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comm_b.c
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comm_b.c
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// Part of dump1090, a Mode S message decoder for RTLSDR devices.
//
// comm_b.c: Comm-B message decoding
//
// Copyright (c) 2017 FlightAware, LLC
// Copyright (c) 2017 Oliver Jowett <oliver@mutability.co.uk>
//
// 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/>.
#include "dump1090.h"
#include "ais_charset.h"
typedef int (*CommBDecoderFn)(struct modesMessage *,bool);
static int decodeEmptyResponse(struct modesMessage *mm, bool store);
static int decodeBDS10(struct modesMessage *mm, bool store);
static int decodeBDS17(struct modesMessage *mm, bool store);
static int decodeBDS20(struct modesMessage *mm, bool store);
static int decodeBDS30(struct modesMessage *mm, bool store);
static int decodeBDS40(struct modesMessage *mm, bool store);
static int decodeBDS44(struct modesMessage *mm, bool store);
static int decodeBDS50(struct modesMessage *mm, bool store);
static int decodeBDS60(struct modesMessage *mm, bool store);
static int decodeBDS05(struct modesMessage *mm, bool store);
static CommBDecoderFn comm_b_decoders[] = {
&decodeEmptyResponse,
&decodeBDS10,
&decodeBDS20,
&decodeBDS30,
&decodeBDS17,
&decodeBDS40,
&decodeBDS50,
&decodeBDS60,
&decodeBDS44,
&decodeBDS05
};
void decodeCommB(struct modesMessage *mm)
{
// If DR or UM are set, this message is _probably_ noise
// as nothing really seems to use the multisite broadcast stuff?
// Also skip anything that had errors corrected
if (mm->DR != 0 || mm->UM != 0 || mm->correctedbits > 0) {
mm->commb_format = COMMB_NOT_DECODED;
return;
}
// This is a bit hairy as we don't know what the requested register was
int bestScore = 0;
CommBDecoderFn bestDecoder = NULL;
int ambiguous = 0;
for (unsigned i = 0; i < (sizeof(comm_b_decoders) / sizeof(comm_b_decoders[0])); ++i) {
int score = comm_b_decoders[i](mm, false);
if (score > bestScore) {
bestScore = score;
bestDecoder = comm_b_decoders[i];
ambiguous = 0;
} else if (score == bestScore) {
ambiguous = 1;
}
}
if (bestDecoder) {
if (ambiguous) {
mm->commb_format = COMMB_AMBIGUOUS;
} else {
// decode it
bestDecoder(mm, true);
}
} else {
mm->commb_format = COMMB_UNKNOWN;
}
}
static int decodeEmptyResponse(struct modesMessage *mm, bool store)
{
// 00000000000000 is a common response. Ignore it.
//
// Also, it's common to see responses that look like this:
// 40000000000000
// 50000000000000
// 60000000000000
// typically in grouped bursts (one of each message) from
// the same aircraft.
//
// I speculate that these are response to interrogations for
// BDS 4,0 5,0 and 6,0 respectively where the transponder
// doesn't support the register or has no data loaded for it.
// Treat them like empty responses.
switch (mm->MB[0]) {
case 0x00:
case 0x40:
case 0x50:
case 0x60:
break;
default:
return 0;
}
for (unsigned i = 1; i < 7; ++i) {
if (mm->MB[i] != 0) {
return 0;
}
}
if (store) {
mm->commb_format = COMMB_EMPTY_RESPONSE;
}
return 56;
}
// BDS1,0 Datalink capabilities
static int decodeBDS10(struct modesMessage *mm, bool store)
{
unsigned char *msg = mm->MB;
// BDS identifier
if (msg[0] != 0x10) {
return 0;
}
// Reserved bits
if (getbits(msg, 10, 14) != 0) {
return 0;
}
// Looks plausible.
