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readsb.c
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readsb.c
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// Part of readsb, a Mode-S/ADSB/TIS message decoder.
//
// readsb.c: main program & miscellany
//
// Copyright (c) 2019 Michael Wolf <[email protected]>
//
// This code is based on a detached fork of dump1090-fa.
//
// Copyright (c) 2014-2016 Oliver Jowett <[email protected]>
//
// This file 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
// any later version.
//
// This file 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 <http://www.gnu.org/licenses/>.
//
// This file incorporates work covered by the following copyright and
// license:
//
// Copyright (C) 2012 by Salvatore Sanfilippo <[email protected]>
//
// All rights reserved.
//
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions are
// met:
//
// * Redistributions of source code must retain the above copyright
// notice, this list of conditions and the following disclaimer.
//
// * Redistributions in binary form must reproduce the above copyright
// notice, this list of conditions and the following disclaimer in the
// documentation and/or other materials provided with the distribution.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
// HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
#define READSB
#include "readsb.h"
#include "help.h"
#include <stdarg.h>
struct _Modes Modes;
//
// ============================= Program options help ==========================
//
// This is a little silly, but that's how the preprocessor works..
#define _stringize(x) #x
static error_t parse_opt(int key, char *arg, struct argp_state *state);
const char *argp_program_version = MODES_READSB_VARIANT " " MODES_READSB_VERSION;
const char doc[] = "readsb Mode-S/ADSB/TIS Receiver "
MODES_READSB_VARIANT " " MODES_READSB_VERSION
"\nBuild options: "
#ifdef ENABLE_RTLSDR
"ENABLE_RTLSDR "
#endif
#ifdef ENABLE_BLADERF
"ENABLE_BLADERF "
#endif
#ifdef ENABLE_PLUTOSDR
"ENABLE_PLUTOSDR "
#endif
#ifdef SC16Q11_TABLE_BITS
#define stringize(x) _stringize(x)
"SC16Q11_TABLE_BITS=" stringize(SC16Q11_TABLE_BITS)
#undef stringize
#endif
"\v"
"Debug mode flags: d = Log frames decoded with errors\n"
" D = Log frames decoded with zero errors\n"
" c = Log frames with bad CRC\n"
" C = Log frames with good CRC\n"
" p = Log frames with bad preamble\n"
" n = Log network debugging info\n"
" j = Log frames to frames.js, loadable by debug.html\n";
#undef _stringize
#undef verstring
const char args_doc[] = "";
static struct argp argp = {options, parse_opt, args_doc, doc, NULL, NULL, NULL};
//
// ============================= Utility functions ==========================
//
static void log_with_timestamp(const char *format, ...) __attribute__ ((format(printf, 1, 2)));
static void log_with_timestamp(const char *format, ...) {
char timebuf[128];
char msg[1024];
time_t now;
struct tm local;
va_list ap;
now = time(NULL);
localtime_r(&now, &local);
strftime(timebuf, 128, "%c %Z", &local);
timebuf[127] = 0;
va_start(ap, format);
vsnprintf(msg, 1024, format, ap);
va_end(ap);
msg[1023] = 0;
fprintf(stderr, "%s %s\n", timebuf, msg);
}
static void sigintHandler(int dummy) {
MODES_NOTUSED(dummy);
signal(SIGINT, SIG_DFL); // reset signal handler - bit extra safety
Modes.exit = 1; // Signal to threads that we are done
