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SBUS.cpp
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SBUS.cpp
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#include "SBUS.h"
#include <Arduino.h>
void SBUS::begin() {
SBUS::begin(true);
}
void SBUS::begin(bool useTimer) {
if (useTimer) {
noInterrupts();
TCCR2A = 0;
TCCR2B = 0;
TCNT2 = 0;
OCR2A = 249;
TCCR2A |= (1 << WGM21);
TCCR2B |= (1 << CS22);
TIMSK2 |= (1 << OCIE2A);
interrupts();
}
for (byte i = 0; i<18; i++) {
_channels[i] = 0;
}
_goodFrames = 0;
_lostFrames = 0;
_decoderErrorFrames = 0;
_failsafe = SBUS_FAILSAFE_INACTIVE;
_serial.begin(100000, SERIAL_8E2);
}
void SBUS::process() {
static byte buffer[25];
static byte buffer_index = 0;
while (_serial.available()) {
byte rx = _serial.read();
if (buffer_index == 0 && rx != SBUS_STARTBYTE) {
//incorrect start byte, out of sync
_decoderErrorFrames++;
continue;
}
buffer[buffer_index++] = rx;
if (buffer_index == 25) {
buffer_index = 0;
if (buffer[24] != SBUS_ENDBYTE) {
//incorrect end byte, out of sync
_decoderErrorFrames++;
continue;
}
_goodFrames++;
_channels[0] = ((buffer[1] |buffer[2]<<8) & 0x07FF);
_channels[1] = ((buffer[2]>>3 |buffer[3]<<5) & 0x07FF);
_channels[2] = ((buffer[3]>>6 |buffer[4]<<2 |buffer[5]<<10) & 0x07FF);
_channels[3] = ((buffer[5]>>1 |buffer[6]<<7) & 0x07FF);
_channels[4] = ((buffer[6]>>4 |buffer[7]<<4) & 0x07FF);
_channels[5] = ((buffer[7]>>7 |buffer[8]<<1 |buffer[9]<<9) & 0x07FF);
_channels[6] = ((buffer[9]>>2 |buffer[10]<<6) & 0x07FF);
_channels[7] = ((buffer[10]>>5|buffer[11]<<3) & 0x07FF);
_channels[8] = ((buffer[12] |buffer[13]<<8) & 0x07FF);
_channels[9] = ((buffer[13]>>3|buffer[14]<<5) & 0x07FF);
_channels[10] = ((buffer[14]>>6|buffer[15]<<2|buffer[16]<<10) & 0x07FF);
_channels[11] = ((buffer[16]>>1|buffer[17]<<7) & 0x07FF);
_channels[12] = ((buffer[17]>>4|buffer[18]<<4) & 0x07FF);
_channels[13] = ((buffer[18]>>7|buffer[19]<<1|buffer[20]<<9) & 0x07FF);
_channels[14] = ((buffer[20]>>2|buffer[21]<<6) & 0x07FF);
_channels[15] = ((buffer[21]>>5|buffer[22]<<3) & 0x07FF);
((buffer[23]) & 0x0001) ? _channels[16] = 2047: _channels[16] = 0;
((buffer[23] >> 1) & 0x0001) ? _channels[17] = 2047: _channels[17] = 0;
if ((buffer[23] >> 3) & 0x0001) {
_failsafe = SBUS_FAILSAFE_ACTIVE;
} else {
_failsafe = SBUS_FAILSAFE_INACTIVE;
}
if ((buffer[23] >> 2) & 0x0001) {
_lostFrames++;
}
_lastGoodFrame = millis();
}
}
}
int SBUS::getChannel(int channel) {
if (channel < 1 or channel > 18) {
return 0;
} else {
return _channels[channel - 1];
}
}
int SBUS::getNormalizedChannel(int channel) {
if (channel < 1 or channel > 18) {
return 0;
} else {
return (int) lround(_channels[channel - 1] / 9.92) - 100; //9.92 or 10.24?
}
}
int SBUS::getFailsafeStatus() {
return _failsafe;
}
int SBUS::getFrameLoss() {
return (int) ((_lostFrames + _decoderErrorFrames) * 100 / (_goodFrames + _lostFrames + _decoderErrorFrames));
}
long SBUS::getGoodFrames() {
return _goodFrames;
}
long SBUS::getLostFrames() {
return _lostFrames;
}
long SBUS::getDecoderErrorFrames() {
return _decoderErrorFrames;
}
long long SBUS::getLastTime() {
return _lastGoodFrame;
}