if (store) {
mm->commb_format = COMMB_DATALINK_CAPS;
}
return 56;
}
// BDS1,7 Common usage GICB capability report
static int decodeBDS17(struct modesMessage *mm, bool store)
{
unsigned char *msg = mm->MB;
// reserved bits
if (getbits(msg, 25, 56) != 0) {
return 0;
}
int score = 0;
if (getbit(msg, 7)) {
score += 1; // 2,0 aircraft identification
} else {
// BDS2,0 is on almost everything
score -= 2;
}
// unlikely bits
if (getbit(msg, 10)) { // 4,1 next waypoint identifier
score -= 2;
}
if (getbit(msg, 11)) { // 4,2 next waypoint position
score -= 2;
}
if (getbit(msg, 12)) { // 4,3 next waypoint information
score -= 2;
}
if (getbit(msg, 13)) { // 4,4 meterological routine report
score -= 1;
}
if (getbit(msg, 14)) { // 4,4 meterological hazard report
score -= 1;
}
if (getbit(msg, 20)) { // 5,4 waypoint 1
score -= 2;
}
if (getbit(msg, 21)) { // 5,5 waypoint 2
score -= 2;
}
if (getbit(msg, 22)) { // 5,6 waypoint 3
score -= 2;
}
if (getbit(msg, 1) && getbit(msg, 2) && getbit(msg, 3) && getbit(msg, 4) && getbit(msg, 5)) {
// looks like ES capable
score += 5;
if (getbit(msg, 6)) {
// ES EDI
score += 1;
}
} else if (!getbit(msg, 1) && !getbit(msg, 2) && !getbit(msg, 3) && !getbit(msg, 4) && !getbit(msg, 5) && !getbit(msg, 6)) {
// not ES capable
score += 1;
} else if (!getbit(msg, 1) && !getbit(msg, 2) && getbit(msg, 3) && getbit(msg, 4) && getbit(msg, 5)) {
// ES with no position data
score += 3;
} else {
// other combinations, unlikely
score -= 12;
}
if (getbit(msg, 16) && getbit(msg, 24)) {
// track/turn, heading/speed
score += 2;
if (getbit(msg, 9)) {
// vertical intent
score += 1;
}
} else if (!getbit(msg, 16) && !getbit(msg, 24) && !getbit(msg, 9)) {
// neither
score += 1;
} else {
// unlikely
score -= 6;
}
if (store) {
mm->commb_format = COMMB_GICB_CAPS;
}
return score;
}
// BDS2,0 Aircraft identification
static int decodeBDS20(struct modesMessage *mm, bool store)
{
char callsign[9];
unsigned char *msg = mm->MB;
// BDS identifier
if (msg[0] != 0x20) {
return 0;
}
callsign[0] = ais_charset[getbits(msg, 9, 14)];
callsign[1] = ais_charset[getbits(msg, 15, 20)];
callsign[2] = ais_charset[getbits(msg, 21, 26)];
callsign[3] = ais_charset[getbits(msg, 27, 32)];
callsign[4] = ais_charset[getbits(msg, 33, 38)];
callsign[5] = ais_charset[getbits(msg, 39, 44)];
callsign[6] = ais_charset[getbits(msg, 45, 50)];
callsign[7] = ais_charset[getbits(msg, 51, 56)];
callsign[8] = 0;
// score based on number of valid characters
int score = 8;
int valid = 1;
for (unsigned i = 0; i < 8; ++i) {
if ((callsign[i] >= 'A' && callsign[i] <= 'Z') || (callsign[i] >= '0' && callsign[i] <= '9') || callsign[i] == ' ') {
score += 6;
} else if (callsign[i] == '@') {
// Padding (sometimes we get @@@@@@@@, i.e. BDS2,0 with all zeros - we do want to accept this as a BDS2,0 but not actually use the callsign)
valid = 0;
} else {
// Invalid
return 0;
}
}
if (store) {
mm->commb_format = COMMB_AIRCRAFT_IDENT;
if (valid) {
memcpy(mm->callsign, callsign, sizeof(mm->callsign));
mm->callsign_valid = 1;
}
}
return score;
}
// BDS3,0 ACAS RA
static int decodeBDS30(struct modesMessage *mm, bool store)
{
unsigned char *msg = mm->MB;
// BDS identifier
if (msg[0] != 0x30) {
return 0;
}
if (store) {
mm->commb_format = COMMB_ACAS_RA;
}
// just accept it.
