GPS Rescue procedure can be aborted by moving sticks, with a configurable delay after recovering rx

src/main/cli/settings.c

@@ -746,6 +746,8 @@ const clivalue_t valueTable[] = {
     { "failsafe_switch_mode",       VAR_UINT8  | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_FAILSAFE_SWITCH_MODE }, PG_FAILSAFE_CONFIG, offsetof(failsafeConfig_t, failsafe_switch_mode) },
     { "failsafe_throttle_low_delay",VAR_UINT16 | MASTER_VALUE, .config.minmaxUnsigned = { 0, 300 }, PG_FAILSAFE_CONFIG, offsetof(failsafeConfig_t, failsafe_throttle_low_delay) },
     { "failsafe_procedure",         VAR_UINT8  | MASTER_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_FAILSAFE }, PG_FAILSAFE_CONFIG, offsetof(failsafeConfig_t, failsafe_procedure) },
+    { "failsafe_recovery_delay",    VAR_UINT16 | MASTER_VALUE, .config.minmaxUnsigned = { 0, 200 }, PG_FAILSAFE_CONFIG, offsetof(failsafeConfig_t, failsafe_recovery_delay) },
+    { "failsafe_stick_threshold",   VAR_UINT8  | MASTER_VALUE, .config.minmaxUnsigned = { 0, 50 }, PG_FAILSAFE_CONFIG, offsetof(failsafeConfig_t, failsafe_stick_threshold) },
 
 // PG_BOARDALIGNMENT_CONFIG
     { "align_board_roll",           VAR_INT16  | MASTER_VALUE, .config.minmax = { -180, 360 }, PG_BOARD_ALIGNMENT, offsetof(boardAlignment_t, rollDegrees) },

src/main/fc/core.c

@@ -579,7 +579,7 @@ static bool canUpdateVTX(void)
 }
 #endif
 
-#ifdef USE_RUNAWAY_TAKEOFF
+#if defined(USE_RUNAWAY_TAKEOFF) || defined(USE_GPS_RESCUE)
 // determine if the R/P/Y stick deflection exceeds the specified limit - integer math is good enough here.
 bool areSticksActive(uint8_t stickPercentLimit)
 {
@@ -601,8 +601,9 @@ bool areSticksActive(uint8_t stickPercentLimit)
     }
     return false;
 }
+#endif
 
-
+#ifdef USE_RUNAWAY_TAKEOFF
 // allow temporarily disabling runaway takeoff prevention if we are connected
 // to the configurator and the ARMING_DISABLED_MSP flag is cleared.
 void runawayTakeoffTemporaryDisable(uint8_t disableFlag)

src/main/fc/core.h

@@ -67,6 +67,11 @@ void updateArmingStatus(void);
 
 void taskMainPidLoop(timeUs_t currentTimeUs);
 
+#if defined(USE_RUNAWAY_TAKEOFF) || defined(USE_GPS_RESCUE)
+// determine if the R/P/Y stick deflection exceeds the specified limit - integer math is good enough here.
+bool areSticksActive(uint8_t stickPercentLimit);
+#endif
+
 bool isFlipOverAfterCrashActive(void);
 int8_t calculateThrottlePercent(void);
 uint8_t calculateThrottlePercentAbs(void);

src/main/flight/failsafe.c

@@ -69,7 +69,9 @@ PG_RESET_TEMPLATE(failsafeConfig_t, failsafeConfig,
     .failsafe_delay = 4,                             // 0,4sec
     .failsafe_off_delay = 10,                        // 1sec
     .failsafe_switch_mode = 0,                       // default failsafe switch action is identical to rc link loss
-    .failsafe_procedure = FAILSAFE_PROCEDURE_DROP_IT // default full failsafe procedure is 0: auto-landing
+    .failsafe_procedure = FAILSAFE_PROCEDURE_DROP_IT,// default full failsafe procedure is 0: auto-landing
+    .failsafe_recovery_delay = 20,                   // 2 sec of valid rx data (plus 200ms) needed to allow recovering from failsafe procedure
+    .failsafe_stick_threshold = 30                   // 30 percent of stick deflection to exit GPS Rescue procedure
 );
 
