493 lines
15 KiB
C++
493 lines
15 KiB
C++
#include "globals.h"
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#include "payload.h"
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PayloadConvert::PayloadConvert(uint8_t size) {
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buffer = (uint8_t *)malloc(size);
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cursor = 0;
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}
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PayloadConvert::~PayloadConvert(void) { free(buffer); }
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void PayloadConvert::reset(void) { cursor = 0; }
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uint8_t PayloadConvert::getSize(void) { return cursor; }
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uint8_t *PayloadConvert::getBuffer(void) { return buffer; }
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/* ---------------- plain format without special encoding ---------- */
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#if (PAYLOAD_ENCODER == 1)
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void PayloadConvert::addByte(uint8_t value) { buffer[cursor++] = (value); }
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void PayloadConvert::addCount(uint16_t value, uint8_t snifftype) {
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buffer[cursor++] = highByte(value);
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buffer[cursor++] = lowByte(value);
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}
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void PayloadConvert::addAlarm(int8_t rssi, uint8_t msg) {
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buffer[cursor++] = rssi;
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buffer[cursor++] = msg;
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}
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void PayloadConvert::addVoltage(uint16_t value) {
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buffer[cursor++] = highByte(value);
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buffer[cursor++] = lowByte(value);
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}
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void PayloadConvert::addConfig(configData_t value) {
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buffer[cursor++] = value.loradr;
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buffer[cursor++] = value.txpower;
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buffer[cursor++] = value.adrmode;
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buffer[cursor++] = value.screensaver;
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buffer[cursor++] = value.screenon;
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buffer[cursor++] = value.countermode;
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buffer[cursor++] = highByte(value.rssilimit);
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buffer[cursor++] = lowByte(value.rssilimit);
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buffer[cursor++] = value.sendcycle;
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buffer[cursor++] = value.wifichancycle;
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buffer[cursor++] = value.blescantime;
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buffer[cursor++] = value.blescan;
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buffer[cursor++] = value.wifiant;
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buffer[cursor++] = value.vendorfilter;
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buffer[cursor++] = value.rgblum;
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buffer[cursor++] = value.payloadmask;
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buffer[cursor++] = value.monitormode;
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memcpy(buffer + cursor, value.version, 10);
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cursor += 10;
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}
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void PayloadConvert::addStatus(uint16_t voltage, uint64_t uptime, float cputemp,
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uint32_t mem, uint8_t reset1, uint8_t reset2) {
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buffer[cursor++] = highByte(voltage);
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buffer[cursor++] = lowByte(voltage);
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buffer[cursor++] = (byte)((uptime & 0xFF00000000000000) >> 56);
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buffer[cursor++] = (byte)((uptime & 0x00FF000000000000) >> 48);
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buffer[cursor++] = (byte)((uptime & 0x0000FF0000000000) >> 40);
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buffer[cursor++] = (byte)((uptime & 0x000000FF00000000) >> 32);
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buffer[cursor++] = (byte)((uptime & 0x00000000FF000000) >> 24);
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buffer[cursor++] = (byte)((uptime & 0x0000000000FF0000) >> 16);
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buffer[cursor++] = (byte)((uptime & 0x000000000000FF00) >> 8);
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buffer[cursor++] = (byte)((uptime & 0x00000000000000FF));
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buffer[cursor++] = (byte)(cputemp);
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buffer[cursor++] = (byte)((mem & 0xFF000000) >> 24);
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buffer[cursor++] = (byte)((mem & 0x00FF0000) >> 16);
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buffer[cursor++] = (byte)((mem & 0x0000FF00) >> 8);
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buffer[cursor++] = (byte)((mem & 0x000000FF));
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buffer[cursor++] = (byte)(reset1);
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buffer[cursor++] = (byte)(reset2);
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}
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void PayloadConvert::addGPS(gpsStatus_t value) {
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#if(HAS_GPS)
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buffer[cursor++] = (byte)((value.latitude & 0xFF000000) >> 24);
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buffer[cursor++] = (byte)((value.latitude & 0x00FF0000) >> 16);
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buffer[cursor++] = (byte)((value.latitude & 0x0000FF00) >> 8);
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buffer[cursor++] = (byte)((value.latitude & 0x000000FF));
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buffer[cursor++] = (byte)((value.longitude & 0xFF000000) >> 24);
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buffer[cursor++] = (byte)((value.longitude & 0x00FF0000) >> 16);
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buffer[cursor++] = (byte)((value.longitude & 0x0000FF00) >> 8);
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buffer[cursor++] = (byte)((value.longitude & 0x000000FF));
