#include "mncc.h" #include "MNCC_Types.hh" #define ARRAY_SIZE(x) (sizeof(x) / sizeof((x)[0])) namespace MNCC__Types { static void enc_bcap(struct gsm_mncc_bearer_cap *out, const MNCC__bearer__cap& in) { out->transfer = in.transfer(); out->mode = in.mode(); out->coding = in.coding(); out->radio = in.radio(); out->speech_ctm = in.speech__ctm(); for (int i = 0; i < in.speech__ver().lengthof(); i++) out->speech_ver[i] = in.speech__ver()[i]; if (in.data().is_value()) { MNCC__bearer__cap__data data = in.data(); out->data.rate_adaption = (gsm48_bcap_ra) (int) data.rate__adaptation(); out->data.sig_access = (gsm48_bcap_sig_access) (int) data.sig__access(); out->data.async = data.async(); out->data.nr_stop_bits = data.nr__stop__bits(); out->data.nr_data_bits = data.nr__data__bits(); out->data.user_rate = (gsm48_bcap_user_rate) (int) data.user__rate(); out->data.parity = (gsm48_bcap_parity) (int) data.parity(); out->data.interm_rate = (gsm48_bcap_interm_rate) (int) data.interm__rate(); out->data.transp = (gsm48_bcap_transp) (int) data.transp(); out->data.modem_type = (gsm48_bcap_modem_type) (int) data.modem__type(); } } static MNCC__bearer__cap dec_bcap(const struct gsm_mncc_bearer_cap *in) { MNCC__bearer__cap__data data; MNCC__speech__vers vers; data = MNCC__bearer__cap__data((GSM48__bcap__ra) in->data.rate_adaption, (GSM48__bcap__sig__access) in->data.sig_access, in->data.async, in->data.nr_stop_bits, in->data.nr_data_bits, (GSM48__bcap__user__rate) in->data.user_rate, (GSM48__bcap__parity) in->data.parity, (GSM48__bcap__interm__rate) in->data.interm_rate, (GSM48__bcap__transp) in->data.transp, (GSM48__bcap__modem__type) in->data.modem_type); for (unsigned int i = 0; i < ARRAY_SIZE(in->speech_ver); i++) { vers[i] = in->speech_ver[i]; if (vers[i] == -1) break; } return MNCC__bearer__cap(in->transfer, in->mode, in->coding, in->radio, in->speech_ctm, vers, data); } static void enc_number(struct gsm_mncc_number *num, const MNCC__number& in) { num->type = in.number__type(); num->plan = in.plan(); num->present = in.presence(); num->screen = in.screen(); strncpy(num->number, in.number(), sizeof(num->number)); } static MNCC__number dec_number(const struct gsm_mncc_number *num) { return MNCC__number(num->type, num->plan,num->present, num->screen, num->number); } OCTETSTRING enc__MNCC__PDU(const MNCC__PDU& in) { struct gsm_mncc mncc; OCTETSTRING ret_val; memset(&mncc, 0, sizeof(mncc)); mncc.msg_type = in.msg__type(); switch (in.u().get_selection()) { case MNCC__MsgUnion::ALT_signal: { const MNCC__PDU__Signal& in_sig = in.u().signal(); mncc.callref = in_sig.callref(); if (in_sig.bearer__cap().is_value()) { enc_bcap(&mncc.bearer_cap, in_sig.bearer__cap()); mncc.fields |= MNCC_F_BEARER_CAP; } if (in_sig.called().is_value()) { enc_number(&mncc.called, in_sig.called()); mncc.fields |= MNCC_F_CALLED; } if (in_sig.calling().is_value()) { enc_number(&mncc.calling, in_sig.calling()); mncc.fields |= MNCC_F_CALLING; } if (in_sig.redirecting().is_value()) { enc_number(&mncc.redirecting, in_sig.redirecting()); mncc.fields |= MNCC_F_REDIRECTING; } if (in_sig.connected().is_value()) { enc_number(&mncc.connected, in_sig.connected()); mncc.fields |= MNCC_F_CONNECTED; } if (in_sig.cause().is_value()) { const MNCC__cause &cause = in_sig.cause(); TTCN_Buffer ttcn_buffer(cause.diag()); mncc.cause.location = cause.location(); mncc.cause.coding = cause.coding(); mncc.cause.rec = cause.rec(); mncc.cause.rec_val = cause.rec__val(); mncc.cause.value = cause.val(); mncc.cause.diag_len = ttcn_buffer.get_len(); if (mncc.cause.diag_len > (int) sizeof(mncc.cause.diag)) { TTCN_error("MNCC diagnostics length %u too long", mncc.cause.diag_len); mncc.cause.diag_len = sizeof(mncc.cause.diag); } memcpy(mncc.cause.diag, ttcn_buffer.get_data(), ttcn_buffer.get_len()); mncc.fields |= MNCC_F_CAUSE; } if (in_sig.progress().is_value()) { const MNCC__progress &progress = in_sig.progress(); mncc.progress.coding = progress.coding(); mncc.progress.location = progress.location(); mncc.progress.descr = progress.descr(); mncc.fields |= MNCC_F_PROGRESS; } if (in_sig.useruser().is_value()) { const MNCC__useruser &useruser = in_sig.useruser(); mncc.useruser.proto = useruser.proto(); strncpy(mncc.useruser.info, useruser.info(), sizeof(mncc.useruser.info)); mncc.fields |= MNCC_F_USERUSER; } if (in_sig.facility().is_value()) { const CHARSTRING &fac = in_sig.facility(); strncpy(mncc.facility.info, fac, sizeof(mncc.facility.info)); mncc.facility.len = strlen(mncc.facility.info); mncc.fields |= MNCC_F_FACILITY; } if (in_sig.cccap().is_value()) { const MNCC__cccap &cccap = in_sig.cccap(); mncc.cccap.dtmf = cccap.dtmf(); mncc.cccap.pcp = cccap.pcp(); mncc.fields |= MNCC_F_CCCAP; } if (in_sig.ssversion().is_value()) { const CHARSTRING &ssv = in_sig.ssversion(); strncpy(mncc.ssversion.info, ssv, sizeof(mncc.ssversion.info)); mncc.ssversion.len = strlen(mncc.ssversion.info); mncc.fields |= MNCC_F_SSVERSION; } mncc.clir.sup = in_sig.clir__sup(); mncc.clir.inv = in_sig.clir__inv(); if (in_sig.signal().is_value()) { const INTEGER &sig = in_sig.signal(); mncc.signal = sig; mncc.fields |= MNCC_F_SIGNAL; } if (in_sig.keypad().is_value()) { const CHARSTRING &kpd = in_sig.keypad(); mncc.signal = (int) kpd[0].get_char(); mncc.fields |= MNCC_F_KEYPAD; } mncc.more = in_sig.more(); mncc.notify = in_sig.notify(); if (in_sig.emergency().is_value()) { const INTEGER &emerg = in_sig.emergency(); mncc.emergency = emerg; mncc.fields |= MNCC_F_EMERGENCY; } strncpy(mncc.imsi, in_sig.imsi(), sizeof(mncc.imsi)); mncc.lchan_type = in_sig.lchan__type(); mncc.lchan_mode = in_sig.lchan__mode(); ret_val = OCTETSTRING(sizeof(mncc), (uint8_t *)&mncc); } break; case MNCC__MsgUnion::ALT_data: struct gsm_data_frame data; memset(&data, 0, sizeof(data)); data.msg_type = in.msg__type(); ret_val = OCTETSTRING(sizeof(data), (uint8_t *)&data); ret_val = ret_val & in.u().data().data(); break; case MNCC__MsgUnion::ALT_rtp: struct gsm_mncc_rtp rtp; memset(&rtp, 0, sizeof(rtp)); rtp.msg_type = in.msg__type(); rtp.callref = in.u().rtp().callref(); rtp.ip = in.u().rtp().ip(); rtp.port = in.u().rtp().rtp__port(); rtp.payload_type = in.u().rtp().payload__type(); rtp.payload_msg_type = in.u().rtp().payload__msg__type(); ret_val = OCTETSTRING(sizeof(rtp), (uint8_t *) &rtp); break; case MNCC__MsgUnion::ALT_hello: struct gsm_mncc_hello hello; memset(&hello, 0, sizeof(hello)); hello.msg_type = in.msg__type(); hello.version = in.u().hello().version(); hello.mncc_size = in.u().hello().mncc__size(); hello.data_frame_size = in.u().hello().data__frame__size(); hello.called_offset = in.u().hello().called__offset(); hello.signal_offset = in.u().hello().signal__offset(); hello.emergency_offset = in.u().hello().emergency__offset(); hello.lchan_type_offset = in.u().hello().lchan__type__offset(); ret_val = OCTETSTRING(sizeof(hello), (uint8_t *) &hello); break; } return ret_val; } MNCC__PDU dec__MNCC__PDU(const OCTETSTRING& in) { TTCN_Buffer ttcn_buffer(in); const struct gsm_mncc *in_mncc; MNCC__PDU__Signal sign; const struct gsm_mncc_hello *in_hello; MNCC__PDU__Hello hello; const struct gsm_data_frame *in_data; MNCC__PDU__Data data; const struct gsm_mncc_rtp *in_rtp; MNCC__PDU__Rtp rtp; MNCC__MsgUnion u; in_mncc = (struct gsm_mncc *) ttcn_buffer.get_read_data(); sign.set_implicit_omit(); hello.set_implicit_omit(); data.set_implicit_omit(); rtp.set_implicit_omit(); switch (in_mncc->msg_type) { case MNCC_SOCKET_HELLO: in_hello = (const struct gsm_mncc_hello *) in_mncc; hello = MNCC__PDU__Hello(in_hello->version, in_hello->mncc_size, in_hello->data_frame_size, in_hello->called_offset, in_hello->signal_offset, in_hello->emergency_offset, in_hello->lchan_type_offset); u.hello() = hello; break; case GSM_TCHF_FRAME: case GSM_TCHF_FRAME_EFR: case GSM_TCHH_FRAME: case GSM_TCH_FRAME_AMR: case GSM_BAD_FRAME: in_data = (const struct gsm_data_frame *) in_mncc; u.data() = MNCC__PDU__Data(in_data->callref, substr(in, offsetof(struct gsm_data_frame, data), in.lengthof() - offsetof(struct gsm_data_frame, data))); break; case MNCC_RTP_CREATE: case MNCC_RTP_CONNECT: case MNCC_RTP_FREE: in_rtp = (const struct gsm_mncc_rtp *) in_mncc; rtp = MNCC__PDU__Rtp(in_rtp->callref, in_rtp->ip, in_rtp->port, in_rtp->payload_type, in_rtp->payload_msg_type); u.rtp() = rtp; break; default: sign.callref() = in_mncc->callref; if (in_mncc->fields & MNCC_F_BEARER_CAP) { sign.bearer__cap() = dec_bcap(&in_mncc->bearer_cap); } if (in_mncc->fields & MNCC_F_CALLED) sign.called() = dec_number(&in_mncc->called); if (in_mncc->fields & MNCC_F_CALLING) sign.calling() = dec_number(&in_mncc->calling); if (in_mncc->fields & MNCC_F_REDIRECTING) sign.redirecting() = dec_number(&in_mncc->redirecting); if (in_mncc->fields & MNCC_F_CONNECTED) sign.connected() = dec_number(&in_mncc->connected); if (in_mncc->fields & MNCC_F_CAUSE) { sign.cause() = MNCC__cause(in_mncc->cause.location, in_mncc->cause.coding, in_mncc->cause.rec, in_mncc->cause.rec_val, in_mncc->cause.value, OCTETSTRING(in_mncc->cause.diag_len, (const uint8_t *)in_mncc->cause.diag)); } if (in_mncc->fields & MNCC_F_USERUSER) { sign.useruser() = MNCC__useruser(in_mncc->useruser.proto, CHARSTRING(in_mncc->useruser.info)); } if (in_mncc->fields & MNCC_F_PROGRESS) { sign.progress() = MNCC__progress(in_mncc->progress.coding, in_mncc->progress.location, in_mncc->progress.descr); } if (in_mncc->fields & MNCC_F_EMERGENCY) sign.emergency() = in_mncc->emergency; if (in_mncc->fields & MNCC_F_FACILITY) sign.facility() = CHARSTRING(in_mncc->facility.info); if (in_mncc->fields & MNCC_F_SSVERSION) sign.ssversion() = CHARSTRING(in_mncc->ssversion.info); if (in_mncc->fields & MNCC_F_CCCAP) sign.cccap() = MNCC__cccap(in_mncc->cccap.dtmf, in_mncc->cccap.pcp); if (in_mncc->fields & MNCC_F_KEYPAD) { char kpd[2] = { (char) in_mncc->keypad, 0 }; sign.keypad() = CHARSTRING(kpd); } if (in_mncc->fields & MNCC_F_SIGNAL) sign.signal() = in_mncc->signal; sign.clir__sup() = in_mncc->clir.sup; sign.clir__inv() = in_mncc->clir.inv; sign.more() = in_mncc->more; sign.notify() = in_mncc->notify; sign.imsi() = CHARSTRING(in_mncc->imsi); sign.lchan__type() = in_mncc->lchan_type; sign.lchan__mode() = in_mncc->lchan_mode; u.signal() = sign; break; } return MNCC__PDU(in_mncc->msg_type, u); } }