/* NMT protocol handling * * (C) 2016 by Andreas Eversberg * All Rights Reserved * * This program is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include #include #include #include #include "../common/debug.h" #include "../common/timer.h" #include "../common/call.h" #include "../common/cause.h" #include "nmt.h" #include "dsp.h" #include "frame.h" /* Call reference for calls from mobile station to network This offset of 0x400000000 is required for MNCC interface. */ static int new_callref = 0x40000000; /* Timers */ #define RELEASE_TO 2.0 /* how long do we wait for release guard of the phone */ #define DIALING_TO 1.0 /* if we have a pause during dialing, we abort the call */ #define CHANNEL_TO 2.0 /* how long do we wait for phone to appear on assigned channel */ #define RINGING_TO 60.0 /* how long may the phone ring */ #define SUPERVISORY_TO1 3.0 /* 3 sec to detect after setup */ #define SUPERVISORY_TO2 20.0 /* 20 sec lost until abort */ /* Counters */ #define PAGE_TRIES 3 /* How many time do we try to page the phone */ const char *nmt_state_name(enum nmt_state state) { static char invalid[16]; switch (state) { case STATE_NULL: return "(NULL)"; case STATE_IDLE: return "IDLE"; case STATE_ROAMING_IDENT: return "ROAMING IDENT"; case STATE_ROAMING_CONFIRM: return "ROAMING CONFIRM"; case STATE_MO_IDENT: return "MO CALL IDENT"; case STATE_MO_CONFIRM: return "MO CALL CONFIRM"; case STATE_MO_DIALING: return "MO CALL DIALING"; case STATE_MO_COMPLETE: return "MO CALL COMPLETE"; case STATE_MT_PAGING: return "MT CALL PAGING"; case STATE_MT_CHANNEL: return "MT CALL CHANNEL"; case STATE_MT_IDENT: return "MT CALL IDENT"; case STATE_MT_RINGING: return "MT CALL RINGING"; case STATE_MT_COMPLETE: return "MT CALL COMPLETE"; case STATE_ACTIVE: return "ACTIVE"; case STATE_MO_RELEASE: return "RELEASE MTX->MS"; case STATE_MT_RELEASE: return "RELEASE MTX->MS"; } sprintf(invalid, "invalid(%d)", state); return invalid; } static void nmt_new_state(nmt_t *nmt, enum nmt_state new_state) { if (nmt->state == new_state) return; PDEBUG(DNMT, DEBUG_DEBUG, "State change: %s -> %s\n", nmt_state_name(nmt->state), nmt_state_name(new_state)); nmt->state = new_state; } static struct nmt_channels { enum nmt_chan_type chan_type; const char *short_name; const char *long_name; } nmt_channels[] = { { CHAN_TYPE_CC, "CC", "calling channel" }, { CHAN_TYPE_TC, "TC", "traffic channel" }, { CHAN_TYPE_CC_TC, "CC/TC","combined calling & traffic channel" }, { CHAN_TYPE_TEST, "TEST", "calling channel" }, { 0, NULL, NULL } }; void nmt_channel_list(void) { int i; printf("Type\tDescription\n"); printf("------------------------------------------------------------------------\n"); for (i = 0; nmt_channels[i].long_name; i++) printf("%s\t%s\n", nmt_channels[i].short_name, nmt_channels[i].long_name); } int nmt_channel_by_short_name(const char *short_name) { int i; for (i = 0; nmt_channels[i].short_name; i++) { if (!strcasecmp(nmt_channels[i].short_name, short_name)) { PDEBUG(DNMT, DEBUG_INFO, "Selecting channel '%s' = %s\n", nmt_channels[i].short_name, nmt_channels[i].long_name); return nmt_channels[i].chan_type; } } return -1; } const char *chan_type_short_name(enum nmt_chan_type chan_type) { int i; for (i = 0; nmt_channels[i].short_name; i++) { if (nmt_channels[i].chan_type == chan_type) return nmt_channels[i].short_name; } return "invalid"; } const char *chan_type_long_name(enum nmt_chan_type chan_type) { int i; for (i = 0; nmt_channels[i].long_name; i++) { if (nmt_channels[i].chan_type == chan_type) return nmt_channels[i].long_name; } return "invalid"; } const char *nmt_dir_name(enum nmt_direction dir) { switch (dir) { case MTX_TO_MS: return "MTX->MS"; case MTX_TO_BS: return "MTX->BS"; case MTX_TO_XX: return "MTX->XX"; case BS_TO_MTX: return "BS->MTX"; case MS_TO_MTX: return "MS->MTX"; case XX_TO_MTX: return "XX->MTX"; } return "invalid"; } /* Convert channel number to frequency number of base station. Set 'uplink' to 1 to get frequency of mobile station. */ double nmt_channel2freq(int channel, int uplink) { double freq; if (channel < 1) return 0; else if (channel <= 180) freq = 463.000 + (channel - 1) * 0.025; else if (channel <= 200) freq = 462.500 + (channel - 181) * 0.025; else if (channel <= 380) freq = 463.000 + (channel - 201) * 0.025 + 0.0125; else if (channel <= 399) /* no channel 400, caused by interleaving and coding */ freq = 462.500 + (channel - 381) * 0.025 + 0.0125; else return 0; if (uplink) freq -= 10.000; return freq; } /* convert 7-digits dial string to NMT number */ static int dialstring2number(const char *dialstring, char *ms_country, char *ms_number) { if (strlen(dialstring) != 7) { PDEBUG(DNMT, DEBUG_NOTICE, "Wrong number of digits, use 7 digits: ZXXXXXX (Z=country, X=mobile number)\n"); return -1; } if (dialstring[0] < '0' && dialstring[0] > '9') { PDEBUG(DNMT, DEBUG_NOTICE, "Invalid country digit (first digit) of dial string\n"); return -1; } *ms_country = dialstring[0]; memcpy(ms_number, dialstring + 1, 6); return 0; } /* country selector */ static struct nmt_country { int y; const char *short_name; const char *long_name; const char *provider_name; } nmt_country[] = { { 5, "DK", "Denmark", "Tele Danmark Mobile" }, { 6, "SE", "Sweden", "Telia Mobitel" }, { 7, "NO", "Norway", "Telenor Mobil" }, { 8, "FI", "Finland", "Telecom Finland" }, { 8, "IS", "Iceland", "Post & Telecom" }, { 5, "FO", "Faroe Island", "Faroese Telecom" }, { 7, "EE", "Estonia", "Eesti Mobiiltelefon" }, { 5, "LV", "Latvia", "Latvian Mobile Telephone" }, { 8, "LT", "Lithuania", "COMLIET" }, { 6, "BY", "Belarus", "Belcel" }, { 5, "MO", "OSS/Moscow", "Moscow Cellular Comm." }, { 6, "STP", "OSS/St Petersburg", "Delta Telecom" }, { 6, "STP", "OSS/Leningrads Dist.", "Delta Telecom" }, { 7, "CAR", "OSS/Carelian Rep.", "Telecom Finland" }, { 5, "MUR", "OSS/Murmansk", "Telecom Finland" }, { 5, "LED", "OSS/Leningrads Dist.", "Telecom Finland" }, { 5, "KAL", "Kaliningrad", "Telecom Finland" }, { 7, "PL", "Poland", "CENTERTEL" }, { 6, "BG", "Bulgaria", "MOBIFON" }, { 5, "RO", "Romania", "Telefonica Romania" }, { 6, "UA", "Ukraine", "Ukraine Mobile Comm." }, { 1, "RU1", "", "" }, { 2, "RU2", "", "" }, { 3, "RU3", "", "" }, { 4, "RU4", "", "" }, { 0, NULL, NULL, NULL } }; void nmt_country_list(void) { int i; printf("TA\tShort\tCountry (Provider)\n"); printf("------------------------------------------------------------------------\n"); for (i = 0; nmt_country[i].short_name; i++) { if (nmt_country[i].short_name[0]) printf("%d\t%s\t%s (%s)\n", nmt_country[i].y, nmt_country[i].short_name, nmt_country[i].long_name, nmt_country[i].provider_name); else printf("%d\t%s\n", nmt_country[i].y, nmt_country[i].short_name); } } uint8_t nmt_country_by_short_name(const char *short_name) { int i; for (i = 0; nmt_country[i].short_name; i++) { if (!strcasecmp(nmt_country[i].short_name, short_name)) { PDEBUG(DNMT, DEBUG_INFO, "Selecting country code %d of %s,%s (provider '%s')\n", nmt_country[i].y, nmt_country[i].short_name, nmt_country[i].long_name, nmt_country[i].provider_name); return nmt_country[i].y; } } return 0; } static void nmt_timeout(struct timer *timer); static void nmt_go_idle(nmt_t *nmt); /* Create transceiver instance and link to a list. */ int nmt_create(const char *sounddev, int samplerate, int channel, enum nmt_chan_type chan_type, uint8_t ms_power, uint8_t traffic_area, uint8_t area_no, int compander, int supervisory, int loopback) { nmt_t *nmt; int rc; if (channel < 1 || channel > 399) { PDEBUG(DNMT, DEBUG_ERROR, "Channel number %d invalid.\n", channel); return -EINVAL; } if (channel >= 201) { PDEBUG(DNMT, DEBUG_NOTICE, "*** Channels numbers above 200 have been specified, but never used. These 'interleaved channels are probably not supports by the phone.\n"); } if (channel >= 181 && channel <= 200) { PDEBUG(DNMT, DEBUG_NOTICE, "Extended channel numbers (181..200) have been specified, but never been supported for sure. There is no phone to test with, so don't use it!\n"); } if (chan_type == CHAN_TYPE_CC) { PDEBUG(DNMT, DEBUG_NOTICE, "*** Selected channel can be used for calling only.\n"); PDEBUG(DNMT, DEBUG_NOTICE, "*** No call from the mobile phone is possible.\n"); PDEBUG(DNMT, DEBUG_NOTICE, "*** Use combined 'CC/TC' instead!\n"); } if (chan_type == CHAN_TYPE_TC) { PDEBUG(DNMT, DEBUG_NOTICE, "*** Selected channel can be used for traffic only.\n"); PDEBUG(DNMT, DEBUG_NOTICE, "*** No call to the mobile phone is possible.\n"); PDEBUG(DNMT, DEBUG_NOTICE, "*** Use combined 'CC/TC' instead!\n"); } if (chan_type == CHAN_TYPE_TEST && !loopback) { PDEBUG(DNMT, DEBUG_NOTICE, "*** Selected channel can be used for nothing but testing signal decoder.\n"); } nmt = calloc(1, sizeof(nmt_t)); if (!nmt) { PDEBUG(DNMT, DEBUG_ERROR, "No memory!\n"); return -ENOMEM; } PDEBUG(DNMT, DEBUG_DEBUG, "Creating 'NMT' instance for channel = %d (sample rate %d).\n", channel, samplerate); /* init general part of transceiver */ rc = sender_create(&nmt->sender, sounddev, samplerate, channel, loopback, 0, -1); if (rc < 0) { PDEBUG(DNMT, DEBUG_ERROR, "Failed to init transceiver process!\n"); goto error; } /* init audio processing */ rc = dsp_init_sender(nmt); if (rc < 0) { PDEBUG(DNMT, DEBUG_ERROR, "Failed to init audio processing!\n"); goto error; } timer_init(&nmt->timer, nmt_timeout, nmt); nmt->sysinfo.chan_type = chan_type; nmt->sysinfo.ms_power = ms_power; nmt->sysinfo.traffic_area = traffic_area; nmt->sysinfo.area_no = area_no; nmt->compander = compander; nmt->supervisory = supervisory; /* go into idle state */ nmt_go_idle(nmt); return 0; error: nmt_destroy(&nmt->sender); return rc; } /* Destroy transceiver instance and unlink from list. */ void nmt_destroy(sender_t *sender) { nmt_t *nmt = (nmt_t *) sender; PDEBUG(DNMT, DEBUG_DEBUG, "Destroying 'NMT' instance for channel = %d.