return 56;
}
// BDS4,0 Selected vertical intention
static int decodeBDS40(struct modesMessage *mm, bool store)
{
unsigned char *msg = mm->MB;
unsigned mcp_valid = getbit(msg, 1);
unsigned mcp_raw = getbits(msg, 2, 13);
unsigned fms_valid = getbit(msg, 14);
unsigned fms_raw = getbits(msg, 15, 26);
unsigned baro_valid = getbit(msg, 27);
unsigned baro_raw = getbits(msg, 28, 39);
unsigned reserved_1 = getbits(msg, 40, 47);
unsigned mode_valid = getbit(msg, 48);
unsigned mode_raw = getbits(msg, 49, 51);
unsigned reserved_2 = getbits(msg, 52, 53);
unsigned source_valid = getbit(msg, 54);
unsigned source_raw = getbits(msg, 55, 56);
if (!mcp_valid && !fms_valid && !baro_valid && !mode_valid && !source_valid) {
return 0;
}
int score = 0;
unsigned mcp_alt = 0;
if (mcp_valid && mcp_raw != 0) {
mcp_alt = mcp_raw * 16;
if (mcp_alt >= 1000 && mcp_alt <= 50000) {
score += 13;
} else {
// unlikely altitude
return 0;
}
} else if (!mcp_valid && mcp_raw == 0) {
score += 1;
} else {
return 0;
}
unsigned fms_alt = 0;
if (fms_valid && fms_raw != 0) {
fms_alt = fms_raw * 16;
if (fms_alt >= 1000 && fms_alt <= 50000) {
score += 13;
} else {
// unlikely altitude
return 0;
}
} else if (!fms_valid && fms_raw == 0) {
score += 1;
} else {
return 0;
}
float baro_setting = 0;
if (baro_valid && baro_raw != 0) {
baro_setting = 800 + baro_raw * 0.1;
if (baro_setting >= 900 && baro_setting <= 1100) {
score += 13;
} else {
// unlikely pressure setting
return 0;
}
} else if (!baro_valid && baro_raw == 0) {
score += 1;
} else {
return 0;
}
if (reserved_1 != 0) {
return 0;
}
if (mode_valid) {
score += 4;
} else if (!mode_valid && mode_raw == 0) {
score += 1;
} else {
return 0;
}
if (reserved_2 != 0) {
return 0;
}
if (source_valid) {
score += 3;
} else if (!source_valid && source_raw == 0) {
score += 1;
} else {
return 0;
}
// small penalty for inconsistent data
if (mcp_valid && fms_valid && mcp_alt != fms_alt) {
score -= 4;
}
if (mcp_valid) {
unsigned remainder = mcp_alt % 500;
if (!(remainder < 16 || remainder > 484)) {
// mcp altitude is not a multiple of 500
score -= 4;
}
}
if (fms_valid) {
unsigned remainder = fms_alt % 500;
if (!(remainder < 16 || remainder > 484)) {
// fms altitude is not a multiple of 500
score -= 4;
}
}
if (store) {
mm->commb_format = COMMB_VERTICAL_INTENT;
if (mcp_valid) {
mm->nav.mcp_altitude_valid = 1;
mm->nav.mcp_altitude = mcp_alt;
}
if (fms_valid) {
mm->nav.fms_altitude_valid = 1;
mm->nav.fms_altitude = fms_alt;
}
if (baro_valid) {
mm->nav.qnh_valid = 1;
mm->nav.qnh = baro_setting;
}
if (mode_valid) {
mm->nav.modes_valid = 1;
mm->nav.modes =
((mode_raw & 4) ? NAV_MODE_VNAV : 0) |
((mode_raw & 2) ? NAV_MODE_ALT_HOLD : 0) |
((mode_raw & 1) ? NAV_MODE_APPROACH : 0);
}
if (source_valid) {
switch (source_raw) {
case 0:
mm->nav.altitude_source = NAV_ALT_UNKNOWN;
break;
case 1:
mm->nav.altitude_source = NAV_ALT_AIRCRAFT;
break;
case 2:
mm->nav.altitude_source = NAV_ALT_MCP;
break;
case 3:
mm->nav.altitude_source = NAV_ALT_FMS;
break;
default:
mm->nav.altitude_source = NAV_ALT_INVALID;
break;
}
} else {
mm->nav.altitude_source = NAV_ALT_INVALID;
}
}
return score;
}
// BDS5,0 Track and turn report
