vtx: fix VTX_SETTINGS_POWER_COUNT and add dummy entries to saPowerNames
[inav.git] / src / main / rx / fport.c
blob0ef3e8b2b63afefc8a16a37c3b69a9a2be06d10d
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"
25 #if defined(USE_SERIAL_RX)
27 #include "build/debug.h"
29 #include "common/maths.h"
30 #include "common/utils.h"
32 #include "drivers/time.h"
34 #include "io/serial.h"
36 #ifdef USE_TELEMETRY
37 #include "telemetry/telemetry.h"
38 #endif
39 #include "telemetry/smartport.h"
41 #include "rx/frsky_crc.h"
42 #include "rx/rx.h"
43 #include "rx/sbus_channels.h"
44 #include "rx/fport.h"
47 #define FPORT_TIME_NEEDED_PER_FRAME_US 3000
48 #define FPORT_MAX_TELEMETRY_RESPONSE_DELAY_US 2000
49 #define FPORT_MIN_TELEMETRY_RESPONSE_DELAY_US 500
50 #define FPORT_MAX_TELEMETRY_AGE_MS 500
52 #define FPORT_TELEMETRY_MAX_CONSECUTIVE_TELEMETRY_FRAMES 2
55 #define FPORT_FRAME_MARKER 0x7E
57 #define FPORT_ESCAPE_CHAR 0x7D
58 #define FPORT_ESCAPE_MASK 0x20
60 #define FPORT_BAUDRATE 115200
62 #define FPORT_PORT_OPTIONS (SERIAL_STOPBITS_1 | SERIAL_PARITY_NO)
64 enum {
65 DEBUG_FPORT_FRAME_INTERVAL = 0,
66 DEBUG_FPORT_FRAME_ERRORS,
67 DEBUG_FPORT_FRAME_LAST_ERROR,
68 DEBUG_FPORT_TELEMETRY_INTERVAL,
71 enum {
72 DEBUG_FPORT_NO_ERROR = 0,
73 DEBUG_FPORT_ERROR_TIMEOUT,
74 DEBUG_FPORT_ERROR_OVERSIZE,
75 DEBUG_FPORT_ERROR_SIZE,
76 DEBUG_FPORT_ERROR_CHECKSUM,
77 DEBUG_FPORT_ERROR_TYPE,
78 DEBUG_FPORT_ERROR_TYPE_SIZE,
81 enum {
82 FPORT_FRAME_TYPE_CONTROL = 0x00,
83 FPORT_FRAME_TYPE_TELEMETRY_REQUEST = 0x01,
84 FPORT_FRAME_TYPE_TELEMETRY_RESPONSE = 0x81,
88 enum {
89 FPORT_FRAME_ID_NULL = 0x00, // (master/slave)
90 FPORT_FRAME_ID_DATA = 0x10, // (master/slave)
91 FPORT_FRAME_ID_READ = 0x30, // (master)
92 FPORT_FRAME_ID_WRITE = 0x31, // (master)
93 FPORT_FRAME_ID_RESPONSE = 0x32, // (slave)
96 typedef struct fportControlData_s {
97 sbusChannels_t channels;
98 uint8_t rssi;
99 } fportControlData_t;
101 typedef union fportData_s {
102 fportControlData_t controlData;
103 smartPortPayload_t telemetryData;
104 } fportData_t;
106 typedef struct fportFrame_s {
107 uint8_t type;
108 fportData_t data;
109 } fportFrame_t;
111 #if defined(USE_SERIALRX_FPORT)
113 #if defined(USE_TELEMETRY_SMARTPORT)
115 static bool telemetryEnabled = false;
117 static const smartPortPayload_t emptySmartPortFrame = { .frameId = 0, .valueId = 0, .data = 0 };
119 #endif // USE_TELEMETRY_SMARTPORT
121 #define FPORT_REQUEST_FRAME_LENGTH sizeof(fportFrame_t)
122 #define FPORT_RESPONSE_FRAME_LENGTH (sizeof(uint8_t) + sizeof(smartPortPayload_t))
124 #define FPORT_FRAME_PAYLOAD_LENGTH_CONTROL (sizeof(uint8_t) + sizeof(fportControlData_t))
125 #define FPORT_FRAME_PAYLOAD_LENGTH_TELEMETRY_REQUEST (sizeof(uint8_t) + sizeof(smartPortPayload_t))
127 #define NUM_RX_BUFFERS 3
128 #define BUFFER_SIZE (FPORT_REQUEST_FRAME_LENGTH + 2 * sizeof(uint8_t))
130 typedef struct fportBuffer_s {
131 uint8_t data[BUFFER_SIZE];
132 uint8_t length;
133 } fportBuffer_t;
135 static fportBuffer_t rxBuffer[NUM_RX_BUFFERS];
137 static volatile uint8_t rxBufferWriteIndex = 0;
138 static volatile uint8_t rxBufferReadIndex = 0;
140 static volatile timeUs_t lastTelemetryFrameReceivedUs;
141 static volatile bool clearToSend = false;
143 static volatile uint8_t framePosition = 0;
145 static smartPortPayload_t *mspPayload = NULL;
146 static timeUs_t lastRcFrameReceivedMs = 0;