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#if (!PAYLOAD_OPENSENSEBOX)
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buffer[cursor++] = value.satellites;
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buffer[cursor++] = highByte(value.hdop);
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buffer[cursor++] = lowByte(value.hdop);
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buffer[cursor++] = highByte(value.altitude);
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buffer[cursor++] = lowByte(value.altitude);
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#endif
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#endif
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}
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void PayloadConvert::addSensor(uint8_t buf[]) {
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#if(HAS_SENSORS)
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uint8_t length = buf[0];
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memcpy(buffer, buf + 1, length);
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cursor += length; // length of buffer
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#endif
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}
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void PayloadConvert::addBME(bmeStatus_t value) {
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#if(HAS_BME)
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int16_t temperature = (int16_t)(value.temperature); // float -> int
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uint16_t humidity = (uint16_t)(value.humidity); // float -> int
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uint16_t pressure = (uint16_t)(value.pressure); // float -> int
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uint16_t iaq = (uint16_t)(value.iaq); // float -> int
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buffer[cursor++] = highByte(temperature);
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buffer[cursor++] = lowByte(temperature);
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buffer[cursor++] = highByte(pressure);
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buffer[cursor++] = lowByte(pressure);
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buffer[cursor++] = highByte(humidity);
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buffer[cursor++] = lowByte(humidity);
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buffer[cursor++] = highByte(iaq);
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buffer[cursor++] = lowByte(iaq);
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#endif
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}
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void PayloadConvert::addButton(uint8_t value) {
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#ifdef HAS_BUTTON
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buffer[cursor++] = value;
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#endif
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}
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void PayloadConvert::addTime(time_t value) {
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uint32_t time = (uint32_t)value;
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buffer[cursor++] = (byte)((time & 0xFF000000) >> 24);
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buffer[cursor++] = (byte)((time & 0x00FF0000) >> 16);
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buffer[cursor++] = (byte)((time & 0x0000FF00) >> 8);
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buffer[cursor++] = (byte)((time & 0x000000FF));
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}
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/* ---------------- packed format with LoRa serialization Encoder ----------
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*/
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// derived from
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// https://github.com/thesolarnomad/lora-serialization/blob/master/src/LoraEncoder.cpp
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#elif (PAYLOAD_ENCODER == 2)
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void PayloadConvert::addByte(uint8_t value) { writeUint8(value); }
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void PayloadConvert::addCount(uint16_t value, uint8_t snifftype) {
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writeUint16(value);
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}
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void PayloadConvert::addAlarm(int8_t rssi, uint8_t msg) {
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writeUint8(rssi);
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writeUint8(msg);
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}
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void PayloadConvert::addVoltage(uint16_t value) { writeUint16(value); }
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void PayloadConvert::addConfig(configData_t value) {
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writeUint8(value.loradr);
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writeUint8(value.txpower);
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writeUint16(value.rssilimit);
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writeUint8(value.sendcycle);
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writeUint8(value.wifichancycle);
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writeUint8(value.blescantime);
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writeUint8(value.rgblum);
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writeBitmap(value.adrmode ? true : false, value.screensaver ? true : false,
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value.screenon ? true : false, value.countermode ? true : false,
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value.blescan ? true : false, value.wifiant ? true : false,
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value.vendorfilter ? true : false,
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value.monitormode ? true : false);
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writeBitmap(value.payloadmask && GPS_DATA ? true : false,
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value.payloadmask && ALARM_DATA ? true : false,
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value.payloadmask && MEMS_DATA ? true : false,
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value.payloadmask && COUNT_DATA ? true : false,
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value.payloadmask && SENSOR1_DATA ? true : false,
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value.payloadmask && SENSOR2_DATA ? true : false,
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value.payloadmask && SENSOR3_DATA ? true : false,
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value.payloadmask && BATT_DATA ? true : false);
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writeVersion(value.version);