 const char * const failsafeProcedureNames[FAILSAFE_PROCEDURE_COUNT] = {
@@ -263,12 +265,10 @@ void failsafeUpdateState(void)
                             // Drop the craft
                             failsafeActivate();
                             failsafeState.phase = FAILSAFE_LANDED;      // skip auto-landing procedure
-                            failsafeState.receivingRxDataPeriodPreset = PERIOD_OF_3_SECONDS; // require 3 seconds of valid rxData
                             break;
                         case FAILSAFE_PROCEDURE_GPS_RESCUE:
                             failsafeActivate();
                             failsafeState.phase = FAILSAFE_GPS_RESCUE;
-                            failsafeState.receivingRxDataPeriodPreset = PERIOD_OF_3_SECONDS;
                             break;
                     }
                 }
@@ -277,9 +277,11 @@ void failsafeUpdateState(void)
 
             case FAILSAFE_LANDING:
                 if (receivingRxData) {
+                    if ((failsafeState.validRxDataReceivedAt - failsafeState.validRxDataFailedAt) > (failsafeConfig()->failsafe_recovery_delay * MILLIS_PER_TENTH_SECOND + PERIOD_RXDATA_RECOVERY)) {
                         failsafeState.phase = FAILSAFE_RX_LOSS_RECOVERED;
                         reprocessState = true;
                     }
+                }
                 if (armed) {
                     failsafeApplyControlInput();
                     beeperMode = BEEPER_RX_LOST_LANDING;
@@ -292,9 +294,13 @@ void failsafeUpdateState(void)
                 break;
             case FAILSAFE_GPS_RESCUE:
                 if (receivingRxData) {
+                    if ((failsafeState.validRxDataReceivedAt - failsafeState.validRxDataFailedAt) > (failsafeConfig()->failsafe_recovery_delay * MILLIS_PER_TENTH_SECOND + PERIOD_RXDATA_RECOVERY)) {
+                        if (areSticksActive(failsafeConfig()->failsafe_stick_threshold)) {
                             failsafeState.phase = FAILSAFE_RX_LOSS_RECOVERED;
                             reprocessState = true;
                         }
+                    }
+                }
                 if (armed) {
                     failsafeApplyControlInput();
                     beeperMode = BEEPER_RX_LOST_LANDING;

src/main/flight/failsafe.h

@@ -39,6 +39,8 @@ typedef struct failsafeConfig_s {
     uint8_t failsafe_off_delay;             // Time for Landing before motors stop in 0.1sec. 1 step = 0.1sec - 20sec in example (200)
     uint8_t failsafe_switch_mode;           // failsafe switch action is 0: stage1 (identical to rc link loss), 1: disarms instantly, 2: stage2
     uint8_t failsafe_procedure;             // selected full failsafe procedure is 0: auto-landing, 1: Drop it
+    uint16_t failsafe_recovery_delay;       // Time (in 0.1sec) of valid rx data (plus 200ms) needed to allow recovering from failsafe procedure
+    uint8_t failsafe_stick_threshold;       // Stick deflection percentage to exit GPS Rescue procedure
 } failsafeConfig_t;
 
 PG_DECLARE(failsafeConfig_t, failsafeConfig);
@@ -77,9 +79,9 @@ typedef struct failsafeState_s {
     int16_t events;
     bool monitoring;
     bool active;
-    uint32_t rxDataFailurePeriod;
-    uint32_t validRxDataReceivedAt;
-    uint32_t validRxDataFailedAt;
+    int32_t rxDataFailurePeriod;
+    int32_t validRxDataReceivedAt;
+    int32_t validRxDataFailedAt;
     uint32_t throttleLowPeriod;             // throttle stick must have been below 'min_check' for this period
     uint32_t landingShouldBeFinishedAt;
     uint32_t receivingRxDataPeriod;         // period for the required period of valid rxData

src/test/Makefile

@@ -127,6 +127,9 @@ flight_failsafe_unittest_SRC := \
 		$(USER_DIR)/fc/runtime_config.c \
 		$(USER_DIR)/flight/failsafe.c
 
+flight_failsafe_unittest_DEFINES := \
+		USE_GPS_RESCUE=
+
 
 flight_imu_unittest_SRC := \
 		$(USER_DIR)/common/bitarray.c \

src/test/unit/flight_failsafe_unittest.cc

@@ -589,6 +589,11 @@ bool isUsingSticksForArming(void)
     return isUsingSticksToArm;
 }
 
+bool areSticksActive(uint8_t stickPercentLimit) {
+    UNUSED(stickPercentLimit);
+    return false;
+}
+
 void beeperConfirmationBeeps(uint8_t beepCount) { UNUSED(beepCount); }
 
 bool crashRecoveryModeActive(void) { return false; }