148 static serialPort_t *fportPort;
150 static void reportFrameError(uint8_t errorReason) {
151 UNUSED(errorReason);
152 static volatile uint16_t frameErrors = 0;
153 frameErrors++;
156 // Receive ISR callback
157 static void fportDataReceive(uint16_t c, void *data)
159 UNUSED(data);
161 static timeUs_t frameStartAt = 0;
162 static bool escapedCharacter = false;
163 static bool telemetryFrame = false;
165 const timeUs_t currentTimeUs = micros();
167 clearToSend = false;
169 if (framePosition > 1 && cmpTimeUs(currentTimeUs, frameStartAt) > FPORT_TIME_NEEDED_PER_FRAME_US + 500) {
170 reportFrameError(DEBUG_FPORT_ERROR_TIMEOUT);
172 framePosition = 0;
175 uint8_t val = (uint8_t)c;
177 if (val == FPORT_FRAME_MARKER) {
178 if (framePosition > 1) {
179 const uint8_t nextWriteIndex = (rxBufferWriteIndex + 1) % NUM_RX_BUFFERS;
180 if (nextWriteIndex != rxBufferReadIndex) {
181 rxBuffer[rxBufferWriteIndex].length = framePosition - 1;
182 rxBufferWriteIndex = nextWriteIndex;
185 if (telemetryFrame) {
186 clearToSend = true;
187 lastTelemetryFrameReceivedUs = currentTimeUs;
188 telemetryFrame = false;
190 escapedCharacter = false;
193 frameStartAt = currentTimeUs;
194 framePosition = 1;
195 } else if (framePosition > 0) {
196 if (framePosition >= BUFFER_SIZE + 1) {
197 framePosition = 0;
199 reportFrameError(DEBUG_FPORT_ERROR_OVERSIZE);
200 } else {
201 if (escapedCharacter) {
202 val = val ^ FPORT_ESCAPE_MASK;
203 escapedCharacter = false;
204 } else if (val == FPORT_ESCAPE_CHAR) {
205 escapedCharacter = true;
207 return;
210 if (framePosition == 2 && val == FPORT_FRAME_TYPE_TELEMETRY_REQUEST) {
211 telemetryFrame = true;
214 rxBuffer[rxBufferWriteIndex].data[framePosition - 1] = val;
215 framePosition = framePosition + 1;
220 #if defined(USE_TELEMETRY_SMARTPORT)
221 static void smartPortWriteFrameFport(const smartPortPayload_t *payload)
223 framePosition = 0;
225 uint16_t checksum = 0;
226 smartPortSendByte(FPORT_RESPONSE_FRAME_LENGTH, &checksum, fportPort);
227 smartPortSendByte(FPORT_FRAME_TYPE_TELEMETRY_RESPONSE, &checksum, fportPort);
228 smartPortWriteFrameSerial(payload, fportPort, checksum);
230 #endif
232 static uint8_t fportFrameStatus(rxRuntimeConfig_t *rxRuntimeConfig)
234 #if defined(USE_TELEMETRY_SMARTPORT)
235 static smartPortPayload_t payloadBuffer;
236 static bool rxDrivenFrameRate = false;
237 static uint8_t consecutiveTelemetryFrameCount = 0;
238 #endif
239 static bool hasTelemetryRequest = false;
241 uint8_t result = RX_FRAME_PENDING;
243 if (rxBufferReadIndex != rxBufferWriteIndex) {
244 uint8_t bufferLength = rxBuffer[rxBufferReadIndex].length;
245 uint8_t frameLength = rxBuffer[rxBufferReadIndex].data[0];
246 if (frameLength != bufferLength - 2) {
247 reportFrameError(DEBUG_FPORT_ERROR_SIZE);
248 } else {
249 if (!frskyCheckSumIsGood(&rxBuffer[rxBufferReadIndex].data[0], bufferLength)) {
250 reportFrameError(DEBUG_FPORT_ERROR_CHECKSUM);
251 } else {
252 fportFrame_t *frame = (fportFrame_t *)&rxBuffer[rxBufferReadIndex].data[1];
254 switch (frame->type) {
255 case FPORT_FRAME_TYPE_CONTROL:
256 if (frameLength != FPORT_FRAME_PAYLOAD_LENGTH_CONTROL) {
257 reportFrameError(DEBUG_FPORT_ERROR_TYPE_SIZE);
258 } else {
259 result = sbusChannelsDecode(rxRuntimeConfig, &frame->data.controlData.channels);
