Merge pull request #11198 from SteveCEvans/sce_rc2
[betaflight.git] / src / main / telemetry / hott.c
blob88c7c72fdff51f4526e7febe3d3496a2d0c1e714
1 /*
2 * This file is part of Cleanflight and Betaflight.
4 * Cleanflight and Betaflight are free software. You can redistribute
5 * this software and/or modify this software under the terms of the
6 * GNU General Public License as published by the Free Software
7 * Foundation, either version 3 of the License, or (at your option)
8 * any later version.
10 * Cleanflight and Betaflight are distributed in the hope that they
11 * will be useful, but WITHOUT ANY WARRANTY; without even the implied
12 * warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
13 * See the GNU General Public License for more details.
15 * You should have received a copy of the GNU General Public License
16 * along with this software.
18 * If not, see <http://www.gnu.org/licenses/>.
22 * telemetry_hott.c
24 * Authors:
25 * Dominic Clifton - Hydra - Software Serial, Electronics, Hardware Integration and debugging, HoTT Code cleanup and fixes, general telemetry improvements.
26 * Carsten Giesen - cGiesen - Baseflight port
27 * Oliver Bayer - oBayer - MultiWii-HoTT, HoTT reverse engineering
28 * Adam Majerczyk - HoTT-for-ardupilot from which some information and ideas are borrowed.
29 * Scavanger & Ziege-One: CMS Textmode addon
31 * https://github.com/obayer/MultiWii-HoTT
32 * https://github.com/oBayer/MultiHoTT-Module
33 * https://code.google.com/p/hott-for-ardupilot
35 * HoTT is implemented in Graupner equipment using a bi-directional protocol over a single wire.
37 * Generally the receiver sends a single request byte out using normal uart signals, then waits a short period for a
38 * multiple byte response and checksum byte before it sends out the next request byte.
39 * Each response byte must be send with a protocol specific delay between them.
41 * Serial ports use two wires but HoTT uses a single wire so some electronics are required so that
42 * the signals don't get mixed up. When cleanflight transmits it should not receive it's own transmission.
44 * Connect as follows:
45 * HoTT TX/RX -> Serial RX (connect directly)
46 * Serial TX -> 1N4148 Diode -(| )-> HoTT TX/RX (connect via diode)
48 * The diode should be arranged to allow the data signals to flow the right way
49 * -(| )- == Diode, | indicates cathode marker.
51 * As noticed by Skrebber the GR-12 (and probably GR-16/24, too) are based on a PIC 24FJ64GA-002, which has 5V tolerant digital pins.
53 * Note: The softserial ports are not listed as 5V tolerant in the STM32F103xx data sheet pinouts and pin description
54 * section. Verify if you require a 5v/3.3v level shifters. The softserial port should not be inverted.
56 * There is a technical discussion (in German) about HoTT here
57 * http://www.rc-network.de/forum/showthread.php/281496-Graupner-HoTT-Telemetrie-Sensoren-Eigenbau-DIY-Telemetrie-Protokoll-entschl%C3%BCsselt/page21
59 #include <stdbool.h>
60 #include <stdint.h>
61 #include <string.h>
63 #include "platform.h"
66 #ifdef USE_TELEMETRY_HOTT
68 #include "build/build_config.h"
69 #include "build/debug.h"
71 #include "common/axis.h"
72 #include "common/maths.h"
73 #include "common/time.h"
75 #include "drivers/serial.h"
76 #include "drivers/time.h"
78 #include "fc/runtime_config.h"
80 #include "flight/position.h"
81 #include "flight/pid.h"
83 #include "io/gps.h"
85 #include "sensors/battery.h"
86 #include "sensors/barometer.h"
87 #include "sensors/sensors.h"
89 #include "telemetry/hott.h"
90 #include "telemetry/telemetry.h"
92 #if defined (USE_HOTT_TEXTMODE) && defined (USE_CMS)
93 #include "scheduler/scheduler.h"
94 #include "io/displayport_hott.h"
96 #define HOTT_TEXTMODE_TASK_PERIOD 1000
97 #define HOTT_TEXTMODE_RX_SCHEDULE 5000
98 #define HOTT_TEXTMODE_TX_DELAY_US 1000
99 #endif
101 //#define HOTT_DEBUG
103 #define HOTT_MESSAGE_PREPARATION_FREQUENCY_5_HZ ((1000 * 1000) / 5)
104 #define HOTT_RX_SCHEDULE 4000
105 #define HOTT_TX_DELAY_US 3000
106 #define MILLISECONDS_IN_A_SECOND 1000
108 static uint32_t rxSchedule = HOTT_RX_SCHEDULE;
109 static uint32_t txDelayUs = HOTT_TX_DELAY_US;
111 static uint32_t lastHoTTRequestCheckAt = 0;
112 static uint32_t lastMessagesPreparedAt = 0;
113 static uint32_t lastHottAlarmSoundTime = 0;
115 static bool hottIsSending = false;
117 static uint8_t *hottMsg = NULL;
118 static uint8_t hottMsgRemainingBytesToSendCount;
119 static uint8_t hottMsgCrc;
121 #define HOTT_CRC_SIZE (sizeof(hottMsgCrc))
123 #define HOTT_BAUDRATE 19200
124 #define HOTT_PORT_MODE MODE_RXTX // must be opened in RXTX so that TX and RX pins are allocated.