log_with_timestamp("Caught SIGINT, shutting down..\n");
}
static void sigtermHandler(int dummy) {
MODES_NOTUSED(dummy);
signal(SIGTERM, SIG_DFL); // reset signal handler - bit extra safety
Modes.exit = 1; // Signal to threads that we are done
log_with_timestamp("Caught SIGTERM, shutting down..\n");
}
void receiverPositionChanged(float lat, float lon, float alt) {
log_with_timestamp("Autodetected receiver location: %.5f, %.5f at %.0fm AMSL", lat, lon, alt);
writeJsonToFile("receiver.json", generateReceiverJson()); // location changed
}
//
// =============================== Initialization ===========================
//
static void modesInitConfig(void) {
// Default everything to zero/NULL
memset(&Modes, 0, sizeof (Modes));
// Now initialise things that should not be 0/NULL to their defaults
Modes.gain = MODES_MAX_GAIN;
Modes.freq = MODES_DEFAULT_FREQ;
Modes.check_crc = 1;
Modes.net_heartbeat_interval = MODES_NET_HEARTBEAT_INTERVAL;
Modes.net_input_raw_ports = strdup("30001");
Modes.net_output_raw_ports = strdup("30002");
Modes.net_output_sbs_ports = strdup("30003");
Modes.net_input_sbs_ports = strdup("0");
Modes.net_input_beast_ports = strdup("30004,30104");
Modes.net_output_beast_ports = strdup("30005");
Modes.net_output_beast_reduce_ports = strdup("0");
Modes.net_output_beast_reduce_interval = 125;
Modes.net_output_vrs_ports = strdup("0");
Modes.net_connector_delay = 30 * 1000;
Modes.interactive_display_ttl = MODES_INTERACTIVE_DISPLAY_TTL;
Modes.json_interval = 1000;
Modes.json_location_accuracy = 2;
Modes.maxRange = 1852 * 300; // 300NM default max range
Modes.mode_ac_auto = 1;
Modes.nfix_crc = 1;
Modes.biastee = 0;
Modes.filter_persistence = 2;
Modes.net_sndbuf_size = 2; // Default to 256 kB network write buffers
Modes.net_output_flush_size = 1200; // Default to 1200 Bytes
Modes.net_output_flush_interval = 50; // Default to 50 ms
Modes.basestation_is_mlat = 1;
sdrInitConfig();
}
//
//=========================================================================
//
static void modesInit(void) {
int i;
pthread_mutex_init(&Modes.data_mutex, NULL);
pthread_cond_init(&Modes.data_cond, NULL);
Modes.sample_rate = (double)2400000.0;
// Allocate the various buffers used by Modes
Modes.trailing_samples = (MODES_PREAMBLE_US + MODES_LONG_MSG_BITS + 16) * 1e-6 * Modes.sample_rate;
for (i = 0; i < MODES_MAG_BUFFERS; ++i) {
if ((Modes.mag_buffers[i].data = calloc(MODES_MAG_BUF_SAMPLES + Modes.trailing_samples, sizeof (uint16_t))) == NULL) {
fprintf(stderr, "Out of memory allocating magnitude buffer.\n");
exit(1);
}
Modes.mag_buffers[i].length = 0;
Modes.mag_buffers[i].dropped = 0;
Modes.mag_buffers[i].sampleTimestamp = 0;
}
// Validate the users Lat/Lon home location inputs
if ((Modes.fUserLat > 90.0) // Latitude must be -90 to +90
|| (Modes.fUserLat < -90.0) // and
|| (Modes.fUserLon > 360.0) // Longitude must be -180 to +360
|| (Modes.fUserLon < -180.0)) {
Modes.fUserLat = Modes.fUserLon = 0.0;
} else if (Modes.fUserLon > 180.0) { // If Longitude is +180 to +360, make it -180 to 0
Modes.fUserLon -= 360.0;
}
// If both Lat and Lon are 0.0 then the users location is either invalid/not-set, or (s)he's in the
// Atlantic ocean off the west coast of Africa. This is unlikely to be correct.
// Set the user LatLon valid flag only if either Lat or Lon are non zero. Note the Greenwich meridian
// is at 0.0 Lon,so we must check for either fLat or fLon being non zero not both.
