Set blackbox file handler to NULL after closing file
[inav.git] / src / main / sensors / pitotmeter.c
blobbaf7bed0a6190ff397eac0647d672bf62e5d5462
1 /*
2 * This file is part of Cleanflight.
4 * Cleanflight is free software: you can redistribute it and/or modify
5 * it under the terms of the GNU General Public License as published by
6 * the Free Software Foundation, either version 3 of the License, or
7 * (at your option) any later version.
9 * Cleanflight is distributed in the hope that it will be useful,
10 * but WITHOUT ANY WARRANTY; without even the implied warranty of
11 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
12 * GNU General Public License for more details.
14 * You should have received a copy of the GNU General Public License
15 * along with Cleanflight. If not, see <http://www.gnu.org/licenses/>.
18 #include <stdbool.h>
19 #include <stdint.h>
20 #include <math.h>
22 #include "platform.h"
24 #include "common/log.h"
25 #include "common/maths.h"
26 #include "common/time.h"
27 #include "common/utils.h"
29 #include "config/parameter_group.h"
30 #include "config/parameter_group_ids.h"
32 #include "drivers/pitotmeter/pitotmeter.h"
33 #include "drivers/pitotmeter/pitotmeter_ms4525.h"
34 #include "drivers/pitotmeter/pitotmeter_dlvr_l10d.h"
35 #include "drivers/pitotmeter/pitotmeter_adc.h"
36 #include "drivers/pitotmeter/pitotmeter_msp.h"
37 #include "drivers/pitotmeter/pitotmeter_virtual.h"
38 #include "drivers/pitotmeter/pitotmeter_fake.h"
39 #include "drivers/time.h"
41 #include "fc/config.h"
42 #include "fc/runtime_config.h"
43 #include "fc/settings.h"
45 #include "scheduler/protothreads.h"
47 #include "sensors/pitotmeter.h"
48 #include "sensors/barometer.h"
49 #include "sensors/sensors.h"
52 //#include "build/debug.h"
55 #ifdef USE_PITOT
57 extern baro_t baro;
59 pitot_t pitot = {.lastMeasurementUs = 0, .lastSeenHealthyMs = 0};
61 PG_REGISTER_WITH_RESET_TEMPLATE(pitotmeterConfig_t, pitotmeterConfig, PG_PITOTMETER_CONFIG, 2);
63 #define PITOT_HARDWARE_TIMEOUT_MS 500 // Accept 500ms of non-responsive sensor, report HW failure otherwise
65 #ifdef USE_PITOT
66 #define PITOT_HARDWARE_DEFAULT PITOT_AUTODETECT
67 #else
68 #define PITOT_HARDWARE_DEFAULT PITOT_NONE
69 #endif
71 PG_RESET_TEMPLATE(pitotmeterConfig_t, pitotmeterConfig,
72 .pitot_hardware = SETTING_PITOT_HARDWARE_DEFAULT,
73 .pitot_lpf_milli_hz = SETTING_PITOT_LPF_MILLI_HZ_DEFAULT,
74 .pitot_scale = SETTING_PITOT_SCALE_DEFAULT
77 bool pitotDetect(pitotDev_t *dev, uint8_t pitotHardwareToUse)
79 pitotSensor_e pitotHardware = PITOT_NONE;
80 requestedSensors[SENSOR_INDEX_PITOT] = pitotHardwareToUse;
82 switch (pitotHardwareToUse) {
83 case PITOT_AUTODETECT:
84 case PITOT_MS4525:
85 #ifdef USE_PITOT_MS4525
86 if (ms4525Detect(dev)) {
87 pitotHardware = PITOT_MS4525;
88 break;
90 #endif
91 /* If we are asked for a specific sensor - break out, otherwise - fall through and continue */
92 if (pitotHardwareToUse != PITOT_AUTODETECT) {
93 break;
95 FALLTHROUGH;
97 case PITOT_DLVR:
99 // Skip autodetection for DLVR (it is indistinguishable from MS4525) and allow only manual config
100 if (pitotHardwareToUse != PITOT_AUTODETECT && dlvrDetect(dev)) {
101 pitotHardware = PITOT_DLVR;
102 break;
104 FALLTHROUGH;
106 case PITOT_ADC:
107 #if defined(USE_ADC) && defined(USE_PITOT_ADC)
108 if (adcPitotDetect(dev)) {
109 pitotHardware = PITOT_ADC;
110 break;
112 #endif
113 /* If we are asked for a specific sensor - break out, otherwise - fall through and continue */
114 if (pitotHardwareToUse != PITOT_AUTODETECT) {
115 break;
117 FALLTHROUGH;
119 case PITOT_VIRTUAL:
120 #if defined(USE_WIND_ESTIMATOR) && defined(USE_PITOT_VIRTUAL)
121 if ((pitotHardwareToUse != PITOT_AUTODETECT) && virtualPitotDetect(dev)) {
122 pitotHardware = PITOT_VIRTUAL;
123 break;
125 #endif
126 /* If we are asked for a specific sensor - break out, otherwise - fall through and continue */
127 if (pitotHardwareToUse != PITOT_AUTODETECT) {
128 break;
130 FALLTHROUGH;
132 case PITOT_MSP:
133 #ifdef USE_PITOT_MSP
134 // Skip autodetection for MSP baro, only allow manual config
135 if (pitotHardwareToUse != PITOT_AUTODETECT && mspPitotmeterDetect(dev)) {
136 pitotHardware = PITOT_MSP;
137 break;
139 #endif
140 /* If we are asked for a specific sensor - break out, otherwise - fall through and continue */
141 if (pitotHardwareToUse != PITOT_AUTODETECT) {
142 break;
144 FALLTHROUGH;
146 case PITOT_FAKE:
147 #ifdef USE_PITOT_FAKE
148 if (fakePitotDetect(dev)) {
149 pitotHardware = PITOT_FAKE;
150 break;
152 #endif
153 /* If we are asked for a specific sensor - break out, otherwise - fall through and continue */
154 if (pitotHardwareToUse != PITOT_AUTODETECT) {
155 break;
157 FALLTHROUGH;
159 case PITOT_NONE:
160 pitotHardware = PITOT_NONE;
161 break;
164 if (pitotHardware == PITOT_NONE) {
165 sensorsClear(SENSOR_PITOT);
166 return false;
169 detectedSensors[SENSOR_INDEX_PITOT] = pitotHardware;
170 sensorsSet(SENSOR_PITOT);
171 return true;
174 bool pitotInit(void)
176 if (!pitotDetect(&pitot.dev, pitotmeterConfig()->pitot_hardware)) {
177 return false;
179 return true;
182 bool pitotIsCalibrationComplete(void)
184 return zeroCalibrationIsCompleteS(&pitot.zeroCalibration) && zeroCalibrationIsSuccessfulS(&pitot.zeroCalibration);
187 void pitotStartCalibration(void)
189 zeroCalibrationStartS(&pitot.zeroCalibration, CALIBRATING_PITOT_TIME_MS, SSL_AIR_PRESSURE * pitot.dev.calibThreshold, false);
192 static void performPitotCalibrationCycle(void)
194 zeroCalibrationAddValueS(&pitot.zeroCalibration, pitot.pressure);
196 if (zeroCalibrationIsCompleteS(&pitot.zeroCalibration)) {
197 zeroCalibrationGetZeroS(&pitot.zeroCalibration, &pitot.pressureZero);
198 LOG_DEBUG(PITOT, "Pitot calibration complete (%d)", (int)lrintf(pitot.pressureZero));
202 STATIC_PROTOTHREAD(pitotThread)
204 ptBegin(pitotThread);
206 static float pitotPressureTmp;
207 static float pitotTemperatureTmp;
208 timeUs_t currentTimeUs;
210 // Init filter
211 pitot.lastMeasurementUs = micros();
213 pt1FilterInit(&pitot.lpfState, pitotmeterConfig()->pitot_lpf_milli_hz / 1000.0f, 0.0f);
