Blackbox device type 'file' (SITL) considered working when file handler is available
[inav.git] / src / main / rx / msp_override.c
blob376eba49e5d83905c9f7f9853d0f93e9f41eac71
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>
21 #include "platform.h"
23 #include "build/build_config.h"
24 #include "build/debug.h"
26 #include "common/maths.h"
27 #include "common/utils.h"
29 #include "config/feature.h"
30 #include "config/parameter_group.h"
31 #include "config/parameter_group_ids.h"
33 #include "drivers/time.h"
35 #include "fc/config.h"
36 #include "fc/rc_controls.h"
37 #include "fc/rc_modes.h"
39 #include "flight/failsafe.h"
41 #include "rx/rx.h"
42 #include "rx/msp.h"
43 #include "rx/msp_override.h"
46 #if defined(USE_RX_MSP) && defined(USE_MSP_RC_OVERRIDE)
48 static bool rxDataProcessingRequired = false;
50 static bool rxSignalReceived = false;
51 static bool rxFlightChannelsValid = false;
52 static bool rxFailsafe = true;
54 static timeMs_t rxDataFailurePeriod;
55 static timeMs_t rxDataRecoveryPeriod;
56 static timeMs_t validRxDataReceivedAt = 0;
57 static timeMs_t validRxDataFailedAt = 0;
59 static timeUs_t rxNextUpdateAtUs = 0;
60 static timeUs_t needRxSignalBefore = 0;
62 static uint16_t mspOverrideCtrlChannels = 0; // bitmask representing which channels are used to control MSP override
63 static rcChannel_t mspRcChannels[MAX_SUPPORTED_RC_CHANNEL_COUNT];
65 static rxRuntimeConfig_t rxRuntimeConfigMSP;
68 void mspOverrideInit(void)
70 timeMs_t nowMs = millis();
72 for (int i = 0; i < MAX_SUPPORTED_RC_CHANNEL_COUNT; i++) {
73 mspRcChannels[i].raw = PWM_RANGE_MIDDLE;
74 mspRcChannels[i].data = PWM_RANGE_MIDDLE;
75 mspRcChannels[i].expiresAt = nowMs + MAX_INVALID_RX_PULSE_TIME;
78 mspRcChannels[THROTTLE].raw = (feature(FEATURE_REVERSIBLE_MOTORS)) ? PWM_RANGE_MIDDLE : rxConfig()->rx_min_usec;
79 mspRcChannels[THROTTLE].data = mspRcChannels[THROTTLE].raw;
81 // Initialize ARM switch to OFF position when arming via switch is defined
82 for (int i = 0; i < MAX_MODE_ACTIVATION_CONDITION_COUNT; i++) {
83 if (modeActivationConditions(i)->modeId == BOXARM && IS_RANGE_USABLE(&modeActivationConditions(i)->range)) {
84 // ARM switch is defined, determine an OFF value
85 uint16_t value;
86 if (modeActivationConditions(i)->range.startStep > 0) {
87 value = MODE_STEP_TO_CHANNEL_VALUE((modeActivationConditions(i)->range.startStep - 1));
88 } else {
89 value = MODE_STEP_TO_CHANNEL_VALUE((modeActivationConditions(i)->range.endStep + 1));
91 // Initialize ARM AUX channel to OFF value
92 rcChannel_t *armChannel = &mspRcChannels[modeActivationConditions(i)->auxChannelIndex + NON_AUX_CHANNEL_COUNT];
93 armChannel->raw = value;
94 armChannel->data = value;
97 // Find which channels are used to control MSP override
98 if (modeActivationConditions(i)->modeId == BOXMSPRCOVERRIDE && IS_RANGE_USABLE(&modeActivationConditions(i)->range)) {
99 mspOverrideCtrlChannels |= 1 << (modeActivationConditions(i)->auxChannelIndex + NON_AUX_CHANNEL_COUNT);
103 rxDataFailurePeriod = PERIOD_RXDATA_FAILURE + failsafeConfig()->failsafe_delay * MILLIS_PER_TENTH_SECOND;
104 rxDataRecoveryPeriod = PERIOD_RXDATA_RECOVERY + failsafeConfig()->failsafe_recovery_delay * MILLIS_PER_TENTH_SECOND;
106 rxMspInit(rxConfig(), &rxRuntimeConfigMSP);
109 bool mspOverrideIsReceivingSignal(void)
111 return rxSignalReceived;
114 bool mspOverrideAreFlightChannelsValid(void)
116 return rxFlightChannelsValid;
119 bool mspOverrideIsInFailsafe(void)
121 return rxFailsafe;