// Testing the flag at runtime will be much quicker than ((fLon != 0.0) || (fLat != 0.0))
Modes.bUserFlags &= ~MODES_USER_LATLON_VALID;
if ((Modes.fUserLat != 0.0) || (Modes.fUserLon != 0.0)) {
Modes.bUserFlags |= MODES_USER_LATLON_VALID;
}
// Limit the maximum requested raw output size to less than one Ethernet Block
// Set to default if 0
if (Modes.net_output_flush_size > (MODES_OUT_FLUSH_SIZE) || Modes.net_output_flush_size == 0) {
Modes.net_output_flush_size = MODES_OUT_FLUSH_SIZE;
}
if (Modes.net_output_flush_interval > (MODES_OUT_FLUSH_INTERVAL)) {
Modes.net_output_flush_interval = MODES_OUT_FLUSH_INTERVAL;
}
if (Modes.net_sndbuf_size > (MODES_NET_SNDBUF_MAX)) {
Modes.net_sndbuf_size = MODES_NET_SNDBUF_MAX;
}
if((Modes.net_connector_delay <= 0) || (Modes.net_connector_delay > 86400 * 1000)) {
Modes.net_connector_delay = 30 * 1000;
}
// Prepare error correction tables
modesChecksumInit(Modes.nfix_crc);
icaoFilterInit();
modeACInit();
if (Modes.show_only)
icaoFilterAdd(Modes.show_only);
}
// Set affinity of calling thread to specific core on a multi-core CPU
static int thread_to_core(int core_id) {
int num_cores = sysconf(_SC_NPROCESSORS_ONLN);
if (core_id < 0 || core_id >= num_cores)
return EINVAL;
cpu_set_t cpuset;
CPU_ZERO(&cpuset);
CPU_SET(core_id, &cpuset);
pthread_t current_thread = pthread_self();
return pthread_setaffinity_np(current_thread, sizeof (cpu_set_t), &cpuset);
}
//
//=========================================================================
//
// We read data using a thread, so the main thread only handles decoding
// without caring about data acquisition
//
void *readerThreadEntryPoint(void *arg) {
MODES_NOTUSED(arg);
// Try sticking this thread to core 3
thread_to_core(3);
sdrRun();
// Wake the main thread (if it's still waiting)
pthread_mutex_lock(&Modes.data_mutex);
if (!Modes.exit)
Modes.exit = 2; // unexpected exit
pthread_cond_signal(&Modes.data_cond);
pthread_mutex_unlock(&Modes.data_mutex);
#ifndef _WIN32
pthread_exit(NULL);
#else
return NULL;
#endif
}
//
// ============================== Snip mode =================================
//
// Get raw IQ samples and filter everything is < than the specified level
// for more than 256 samples in order to reduce example file size
//
static void snipMode(int level) {
int i, q;
uint64_t c = 0;
while ((i = getchar()) != EOF && (q = getchar()) != EOF) {
if (abs(i - 127) < level && abs(q - 127) < level) {
c++;
if (c > MODES_PREAMBLE_SIZE) continue;
} else {
c = 0;
}
putchar(i);
putchar(q);
}
}
static void display_total_stats(void) {
struct stats added;
add_stats(&Modes.stats_alltime, &Modes.stats_current, &added);
display_stats(&added);
}
//
//=========================================================================
//
// This function is called a few times every second by main in order to
// perform tasks we need to do continuously, like accepting new clients
// from the net, refreshing the screen in interactive mode, and so forth
//
static void backgroundTasks(void) {
static uint64_t next_stats_display;
static uint64_t next_stats_update;
