Fix WS2812 led definition
[inav.git] / src / main / fc / fc_msp_box.c
blob80458c3ac370db7b7749f8efe833de12c9244d22
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 <string.h>
22 #include "platform.h"
24 #include "common/streambuf.h"
25 #include "common/utils.h"
27 #include "config/feature.h"
29 #include "fc/config.h"
30 #include "fc/fc_msp_box.h"
31 #include "fc/runtime_config.h"
32 #include "flight/mixer.h"
34 #include "io/osd.h"
36 #include "drivers/pwm_output.h"
38 #include "sensors/diagnostics.h"
39 #include "sensors/sensors.h"
41 #include "navigation/navigation.h"
43 #include "telemetry/telemetry.h"
45 #define BOX_SUFFIX ';'
46 #define BOX_SUFFIX_LEN 1
48 static const box_t boxes[CHECKBOX_ITEM_COUNT + 1] = {
49 { .boxId = BOXARM, .boxName = "ARM", .permanentId = 0 },
50 { .boxId = BOXANGLE, .boxName = "ANGLE", .permanentId = 1 },
51 { .boxId = BOXHORIZON, .boxName = "HORIZON", .permanentId = 2 },
52 { .boxId = BOXNAVALTHOLD, .boxName = "NAV ALTHOLD", .permanentId = 3 },
53 { .boxId = BOXHEADINGHOLD, .boxName = "HEADING HOLD", .permanentId = 5 },
54 { .boxId = BOXHEADFREE, .boxName = "HEADFREE", .permanentId = 6 },
55 { .boxId = BOXHEADADJ, .boxName = "HEADADJ", .permanentId = 7 },
56 { .boxId = BOXCAMSTAB, .boxName = "CAMSTAB", .permanentId = 8 },
57 { .boxId = BOXNAVRTH, .boxName = "NAV RTH", .permanentId = 10 },
58 { .boxId = BOXNAVPOSHOLD, .boxName = "NAV POSHOLD", .permanentId = 11 },
59 { .boxId = BOXMANUAL, .boxName = "MANUAL", .permanentId = 12 },
60 { .boxId = BOXBEEPERON, .boxName = "BEEPER", .permanentId = 13 },
61 { .boxId = BOXLEDLOW, .boxName = "LEDS OFF", .permanentId = 15 },
62 { .boxId = BOXLIGHTS, .boxName = "LIGHTS", .permanentId = 16 },
63 { .boxId = BOXOSD, .boxName = "OSD OFF", .permanentId = 19 },
64 { .boxId = BOXTELEMETRY, .boxName = "TELEMETRY", .permanentId = 20 },
65 { .boxId = BOXAUTOTUNE, .boxName = "AUTO TUNE", .permanentId = 21 },
66 { .boxId = BOXBLACKBOX, .boxName = "BLACKBOX", .permanentId = 26 },
67 { .boxId = BOXFAILSAFE, .boxName = "FAILSAFE", .permanentId = 27 },
68 { .boxId = BOXNAVWP, .boxName = "NAV WP", .permanentId = 28 },
69 { .boxId = BOXAIRMODE, .boxName = "AIR MODE", .permanentId = 29 },
70 { .boxId = BOXHOMERESET, .boxName = "HOME RESET", .permanentId = 30 },
71 { .boxId = BOXGCSNAV, .boxName = "GCS NAV", .permanentId = 31 },