124 bool mspOverrideUpdateCheck(timeUs_t currentTimeUs, timeDelta_t currentDeltaTime)
126 UNUSED(currentDeltaTime);
128 if (rxSignalReceived) {
129 if (currentTimeUs >= needRxSignalBefore) {
130 rxSignalReceived = false;
134 const uint8_t frameStatus = rxRuntimeConfigMSP.rcFrameStatusFn(&rxRuntimeConfigMSP);
135 if (frameStatus & RX_FRAME_COMPLETE) {
136 rxDataProcessingRequired = true;
137 rxSignalReceived = true;
138 needRxSignalBefore = currentTimeUs + rxRuntimeConfigMSP.rxSignalTimeout;
141 if (cmpTimeUs(currentTimeUs, rxNextUpdateAtUs) > 0) {
142 rxDataProcessingRequired = true;
145 return rxDataProcessingRequired; // data driven or 50Hz
148 bool mspOverrideCalculateChannels(timeUs_t currentTimeUs)
150 int16_t rcStaging[MAX_SUPPORTED_RC_CHANNEL_COUNT];
151 const timeMs_t currentTimeMs = millis();
153 if (!rxDataProcessingRequired) {
154 return false;
157 rxDataProcessingRequired = false;
158 rxNextUpdateAtUs = currentTimeUs + DELAY_50_HZ;
160 rxFlightChannelsValid = true;
162 // Read and process channel data
163 for (int channel = 0; channel < rxRuntimeConfigMSP.channelCount; channel++) {
164 const uint8_t rawChannel = calculateChannelRemapping(rxConfig()->rcmap, REMAPPABLE_CHANNEL_COUNT, channel);
166 // sample the channel
167 uint16_t sample = (*rxRuntimeConfigMSP.rcReadRawFn)(&rxRuntimeConfigMSP, rawChannel);
169 // apply the rx calibration to flight channel
170 if (channel < NON_AUX_CHANNEL_COUNT && sample != 0) {
171 sample = scaleRange(sample, rxChannelRangeConfigs(channel)->min, rxChannelRangeConfigs(channel)->max, PWM_RANGE_MIN, PWM_RANGE_MAX);
172 sample = MIN(MAX(PWM_PULSE_MIN, sample), PWM_PULSE_MAX);
175 // Store as rxRaw
176 mspRcChannels[channel].raw = sample;
178 // Apply invalid pulse value logic
179 if (!isRxPulseValid(sample)) {
180 sample = mspRcChannels[channel].data; // hold channel, replace with old value
181 if ((currentTimeMs > mspRcChannels[channel].expiresAt) && (channel < NON_AUX_CHANNEL_COUNT)) {
182 rxFlightChannelsValid = false;
184 } else {
185 mspRcChannels[channel].expiresAt = currentTimeMs + MAX_INVALID_RX_PULSE_TIME;
188 // Save channel value
189 rcStaging[channel] = sample;
192 // Update channel input value if receiver is not in failsafe mode
193 // If receiver is in failsafe (not receiving signal or sending invalid channel values) - last good input values are retained
194 if (rxFlightChannelsValid && rxSignalReceived) {
195 for (int channel = 0; channel < rxRuntimeConfigMSP.channelCount; channel++) {
196 mspRcChannels[channel].data = rcStaging[channel];
200 // Update failsafe
201 if (rxFlightChannelsValid && rxSignalReceived) {
202 validRxDataReceivedAt = millis();
203 if ((validRxDataReceivedAt - validRxDataFailedAt) > rxDataRecoveryPeriod) {
204 rxFailsafe = false;
206 } else {
207 validRxDataFailedAt = millis();
208 if ((validRxDataFailedAt - validRxDataReceivedAt) > rxDataFailurePeriod) {
209 rxFailsafe = true;
213 return true;
216 void mspOverrideChannels(rcChannel_t *rcChannels)
218 for (uint16_t channel = 0, channelMask = 1; channel < rxRuntimeConfigMSP.channelCount; ++channel, channelMask <<= 1) {
219 if (rxConfig()->mspOverrideChannels & ~mspOverrideCtrlChannels & channelMask) {
220 rcChannels[channel].raw = rcChannels[channel].data = mspRcChannels[channel].data;
225 int16_t mspOverrideGetChannelValue(unsigned channelNumber)
227 return mspRcChannels[channelNumber].data;
230 int16_t mspOverrideGetRawChannelValue(unsigned channelNumber)
232 return mspRcChannels[channelNumber].raw;
235 #endif // defined(USE_RX_MSP) && defined(USE_MSP_RC_OVERRIDE)