remove test code
[inav.git] / src / main / rx / crsf.c
bloba791b2e9dd86701daffe3eaa2fb8cffeb5f9b055
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 <stdlib.h>
21 #include <string.h>
23 #include "platform.h"
24 #ifdef USE_SERIALRX_CRSF
26 #include "build/build_config.h"
27 #include "build/debug.h"
29 #include "common/crc.h"
30 #include "common/maths.h"
31 #include "common/utils.h"
33 #include "drivers/time.h"
34 #include "drivers/serial.h"
35 #include "drivers/serial_uart.h"
37 #include "io/serial.h"
38 #include "io/osd.h"
40 #include "rx/rx.h"
41 #include "rx/crsf.h"
43 #include "telemetry/crsf.h"
44 #define CRSF_TIME_NEEDED_PER_FRAME_US 1100 // 700 ms + 400 ms for potential ad-hoc request
45 #define CRSF_TIME_BETWEEN_FRAMES_US 6667 // At fastest, frames are sent by the transmitter every 6.667 milliseconds, 150 Hz
47 #define CRSF_DIGITAL_CHANNEL_MIN 172
48 #define CRSF_DIGITAL_CHANNEL_MAX 1811
49 #define CRSF_PAYLOAD_OFFSET offsetof(crsfFrameDef_t, type)
50 #define CRSF_POWER_COUNT 9
52 STATIC_UNIT_TESTED bool crsfFrameDone = false;
53 STATIC_UNIT_TESTED crsfFrame_t crsfFrame;
55 STATIC_UNIT_TESTED uint32_t crsfChannelData[CRSF_MAX_CHANNEL];
57 static serialPort_t *serialPort;
58 static timeUs_t crsfFrameStartAt = 0;
59 static uint8_t telemetryBuf[CRSF_FRAME_SIZE_MAX];
60 static uint8_t telemetryBufLen = 0;
62 const uint16_t crsfTxPowerStatesmW[CRSF_POWER_COUNT] = {0, 10, 25, 100, 500, 1000, 2000, 250, 50};
65 * CRSF protocol
67 * CRSF protocol uses a single wire half duplex uart connection.
68 * The master sends one frame every 4ms and the slave replies between two frames from the master.
70 * 420000 baud
71 * not inverted
72 * 8 Bit
73 * 1 Stop bit
74 * Big endian
75 * 420000 bit/s = 46667 byte/s (including stop bit) = 21.43us per byte
76 * Max frame size is 64 bytes
77 * A 64 byte frame plus 1 sync byte can be transmitted in 1393 microseconds.
79 * CRSF_TIME_NEEDED_PER_FRAME_US is set conservatively at 1500 microseconds
81 * Every frame has the structure:
82 * <Device address> <Frame length> < Type> <Payload> < CRC>
84 * Device address: (uint8_t)
85 * Frame length: length in bytes including Type (uint8_t)
86 * Type: (uint8_t)
87 * CRC: (uint8_t)
91 struct crsfPayloadRcChannelsPacked_s {
92 // 176 bits of data (11 bits per channel * 16 channels) = 22 bytes.