126 static serialPort_t *hottPort = NULL;
127 static const serialPortConfig_t *portConfig;
129 static bool hottTelemetryEnabled = false;
130 static portSharing_e hottPortSharing;
132 static HOTT_GPS_MSG_t hottGPSMessage;
133 static HOTT_EAM_MSG_t hottEAMMessage;
135 #if defined (USE_HOTT_TEXTMODE) && defined (USE_CMS)
136 static hottTextModeMsg_t hottTextModeMessage;
137 static bool textmodeIsAlive = false;
138 static int32_t telemetryTaskPeriod = 0;
140 static void initialiseTextmodeMessage(hottTextModeMsg_t *msg)
142 msg->start = HOTT_TEXTMODE_START;
143 msg->esc = HOTT_EAM_SENSOR_TEXT_ID;
144 msg->warning = 0;
145 msg->stop = HOTT_TEXTMODE_STOP;
147 #endif
149 static void initialiseEAMMessage(HOTT_EAM_MSG_t *msg, size_t size)
151 memset(msg, 0, size);
152 msg->start_byte = 0x7C;
153 msg->eam_sensor_id = HOTT_TELEMETRY_EAM_SENSOR_ID;
154 msg->sensor_id = HOTT_EAM_SENSOR_TEXT_ID;
155 msg->stop_byte = 0x7D;
158 #ifdef USE_GPS
159 typedef enum {
160 GPS_FIX_CHAR_NONE = '-',
161 GPS_FIX_CHAR_2D = '2',
162 GPS_FIX_CHAR_3D = '3',
163 GPS_FIX_CHAR_DGPS = 'D'
164 } gpsFixChar_e;
166 static void initialiseGPSMessage(HOTT_GPS_MSG_t *msg, size_t size)
168 memset(msg, 0, size);
169 msg->start_byte = 0x7C;
170 msg->gps_sensor_id = HOTT_TELEMETRY_GPS_SENSOR_ID;
171 msg->sensor_id = HOTT_GPS_SENSOR_TEXT_ID;
172 msg->stop_byte = 0x7D;
174 #endif
176 static void initialiseMessages(void)
178 initialiseEAMMessage(&hottEAMMessage, sizeof(hottEAMMessage));
179 #ifdef USE_GPS
180 initialiseGPSMessage(&hottGPSMessage, sizeof(hottGPSMessage));
181 #endif
182 #if defined (USE_HOTT_TEXTMODE) && defined (USE_CMS)
183 initialiseTextmodeMessage(&hottTextModeMessage);
184 #endif
187 #ifdef USE_GPS
188 void addGPSCoordinates(HOTT_GPS_MSG_t *hottGPSMessage, int32_t latitude, int32_t longitude)
190 int16_t deg = latitude / GPS_DEGREES_DIVIDER;
191 int32_t sec = (latitude - (deg * GPS_DEGREES_DIVIDER)) * 6;
192 int8_t min = sec / 1000000L;
193 sec = (sec % 1000000L) / 100L;
194 uint16_t degMin = (deg * 100L) + min;
196 hottGPSMessage->pos_NS = (latitude < 0);
197 hottGPSMessage->pos_NS_dm_L = degMin;
198 hottGPSMessage->pos_NS_dm_H = degMin >> 8;
199 hottGPSMessage->pos_NS_sec_L = sec;
200 hottGPSMessage->pos_NS_sec_H = sec >> 8;
202 deg = longitude / GPS_DEGREES_DIVIDER;
203 sec = (longitude - (deg * GPS_DEGREES_DIVIDER)) * 6;
204 min = sec / 1000000L;
205 sec = (sec % 1000000L) / 100L;
206 degMin = (deg * 100L) + min;
208 hottGPSMessage->pos_EW = (longitude < 0);
209 hottGPSMessage->pos_EW_dm_L = degMin;
210 hottGPSMessage->pos_EW_dm_H = degMin >> 8;
211 hottGPSMessage->pos_EW_sec_L = sec;
212 hottGPSMessage->pos_EW_sec_H = sec >> 8;
215 void hottPrepareGPSResponse(HOTT_GPS_MSG_t *hottGPSMessage)
217 hottGPSMessage->gps_satelites = gpsSol.numSat;
219 if (!STATE(GPS_FIX)) {
220 hottGPSMessage->gps_fix_char = GPS_FIX_CHAR_NONE;
221 return;
224 if (gpsSol.numSat >= 5) {
225 hottGPSMessage->gps_fix_char = GPS_FIX_CHAR_3D;
226 } else {
227 hottGPSMessage->gps_fix_char = GPS_FIX_CHAR_2D;
230 addGPSCoordinates(hottGPSMessage, gpsSol.llh.lat, gpsSol.llh.lon);
