new lmic tasking
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@ -26,13 +26,13 @@ description = Paxcounter is a proof-of-concept ESP32 device for metering passeng
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[common]
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; for release_version use max. 10 chars total, use any decimal format like "a.b.c"
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release_version = 1.5.18
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release_version = 1.6.0
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; DEBUG LEVEL: For production run set to 0, otherwise device will leak RAM while running!
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; 0=None, 1=Error, 2=Warn, 3=Info, 4=Debug, 5=Verbose
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debug_level = 0
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; UPLOAD MODE: select esptool to flash via USB/UART, select custom to upload to cloud for OTA
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;upload_protocol = esptool
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upload_protocol = custom
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upload_protocol = esptool
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;upload_protocol = custom
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extra_scripts = pre:build.py
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keyfile = ota.conf
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platform_espressif32 = espressif32@1.4.0
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@ -26,11 +26,14 @@ void doHousekeeping() {
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// task storage debugging //
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ESP_LOGD(TAG, "Wifiloop %d bytes left",
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uxTaskGetStackHighWaterMark(wifiSwitchTask));
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ESP_LOGD(TAG, "Statemachine %d bytes left",
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ESP_LOGD(TAG, "Stateloop %d bytes left",
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uxTaskGetStackHighWaterMark(stateMachineTask));
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#ifdef HAS_GPS
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ESP_LOGD(TAG, "Gpsloop %d bytes left", uxTaskGetStackHighWaterMark(GpsTask));
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#endif
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#ifdef HAS_SPI
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ESP_LOGD(TAG, "Spiloop %d bytes left", uxTaskGetStackHighWaterMark(SpiTask));
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#endif
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#if (HAS_LED != NOT_A_PIN) || defined(HAS_RGB_LED)
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ESP_LOGD(TAG, "LEDloop %d bytes left", uxTaskGetStackHighWaterMark(ledLoopTask));
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#endif
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@ -71,7 +71,7 @@ extern TaskHandle_t ledLoopTask;
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#endif
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#ifdef HAS_SPI
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extern QueueHandle_t SPISendQueue;
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#include "spi.h"
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#endif
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#ifdef HAS_DISPLAY
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@ -7,6 +7,7 @@ static const char TAG[] = "main";
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TinyGPSPlus gps;
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gpsStatus_t gps_status;
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TaskHandle_t GpsTask;
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// read GPS data and cast to global struct
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void gps_read() {
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@ -67,6 +68,8 @@ void gps_loop(void *pvParameters) {
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} // end of infinite loop
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vTaskDelete(NULL); // shoud never be reached
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} // gps_loop()
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#endif // HAS_GPS
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@ -6,6 +6,8 @@ led_states LEDState = LED_OFF; // LED state global for state machine
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led_states previousLEDState =
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LED_ON; // This will force LED to be off at boot since State is OFF
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TaskHandle_t ledLoopTask;
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uint16_t LEDColor = COLOR_NONE, LEDBlinkDuration = 0; // state machine variables
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unsigned long LEDBlinkStarted = 0; // When (in millis() led blink started)
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@ -6,6 +6,9 @@
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// Local logging Tag
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static const char TAG[] = "lora";
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osjob_t sendjob;
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QueueHandle_t LoraSendQueue;
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// LMIC enhanced Pin mapping
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const lmic_pinmap lmic_pins = {.mosi = PIN_SPI_MOSI,
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.miso = PIN_SPI_MISO,
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@ -63,18 +66,6 @@ void RevBytes(unsigned char *b, size_t c) {
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}
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}
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// initial lmic job
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void initlmic(osjob_t *j) {
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// reset MAC state
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LMIC_reset();
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// This tells LMIC to make the receive windows bigger, in case your clock is
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// 1% faster or slower.
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LMIC_setClockError(MAX_CLOCK_ERROR * 1 / 100);
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// start joining
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LMIC_startJoining();
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// init done - onEvent() callback will be invoked...