static uint64_t next_json, next_history;
static uint64_t last_second;
uint64_t now = mstime();
icaoFilterExpire();
trackPeriodicUpdate();
if (Modes.net) {
modesNetPeriodicWork();
if (last_second + 1000 < now) {
modesNetSecondWork();
last_second = now;
}
}
// Refresh screen when in interactive mode
if (Modes.interactive) {
interactiveShowData();
}
// always update end time so it is current when requests arrive
Modes.stats_current.end = mstime();
if (now >= next_stats_update) {
int i;
if (next_stats_update == 0) {
next_stats_update = now + 60000;
} else {
Modes.stats_latest_1min = (Modes.stats_latest_1min + 1) % 15;
Modes.stats_1min[Modes.stats_latest_1min] = Modes.stats_current;
add_stats(&Modes.stats_current, &Modes.stats_alltime, &Modes.stats_alltime);
add_stats(&Modes.stats_current, &Modes.stats_periodic, &Modes.stats_periodic);
reset_stats(&Modes.stats_5min);
for (i = 0; i < 5; ++i)
add_stats(&Modes.stats_1min[(Modes.stats_latest_1min - i + 15) % 15], &Modes.stats_5min, &Modes.stats_5min);
reset_stats(&Modes.stats_15min);
for (i = 0; i < 15; ++i)
add_stats(&Modes.stats_1min[i], &Modes.stats_15min, &Modes.stats_15min);
reset_stats(&Modes.stats_current);
Modes.stats_current.start = Modes.stats_current.end = now;
if (Modes.json_dir)
writeJsonToFile("stats.json", generateStatsJson());
next_stats_update += 60000;
}
}
if (Modes.stats && now >= next_stats_display) {
if (next_stats_display == 0) {
next_stats_display = now + Modes.stats;
} else {
add_stats(&Modes.stats_periodic, &Modes.stats_current, &Modes.stats_periodic);
display_stats(&Modes.stats_periodic);
reset_stats(&Modes.stats_periodic);
next_stats_display += Modes.stats;
if (next_stats_display <= now) {
/* something has gone wrong, perhaps the system clock jumped */
next_stats_display = now + Modes.stats;
}
}
}
if (Modes.json_dir && now >= next_json) {
writeJsonToFile("aircraft.json", generateAircraftJson());
next_json = now + Modes.json_interval;
//writeJsonToFile("vrs.json", generateVRS(0, 1));
}
if (Modes.json_dir && now >= next_history) {
char filebuf[PATH_MAX];
snprintf(filebuf, PATH_MAX, "history_%d.json", Modes.json_aircraft_history_next);
writeJsonToFile(filebuf, generateAircraftJson());
if (!Modes.json_aircraft_history_full) {
writeJsonToFile("receiver.json", generateReceiverJson()); // number of history entries changed
if (Modes.json_aircraft_history_next == HISTORY_SIZE - 1)
Modes.json_aircraft_history_full = 1;
}
Modes.json_aircraft_history_next = (Modes.json_aircraft_history_next + 1) % HISTORY_SIZE;
next_history = now + HISTORY_INTERVAL;
}
}
//=========================================================================
// Clean up memory prior to exit.
static void cleanup_and_exit(int code) {
// Free any used memory
interactiveCleanup();
free(Modes.dev_name);
free(Modes.filename);
/* Free only when pointing to string in heap (strdup allocated when given as run parameter)
* otherwise points to const string
*/
free(Modes.json_dir);
free(Modes.net_bind_address);
free(Modes.net_input_beast_ports);
free(Modes.net_output_beast_ports);
free(Modes.net_output_beast_reduce_ports);
