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net_io.c
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net_io.c
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// Part of dump1090, a Mode S message decoder for RTLSDR devices.
//
// net_io.c: network handling.
//
// Copyright (c) 2014-2016 Oliver Jowett <[email protected]>
//
// This file is free software: you may copy, redistribute and/or modify it
// under the terms of the GNU General Public License as published by the
// Free Software Foundation, either version 2 of the License, or (at your
// option) 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
// permission notice:
//
// 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.
#include "dump1090.h"
/* for PRIX64 */
#include <inttypes.h>
#include <assert.h>
#include <stdarg.h>
//
// ============================= Networking =============================
//
// Note: here we disregard any kind of good coding practice in favor of
// extreme simplicity, that is:
//
// 1) We only rely on the kernel buffers for our I/O without any kind of
// user space buffering.
// 2) We don't register any kind of event handler, from time to time a
// function gets called and we accept new connections. All the rest is
// handled via non-blocking I/O and manually polling clients to see if
// they have something new to share with us when reading is needed.
static int handleBeastCommand(struct client *c, char *p);
static int decodeBinMessage(struct client *c, char *p);
static int decodeHexMessage(struct client *c, char *hex);
static int handleFaupCommand(struct client *c, char *hex);
static void moveNetClient(struct client *c, struct net_service *new_service);
static void send_raw_heartbeat(struct net_service *service);
static void send_beast_heartbeat(struct net_service *service);
static void send_sbs_heartbeat(struct net_service *service);
static void send_stratux_heartbeat(struct net_service *service);
static void writeBeastMessage(struct net_writer *writer, uint64_t timestamp, double signalLevel, unsigned char *msg, int msgLen);
static void writeFATSVEvent(struct modesMessage *mm, struct aircraft *a);
static void writeFATSVPositionUpdate(float lat, float lon, float alt);
static void autoset_modeac();
__attribute__ ((format (printf,3,0))) static char *safe_vsnprintf(char *p, char *end, const char *format, va_list ap);
__attribute__ ((format (printf,3,4))) static char *safe_snprintf(char *p, char *end, const char *format, ...);
static const char *jsonEscapeString(const char *str);
//
//=========================================================================
//
// Networking "stack" initialization
//
// Init a service with the given read/write characteristics, return the new service.
// Doesn't arrange for the service to listen or connect
struct net_service *serviceInit(const char *descr, struct net_writer *writer, heartbeat_fn hb, read_mode_t mode, const char *sep, read_fn handler)
{
struct net_service *service;
if (!(service = calloc(sizeof(*service), 1))) {
fprintf(stderr, "Out of memory allocating service %s\n", descr);
exit(1);
}
service->next = Modes.services;
Modes.services = service;
service->descr = descr;
service->listener_count = 0;
service->connections = 0;
service->writer = writer;
service->read_sep = sep;
service->read_mode = mode;
service->read_handler = handler;
if (service->writer) {
if (! (service->writer->data = malloc(MODES_OUT_BUF_SIZE)) ) {
fprintf(stderr, "Out of memory allocating output buffer for service %s\n", descr);
exit(1);
}
service->writer->service = service;
service->writer->dataUsed = 0;
service->writer->lastWrite = mstime();
service->writer->send_heartbeat = hb;
}
return service;
}
// Create a client attached to the given service using the provided socket FD
struct client *createSocketClient(struct net_service *service, int fd)
{
anetSetSendBuffer(Modes.aneterr, fd, (MODES_NET_SNDBUF_SIZE << Modes.net_sndbuf_size));
return createGenericClient(service, fd);
}
// Create a client attached to the given service using the provided FD (might not be a socket!)
struct client *createGenericClient(struct net_service *service, int fd)
{
struct client *c;
anetNonBlock(Modes.aneterr, fd);
if (!(c = (struct client *) malloc(sizeof(*c)))) {
fprintf(stderr, "Out of memory allocating a new %s network client\n", service->descr);
exit(1);
}
c->service = NULL;
c->next = Modes.clients;
c->fd = fd;
c->buflen = 0;
c->modeac_requested = 0;
c->verbatim_requested = (service == Modes.beast_verbatim_service || service == Modes.beast_verbatim_local_service);
c->local_requested = (service == Modes.beast_verbatim_local_service);
Modes.clients = c;
moveNetClient(c, service);
return c;
}
// Initiate an outgoing connection which will use the given service.