\n", sender->kanal); dsp_cleanup_sender(nmt); timer_exit(&nmt->timer); sender_destroy(&nmt->sender); free(nmt); } /* Abort connection towards mobile station by sending idle digits. */ static void nmt_go_idle(nmt_t *nmt) { timer_stop(&nmt->timer); PDEBUG(DNMT, DEBUG_INFO, "Entering IDLE state, sending idle frames on %s.\n", chan_type_long_name(nmt->sysinfo.chan_type)); nmt_new_state(nmt, STATE_IDLE); nmt_set_dsp_mode(nmt, DSP_MODE_FRAME); memset(&nmt->subscriber, 0, sizeof(nmt->subscriber)); memset(&nmt->dialing, 0, sizeof(nmt->dialing)); } /* release an ongoing connection, this is used by roaming update and release initiated by MTX */ static void nmt_release(nmt_t *nmt) { timer_stop(&nmt->timer); PDEBUG(DNMT, DEBUG_INFO, "Releasing connection towards mobile station.\n"); nmt_new_state(nmt, STATE_MT_RELEASE); nmt->tx_frame_count = 0; nmt_set_dsp_mode(nmt, DSP_MODE_FRAME); timer_start(&nmt->timer, RELEASE_TO); } /* Enter paging state and transmit phone's number on calling channel */ static void nmt_page(nmt_t *nmt, char ms_country, const char *ms_number, int try) { PDEBUG(DNMT, DEBUG_INFO, "Entering paging state (try %d), sending call to '%c,%s'.\n", try, ms_country, ms_number); nmt->subscriber.country = ms_country; strcpy(nmt->subscriber.number, ms_number); nmt->page_try = try; nmt_new_state(nmt, STATE_MT_PAGING); nmt_set_dsp_mode(nmt, DSP_MODE_FRAME); nmt->tx_frame_count = 0; } /* * frame matching functions to check if channels is accessed correctly */ /* check match channel no, area no and traffic area */ static int match_channel(nmt_t *nmt, frame_t *frame) { int channel, power; /* check channel match */ nmt_decode_channel(frame->channel_no, &channel, &power); if (channel != nmt->sender.kanal) { PDEBUG(DNMT, DEBUG_NOTICE, "Frame for different channel %d received, ignoring.\n", channel); return 0; } return 1; } static int match_area(nmt_t *nmt, frame_t *frame) { uint8_t area_no, traffic_area; /* old phones do not support ZY digits */ if (frame->area_info + frame->traffic_area == 0) goto skip_area; area_no = frame->area_info >> 2; if (area_no == 0 && nmt->sysinfo.area_no != 0) area_no = 4; if (area_no != nmt->sysinfo.area_no) { PDEBUG(DNMT, DEBUG_NOTICE, "Received area no (%d) does not match the base station's area no (%d), ignoring.\n", area_no, nmt->sysinfo.area_no); return 0; } traffic_area = ((frame->area_info & 0x3) << 4) | frame->traffic_area; if (nmt->sysinfo.traffic_area != 0 && (nmt->sysinfo.traffic_area & 0x3f) != traffic_area) { PDEBUG(DNMT, DEBUG_NOTICE, "Received traffic 6 bits of traffic area (0x%02x) does not match the 6 bits of base station's traffic area (0x%02x), ignoring.\n", nmt->sysinfo.traffic_area & 0x3f, traffic_area); return 0; } skip_area: return 1; } /* check match subscriber number */ static int match_subscriber(nmt_t *nmt, frame_t *frame) { if (nmt_digits2value(&nmt->subscriber.country, 1) != frame->ms_country) { PDEBUG(DNMT, DEBUG_NOTICE, "Received non matching subscriber counrtry, ignoring.\n"); return 0; } if (nmt_digits2value(nmt->subscriber.number, 6) != frame->ms_number) { PDEBUG(DNMT, DEBUG_NOTICE, "Received non matching subscriber number, ignoring.\n"); return 0; } return 1; } /* * handle idle channel */ static void tx_idle(nmt_t *nmt, frame_t *frame) { switch (nmt->sysinfo.chan_type) { case CHAN_TYPE_CC: frame->index = NMT_MESSAGE_1a; break; case CHAN_TYPE_TC: frame->index = NMT_MESSAGE_4; break; case CHAN_TYPE_CC_TC: frame->index = NMT_MESSAGE_1b; break; case CHAN_TYPE_TEST: frame->index = NMT_MESSAGE_30; break; } frame->channel_no = nmt_encode_channel(nmt->sender.kanal, nmt->sysinfo.ms_power); frame->traffic_area = nmt->sysinfo.traffic_area; frame->additional_info = nmt_encode_area_no(nmt->sysinfo.area_no); } static void rx_idle(nmt_t *nmt, frame_t *frame) { switch (frame->index) { case NMT_MESSAGE_11a: /* roaming update and seizure */ if (!match_channel(nmt, frame)) break; if (!match_area(nmt, frame)) break; /* set subscriber */ nmt_value2digits(frame->ms_country, &nmt->subscriber.country, 1); nmt_value2digits(frame->ms_number, nmt->subscriber.number, 6); nmt->subscriber.number[6] = '\0'; PDEBUG(DNMT, DEBUG_INFO, "Received roaming seizure from subscriber %c,%s\n", nmt->subscriber.country, nmt->subscriber.number); /* change state */ nmt_new_state(nmt, STATE_ROAMING_IDENT); nmt->rx_frame_count = 0; nmt->tx_frame_count = 0; break; case NMT_MESSAGE_10b: /* seizure from ordinary MS */ case NMT_MESSAGE_12: /* seizure from coinbox MS */ if (!match_channel(nmt, frame)) break; if (!match_area(nmt, frame)) break; /* set subscriber */ nmt_value2digits(frame->ms_country, &nmt->subscriber.country, 1); nmt_value2digits(frame->ms_number, nmt->subscriber.number, 6); if (frame->index == NMT_MESSAGE_12) nmt->subscriber.coinbox = 1; nmt->subscriber.number[6] = '\0'; PDEBUG(DNMT, DEBUG_INFO, "Received call from subscriber %c,%s%s\n", nmt->subscriber.country, nmt->subscriber.number, (nmt->subscriber.coinbox) ? " (coinbox)" : ""); /* change