free(Modes.net_output_vrs_ports);
free(Modes.net_input_raw_ports);
free(Modes.net_output_raw_ports);
free(Modes.net_output_sbs_ports);
free(Modes.net_input_sbs_ports);
free(Modes.beast_serial);
/* Go through tracked aircraft chain and free up any used memory */
for (int j = 0; j < AIRCRAFTS_BUCKETS; j++) {
struct aircraft *a = Modes.aircrafts[j], *na;
while (a) {
na = a->next;
if (a) free(a);
a = na;
}
}
int i;
for (i = 0; i < MODES_MAG_BUFFERS; ++i) {
free(Modes.mag_buffers[i].data);
}
crcCleanupTables();
/* Cleanup network setup */
cleanupNetwork();
#ifndef _WIN32
exit(code);
#else
return (code);
#endif
}
static error_t parse_opt(int key, char *arg, struct argp_state *state) {
switch (key) {
case OptDevice:
Modes.dev_name = strdup(arg);
break;
case OptGain:
Modes.gain = (int) (atof(arg)*10); // Gain is in tens of DBs
break;
case OptFreq:
Modes.freq = (int) strtoll(arg, NULL, 10);
break;
case OptDcFilter:
Modes.dc_filter = 1;
break;
case OptBiasTee:
Modes.biastee = 1;
break;
case OptFix:
Modes.nfix_crc = 1;
break;
case OptNoFix:
Modes.nfix_crc = 0;
break;
case OptNoCrcCheck:
Modes.check_crc = 0;
break;
case OptRaw:
Modes.raw = 1;
break;
case OptNet:
Modes.net = 1;
break;
case OptModeAc:
Modes.mode_ac = 1;
Modes.mode_ac_auto = 0;
break;
case OptNoModeAcAuto:
Modes.mode_ac_auto = 0;
break;
case OptNetOnly:
Modes.net = 1;
Modes.sdr_type = SDR_NONE;
break;
case OptQuiet:
Modes.quiet = 1;
break;
case OptShowOnly:
Modes.show_only = (uint32_t) strtoul(arg, NULL, 16);
break;
case OptMlat:
Modes.mlat = 1;
break;
case OptForwardMlat:
Modes.forward_mlat = 1;
break;
case OptOnlyAddr:
Modes.onlyaddr = 1;
break;
case OptMetric:
Modes.metric = 1;
break;
case OptGnss:
Modes.use_gnss = 1;
break;
case OptAggressive:
Modes.nfix_crc = MODES_MAX_BITERRORS;
break;
case OptInteractive:
Modes.interactive = 1;
break;
case OptInteractiveTTL:
Modes.interactive_display_ttl = (uint64_t) (1000 * atof(arg));
break;
case OptLat:
Modes.fUserLat = atof(arg);
break;
case OptLon:
Modes.fUserLon = atof(arg);
break;
case OptMaxRange:
Modes.maxRange = atof(arg) * 1852.0; // convert to metres
break;
case OptStats:
if (!Modes.stats)
Modes.stats = (uint64_t) 1 << 60; // "never"
break;
case OptStatsRange:
Modes.stats_range_histo = 1;
break;
case OptStatsEvery:
Modes.stats = (uint64_t) (1000 * atof(arg));
break;
case OptSnip:
snipMode(atoi(arg));
cleanup_and_exit(0);
break;
#ifndef _WIN32
case OptJsonDir:
Modes.json_dir = strdup(arg);
break;
case OptJsonTime:
Modes.json_interval = (uint64_t) (1000 * atof(arg));
if (Modes.json_interval < 100) // 0.1s
Modes.json_interval = 100;
break;
case OptJsonLocAcc:
Modes.json_location_accuracy = atoi(arg);
break;
#endif
case OptNetHeartbeat:
Modes.net_heartbeat_interval = (uint64_t) (1000 * atof(arg));
break;
case OptNetRoSize:
Modes.net_output_flush_size = atoi(arg);
break;
case OptNetRoRate:
Modes.net_output_flush_interval = 1000 * atoi(arg) / 15; // backwards compatibility
break;
case OptNetRoIntervall:
Modes.net_output_flush_interval = (uint64_t) (1000 * atof(arg));
break;
case OptNetRoPorts:
free(Modes.net_output_raw_ports);