72 { .boxId = BOXFPVANGLEMIX, .boxName = "FPV ANGLE MIX", .permanentId = 32 },
73 { .boxId = BOXSURFACE, .boxName = "SURFACE", .permanentId = 33 },
74 { .boxId = BOXFLAPERON, .boxName = "FLAPERON", .permanentId = 34 },
75 { .boxId = BOXTURNASSIST, .boxName = "TURN ASSIST", .permanentId = 35 },
76 { .boxId = BOXNAVLAUNCH, .boxName = "NAV LAUNCH", .permanentId = 36 },
77 { .boxId = BOXAUTOTRIM, .boxName = "SERVO AUTOTRIM", .permanentId = 37 },
78 { .boxId = BOXKILLSWITCH, .boxName = "KILLSWITCH", .permanentId = 38 },
79 { .boxId = BOXCAMERA1, .boxName = "CAMERA CONTROL 1", .permanentId = 39 },
80 { .boxId = BOXCAMERA2, .boxName = "CAMERA CONTROL 2", .permanentId = 40 },
81 { .boxId = BOXCAMERA3, .boxName = "CAMERA CONTROL 3", .permanentId = 41 },
82 { .boxId = BOXOSDALT1, .boxName = "OSD ALT 1", .permanentId = 42 },
83 { .boxId = BOXOSDALT2, .boxName = "OSD ALT 2", .permanentId = 43 },
84 { .boxId = BOXOSDALT3, .boxName = "OSD ALT 3", .permanentId = 44 },
85 { .boxId = BOXNAVCOURSEHOLD, .boxName = "NAV COURSE HOLD", .permanentId = 45 },
86 { .boxId = BOXBRAKING, .boxName = "MC BRAKING", .permanentId = 46 },
87 { .boxId = BOXUSER1, .boxName = "USER1", .permanentId = BOX_PERMANENT_ID_USER1 }, // 47
88 { .boxId = BOXUSER2, .boxName = "USER2", .permanentId = BOX_PERMANENT_ID_USER2 }, // 48
89 { .boxId = BOXUSER3, .boxName = "USER3", .permanentId = BOX_PERMANENT_ID_USER3 }, // 57
90 { .boxId = BOXUSER4, .boxName = "USER4", .permanentId = BOX_PERMANENT_ID_USER4 }, // 58
91 { .boxId = BOXLOITERDIRCHN, .boxName = "LOITER CHANGE", .permanentId = 49 },
92 { .boxId = BOXMSPRCOVERRIDE, .boxName = "MSP RC OVERRIDE", .permanentId = 50 },
93 { .boxId = BOXPREARM, .boxName = "PREARM", .permanentId = 51 },
94 { .boxId = BOXTURTLE, .boxName = "TURTLE", .permanentId = 52 },
95 { .boxId = BOXNAVCRUISE, .boxName = "NAV CRUISE", .permanentId = 53 },
96 { .boxId = BOXAUTOLEVEL, .boxName = "AUTO LEVEL", .permanentId = 54 },
97 { .boxId = BOXPLANWPMISSION, .boxName = "WP PLANNER", .permanentId = 55 },
98 { .boxId = BOXSOARING, .boxName = "SOARING", .permanentId = 56 },
99 { .boxId = BOXCHANGEMISSION, .boxName = "MISSION CHANGE", .permanentId = 59 },
100 { .boxId = CHECKBOX_ITEM_COUNT, .boxName = NULL, .permanentId = 0xFF }
103 // this is calculated at startup based on enabled features.