// Return the new client or NULL if the connection failed
struct client *serviceConnect(struct net_service *service, char *addr, int port)
{
int s;
char buf[20];
// Bleh.
snprintf(buf, 20, "%d", port);
s = anetTcpConnect(Modes.aneterr, addr, buf);
if (s == ANET_ERR)
return NULL;
return createSocketClient(service, s);
}
// Set up the given service to listen on an address/port.
// _exits_ on failure!
void serviceListen(struct net_service *service, char *bind_addr, char *bind_ports)
{
int *fds = NULL;
int n = 0;
char *p, *end;
char buf[128];
if (service->listener_count > 0) {
fprintf(stderr, "Tried to set up the service %s twice!\n", service->descr);
exit(1);
}
if (!bind_ports || !strcmp(bind_ports, "") || !strcmp(bind_ports, "0"))
return;
p = bind_ports;
while (p && *p) {
int newfds[16];
int nfds, i;
end = strpbrk(p, ", ");
if (!end) {
strncpy(buf, p, sizeof(buf));
buf[sizeof(buf)-1] = 0;
p = NULL;
} else {
size_t len = end - p;
if (len >= sizeof(buf))
len = sizeof(buf) - 1;
memcpy(buf, p, len);
buf[len] = 0;
p = end + 1;
}
nfds = anetTcpServer(Modes.aneterr, buf, bind_addr, newfds, sizeof(newfds));
if (nfds == ANET_ERR) {
fprintf(stderr, "Error opening the listening port %s (%s): %s\n",
buf, service->descr, Modes.aneterr);
exit(1);
}
fds = realloc(fds, (n+nfds) * sizeof(int));
if (!fds) {
fprintf(stderr, "out of memory\n");
exit(1);
}
for (i = 0; i < nfds; ++i) {
anetNonBlock(Modes.aneterr, newfds[i]);
fds[n++] = newfds[i];
}
}
service->listener_count = n;
service->listener_fds = fds;
}
struct net_service *makeBeastInputService(void)
{
return serviceInit("Beast TCP input", NULL, NULL, READ_MODE_BEAST, NULL, decodeBinMessage);
}
struct net_service *makeFatsvOutputService(void)
{
return serviceInit("FATSV TCP output", &Modes.fatsv_out, NULL, READ_MODE_IGNORE, NULL, NULL);
}
struct net_service *makeFaCmdInputService(void)
{
return serviceInit("faup Command input", NULL, NULL, READ_MODE_ASCII, "\n", handleFaupCommand);
}
void modesInitNet(void) {
struct net_service *s;
signal(SIGPIPE, SIG_IGN);
Modes.clients = NULL;
Modes.services = NULL;
// set up listeners
s = serviceInit("Raw TCP output", &Modes.raw_out, send_raw_heartbeat, READ_MODE_IGNORE, NULL, NULL);
serviceListen(s, Modes.net_bind_address, Modes.net_output_raw_ports);
// we maintain three output services for the different option setting combinations we support
// and switch clients between them if they request a change in mode
Modes.beast_cooked_service = serviceInit("Beast TCP output (cooked mode)", &Modes.beast_cooked_out, send_beast_heartbeat, READ_MODE_BEAST_COMMAND, NULL, handleBeastCommand);
Modes.beast_verbatim_service = serviceInit("Beast TCP output (verbatim mode)", &Modes.beast_verbatim_out, send_beast_heartbeat, READ_MODE_BEAST_COMMAND, NULL, handleBeastCommand);
Modes.beast_verbatim_local_service = serviceInit("Beast TCP output (verbatim+local mode)", &Modes.beast_verbatim_local_out, send_beast_heartbeat, READ_MODE_BEAST_COMMAND, NULL, handleBeastCommand);
if (Modes.net_verbatim)
serviceListen(Modes.beast_verbatim_service, Modes.net_bind_address, Modes.net_output_beast_ports);
