! case RTP_PT_GSM_FULL: payload_len = 33; duration = 160; break; case RTP_PT_GSM_EFR: payload_len = 31; duration = 160; break; case RTP_PT_GSM_HALF: payload_len = 14; duration = 160; break; #endif case PAYLOAD_TYPE_ALAW: case PAYLOAD_TYPE_ULAW: payload_len = len; duration = len; break; default: PERROR("unsupported message type %d\n", payload_type); return -EINVAL; } #if 0 { struct timeval tv, tv_diff; long int usec_diff, frame_diff; gettimeofday(&tv, NULL); tv_difference(&tv_diff, &p_s_rtp_tx_last_tv, &tv); p_s_rtp_tx_last_tv = tv; usec_diff = tv_diff.tv_sec * 1000000 + tv_diff.tv_usec; frame_diff = (usec_diff / 20000); if (abs(frame_diff) > 1) { long int frame_diff_excess = frame_diff - 1; PDEBUG(DEBUG_SIP, "Correcting frame difference of %ld frames\n", frame_diff_excess); p_s_rtp_tx_sequence += frame_diff_excess; p_s_rtp_tx_timestamp += frame_diff_excess * duration; } } #endif rtph = (struct rtp_hdr *) buffer; rtph->version = RTP_VERSION; rtph->padding = 0; rtph->extension = 0; rtph->csrc_count = 0; rtph->marker = 0; rtph->payload_type = payload_type; rtph->sequence = htons(p_s_rtp_tx_sequence++); rtph->timestamp = htonl(p_s_rtp_tx_timestamp); p_s_rtp_tx_timestamp += duration; rtph->ssrc = htonl(p_s_rtp_tx_ssrc); memcpy(buffer + sizeof(struct rtp_hdr), data, payload_len); if (p_s_rtp_fd.fd > 0) { len = write(p_s_rtp_fd.fd, &buffer, sizeof(struct rtp_hdr) + payload_len); if (len != sizeof(struct rtp_hdr) + payload_len) { PDEBUG(DEBUG_SIP, "write result=%d\n", len); // rtp_close(); // rtp_shutdown(); return -EIO; } } return 0; } /* receive from remote */ int Psip::bridge_rx(unsigned char *data, int len) { int ret; /* don't bridge, if tones are provided */ if (p_tone_name[0] || p_dov_tx) return -EBUSY; if (p_dov_tx) return -EBUSY; if ((ret = Port::bridge_rx(data, len))) return ret; /* write to rx buffer */ while(len--) { p_s_rxdata[p_s_rxpos++] = flip[*data++]; if (p_s_rxpos == 160) { p_s_rxpos = 0; /* transmit data via rtp */ rtp_send_frame(p_s_rxdata, 160, (options.law=='a')?PAYLOAD_TYPE_ALAW:PAYLOAD_TYPE_ULAW); } } return 0; } /* taken from freeswitch */ /* map sip responses to QSIG cause codes ala RFC4497 section 8.4.4 */ static int status2cause(int status) { switch (status) { case 200: return 16; //SWITCH_CAUSE_NORMAL_CLEARING; case 401: case 402: case 403: case 407: case 603: return 21; //SWITCH_CAUSE_CALL_REJECTED; case 404: return 1; //SWITCH_CAUSE_UNALLOCATED_NUMBER; case 485: case 604: return 3; //SWITCH_CAUSE_NO_ROUTE_DESTINATION; case 408: case 504: return 102; //SWITCH_CAUSE_RECOVERY_ON_TIMER_EXPIRE; case 410: return 22; //SWITCH_CAUSE_NUMBER_CHANGED; case 413: case 414: case 416: case 420: case 421: case 423: case 505: case 513: return 127; //SWITCH_CAUSE_INTERWORKING; case 480: return 180; //SWITCH_CAUSE_NO_USER_RESPONSE; case 400: case 481: case 500: case 503: return 41; //SWITCH_CAUSE_NORMAL_TEMPORARY_FAILURE; case 486: case 600: return 17; //SWITCH_CAUSE_USER_BUSY; case 484: return 28; //SWITCH_CAUSE_INVALID_NUMBER_FORMAT; case 488: case 606: return 88; //SWITCH_CAUSE_INCOMPATIBLE_DESTINATION; case 502: return 38; //SWITCH_CAUSE_NETWORK_OUT_OF_ORDER; case 405: return 63; //SWITCH_CAUSE_SERVICE_UNAVAILABLE; case 406: case 415: case 501: return 79; //SWITCH_CAUSE_SERVICE_NOT_IMPLEMENTED; case 482: case 483: return 25; //SWITCH_CAUSE_EXCHANGE_ROUTING_ERROR; case 487: return 31; //??? SWITCH_CAUSE_ORIGINATOR_CANCEL; default: return 31; //SWITCH_CAUSE_NORMAL_UNSPECIFIED; } } static int cause2status(int cause, int location, const char **st) { int s; switch (cause) { case 1: s = 404; *st = sip_404_Not_found; break; case 2: s = 404; *st = sip_404_Not_found; break; case 3: s = 404; *st = sip_404_Not_found; break; case 17: s = 486; *st = sip_486_Busy_here; break; case 18: s = 408; *st = sip_408_Request_timeout; break; case 19: s = 480; *st = sip_480_Temporarily_unavailable; break; case 20: s = 480; *st = sip_480_Temporarily_unavailable; break; case 21: if (location == LOCATION_USER) { s = 603; *st = sip_603_Decline; } else { s = 403; *st = sip_403_Forbidden; } break; case 22: //s = 301; *st = sip_301_Moved_permanently; s = 410; *st = sip_410_Gone; break; case 23: s = 410; *st = sip_410_Gone; break; case 26: s = 404; *st = sip_404_Not_found; break; case 27: s = 502; *st = sip_502_Bad_gateway; break; case 28: s = 484; *st = sip_484_Address_incomplete; break; case 29: s = 501; *st = sip_501_Not_implemented; break; case 31: s = 480; *st = sip_480_Temporarily_unavailable; break; case 34: s = 503; *st = sip_503_Service_unavailable; break; case 38: s = 503; *st = sip_503_Service_unavailable; break; case 41: s = 503; *st = sip_503_Service_unavailable; break; case 42: s = 503; *st = sip_503_Service_unavailable; break; case 47: s = 503; *st = sip_503_Service_unavailable; break; case 55: s = 403; *st = sip_403_Forbidden; break; case 57: s = 403; *st = sip_403_Forbidden; break; case 58: s = 503; *st = sip_503_Service_unavailable; break; case 65: s = 488; *st = sip_488_Not_acceptable; break; case 69: s = 501; *st = sip_501_Not_implemented; break; case 70: s = 488; *st = sip_488_Not_acceptable; break; case 79: s = 501; *st = sip_501_Not_implemented; break; case 87: s = 403; *st = sip_403_Forbidden; break; case 88: s = 503; *st = sip_503_Service_unavailable; break; case 102: s = 504; *st = sip_504_Gateway_time_out; break; case 111: s = 500; *st = sip_500_Internal_server_error; break; case 127: s = 500; *st = sip_500_Internal_server_error; break; default: s = 468; *st = sip_486_Busy_here; } return s; } /* use STUN ip, or return the ip without change */ unsigned int Psip::get_local_ip(unsigned int ip) { struct sip_inst *inst = (struct sip_inst *) p_s_sip_inst; if (inst->public_ip[0]) { PDEBUG(DEBUG_SIP, "RTP local IP is replaced by STUN ip %s\n", inst->public_ip); inet_pton(AF_INET, inst->public_ip, &ip); return htonl(ip); } return ip; } /* some simple nonce generator */ static void generate_nonce(char *result) { UPRINT(result, "%08x", (unsigned int)random()); result += 8; UPRINT(result, "%08x", (unsigned int)random()); result += 8; UPRINT(result, "%08x", (unsigned int)random()); result += 8; UPRINT(result, "%08x", (unsigned int)random()); } /* check authorization */ static int check_authorization(sip_authorization_t const *authorization, const char *regstr, const char *check_user, const char *check_pass, const char *check_realm, const char *check_nonce, const char **auth_text) { int ret = 500; *auth_text = "Internal Server Error"; char *username = NULL; char *realm = NULL; char *nonce = NULL; char *uri = NULL; char *qop = NULL; char *cnonce = NULL; char *nc = NULL; char *response = NULL; int indexnum; const char *cur; char temp[256], first_digest[2 * SU_MD5_DIGEST_SIZE + 1], second_digest[2 * SU_MD5_DIGEST_SIZE + 1], third_digest[2 * SU_MD5_DIGEST_SIZE + 1]; su_md5_t md5_ctx; if (!check_nonce || !check_nonce[0] || !authorization || !authorization->au_params) { if (!strcmp(regstr, "REGISTER")) { *auth_text = "Unauthorized"; ret = 401; } else { *auth_text = "Proxy Authentication Required"; ret = 407; } goto end; } /* parse header (stolen from freeswitch) */ for (indexnum = 0; (cur = authorization->au_params[indexnum]); indexnum++) { char *var, *val, *p, *work; var = val = work = NULL; if ((work = strdup(cur))) { var = work; if ((val = strchr(var, '='))) { *val++ = '\0'; while (*val == '"') { *val++ = '\0'; } if ((p = strchr(val, '"'))) { *p = '\0'; } PDEBUG(DEBUG_SIP, "Found in Auth header: %s = %s\n", var, val); if (!strcasecmp(var, "username")) { username = strdup(val); } else if (!strcasecmp(var, "realm")) { realm = strdup(val); } else if (!strcasecmp(var, "nonce")) { nonce = strdup(val); } else if (!strcasecmp(var, "uri")) { uri = strdup(val); } else if (!strcasecmp(var, "qop")) { qop = strdup(val); } else if (!strcasecmp(var, "cnonce")) { cnonce = strdup(val); } else if (!strcasecmp(var, "response")) { response = strdup(val); } else if (!strcasecmp(var, "nc")) { nc = strdup(val); } } free(work); } } if (!username || !realm || !nonce || ! uri || !response) { *auth_text = "Authorization header incomplete"; ret = 400; goto end; } if (!!strcmp(username, check_user)) { *auth_text = "Authorization Username Missmatch"; ret = 403; goto end; } if (!!strcmp(realm, check_realm)) { *auth_text = "Authorization Realm Missmatch"; ret = 403; goto end; } if (!!strcmp(nonce, check_nonce)) { *auth_text = "Authorization Nonce Missmatch"; ret = 403; goto end; } /* perform hash */ SPRINT(temp, "%s:%s:%s", check_user, realm, check_pass); PDEBUG(DEBUG_SIP, "First hash: %s\n", temp); su_md5_init(&md5_ctx); su_md5_strupdate(&md5_ctx, temp); su_md5_hexdigest(&md5_ctx, first_digest); su_md5_deinit(&md5_ctx); SPRINT(temp, "%s:%s", regstr, uri); PDEBUG(DEBUG_SIP, "Second hash: %s\n", temp); su_md5_init(&md5_ctx); su_md5_strupdate(&md5_ctx, temp); su_md5_hexdigest(&md5_ctx, second_digest); su_md5_deinit(&md5_ctx); if (nc && cnonce && qop) SPRINT(temp, "%s:%s:%s:%s:%s:%s", first_digest, nonce, nc, cnonce, qop, second_digest); else SPRINT(temp, "%s:%s:%s", first_digest, nonce, second_digest); PDEBUG(DEBUG_SIP, "Third hash: %s\n", temp); su_md5_init(&md5_ctx); su_md5_strupdate(&md5_ctx, temp); su_md5_hexdigest(&md5_ctx, third_digest); su_md5_deinit(&md5_ctx); if (!!strcmp(response, third_digest)) { *auth_text = "Authorization Failed"; ret = 403; goto end; } *auth_text = "Authorization Success"; ret = 200; end: free(username); free(realm); free(nonce); free(uri); free(qop); free(cnonce); free(nc); free(response); return ret; } /* * endpoint sends messages to the SIP port */ int Psip::message_connect(unsigned int epoint_id, int message_id, union parameter *param) { struct sip_inst *inst = (struct sip_inst *) p_s_sip_inst; const char *sdp_str = NULL; struct lcr_msg *message; struct interface *interface; int media_type; unsigned char payload_type; interface = getinterfacebyname(inst->interface_name); if (!interface) { PERROR("Cannot find interface %s.