104 static uint8_t activeBoxIds[CHECKBOX_ITEM_COUNT];
105 // this is the number of filled indexes in above array
106 uint8_t activeBoxIdCount = 0;
108 #define RESET_BOX_ID_COUNT activeBoxIdCount = 0
109 #define ADD_ACTIVE_BOX(box) activeBoxIds[activeBoxIdCount++] = box
111 const box_t *findBoxByActiveBoxId(uint8_t activeBoxId)
113 for (uint8_t boxIndex = 0; boxIndex < sizeof(boxes) / sizeof(box_t); boxIndex++) {
114 const box_t *candidate = &boxes[boxIndex];
115 if (candidate->boxId == activeBoxId) {
116 return candidate;
119 return NULL;
122 const box_t *findBoxByPermanentId(uint8_t permenantId)
124 for (uint8_t boxIndex = 0; boxIndex < sizeof(boxes) / sizeof(box_t); boxIndex++) {
125 const box_t *candidate = &boxes[boxIndex];
126 if (candidate->permanentId == permenantId) {
127 return candidate;
130 return NULL;
133 bool serializeBoxNamesReply(sbuf_t *dst)
135 // First run of the loop - calculate total length of the reply
136 int replyLengthTotal = 0;
137 for (int i = 0; i < activeBoxIdCount; i++) {
138 const box_t *box = findBoxByActiveBoxId(activeBoxIds[i]);
139 if (box) {
140 replyLengthTotal += strlen(box->boxName) + BOX_SUFFIX_LEN;
144 // Check if we have enough space to send a reply
145 if (sbufBytesRemaining(dst) < replyLengthTotal) {
146 return false;
149 for (int i = 0; i < activeBoxIdCount; i++) {
150 const int activeBoxId = activeBoxIds[i];
151 const box_t *box = findBoxByActiveBoxId(activeBoxId);
152 if (box) {
153 const int len = strlen(box->boxName);
154 sbufWriteData(dst, box->boxName, len);
155 sbufWriteU8(dst, BOX_SUFFIX);
159 return true;
162 void serializeBoxReply(sbuf_t *dst)
164 for (int i = 0; i < activeBoxIdCount; i++) {
165 const box_t *box = findBoxByActiveBoxId(activeBoxIds[i]);
166 if (!box) {
167 continue;
169 sbufWriteU8(dst, box->permanentId);
173 void initActiveBoxIds(void)
175 // calculate used boxes based on features and fill availableBoxes[] array
176 memset(activeBoxIds, 0xFF, sizeof(activeBoxIds));
178 RESET_BOX_ID_COUNT;
179 ADD_ACTIVE_BOX(BOXARM);
180 ADD_ACTIVE_BOX(BOXPREARM);
182 if (sensors(SENSOR_ACC) && STATE(ALTITUDE_CONTROL)) {
183 ADD_ACTIVE_BOX(BOXANGLE);
184 ADD_ACTIVE_BOX(BOXHORIZON);
185 ADD_ACTIVE_BOX(BOXTURNASSIST);
188 if (!feature(FEATURE_AIRMODE) && STATE(ALTITUDE_CONTROL)) {
189 ADD_ACTIVE_BOX(BOXAIRMODE);