else
serviceListen(Modes.beast_cooked_service, Modes.net_bind_address, Modes.net_output_beast_ports);
s = serviceInit("Basestation TCP output", &Modes.sbs_out, send_sbs_heartbeat, READ_MODE_IGNORE, NULL, NULL);
serviceListen(s, Modes.net_bind_address, Modes.net_output_sbs_ports);
s = serviceInit("Stratux TCP output", &Modes.stratux_out, send_stratux_heartbeat, READ_MODE_IGNORE, NULL, NULL);
serviceListen(s, Modes.net_bind_address, Modes.net_output_stratux_ports);
s = serviceInit("Raw TCP input", NULL, NULL, READ_MODE_ASCII, "\n", decodeHexMessage);
serviceListen(s, Modes.net_bind_address, Modes.net_input_raw_ports);
s = makeBeastInputService();
serviceListen(s, Modes.net_bind_address, Modes.net_input_beast_ports);
}
//
//=========================================================================
//
// This function gets called from time to time when the decoding thread is
// awakened by new data arriving. This usually happens a few times every second
//
static struct client * modesAcceptClients(void) {
int fd;
struct net_service *s;
for (s = Modes.services; s; s = s->next) {
int i;
for (i = 0; i < s->listener_count; ++i) {
while ((fd = anetTcpAccept(Modes.aneterr, s->listener_fds[i])) >= 0) {
createSocketClient(s, fd);
}
}
}
return Modes.clients;
}
//
//=========================================================================
//
// On error free the client, collect the structure, adjust maxfd if needed.
//
static void modesCloseClient(struct client *c) {
if (!c->service) {
fprintf(stderr, "warning: double close of net client\n");
return;
}
// Clean up, but defer removing from the list until modesNetCleanup().
// This is because there may be stackframes still pointing at this
// client (unpredictably: reading from client A may cause client B to
// be freed)
close(c->fd);
c->service->connections--;
// mark it as inactive and ready to be freed
c->fd = -1;
c->service = NULL;
c->modeac_requested = 0;
autoset_modeac();
}
//
//=========================================================================
//
// Send the write buffer for the specified writer to all connected clients
//
static void flushWrites(struct net_writer *writer) {
struct client *c;
for (c = Modes.clients; c; c = c->next) {
if (!c->service)
continue;
if (c->service == writer->service) {
#ifndef _WIN32
int nwritten = write(c->fd, writer->data, writer->dataUsed);
#else
int nwritten = send(c->fd, writer->data, writer->dataUsed, 0 );
#endif
if (nwritten != writer->dataUsed) {
modesCloseClient(c);
}
}
}
writer->dataUsed = 0;
writer->lastWrite = mstime();
}
// Prepare to write up to 'len' bytes to the given net_writer.
// Returns a pointer to write to, or NULL to skip this write.
static void *prepareWrite(struct net_writer *writer, int len) {
if (!writer ||
!writer->service ||
!writer->service->connections ||
!writer->data)
return NULL;
if (len > MODES_OUT_BUF_SIZE)
return NULL;
if (writer->dataUsed + len >= MODES_OUT_BUF_SIZE) {
// Flush now to free some space
flushWrites(writer);
}
return writer->data + writer->dataUsed;
}
// Complete a write previously begun by prepareWrite.