93 unsigned int chan0 : 11;
94 unsigned int chan1 : 11;
95 unsigned int chan2 : 11;
96 unsigned int chan3 : 11;
97 unsigned int chan4 : 11;
98 unsigned int chan5 : 11;
99 unsigned int chan6 : 11;
100 unsigned int chan7 : 11;
101 unsigned int chan8 : 11;
102 unsigned int chan9 : 11;
103 unsigned int chan10 : 11;
104 unsigned int chan11 : 11;
105 unsigned int chan12 : 11;
106 unsigned int chan13 : 11;
107 unsigned int chan14 : 11;
108 unsigned int chan15 : 11;
109 } __attribute__ ((__packed__));
111 typedef struct crsfPayloadRcChannelsPacked_s crsfPayloadRcChannelsPacked_t;
113 typedef struct crsfPayloadLinkStatistics_s {
114 uint8_t uplinkRSSIAnt1;
115 uint8_t uplinkRSSIAnt2;
116 uint8_t uplinkLQ;
117 int8_t uplinkSNR;
118 uint8_t activeAntenna;
119 uint8_t rfMode;
120 uint8_t uplinkTXPower;
121 uint8_t downlinkRSSI;
122 uint8_t downlinkLQ;
123 int8_t downlinkSNR;
124 } __attribute__ ((__packed__)) crsfPayloadLinkStatistics_t;
126 typedef struct crsfPayloadLinkStatistics_s crsfPayloadLinkStatistics_t;
128 STATIC_UNIT_TESTED uint8_t crsfFrameCRC(void)
130 // CRC includes type and payload
131 uint8_t crc = crc8_dvb_s2(0, crsfFrame.frame.type);
132 for (int ii = 0; ii < crsfFrame.frame.frameLength - CRSF_FRAME_LENGTH_TYPE_CRC; ++ii) {
133 crc = crc8_dvb_s2(crc, crsfFrame.frame.payload[ii]);
135 return crc;
138 // Receive ISR callback, called back from serial port
139 STATIC_UNIT_TESTED void crsfDataReceive(uint16_t c, void *rxCallbackData)
141 UNUSED(rxCallbackData);
143 static uint8_t crsfFramePosition = 0;
144 const timeUs_t now = micros();
146 #ifdef DEBUG_CRSF_PACKETS
147 debug[2] = now - crsfFrameStartAt;
148 #endif
150 if (now > crsfFrameStartAt + CRSF_TIME_NEEDED_PER_FRAME_US) {
151 // We've received a character after max time needed to complete a frame,
152 // so this must be the start of a new frame.
153 crsfFramePosition = 0;
156 if (crsfFramePosition == 0) {
157 crsfFrameStartAt = now;
159 // assume frame is 5 bytes long until we have received the frame length
160 // full frame length includes the length of the address and framelength fields
161 const int fullFrameLength = crsfFramePosition < 3 ? 5 : crsfFrame.frame.frameLength + CRSF_FRAME_LENGTH_ADDRESS + CRSF_FRAME_LENGTH_FRAMELENGTH;
163 if (crsfFramePosition < fullFrameLength) {
164 crsfFrame.bytes[crsfFramePosition++] = (uint8_t)c;
165 crsfFrameDone = crsfFramePosition < fullFrameLength ? false : true;
166 if (crsfFrameDone) {
167 crsfFramePosition = 0;
168 if (crsfFrame.frame.type != CRSF_FRAMETYPE_RC_CHANNELS_PACKED) {
169 const uint8_t crc = crsfFrameCRC();
170 if (crc == crsfFrame.bytes[fullFrameLength - 1]) {
171 switch (crsfFrame.frame.type)
173 #if defined(USE_MSP_OVER_TELEMETRY)
174 case CRSF_FRAMETYPE_MSP_REQ:
175 case CRSF_FRAMETYPE_MSP_WRITE: {
176 uint8_t *frameStart = (uint8_t *)&crsfFrame.frame.payload + CRSF_FRAME_ORIGIN_DEST_SIZE;
177 if (bufferCrsfMspFrame(frameStart, CRSF_FRAME_RX_MSP_FRAME_SIZE)) {
178 crsfScheduleMspResponse();