\n", inst->interface_name); return 0; } if (param->connectinfo.rtpinfo.port) { PDEBUG(DEBUG_SIP, "RTP info given by remote, forward that\n"); p_s_rtp_bridge = 1; media_type = param->connectinfo.rtpinfo.media_types[0]; payload_type = param->connectinfo.rtpinfo.payload_types[0]; p_s_rtp_ip_local = param->connectinfo.rtpinfo.ip; p_s_rtp_port_local = param->connectinfo.rtpinfo.port; PDEBUG(DEBUG_SIP, "payload type %d\n", payload_type); PDEBUG(DEBUG_SIP, "local ip %08x port %d\n", p_s_rtp_ip_local, p_s_rtp_port_local); PDEBUG(DEBUG_SIP, "remote ip %08x port %d\n", p_s_rtp_ip_remote, p_s_rtp_port_remote); } else { PDEBUG(DEBUG_SIP, "RTP info not given by remote, so we do our own RTP\n"); media_type = (options.law=='a') ? MEDIA_TYPE_ALAW : MEDIA_TYPE_ULAW; payload_type = (options.law=='a') ? PAYLOAD_TYPE_ALAW : PAYLOAD_TYPE_ULAW; /* open local RTP peer (if not bridging) */ if (rtp_connect() < 0) { nua_cancel(p_s_handle, TAG_END()); PDEBUG(DEBUG_SIP, "nua_handle_destroy %x\n", p_s_handle); nua_handle_destroy(p_s_handle); p_s_handle = NULL; sip_trace_header(this, inst->interface_name, "CANCEL", DIRECTION_OUT); add_trace("reason", NULL, "failed to connect RTP/RTCP sockts"); end_trace(); message = message_create(p_serial, epoint_id, PORT_TO_EPOINT, MESSAGE_RELEASE); message->param.disconnectinfo.cause = 41; message->param.disconnectinfo.location = LOCATION_PRIVATE_LOCAL; message_put(message); new_state(PORT_STATE_RELEASE); trigger_work(&p_s_delete); return 0; } } sdp_str = generate_sdp(p_s_rtp_ip_local, p_s_rtp_port_local, 1, &payload_type, &media_type); PDEBUG(DEBUG_SIP, "Using SDP response: %s\n", sdp_str); /* NOTE: * If this response causes corrupt messages, like SDP body inside or * before header, check if the sofia-sip-gcc-4.8.patch was applied. * If it is still corrupted, try to disable optimization when compiling * sofia-sip. */ nua_respond(p_s_handle, SIP_200_OK, NUTAG_MEDIA_ENABLE(0), SIPTAG_CONTENT_TYPE_STR("application/sdp"), SIPTAG_PAYLOAD_STR(sdp_str), TAG_END()); new_state(PORT_STATE_CONNECT); sip_trace_header(this, inst->interface_name, "RESPOND", DIRECTION_OUT); add_trace("respond", "value", "200 OK"); add_trace("reason", NULL, "call connected"); struct in_addr ia; memset(&ia, 0, sizeof(ia)); ia.s_addr = htonl(get_local_ip(p_s_rtp_ip_local)); add_trace("rtp", "ip", "%s", inet_ntoa(ia)); add_trace("rtp", "port", "%d,%d", p_s_rtp_port_local, p_s_rtp_port_local + 1); add_trace("rtp", "payload", "%s:%d", media_type2name(media_type), payload_type); end_trace(); return 0; } int Psip::message_release(unsigned int epoint_id, int message_id, union parameter *param) { struct sip_inst *inst = (struct sip_inst *) p_s_sip_inst; struct lcr_msg *message; char cause_str[128] = ""; int cause = param->disconnectinfo.cause; int location = param->disconnectinfo.cause; int status; const char *status_text; if (cause > 0 && cause <= 127) { SPRINT(cause_str, "Q.850;cause=%d;text=\"%s\"", cause, isdn_cause[cause].english); } switch (p_state) { case PORT_STATE_OUT_SETUP: case PORT_STATE_OUT_PROCEEDING: case PORT_STATE_OUT_ALERTING: PDEBUG(DEBUG_SIP, "RELEASE/DISCONNECT will cancel\n"); sip_trace_header(this, inst->interface_name, "CANCEL", DIRECTION_OUT); if (cause_str[0]) add_trace("cause", "value", "%d", cause); end_trace(); nua_cancel(p_s_handle, TAG_IF(cause_str[0], SIPTAG_REASON_STR(cause_str)), TAG_END()); break; case PORT_STATE_IN_SETUP: case PORT_STATE_IN_PROCEEDING: case PORT_STATE_IN_ALERTING: PDEBUG(DEBUG_SIP, "RELEASE/DISCONNECT will respond\n"); status = cause2status(cause, location, &status_text); sip_trace_header(this, inst->interface_name, "RESPOND", DIRECTION_OUT); if (cause_str[0]) add_trace("cause", "value", "%d", cause); add_trace("respond", "value", "%d %s", status, status_text); end_trace(); nua_respond(p_s_handle, status, status_text, TAG_IF(cause_str[0], SIPTAG_REASON_STR(cause_str)), TAG_END()); PDEBUG(DEBUG_SIP, "nua_handle_destroy %x\n", p_s_handle); nua_handle_destroy(p_s_handle); p_s_handle = NULL; trigger_work(&p_s_delete); break; default: PDEBUG(DEBUG_SIP, "RELEASE/DISCONNECT will perform nua_bye\n"); sip_trace_header(this, inst->interface_name, "BYE", DIRECTION_OUT); if (cause_str[0]) add_trace("cause", "value", "%d", cause); end_trace(); nua_bye(p_s_handle, TAG_IF(cause_str[0], SIPTAG_REASON_STR(cause_str)), TAG_END()); } if (message_id == MESSAGE_DISCONNECT) { while(p_epointlist) { message = message_create(p_serial, p_epointlist->epoint_id, PORT_TO_EPOINT, MESSAGE_RELEASE); message->param.disconnectinfo.cause = CAUSE_NORMAL; message->param.disconnectinfo.location = LOCATION_BEYOND; message_put(message); /* remove epoint */ free_epointlist(p_epointlist); } } new_state(PORT_STATE_RELEASE); return(0); } int Psip::message_setup(unsigned int epoint_id, int message_id, union parameter *param) { struct sip_inst *inst = (struct sip_inst *) p_s_sip_inst; char from[128] = ""; char asserted_id[128] = "", asserted_msg[256] = ""; char to[128] = ""; char contact[128] = ""; const char *local = inst->local_peer; char local_ip[16]; const char *remote = inst->remote_peer; const char *sdp_str = NULL; struct epoint_list *epointlist; sip_cseq_t *cseq = NULL; struct lcr_msg *message; int lcr_media = { (options.law=='a') ? MEDIA_TYPE_ALAW : MEDIA_TYPE_ULAW }; unsigned char lcr_payload = { (options.law=='a') ? (unsigned char )PAYLOAD_TYPE_ALAW : (unsigned char )PAYLOAD_TYPE_ULAW }; int *media_types; unsigned char *payload_types; int payloads = 0; int i; if (!remote[0]) { sip_trace_header(this, inst->interface_name, "INVITE", DIRECTION_OUT); add_trace("failed", "reason", "No remote peer set or no peer has registered to us."); end_trace(); message = message_create(p_serial, epoint_id, PORT_TO_EPOINT, MESSAGE_RELEASE); message->param.disconnectinfo.cause = 27; message->param.disconnectinfo.location = LOCATION_PRIVATE_LOCAL; message_put(message); new_state(PORT_STATE_RELEASE); trigger_work(&p_s_delete); return 0; } PDEBUG(DEBUG_SIP, "Doing Setup (inst %p)\n", inst); memcpy(&p_dialinginfo, ¶m->setup.dialinginfo, sizeof(p_dialinginfo)); memcpy(&p_callerinfo, ¶m->setup.callerinfo, sizeof(p_callerinfo)); // memcpy(&p_redirinfo, ¶m->setup.redirinfo, sizeof(p_redirinfo)); do_screen(1, p_callerinfo.id, sizeof(p_callerinfo.id), &p_callerinfo.ntype, &p_callerinfo.present, inst->interface_name); // do_screen(1, p_redirinfo.id, sizeof(p_redirinfo.id), &p_redirinfo.ntype, &p_redirinfo.present, inst->interface_name); if (param->setup.rtpinfo.port) { PDEBUG(DEBUG_SIP, "RTP info given by remote, forward that\n"); p_s_rtp_bridge = 1; media_types = param->setup.rtpinfo.media_types; payload_types = param->setup.rtpinfo.payload_types; payloads = param->setup.rtpinfo.payloads; p_s_rtp_ip_local = param->setup.rtpinfo.ip; p_s_rtp_port_local = param->setup.rtpinfo.port; PDEBUG(DEBUG_SIP, "local ip %08x port %d\n", p_s_rtp_ip_local, p_s_rtp_port_local); PDEBUG(DEBUG_SIP, "remote ip %08x port %d\n", p_s_rtp_ip_remote, p_s_rtp_port_remote); } else { PDEBUG(DEBUG_SIP, "RTP info not given by remote, so we do our own RTP\n"); p_s_rtp_bridge = 0; media_types = &lcr_media; payload_types = &lcr_payload; payloads = 1; /* open local RTP peer (if not bridging) */ if (rtp_open() < 0) { PERROR("Failed to open RTP sockets\n"); /* send release message to endpoit */ message = message_create(p_serial, epoint_id, PORT_TO_EPOINT, MESSAGE_RELEASE); message->param.disconnectinfo.cause = 41; message->param.disconnectinfo.location = LOCATION_PRIVATE_LOCAL; message_put(message); new_state(PORT_STATE_RELEASE); trigger_work(&p_s_delete); return 0; } if (!p_s_rtp_ip_local) { char *p; /* extract IP from local peer */ SCPY(local_ip, local); p = strchr(local_ip, ':'); if (p) *p = '\0'; PDEBUG(DEBUG_SIP, "RTP local IP not known, so we use our local SIP ip %s\n", local_ip); inet_pton(AF_INET, local_ip, &p_s_rtp_ip_local); p_s_rtp_ip_local = ntohl(p_s_rtp_ip_local); } } p_s_handle = nua_handle(inst->nua, NULL, TAG_END()); if (!p_s_handle) { PERROR("Failed to create handle\n"); /* send release message to endpoit */ message = message_create(p_serial, epoint_id, PORT_TO_EPOINT, MESSAGE_RELEASE); message->param.disconnectinfo.cause = 41; message->param.disconnectinfo.location = LOCATION_PRIVATE_LOCAL; message_put(message); new_state(PORT_STATE_RELEASE); trigger_work(&p_s_delete); return 0; } /* apply handle to trace */ // sip_trace_header(this, inst->interface_name, "NEW handle", DIRECTION_IN); // add_trace("handle", "new", "0x%x", p_s_handle); // end_trace(); sdp_str = generate_sdp(p_s_rtp_ip_local, p_s_rtp_port_local, payloads, payload_types, media_types); PDEBUG(DEBUG_SIP, "Using SDP for invite: %s\n", sdp_str); SPRINT(from, "sip:%s@%s", p_callerinfo.id, remote); // SPRINT(from, "\"%s\" ", /*p_callerinfo.id*/ "4946448519988", p_callerinfo.id, remote); SPRINT(to, "sip:%s@%s", p_dialinginfo.id, remote); if (inst->asserted_id[0]) { SPRINT(asserted_id, "sip:%s@%s", inst->asserted_id, remote); SPRINT(asserted_msg, "P-Asserted-Identity: <%s>", asserted_id); } if (inst->public_ip[0]) { char *p; SPRINT(contact, "sip:%s@%s", p_callerinfo.id, inst->public_ip); p = strchr(inst->local_peer, ':'); if (p) SCAT(contact, p); } sip_trace_header(this, inst->interface_name, "INVITE", DIRECTION_OUT); add_trace("from", "uri", "%s", from); add_trace("to", "uri", "%s", to); if (asserted_id[0]) add_trace("assert-id", "uri", "%s", asserted_id); struct in_addr ia; memset(&ia, 0, sizeof(ia)); ia.s_addr = htonl(get_local_ip(p_s_rtp_ip_local)); add_trace("rtp", "ip", "%s", inet_ntoa(ia)); add_trace("rtp", "port", "%d,%d", p_s_rtp_port_local, p_s_rtp_port_local + 1); for (i = 0; i < payloads; i++) add_trace("rtp", "payload", "%s:%d", media_type2name(media_types[i]), payload_types[i]); end_trace(); // cseq = sip_cseq_create(sip_home, 123, SIP_METHOD_INVITE); nua_invite(p_s_handle, TAG_IF(from[0], SIPTAG_FROM_STR(from)), TAG_IF(to[0], SIPTAG_TO_STR(to)), TAG_IF(asserted_msg[0], SIPTAG_HEADER_STR(asserted_msg)), TAG_IF(contact[0], SIPTAG_CONTACT_STR(contact)), TAG_IF(cseq, SIPTAG_CSEQ(cseq)), NUTAG_MEDIA_ENABLE(0), SIPTAG_CONTENT_TYPE_STR("application/sdp"), SIPTAG_PAYLOAD_STR(sdp_str), TAG_END()); new_state(PORT_STATE_OUT_SETUP); p_s_invite_direction = DIRECTION_OUT; #if 0 PDEBUG(DEBUG_SIP, "do overlap\n"); new_state(PORT_STATE_OUT_OVERLAP); message = message_create(p_serial, epoint_id, PORT_TO_EPOINT, MESSAGE_OVERLAP); message_put(message); #else PDEBUG(DEBUG_SIP, "do proceeding\n"); new_state(PORT_STATE_OUT_PROCEEDING); message = message_create(p_serial, epoint_id, PORT_TO_EPOINT, MESSAGE_PROCEEDING); message_put(message); #endif /* attach only if not already */ epointlist = p_epointlist; while(epointlist) { if (epointlist->epoint_id == epoint_id) break; epointlist = epointlist->next; } if (!epointlist) epointlist_new(epoint_id); return 0; } int Psip::message_notify(unsigned int epoint_id, int message_id, union parameter *param) { // char // struct in_addr ia; switch (param->notifyinfo.notify) { case INFO_NOTIFY_REMOTE_HOLD: #if 0 sdp_str = generate_sdp(0, 0, 0, NULL, NULL); SPRINT(sdp_str, "v=0\r\n" "o=LCR-Sofia-SIP 0 0 IN IP4 0.0.0.0\r\n" "s=SIP Call\r\n" "c=IN IP4 0.0.0.0\r\n" "t=0 0\r\n" ); PDEBUG(DEBUG_SIP, "Using SDP for hold: %s\n", sdp_str); nua_info(p_s_handle, // TAG_IF(from[0], SIPTAG_FROM_STR(from)), // TAG_IF(to[0], SIPTAG_TO_STR(to)), // TAG_IF(cseq, SIPTAG_CSEQ(cseq)), NUTAG_MEDIA_ENABLE(0), SIPTAG_CONTENT_TYPE_STR("application/sdp"), SIPTAG_PAYLOAD_STR(sdp_str), TAG_END()); #endif break; case INFO_NOTIFY_REMOTE_RETRIEVAL: #if 0 sdp_str = generate_sdp(p_s_rtp_ip_local, p_s_rtp_port_local, 1, &payload_type, &media_type); PDEBUG(DEBUG_SIP, "Using SDP for rertieve: %s\n", sdp_str); nua_info(p_s_handle, // TAG_IF(from[0], SIPTAG_FROM_STR(from)), // TAG_IF(to[0], SIPTAG_TO_STR(to)), // TAG_IF(cseq, SIPTAG_CSEQ(cseq)), NUTAG_MEDIA_ENABLE(0), SIPTAG_CONTENT_TYPE_STR("application/sdp"), SIPTAG_PAYLOAD_STR(sdp_str), TAG_END()); #endif break; } return 0; } int Psip::message_dtmf(unsigned int epoint_id, int message_id, union parameter *param) { char dtmf_str[64]; /* prepare DTMF info payload */ SPRINT(dtmf_str, "Signal=%c\n" "Duration=160\n" , param->dtmf); /* start invite to handle DTMF */ nua_info(p_s_handle, NUTAG_MEDIA_ENABLE(0), SIPTAG_CONTENT_TYPE_STR("application/dtmf-relay"), SIPTAG_PAYLOAD_STR(dtmf_str), TAG_END()); return 0; } /* NOTE: incomplete and not working */ int Psip::message_information(unsigned int epoint_id, int message_id, union parameter *param) { char dtmf_str[64]; /* prepare DTMF info payload */ SPRINT(dtmf_str, "Signal=%s\n" "Duration=160\n" , param->information.id); /* start invite to handle DTMF */ nua_info(p_s_handle, NUTAG_MEDIA_ENABLE(0), SIPTAG_CONTENT_TYPE_STR("application/dtmf-relay"), SIPTAG_PAYLOAD_STR(dtmf_str), TAG_END()); return 0; } int Psip::message_epoint(unsigned int epoint_id, int message_id, union parameter *param) { struct sip_inst *inst = (struct sip_inst *) p_s_sip_inst; if (Port::message_epoint(epoint_id, message_id, param)) return 1; switch(message_id) { case MESSAGE_ALERTING: /* call is ringing on LCR side */ if (p_state != PORT_STATE_IN_SETUP && p_state != PORT_STATE_IN_PROCEEDING) return 0; nua_respond(p_s_handle, SIP_180_RINGING, TAG_END()); sip_trace_header(this, inst->interface_name, "RESPOND", DIRECTION_OUT); add_trace("respond", "value", "180 Ringing"); end_trace(); new_state(PORT_STATE_IN_ALERTING); return 1; case MESSAGE_CONNECT: /* call is connected on LCR side */ if (p_state != PORT_STATE_IN_SETUP && p_state != PORT_STATE_IN_PROCEEDING && p_state != PORT_STATE_IN_ALERTING) return 0; message_connect(epoint_id, message_id, param); return 1; case MESSAGE_DISCONNECT: /* call has been disconnected */ case MESSAGE_RELEASE: /* call has been released */ message_release(epoint_id, message_id, param); return 1; case MESSAGE_SETUP: /* dial-out command received from epoint */ message_setup(epoint_id, message_id, param); return 1; case MESSAGE_INFORMATION: /* overlap dialing */ if (p_state != PORT_STATE_OUT_OVERLAP) return 0; message_information(epoint_id, message_id, param); return 1; case MESSAGE_DTMF: /* DTMF info to be transmitted via INFO transaction */ if (p_state == PORT_STATE_CONNECT) message_dtmf(epoint_id, message_id, param); case MESSAGE_NOTIFY: /* notification about remote hold/retrieve */ if (p_state == PORT_STATE_CONNECT) message_notify(epoint_id, message_id, param); return(1); default: PDEBUG(DEBUG_SIP, "PORT(%s) SIP port with (caller id %s) received an unsupported message: %d\n", p_name, p_callerinfo.id, message_id); } return 0; } int Psip::parse_sdp(sip_t const *sip, unsigned int *ip, unsigned short *port, uint8_t *payload_types, int *media_types, int *payloads, int max_payloads) { *payloads = 0; if (!sip->sip_payload) { PDEBUG(DEBUG_SIP, "no payload given\n"); return 0; } sdp_parser_t *parser; sdp_session_t *sdp; sdp_media_t *m; sdp_attribute_t *attr; sdp_rtpmap_t *map; sdp_connection_t *conn; PDEBUG(DEBUG_SIP, "payload given: %s\n", sip->sip_payload->pl_data); parser = sdp_parse(NULL, sip->sip_payload->pl_data, (int) strlen(sip->sip_payload->pl_data), 0); if (!parser) { return 400; } if (!(sdp = sdp_session(parser))) { sdp_parser_free(parser); return 400; } for (m = sdp->sdp_media; m; m = m->m_next) { if (m->m_proto != sdp_proto_rtp) continue; if (m->m_type != sdp_media_audio) continue; PDEBUG(DEBUG_SIP, "RTP port:'%u'\n", m->m_port); *port = m->m_port; for (attr = m->m_attributes; attr; attr = attr->a_next) { PDEBUG(DEBUG_SIP, "ATTR: name:'%s' value='%s'\n", attr->a_name, attr->a_value); } if (m->m_connections) { conn = m->m_connections; PDEBUG(DEBUG_SIP, "CONN: address:'%s'\n", conn->c_address); inet_pton(AF_INET, conn->c_address, ip); *ip = ntohl(p_s_rtp_ip_remote); } else { char *p = sip->sip_payload->pl_data; char addr[16]; PDEBUG(DEBUG_SIP, "sofia cannot find connection tag, so we try ourself\n"); p = strstr(p, "c=IN IP4 "); if (!p) { PDEBUG(DEBUG_SIP, "missing c-tag with internet address\n"); sdp_parser_free(parser); return 400; } SCPY(addr, p + 9); if ((p = strchr(addr, '\n'))) *p = '\0'; if ((p = strchr(addr, '\r'))) *p = '\0'; PDEBUG(DEBUG_SIP, "CONN: address:'%s'\n", addr); inet_pton(AF_INET, addr, ip); *ip = ntohl(p_s_rtp_ip_remote); } for (map = m->m_rtpmaps; map; map = map->rm_next) { int media_type = 0; PDEBUG(DEBUG_SIP, "RTPMAP: coding:'%s' rate='%d' pt='%d'\n", map->rm_encoding, map->rm_rate, map->rm_pt); /* append to payload list, if there is space */ add_trace("rtp", "payload", "%s:%d", map->rm_encoding, map->rm_pt); if (map->rm_pt == PAYLOAD_TYPE_ALAW) media_type = MEDIA_TYPE_ALAW; else if (map->rm_pt == PAYLOAD_TYPE_ULAW) media_type = MEDIA_TYPE_ULAW; else if (map->rm_pt == PAYLOAD_TYPE_GSM) media_type = MEDIA_TYPE_GSM; else if (!strcmp(map->rm_encoding, "GSM-EFR")) media_type = MEDIA_TYPE_GSM_EFR; else if (!strcmp(map->rm_encoding, "AMR")) media_type = MEDIA_TYPE_AMR; else if (!strcmp(map->rm_encoding, "GSM-HR")) media_type = MEDIA_TYPE_GSM_HR; if (media_type && *payloads <= max_payloads) { *payload_types++ = map->rm_pt; *media_types++ = media_type; (*payloads)++; } } } sdp_parser_free(parser); return 0; } const char *Psip::generate_sdp(unsigned int rtp_ip_local, unsigned short rtp_port_local, int payloads, unsigned char *payload_types, int *media_types) { struct in_addr ia; static char sdp_str[256], sub_str[128]; int i; memset(&ia, 0, sizeof(ia)); ia.s_addr = htonl(get_local_ip(p_s_rtp_ip_local)); SPRINT(sdp_str, "v=0\r\n" "o=LCR-Sofia-SIP 0 0 IN IP4 %s\r\n" "s=SIP Call\r\n" "c=IN IP4 %s\r\n" "t=0 0\r\n", inet_ntoa(ia), inet_ntoa(ia)); if (payloads) { SPRINT(sub_str, "m=audio %d RTP/AVP", p_s_rtp_port_local); SCAT(sdp_str, sub_str); for (i = 0; i < payloads; i++) { SPRINT(sub_str, " %d", payload_types[i]); SCAT(sdp_str, sub_str); } SCAT(sdp_str, "\r\n"); for (i = 0; i < payloads; i++) { SPRINT(sub_str, "a=rtpmap:%d %s/8000\r\n", payload_types[i], media_type2name(media_types[i])); SCAT(sdp_str, sub_str); } } return sdp_str; } static int challenge(struct sip_inst *inst, class Psip *psip, int status, char const *phrase, nua_t *nua, nua_magic_t *magic, nua_handle_t *nh, nua_hmagic_t *hmagic, sip_t const *sip, tagi_t tags[]) { sip_www_authenticate_t const *authenticate = NULL; char const *realm = NULL; char const *scheme = NULL; int i; char *cur; char authentication[256] = ""; PDEBUG(DEBUG_SIP, "challenge order received\n"); if (!inst->auth_user[0]) { PDEBUG(DEBUG_SIP, "No credentials available\n"); sip_trace_header(psip, inst->interface_name, "AUTHENTICATE", DIRECTION_OUT); add_trace("error", NULL, "There are no credentials given for interface"); end_trace(); return -1; } if (sip->sip_www_authenticate) { authenticate = sip->sip_www_authenticate; } else if (sip->sip_proxy_authenticate) { authenticate = sip->sip_proxy_authenticate; } else { PDEBUG(DEBUG_SIP, "No authentication header found\n"); sip_trace_header(psip, inst->interface_name, "AUTHENTICATE", DIRECTION_OUT); add_trace("error", NULL, "Authentication method unknwon"); end_trace(); return -1; } scheme = (char const *) authenticate->au_scheme; if (authenticate->au_params) { for (i = 0; (cur = (char *) authenticate->au_params[i]); i++) { if ((realm = strstr(cur, "realm="))) { realm += 6; break; } } } if (!scheme || !realm) { PDEBUG(DEBUG_SIP, "No scheme or no realm in authentication header found\n"); sip_trace_header(psip, inst->interface_name, "AUTHENTICATE", DIRECTION_OUT); add_trace("error", NULL, "Authentication header has no realm or scheme"); end_trace(); return -1; } SPRINT(authentication, "%s:%s:%s:%s", scheme, realm, inst->auth_user, inst->auth_password); PDEBUG(DEBUG_SIP, "auth: '%s'\n", authentication); sip_trace_header(psip, inst->interface_name, "AUTHENTICATE", DIRECTION_OUT); add_trace("scheme", NULL, "%s", scheme); add_trace("realm", NULL, "%s", realm); add_trace("user", NULL, "%s", inst->auth_user); add_trace("pass", NULL, "%s", inst->auth_password); end_trace(); nua_authenticate(nh, /*SIPTAG_EXPIRES_STR("3600"),*/ NUTAG_AUTH(authentication), TAG_END()); return 0; } static void i_options(struct sip_inst *inst, int status, char const *phrase, nua_t *nua, nua_magic_t *magic, nua_handle_t *nh, nua_hmagic_t *hmagic, sip_t const *sip, tagi_t tags[]) { #define NUTAG_WITH_THIS_MSG(msg) nutag_with, tag_ptr_v(msg) nua_saved_event_t saved[1]; nua_save_event(nua, saved); nua_event_data_t const *data = nua_event_data(saved); sip_trace_header(NULL, inst->interface_name, "OPTIONS", DIRECTION_IN); end_trace(); sip_trace_header(NULL, inst->interface_name, "RESPOND", DIRECTION_OUT); add_trace("respond", "value", "200 OK"); end_trace(); nua_respond(nh, SIP_200_OK, NUTAG_WITH_THIS_MSG(data->e_msg), TAG_END()); } static void i_register(struct sip_inst *inst, int status, char const *phrase, nua_t *nua, nua_magic_t *magic, nua_handle_t *nh, nua_hmagic_t *hmagic, sip_t const *sip, tagi_t tags[]) { #define NUTAG_WITH_THIS_MSG(msg) nutag_with, tag_ptr_v(msg) nua_saved_event_t saved[1]; sip_contact_t const *contact = NULL; contact = sip->sip_contact; nua_save_event(nua, saved); nua_event_data_t const *data = nua_event_data(saved); sip_authorization_t const *authorization; char uri[256] = ""; const char *auth_text = NULL; char auth_str[256] = ""; if (contact->m_url->url_host) SCPY(uri, contact->m_url->url_host); if (contact->m_url->url_port && contact->m_url->url_port[0]) { SCAT(uri, ":"); SCAT(uri, contact->m_url->url_port); } if (!inst->allow_register) { sip_trace_header(NULL, inst->interface_name, "REGISTER", DIRECTION_IN); add_trace("error", NULL, "forbidden, because we don't accept registration"); end_trace(); nua_respond(nh, SIP_403_FORBIDDEN, NUTAG_WITH_THIS_MSG(data->e_msg), TAG_END()); PDEBUG(DEBUG_SIP, "nua_handle_destroy %x\n", nh); nua_handle_destroy(nh); inst->register_handle = NULL; return; } sip_trace_header(NULL, inst->interface_name, "REGISTER", DIRECTION_IN); add_trace("contact", "uri", "%s", uri); end_trace(); sip_trace_header(NULL, inst->interface_name, "Authorization", DIRECTION_IN); if (inst->auth_realm[0]) { authorization = sip->sip_authorization; status = check_authorization(authorization, "REGISTER", inst->auth_user, inst->auth_password, inst->auth_realm, inst->auth_nonce, &auth_text); if (status == 401) { if (!inst->auth_nonce[0]) generate_nonce(inst->auth_nonce); SPRINT(auth_str, "Digest realm=\"%s\", nonce=\"%s\", algorithm=MD5, qop=\"auth\"", inst->auth_realm, inst->auth_nonce); } } else { status = 200; auth_text = "Authentication not required"; } add_trace("result", NULL, "%s", auth_text); end_trace(); if (status == 200) { SCPY(inst->remote_peer, uri); } sip_trace_header(NULL, inst->interface_name, "RESPOND", DIRECTION_OUT); add_trace("respond", "value", "%d", status); add_trace("reason", NULL, "peer registers"); end_trace(); nua_respond(nh, status, auth_text, SIPTAG_CONTACT(sip->sip_contact), NUTAG_WITH_THIS_MSG(data->e_msg), TAG_IF(auth_str[0], SIPTAG_WWW_AUTHENTICATE_STR(auth_str)), TAG_END()); PDEBUG(DEBUG_SIP, "nua_handle_destroy %x\n", nh); nua_handle_destroy(nh); inst->register_handle = NULL; } static void r_register(struct sip_inst *inst, int status, char const *phrase, nua_t *nua, nua_magic_t *magic, nua_handle_t *nh, nua_hmagic_t *hmagic, sip_t const *sip, tagi_t tags[]) { int rc; sip_trace_header(NULL, inst->interface_name, "STATUS", DIRECTION_IN); add_trace("value", NULL, "%d", status); add_trace("phrase", NULL, "%s", phrase); end_trace(); switch (status) { case 200: status_200: /* if not registered, become registered and start register interval timer */ if (inst->register_state != REGISTER_STATE_REGISTERED) { if (inst->register_interval) schedule_timer(&inst->register_retry_timer, inst->register_interval, 0); inst->register_state = REGISTER_STATE_REGISTERED; } /* start option timer */ if (inst->options_interval) { PDEBUG(DEBUG_SIP, "register ok, scheduling option timer with %d seconds\n", inst->options_interval); schedule_timer(&inst->register_option_timer, inst->options_interval, 0); } break; case 401: case 407: PDEBUG(DEBUG_SIP, "Register challenge received\n"); rc = challenge(inst, NULL, status, phrase, nua, magic, nh, hmagic, sip, tags); if (rc < 0) goto status_400; break; default: if (status >= 200 && status <= 299) goto status_200; if (status < 400) break; status_400: PDEBUG(DEBUG_SIP, "Register failed, starting register timer\n"); inst->register_state = REGISTER_STATE_FAILED; PDEBUG(DEBUG_SIP, "nua_handle_destroy %x\n", nh); nua_handle_destroy(nh); inst->register_handle = NULL; /* stop option timer */ unsched_timer(&inst->register_option_timer); /* if failed, start register interval timer with REGISTER_RETRY_TIMER */ schedule_timer(&inst->register_retry_timer, REGISTER_RETRY_TIMER); } } static void r_options(struct sip_inst *inst, int status, char const *phrase, nua_t *nua, nua_magic_t *magic, nua_handle_t *nh, nua_hmagic_t *hmagic, sip_t const *sip, tagi_t tags[]) { PDEBUG(DEBUG_SIP, "options result %d received\n", status); // if (status >= 200 && status <= 299) { PDEBUG(DEBUG_SIP, "options ok, scheduling option timer with %d seconds\n", inst->options_interval); /* restart option timer */ schedule_timer(&inst->register_option_timer, inst->options_interval, 0); return; /// } PDEBUG(DEBUG_SIP, "Register options failed, starting register timer\n"); inst->register_state = REGISTER_STATE_FAILED; PDEBUG(DEBUG_SIP, "nua_handle_destroy %x\n", nh); nua_handle_destroy(nh); inst->register_handle = NULL; /* if failed, start register interval timer with REGISTER_RETRY_TIMER */ schedule_timer(&inst->register_retry_timer, REGISTER_RETRY_TIMER); } void Psip::i_invite(int status, char const *phrase, nua_t *nua, nua_magic_t *magic, nua_handle_t *nh, nua_hmagic_t *hmagic, sip_t const *sip, tagi_t tags[]) { struct sip_inst *inst = (struct sip_inst *) p_s_sip_inst; const char *from = "", *to = "", *name = ""; char imsi[16] = ""; int ret; class Endpoint *epoint; struct lcr_msg *message; struct interface *interface; const char *sdp_str = NULL; int media_types[32]; uint8_t payload_types[32]; int payloads = 0; unsigned char payload_type; int media_type; sip_authorization_t const *authorization; const char *auth_text = NULL; char auth_str[256] = ""; interface = getinterfacebyname(inst->interface_name); if (!interface) { PERROR("Cannot find interface %s.