232 // GPS Speed is returned in cm/s (from io/gps.c) and must be sent in km/h (Hott requirement)
233 const uint16_t speed = (gpsSol.groundSpeed * 36) / 1000;
234 hottGPSMessage->gps_speed_L = speed & 0x00FF;
235 hottGPSMessage->gps_speed_H = speed >> 8;
237 hottGPSMessage->home_distance_L = GPS_distanceToHome & 0x00FF;
238 hottGPSMessage->home_distance_H = GPS_distanceToHome >> 8;
240 int32_t altitudeM = getEstimatedAltitudeCm() / 100;
242 const uint16_t hottGpsAltitude = constrain(altitudeM + HOTT_GPS_ALTITUDE_OFFSET, 0 , UINT16_MAX); // gpsSol.llh.alt in m ; offset = 500 -> O m
244 hottGPSMessage->altitude_L = hottGpsAltitude & 0x00FF;
245 hottGPSMessage->altitude_H = hottGpsAltitude >> 8;
247 hottGPSMessage->home_direction = GPS_directionToHome;
249 #endif
251 static bool shouldTriggerBatteryAlarmNow(void)
253 return ((millis() - lastHottAlarmSoundTime) >= (telemetryConfig()->hottAlarmSoundInterval * MILLISECONDS_IN_A_SECOND));
256 static inline void updateAlarmBatteryStatus(HOTT_EAM_MSG_t *hottEAMMessage)
258 if (shouldTriggerBatteryAlarmNow()) {
259 lastHottAlarmSoundTime = millis();
260 const batteryState_e voltageState = getVoltageState();
261 const batteryState_e consumptionState = getConsumptionState();
262 if (voltageState == BATTERY_WARNING || voltageState == BATTERY_CRITICAL) {
263 hottEAMMessage->warning_beeps = 0x10;
264 hottEAMMessage->alarm_invers1 = HOTT_EAM_ALARM1_FLAG_BATTERY_1;
266 else if (consumptionState == BATTERY_WARNING || consumptionState == BATTERY_CRITICAL) {
267 hottEAMMessage->warning_beeps = 0x16;
268 hottEAMMessage->alarm_invers1 = HOTT_EAM_ALARM1_FLAG_MAH;
270 else {
271 hottEAMMessage->warning_beeps = HOTT_EAM_ALARM1_FLAG_NONE;
272 hottEAMMessage->alarm_invers1 = HOTT_EAM_ALARM1_FLAG_NONE;
277 static inline void hottEAMUpdateBattery(HOTT_EAM_MSG_t *hottEAMMessage)
279 const uint16_t volt = getLegacyBatteryVoltage();
280 hottEAMMessage->main_voltage_L = volt & 0xFF;
281 hottEAMMessage->main_voltage_H = volt >> 8;
282 hottEAMMessage->batt1_voltage_L = volt & 0xFF;
283 hottEAMMessage->batt1_voltage_H = volt >> 8;
285 updateAlarmBatteryStatus(hottEAMMessage);
288 static inline void hottEAMUpdateCurrentMeter(HOTT_EAM_MSG_t *hottEAMMessage)
290 const int32_t amp = getAmperage() / 10;
291 hottEAMMessage->current_L = amp & 0xFF;
292 hottEAMMessage->current_H = amp >> 8;
295 static inline void hottEAMUpdateBatteryDrawnCapacity(HOTT_EAM_MSG_t *hottEAMMessage)
297 const int32_t mAh = getMAhDrawn() / 10;
298 hottEAMMessage->batt_cap_L = mAh & 0xFF;
299 hottEAMMessage->batt_cap_H = mAh >> 8;
302 static inline void hottEAMUpdateAltitude(HOTT_EAM_MSG_t *hottEAMMessage)
304 const uint16_t hottEamAltitude = (getEstimatedAltitudeCm() / 100) + HOTT_EAM_OFFSET_HEIGHT;
306 hottEAMMessage->altitude_L = hottEamAltitude & 0x00FF;
307 hottEAMMessage->altitude_H = hottEamAltitude >> 8;
310 #ifdef USE_VARIO
311 static inline void hottEAMUpdateClimbrate(HOTT_EAM_MSG_t *hottEAMMessage)
313 const int32_t vario = getEstimatedVario();
314 hottEAMMessage->climbrate_L = (30000 + vario) & 0x00FF;
315 hottEAMMessage->climbrate_H = (30000 + vario) >> 8;