180 break;
182 #endif
183 default:
184 break;
192 STATIC_UNIT_TESTED uint8_t crsfFrameStatus(rxRuntimeConfig_t *rxRuntimeConfig)
194 UNUSED(rxRuntimeConfig);
196 if (crsfFrameDone) {
197 crsfFrameDone = false;
198 if (crsfFrame.frame.type == CRSF_FRAMETYPE_RC_CHANNELS_PACKED) {
199 // CRC includes type and payload of each frame
200 const uint8_t crc = crsfFrameCRC();
201 if (crc != crsfFrame.frame.payload[CRSF_FRAME_RC_CHANNELS_PAYLOAD_SIZE]) {
202 return RX_FRAME_PENDING;
204 crsfFrame.frame.frameLength = CRSF_FRAME_RC_CHANNELS_PAYLOAD_SIZE + CRSF_FRAME_LENGTH_TYPE_CRC;
206 // unpack the RC channels
207 const crsfPayloadRcChannelsPacked_t* rcChannels = (crsfPayloadRcChannelsPacked_t*)&crsfFrame.frame.payload;
208 crsfChannelData[0] = rcChannels->chan0;
209 crsfChannelData[1] = rcChannels->chan1;
210 crsfChannelData[2] = rcChannels->chan2;
211 crsfChannelData[3] = rcChannels->chan3;
212 crsfChannelData[4] = rcChannels->chan4;
213 crsfChannelData[5] = rcChannels->chan5;
214 crsfChannelData[6] = rcChannels->chan6;
215 crsfChannelData[7] = rcChannels->chan7;
216 crsfChannelData[8] = rcChannels->chan8;
217 crsfChannelData[9] = rcChannels->chan9;
218 crsfChannelData[10] = rcChannels->chan10;
219 crsfChannelData[11] = rcChannels->chan11;
220 crsfChannelData[12] = rcChannels->chan12;
221 crsfChannelData[13] = rcChannels->chan13;
222 crsfChannelData[14] = rcChannels->chan14;
223 crsfChannelData[15] = rcChannels->chan15;
224 return RX_FRAME_COMPLETE;
226 else if (crsfFrame.frame.type == CRSF_FRAMETYPE_LINK_STATISTICS) {
227 // CRC includes type and payload of each frame
228 const uint8_t crc = crsfFrameCRC();
229 if (crc != crsfFrame.frame.payload[CRSF_FRAME_LINK_STATISTICS_PAYLOAD_SIZE]) {
230 return RX_FRAME_PENDING;
232 crsfFrame.frame.frameLength = CRSF_FRAME_LINK_STATISTICS_PAYLOAD_SIZE + CRSF_FRAME_LENGTH_TYPE_CRC;
234 const crsfPayloadLinkStatistics_t* linkStats = (crsfPayloadLinkStatistics_t*)&crsfFrame.frame.payload;
235 const uint8_t crsftxpowerindex = (linkStats->uplinkTXPower < CRSF_POWER_COUNT) ? linkStats->uplinkTXPower : 0;
237 rxLinkStatistics.uplinkRSSI = -1* (linkStats->activeAntenna ? linkStats->uplinkRSSIAnt2 : linkStats->uplinkRSSIAnt1);
238 rxLinkStatistics.uplinkLQ = linkStats->uplinkLQ;
239 rxLinkStatistics.uplinkSNR = linkStats->uplinkSNR;
240 rxLinkStatistics.rfMode = linkStats->rfMode;
241 rxLinkStatistics.uplinkTXPower = crsfTxPowerStatesmW[crsftxpowerindex];
242 rxLinkStatistics.activeAntenna = linkStats->activeAntenna;
244 #ifdef USE_OSD
245 if (rxLinkStatistics.uplinkLQ > 0) {
246 int16_t uplinkStrength; // RSSI dBm converted to %
247 uplinkStrength = constrain((100 * sq((osdConfig()->rssi_dbm_max - osdConfig()->rssi_dbm_min)) - (100 * sq((osdConfig()->rssi_dbm_max - rxLinkStatistics.uplinkRSSI)))) / sq((osdConfig()->rssi_dbm_max - osdConfig()->rssi_dbm_min)),0,100);
248 if (rxLinkStatistics.uplinkRSSI >= osdConfig()->rssi_dbm_max )
249 uplinkStrength = 99;