state */ nmt_new_state(nmt, STATE_MO_IDENT); nmt->rx_frame_count = 0; nmt->tx_frame_count = 0; break; /* signals after release */ case NMT_MESSAGE_13a: /* line signal */ break; default: PDEBUG(DNMT, DEBUG_DEBUG, "Dropping message %s in state %s\n", nmt_frame_name(frame->index), nmt_state_name(nmt->state)); } } /* * handle roaming */ static void tx_ident(nmt_t *nmt, frame_t *frame) { frame->index = NMT_MESSAGE_3b; frame->channel_no = nmt_encode_channel(nmt->sender.kanal, nmt->sysinfo.ms_power); frame->traffic_area = nmt->sysinfo.traffic_area; frame->ms_country = nmt_digits2value(&nmt->subscriber.country, 1); frame->ms_number = nmt_digits2value(nmt->subscriber.number, 6); frame->additional_info = nmt_encode_area_no(nmt->sysinfo.area_no); } static void set_line_signal(nmt_t *nmt, frame_t *frame, uint8_t signal) { frame->index = NMT_MESSAGE_5a; frame->channel_no = nmt_encode_channel(nmt->sender.kanal, nmt->sysinfo.ms_power); frame->traffic_area = nmt->sysinfo.traffic_area; frame->ms_country = nmt_digits2value(&nmt->subscriber.country, 1); frame->ms_number = nmt_digits2value(nmt->subscriber.number, 6); frame->line_signal = (signal << 8) | (signal << 4) | signal; } static void tx_roaming_ident(nmt_t *nmt, frame_t *frame) { if (++nmt->tx_frame_count == 1) PDEBUG(DNMT, DEBUG_INFO, "Sending identity request.\n"); if (nmt->tx_frame_count == 8) { nmt_release(nmt); } tx_ident(nmt, frame); } static void rx_roaming_ident(nmt_t *nmt, frame_t *frame) { switch (frame->index) { case NMT_MESSAGE_11a: /* roaming update */ if (!match_channel(nmt, frame)) break; if (!match_area(nmt, frame)) break; if (!match_subscriber(nmt, frame)) break; if (nmt->rx_frame_count < 2) { PDEBUG(DNMT, DEBUG_DEBUG, "Skipping second seizure frame\n"); break; } nmt_value2digits(frame->ms_password, nmt->subscriber.password, 3); PDEBUG(DNMT, DEBUG_INFO, "Received identity confirm (password %s).\n", nmt->subscriber.password); nmt_new_state(nmt, STATE_ROAMING_CONFIRM); nmt->tx_frame_count = 0; break; default: PDEBUG(DNMT, DEBUG_DEBUG, "Dropping message %s in state %s\n", nmt_frame_name(frame->index), nmt_state_name(nmt->state)); } } static void tx_roaming_confirm(nmt_t *nmt, frame_t *frame) { set_line_signal(nmt, frame, 3); if (++nmt->tx_frame_count == 1) PDEBUG(DNMT, DEBUG_INFO, "Send 'ready to receive'.\n"); if (nmt->tx_frame_count == 2) nmt_release(nmt); /* continue with this frame, then release */ } static void rx_roaming_confirm(nmt_t *nmt, frame_t *frame) { switch (frame->index) { default: PDEBUG(DNMT, DEBUG_DEBUG, "Dropping message %s in state %s\n", nmt_frame_name(frame->index), nmt_state_name(nmt->state)); } } /* * handle call MS -> MTX */ static void tx_mo_ident(nmt_t *nmt, frame_t *frame) { if (++nmt->tx_frame_count == 1) PDEBUG(DNMT, DEBUG_INFO, "Sending identity request.\n"); if (nmt->tx_frame_count == 8) { nmt_release(nmt); } tx_ident(nmt, frame); } static void rx_mo_ident(nmt_t *nmt, frame_t *frame) { switch (frame->index) { case NMT_MESSAGE_10b: /* seizure */ case NMT_MESSAGE_12: /* seizure */ if (!match_channel(nmt, frame)) break; if (!match_subscriber(nmt, frame)) break; if (nmt->rx_frame_count < 2) { PDEBUG(DNMT, DEBUG_DEBUG, "Skipping second seizure frame\n"); break; } nmt_value2digits(frame->ms_password, nmt->subscriber.password, 3); PDEBUG(DNMT, DEBUG_INFO, "Received identity confirm (password %s).\n", nmt->subscriber.password); nmt_new_state(nmt, STATE_MO_CONFIRM); nmt->tx_frame_count = 0; break; default: PDEBUG(DNMT, DEBUG_DEBUG, "Dropping message %s in state %s\n", nmt_frame_name(frame->index), nmt_state_name(nmt->state)); } } static void tx_mo_confirm(nmt_t *nmt, frame_t *frame) { set_line_signal(nmt, frame, 3); if (++nmt->tx_frame_count <= 2) { if (nmt->tx_frame_count == 1) PDEBUG(DNMT, DEBUG_INFO, "Send 'ready to receive'.\n"); } else { if (nmt->tx_frame_count == 3) { PDEBUG(DNMT, DEBUG_INFO, "Send dial tone.\n"); nmt_new_state(nmt, STATE_MO_DIALING); nmt_set_dsp_mode(nmt, DSP_MODE_DIALTONE); timer_start(&nmt->timer, DIALING_TO); } } } static void rx_mo_dialing(nmt_t *nmt, frame_t *frame) { int len = strlen(nmt->dialing); switch (frame->index) { case NMT_MESSAGE_14a: /* digits */ if (!match_channel(nmt, frame)) break; if (!match_area(nmt, frame)) break; timer_start(&nmt->timer, DIALING_TO); /* max digits received */ if (len + 1 == sizeof(nmt->dialing)) break; /* received odd digit, but be already have odd number of digits */ if ((len & 1)) { if (nmt->rx_frame_count > 1) goto missing_digit; break; } else if (len) { if (nmt->rx_frame_count > 3) goto missing_digit; } nmt->dialing[len] = nmt_value2digit(frame->digit); nmt->dialing[len + 1] = '\0'; PDEBUG(DNMT, DEBUG_INFO, "Received (odd) digit %c.