\n", inst->interface_name); return; } if (sip->sip_from) { if (sip->sip_from->a_url) from = sip->sip_from->a_url->url_user; if (sip->sip_from->a_display) { name = sip->sip_from->a_display; if (!strncmp(name, "\"IMSI", 5)) { strncpy(imsi, name + 5, 15); imsi[15] = '\0'; name = ""; } } } if (sip->sip_to) { if (sip->sip_to->a_url) to = sip->sip_to->a_url->url_user; } PDEBUG(DEBUG_SIP, "invite received (%s->%s)\n", from, to); sip_trace_header(this, inst->interface_name, "Authorization", DIRECTION_IN); if (inst->auth_realm[0] && p_state == PORT_STATE_IDLE) { /* only authenticate remote, if we have a realm set and we don't have re-invite */ authorization = sip->sip_proxy_authorization; status = check_authorization(authorization, "INVITE", inst->auth_user, inst->auth_password, inst->auth_realm, inst->auth_nonce, &auth_text); if (status == 407) { if (!inst->auth_nonce[0]) generate_nonce(inst->auth_nonce); SPRINT(auth_str, "Digest realm=\"%s\", nonce=\"%s\", algorithm=MD5, qop=\"auth\"", inst->auth_realm, inst->auth_nonce); } } else { status = 200; auth_text = "Authentication not required"; } add_trace("result", NULL, "%s", auth_text); end_trace(); if (status == 200) { } else { sip_trace_header(this, inst->interface_name, "INVITE", DIRECTION_IN); end_trace(); sip_trace_header(this, inst->interface_name, "RESPOND", DIRECTION_OUT); add_trace("respond", "value", "%d", status); add_trace("reason", NULL, "peer invited"); end_trace(); nua_respond(nh, status, auth_text, SIPTAG_CONTACT(sip->sip_contact), TAG_IF(auth_str[0], SIPTAG_PROXY_AUTHENTICATE_STR(auth_str)), TAG_END()); new_state(PORT_STATE_RELEASE); trigger_work(&p_s_delete); return; } sip_trace_header(this, inst->interface_name, "Payload received", DIRECTION_NONE); ret = parse_sdp(sip, &p_s_rtp_ip_remote, &p_s_rtp_port_remote, payload_types, media_types, &payloads, sizeof(payload_types)); if (!ret) { /* if no RTP bridge, we must support LAW codec, otherwise we forward what we have */ if (!p_s_rtp_bridge) { int i; /* check if supported payload type exists */ for (i = 0; i < payloads; i++) { if (media_types[i] == ((options.law=='a') ? MEDIA_TYPE_ALAW : MEDIA_TYPE_ULAW)) break; } if (i == payloads) { add_trace("error", NULL, "Expected LAW payload type (not bridged)"); ret = 415; } } } end_trace(); if (ret) { if (ret == 400) nua_respond(nh, SIP_400_BAD_REQUEST, TAG_END()); else nua_respond(nh, SIP_415_UNSUPPORTED_MEDIA, TAG_END()); PDEBUG(DEBUG_SIP, "nua_handle_destroy %x\n", nh); nua_handle_destroy(nh); p_s_handle = NULL; sip_trace_header(this, inst->interface_name, "RESPOND", DIRECTION_OUT); if (ret == 400) add_trace("respond", "value", "415 Unsupported Media"); else add_trace("respond", "value", "400 Bad Request"); add_trace("reason", NULL, "offered codec does not match"); end_trace(); if (p_state != PORT_STATE_IDLE) { message = message_create(p_serial, ACTIVE_EPOINT(p_epointlist), PORT_TO_EPOINT, MESSAGE_RELEASE); message->param.disconnectinfo.cause = 41; message->param.disconnectinfo.location = LOCATION_PRIVATE_LOCAL; message_put(message); } new_state(PORT_STATE_RELEASE); trigger_work(&p_s_delete); return; } /* handle re-invite */ if (p_state != PORT_STATE_IDLE) { sip_trace_header(this, inst->interface_name, "RE-INVITE", DIRECTION_IN); end_trace(); if (p_s_rtp_bridge) { PDEBUG(DEBUG_SIP, "RE-INVITE not implemented for RTP forwarding\n"); nua_respond(nh, SIP_501_NOT_IMPLEMENTED, TAG_END()); sip_trace_header(this, inst->interface_name, "RESPOND", DIRECTION_OUT); add_trace("respond", "value", "501 NOT IMPLEMENTED"); add_trace("reason", NULL, "RE-INVITE not implemented for RTP forwarding"); end_trace(); } else { PDEBUG(DEBUG_SIP, "RTP info given by remote, forward that\n"); media_type = (options.law=='a') ? MEDIA_TYPE_ALAW : MEDIA_TYPE_ULAW; payload_type = (options.law=='a') ? PAYLOAD_TYPE_ALAW : PAYLOAD_TYPE_ULAW; if (rtp_connect() < 0) { goto rtp_failed; } sdp_str = generate_sdp(p_s_rtp_ip_local, p_s_rtp_port_local, 1, &payload_type, &media_type); PDEBUG(DEBUG_SIP, "Using SDP response: %s\n", sdp_str); nua_respond(p_s_handle, SIP_200_OK, NUTAG_MEDIA_ENABLE(0), SIPTAG_CONTENT_TYPE_STR("application/sdp"), SIPTAG_PAYLOAD_STR(sdp_str), TAG_END()); } return; } /* open local RTP peer (if not bridging) */ if (!p_s_rtp_bridge && rtp_open() < 0) { nua_respond(nh, SIP_500_INTERNAL_SERVER_ERROR, TAG_END()); PDEBUG(DEBUG_SIP, "nua_handle_destroy %x\n", nh); nua_handle_destroy(nh); p_s_handle = NULL; sip_trace_header(this, inst->interface_name, "RESPOND", DIRECTION_OUT); add_trace("respond", "value", "500 Internal Server Error"); add_trace("reason", NULL, "failed to open RTP/RTCP sockts"); end_trace(); new_state(PORT_STATE_RELEASE); trigger_work(&p_s_delete); return; } /* apply handle */ // sip_trace_header(this, inst->interface_name, "NEW handle", DIRECTION_IN); // add_trace("handle", "new", "0x%x", nh); // end_trace(); // p_s_handle = nh; sip_trace_header(this, inst->interface_name, "INVITE", DIRECTION_IN); add_trace("rtp", "port", "%d", p_s_rtp_port_remote); /* caller information */ if (!from[0]) { p_callerinfo.present = INFO_PRESENT_NOTAVAIL; p_callerinfo.ntype = INFO_NTYPE_NOTPRESENT; add_trace("calling", "present", "unavailable"); } else { p_callerinfo.present = INFO_PRESENT_ALLOWED; add_trace("calling", "present", "allowed"); p_callerinfo.screen = INFO_SCREEN_NETWORK; p_callerinfo.ntype = INFO_NTYPE_UNKNOWN; SCPY(p_callerinfo.id, from); add_trace("calling", "number", "%s", from); SCPY(p_callerinfo.name, name); if (name[0]) add_trace("calling", "name", "%s", name); SCPY(p_callerinfo.imsi, imsi); if (imsi[0]) add_trace("calling", "imsi", "%s", imsi); } SCPY(p_callerinfo.interface, inst->interface_name); /* dialing information */ if (to[0]) { p_dialinginfo.ntype = INFO_NTYPE_UNKNOWN; SCAT(p_dialinginfo.id, to); add_trace("dialing", "number", "%s", to); } /* redir info */ /* bearer capability */ p_capainfo.bearer_capa = INFO_BC_SPEECH; p_capainfo.bearer_info1 = (options.law=='a')?3:2; p_capainfo.bearer_mode = INFO_BMODE_CIRCUIT; add_trace("bearer", "capa", "speech"); add_trace("bearer", "mode", "circuit"); /* if packet mode works some day, see dss1.cpp for conditions */ p_capainfo.source_mode = B_MODE_TRANSPARENT; end_trace(); /* create endpoint */ if (p_epointlist) FATAL("Incoming call but already got an endpoint.\n"); if (!(epoint = new Endpoint(p_serial, 0))) FATAL("No memory for Endpoint instance\n"); epoint->ep_app = new_endpointapp(epoint, 0, interface->app); //incoming epointlist_new(epoint->ep_serial); #ifdef NUTAG_AUTO100 /* send trying (proceeding) */ nua_respond(nh, SIP_100_TRYING, TAG_END()); sip_trace_header(this, inst->interface_name, "RESPOND", DIRECTION_OUT); add_trace("respond", "value", "100 Trying"); end_trace(); #endif new_state(PORT_STATE_IN_PROCEEDING); /* send setup message to endpoit */ message = message_create(p_serial, ACTIVE_EPOINT(p_epointlist), PORT_TO_EPOINT, MESSAGE_SETUP); message->param.setup.port_type = p_type; // message->param.setup.dtmf = 0; memcpy(&message->param.setup.dialinginfo, &p_dialinginfo, sizeof(struct dialing_info)); memcpy(&message->param.setup.callerinfo, &p_callerinfo, sizeof(struct caller_info)); memcpy(&message->param.setup.capainfo, &p_capainfo, sizeof(struct capa_info)); // SCPY((char *)message->param.setup.useruser.data, useruser.info); // message->param.setup.useruser.len = strlen(mncc->useruser.info); // message->param.setup.useruser.protocol = mncc->useruser.proto; if (p_s_rtp_bridge) { int i; PDEBUG(DEBUG_SIP, "sending setup with RTP info\n"); message->param.setup.rtpinfo.ip = p_s_rtp_ip_remote; message->param.setup.rtpinfo.port = p_s_rtp_port_remote; /* add codecs to setup message */ for (i = 0; i < payloads; i++) { message->param.setup.rtpinfo.media_types[i] = media_types[i]; message->param.setup.rtpinfo.payload_types[i] = payload_types[i]; if (i == sizeof(message->param.setup.rtpinfo.payload_types)) break; } message->param.setup.rtpinfo.payloads = i; } message_put(message); /* start option timer */ if (inst->options_interval) { PDEBUG(DEBUG_SIP, "Invite received, scheduling option timer with %d seconds\n", inst->options_interval); schedule_timer(&p_s_invite_option_timer, inst->options_interval, 0); } p_s_invite_direction = DIRECTION_IN; /* send progress, if tones are available and if we don't bridge */ if (!p_s_rtp_bridge && interface->is_tones == IS_YES) { PDEBUG(DEBUG_SIP, "Connecting audio, since we have tones available\n"); media_type = (options.law=='a') ? MEDIA_TYPE_ALAW : MEDIA_TYPE_ULAW; payload_type = (options.law=='a') ? PAYLOAD_TYPE_ALAW : PAYLOAD_TYPE_ULAW; /* open local RTP peer (if not bridging) */ if (rtp_connect() < 0) { rtp_failed: nua_respond(nh, SIP_500_INTERNAL_SERVER_ERROR, TAG_END()); PDEBUG(DEBUG_SIP, "nua_handle_destroy %x\n", nh); nua_handle_destroy(nh); p_s_handle = NULL; sip_trace_header(this, inst->interface_name, "RESPOND", DIRECTION_OUT); add_trace("respond", "value", "500 Internal Server Error"); add_trace("reason", NULL, "failed to connect RTP/RTCP sockts"); end_trace(); message = message_create(p_serial, ACTIVE_EPOINT(p_epointlist), PORT_TO_EPOINT, MESSAGE_RELEASE); message->param.disconnectinfo.cause = 41; message->param.disconnectinfo.location = LOCATION_PRIVATE_LOCAL; message_put(message); new_state(PORT_STATE_RELEASE); trigger_work(&p_s_delete); return; } sdp_str = generate_sdp(p_s_rtp_ip_local, p_s_rtp_port_local, 1, &payload_type, &media_type); PDEBUG(DEBUG_SIP, "Using SDP response: %s\n", sdp_str); nua_respond(p_s_handle, SIP_183_SESSION_PROGRESS, NUTAG_MEDIA_ENABLE(0), SIPTAG_CONTENT_TYPE_STR("application/sdp"), SIPTAG_PAYLOAD_STR(sdp_str), TAG_END()); sip_trace_header(this, inst->interface_name, "RESPOND", DIRECTION_OUT); add_trace("respond", "value", "183 SESSION PROGRESS"); add_trace("reason", NULL, "audio available"); struct in_addr ia; memset(&ia, 0, sizeof(ia)); ia.s_addr = htonl(get_local_ip(p_s_rtp_ip_local)); add_trace("rtp", "ip", "%s", inet_ntoa(ia)); add_trace("rtp", "port", "%d,%d", p_s_rtp_port_local, p_s_rtp_port_local + 1); add_trace("rtp", "payload", "%s:%d", media_type2name(media_type), payload_type); end_trace(); } } void Psip::i_options(int status, char const *phrase, nua_t *nua, nua_magic_t *magic, nua_handle_t *nh, nua_hmagic_t *hmagic, sip_t const *sip, tagi_t tags[]) { struct sip_inst *inst = (struct sip_inst *) p_s_sip_inst; PDEBUG(DEBUG_SIP, "options received\n"); sip_trace_header(this, inst->interface_name, "OPTIONS", DIRECTION_IN); end_trace(); nua_respond(nh, SIP_200_OK, TAG_END()); } // code stolen from freeswitch.... static char