static int decodeBDS50(struct modesMessage *mm, bool store)
{
unsigned char *msg = mm->MB;
unsigned roll_valid = getbit(msg, 1);
unsigned roll_sign = getbit(msg, 2);
unsigned roll_raw = getbits(msg, 3, 11);
unsigned track_valid = getbit(msg, 12);
unsigned track_sign = getbit(msg, 13);
unsigned track_raw = getbits(msg, 14, 23);
unsigned gs_valid = getbit(msg, 24);
unsigned gs_raw = getbits(msg, 25, 34);
unsigned track_rate_valid = getbit(msg, 35);
unsigned track_rate_sign = getbit(msg, 36);
unsigned track_rate_raw = getbits(msg, 37, 45);
unsigned tas_valid = getbit(msg, 46);
unsigned tas_raw = getbits(msg, 47, 56);
if (!roll_valid || !track_valid || !gs_valid || !tas_valid) {
return 0;
}
int score = 0;
float roll = 0;
if (roll_valid) {
roll = roll_raw * 45.0 / 256.0;
if (roll_sign) {
roll -= 90.0;
}
if (roll >= -40 && roll < 40) {
score += 11;
} else {
return 0;
}
} else if (!roll_valid && roll_raw == 0 && !roll_sign) {
score += 1;
} else {
return 0;
}
float track = 0;
if (track_valid) {
score += 12;
track = track_raw * 90.0 / 512.0;
if (track_sign) {
track += 180.0;
}
} else if (!track_valid && track_raw == 0 && !track_sign) {
score += 1;
} else {
return 0;
}
unsigned gs = 0;
if (gs_valid && gs_raw != 0) {
gs = gs_raw * 2;
if (gs >= 50 && gs <= 700) {
score += 11;
} else {
return 0;
}
} else if (!gs_valid && gs_raw == 0) {
score += 1;
} else {
return 0;
}
float track_rate = 0;
if (track_rate_valid) {
track_rate = track_rate_raw * 8.0 / 256.0;
if (track_rate_sign) {
track_rate -= 16;
}
if (track_rate >= -10.0 && track_rate <= 10.0) {
score += 11;
} else {
return 0;
}
} else if (!track_rate_valid && track_rate_raw == 0 && !track_rate_sign) {
score += 1;
} else {
return 0;
}
unsigned tas = 0;
if (tas_valid && tas_raw != 0) {
tas = tas_raw * 2;
if (tas >= 50 && tas <= 700) {
score += 11;
} else {
return 0;
}
} else if (!tas_valid && tas_raw == 0) {
score += 1;
} else {
return 0;
}
// small penalty for inconsistent data
if (gs_valid && tas_valid) {
int delta = abs((int)gs_valid - (int)tas_valid);
if (delta > 150) {
score -= 6;
}
}
// compute the theoretical turn rate and compare to track angle rate
if (roll_valid && tas_valid && tas > 0 && track_rate_valid) {
double turn_rate = 68625 * tan(roll * M_PI / 180.0) / (tas * 20 * M_PI);
double delta = fabs(turn_rate - track_rate);
if (delta > 2.0) {
score -= 6;
}
}
if (store) {
mm->commb_format = COMMB_TRACK_TURN;
if (roll_valid) {
mm->roll_valid = 1;
mm->roll = roll;
}
if (track_valid) {
mm->heading_valid = 1;
mm->heading = track;
mm->heading_type = HEADING_GROUND_TRACK;
}
if (gs_valid) {
mm->gs_valid = 1;
mm->gs.v0 = mm->gs.v2 = mm->gs.selected = gs;
}
if (track_rate_valid) {
mm->track_rate_valid = 1;
mm->track_rate = track_rate;
}
if (tas_valid) {
mm->tas_valid = 1;
mm->tas = tas;
}
}
return score;
}
// BDS6,0 Heading and speed report
static int decodeBDS60(struct modesMessage *mm, bool store)
{
unsigned char *msg = mm->MB;
unsigned heading_valid = getbit(msg, 1);
unsigned heading_sign = getbit(msg, 2);
unsigned heading_raw = getbits(msg, 3, 12);
unsigned ias_valid = getbit(msg, 13);
unsigned ias_raw = getbits(msg, 14, 23);