\n", nmt->dialing[len]); nmt->rx_frame_count = 0; /* finish dial tone after first digit */ if (!len) nmt_set_dsp_mode(nmt, DSP_MODE_AUDIO); break; case NMT_MESSAGE_14b: /* digits */ if (!match_channel(nmt, frame)) break; if (!match_area(nmt, frame)) break; timer_start(&nmt->timer, DIALING_TO); /* max digits received */ if (len + 1 == sizeof(nmt->dialing)) break; /* received odd digit, but be already have odd number of digits */ if (!(len & 1)) { if (len && nmt->rx_frame_count > 1) goto missing_digit; break; } else { if (nmt->rx_frame_count > 3) goto missing_digit; } nmt->dialing[len] = nmt_value2digit(frame->digit); nmt->dialing[len + 1] = '\0'; PDEBUG(DNMT, DEBUG_INFO, "Received (even) digit %c.\n", nmt->dialing[len]); nmt->rx_frame_count = 0; break; case NMT_MESSAGE_15: /* idle */ if (!len) break; PDEBUG(DNMT, DEBUG_INFO, "Dialing complete %s->%s, call established.\n", &nmt->subscriber.country, nmt->dialing); /* setup call */ { int callref = ++new_callref; int rc; PDEBUG(DNMT, DEBUG_INFO, "Setup call to network.\n"); rc = call_in_setup(callref, &nmt->subscriber.country, nmt->dialing); if (rc < 0) { PDEBUG(DNMT, DEBUG_NOTICE, "Call rejected (cause %d), releasing.\n", rc); nmt_release(nmt); return; } nmt->sender.callref = callref; } nmt_new_state(nmt, STATE_MO_COMPLETE); nmt_set_dsp_mode(nmt, DSP_MODE_FRAME); nmt->tx_frame_count = 0; break; default: PDEBUG(DNMT, DEBUG_DEBUG, "Dropping message %s in state %s\n", nmt_frame_name(frame->index), nmt_state_name(nmt->state)); } return; missing_digit: PDEBUG(DNMT, DEBUG_NOTICE, "Missing digit, aborting.\n"); nmt_release(nmt); } static void tx_mo_complete(nmt_t *nmt, frame_t *frame) { if (++nmt->tx_frame_count <= 4) { set_line_signal(nmt, frame, 6); if (nmt->tx_frame_count == 1) PDEBUG(DNMT, DEBUG_INFO, "Send 'addess complete'.\n"); } else { if (nmt->compander) { set_line_signal(nmt, frame, 5); if (nmt->tx_frame_count == 5) PDEBUG(DNMT, DEBUG_INFO, "Send 'compander in'.\n"); } else frame->index = NMT_MESSAGE_6; if (nmt->tx_frame_count == 9) { PDEBUG(DNMT, DEBUG_INFO, "Connect audio.\n"); nmt_new_state(nmt, STATE_ACTIVE); nmt->active_state = ACTIVE_STATE_VOICE; nmt_set_dsp_mode(nmt, DSP_MODE_AUDIO); if (nmt->supervisory) { super_reset(nmt); timer_start(&nmt->timer, SUPERVISORY_TO1); } } } } static void timeout_mo_dialing(nmt_t *nmt) { PDEBUG(DNMT, DEBUG_NOTICE, "Timeout while receiving digits.\n"); nmt_release(nmt); PDEBUG(DNMT, DEBUG_INFO, "Release call towards network.\n"); call_in_release(nmt->sender.callref, CAUSE_TEMPFAIL); nmt->sender.callref = 0; } /* * handle call MTX -> MS */ static void tx_mt_paging(nmt_t *nmt, frame_t *frame) { frame->index = NMT_MESSAGE_2a; frame->channel_no = nmt_encode_channel(nmt->sender.kanal, nmt->sysinfo.ms_power); frame->traffic_area = nmt->sysinfo.traffic_area; frame->ms_country = nmt_digits2value(&nmt->subscriber.country, 1); frame->ms_number = nmt_digits2value(nmt->subscriber.number, 6); frame->additional_info = nmt_encode_area_no(nmt->sysinfo.area_no); if (++nmt->tx_frame_count == 1) { PDEBUG(DNMT, DEBUG_INFO, "Send call to mobile.\n"); } else tx_idle(nmt, frame); /* wait some time to get answer. use more than one frame due to delay of audio processing */ if (nmt->tx_frame_count == 5) { PDEBUG(DNMT, DEBUG_NOTICE, "No answer from mobile phone (try %d).\n", nmt->page_try); if (nmt->page_try == PAGE_TRIES) { PDEBUG(DNMT, DEBUG_INFO, "Release call towards network.\n"); call_in_release(nmt->sender.callref, CAUSE_OUTOFORDER); nmt->sender.callref = 0; nmt_go_idle(nmt); return; } nmt_page(nmt, nmt->subscriber.country, nmt->subscriber.number, nmt->page_try + 1); } } static void rx_mt_paging(nmt_t *nmt, frame_t *frame) { switch (frame->index) { case NMT_MESSAGE_10a: /* call acknowledgement */ if (!match_channel(nmt, frame)) break; if (!match_subscriber(nmt, frame)) break; PDEBUG(DNMT, DEBUG_INFO, "Received call acknowledgement.\n"); nmt_new_state(nmt, STATE_MT_CHANNEL); nmt->tx_frame_count = 0; break; default: PDEBUG(DNMT, DEBUG_DEBUG, "Dropping message %s in state %s\n", nmt_frame_name(frame->index), nmt_state_name(nmt->state)); } } static void tx_mt_channel(nmt_t *nmt, frame_t *frame) { frame->index = NMT_MESSAGE_2b; frame->channel_no = nmt_encode_channel(nmt->sender.kanal, nmt->sysinfo.ms_power); frame->traffic_area = nmt->sysinfo.traffic_area; frame->ms_country = nmt_digits2value(&nmt->subscriber.country, 1); frame->ms_number = nmt_digits2value(nmt->subscriber.number, 6); frame->tc_no = nmt_encode_channel(nmt->sender.kanal, nmt->sysinfo.ms_power); PDEBUG(DNMT, DEBUG_INFO, "Send channel activation to mobile.\n"); nmt_new_state(nmt, STATE_MT_IDENT); } static void tx_mt_ident(nmt_t *nmt, frame_t *frame) { if (++nmt->tx_frame_count == 1) PDEBUG(DNMT, DEBUG_INFO, "Sending identity request.\n"); if (nmt->tx_frame_count == 8) { PDEBUG(DNMT, DEBUG_INFO, "Release call towards network.\n"); call_in_release(nmt->sender.callref, CAUSE_TEMPFAIL); nmt->sender.callref = 0; nmt_go_idle(nmt); } tx_ident(nmt, frame); } static void rx_mt_ident(nmt_t *nmt, frame_t *frame) { switch (frame->index) { case NMT_MESSAGE_10b: /* seizure */ if (!match_subscriber(nmt, frame)) break; nmt_value2digits(frame->ms_password, nmt->subscriber.password, 3); PDEBUG(DNMT, DEBUG_INFO, "Received identity (password %s).