// endptr should point one byte past the last byte written
// to the buffer returned from prepareWrite.
static void completeWrite(struct net_writer *writer, void *endptr) {
writer->dataUsed = endptr - writer->data;
if (writer->dataUsed >= Modes.net_output_flush_size) {
flushWrites(writer);
}
}
//
//=========================================================================
//
// Write raw output in Beast Binary format with Timestamp to TCP clients
//
static void modesSendBeastVerbatimOutput(struct modesMessage *mm) {
// Don't forward mlat messages, unless --forward-mlat is set
if (mm->source == SOURCE_MLAT && !Modes.forward_mlat)
return;
// Do verbatim output for all messages
writeBeastMessage(&Modes.beast_verbatim_out, mm->timestampMsg, mm->signalLevel, mm->verbatim, mm->msgbits / 8);
}
static void modesSendBeastVerbatimLocalOutput(struct modesMessage *mm) {
// Never forward remote messages
if (mm->remote)
return;
// Do verbatim output for all messages
writeBeastMessage(&Modes.beast_verbatim_local_out, mm->timestampMsg, mm->signalLevel, mm->verbatim, mm->msgbits / 8);
}
static void modesSendBeastCookedOutput(struct modesMessage *mm, struct aircraft *a) {
// Don't forward mlat messages, unless --forward-mlat is set
if (mm->source == SOURCE_MLAT && !Modes.forward_mlat)
return;
// Filter some messages from cooked output
// Don't forward 2-bit-corrected messages
if (mm->correctedbits >= 2)
return;
// Don't forward unreliable messages
if ((a && !a->reliable) && !mm->reliable)
return;
writeBeastMessage(&Modes.beast_cooked_out, mm->timestampMsg, mm->signalLevel, mm->msg, mm->msgbits / 8);
}
static void writeBeastMessage(struct net_writer *writer, uint64_t timestamp, double signalLevel, unsigned char *msg, int msgLen) {
char ch;
int j;
int sig;
char *p = prepareWrite(writer, 2 + 2 * (7 + msgLen));
if (!p)
return;
*p++ = 0x1a;
if (msgLen == MODES_SHORT_MSG_BYTES)
{*p++ = '2';}
else if (msgLen == MODES_LONG_MSG_BYTES)
{*p++ = '3';}
else if (msgLen == MODEAC_MSG_BYTES)
{*p++ = '1';}
else
{return;}
/* timestamp, big-endian */
*p++ = (ch = (timestamp >> 40));
if (0x1A == ch) {*p++ = ch; }
*p++ = (ch = (timestamp >> 32));
if (0x1A == ch) {*p++ = ch; }
*p++ = (ch = (timestamp >> 24));
if (0x1A == ch) {*p++ = ch; }
*p++ = (ch = (timestamp >> 16));
if (0x1A == ch) {*p++ = ch; }
*p++ = (ch = (timestamp >> 8));
if (0x1A == ch) {*p++ = ch; }
*p++ = (ch = (timestamp));
if (0x1A == ch) {*p++ = ch; }
sig = round(sqrt(signalLevel) * 255);
if (signalLevel > 0 && sig < 1)
sig = 1;
if (sig > 255)
sig = 255;
*p++ = ch = (char)sig;
if (0x1A == ch) {*p++ = ch; }
for (j = 0; j < msgLen; j++) {
*p++ = (ch = msg[j]);
if (0x1A == ch) {*p++ = ch; }
}
completeWrite(writer, p);
}
static void send_beast_heartbeat(struct net_service *service)
{
static char heartbeat_message[] = { 0x1a, '1', 0, 0, 0, 0, 0, 0, 0, 0, 0 };
char *data;
if (!service->writer)
return;
data = prepareWrite(service->writer, sizeof(heartbeat_message));
if (!data)
return;
memcpy(data, heartbeat_message, sizeof(heartbeat_message));
completeWrite(service->writer, data + sizeof(heartbeat_message));
}
//
//=========================================================================
//
// Write raw output to TCP clients
//
static void modesSendRawOutput(struct modesMessage *mm, struct aircraft *a) {
// Don't ever forward mlat messages via raw output.