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}
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void PayloadConvert::addStatus(uint16_t voltage, uint64_t uptime, float cputemp,
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uint32_t mem, uint8_t reset1, uint8_t reset2) {
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writeUint16(voltage);
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writeUptime(uptime);
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writeUint8((byte)cputemp);
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writeUint32(mem);
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writeUint8(reset1);
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writeUint8(reset2);
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}
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void PayloadConvert::addGPS(gpsStatus_t value) {
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#if(HAS_GPS)
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writeLatLng(value.latitude, value.longitude);
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#if (!PAYLOAD_OPENSENSEBOX)
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writeUint8(value.satellites);
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writeUint16(value.hdop);
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writeUint16(value.altitude);
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#endif
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#endif
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}
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void PayloadConvert::addSensor(uint8_t buf[]) {
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#if(HAS_SENSORS)
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uint8_t length = buf[0];
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memcpy(buffer, buf + 1, length);
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cursor += length; // length of buffer
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#endif
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}
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void PayloadConvert::addBME(bmeStatus_t value) {
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#if(HAS_BME)
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writeFloat(value.temperature);
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writePressure(value.pressure);
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writeUFloat(value.humidity);
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writeUFloat(value.iaq);
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#endif
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}
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void PayloadConvert::addButton(uint8_t value) {
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#ifdef HAS_BUTTON
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writeUint8(value);
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#endif
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}
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void PayloadConvert::addTime(time_t value) {
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uint32_t time = (uint32_t)value;
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writeUint32(time);
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}
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void PayloadConvert::uintToBytes(uint64_t value, uint8_t byteSize) {
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for (uint8_t x = 0; x < byteSize; x++) {
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byte next = 0;
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if (sizeof(value) > x) {
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next = static_cast<byte>((value >> (x * 8)) & 0xFF);
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}
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buffer[cursor] = next;
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++cursor;
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}
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}
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void PayloadConvert::writeUptime(uint64_t uptime) {
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writeUint64(uptime);
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}
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void PayloadConvert::writeVersion(char *version) {
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memcpy(buffer + cursor, version, 10);
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cursor += 10;
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}
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void PayloadConvert::writeLatLng(double latitude, double longitude) {
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// Tested to at least work with int32_t, which are processed correctly.
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writeUint32(latitude);
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writeUint32(longitude);
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}
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void PayloadConvert::writeUint64(uint64_t i) { uintToBytes(i, 8); }
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void PayloadConvert::writeUint32(uint32_t i) { uintToBytes(i, 4); }
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void PayloadConvert::writeUint16(uint16_t i) { uintToBytes(i, 2); }
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void PayloadConvert::writeUint8(uint8_t i) { uintToBytes(i, 1); }
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void PayloadConvert::writeUFloat(float value) {
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writeUint16(value * 100);
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}
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void PayloadConvert::writePressure(float value) {
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writeUint16(value * 10);
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}
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/**
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* Uses a 16bit two's complement with two decimals, so the range is
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* -327.68 to +327.67 degrees
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*/
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void PayloadConvert::writeFloat(float value) {
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int16_t t = (int16_t)(value * 100);
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if (value < 0) {
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t = ~-t;
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t = t + 1;
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}
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buffer[cursor++] = (byte)((t >> 8) & 0xFF);
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buffer[cursor++] = (byte)t & 0xFF;
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}
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void PayloadConvert::writeBitmap(bool a, bool b, bool c, bool d, bool e, bool f,