316 hottEAMMessage->climbrate3s = 120 + (vario / 100);
318 #endif
320 void hottPrepareEAMResponse(HOTT_EAM_MSG_t *hottEAMMessage)
322 // Reset alarms
323 hottEAMMessage->warning_beeps = 0x0;
324 hottEAMMessage->alarm_invers1 = 0x0;
326 hottEAMUpdateBattery(hottEAMMessage);
327 hottEAMUpdateCurrentMeter(hottEAMMessage);
328 hottEAMUpdateBatteryDrawnCapacity(hottEAMMessage);
329 hottEAMUpdateAltitude(hottEAMMessage);
330 #ifdef USE_VARIO
331 hottEAMUpdateClimbrate(hottEAMMessage);
332 #endif
335 static void hottSerialWrite(uint8_t c)
337 static uint8_t serialWrites = 0;
338 serialWrites++;
339 serialWrite(hottPort, c);
342 void freeHoTTTelemetryPort(void)
344 closeSerialPort(hottPort);
345 hottPort = NULL;
346 hottTelemetryEnabled = false;
349 void initHoTTTelemetry(void)
351 portConfig = findSerialPortConfig(FUNCTION_TELEMETRY_HOTT);
353 if (!portConfig) {
354 return;
357 hottPortSharing = determinePortSharing(portConfig, FUNCTION_TELEMETRY_HOTT);
359 #if defined (USE_HOTT_TEXTMODE) && defined (USE_CMS)
360 hottDisplayportRegister();
361 #endif
363 initialiseMessages();
366 static void flushHottRxBuffer(void)
368 while (serialRxBytesWaiting(hottPort) > 0) {
369 serialRead(hottPort);
373 static void workAroundForHottTelemetryOnUsart(serialPort_t *instance, portMode_e mode)
375 closeSerialPort(hottPort);
377 portOptions_e portOptions = telemetryConfig()->telemetry_inverted ? SERIAL_INVERTED : SERIAL_NOT_INVERTED;
379 if (telemetryConfig()->halfDuplex) {
380 portOptions |= SERIAL_BIDIR;
383 hottPort = openSerialPort(instance->identifier, FUNCTION_TELEMETRY_HOTT, NULL, NULL, HOTT_BAUDRATE, mode, portOptions);
386 static bool hottIsUsingHardwareUART(void)
388 return !(portConfig->identifier == SERIAL_PORT_SOFTSERIAL1 || portConfig->identifier == SERIAL_PORT_SOFTSERIAL2);
391 static void hottConfigurePortForTX(void)
393 // FIXME temorary workaround for HoTT not working on Hardware serial ports due to hardware/softserial serial port initialisation differences
394 if (hottIsUsingHardwareUART()) {
395 workAroundForHottTelemetryOnUsart(hottPort, MODE_TX);
396 } else {
397 serialSetMode(hottPort, MODE_TX);
399 hottIsSending = true;
400 hottMsgCrc = 0;
403 static void hottConfigurePortForRX(void)
405 // FIXME temorary workaround for HoTT not working on Hardware serial ports due to hardware/softserial serial port initialisation differences
406 if (hottIsUsingHardwareUART()) {
407 workAroundForHottTelemetryOnUsart(hottPort, MODE_RX);
408 } else {
409 serialSetMode(hottPort, MODE_RX);
411 hottMsg = NULL;
412 hottIsSending = false;
413 flushHottRxBuffer();
416 void configureHoTTTelemetryPort(void)
418 if (!portConfig) {
419 return;
422 portOptions_e portOptions = SERIAL_NOT_INVERTED;
424 if (telemetryConfig()->halfDuplex) {
425 portOptions |= SERIAL_BIDIR;
428 hottPort = openSerialPort(portConfig->identifier, FUNCTION_TELEMETRY_HOTT, NULL, NULL, HOTT_BAUDRATE, HOTT_PORT_MODE, portOptions);
430 if (!hottPort) {
431 return;
434 hottConfigurePortForRX();
436 hottTelemetryEnabled = true;
439 static void hottSendResponse(uint8_t *buffer, int length)