192 ADD_ACTIVE_BOX(BOXHEADINGHOLD);
194 //Camstab mode is enabled always
195 ADD_ACTIVE_BOX(BOXCAMSTAB);
197 if (STATE(MULTIROTOR)) {
198 if ((sensors(SENSOR_ACC) || sensors(SENSOR_MAG))) {
199 ADD_ACTIVE_BOX(BOXHEADFREE);
200 ADD_ACTIVE_BOX(BOXHEADADJ);
202 if (sensors(SENSOR_BARO) && sensors(SENSOR_RANGEFINDER)) {
203 ADD_ACTIVE_BOX(BOXSURFACE);
205 ADD_ACTIVE_BOX(BOXFPVANGLEMIX);
208 bool navReadyAltControl = sensors(SENSOR_BARO);
209 #ifdef USE_GPS
210 navReadyAltControl = navReadyAltControl || (feature(FEATURE_GPS) && (STATE(AIRPLANE) || positionEstimationConfig()->use_gps_no_baro));
212 const bool navFlowDeadReckoning = sensors(SENSOR_OPFLOW) && sensors(SENSOR_ACC) && positionEstimationConfig()->allow_dead_reckoning;
213 bool navReadyPosControl = sensors(SENSOR_ACC) && feature(FEATURE_GPS);
214 if (STATE(MULTIROTOR)) {
215 navReadyPosControl = navReadyPosControl && getHwCompassStatus() != HW_SENSOR_NONE;
218 if (STATE(ALTITUDE_CONTROL) && navReadyAltControl && (navReadyPosControl || navFlowDeadReckoning)) {
219 ADD_ACTIVE_BOX(BOXNAVPOSHOLD);
220 if (STATE(AIRPLANE)) {
221 ADD_ACTIVE_BOX(BOXLOITERDIRCHN);
225 if (navReadyPosControl) {
226 if (!STATE(ALTITUDE_CONTROL) || (STATE(ALTITUDE_CONTROL) && navReadyAltControl)) {
227 ADD_ACTIVE_BOX(BOXNAVRTH);
228 ADD_ACTIVE_BOX(BOXNAVWP);
229 ADD_ACTIVE_BOX(BOXHOMERESET);
230 ADD_ACTIVE_BOX(BOXGCSNAV);
231 ADD_ACTIVE_BOX(BOXPLANWPMISSION);
232 #ifdef USE_MULTI_MISSION
233 ADD_ACTIVE_BOX(BOXCHANGEMISSION);
234 #endif
237 if (STATE(AIRPLANE)) {
238 ADD_ACTIVE_BOX(BOXNAVCRUISE);
239 ADD_ACTIVE_BOX(BOXNAVCOURSEHOLD);
240 ADD_ACTIVE_BOX(BOXSOARING);
244 #ifdef USE_MR_BRAKING_MODE
245 if (mixerConfig()->platformType == PLATFORM_MULTIROTOR) {
246 ADD_ACTIVE_BOX(BOXBRAKING);
248 #endif
249 #endif // GPS
250 if (STATE(ALTITUDE_CONTROL) && navReadyAltControl) {
251 ADD_ACTIVE_BOX(BOXNAVALTHOLD);
254 if (STATE(AIRPLANE) || STATE(ROVER) || STATE(BOAT)) {
255 ADD_ACTIVE_BOX(BOXMANUAL);
258 if (STATE(AIRPLANE)) {
259 if (!feature(FEATURE_FW_LAUNCH)) {
260 ADD_ACTIVE_BOX(BOXNAVLAUNCH);
263 if (!feature(FEATURE_FW_AUTOTRIM)) {
264 ADD_ACTIVE_BOX(BOXAUTOTRIM);
267 #if defined(USE_AUTOTUNE_FIXED_WING)
268 ADD_ACTIVE_BOX(BOXAUTOTUNE);
269 #endif
270 if (sensors(SENSOR_BARO)) {
271 ADD_ACTIVE_BOX(BOXAUTOLEVEL);