if (mm->source == SOURCE_MLAT)
return;
// Filter some messages
// Don't forward 2-bit-corrected messages
if (mm->correctedbits >= 2)
return;
// Don't forward unreliable messages
if ((a && !a->reliable) && !mm->reliable)
return;
int msgLen = mm->msgbits / 8;
char *p = prepareWrite(&Modes.raw_out, msgLen*2 + 15);
if (!p)
return;
if (Modes.mlat && mm->timestampMsg) {
/* timestamp, big-endian */
sprintf(p, "@%012" PRIX64,
mm->timestampMsg);
p += 13;
} else
*p++ = '*';
unsigned char *msg = mm->msg;
for (int j = 0; j < msgLen; j++) {
sprintf(p, "%02X", msg[j]);
p += 2;
}
*p++ = ';';
*p++ = '\n';
completeWrite(&Modes.raw_out, p);
}
static void send_raw_heartbeat(struct net_service *service)
{
static char *heartbeat_message = "*0000;\n";
char *data;
int len = strlen(heartbeat_message);
if (!service->writer)
return;
data = prepareWrite(service->writer, len);
if (!data)
return;
memcpy(data, heartbeat_message, len);
completeWrite(service->writer, data + len);
}
//
//=========================================================================
//
// Write SBS output to TCP clients
//
static void modesSendSBSOutput(struct modesMessage *mm, struct aircraft *a) {
char *p;
struct timespec now;
struct tm stTime_receive, stTime_now;
int msgType;
// We require a tracked aircraft for SBS output
if (!a)
return;
// Don't ever forward 2-bit-corrected messages via SBS output.
if (mm->correctedbits >= 2)
return;
// Don't ever forward mlat messages via SBS output.
if (mm->source == SOURCE_MLAT)
return;
// Don't ever send unreliable messages via SBS output
if (!mm->reliable && !a->reliable)
return;
// For now, suppress non-ICAO addresses
if (mm->addr & MODES_NON_ICAO_ADDRESS)
return;
p = prepareWrite(&Modes.sbs_out, 200);
if (!p)
return;
//
// SBS BS style output checked against the following reference
// http://www.homepages.mcb.net/bones/SBS/Article/Barebones42_Socket_Data.htm - seems comprehensive
//
// Decide on the basic SBS Message Type
switch (mm->msgtype) {
case 4:
case 20:
msgType = 5;
break;
break;
case 5:
case 21:
msgType = 6;
break;
case 0:
case 16:
msgType = 7;
break;
case 11:
msgType = 8;
break;
case 17:
case 18:
if (mm->metype >= 1 && mm->metype <= 4) {
msgType = 1;
} else if (mm->metype >= 5 && mm->metype <= 8) {
msgType = 2;
} else if (mm->metype >= 9 && mm->metype <= 18) {
msgType = 3;
} else if (mm->metype == 19) {
msgType = 4;
} else {
return;
}
break;
default:
return;
}
// Fields 1 to 6 : SBS message type and ICAO address of the aircraft and some other stuff
p += sprintf(p, "MSG,%d,1,1,%06X,1,", msgType, mm->addr);
// Find current system time
clock_gettime(CLOCK_REALTIME, &now);
localtime_r(&now.tv_sec, &stTime_now);
// Find message reception time
time_t received = (time_t) (mm->sysTimestampMsg / 1000);
localtime_r(&received, &stTime_receive);
// Fields 7 & 8 are the message reception time and date
p += sprintf(p, "%04d/%02d/%02d,", (stTime_receive.tm_year+1900),(stTime_receive.tm_mon+1), stTime_receive.tm_mday);
p += sprintf(p, "%02d:%02d:%02d.%03u,", stTime_receive.tm_hour, stTime_receive.tm_min, stTime_receive.tm_sec, (unsigned) (mm->sysTimestampMsg % 1000));
// Fields 9 & 10 are the current time and date