RFC2833_CHARS[] = "0123456789*#ABCDF"; static char switch_rfc2833_to_char(int event) { if (event > -1 && event < (int32_t) sizeof(RFC2833_CHARS)) { return RFC2833_CHARS[event]; } return '\0'; } void Psip::i_info(int status, char const *phrase, nua_t *nua, nua_magic_t *magic, nua_handle_t *nh, nua_hmagic_t *hmagic, sip_t const *sip, tagi_t tags[]) { struct sip_inst *inst = (struct sip_inst *) p_s_sip_inst; char digit = '\0'; PDEBUG(DEBUG_SIP, "options received\n"); // code stolen from freeswitch.... if (sip && sip->sip_content_type && sip->sip_content_type->c_type && sip->sip_content_type->c_subtype && sip->sip_payload && sip->sip_payload->pl_data) { if (!strncasecmp(sip->sip_content_type->c_type, "application", 11) && !strcasecmp(sip->sip_content_type->c_subtype, "dtmf-relay")) { const char *signal_ptr; if ((signal_ptr = strstr(sip->sip_payload->pl_data, "Signal="))) { int tmp; /* move signal_ptr where we need it (right past Signal=) */ signal_ptr = signal_ptr + 7; /* handle broken devices with spaces after the = (cough) VegaStream (cough) */ while (*signal_ptr && *signal_ptr == ' ') signal_ptr++; if (*signal_ptr && (*signal_ptr == '*' || *signal_ptr == '#' || *signal_ptr == 'A' || *signal_ptr == 'B' || *signal_ptr == 'C' || *signal_ptr == 'D')) { digit = *signal_ptr; } else { tmp = atoi(signal_ptr); digit = switch_rfc2833_to_char(tmp); } } } else if (!strncasecmp(sip->sip_content_type->c_type, "application", 11) && !strcasecmp(sip->sip_content_type->c_subtype, "dtmf")) { int tmp = atoi(sip->sip_payload->pl_data); digit = switch_rfc2833_to_char(tmp); } } sip_trace_header(this, inst->interface_name, "INFO", DIRECTION_IN); if (digit) { char digitstr[2] = { digit, '\0' }; struct lcr_msg *message; add_trace("dtmf", "digit", digitstr); message = message_create(p_serial, ACTIVE_EPOINT(p_epointlist), PORT_TO_EPOINT, MESSAGE_DTMF); message->param.dtmf = digit; PDEBUG(DEBUG_SIP, "Psip(%s) INFO WITH DTMF digit '%c'\n", p_name, message->param.dtmf); message_put(message); } end_trace(); nua_respond(nh, SIP_200_OK, TAG_END()); } void Psip::i_bye(int status, char const *phrase, nua_t *nua, nua_magic_t *magic, nua_handle_t *nh, nua_hmagic_t *hmagic, sip_t const *sip, tagi_t tags[]) { struct sip_inst *inst = (struct sip_inst *) p_s_sip_inst; struct lcr_msg *message; int cause = 0; PDEBUG(DEBUG_SIP, "bye received\n"); sip_trace_header(this, inst->interface_name, "BYE", DIRECTION_IN); if (sip->sip_reason && sip->sip_reason->re_protocol && !strcasecmp(sip->sip_reason->re_protocol, "Q.850") && sip->sip_reason->re_cause) { cause = atoi(sip->sip_reason->re_cause); add_trace("cause", "value", "%d", cause); } end_trace(); // let stack do bye automaticall, since it will not accept our response for some reason // nua_respond(nh, SIP_200_OK, TAG_END()); sip_trace_header(this, inst->interface_name, "RESPOND", DIRECTION_OUT); add_trace("respond", "value", "200 OK"); end_trace(); PDEBUG(DEBUG_SIP, "just remove nua_handle without destruction %x\n", nh); // nua_handle_destroy(nh); p_s_handle = NULL; rtp_close(); while(p_epointlist) { /* send setup message to endpoit */ message = message_create(p_serial, p_epointlist->epoint_id, PORT_TO_EPOINT, MESSAGE_RELEASE); message->param.disconnectinfo.cause = cause ? : 16; message->param.disconnectinfo.location = LOCATION_BEYOND; message_put(message); /* remove epoint */ free_epointlist(p_epointlist); } new_state(PORT_STATE_RELEASE); trigger_work(&p_s_delete); } void Psip::i_cancel(int status, char const *phrase, nua_t *nua, nua_magic_t *magic, nua_handle_t *nh, nua_hmagic_t *hmagic, sip_t const *sip, tagi_t tags[]) { struct sip_inst *inst = (struct sip_inst *) p_s_sip_inst; struct lcr_msg *message; PDEBUG(DEBUG_SIP, "cancel received\n"); sip_trace_header(this, inst->interface_name, "CANCEL", DIRECTION_IN); end_trace(); PDEBUG(DEBUG_SIP, "nua_handle_destroy %x\n", nh); nua_handle_destroy(nh); p_s_handle = NULL; rtp_close(); while(p_epointlist) { /* send setup message to endpoit */ message = message_create(p_serial, p_epointlist->epoint_id, PORT_TO_EPOINT, MESSAGE_RELEASE); message->param.disconnectinfo.cause = 16; message->param.disconnectinfo.location = LOCATION_BEYOND; message_put(message); /* remove epoint */ free_epointlist(p_epointlist); } new_state(PORT_STATE_RELEASE); trigger_work(&p_s_delete); } void Psip::r_bye(int status, char const *phrase, nua_t *nua, nua_magic_t *magic, nua_handle_t *nh, nua_hmagic_t *hmagic, sip_t const *sip, tagi_t tags[]) { PDEBUG(DEBUG_SIP, "bye response received\n"); PDEBUG(DEBUG_SIP, "nua_handle_destroy %x\n", nh); nua_handle_destroy(nh); p_s_handle = NULL; rtp_close(); trigger_work(&p_s_delete); } void Psip::r_cancel(int status, char const *phrase, nua_t *nua, nua_magic_t *magic, nua_handle_t *nh, nua_hmagic_t *hmagic, sip_t const *sip, tagi_t tags[]) { PDEBUG(DEBUG_SIP, "cancel response received\n"); PDEBUG(DEBUG_SIP, "nua_handle_destroy %x\n", nh); nua_handle_destroy(nh); p_s_handle = NULL; rtp_close(); trigger_work(&p_s_delete); } void Psip::r_invite(int status, char const *phrase, nua_t *nua, nua_magic_t *magic, nua_handle_t *nh, nua_hmagic_t *hmagic, sip_t const *sip, tagi_t tags[]) { struct sip_inst *inst = (struct sip_inst *) p_s_sip_inst; struct lcr_msg *message; int cause = 0, location = 0; int media_types[32]; uint8_t payload_types[32]; int payloads = 0; PDEBUG(DEBUG_SIP, "response to invite received (status = %d)\n", status); sip_trace_header(this, inst->interface_name, "RESPOND", DIRECTION_OUT); add_trace("respond", "value", "%d", status); end_trace(); if (status == 401 || status == 407) { PDEBUG(DEBUG_SIP, "Invite challenge received\n"); challenge(inst, this, status, phrase, nua, magic, nh, hmagic, sip, tags); return; } /* connect audio */ if (status == 183 || (status >= 200 && status <= 299)) { int ret; sip_trace_header(this, inst->interface_name, "Payload received", DIRECTION_NONE); ret = parse_sdp(sip, &p_s_rtp_ip_remote, &p_s_rtp_port_remote, payload_types, media_types, &payloads, sizeof(payload_types)); if (!ret) { if (payloads != 1) ret = 415; else if (!p_s_rtp_bridge) { if (media_types[0] != ((options.law=='a') ? MEDIA_TYPE_ALAW : MEDIA_TYPE_ULAW)) { add_trace("error", NULL, "Expected LAW payload type (not bridged)"); ret = 415; } } } end_trace(); if (ret) { nua_cancel(nh, TAG_END()); sip_trace_header(this, inst->interface_name, "CANCEL", DIRECTION_OUT); add_trace("reason", NULL, "accepted codec does not match"); end_trace(); cause = 88; location = LOCATION_PRIVATE_LOCAL; goto release_with_cause; } /* connect to remote RTP (if not bridging) */ if (!p_s_rtp_bridge && rtp_connect() < 0) { nua_cancel(nh, TAG_END()); sip_trace_header(this, inst->interface_name, "CANCEL", DIRECTION_OUT); add_trace("reason", NULL, "failed to open RTP/RTCP sockts"); end_trace(); cause = 31; location = LOCATION_PRIVATE_LOCAL; goto release_with_cause; } } /* start option timer */ if (inst->options_interval) { PDEBUG(DEBUG_SIP, "Invite response, scheduling option timer with %d seconds\n", inst->options_interval); schedule_timer(&p_s_invite_option_timer, inst->options_interval, 0); } switch (status) { case 100: #if 0 PDEBUG(DEBUG_SIP, "do proceeding\n"); new_state(PORT_STATE_OUT_PROCEEDING); message = message_create(p_serial, ACTIVE_EPOINT(p_epointlist), PORT_TO_EPOINT, MESSAGE_PROCEEDING); message_put(message); #endif return; case 180: PDEBUG(DEBUG_SIP, "do alerting\n"); new_state(PORT_STATE_OUT_ALERTING); message = message_create(p_serial, ACTIVE_EPOINT(p_epointlist), PORT_TO_EPOINT, MESSAGE_ALERTING); message_put(message); return; case 183: PDEBUG(DEBUG_SIP, "do progress\n"); message = message_create(p_serial, ACTIVE_EPOINT(p_epointlist), PORT_TO_EPOINT, MESSAGE_PROGRESS); message->param.progressinfo.progress = 8; message->param.progressinfo.location = 10; if (p_s_rtp_bridge) { message->param.progressinfo.rtpinfo.ip = p_s_rtp_ip_remote; message->param.progressinfo.rtpinfo.port = p_s_rtp_port_remote; message->param.progressinfo.rtpinfo.media_types[0] = media_types[0]; message->param.progressinfo.rtpinfo.payload_types[0] = payload_types[0]; message->param.progressinfo.rtpinfo.payloads = 1; } message_put(message); return; case 200: status_200: PDEBUG(DEBUG_SIP, "do connect\n"); nua_ack(nh, TAG_END()); new_state(PORT_STATE_CONNECT); message = message_create(p_serial, ACTIVE_EPOINT(p_epointlist), PORT_TO_EPOINT, MESSAGE_CONNECT); if (p_s_rtp_bridge) { message->param.connectinfo.rtpinfo.ip = p_s_rtp_ip_remote; message->param.connectinfo.rtpinfo.port = p_s_rtp_port_remote; message->param.connectinfo.rtpinfo.media_types[0] = media_types[0]; message->param.connectinfo.rtpinfo.payload_types[0] = payload_types[0]; message->param.connectinfo.rtpinfo.payloads = 1; } message_put(message); return; default: if (status >= 200 && status <= 299) goto status_200; if (status < 100 || status > 199) break; PDEBUG(DEBUG_SIP, "skipping 1xx message\n"); return; } cause = status2cause(status); location = LOCATION_BEYOND; release_with_cause: PDEBUG(DEBUG_SIP, "do release (cause %d)\n", cause); while(p_epointlist) { /* send setup message to endpoit */ message = message_create(p_serial, p_epointlist->epoint_id, PORT_TO_EPOINT, MESSAGE_RELEASE); message->param.disconnectinfo.cause = cause; message->param.disconnectinfo.location = location; message_put(message); /* remove epoint */ free_epointlist(p_epointlist); } new_state(PORT_STATE_RELEASE); rtp_close(); trigger_work(&p_s_delete); } void