441 if (hottIsSending) {
442 return;
445 hottMsg = buffer;
446 hottMsgRemainingBytesToSendCount = length + HOTT_CRC_SIZE;
449 static inline void hottSendGPSResponse(void)
451 hottSendResponse((uint8_t *)&hottGPSMessage, sizeof(hottGPSMessage));
454 static inline void hottSendEAMResponse(void)
456 hottSendResponse((uint8_t *)&hottEAMMessage, sizeof(hottEAMMessage));
459 static void hottPrepareMessages(void) {
460 hottPrepareEAMResponse(&hottEAMMessage);
461 #ifdef USE_GPS
462 hottPrepareGPSResponse(&hottGPSMessage);
463 #endif
466 #if defined (USE_HOTT_TEXTMODE) && defined (USE_CMS)
467 static void hottTextmodeStart()
469 // Increase menu speed
470 taskInfo_t taskInfo;
471 getTaskInfo(TASK_TELEMETRY, &taskInfo);
472 telemetryTaskPeriod = taskInfo.desiredPeriodUs;
473 rescheduleTask(TASK_TELEMETRY, TASK_PERIOD_HZ(HOTT_TEXTMODE_TASK_PERIOD));
475 rxSchedule = HOTT_TEXTMODE_RX_SCHEDULE;
476 txDelayUs = HOTT_TEXTMODE_TX_DELAY_US;
479 static void hottTextmodeStop()
481 // Set back to avoid slow down of the FC
482 if (telemetryTaskPeriod > 0) {
483 rescheduleTask(TASK_TELEMETRY, telemetryTaskPeriod);
484 telemetryTaskPeriod = 0;
487 rxSchedule = HOTT_RX_SCHEDULE;
488 txDelayUs = HOTT_TX_DELAY_US;
491 bool hottTextmodeIsAlive()
493 return textmodeIsAlive;
496 void hottTextmodeGrab()
498 hottTextModeMessage.esc = HOTT_EAM_SENSOR_TEXT_ID;
501 void hottTextmodeExit()
503 hottTextModeMessage.esc = HOTT_TEXTMODE_ESC;
506 void hottTextmodeWriteChar(uint8_t column, uint8_t row, char c)
508 if (column < HOTT_TEXTMODE_DISPLAY_COLUMNS && row < HOTT_TEXTMODE_DISPLAY_ROWS) {
509 if (hottTextModeMessage.txt[row][column] != c)
510 hottTextModeMessage.txt[row][column] = c;
514 static void processHottTextModeRequest(const uint8_t cmd)
516 static bool setEscBack = false;
518 if (!textmodeIsAlive) {
519 hottTextmodeStart();
520 textmodeIsAlive = true;
523 if ((cmd & 0xF0) != HOTT_EAM_SENSOR_TEXT_ID) {
524 return;
527 if (setEscBack) {
528 hottTextModeMessage.esc = HOTT_EAM_SENSOR_TEXT_ID;
529 setEscBack = false;
532 if (hottTextModeMessage.esc != HOTT_TEXTMODE_ESC) {
533 hottCmsOpen();
534 } else {
535 setEscBack = true;
538 hottSetCmsKey(cmd & 0x0f, hottTextModeMessage.esc == HOTT_TEXTMODE_ESC);
539 hottSendResponse((uint8_t *)&hottTextModeMessage, sizeof(hottTextModeMessage));
541 #endif
543 static void processBinaryModeRequest(uint8_t address)
545 #if defined (USE_HOTT_TEXTMODE) && defined (USE_CMS)
546 if (textmodeIsAlive) {
547 hottTextmodeStop();
548 textmodeIsAlive = false;
550 #endif
552 #ifdef HOTT_DEBUG
553 static uint8_t hottBinaryRequests = 0;
554 static uint8_t hottGPSRequests = 0;
555 static uint8_t hottEAMRequests = 0;
556 #endif
558 switch (address) {
559 #ifdef USE_GPS
560 case 0x8A:
561 #ifdef HOTT_DEBUG
562 hottGPSRequests++;
563 #endif
564 if (sensors(SENSOR_GPS)) {
565 hottSendGPSResponse();
567 break;
568 #endif
569 case 0x8E:
570 #ifdef HOTT_DEBUG
571 hottEAMRequests++;
572 #endif
573 hottSendEAMResponse();
574 break;
577 #ifdef HOTT_DEBUG
578 hottBinaryRequests++;
579 debug[0] = hottBinaryRequests;