276 * FLAPERON mode active only in case of airplane and custom airplane. Activating on
277 * flying wing can cause bad thing
279 if (STATE(FLAPERON_AVAILABLE)) {
280 ADD_ACTIVE_BOX(BOXFLAPERON);
283 ADD_ACTIVE_BOX(BOXBEEPERON);
285 #ifdef USE_LIGHTS
286 ADD_ACTIVE_BOX(BOXLIGHTS);
287 #endif
289 #ifdef USE_LED_STRIP
290 if (feature(FEATURE_LED_STRIP)) {
291 ADD_ACTIVE_BOX(BOXLEDLOW);
293 #endif
295 ADD_ACTIVE_BOX(BOXOSD);
297 #ifdef USE_TELEMETRY
298 if (feature(FEATURE_TELEMETRY) && telemetryConfig()->telemetry_switch) {
299 ADD_ACTIVE_BOX(BOXTELEMETRY);
301 #endif
303 #ifdef USE_BLACKBOX
304 if (feature(FEATURE_BLACKBOX)) {
305 ADD_ACTIVE_BOX(BOXBLACKBOX);
307 #endif
309 ADD_ACTIVE_BOX(BOXKILLSWITCH);
310 ADD_ACTIVE_BOX(BOXFAILSAFE);
312 #ifdef USE_RCDEVICE
313 ADD_ACTIVE_BOX(BOXCAMERA1);
314 ADD_ACTIVE_BOX(BOXCAMERA2);
315 ADD_ACTIVE_BOX(BOXCAMERA3);
316 #endif
318 #ifdef USE_PINIOBOX
319 // USER modes are only used for PINIO at the moment
320 ADD_ACTIVE_BOX(BOXUSER1);
321 ADD_ACTIVE_BOX(BOXUSER2);
322 ADD_ACTIVE_BOX(BOXUSER3);
323 ADD_ACTIVE_BOX(BOXUSER4);
324 #endif
326 #if defined(USE_OSD) && defined(OSD_LAYOUT_COUNT)
327 #if OSD_LAYOUT_COUNT > 0
328 ADD_ACTIVE_BOX(BOXOSDALT1);
329 #if OSD_LAYOUT_COUNT > 1
330 ADD_ACTIVE_BOX(BOXOSDALT2);
331 #if OSD_LAYOUT_COUNT > 2
332 ADD_ACTIVE_BOX(BOXOSDALT3);
333 #endif
334 #endif
335 #endif
336 #endif
338 #if defined(USE_RX_MSP) && defined(USE_MSP_RC_OVERRIDE)
339 ADD_ACTIVE_BOX(BOXMSPRCOVERRIDE);
340 #endif
342 #ifdef USE_DSHOT
343 if(STATE(MULTIROTOR) && isMotorProtocolDshot()) {
344 ADD_ACTIVE_BOX(BOXTURTLE);
346 #endif
349 #define IS_ENABLED(mask) ((mask) == 0 ? 0 : 1)
350 #define CHECK_ACTIVE_BOX(condition, index) do { if (IS_ENABLED(condition)) { activeBoxes[index] = 1; } } while(0)
352 void packBoxModeFlags(boxBitmask_t * mspBoxModeFlags)
354 uint8_t activeBoxes[CHECKBOX_ITEM_COUNT];
355 ZERO_FARRAY(activeBoxes);
357 // Serialize the flags in the order we delivered them, ignoring BOXNAMES and BOXINDEXES
358 // Requires new Multiwii protocol version to fix
359 // It would be preferable to setting the enabled bits based on BOXINDEX.
360 CHECK_ACTIVE_BOX(IS_ENABLED(FLIGHT_MODE(ANGLE_MODE)), BOXANGLE);
361 CHECK_ACTIVE_BOX(IS_ENABLED(FLIGHT_MODE(HORIZON_MODE)), BOXHORIZON);