p += sprintf(p, "%04d/%02d/%02d,", (stTime_now.tm_year+1900),(stTime_now.tm_mon+1), stTime_now.tm_mday);
p += sprintf(p, "%02d:%02d:%02d.%03u", stTime_now.tm_hour, stTime_now.tm_min, stTime_now.tm_sec, (unsigned) (now.tv_nsec / 1000000U));
// Field 11 is the callsign (if we have it)
if (mm->callsign_valid) {p += sprintf(p, ",%s", mm->callsign);}
else {p += sprintf(p, ",");}
// Field 12 is the altitude (if we have it)
if (Modes.use_gnss) {
if (mm->altitude_geom_valid) {
p += sprintf(p, ",%dH", mm->altitude_geom);
} else if (mm->altitude_baro_valid && trackDataValid(&a->geom_delta_valid)) {
p += sprintf(p, ",%dH", mm->altitude_baro + a->geom_delta);
} else if (mm->altitude_baro_valid) {
p += sprintf(p, ",%d", mm->altitude_baro);
} else {
p += sprintf(p, ",");
}
} else {
if (mm->altitude_baro_valid) {
p += sprintf(p, ",%d", mm->altitude_baro);
} else if (mm->altitude_geom_valid && trackDataValid(&a->geom_delta_valid)) {
p += sprintf(p, ",%d", mm->altitude_geom - a->geom_delta);
} else {
p += sprintf(p, ",");
}
}
// Field 13 is the ground Speed (if we have it)
if (mm->gs_valid) {
p += sprintf(p, ",%.0f", mm->gs.selected);
} else {
p += sprintf(p, ",");
}
// Field 14 is the ground Heading (if we have it)
if (mm->heading_valid && mm->heading_type == HEADING_GROUND_TRACK) {
p += sprintf(p, ",%.0f", mm->heading);
} else {
p += sprintf(p, ",");
}
// Fields 15 and 16 are the Lat/Lon (if we have it)
if (mm->cpr_decoded) {
p += sprintf(p, ",%1.5f,%1.5f", mm->decoded_lat, mm->decoded_lon);
} else {
p += sprintf(p, ",,");
}
// Field 17 is the VerticalRate (if we have it)
if (Modes.use_gnss) {
if (mm->geom_rate_valid) {
p += sprintf(p, ",%dH", mm->geom_rate);
} else if (mm->baro_rate_valid) {
p += sprintf(p, ",%d", mm->baro_rate);
} else {
p += sprintf(p, ",");
}
} else {
if (mm->baro_rate_valid) {
p += sprintf(p, ",%d", mm->baro_rate);
} else if (mm->geom_rate_valid) {
p += sprintf(p, ",%d", mm->geom_rate);
} else {
p += sprintf(p, ",");
}
}
// Field 18 is the Squawk (if we have it)
if (mm->squawk_valid) {
p += sprintf(p, ",%04x", mm->squawk);
} else {
p += sprintf(p, ",");
}
// Field 19 is the Squawk Changing Alert flag (if we have it)
if (mm->alert_valid) {
if (mm->alert) {
p += sprintf(p, ",-1");
} else {
p += sprintf(p, ",0");
}
} else {
p += sprintf(p, ",");
}
// Field 20 is the Squawk Emergency flag (if we have it)
if (mm->squawk_valid) {
if ((mm->squawk == 0x7500) || (mm->squawk == 0x7600) || (mm->squawk == 0x7700)) {
p += sprintf(p, ",-1");
} else {
p += sprintf(p, ",0");
}
} else {
p += sprintf(p, ",");
}
// Field 21 is the Squawk Ident flag (if we have it)
if (mm->spi_valid) {
if (mm->spi) {
p += sprintf(p, ",-1");
} else {
p += sprintf(p, ",0");
}
} else {
p += sprintf(p, ",");
}
// Field 22 is the OnTheGround flag (if we have it)
switch (mm->airground) {
case AG_GROUND:
p += sprintf(p, ",-1");
break;
case AG_AIRBORNE:
p += sprintf(p, ",0");
break;
default:
p += sprintf(p, ",");
break;
}
p += sprintf(p, "\r\n");
completeWrite(&Modes.sbs_out, p);
}
static void send_sbs_heartbeat(struct net_service *service)
{
static char *heartbeat_message = "\r\n"; // is there a better one?