580 #ifdef USE_GPS
581 debug[1] = hottGPSRequests;
582 #endif
583 debug[2] = hottEAMRequests;
584 #endif
587 static void hottCheckSerialData(uint32_t currentMicros)
589 static bool lookingForRequest = true;
591 const uint8_t bytesWaiting = serialRxBytesWaiting(hottPort);
593 if (bytesWaiting <= 1) {
594 return;
597 if (bytesWaiting != 2) {
598 flushHottRxBuffer();
599 lookingForRequest = true;
600 return;
603 if (lookingForRequest) {
604 lastHoTTRequestCheckAt = currentMicros;
605 lookingForRequest = false;
606 return;
607 } else {
608 bool enoughTimePassed = currentMicros - lastHoTTRequestCheckAt >= rxSchedule;
610 if (!enoughTimePassed) {
611 return;
613 lookingForRequest = true;
616 const uint8_t requestId = serialRead(hottPort);
617 const uint8_t address = serialRead(hottPort);
619 if ((requestId == 0) || (requestId == HOTT_BINARY_MODE_REQUEST_ID) || (address == HOTT_TELEMETRY_NO_SENSOR_ID)) {
621 * FIXME the first byte of the HoTT request frame is ONLY either 0x80 (binary mode) or 0x7F (text mode).
622 * The binary mode is read as 0x00 (error reading the upper bit) while the text mode is correctly decoded.
623 * The (requestId == 0) test is a workaround for detecting the binary mode with no ambiguity as there is only
624 * one other valid value (0x7F) for text mode.
625 * The error reading for the upper bit should nevertheless be fixed
627 processBinaryModeRequest(address);
629 #if defined (USE_HOTT_TEXTMODE) && defined (USE_CMS)
630 else if (requestId == HOTTV4_TEXT_MODE_REQUEST_ID) {
631 processHottTextModeRequest(address);
633 #endif
636 static void hottSendTelemetryData(void) {
638 if (!hottIsSending) {
639 hottConfigurePortForTX();
640 return;
643 if (hottMsgRemainingBytesToSendCount == 0) {
644 hottConfigurePortForRX();
645 return;
648 --hottMsgRemainingBytesToSendCount;
649 if (hottMsgRemainingBytesToSendCount == 0) {
650 hottSerialWrite(hottMsgCrc++);
651 return;
654 hottMsgCrc += *hottMsg;
655 hottSerialWrite(*hottMsg++);
658 static inline bool shouldPrepareHoTTMessages(uint32_t currentMicros)
660 return currentMicros - lastMessagesPreparedAt >= HOTT_MESSAGE_PREPARATION_FREQUENCY_5_HZ;
663 static inline bool shouldCheckForHoTTRequest(void)
665 if (hottIsSending) {
666 return false;
668 return true;
671 void checkHoTTTelemetryState(void)
673 const bool newTelemetryEnabledValue = telemetryDetermineEnabledState(hottPortSharing);
675 if (newTelemetryEnabledValue == hottTelemetryEnabled) {
676 return;
679 if (newTelemetryEnabledValue) {
680 configureHoTTTelemetryPort();
681 } else {
682 freeHoTTTelemetryPort();
686 void handleHoTTTelemetry(timeUs_t currentTimeUs)
688 static timeUs_t serialTimer;
690 if (!hottTelemetryEnabled) {
691 return;
694 if (shouldPrepareHoTTMessages(currentTimeUs)) {
695 hottPrepareMessages();
696 lastMessagesPreparedAt = currentTimeUs;
699 if (shouldCheckForHoTTRequest()) {
700 hottCheckSerialData(currentTimeUs);
703 if (!hottMsg)
704 return;
706 if (hottIsSending) {
707 if (currentTimeUs - serialTimer < txDelayUs) {
708 return;
711 hottSendTelemetryData();
712 serialTimer = currentTimeUs;
715 #endif