\n", nmt->subscriber.password); nmt_new_state(nmt, STATE_MT_RINGING); nmt->tx_frame_count = 0; timer_start(&nmt->timer, RINGING_TO); call_in_alerting(nmt->sender.callref); break; default: PDEBUG(DNMT, DEBUG_DEBUG, "Dropping message %s in state %s\n", nmt_frame_name(frame->index), nmt_state_name(nmt->state)); } } static void tx_mt_ringing(nmt_t *nmt, frame_t *frame) { set_line_signal(nmt, frame, 9); if (++nmt->tx_frame_count == 1) PDEBUG(DNMT, DEBUG_INFO, "Send 'ringing order'.\n"); if (nmt->tx_frame_count >= 4) frame->index = NMT_MESSAGE_6; /* repeat ringing after 5 seconds */ if (nmt->tx_frame_count == 36) nmt->tx_frame_count = 0; } static void rx_mt_ringing(nmt_t *nmt, frame_t *frame) { switch (frame->index) { case NMT_MESSAGE_13a: /* line signal */ if (!match_subscriber(nmt, frame)) break; if ((frame->line_signal & 0xf) != 14) break; PDEBUG(DNMT, DEBUG_INFO, "Received 'answer' from phone.\n"); nmt_new_state(nmt, STATE_MT_COMPLETE); nmt->tx_frame_count = 0; call_in_answer(nmt->sender.callref, &nmt->subscriber.country); break; default: PDEBUG(DNMT, DEBUG_DEBUG, "Dropping message %s in state %s\n", nmt_frame_name(frame->index), nmt_state_name(nmt->state)); } } static void tx_mt_complete(nmt_t *nmt, frame_t *frame) { set_line_signal(nmt, frame, 5); ++nmt->tx_frame_count; if (nmt->compander) { if (nmt->tx_frame_count == 1) PDEBUG(DNMT, DEBUG_INFO, "Send 'compander in'.\n"); } else frame->index = NMT_MESSAGE_6; if (nmt->tx_frame_count == 5) { PDEBUG(DNMT, DEBUG_INFO, "Connect audio.\n"); nmt_new_state(nmt, STATE_ACTIVE); nmt->active_state = ACTIVE_STATE_VOICE; nmt_set_dsp_mode(nmt, DSP_MODE_AUDIO); if (nmt->supervisory) { super_reset(nmt); timer_start(&nmt->timer, SUPERVISORY_TO1); } } } static void timeout_mt_ringing(nmt_t *nmt) { PDEBUG(DNMT, DEBUG_NOTICE, "Timeout while waiting for answer of the phone.\n"); nmt_release(nmt); PDEBUG(DNMT, DEBUG_INFO, "Release call towards network.\n"); call_in_release(nmt->sender.callref, CAUSE_NOANSWER); nmt->sender.callref = 0; } /* * handle clearing towards MTX */ static void tx_mo_release(nmt_t *nmt, frame_t *frame) { set_line_signal(nmt, frame, 15); if (++nmt->tx_frame_count == 1) PDEBUG(DNMT, DEBUG_INFO, "Send release.\n"); if (nmt->tx_frame_count == 4) nmt_go_idle(nmt); /* continue with this frame, then go idle */ } /* * handle clearing towards MS */ static void tx_mt_release(nmt_t *nmt, frame_t *frame) { set_line_signal(nmt, frame, 15); if (++nmt->tx_frame_count == 1) PDEBUG(DNMT, DEBUG_INFO, "Send release.\n"); } static void rx_mt_release(nmt_t *nmt, frame_t *frame) { switch (frame->index) { case NMT_MESSAGE_13a: /* line signal */ if (!match_channel(nmt, frame)) break; if (!match_subscriber(nmt, frame)) break; if ((frame->line_signal & 0xf) != 1) break; PDEBUG(DNMT, DEBUG_INFO, "Received release guard.\n"); nmt_go_idle(nmt); break; default: PDEBUG(DNMT, DEBUG_DEBUG, "Dropping message %s in state %s\n", nmt_frame_name(frame->index), nmt_state_name(nmt->state)); } } static void timeout_mt_release(nmt_t *nmt) { PDEBUG(DNMT, DEBUG_NOTICE, "Timeout while releasing.\n"); nmt_go_idle(nmt); } /* * handle call */ void nmt_rx_super(nmt_t *nmt, int tone, double quality) { if (tone) PDEBUG(DNMT, DEBUG_INFO, "Detected supervisory signal with quality=%.0f.\n", quality * 100.0); else PDEBUG(DNMT, DEBUG_INFO, "Lost supervisory signal\n"); if (nmt->sender.loopback) return; /* only detect supervisory signal during active call */ if (nmt->state != STATE_ACTIVE || !nmt->supervisory) return; if (tone) timer_stop(&nmt->timer); else timer_start(&nmt->timer, SUPERVISORY_TO2); } static void timeout_active(nmt_t *nmt, double duration) { if (duration == SUPERVISORY_TO1) PDEBUG(DNMT, DEBUG_NOTICE, "Timeout after %.0f seconds not receiving supervisory signal.\n", duration); else PDEBUG(DNMT, DEBUG_NOTICE, "Timeout after %.0f seconds loosing supervisory signal.\n", duration); nmt_release(nmt); PDEBUG(DNMT, DEBUG_INFO, "Release call towards network.\n"); call_in_release(nmt->sender.callref, CAUSE_TEMPFAIL); nmt->sender.callref = 0; } static void rx_active(nmt_t *nmt, frame_t *frame) { char digit; /* restart timer on every reception of frame */ if (nmt->supervisory) timer_start(&nmt->timer, SUPERVISORY_TO2); switch (frame->index) { case NMT_MESSAGE_13a: /* line signal */ if (!match_channel(nmt, frame)) break; if (!match_subscriber(nmt, frame)) break; switch ((frame->line_signal & 0xf)) { case 5: PDEBUG(DNMT, DEBUG_NOTICE, "Register Recall is not supported.\n"); break; case 8: if (nmt->active_state != ACTIVE_STATE_VOICE) break; PDEBUG(DNMT, DEBUG_INFO, "Received 'MFT in' request.\n"); nmt->active_state = ACTIVE_STATE_MFT_IN; nmt->tx_frame_count = 0; nmt_set_dsp_mode(nmt, DSP_MODE_FRAME); nmt->mft_num = 0; break; case 7: if (nmt->active_state != ACTIVE_STATE_MFT) break; PDEBUG(DNMT, DEBUG_INFO, "Received 'MFT out' request.