362 CHECK_ACTIVE_BOX(IS_ENABLED(FLIGHT_MODE(HEADING_MODE)), BOXHEADINGHOLD);
363 CHECK_ACTIVE_BOX(IS_ENABLED(FLIGHT_MODE(HEADFREE_MODE)), BOXHEADFREE);
364 CHECK_ACTIVE_BOX(IS_ENABLED(IS_RC_MODE_ACTIVE(BOXHEADADJ)), BOXHEADADJ);
365 CHECK_ACTIVE_BOX(IS_ENABLED(IS_RC_MODE_ACTIVE(BOXCAMSTAB)), BOXCAMSTAB);
366 CHECK_ACTIVE_BOX(IS_ENABLED(IS_RC_MODE_ACTIVE(BOXFPVANGLEMIX)), BOXFPVANGLEMIX);
367 CHECK_ACTIVE_BOX(IS_ENABLED(FLIGHT_MODE(MANUAL_MODE)), BOXMANUAL);
368 CHECK_ACTIVE_BOX(IS_ENABLED(IS_RC_MODE_ACTIVE(BOXBEEPERON)), BOXBEEPERON);
369 CHECK_ACTIVE_BOX(IS_ENABLED(IS_RC_MODE_ACTIVE(BOXLEDLOW)), BOXLEDLOW);
370 CHECK_ACTIVE_BOX(IS_ENABLED(IS_RC_MODE_ACTIVE(BOXLIGHTS)), BOXLIGHTS);
371 CHECK_ACTIVE_BOX(IS_ENABLED(IS_RC_MODE_ACTIVE(BOXOSD)), BOXOSD);
372 CHECK_ACTIVE_BOX(IS_ENABLED(IS_RC_MODE_ACTIVE(BOXTELEMETRY)), BOXTELEMETRY);
373 CHECK_ACTIVE_BOX(IS_ENABLED(ARMING_FLAG(ARMED)), BOXARM);
374 CHECK_ACTIVE_BOX(IS_ENABLED(IS_RC_MODE_ACTIVE(BOXBLACKBOX)), BOXBLACKBOX);
375 CHECK_ACTIVE_BOX(IS_ENABLED(FLIGHT_MODE(FAILSAFE_MODE)), BOXFAILSAFE);
376 CHECK_ACTIVE_BOX(IS_ENABLED(FLIGHT_MODE(NAV_ALTHOLD_MODE)), BOXNAVALTHOLD);
377 CHECK_ACTIVE_BOX(IS_ENABLED(FLIGHT_MODE(NAV_POSHOLD_MODE)), BOXNAVPOSHOLD);
378 CHECK_ACTIVE_BOX(IS_ENABLED(FLIGHT_MODE(NAV_COURSE_HOLD_MODE)), BOXNAVCOURSEHOLD);
379 CHECK_ACTIVE_BOX(IS_ENABLED(FLIGHT_MODE(NAV_COURSE_HOLD_MODE)) && IS_ENABLED(FLIGHT_MODE(NAV_ALTHOLD_MODE)), BOXNAVCRUISE);
380 CHECK_ACTIVE_BOX(IS_ENABLED(FLIGHT_MODE(NAV_RTH_MODE)), BOXNAVRTH);
381 CHECK_ACTIVE_BOX(IS_ENABLED(FLIGHT_MODE(NAV_WP_MODE)), BOXNAVWP);
382 CHECK_ACTIVE_BOX(IS_ENABLED(IS_RC_MODE_ACTIVE(BOXAIRMODE)), BOXAIRMODE);
383 CHECK_ACTIVE_BOX(IS_ENABLED(IS_RC_MODE_ACTIVE(BOXGCSNAV)), BOXGCSNAV);
384 CHECK_ACTIVE_BOX(IS_ENABLED(FLIGHT_MODE(FLAPERON)), BOXFLAPERON);
385 CHECK_ACTIVE_BOX(IS_ENABLED(FLIGHT_MODE(TURN_ASSISTANT)), BOXTURNASSIST);
386 CHECK_ACTIVE_BOX(IS_ENABLED(FLIGHT_MODE(NAV_LAUNCH_MODE)), BOXNAVLAUNCH);
387 CHECK_ACTIVE_BOX(IS_ENABLED(FLIGHT_MODE(AUTO_TUNE)), BOXAUTOTUNE);
388 CHECK_ACTIVE_BOX(IS_ENABLED(IS_RC_MODE_ACTIVE(BOXAUTOTRIM)), BOXAUTOTRIM);
389 CHECK_ACTIVE_BOX(IS_ENABLED(IS_RC_MODE_ACTIVE(BOXKILLSWITCH)), BOXKILLSWITCH);
390 CHECK_ACTIVE_BOX(IS_ENABLED(IS_RC_MODE_ACTIVE(BOXHOMERESET)), BOXHOMERESET);
391 CHECK_ACTIVE_BOX(IS_ENABLED(IS_RC_MODE_ACTIVE(BOXCAMERA1)), BOXCAMERA1);