char *data;
int len = strlen(heartbeat_message);
if (!service->writer)
return;
data = prepareWrite(service->writer, len);
if (!data)
return;
memcpy(data, heartbeat_message, len);
completeWrite(service->writer, data + len);
}
//
//=========================================================================
//
// Write Stratux output to TCP clients
//
#define STRATUX_MAX_PACKET_SIZE 1000
static void modesSendStratuxOutput(struct modesMessage *mm, struct aircraft *a) {
char *p;
// We require a tracked aircraft for Stratux output
if (!a)
return;
// Don't ever forward 2-bit-corrected messages via Stratux output.
if (mm->correctedbits >= 2)
return;
// Don't ever send unreliable messages via Stratux output
if (!mm->reliable && !a->reliable)
return;
p = prepareWrite(&Modes.stratux_out, STRATUX_MAX_PACKET_SIZE); // larger buffer size needed vs SBS
if (!p)
return;
char *end = p + STRATUX_MAX_PACKET_SIZE;
// Begin populating the traffic.go fields.
// ICAO address, Mode S message types, and signal level
int cacf = 0; // overload the JSON "CA" field to report CA (DF11 or DF17), CF (DF18), or zero (all other DF types)
if ((mm->msgtype == 11) || (mm->msgtype == 17)) {
cacf = mm->CA;
} else if (mm->msgtype == 18) {
cacf = mm->CF;
}
const char* is_mlat_str = "false";
if (mm->source == SOURCE_MLAT)
is_mlat_str = "true";
p = safe_snprintf(p, end,
"{\"Icao_addr\":%d,"
"\"DF\":%d,\"CA\":%d,"
"\"TypeCode\":%d,"
"\"SubtypeCode\":%d,"
"\"SignalLevel\":%f,"
"\"Gain\":%f,"
"\"IsMlat\":%s,",
mm->addr,
mm->msgtype, cacf,
mm->metype,
mm->mesub,
mm->signalLevel, // what precision and range is needed for RSSI?
sdrGetGainDb(sdrGetGain()),
is_mlat_str);
//// callsign
if (mm->callsign_valid)
p = safe_snprintf(p, end, "\"Tail\":\"%s\",", jsonEscapeString(mm->callsign));
else
p = safe_snprintf(p, end, "\"Tail\":null,");
//// altitude & gnss
bool alt_is_geom;
if (mm->altitude_baro_valid) {
p = safe_snprintf(p, end, "\"Alt\":%d,",mm->altitude_baro);
alt_is_geom = false;
} else if (mm->altitude_geom_valid) {
p = safe_snprintf(p, end, "\"Alt\":%d,",mm->altitude_geom);
alt_is_geom = true;
} else {
p = safe_snprintf(p, end, "\"Alt\":null,");
alt_is_geom = false;
}
// altitude source
if (alt_is_geom)
p = safe_snprintf(p, end, "\"AltIsGNSS\":true,");
else
p = safe_snprintf(p, end, "\"AltIsGNSS\":false,");
// GNSS alt. delta From baro alt.