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bool g, bool h) {
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uint8_t bitmap = 0;
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// LSB first
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bitmap |= (a & 1) << 7;
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bitmap |= (b & 1) << 6;
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bitmap |= (c & 1) << 5;
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bitmap |= (d & 1) << 4;
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bitmap |= (e & 1) << 3;
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bitmap |= (f & 1) << 2;
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bitmap |= (g & 1) << 1;
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bitmap |= (h & 1) << 0;
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writeUint8(bitmap);
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}
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/* ---------------- Cayenne LPP 2.0 format ---------- */
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// see specs
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// http://community.mydevices.com/t/cayenne-lpp-2-0/7510 (LPP 2.0)
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// https://github.com/myDevicesIoT/cayenne-docs/blob/master/docs/LORA.md
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// (LPP 1.0) PAYLOAD_ENCODER == 3 -> Dynamic Sensor Payload, using channels ->
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// FPort 1 PAYLOAD_ENCODER == 4 -> Packed Sensor Payload, not using channels ->
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// FPort 2
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#elif ((PAYLOAD_ENCODER == 3) || (PAYLOAD_ENCODER == 4))
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void PayloadConvert::addByte(uint8_t value) {
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/*
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not implemented
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*/ }
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void PayloadConvert::addCount(uint16_t value, uint8_t snifftype) {
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switch (snifftype) {
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case MAC_SNIFF_WIFI:
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#if (PAYLOAD_ENCODER == 3)
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buffer[cursor++] = LPP_COUNT_WIFI_CHANNEL;
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#endif
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buffer[cursor++] =
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LPP_LUMINOSITY; // workaround since cayenne has no data type meter
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buffer[cursor++] = highByte(value);
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buffer[cursor++] = lowByte(value);
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break;
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case MAC_SNIFF_BLE:
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#if (PAYLOAD_ENCODER == 3)
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buffer[cursor++] = LPP_COUNT_BLE_CHANNEL;
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#endif
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buffer[cursor++] =
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LPP_LUMINOSITY; // workaround since cayenne has no data type meter
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buffer[cursor++] = highByte(value);
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buffer[cursor++] = lowByte(value);
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break;
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}
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}
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void PayloadConvert::addAlarm(int8_t rssi, uint8_t msg) {
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#if (PAYLOAD_ENCODER == 3)
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buffer[cursor++] = LPP_ALARM_CHANNEL;
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#endif
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buffer[cursor++] = LPP_PRESENCE;
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buffer[cursor++] = msg;
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#if (PAYLOAD_ENCODER == 3)
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buffer[cursor++] = LPP_MSG_CHANNEL;
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#endif
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buffer[cursor++] = LPP_ANALOG_INPUT;
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buffer[cursor++] = rssi;
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}
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void PayloadConvert::addVoltage(uint16_t value) {
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uint16_t volt = value / 10;
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#if (PAYLOAD_ENCODER == 3)
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buffer[cursor++] = LPP_BATT_CHANNEL;
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#endif
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buffer[cursor++] = LPP_ANALOG_INPUT;
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buffer[cursor++] = highByte(volt);
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buffer[cursor++] = lowByte(volt);
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}
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void PayloadConvert::addConfig(configData_t value) {
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#if (PAYLOAD_ENCODER == 3)
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buffer[cursor++] = LPP_ADR_CHANNEL;
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#endif
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buffer[cursor++] = LPP_DIGITAL_INPUT;
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buffer[cursor++] = value.adrmode;
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}
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void PayloadConvert::addStatus(uint16_t voltage, uint64_t uptime, float celsius,
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uint32_t mem, uint8_t reset1, uint8_t reset2) {
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uint16_t temp = celsius * 10;
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uint16_t volt = voltage / 10;
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#if (defined BAT_MEASURE_ADC || defined HAS_PMU)
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#if (PAYLOAD_ENCODER == 3)
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buffer[cursor++] = LPP_BATT_CHANNEL;
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#endif
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buffer[cursor++] = LPP_ANALOG_INPUT;
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buffer[cursor++] = highByte(volt);
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buffer[cursor++] = lowByte(volt);
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#endif // BAT_MEASURE_ADC
