arduino-esp32-custom-lwip-p.../libraries/ESP32/examples/RMT/RMTReadXJT/RMTReadXJT.ino

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2023-02-25 16:13:53 +01:00
#include "freertos/FreeRTOS.h"
#include "freertos/task.h"
#include "freertos/event_groups.h"
#include "Arduino.h"
#include "esp32-hal.h"
//
// Note: This example uses a FrSKY device communication
// using XJT D12 protocol
//
// ; 0 bit = 6us low/10us high
// ; 1 bit = 14us low/10us high
// ;
// ; --------+ +----------+ +----------+
// ; | | | | |
// ; | 0 | | 1 | |
// ; | | | | |
// ; | | | | |
// ; +-------+ +-----------------+ +---------
// ;
// ; | 6us 10us | 14us 10us |
// ; |-------|----------|-----------------|----------|--------
// ; | 16us | 24us |
// Typedef of received frame
//
// ; 0x00 - Sync, 0x7E (sync header ID)
// ; 0x01 - Rx ID, 0x?? (receiver ID number, 0x00-0x??)
// ; 0x02 - Flags 1, 0x?? (used for failsafe and binding)
// ; 0x03 - Flags 2, 0x00 (reserved)
// ; 0x04-0x06, Channels 1/9 and 2/10
// ; 0x07-0x09, Channels 3/11 and 4/12
// ; 0x0A-0x0C, Channels 5/13 and 6/14
// ; 0x0D-0x0F, Channels 7/15 and 8/16
// ; 0x10 - 0x00, always zero
// ; 0x11 - CRC-16 High
// ; 0x12 - CRC-16 Low
// ; 0x13 - Tail, 0x7E (tail ID)
typedef union {
struct {
uint8_t head;//0x7E
uint8_t rxid;//Receiver Number
uint8_t flags;//Range:0x20, Bind:0x01
uint8_t reserved0;//0x00
union {
struct {
uint8_t ch0_l;
uint8_t ch0_h:4;
uint8_t ch1_l:4;
uint8_t ch1_h;
};
uint8_t bytes[3];
} channels[4];
uint8_t reserved1;//0x00
uint8_t crc_h;
uint8_t crc_l;
uint8_t tail;//0x7E
};
uint8_t buffer[20];
} xjt_packet_t;
#define XJT_VALID(i) (i->level0 && !i->level1 && i->duration0 >= 8 && i->duration0 <= 11)
rmt_obj_t* rmt_recv = NULL;
static uint32_t *s_channels;
static uint32_t channels[16];
static uint8_t xjt_flags = 0x0;
static uint8_t xjt_rxid = 0x0;
static bool xjtReceiveBit(size_t index, bool bit){
static xjt_packet_t xjt;
static uint8_t xjt_bit_index = 8;
static uint8_t xht_byte_index = 0;
static uint8_t xht_ones = 0;
if(!index){
xjt_bit_index = 8;
xht_byte_index = 0;
xht_ones = 0;
}
if(xht_byte_index > 19){
//fail!
return false;
}
if(bit){
xht_ones++;
if(xht_ones > 5 && xht_byte_index && xht_byte_index < 19){
//fail!
return false;
}
//add bit
xjt.buffer[xht_byte_index] |= (1 << --xjt_bit_index);
} else if(xht_ones == 5 && xht_byte_index && xht_byte_index < 19){
xht_ones = 0;
//skip bit
return true;
} else {
xht_ones = 0;
//add bit
xjt.buffer[xht_byte_index] &= ~(1 << --xjt_bit_index);
}
if ((!xjt_bit_index) || (xjt_bit_index==1 && xht_byte_index==19) ) {
xjt_bit_index = 8;
if(!xht_byte_index && xjt.buffer[0] != 0x7E){
//fail!
return false;
}
xht_byte_index++;
if(xht_byte_index == 20){
//done
if(xjt.buffer[19] != 0x7E){
//fail!
return false;
}
//check crc?
xjt_flags = xjt.flags;
xjt_rxid = xjt.rxid;
for(int i=0; i<4; i++){
uint16_t ch0 = xjt.channels[i].ch0_l | ((uint16_t)(xjt.channels[i].ch0_h & 0x7) << 8);
ch0 = ((ch0 * 2) + 2452) / 3;
uint16_t ch1 = xjt.channels[i].ch1_l | ((uint16_t)(xjt.channels[i].ch1_h & 0x7F) << 4);
ch1 = ((ch1 * 2) + 2452) / 3;
uint8_t c0n = i*2;
if(xjt.channels[i].ch0_h & 0x8){
c0n += 8;
}
uint8_t c1n = i*2+1;
if(xjt.channels[i].ch1_h & 0x80){
c1n += 8;
}
s_channels[c0n] = ch0;
s_channels[c1n] = ch1;
}
}
}
return true;
}
void parseRmt(rmt_data_t* items, size_t len, uint32_t* channels){
bool valid = true;
rmt_data_t* it = NULL;
if (!channels) {
log_e("Please provide data block for storing channel info");
return;
}
s_channels = channels;
it = &items[0];
for(size_t i = 0; i<len; i++){
if(!valid){
break;
}
it = &items[i];
if(XJT_VALID(it)){
if(it->duration1 >= 5 && it->duration1 <= 8){
valid = xjtReceiveBit(i, false);
} else if(it->duration1 >= 13 && it->duration1 <= 16){
valid = xjtReceiveBit(i, true);
} else {
valid = false;
}
} else if(!it->duration1 && !it->level1 && it->duration0 >= 5 && it->duration0 <= 8) {
valid = xjtReceiveBit(i, false);
}
}
}
extern "C" void receive_data(uint32_t *data, size_t len, void * arg)
{
parseRmt((rmt_data_t*) data, len, channels);
}
void setup()
{
Serial.begin(115200);
// Initialize the channel to capture up to 192 items
if ((rmt_recv = rmtInit(21, RMT_RX_MODE, RMT_MEM_192)) == NULL)
{
Serial.println("init receiver failed\n");
}
// Setup 1us tick
float realTick = rmtSetTick(rmt_recv, 1000);
Serial.printf("real tick set to: %fns\n", realTick);
// Ask to start reading
rmtRead(rmt_recv, receive_data, NULL);
}
void loop()
{
// printout some of the channels
Serial.printf("%04x %04x %04x %04x\n", channels[0], channels[1], channels[2], channels[3]);
delay(500);
}