392 CHECK_ACTIVE_BOX(IS_ENABLED(IS_RC_MODE_ACTIVE(BOXCAMERA2)), BOXCAMERA2);
393 CHECK_ACTIVE_BOX(IS_ENABLED(IS_RC_MODE_ACTIVE(BOXCAMERA3)), BOXCAMERA3);
394 CHECK_ACTIVE_BOX(IS_ENABLED(IS_RC_MODE_ACTIVE(BOXOSDALT1)), BOXOSDALT1);
395 CHECK_ACTIVE_BOX(IS_ENABLED(IS_RC_MODE_ACTIVE(BOXOSDALT2)), BOXOSDALT2);
396 CHECK_ACTIVE_BOX(IS_ENABLED(IS_RC_MODE_ACTIVE(BOXOSDALT3)), BOXOSDALT3);
397 CHECK_ACTIVE_BOX(IS_ENABLED(navigationTerrainFollowingEnabled()), BOXSURFACE);
398 CHECK_ACTIVE_BOX(IS_ENABLED(IS_RC_MODE_ACTIVE(BOXBRAKING)), BOXBRAKING);
399 CHECK_ACTIVE_BOX(IS_ENABLED(IS_RC_MODE_ACTIVE(BOXUSER1)), BOXUSER1);
400 CHECK_ACTIVE_BOX(IS_ENABLED(IS_RC_MODE_ACTIVE(BOXUSER2)), BOXUSER2);
401 CHECK_ACTIVE_BOX(IS_ENABLED(IS_RC_MODE_ACTIVE(BOXUSER3)), BOXUSER3);
402 CHECK_ACTIVE_BOX(IS_ENABLED(IS_RC_MODE_ACTIVE(BOXUSER4)), BOXUSER4);
403 CHECK_ACTIVE_BOX(IS_ENABLED(IS_RC_MODE_ACTIVE(BOXLOITERDIRCHN)), BOXLOITERDIRCHN);
404 #if defined(USE_RX_MSP) && defined(USE_MSP_RC_OVERRIDE)
405 CHECK_ACTIVE_BOX(IS_ENABLED(IS_RC_MODE_ACTIVE(BOXMSPRCOVERRIDE)), BOXMSPRCOVERRIDE);
406 #endif
407 CHECK_ACTIVE_BOX(IS_ENABLED(IS_RC_MODE_ACTIVE(BOXAUTOLEVEL)), BOXAUTOLEVEL);
408 CHECK_ACTIVE_BOX(IS_ENABLED(IS_RC_MODE_ACTIVE(BOXPLANWPMISSION)), BOXPLANWPMISSION);
409 CHECK_ACTIVE_BOX(IS_ENABLED(IS_RC_MODE_ACTIVE(BOXSOARING)), BOXSOARING);
410 #ifdef USE_MULTI_MISSION
411 CHECK_ACTIVE_BOX(IS_ENABLED(IS_RC_MODE_ACTIVE(BOXCHANGEMISSION)), BOXCHANGEMISSION);
412 #endif
414 memset(mspBoxModeFlags, 0, sizeof(boxBitmask_t));
415 for (uint32_t i = 0; i < activeBoxIdCount; i++) {
416 if (activeBoxes[activeBoxIds[i]]) {
417 bitArraySet(mspBoxModeFlags->bits, i);
422 uint16_t packSensorStatus(void)
424 // Sensor bits
425 uint16_t sensorStatus =
426 IS_ENABLED(sensors(SENSOR_ACC)) << 0 |
427 IS_ENABLED(sensors(SENSOR_BARO)) << 1 |
428 IS_ENABLED(sensors(SENSOR_MAG)) << 2 |
429 IS_ENABLED(sensors(SENSOR_GPS)) << 3 |
430 IS_ENABLED(sensors(SENSOR_RANGEFINDER)) << 4 |
431 IS_ENABLED(sensors(SENSOR_OPFLOW)) << 5 |
432 IS_ENABLED(sensors(SENSOR_PITOT)) << 6 |
433 IS_ENABLED(sensors(SENSOR_TEMP)) << 7;
435 // Hardware failure indication bit
436 if (!isHardwareHealthy()) {
437 sensorStatus |= 1 << 15; // Bit 15 of sensor bit field indicates hardware failure
440 return sensorStatus;