Modes.net_output_raw_ports = strdup(arg);
break;
case OptNetRiPorts:
free(Modes.net_input_raw_ports);
Modes.net_input_raw_ports = strdup(arg);
break;
case OptNetBoPorts:
free(Modes.net_output_beast_ports);
Modes.net_output_beast_ports = strdup(arg);
break;
case OptNetBiPorts:
free(Modes.net_input_beast_ports);
Modes.net_input_beast_ports = strdup(arg);
break;
case OptNetBeastReducePorts:
free(Modes.net_output_beast_reduce_ports);
Modes.net_output_beast_reduce_ports = strdup(arg);
break;
case OptNetBeastReduceInterval:
if (atof(arg) >= 0)
Modes.net_output_beast_reduce_interval = (uint64_t) (1000 * atof(arg));
if (Modes.net_output_beast_reduce_interval > 15000)
Modes.net_output_beast_reduce_interval = 15000;
break;
case OptNetBindAddr:
free(Modes.net_bind_address);
Modes.net_bind_address = strdup(arg);
break;
case OptNetSbsPorts:
free(Modes.net_output_sbs_ports);
Modes.net_output_sbs_ports = strdup(arg);
break;
case OptNetSbsInPorts:
free(Modes.net_input_sbs_ports);
Modes.net_input_sbs_ports = strdup(arg);
break;
case OptNetVRSPorts:
free(Modes.net_output_vrs_ports);
Modes.net_output_vrs_ports = strdup(arg);
break;
case OptNetBuffer:
Modes.net_sndbuf_size = atoi(arg);
break;
case OptNetVerbatim:
Modes.net_verbatim = 1;
break;
case OptNetConnector:
if (!Modes.net_connectors || Modes.net_connectors_count + 1 > Modes.net_connectors_size) {
Modes.net_connectors_size = Modes.net_connectors_count * 2 + 8;
Modes.net_connectors = realloc(Modes.net_connectors,
sizeof(struct net_connector *) * Modes.net_connectors_size);
if (!Modes.net_connectors)
return 1;
}
struct net_connector *con = calloc(1, sizeof(struct net_connector));
Modes.net_connectors[Modes.net_connectors_count++] = con;
char *connect_string = strdup(arg);
con->address = strtok(connect_string, ",");
con->port = strtok(NULL, ",");
con->protocol = strtok(NULL, ",");
//fprintf(stderr, "%d %s\n", Modes.net_connectors_count, con->protocol);
if (!con->address || !con->port || !con->protocol) {
fprintf(stderr, "--net-connector: Wrong format: %s\n", arg);
fprintf(stderr, "Correct syntax: --net-connector=ip,port,protocol\n");
return 1;
}
if (strcmp(con->protocol, "beast_out") != 0
&& strcmp(con->protocol, "beast_reduce_out") != 0
&& strcmp(con->protocol, "beast_in") != 0
&& strcmp(con->protocol, "raw_out") != 0
&& strcmp(con->protocol, "raw_in") != 0
&& strcmp(con->protocol, "vrs_out") != 0
&& strcmp(con->protocol, "sbs_in") != 0
&& strcmp(con->protocol, "sbs_out") != 0) {
fprintf(stderr, "--net-connector: Unknown protocol: %s\n", con->protocol);
fprintf(stderr, "Supported protocols: beast_out, beast_in, beast_reduce_out, raw_out, raw_in, sbs_out, sbs_in, vrs_out\n");
return 1;
}
if (strcmp(con->address, "") == 0 || strcmp(con->address, "") == 0) {
fprintf(stderr, "--net-connector: ip and port can't be empty!\n");
fprintf(stderr, "Correct syntax: --net-connector=ip,port,protocol\n");
return 1;
}
if (atol(con->port) > (1<<16) || atol(con->port) < 1) {
fprintf(stderr, "--net-connector: port must be in range 1 to 65536\n");
return 1;
}
break;
case OptNetConnectorDelay:
Modes.net_connector_delay = (uint64_t) 1000 * atof(arg);
break;
case OptDebug:
while (*arg) {
switch (*arg) {
case 'D': Modes.debug |= MODES_DEBUG_DEMOD;
break;
case 'd': Modes.debug |= MODES_DEBUG_DEMODERR;
break;
case 'C': Modes.debug |= MODES_DEBUG_GOODCRC;
break;
case 'c': Modes.debug |= MODES_DEBUG_BADCRC;
break;
case 'p': Modes.debug |= MODES_DEBUG_NOPREAMBLE;
break;
case 'n': Modes.debug |= MODES_DEBUG_NET;
break;
case 'j': Modes.debug |= MODES_DEBUG_JS;
break;
default:
fprintf(stderr, "Unknown debugging flag: %c\n", *arg);
return 1;
break;
}
arg++;
}
break;
#ifdef ENABLE_RTLSDR
case OptRtlSdrEnableAgc:
case OptRtlSdrPpm:
#endif
case OptBeastSerial:
case OptBeastDF1117:
case OptBeastDF045:
case OptBeastMlatTimeOff:
case OptBeastCrcOff:
case OptBeastFecOff:
case OptBeastModeAc:
case OptIfileName:
case OptIfileFormat:
case OptIfileThrottle:
#ifdef ENABLE_BLADERF
case OptBladeFpgaDir:
case OptBladeDecim:
case OptBladeBw:
#endif
#ifdef ENABLE_PLUTOSDR
case OptPlutoUri:
case OptPlutoNetwork:
#endif
case OptDeviceType:
/* Forward interface option to the specific device handler */
if (sdrHandleOption(key, arg) == false)
return 1;
break;
case ARGP_KEY_END:
if (state->arg_num > 0)
/* We use only options but no arguments */
argp_usage(state);
break;
default:
return ARGP_ERR_UNKNOWN;
}
return 0;
}
//
//=========================================================================
//
int main(int argc, char **argv) {
int j;
// Set sane defaults
modesInitConfig();
// signal handlers:
signal(SIGINT, sigintHandler);
signal(SIGTERM, sigtermHandler);
/* On a multi-core CPU we run the main thread and reader thread on different cores.
* Try sticking the main thread to core 1
*/
thread_to_core(1);
// Parse the command line options
if (argp_parse(&argp, argc, argv, 0, 0, 0)) {
fprintf(stderr, "Command line used:\n");
for (int i = 0; i < argc; i++) {
fprintf(stderr, "%s ", argv[i]);
}
fprintf(stderr, "\n");
cleanup_and_exit(1);
}
#ifdef _WIN32
// Try to comply with the Copyright license conditions for binary distribution
if (!Modes.quiet) {
showCopyright();
}
#endif
// Initialization
log_with_timestamp("%s %s starting up.", MODES_READSB_VARIANT, MODES_READSB_VERSION);
modesInit();
if (!sdrOpen()) {
cleanup_and_exit(1);
}
if (Modes.net) {
modesInitNet();
}
// init stats:
Modes.stats_current.start = Modes.stats_current.end =
Modes.stats_alltime.start = Modes.stats_alltime.end =
Modes.stats_periodic.start = Modes.stats_periodic.end =
Modes.stats_5min.start = Modes.stats_5min.end =
Modes.stats_15min.start = Modes.stats_15min.end = mstime();
for (j = 0; j < 15; ++j)
Modes.stats_1min[j].start = Modes.stats_1min[j].end = Modes.stats_current.start;
// write initial json files so they're not missing
writeJsonToFile("receiver.json", generateReceiverJson());
writeJsonToFile("stats.json", generateStatsJson());
writeJsonToFile("aircraft.json", generateAircraftJson());
interactiveInit();
/* If the user specifies --net-only, just run in order to serve network
* clients without reading data from the RTL device.
* This rules also in case a local Mode-S Beast is connected via USB.