215 while(1) {
216 #ifdef USE_SIMULATOR
217 while (SIMULATOR_HAS_OPTION(HITL_AIRSPEED) && SIMULATOR_HAS_OPTION(HITL_PITOT_FAILURE))
219 ptDelayUs(10000);
221 #endif
223 if ( pitot.lastSeenHealthyMs == 0 ) {
224 if (pitot.dev.start(&pitot.dev)) {
225 pitot.lastSeenHealthyMs = millis();
229 if ( (millis() - pitot.lastSeenHealthyMs) >= US2MS(pitot.dev.delay)) {
230 if (pitot.dev.get(&pitot.dev)) // read current data
231 pitot.lastSeenHealthyMs = millis();
233 if (pitot.dev.start(&pitot.dev)) // init for next read
234 pitot.lastSeenHealthyMs = millis();
238 pitot.dev.calculate(&pitot.dev, &pitotPressureTmp, &pitotTemperatureTmp);
240 #ifdef USE_SIMULATOR
241 if (SIMULATOR_HAS_OPTION(HITL_AIRSPEED)) {
242 pitotPressureTmp = sq(simulatorData.airSpeed) * SSL_AIR_DENSITY / 20000.0f + SSL_AIR_PRESSURE;
244 #endif
245 #if defined(USE_PITOT_FAKE)
246 if (pitotmeterConfig()->pitot_hardware == PITOT_FAKE) {
247 pitotPressureTmp = sq(fakePitotGetAirspeed()) * SSL_AIR_DENSITY / 20000.0f + SSL_AIR_PRESSURE;
249 #endif
250 ptYield();
252 // Calculate IAS
253 if (pitotIsCalibrationComplete()) {
254 // NOTE ::
255 // https://en.wikipedia.org/wiki/Indicated_airspeed
256 // Indicated airspeed (IAS) is the airspeed read directly from the airspeed indicator on an aircraft, driven by the pitot-static system.
257 // The IAS is an important value for the pilot because it is the indicated speeds which are specified in the aircraft flight manual for
258 // such important performance values as the stall speed. A typical aircraft will always stall at the same indicated airspeed (for the current configuration)
259 // regardless of density, altitude or true airspeed.
261 // Therefore we shouldn't care about CAS/TAS and only calculate IAS since it's more indicative to the pilot and more useful in calculations
262 // It also allows us to use pitot_scale to calibrate the dynamic pressure sensor scale
264 // NOTE ::filter pressure - apply filter when NOT calibrating for zero !!!
265 currentTimeUs = micros();
266 pitot.pressure = pt1FilterApply3(&pitot.lpfState, pitotPressureTmp, US2S(currentTimeUs - pitot.lastMeasurementUs));
267 pitot.lastMeasurementUs = currentTimeUs;
269 pitot.airSpeed = pitotmeterConfig()->pitot_scale * fast_fsqrtf(2.0f * fabsf(pitot.pressure - pitot.pressureZero) / SSL_AIR_DENSITY) * 100; // cm/s
270 pitot.temperature = pitotTemperatureTmp; // Kelvin
272 } else {
273 pitot.pressure = pitotPressureTmp;
274 performPitotCalibrationCycle();
275 pitot.airSpeed = 0.0f;
278 #if defined(USE_PITOT_FAKE)
279 if (pitotmeterConfig()->pitot_hardware == PITOT_FAKE) {
280 pitot.airSpeed = fakePitotGetAirspeed();
282 #endif
283 #ifdef USE_SIMULATOR
284 if (SIMULATOR_HAS_OPTION(HITL_AIRSPEED)) {
285 pitot.airSpeed = simulatorData.airSpeed;
287 #endif
290 ptEnd(0);
293 void pitotUpdate(void)
295 pitotThread();
298 float getAirspeedEstimate(void)
300 return pitot.airSpeed;
303 bool pitotIsHealthy(void)
305 return (millis() - pitot.lastSeenHealthyMs) < PITOT_HARDWARE_TIMEOUT_MS;
308 #endif /* PITOT */