Psip::r_options(int status, char const *phrase, nua_t *nua, nua_magic_t *magic, nua_handle_t *nh, nua_hmagic_t *hmagic, sip_t const *sip, tagi_t tags[]) { struct sip_inst *inst = (struct sip_inst *) p_s_sip_inst; int cause = 0, location = 0; struct lcr_msg *message; PDEBUG(DEBUG_SIP, "options result %d received\n", status); if (status >= 200 && status <= 299) { PDEBUG(DEBUG_SIP, "options ok, scheduling option timer with %d seconds\n", inst->options_interval); /* restart option timer */ schedule_timer(&p_s_invite_option_timer, inst->options_interval, 0); return; } PDEBUG(DEBUG_SIP, "nua_handle_destroy %x\n", nh); nua_handle_destroy(nh); p_s_handle = NULL; rtp_close(); cause = status2cause(status); location = LOCATION_BEYOND; while(p_epointlist) { /* send setup message to endpoit */ message = message_create(p_serial, p_epointlist->epoint_id, PORT_TO_EPOINT, MESSAGE_RELEASE); message->param.disconnectinfo.cause = cause; message->param.disconnectinfo.location = location; message_put(message); /* remove epoint */ free_epointlist(p_epointlist); } new_state(PORT_STATE_RELEASE); trigger_work(&p_s_delete); } void Psip::i_state(int status, char const *phrase, nua_t *nua, nua_magic_t *magic, nua_handle_t *nh, nua_hmagic_t *hmagic, sip_t const *sip, tagi_t tags[]) { struct sip_inst *inst = (struct sip_inst *) p_s_sip_inst; PDEBUG(DEBUG_SIP, "state change received\n"); sip_trace_header(this, inst->interface_name, "STATUS", DIRECTION_OUT); add_trace("value", NULL, "%d", status); add_trace("phrase", NULL, "%s", phrase); end_trace(); } static void sip_callback(nua_event_t event, int status, char const *phrase, nua_t *nua, nua_magic_t *magic, nua_handle_t *nh, nua_hmagic_t *hmagic, sip_t const *sip, tagi_t tags[]) { struct sip_inst *inst = (struct sip_inst *) magic; class Port *port; class Psip *psip = NULL; PDEBUG(DEBUG_SIP, "Event %d from SIP stack received (handle=%p)\n", event, nh); if (!nh) return; /* hunt for existing handles */ port = port_first; while(port) { if ((port->p_type & PORT_CLASS_mISDN_MASK) == PORT_CLASS_SIP) { psip = (class Psip *)port; if (psip->p_s_handle == nh) { PDEBUG(DEBUG_SIP, "Event found for port %s\n", psip->p_name); break; } } port = port->next; } if (!port) psip = NULL; /* new handle */ switch (event) { case nua_i_options: if (!psip) { i_options(inst, status, phrase, nua, magic, nh, hmagic, sip, tags); if (inst->register_handle != nh) { PDEBUG(DEBUG_SIP, "nua_handle_destroy %x\n", nh); nua_handle_destroy(nh); } return; } break; case nua_r_options: if (!psip) { r_options(inst, status, phrase, nua, magic, nh, hmagic, sip, tags); return; } break; case nua_i_register: if (!psip && !inst->register_handle) { PDEBUG(DEBUG_SIP, "New register instance\n"); inst->register_handle = nh; } if (!psip) { i_register(inst, status, phrase, nua, magic, nh, hmagic, sip, tags); return; } break; case nua_r_register: if (!psip) { r_register(inst, status, phrase, nua, magic, nh, hmagic, sip, tags); return; } break; case nua_i_invite: if (!psip) { char name[64]; struct interface *interface = interface_first; PDEBUG(DEBUG_SIP, "New psip instance\n"); /* create call instance */ SPRINT(name, "%s-%d-in", inst->interface_name, 0); while (interface) { if (!strcmp(interface->name, inst->interface_name)) break; interface = interface->next; } if (!interface) FATAL("Cannot find interface %s.\n", inst->interface_name); if (!(psip = new Psip(PORT_TYPE_SIP_IN, name, NULL, interface))) FATAL("Cannot create Port instance.\n"); } break; case nua_i_outbound: PDEBUG(DEBUG_SIP, "Outbound status\n"); break; default: ; } /* handle port process */ if (!psip) { if (nh != inst->register_handle) { PERROR("no SIP Port found for handel %p\n", nh); nua_respond(nh, SIP_500_INTERNAL_SERVER_ERROR, TAG_END()); PDEBUG(DEBUG_SIP, "nua_handle_destroy %x\n", nh); nua_handle_destroy(nh); } return; } switch (event) { case nua_r_set_params: PDEBUG(DEBUG_SIP, "setparam response\n"); break; case nua_r_options: psip->r_options(status, phrase, nua, magic, nh, hmagic, sip, tags); break; case nua_i_error: PDEBUG(DEBUG_SIP, "error received\n"); break; case nua_i_state: psip->i_state(status, phrase, nua, magic, nh, hmagic, sip, tags); break; case nua_i_invite: psip->i_invite(status, phrase, nua, magic, nh, hmagic, sip, tags); break; case nua_i_ack: PDEBUG(DEBUG_SIP, "ack received\n"); break; case nua_i_active: PDEBUG(DEBUG_SIP, "active received\n"); break; case nua_i_options: psip->i_options(status, phrase, nua, magic, nh, hmagic, sip, tags); break; case nua_i_info: psip->i_info(status, phrase, nua, magic, nh, hmagic, sip, tags); break; case nua_i_bye: psip->i_bye(status, phrase, nua, magic, nh, hmagic, sip, tags); break; case nua_i_cancel: psip->i_cancel(status, phrase, nua, magic, nh, hmagic, sip, tags); break; case nua_r_bye: psip->r_bye(status, phrase, nua, magic, nh, hmagic, sip, tags); break; case nua_r_cancel: psip->r_cancel(status, phrase, nua, magic, nh, hmagic, sip, tags); break; case nua_r_invite: psip->r_invite(status, phrase, nua, magic, nh, hmagic, sip, tags); break; case nua_i_terminated: PDEBUG(DEBUG_SIP, "terminated received\n"); break; default: PDEBUG(DEBUG_SIP, "Event %d not handled\n", event); } } static void stun_bind_cb(stun_discovery_magic_t *magic, stun_handle_t *sh, stun_discovery_t *sd, stun_action_t action, stun_state_t event) { struct sip_inst *inst = (struct sip_inst *) magic; su_sockaddr_t sa; socklen_t addrlen; PDEBUG(DEBUG_SIP, "Event %d from STUN stack received\n", event); switch (event) { case stun_discovery_done: addrlen = sizeof(sa); memset(&sa, 0, addrlen); if (stun_discovery_get_address(sd, &sa, &addrlen) < 0) { PDEBUG(DEBUG_SIP, "stun_discovery_get_address failed\n"); goto failed; } su_inet_ntop(sa.su_family, SU_ADDR(&sa), inst->public_ip, sizeof(inst->public_ip)); inst->stun_state = STUN_STATE_RESOLVED; /* start timer for next stun request with inst->stun_interval */ schedule_timer(&inst->stun_retry_timer, inst->stun_interval, 0); sip_trace_header(NULL, inst->interface_name, "STUN resolved", DIRECTION_OUT); add_trace("ip", "addr", "%s", inst->public_ip); end_trace(); break; default: failed: PDEBUG(DEBUG_SIP, "STUN failed, starting timer\n"); inst->stun_state = STUN_STATE_FAILED; /* start timer for next stun request (after failing) with STUN_RETRY_TIMER */ schedule_timer(&inst->stun_retry_timer, STUN_RETRY_TIMER); sip_trace_header(NULL, inst->interface_name, "STUN failed", DIRECTION_OUT); end_trace(); } } /* received shutdown due to termination of RTP */ void Psip::rtp_shutdown(void) { struct sip_inst *inst = (struct sip_inst *) p_s_sip_inst; struct lcr_msg *message; PDEBUG(DEBUG_SIP, "RTP stream terminated\n"); sip_trace_header(this, inst->interface_name, "RTP terminated", DIRECTION_IN); end_trace(); PDEBUG(DEBUG_SIP, "nua_handle_destroy %x\n", p_s_handle); nua_handle_destroy(p_s_handle); p_s_handle = NULL; while(p_epointlist) { /* send setup message to endpoit */ message = message_create(p_serial, p_epointlist->epoint_id, PORT_TO_EPOINT, MESSAGE_RELEASE); message->param.disconnectinfo.cause = 16; message->param.disconnectinfo.location = LOCATION_BEYOND; message_put(message); /* remove epoint */ free_epointlist(p_epointlist); } new_state(PORT_STATE_RELEASE); trigger_work(&p_s_delete); } static int invite_option_timer(struct lcr_timer *timer, void *instance, int index) { class Psip *psip = (class Psip *)instance; struct sip_inst *inst = (struct sip_inst *) psip->p_s_sip_inst; PDEBUG(DEBUG_SIP, "invite options timer fired\n"); sip_trace_header(psip, inst->interface_name, "OPTIONS", psip->p_s_invite_direction); end_trace(); nua_options(psip->p_s_handle, TAG_END()); return 0; } static int stun_retry_timer(struct lcr_timer *timer, void *instance, int index) { struct sip_inst *inst = (struct sip_inst *)instance; PDEBUG(DEBUG_SIP, "timeout, restart stun lookup\n"); inst->stun_state = STUN_STATE_UNRESOLVED; return 0; } static int register_retry_timer(struct lcr_timer *timer, void *instance, int index) { struct sip_inst *inst = (struct sip_inst *)instance; PDEBUG(DEBUG_SIP, "timeout, restart register\n"); /* if we have a handle, destroy it and becom unregistered, so registration is * triggered next */ if (inst->register_handle) { /* stop option timer */ unsched_timer(&inst->register_option_timer); PDEBUG(DEBUG_SIP, "nua_handle_destroy %x\n", inst->register_handle); nua_handle_destroy(inst->register_handle); inst->register_handle = NULL; } inst->register_state = REGISTER_STATE_UNREGISTERED; return 0; } static int register_option_timer(struct lcr_timer *timer, void *instance, int index) { struct sip_inst *inst = (struct sip_inst *)instance; PDEBUG(DEBUG_SIP, "register options timer fired\n"); sip_trace_header(NULL, inst->interface_name, "OPTIONS", DIRECTION_OUT); end_trace(); nua_options(inst->register_handle, TAG_END()); return 0; } int sip_init_inst(struct interface *interface) { struct sip_inst *inst = (struct sip_inst *) MALLOC(sizeof(*inst)); char local[256]; interface->sip_inst = inst; SCPY(inst->interface_name, interface->name); SCPY(inst->local_peer, interface->sip_local_peer); SCPY(inst->remote_peer, interface->sip_remote_peer); if (!inst->remote_peer[0]) inst->allow_register = 1; SCPY(inst->asserted_id, interface->sip_asserted_id); if (interface->sip_register) { inst->register_state = REGISTER_STATE_UNREGISTERED; SCPY(inst->register_user, interface->sip_register_user); SCPY(inst->register_host, interface->sip_register_host); } SCPY(inst->auth_user, interface->sip_auth_user); SCPY(inst->auth_password, interface->sip_auth_password); SCPY(inst->auth_realm, interface->sip_auth_realm); inst->register_interval = interface->sip_register_interval; inst->options_interval = interface->sip_options_interval; inst->rtp_port_from = interface->rtp_port_from; inst->rtp_port_to = interface->rtp_port_to; if (!inst->rtp_port_from || !inst->rtp_port_to) { inst->rtp_port_from = RTP_PORT_BASE; inst->rtp_port_to = RTP_PORT_MAX; } inst->next_rtp_port = inst->rtp_port_from; /* create timers */ memset(&inst->stun_retry_timer, 0, sizeof(inst->stun_retry_timer)); add_timer(&inst->stun_retry_timer, stun_retry_timer, inst, 0); memset(&inst->register_retry_timer, 0, sizeof(inst->register_retry_timer)); add_timer(&inst->register_retry_timer, register_retry_timer, inst, 0); memset(&inst->register_option_timer, 0, sizeof(inst->register_option_timer)); add_timer(&inst->register_option_timer, register_option_timer, inst, 0); /* init root object */ inst->root = su_root_create(inst); if (!inst->root) { PERROR("Failed to create SIP root\n"); sip_exit_inst(interface); return -EINVAL; } SPRINT(local, "sip:%s",inst->local_peer); if (!strchr(inst->local_peer, ':')) SCAT(local, ":5060"); inst->nua = nua_create(inst->root, sip_callback, inst, NUTAG_URL(local), TAG_END()); if (!inst->nua) { PERROR("Failed to create SIP stack object\n"); sip_exit_inst(interface); return -EINVAL; } nua_set_params(inst->nua, SIPTAG_ALLOW_STR("REGISTER,INVITE,ACK,BYE,CANCEL,OPTIONS,NOTIFY,INFO"), NUTAG_APPL_METHOD("REGISTER"), NUTAG_APPL_METHOD("INVITE"), NUTAG_APPL_METHOD("ACK"), // NUTAG_APPL_METHOD("BYE"), /* we must reply to BYE */ NUTAG_APPL_METHOD("CANCEL"), NUTAG_APPL_METHOD("OPTIONS"), NUTAG_APPL_METHOD("NOTIFY"), NUTAG_APPL_METHOD("INFO"), NUTAG_AUTOACK(0), #ifdef NUTAG_AUTO100 NUTAG_AUTO100(0), #endif NUTAG_AUTOALERT(0), NUTAG_AUTOANSWER(0), TAG_NULL()); SCPY(inst->public_ip, interface->sip_public_ip); if (interface->sip_stun_server[0]) { SCPY(inst->stun_server, interface->sip_stun_server); inst->stun_interval = interface->sip_stun_interval; inst->stun_handle = stun_handle_init(inst->root, STUNTAG_SERVER(inst->stun_server), TAG_NULL()); if (!inst->stun_handle) { PERROR("Failed to create STUN handle\n"); sip_exit_inst(interface); return -EINVAL; } inst->stun_socket = su_socket(AF_INET, SOCK_DGRAM, IPPROTO_UDP); if (inst->stun_socket < 0) { PERROR("Failed to create STUN socket\n"); sip_exit_inst(interface); return -EINVAL; } inst->stun_state = STUN_STATE_UNRESOLVED; } PDEBUG(DEBUG_SIP, "SIP interface created (inst=%p)\n", inst); any_sip_interface = 1; return 0; } void sip_exit_inst(struct interface *interface) { struct sip_inst *inst = (struct sip_inst *) interface->sip_inst; if (!inst) return; del_timer(&inst->stun_retry_timer); del_timer(&inst->register_retry_timer); del_timer(&inst->register_option_timer); if (inst->stun_socket) su_close(inst->stun_socket); if (inst->stun_handle) stun_handle_destroy(inst->stun_handle); if (inst->register_handle) nua_handle_destroy(inst->register_handle); if (inst->root) su_root_destroy(inst->root); if (inst->nua) nua_destroy(inst->nua); FREE(inst, sizeof(*inst)); interface->sip_inst = NULL; PDEBUG(DEBUG_SIP, "SIP interface removed\n"); /* check if there is any other SIP interface left */ interface = interface_first; while (interface) { if (interface->sip_inst) break; interface = interface->next; } if (!interface) any_sip_interface = 0; } extern su_log_t su_log_default[]; extern su_log_t nua_log[]; int sip_init(void) { int i; /* init SOFIA lib */ su_init(); su_home_init(sip_home); if (options.deb & DEBUG_SIP) { su_log_set_level(su_log_default, 9); su_log_set_level(nua_log, 9); //su_log_set_level(soa_log, 9); } for (i = 0; i < 256; i++) flip[i] = ((i & 1) << 7) + ((i & 2) << 5) + ((i & 4) << 3) + ((i & 8) << 1) + ((i & 16) >> 1) + ((i & 32) >> 3) + ((i & 64) >> 5) + ((i & 128) >> 7); PDEBUG(DEBUG_SIP, "SIP globals initialized\n"); return 0; } void sip_exit(void) { su_home_deinit(sip_home); su_deinit(); PDEBUG(DEBUG_SIP, "SIP globals de-initialized\n"); } static void sip_handle_stun(struct sip_inst *inst) { int rc; switch (inst->stun_state) { case STUN_STATE_UNRESOLVED: PDEBUG(DEBUG_SIP, "Trying to to get local IP from stun server\n"); rc = stun_bind(inst->stun_handle, stun_bind_cb, (stun_discovery_magic_t *)inst, STUNTAG_SOCKET(inst->stun_socket), STUNTAG_REGISTER_EVENTS(1), TAG_NULL()); if (rc < 0) { PERROR("Failed to call stun_bind()\n"); inst->stun_state = STUN_STATE_FAILED; break; } inst->stun_state = STUN_STATE_RESOLVING; sip_trace_header(NULL, inst->interface_name, "STUN resolving", DIRECTION_OUT); add_trace("server", "addr", "%s", inst->stun_server); end_trace(); break; } } static void sip_handle_register(struct sip_inst *inst) { char from[128] = ""; char to[128] = ""; char contact[128] = ""; char expires[128] = ""; switch (inst->register_state) { case REGISTER_STATE_UNREGISTERED: /* wait for resoved stun */ if (inst->stun_handle && inst->stun_state != STUN_STATE_RESOLVED) return; PDEBUG(DEBUG_SIP, "Registering to peer\n"); inst->register_handle = nua_handle(inst->nua, NULL, TAG_END()); if (!inst->register_handle) { PERROR("Failed to create handle\n"); inst->register_state = REGISTER_STATE_FAILED; break; } /* apply handle to trace */ // sip_trace_header(NULL, inst->interface_name, "NEW handle", DIRECTION_NONE); // add_trace("handle", "new", "0x%x", inst->register_handle); // end_trace(); SPRINT(from, "sip:%s@%s", inst->register_user, inst->register_host); SPRINT(to, "sip:%s@%s", inst->register_user, inst->register_host); if (inst->public_ip[0]) { char *p; SPRINT(contact, "sip:%s@%s", inst->register_user, inst->public_ip); p = strchr(inst->local_peer, ':'); if (p) SCAT(contact, p); } if (inst->register_interval) { SPRINT(expires, "%d", inst->register_interval + 60); } sip_trace_header(NULL, inst->interface_name, "REGISTER", DIRECTION_OUT); add_trace("from", "uri", "%s", from); add_trace("to", "uri", "%s", to); if (expires[0]) add_trace("expires", NULL, "%s", expires); end_trace(); nua_register(inst->register_handle, TAG_IF(from[0], SIPTAG_FROM_STR(from)), TAG_IF(to[0], SIPTAG_TO_STR(to)), TAG_IF(contact[0], SIPTAG_CONTACT_STR(contact)), TAG_IF(expires[0], SIPTAG_EXPIRES_STR(expires)), TAG_END()); inst->register_state = REGISTER_STATE_REGISTERING; break; } } void sip_handle(void) { struct interface *interface = interface_first; struct sip_inst *inst; while (interface) { if (interface->sip_inst) { inst = (struct sip_inst *) interface->sip_inst; su_root_step(inst->root, 0); sip_handle_stun(inst); sip_handle_register(inst); } interface = interface->next; } } /* deletes when back in event loop */ static int delete_event(struct lcr_work *work, void *instance, int index) { class Psip *psip = (class Psip *)instance; delete psip; return 0; } /* * generate audio, if no data is received from bridge */ void Psip::set_tone(const char *dir, const char *tone) { Port::set_tone(dir, tone); update_load(); } void Psip::update_load(void) { /* don't trigger load event if event already active */ if (p_s_load_timer.active) return; /* don't start timer if ... */ if (!p_tone_name[0] && !p_dov_tx) return; p_s_next_tv_sec = 0; schedule_timer(&p_s_load_timer, 0, 0); /* no delay the first time */ } static int load_timer(struct lcr_timer *timer, void *instance, int index) { class Psip *psip = (class Psip *)instance; /* stop timer if ... */ if (!psip->p_tone_name[0] && !psip->p_dov_tx) return 0; psip->load_tx(); return 0; } #define SEND_SIP_LEN 160 void Psip::load_tx(void) { int diff; struct timeval current_time; int tosend = SEND_SIP_LEN, i; unsigned char buf[SEND_SIP_LEN], *p = buf; /* get elapsed */ gettimeofday(¤t_time, NULL); if (!p_s_next_tv_sec) { /* if timer expired the first time, set next expected timeout 160 samples in advance */ p_s_next_tv_sec = current_time.tv_sec; p_s_next_tv_usec = current_time.tv_usec + SEND_SIP_LEN * 125; if (p_s_next_tv_usec >= 1000000) { p_s_next_tv_usec -= 1000000; p_s_next_tv_sec++; } schedule_timer(&p_s_load_timer, 0, SEND_SIP_LEN * 125); } else { diff = 1000000 * (current_time.tv_sec - p_s_next_tv_sec) + (current_time.tv_usec - p_s_next_tv_usec); if (diff < -SEND_SIP_LEN * 125 || diff > SEND_SIP_LEN * 125) { /* if clock drifts too much, set next timeout event to current timer + 160 */ diff = 0; p_s_next_tv_sec = current_time.tv_sec; p_s_next_tv_usec = current_time.tv_usec + SEND_SIP_LEN * 125; if (p_s_next_tv_usec >= 1000000) { p_s_next_tv_usec -= 1000000; p_s_next_tv_sec++; } } else { /* if diff is positive, it took too long, so next timeout will be earlier */ p_s_next_tv_usec += SEND_SIP_LEN * 125; if (p_s_next_tv_usec >= 1000000) { p_s_next_tv_usec -= 1000000; p_s_next_tv_sec++; } } schedule_timer(&p_s_load_timer, 0, SEND_SIP_LEN * 125 - diff); } /* copy tones */ if (p_tone_name[0]) { tosend -= read_audio(p, tosend); } else if (p_dov_tx) { tosend -= dov_tx(p, tosend); } if (tosend) { PERROR("buffer is not completely filled\n"); return; } p = buf; for (i = 0; i < SEND_SIP_LEN; i++) { *p = flip[*p]; p++; } /* transmit data via rtp */ rtp_send_frame(buf, SEND_SIP_LEN, (options.law=='a')?PAYLOAD_TYPE_ALAW:PAYLOAD_TYPE_ULAW); }