250 else if (rxLinkStatistics.uplinkRSSI < osdConfig()->rssi_dbm_min)
251 uplinkStrength = 0;
252 lqTrackerSet(rxRuntimeConfig->lqTracker, scaleRange(uplinkStrength, 0, 99, 0, RSSI_MAX_VALUE));
253 } else {
254 lqTrackerSet(rxRuntimeConfig->lqTracker, 0);
256 #endif
257 // This is not RC channels frame, update channel value but don't indicate frame completion
258 return RX_FRAME_PENDING;
261 return RX_FRAME_PENDING;
264 STATIC_UNIT_TESTED uint16_t crsfReadRawRC(const rxRuntimeConfig_t *rxRuntimeConfig, uint8_t chan)
266 UNUSED(rxRuntimeConfig);
267 /* conversion from RC value to PWM
268 * RC PWM
269 * min 172 -> 988us
270 * mid 992 -> 1500us
271 * max 1811 -> 2012us
272 * scale factor = (2012-988) / (1811-172) = 0.62477120195241
273 * offset = 988 - 172 * 0.62477120195241 = 880.53935326418548
275 return (crsfChannelData[chan] * 1024 / 1639) + 881;
278 void crsfRxWriteTelemetryData(const void *data, int len)
280 len = MIN(len, (int)sizeof(telemetryBuf));
281 memcpy(telemetryBuf, data, len);
282 telemetryBufLen = len;
285 void crsfRxSendTelemetryData(void)
287 // if there is telemetry data to write
288 if (telemetryBufLen > 0) {
289 // check that we are not in bi dir mode or that we are not currently receiving data (ie in the middle of an RX frame)
290 // and that there is time to send the telemetry frame before the next RX frame arrives
291 if (CRSF_PORT_OPTIONS & SERIAL_BIDIR) {
292 const timeDelta_t timeSinceStartOfFrame = cmpTimeUs(micros(), crsfFrameStartAt);
293 if ((timeSinceStartOfFrame < CRSF_TIME_NEEDED_PER_FRAME_US) ||
294 (timeSinceStartOfFrame > CRSF_TIME_BETWEEN_FRAMES_US - CRSF_TIME_NEEDED_PER_FRAME_US)) {
295 return;
298 serialWriteBuf(serialPort, telemetryBuf, telemetryBufLen);
299 telemetryBufLen = 0; // reset telemetry buffer
303 bool crsfRxInit(const rxConfig_t *rxConfig, rxRuntimeConfig_t *rxRuntimeConfig)
305 for (int ii = 0; ii < CRSF_MAX_CHANNEL; ++ii) {
306 crsfChannelData[ii] = (16 * PWM_RANGE_MIDDLE) / 10 - 1408;
309 rxRuntimeConfig->channelCount = CRSF_MAX_CHANNEL;
310 rxRuntimeConfig->rcReadRawFn = crsfReadRawRC;
311 rxRuntimeConfig->rcFrameStatusFn = crsfFrameStatus;
313 const serialPortConfig_t *portConfig = findSerialPortConfig(FUNCTION_RX_SERIAL);
314 if (!portConfig) {
315 return false;
318 serialPort = openSerialPort(portConfig->identifier,
319 FUNCTION_RX_SERIAL,
320 crsfDataReceive,
321 NULL,
322 CRSF_BAUDRATE,
323 CRSF_PORT_MODE,
324 CRSF_PORT_OPTIONS | (tristateWithDefaultOffIsActive(rxConfig->halfDuplex) ? SERIAL_BIDIR : 0)
327 return serialPort != NULL;
330 bool crsfRxIsActive(void)
332 return serialPort != NULL;
336 void crsfBind(void)
338 if (serialPort != NULL) {
339 uint8_t bindFrame[] = {
340 CRSF_SYNC_BYTE,
341 0x07, // frame length
342 CRSF_FRAMETYPE_COMMAND,
343 CRSF_ADDRESS_CRSF_RECEIVER,
344 CRSF_ADDRESS_FLIGHT_CONTROLLER,
345 CRSF_COMMAND_SUBCMD_RX,
346 CRSF_COMMAND_SUBCMD_RX_BIND,
347 0x9E, // Command CRC8
348 0xE8, // Packet CRC8
350 serialWriteBuf(serialPort, bindFrame, 9);
354 #endif