\n"); nmt->active_state = ACTIVE_STATE_MFT_OUT; nmt->tx_frame_count = 0; nmt_set_dsp_mode(nmt, DSP_MODE_FRAME); break; } break; case NMT_MESSAGE_14a: /* digits */ if (!match_channel(nmt, frame)) break; if (!match_area(nmt, frame)) break; if (nmt->active_state != ACTIVE_STATE_MFT) break; if ((nmt->mft_num & 1)) break; digit = nmt_value2digit(frame->digit); dtmf_set_tone(&nmt->dtmf, digit); PDEBUG(DNMT, DEBUG_INFO, "Received (odd) digit %c.\n", digit); nmt->mft_num++; break; case NMT_MESSAGE_14b: /* digits */ if (!match_channel(nmt, frame)) break; if (!match_area(nmt, frame)) break; if (nmt->active_state != ACTIVE_STATE_MFT) break; if (!(nmt->mft_num & 1)) break; digit = nmt_value2digit(frame->digit); dtmf_set_tone(&nmt->dtmf, digit); PDEBUG(DNMT, DEBUG_INFO, "Received (even) digit %c.\n", digit); nmt->mft_num++; break; default: PDEBUG(DNMT, DEBUG_DEBUG, "Dropping message %s in state %s\n", nmt_frame_name(frame->index), nmt_state_name(nmt->state)); } } static void tx_active(nmt_t *nmt, frame_t *frame) { switch (nmt->active_state) { case ACTIVE_STATE_MFT_IN: set_line_signal(nmt, frame, 4); if (++nmt->tx_frame_count == 1) PDEBUG(DNMT, DEBUG_INFO, "Send 'MFT in acknowledge'.\n"); if (nmt->tx_frame_count > 4) { nmt->active_state = ACTIVE_STATE_MFT; nmt_set_dsp_mode(nmt, DSP_MODE_DTMF); } break; case ACTIVE_STATE_MFT_OUT: set_line_signal(nmt, frame, 10); if (++nmt->tx_frame_count == 1) PDEBUG(DNMT, DEBUG_INFO, "Send 'MFT out acknowledge'.\n"); if (nmt->tx_frame_count > 4) { nmt->active_state = ACTIVE_STATE_VOICE; nmt_set_dsp_mode(nmt, DSP_MODE_AUDIO); if (nmt->supervisory) super_reset(nmt); } break; default: ; } } /* * general handlers to call sub handling */ void nmt_receive_frame(nmt_t *nmt, const char *bits, double quality, double level, double frames_elapsed) { frame_t frame; int rc; rc = decode_frame(&frame, bits, (nmt->sender.loopback) ? MTX_TO_XX : XX_TO_MTX, (nmt->state == STATE_MT_PAGING)); if (rc < 0) { PDEBUG(DNMT, (nmt->sender.loopback) ? DEBUG_NOTICE : DEBUG_DEBUG, "Received invalid frame. (quality=%.0f%% level=%.0f%%)\n", quality * 100.0, level * 100.0); return; } /* frame counter */ nmt->rx_frame_count += (int)(frames_elapsed + 0.5); PDEBUG(DNMT, (nmt->sender.loopback) ? DEBUG_NOTICE : DEBUG_DEBUG, "Received frame %s (quality=%.0f%% level=%.0f%%)\n", nmt_frame_name(frame.index), quality * 100.0, level * 100.0); if (nmt->sender.loopback) return; /* MS releases, but this is not the acknowledge of MTX release */ if (frame.index == NMT_MESSAGE_13a && (frame.line_signal & 0xf) == 1 && nmt->state != STATE_MO_RELEASE && nmt->state != STATE_MT_RELEASE) { /* drop packets after release */ if (nmt->state == STATE_IDLE) return; if (!match_subscriber(nmt, &frame)) return; PDEBUG(DNMT, DEBUG_INFO, "Received clearing by mobile phone in state %s.\n", nmt_state_name(nmt->state)); nmt_new_state(nmt, STATE_MO_RELEASE); nmt->tx_frame_count = 0; nmt_set_dsp_mode(nmt, DSP_MODE_FRAME); if (nmt->sender.callref) { PDEBUG(DNMT, DEBUG_INFO, "Release call towards network.\n"); call_in_release(nmt->sender.callref, CAUSE_NORMAL); nmt->sender.callref = 0; } return; } switch (nmt->state) { case STATE_IDLE: rx_idle(nmt, &frame); break; case STATE_ROAMING_IDENT: rx_roaming_ident(nmt, &frame); break; case STATE_ROAMING_CONFIRM: rx_roaming_confirm(nmt, &frame); break; case STATE_MO_IDENT: rx_mo_ident(nmt, &frame); break; case STATE_MO_CONFIRM: case STATE_MO_DIALING: rx_mo_dialing(nmt, &frame); break; case STATE_MO_RELEASE: break; case STATE_MT_PAGING: rx_mt_paging(nmt, &frame); break; case STATE_MT_IDENT: rx_mt_ident(nmt, &frame); break; case STATE_MT_RINGING: rx_mt_ringing(nmt, &frame); break; case STATE_MT_RELEASE: rx_mt_release(nmt, &frame); break; case STATE_ACTIVE: rx_active(nmt, &frame); break; default: PDEBUG(DNMT, DEBUG_DEBUG, "Dropping message %s in state %s\n", nmt_frame_name(frame.index), nmt_state_name(nmt->state)); } } /* Timeout handling */ static void nmt_timeout(struct timer *timer) { nmt_t *nmt = (nmt_t *)timer->priv; switch (nmt->state) { case STATE_MO_DIALING: timeout_mo_dialing(nmt); break; case STATE_MT_RINGING: timeout_mt_ringing(nmt); break; case STATE_MT_RELEASE: timeout_mt_release(nmt); break; case STATE_ACTIVE: timeout_active(nmt, timer->duration); break; default: break; } } /* FSK processing requests next frame after transmission of previous frame has been finished. */ const char *nmt_get_frame(nmt_t *nmt) { frame_t frame; const char *bits; int debug = 1; memset(&frame, 0, sizeof(frame)); switch(nmt->state) { case STATE_IDLE: tx_idle(nmt, &frame); break; case STATE_ROAMING_IDENT: tx_roaming_ident(nmt, &frame); break; case STATE_ROAMING_CONFIRM: tx_roaming_confirm(nmt, &frame); break; case STATE_MO_IDENT: tx_mo_ident(nmt, &frame); break; case STATE_MO_CONFIRM: tx_mo_confirm(nmt, &frame); break; case STATE_MO_COMPLETE: tx_mo_complete(nmt, &frame); break; case