unsigned mach_valid = getbit(msg, 24);
unsigned mach_raw = getbits(msg, 25, 34);
unsigned baro_rate_valid = getbit(msg, 35);
unsigned baro_rate_sign = getbit(msg, 36);
unsigned baro_rate_raw = getbits(msg, 37, 45);
unsigned inertial_rate_valid = getbit(msg, 46);
unsigned inertial_rate_sign = getbit(msg, 47);
unsigned inertial_rate_raw = getbits(msg, 48, 56);
if (!heading_valid || !ias_valid || !mach_valid || (!baro_rate_valid && !inertial_rate_valid)) {
return 0;
}
int score = 0;
float heading = 0;
if (heading_valid) {
heading = heading_raw * 90.0 / 512.0;
if (heading_sign) {
heading += 180.0;
}
score += 12;
} else if (!heading_valid && heading_raw == 0 && !heading_sign) {
score += 1;
} else {
return 0;
}
unsigned ias = 0;
if (ias_valid && ias_raw != 0) {
ias = ias_raw;
if (ias >= 50 && ias <= 700) {
score += 11;
} else {
return 0;
}
} else if (!ias_valid && ias_raw == 0) {
score += 1;
} else {
return 0;
}
float mach = 0;
if (mach_valid && mach_raw != 0) {
mach = mach_raw * 2.048 / 512;
if (mach >= 0.1 && mach <= 0.9) {
score += 11;
} else {
return 0;
}
} else if (!mach_valid && mach_raw == 0) {
score += 1;
} else {
return 0;
}
int baro_rate = 0;
if (baro_rate_valid) {
baro_rate = baro_rate_raw * 32;
if (baro_rate_sign) {
baro_rate -= 16384;
}
if (baro_rate >= -6000 && baro_rate <= 6000) {
score += 11;
} else {
return 0;
}
} else if (!baro_rate_valid && baro_rate_raw == 0) {
score += 1;
} else {
return 0;
}
int inertial_rate = 0;
if (inertial_rate_valid) {
inertial_rate = inertial_rate_raw * 32;
if (inertial_rate_sign) {
inertial_rate -= 16384;
}
if (inertial_rate >= -6000 && inertial_rate <= 6000) {
score += 11;
} else {
return 0;
}
} else if (!inertial_rate_valid && inertial_rate_raw == 0) {
score += 1;
} else {
return 0;
}
// small penalty for inconsistent data
// Should check IAS vs Mach at given altitude, but the maths is a little involved
if (baro_rate_valid && inertial_rate_valid) {
int delta = abs(baro_rate - inertial_rate);
if (delta > 2000) {
score -= 12;
}
}
if (store) {
mm->commb_format = COMMB_HEADING_SPEED;
if (heading_valid) {
mm->heading_valid = 1;
mm->heading = heading;
mm->heading_type = HEADING_MAGNETIC;
}
if (ias_valid) {
mm->ias_valid = 1;
mm->ias = ias;
}
if (mach_valid) {
mm->mach_valid = 1;
mm->mach = mach;
}
if (baro_rate_valid) {
mm->baro_rate_valid = 1;
mm->baro_rate = baro_rate;
}
if (inertial_rate_valid) {
// INS-derived data is treated as a "geometric rate" / "geometric altitude"
// elsewhere, so do the same here.
mm->geom_rate_valid = 1;
mm->geom_rate = inertial_rate;
}
}
return score;
}
// BDS4,4 Meterological routine air report
static int decodeBDS44(struct modesMessage *mm, bool store)
{
unsigned char *msg = mm->MB;
unsigned source = getbits(msg, 1, 4);
unsigned wind_valid = getbit(msg, 5);
unsigned windspeed_raw = getbits(msg, 6, 14);
unsigned winddir_raw = getbits(msg, 15, 23);
// ICAO 9871 is inconsistent, it claims:
// bit 24 sign
// bits 25..34 static air temperature, MSB = 64C, LSB=0.25C, range -128C..+128C
//
// .. but this does not actually work, there is one too many bits in the bitfield
// for the claimed values.