260 lqTrackerSet(rxRuntimeConfig->lqTracker, scaleRange(frame->data.controlData.rssi, 0, 100, 0, RSSI_MAX_VALUE));
261 lastRcFrameReceivedMs = millis();
264 break;
265 case FPORT_FRAME_TYPE_TELEMETRY_REQUEST:
266 if (frameLength != FPORT_FRAME_PAYLOAD_LENGTH_TELEMETRY_REQUEST) {
267 reportFrameError(DEBUG_FPORT_ERROR_TYPE_SIZE);
268 } else {
269 #if defined(USE_TELEMETRY_SMARTPORT)
270 if (!telemetryEnabled) {
271 break;
274 switch(frame->data.telemetryData.frameId) {
275 case FPORT_FRAME_ID_DATA:
276 if (!rxDrivenFrameRate) {
277 rxDrivenFrameRate = true;
280 hasTelemetryRequest = true;
282 break;
283 case FPORT_FRAME_ID_NULL:
284 if (!rxDrivenFrameRate) {
285 if (consecutiveTelemetryFrameCount >= FPORT_TELEMETRY_MAX_CONSECUTIVE_TELEMETRY_FRAMES && !(mspPayload && smartPortPayloadContainsMSP(mspPayload))) {
286 consecutiveTelemetryFrameCount = 0;
287 } else {
288 hasTelemetryRequest = true;
290 consecutiveTelemetryFrameCount++;
294 break;
295 case FPORT_FRAME_ID_READ:
296 case FPORT_FRAME_ID_WRITE: // never used
297 memcpy(&payloadBuffer, &frame->data.telemetryData, sizeof(smartPortPayload_t));
298 mspPayload = &payloadBuffer;
300 break;
301 default:
303 break;
305 #endif
308 break;
309 default:
310 reportFrameError(DEBUG_FPORT_ERROR_TYPE);
312 break;
318 rxBufferReadIndex = (rxBufferReadIndex + 1) % NUM_RX_BUFFERS;
321 if ((mspPayload || hasTelemetryRequest) && cmpTimeUs(micros(), lastTelemetryFrameReceivedUs) >= FPORT_MIN_TELEMETRY_RESPONSE_DELAY_US) {
322 hasTelemetryRequest = false;
323 result = (result & ~RX_FRAME_PENDING) | RX_FRAME_PROCESSING_REQUIRED;
326 if (lastRcFrameReceivedMs && ((millis() - lastRcFrameReceivedMs) > FPORT_MAX_TELEMETRY_AGE_MS)) {
327 lqTrackerSet(rxRuntimeConfig->lqTracker, 0);
328 lastRcFrameReceivedMs = 0;
331 return result;
334 static bool fportProcessFrame(const rxRuntimeConfig_t *rxRuntimeConfig)
336 UNUSED(rxRuntimeConfig);
338 #if defined(USE_TELEMETRY_SMARTPORT)
340 timeUs_t currentTimeUs = micros();
341 if (cmpTimeUs(currentTimeUs, lastTelemetryFrameReceivedUs) > FPORT_MAX_TELEMETRY_RESPONSE_DELAY_US) {
342 clearToSend = false;
345 if (clearToSend) {
346 processSmartPortTelemetry(mspPayload, &clearToSend, NULL);
348 if (clearToSend) {
349 smartPortWriteFrameFport(&emptySmartPortFrame);
351 clearToSend = false;
356 mspPayload = NULL;
357 #endif
359 return true;
362 bool fportRxInit(const rxConfig_t *rxConfig, rxRuntimeConfig_t *rxRuntimeConfig)
364 static uint16_t sbusChannelData[SBUS_MAX_CHANNEL];
365 rxRuntimeConfig->channelData = sbusChannelData;
366 sbusChannelsInit(rxRuntimeConfig);
368 rxRuntimeConfig->channelCount = SBUS_MAX_CHANNEL;
369 rxRuntimeConfig->rcFrameStatusFn = fportFrameStatus;
370 rxRuntimeConfig->rcProcessFrameFn = fportProcessFrame;
372 const serialPortConfig_t *portConfig = findSerialPortConfig(FUNCTION_RX_SERIAL);
373 if (!portConfig) {
374 return false;
377 fportPort = openSerialPort(portConfig->identifier,
378 FUNCTION_RX_SERIAL,
379 fportDataReceive,
380 NULL,
381 FPORT_BAUDRATE,
382 MODE_RXTX,
383 FPORT_PORT_OPTIONS |
384 (rxConfig->serialrx_inverted ? 0 : SERIAL_INVERTED) |
385 (tristateWithDefaultOnIsActive(rxConfig->halfDuplex) ? SERIAL_BIDIR : 0)
388 if (fportPort) {
389 #if defined(USE_TELEMETRY_SMARTPORT)
390 telemetryEnabled = initSmartPortTelemetryExternal(smartPortWriteFrameFport);
391 #endif
394 return fportPort != NULL;
396 #endif
398 #endif