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#if (PAYLOAD_ENCODER == 3)
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buffer[cursor++] = LPP_TEMPERATURE_CHANNEL;
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#endif
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buffer[cursor++] = LPP_TEMPERATURE;
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buffer[cursor++] = highByte(temp);
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buffer[cursor++] = lowByte(temp);
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}
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void PayloadConvert::addGPS(gpsStatus_t value) {
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#if(HAS_GPS)
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int32_t lat = value.latitude / 100;
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int32_t lon = value.longitude / 100;
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int32_t alt = value.altitude * 100;
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#if (PAYLOAD_ENCODER == 3)
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buffer[cursor++] = LPP_GPS_CHANNEL;
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#endif
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buffer[cursor++] = LPP_GPS;
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buffer[cursor++] = (byte)((lat & 0xFF0000) >> 16);
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buffer[cursor++] = (byte)((lat & 0x00FF00) >> 8);
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buffer[cursor++] = (byte)((lat & 0x0000FF));
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buffer[cursor++] = (byte)((lon & 0xFF0000) >> 16);
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buffer[cursor++] = (byte)((lon & 0x00FF00) >> 8);
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buffer[cursor++] = (byte)(lon & 0x0000FF);
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buffer[cursor++] = (byte)((alt & 0xFF0000) >> 16);
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buffer[cursor++] = (byte)((alt & 0x00FF00) >> 8);
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buffer[cursor++] = (byte)(alt & 0x0000FF);
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#endif // HAS_GPS
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}
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void PayloadConvert::addSensor(uint8_t buf[]) {
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#if(HAS_SENSORS)
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// to come
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/*
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uint8_t length = buf[0];
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memcpy(buffer, buf+1, length);
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cursor += length; // length of buffer
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*/
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#endif // HAS_SENSORS
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}
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void PayloadConvert::addBME(bmeStatus_t value) {
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#if(HAS_BME)
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// data value conversions to meet cayenne data type definition
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// 0.1°C per bit => -3276,7 .. +3276,7 °C
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int16_t temperature = (int16_t)(value.temperature * 10.0);
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// 0.1 hPa per bit => 0 .. 6553,6 hPa
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uint16_t pressure = (uint16_t)(value.pressure * 10);
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// 0.5% per bit => 0 .. 128 %C
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uint8_t humidity = (uint8_t)(value.humidity * 2.0);
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int16_t iaq = (int16_t)(value.iaq);
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#if (PAYLOAD_ENCODER == 3)
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buffer[cursor++] = LPP_TEMPERATURE_CHANNEL;
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#endif
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buffer[cursor++] = LPP_TEMPERATURE; // 2 bytes 0.1 °C Signed MSB
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buffer[cursor++] = highByte(temperature);
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buffer[cursor++] = lowByte(temperature);
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#if (PAYLOAD_ENCODER == 3)
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buffer[cursor++] = LPP_BAROMETER_CHANNEL;
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#endif
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buffer[cursor++] = LPP_BAROMETER; // 2 bytes 0.1 hPa Unsigned MSB
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buffer[cursor++] = highByte(pressure);
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buffer[cursor++] = lowByte(pressure);
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#if (PAYLOAD_ENCODER == 3)
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buffer[cursor++] = LPP_HUMIDITY_CHANNEL;
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#endif
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buffer[cursor++] = LPP_HUMIDITY; // 1 byte 0.5 % Unsigned
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buffer[cursor++] = humidity;
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#if (PAYLOAD_ENCODER == 3)
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buffer[cursor++] = LPP_AIR_CHANNEL;
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#endif
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buffer[cursor++] = LPP_LUMINOSITY; // 2 bytes, 1.0 unsigned
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buffer[cursor++] = highByte(iaq);
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buffer[cursor++] = lowByte(iaq);
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#endif // HAS_BME
|
|
}
|
|
|
|
void PayloadConvert::addButton(uint8_t value) {
|
|
#ifdef HAS_BUTTON
|
|
#if (PAYLOAD_ENCODER == 3)
|
|
buffer[cursor++] = LPP_BUTTON_CHANNEL;
|
|
#endif
|
|
buffer[cursor++] = LPP_DIGITAL_INPUT;
|
|
buffer[cursor++] = value;
|
|
#endif // HAS_BUTTON
|
|
}
|
|
|
|
void PayloadConvert::addTime(time_t value) {
|
|
#if (PAYLOAD_ENCODER == 4)
|
|
uint32_t t = (uint32_t)value;
|
|
uint32_t tx_period = (uint32_t)SENDCYCLE * 2;
|
|
buffer[cursor++] = 0x03; // set config mask to UTCTime + TXPeriod
|
|
// UTCTime in seconds
|
|
buffer[cursor++] = (byte)((t & 0xFF000000) >> 24);
|
|
buffer[cursor++] = (byte)((t & 0x00FF0000) >> 16);
|
|
buffer[cursor++] = (byte)((t & 0x0000FF00) >> 8);
|
|
buffer[cursor++] = (byte)((t & 0x000000FF));
|
|
// TXPeriod in seconds
|
|
buffer[cursor++] = (byte)((tx_period & 0xFF000000) >> 24);
|
|
buffer[cursor++] = (byte)((tx_period & 0x00FF0000) >> 16);
|
|
buffer[cursor++] = (byte)((tx_period & 0x0000FF00) >> 8);
|
|
buffer[cursor++] = (byte)((tx_period & 0x000000FF));
|
|
#endif
|
|
}
|
|
|
|
#endif |