//
// Based on observed data, the most plausible actual layout is:
//
// bit 24 status
// bit 25 sign
// bits 26..34 static air temperature, MSB=64C, LSB=0.25C, range -128C..+128C
unsigned sat_valid = getbit(msg, 24);
unsigned sat_sign = getbit(msg, 25);
unsigned sat_raw = getbits(msg, 26, 34);
unsigned asp_valid = getbit(msg, 35);
unsigned asp_raw = getbits(msg, 36, 46);
unsigned turbulence_valid = getbit(msg, 47);
unsigned turbulence_raw = getbits(msg, 48, 49);
unsigned humidity_valid = getbit(msg, 50);
unsigned humidity_raw = getbits(msg, 51, 56);
if (source == MRAR_SOURCE_INVALID || source >= MRAR_SOURCE_RESERVED)
return 0; // invalid or reserved source
if (!wind_valid || !sat_valid)
return 0; // all valid messages seen in the wild have at least temp + wind
if (!asp_valid && asp_raw != 0)
return 0; // ASP not valid, but non-zero values in the ASP field
if (!turbulence_valid && turbulence_raw != 0)
return 0; // turbulence not valid, but non-zero values in the turbulence field
if (!humidity_valid && humidity_raw != 0)
return 0; // humidity not valid, but non-zero values in the humidity field
int score = 0;
float wind_speed = 0;
float wind_dir = 0;
if (wind_valid) {
wind_dir = winddir_raw * (180.0 / 256.0);
wind_speed = windspeed_raw;
if (windspeed_raw == 0) // possible but uncommon
score += 2;
else if (wind_speed <= 250)
score += 19;
else
return 0;
} else {
score += 1;
}
float sat = 0;
if (sat_valid) {
sat = sat_raw * 0.25;
if (sat_sign)
sat -= 128;
if (sat == 0) // possible but uncommon
score += 2;
else if (sat >= -80 && sat <= 60)
score += 11;
else
return 0;
} else {
score += 1;
}
float asp = 0;
if (asp_valid) {
asp = asp_raw;
if (asp >= 25 && asp <= 1100)
score += 12;
else
return 0;
} else {
score += 1;
}
hazard_t turbulence = HAZARD_NIL;
if (turbulence_valid) {
turbulence = (hazard_t) turbulence_raw;
score += 3;
} else {
score += 1;
}
float humidity = 0;
if (humidity_valid) {
humidity = humidity_raw * (100.0 / 64.0);
score += 7;
} else {
score += 1;
}
if (source == MRAR_SOURCE_DMEDME && wind_valid && sat_valid && score > 0) {
// Some GICB messages can be easily mistaken for a MRAR:
//
// GICB bit 1: BDS 0,5 ES airborne position = 0 ]
// GICB bit 2: BDS 0,6 ES surface position = 0 ]
// GICB bit 3: BDS 0,7 ES status = 1 ]
// GICB bit 4: BDS 0,8 ES type & identification = 1 ] -> MRAR source = 3
// GICB bit 5: BDS 0,9 ES airborne velocity = 1 -> MRAR wind valid bit
// GICB bit 24: BDS 6,0 heading and speed report = 1 -> MRAR temp valid bit
// most trailing bits = 0
//
// so only treat this as MRAR as a last resort
score = 1;
}
if (store) {
mm->commb_format = COMMB_MRAR;
mm->mrar_source_valid = 1;
mm->mrar_source = (mrar_source_t) source;
if (wind_valid) {
mm->wind_valid = 1;
mm->wind_speed = wind_speed;
mm->wind_dir = wind_dir;
}
if (sat_valid) {
mm->temperature_valid = 1;
mm->temperature = sat;
}
if (asp_valid) {
mm->pressure_valid = 1;
mm->pressure = asp;
}
if (turbulence_valid) {
mm->turbulence_valid = 1;
mm->turbulence = turbulence;
}
if (humidity_valid) {
mm->humidity_valid = 1;
mm->humidity = humidity;
}
}
return score;
}
// BDS0,5 extended squitter airborne position
// (apparently this gets queried via comm-b sometimes??)
// We don't try to _use_ this as a position, but we can
// at least try to recognize it, to exclude other
// comm-b types (in particular they can be mistaken for MRAR)
static int decodeBDS05(struct modesMessage *mm, bool store)
{
// We recognize these by matching the position altitude against
// the altitude in the surrounding message, so we need a
// DF20 not a DF21
if (mm->msgtype != 20)
return 0;
unsigned char *msg = mm->MB;
unsigned typecode = getbits(msg, 1, 5);
if (typecode < 9 || typecode > 18)
return 0; // only consider typecodes that could be an airborne position with baro altitude
unsigned t_bit = getbit(msg, 21);
if (t_bit) // unlikely
return 0;
unsigned ac12 = getbits(msg, 9, 20);
if (!ac12)
return 0;
// Insert M=0 to make an AC13 value, match against the
// AC13 value in the surrounding message
unsigned ac13 = ((ac12 & 0x0FC0) << 1) | (ac12 & 0x003F);
if (mm->AC != ac13)
return 0; // no altitude match
unsigned lat = getbits(msg, 23, 39);
unsigned lon = getbits(msg, 40, 56);
if (lat == 0 || lon == 0) // unlikely position
return 0;
if (store) {
mm->commb_format = COMMB_AIRBORNE_POSITION;
// No further decoding done, we don't really trust this
// enough to use as real input to CPR
}
// Score this high enough to override everything else
return 100;
}