STATE_MO_RELEASE: tx_mo_release(nmt, &frame); break; case STATE_MT_PAGING: tx_mt_paging(nmt, &frame); break; case STATE_MT_CHANNEL: tx_mt_channel(nmt, &frame); break; case STATE_MT_IDENT: tx_mt_ident(nmt, &frame); break; case STATE_MT_RINGING: tx_mt_ringing(nmt, &frame); break; case STATE_MT_COMPLETE: tx_mt_complete(nmt, &frame); break; case STATE_MT_RELEASE: tx_mt_release(nmt, &frame); break; case STATE_ACTIVE: tx_active(nmt, &frame); break; default: break; } /* no encoding debug for certain (idle) frames */ switch(frame.index) { case NMT_MESSAGE_1a: case NMT_MESSAGE_4: case NMT_MESSAGE_1b: case NMT_MESSAGE_30: debug = 0; break; } /* frame sending aborted (e.g. due to audio) */ if (nmt->dsp_mode != DSP_MODE_FRAME) return NULL; bits = encode_frame(&frame, debug); PDEBUG(DNMT, DEBUG_DEBUG, "Sending frame %s.\n", nmt_frame_name(frame.index)); return bits; } /* * call states received from call control */ /* Call control starts call towards mobile station. */ int call_out_setup(int callref, char *dialing) { sender_t *sender; nmt_t *nmt; int i; char ms_country; char ms_number[7] = "000000"; /* 1. check if number is invalid, return INVALNUMBER */ if (dialstring2number(dialing, &ms_country, ms_number)) { inval: PDEBUG(DNMT, DEBUG_NOTICE, "Outgoing call to invalid number '%s', rejecting!\n", dialing); return -CAUSE_INVALNUMBER; } for (i = 0; i < 6; i++) { if (ms_number[i] < '0' || ms_number[i] > '9') goto inval; } /* 2. check if given number is already in a call, return BUSY */ for (sender = sender_head; sender; sender = sender->next) { nmt = (nmt_t *) sender; if (nmt->subscriber.country == ms_country && !strcmp(nmt->subscriber.number, ms_number)) break; } if (sender) { PDEBUG(DNMT, DEBUG_NOTICE, "Outgoing call to busy number, rejecting!\n"); return -CAUSE_BUSY; } /* 3. check if all senders are busy, return NOCHANNEL */ for (sender = sender_head; sender; sender = sender->next) { nmt = (nmt_t *) sender; if (nmt->sysinfo.chan_type != CHAN_TYPE_CC && nmt->sysinfo.chan_type != CHAN_TYPE_CC_TC) continue; if (nmt->state == STATE_IDLE) break; } if (!sender) { PDEBUG(DNMT, DEBUG_NOTICE, "Outgoing call, but no free calling channel, rejecting!\n"); return -CAUSE_NOCHANNEL; } PDEBUG(DNMT, DEBUG_INFO, "Call to mobile station, paging station id '%c%s'\n", ms_country, ms_number); /* 4. trying to page mobile station */ sender->callref = callref; nmt_page(nmt, ms_country, ms_number, 1); return 0; } /* Call control sends disconnect (with tones). * An active call stays active, so tones and annoucements can be received * by mobile station. */ void call_out_disconnect(int callref, int cause) { sender_t *sender; nmt_t *nmt; PDEBUG(DNMT, DEBUG_INFO, "Call has been disconnected by network.\n"); for (sender = sender_head; sender; sender = sender->next) { nmt = (nmt_t *) sender; if (sender->callref == callref) break; } if (!sender) { PDEBUG(DNMT, DEBUG_NOTICE, "Outgoing disconnect, but no callref!\n"); call_in_release(callref, CAUSE_INVALCALLREF); return; } /* Release when not active */ if (nmt->state == STATE_ACTIVE) return; switch (nmt->state) { case STATE_MT_RINGING: PDEBUG(DNMT, DEBUG_NOTICE, "Outgoing disconnect, during ringing, releasing!\n"); nmt_release(nmt); break; default: PDEBUG(DNMT, DEBUG_NOTICE, "Outgoing disconnect, when phone is in call setup, releasing!\n"); nmt_release(nmt); break; } call_in_release(callref, cause); sender->callref = 0; } /* Call control releases call toward mobile station. */ void call_out_release(int callref, int cause) { sender_t *sender; nmt_t *nmt; PDEBUG(DNMT, DEBUG_INFO, "Call has been released by network, releasing call.\n"); for (sender = sender_head; sender; sender = sender->next) { nmt = (nmt_t *) sender; if (sender->callref == callref) break; } if (!sender) { PDEBUG(DNMT, DEBUG_NOTICE, "Outgoing release, but no callref!\n"); /* don't send release, because caller already released */ return; } sender->callref = 0; switch (nmt->state) { case STATE_ACTIVE: PDEBUG(DNMT, DEBUG_NOTICE, "Outgoing release, during active call, releasing!\n"); nmt_release(nmt); break; case STATE_MT_RINGING: PDEBUG(DNMT, DEBUG_NOTICE, "Outgoing release, during ringing, releasing!\n"); nmt_release(nmt); break; default: PDEBUG(DNMT, DEBUG_NOTICE, "Outgoing release, when phone is in call setup, releasing!\n"); nmt_release(nmt); break; } } /* Receive audio from call instance. */ void call_rx_audio(int callref, int16_t *samples, int count) { sender_t *sender; nmt_t *nmt; for (sender = sender_head; sender; sender = sender->next) { nmt = (nmt_t *) sender; if (sender->callref == callref) break; } if (!sender) return; if (nmt->dsp_mode == DSP_MODE_AUDIO || nmt->dsp_mode == DSP_MODE_DTMF) { int16_t up[count * nmt->sender.srstate.factor]; if (nmt->compander) compress_audio(&nmt->cstate, samples, count); count = samplerate_upsample(&nmt->sender.srstate, samples, count, up); jitter_save(&nmt->sender.audio, up, count); } }