ESP32-PaxCounter/src/senddata.cpp

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// Basic Config
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#include "senddata.h"
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void setSendIRQ(TimerHandle_t xTimer) {
xTaskNotify(irqHandlerTask, SENDCYCLE_IRQ, eSetBits);
}
#if ((WIFICOUNTER) || (BLECOUNTER))
void setSendIRQ(void) { setSendIRQ(NULL); }
#endif
void initSendDataTimer(uint8_t sendcycle) {
static TimerHandle_t SendDataTimer = NULL;
if (SendDataTimer == NULL) {
SendDataTimer =
xTimerCreate("SendDataTimer", pdMS_TO_TICKS(sendcycle * 1000), pdTRUE,
(void *)0, setSendIRQ);
xTimerStart(SendDataTimer, 0);
} else {
xTimerChangePeriod(SendDataTimer, pdMS_TO_TICKS(sendcycle * 1000), 0);
}
}
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// put data to send in RTos Queues used for transmit over channels Lora and SPI
void SendPayload(uint8_t port) {
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ESP_LOGD(TAG, "sending Payload for Port %d", port);
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MessageBuffer_t SendBuffer; // contains MessageSize, MessagePort, Message[]
SendBuffer.MessageSize = payload.getSize();
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switch (PAYLOAD_ENCODER) {
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case 1: // plain -> no mapping
case 2: // packed -> no mapping
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SendBuffer.MessagePort = port;
break;
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case 3: // Cayenne LPP dynamic -> all payload goes out on same port
SendBuffer.MessagePort = CAYENNE_LPP1;
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break;
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case 4: // Cayenne LPP packed -> we need to map some paxcounter ports
SendBuffer.MessagePort = CAYENNE_LPP2;
switch (SendBuffer.MessagePort) {
case COUNTERPORT:
SendBuffer.MessagePort = CAYENNE_LPP2;
break;
case RCMDPORT:
SendBuffer.MessagePort = CAYENNE_ACTUATOR;
break;
case TIMEPORT:
SendBuffer.MessagePort = CAYENNE_DEVICECONFIG;
break;
}
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break;
default:
SendBuffer.MessagePort = port;
}
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memcpy(SendBuffer.Message, payload.getBuffer(), SendBuffer.MessageSize);
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// enqueue message in device's send queues
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#if (HAS_LORA)
lora_enqueuedata(&SendBuffer);
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#endif
#ifdef HAS_SPI
spi_enqueuedata(&SendBuffer);
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#endif
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#ifdef HAS_MQTT
mqtt_enqueuedata(&SendBuffer);
#endif
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} // SendPayload
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// interrupt triggered function to prepare payload to send
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void sendData() {
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uint8_t bitmask = cfg.payloadmask;
uint8_t mask = 1;
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#if (HAS_GPS)
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gpsStatus_t gps_status;
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#endif
#if (HAS_SDS011)
sdsStatus_t sds_status;
#endif
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ESP_LOGD(TAG, "Sending count results: pax=%d / wifi=%d / ble=%d",
count_from_libpax.pax, count_from_libpax.wifi_count,
count_from_libpax.ble_count);
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while (bitmask) {
switch (bitmask & mask) {
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#if ((WIFICOUNTER) || (BLECOUNTER))
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case COUNT_DATA:
payload.reset();
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#if !(PAYLOAD_OPENSENSEBOX)
payload.addCount(count_from_libpax.wifi_count, MAC_SNIFF_WIFI);
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if (cfg.blescan) {
payload.addCount(count_from_libpax.ble_count, MAC_SNIFF_BLE);
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}
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#endif
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#if (HAS_GPS)
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if (GPSPORT == COUNTERPORT) {
// send GPS position only if we have a fix
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if (gps_hasfix()) {
gps_storelocation(&gps_status);
payload.addGPS(gps_status);
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} else
ESP_LOGD(TAG, "No valid GPS position");
}
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#endif
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#if (PAYLOAD_OPENSENSEBOX)
payload.addCount(count_from_libpax.wifi_count, MAC_SNIFF_WIFI);
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if (cfg.blescan) {
payload.addCount(count_from_libpax.ble_count, MAC_SNIFF_BLE);
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#endif
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#if (HAS_SDS011)
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sds011_store(&sds_status);
payload.addSDS(sds_status);
#endif
SendPayload(COUNTERPORT);
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#ifdef HAS_DISPLAY
dp_plotCurve(count_from_libpax.pax, true);
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#endif
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#if (HAS_SDCARD)
sdcardWriteData(count_from_libpax.wifi_count,
count_from_libpax.ble_count
#if (defined BAT_MEASURE_ADC || defined HAS_PMU)
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,
read_voltage()
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#endif
);
#endif // HAS_SDCARD
break; // case COUNTDATA
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#endif
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#if (HAS_BME)
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case MEMS_DATA:
payload.reset();
payload.addBME(bme_status);
SendPayload(BMEPORT);
break;
#endif
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#if (HAS_GPS)
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case GPS_DATA:
if (GPSPORT != COUNTERPORT) {
// send GPS position only if we have a fix
if (gps_hasfix()) {
gps_storelocation(&gps_status);
payload.reset();
payload.addGPS(gps_status);
SendPayload(GPSPORT);
} else
ESP_LOGD(TAG, "No valid GPS position");
}
break;
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#endif
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#if (HAS_SENSORS)
#if (HAS_SENSOR_1)
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case SENSOR1_DATA:
payload.reset();
payload.addSensor(sensor_read(1));
SendPayload(SENSOR1PORT);
break;
#endif
#if (HAS_SENSOR_2)
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case SENSOR2_DATA:
payload.reset();
payload.addSensor(sensor_read(2));
SendPayload(SENSOR2PORT);
break;
#endif
#if (HAS_SENSOR_3)
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case SENSOR3_DATA:
payload.reset();
payload.addSensor(sensor_read(3));
SendPayload(SENSOR3PORT);
break;
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#endif
#endif
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#if (defined BAT_MEASURE_ADC || defined HAS_PMU)
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case BATT_DATA:
payload.reset();
payload.addVoltage(read_voltage());
SendPayload(BATTPORT);
break;
#endif
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} // switch
bitmask &= ~mask;
mask <<= 1;
} // while (bitmask)
} // sendData()
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void flushQueues(void) {
rcmd_queuereset();
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#if (HAS_LORA)
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lora_queuereset();
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#endif
#ifdef HAS_SPI
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spi_queuereset();
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#endif
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#ifdef HAS_MQTT
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mqtt_queuereset();
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#endif
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}
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bool allQueuesEmtpy(void) {
uint32_t rc = rcmd_queuewaiting();
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#if (HAS_LORA)
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rc += lora_queuewaiting();
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#endif
#ifdef HAS_SPI
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rc += spi_queuewaiting();
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#endif
#ifdef HAS_MQTT
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rc += mqtt_queuewaiting();
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#endif
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return (rc == 0) ? true : false;
}