if (trackDataValid(&a->geom_delta_valid))
p = safe_snprintf(p, end, "\"GnssDiffFromBaroAlt\":%d,",a->geom_delta);
else
p = safe_snprintf(p, end, "\"GnssDiffFromBaroAlt\":null,");
////
//// ground speed and track
if (mm->gs_valid)
p = safe_snprintf(p, end, "\"Speed_valid\":true,\"Speed\":%.0f,", mm->gs.selected);
else
p = safe_snprintf(p, end, "\"Speed_valid\":false,\"Speed\":null,");
//// ground heading
if (mm->heading_valid && mm->heading_type == HEADING_GROUND_TRACK)
p = safe_snprintf(p, end, "\"Track\":%.0f,", mm->heading);
else
p = safe_snprintf(p, end, "\"Track\":null,");
//// position
if (mm->cpr_decoded)
p = safe_snprintf(p, end, "\"Lat\":%.6f,\"Lng\":%.6f,\"Position_valid\":true,",
mm->decoded_lat, mm->decoded_lon);
else
p = safe_snprintf(p, end, "\"Lat\":null,\"Lng\":null,\"Position_valid\":false,");
//// vrate (use barometric if possible)
if (mm->baro_rate_valid)
p = safe_snprintf(p, end, "\"Vvel\":%d,", mm->baro_rate);
else if (mm->geom_rate_valid)
p = safe_snprintf(p, end, "\"Vvel\":%d,", mm->geom_rate);
else
p = safe_snprintf(p, end, "\"Vvel\":null,");
//// squawk
if (mm->squawk_valid)
p = safe_snprintf(p, end, "\"Squawk\":%x,", mm->squawk);
else
p = safe_snprintf(p, end, "\"Squawk\":null,");
// TODO: squawk changing alert support in stratux?
// TODO: squawk emergency flag?
// TODO: squawk ident flag?
// airground
switch (mm->airground) {
case AG_GROUND:
p = safe_snprintf(p, end, "\"OnGround\":true,");
break;
case AG_AIRBORNE:
p = safe_snprintf(p, end, "\"OnGround\":false,");
break;
default:
p = safe_snprintf(p, end, "\"OnGround\":null,");
}
// navigation accuracy category - position
if (mm->accuracy.nac_p_valid) {
p = safe_snprintf(p, end, "\"NACp\":%d,", mm->accuracy.nac_p);
} else {
p = safe_snprintf(p, end, "\"NACp\":null,");
}
// emitter type
int emitter = -1;
if ((mm->msgtype == 17) || (mm->msgtype == 18)) {
switch (mm->metype) {
case 1:
emitter = ((mm->mesub) | 0x18);
break;
case 2:
emitter = ((mm->mesub) | 0x10);
break;
case 3:
emitter = ((mm->mesub) | 0x08);
break;
case 4:
emitter = (mm->mesub);
break;
}
}
if (emitter >= 0)
p = safe_snprintf(p, end, "\"Emitter_category\":%d,", emitter);
else
p = safe_snprintf(p, end, "\"Emitter_category\":null,");
// Time message received (based on system clock). Format is 2016-02-20T06:35:43.155Z
struct tm stTime_receive;
time_t received = (time_t) (mm->sysTimestampMsg / 1000);
gmtime_r(&received, &stTime_receive);
p = safe_snprintf(p, end, "\"Timestamp\":\"%04d-%02d-%02dT%02d:%02d:%02d.%03dZ\"",
(stTime_receive.tm_year+1900),(stTime_receive.tm_mon+1),
stTime_receive.tm_mday, stTime_receive.tm_hour,
stTime_receive.tm_min, stTime_receive.tm_sec,
(unsigned)(mm->sysTimestampMsg % 1000));
p = safe_snprintf(p, end, "}\r\n");
if (p < end)
completeWrite(&Modes.stratux_out, p);
else
fprintf(stderr, "stratux: output too large (max %d, overran by %d)\n", STRATUX_MAX_PACKET_SIZE, (int) (p - end));
}
static void send_stratux_heartbeat(struct net_service *service)
{
static char *heartbeat_message = "{\"Icao_addr\":134217727}\r\n"; // 0x07FFFFFF. Overflows 24-bit ICAO to signal invalic #, need to validate that this won't cause problems with traffic.go
char *data;
int len = strlen(heartbeat_message);
if (!service->writer)