*/
if (Modes.sdr_type == SDR_NONE || Modes.sdr_type == SDR_MODESBEAST || Modes.sdr_type == SDR_GNS) {
struct timespec slp = {0, 20 * 1000 * 1000};
while (!Modes.exit) {
int64_t sleep_millis = 100;
struct timespec start_time;
start_cpu_timing(&start_time);
backgroundTasks();
int64_t elapsed = end_cpu_timing(&start_time, &Modes.stats_current.background_cpu);
sleep_millis = 100 - elapsed;
sleep_millis = (sleep_millis < 10) ? 10 : sleep_millis;
sleep_millis = (sleep_millis > 100) ? 100 : sleep_millis;
//fprintf(stderr, "%ld\n", sleep_millis);
slp.tv_nsec = sleep_millis * 1000 * 1000;
nanosleep(&slp, NULL);
}
} else {
int watchdogCounter = 10; // about 1 second
// Create the thread that will read the data from the device.
pthread_mutex_lock(&Modes.data_mutex);
pthread_create(&Modes.reader_thread, NULL, readerThreadEntryPoint, NULL);
while (!Modes.exit) {
struct timespec start_time;
if (Modes.first_free_buffer == Modes.first_filled_buffer) {
/* wait for more data.
* we should be getting data every 50-60ms. wait for max 100ms before we give up and do some background work.
* this is fairly aggressive as all our network I/O runs out of the background work!
*/
struct timespec ts;
clock_gettime(CLOCK_REALTIME, &ts);
ts.tv_nsec += 100000000;
normalize_timespec(&ts);
pthread_cond_timedwait(&Modes.data_cond, &Modes.data_mutex, &ts); // This unlocks Modes.data_mutex, and waits for Modes.data_cond
}
// Modes.data_mutex is locked, and possibly we have data.
// copy out reader CPU time and reset it
add_timespecs(&Modes.reader_cpu_accumulator, &Modes.stats_current.reader_cpu, &Modes.stats_current.reader_cpu);
Modes.reader_cpu_accumulator.tv_sec = 0;
Modes.reader_cpu_accumulator.tv_nsec = 0;
if (Modes.first_free_buffer != Modes.first_filled_buffer) {
// FIFO is not empty, process one buffer.
struct mag_buf *buf;
start_cpu_timing(&start_time);
buf = &Modes.mag_buffers[Modes.first_filled_buffer];
// Process data after releasing the lock, so that the capturing
// thread can read data while we perform computationally expensive
// stuff at the same time.
pthread_mutex_unlock(&Modes.data_mutex);
demodulate2400(buf);
if (Modes.mode_ac) {
demodulate2400AC(buf);
}
Modes.stats_current.samples_processed += buf->length;
Modes.stats_current.samples_dropped += buf->dropped;
end_cpu_timing(&start_time, &Modes.stats_current.demod_cpu);
// Mark the buffer we just processed as completed.
pthread_mutex_lock(&Modes.data_mutex);
Modes.first_filled_buffer = (Modes.first_filled_buffer + 1) % MODES_MAG_BUFFERS;
pthread_cond_signal(&Modes.data_cond);
pthread_mutex_unlock(&Modes.data_mutex);
watchdogCounter = 10;
} else {
// Nothing to process this time around.
pthread_mutex_unlock(&Modes.data_mutex);
if (--watchdogCounter <= 0) {
log_with_timestamp("No data received from the SDR for a long time, it may have wedged");
watchdogCounter = 600;
}
}
start_cpu_timing(&start_time);
backgroundTasks();
end_cpu_timing(&start_time, &Modes.stats_current.background_cpu);
pthread_mutex_lock(&Modes.data_mutex);
}
pthread_mutex_unlock(&Modes.data_mutex);
log_with_timestamp("Waiting for receive thread termination");
pthread_join(Modes.reader_thread, NULL); // Wait on reader thread exit
pthread_cond_destroy(&Modes.data_cond); // Thread cleanup - only after the reader thread is dead!
pthread_mutex_destroy(&Modes.data_mutex);
}
// If --stats were given, print statistics
if (Modes.stats) {
display_total_stats();
}
sdrClose();
if (Modes.exit != 1) {
log_with_timestamp("Abnormal exit.");
cleanup_and_exit(1);
}
log_with_timestamp("Normal exit.");
cleanup_and_exit(0);
}
//
//=========================================================================
//