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}
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// LMIC callback functions
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void os_getDevKey(u1_t *buf) { memcpy(buf, APPKEY, 16); }
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@ -216,6 +207,9 @@ void onEvent(ev_t ev) {
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// the library)
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switch_lora(cfg.lorasf, cfg.txpower);
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// kickoff first send job
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os_setCallback(&sendjob, lora_send);
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// show effective LoRa parameters after join
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ESP_LOGI(TAG, "ADR=%d, SF=%d, TXPOWER=%d", cfg.adrmode, cfg.lorasf,
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cfg.txpower);
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@ -300,4 +294,25 @@ void switch_lora(uint8_t sf, uint8_t tx) {
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}
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}
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void lora_send(osjob_t *job) {
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MessageBuffer_t SendBuffer;
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// Check if there is a pending TX/RX job running, if yes don't eat data
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// since it cannot be sent right now
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if ((LMIC.opmode & (OP_JOINING | OP_REJOIN | OP_TXDATA | OP_POLL)) != 0) {
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// waiting for LoRa getting ready
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} else {
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if (xQueueReceive(LoraSendQueue, &SendBuffer, (TickType_t)0) == pdTRUE) {
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// SendBuffer gets struct MessageBuffer with next payload from queue
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LMIC_setTxData2(SendBuffer.MessagePort, SendBuffer.Message,
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SendBuffer.MessageSize, (cfg.countermode & 0x02));
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ESP_LOGI(TAG, "%d bytes sent to LoRa", SendBuffer.MessageSize);
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sprintf(display_line7, "PACKET QUEUED");
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}
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}
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// reschedule job every 0,5 - 1 sec. including a bit of random to prevent
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// systematic collisions
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os_setTimedCallback(job, os_getTime() + 500 + ms2osticks(random(500)),
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lora_send);
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}
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#endif // HAS_LORA
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@ -25,6 +25,6 @@ void os_getArtEui(u1_t *buf);
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void os_getDevEui(u1_t *buf);
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void showLoraKeys(void);
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void switch_lora(uint8_t sf, uint8_t tx);
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void initlmic(osjob_t *j);
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void lora_send(osjob_t *job);
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#endif
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61
src/main.cpp
61
src/main.cpp
@ -29,11 +29,12 @@ Task Core Prio Purpose
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====================================================================================
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wifiloop 0 4 rotates wifi channels
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ledloop 0 3 blinks LEDs
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gpsloop 0 2 read data from GPS over serial or i2c
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gpsloop 0 2 reads data from GPS over serial or i2c
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spiloop 0 2 reads/writes data on spi interface
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statemachine 0 1 switches application process logic
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IDLE 0 0 ESP32 arduino scheduler -> runs wifi sniffer task
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IDLE 0 0 ESP32 arduino scheduler -> runs wifi sniffer
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looptask 1 1 arduino loop() -> runs the LMIC stack
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looptask 1 1 arduino core -> runs the LMIC LoRa stack
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IDLE 1 0 ESP32 arduino scheduler
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ESP32 hardware timers
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@ -65,23 +66,6 @@ TaskHandle_t stateMachineTask, wifiSwitchTask;
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SemaphoreHandle_t xWifiChannelSwitchSemaphore;
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// RTos send queues for payload transmit
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#ifdef HAS_LORA
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QueueHandle_t LoraSendQueue;
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#endif
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#ifdef HAS_SPI
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QueueHandle_t SPISendQueue;
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#endif
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#ifdef HAS_GPS
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TaskHandle_t GpsTask;
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#endif
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#if (HAS_LED != NOT_A_PIN) || defined(HAS_RGB_LED)
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TaskHandle_t ledLoopTask;
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#endif
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std::set<uint16_t> macs; // container holding unique MAC adress hashes
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// initialize payload encoder
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@ -138,7 +122,6 @@ void setup() {
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strcat_P(features, " BLE");
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#else
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bool btstop = btStop();
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//esp_bt_controller_mem_release(ESP_BT_MODE_BTDM);
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#endif
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// initialize battery status
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@ -189,6 +172,16 @@ void setup() {
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} else
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ESP_LOGI(TAG, "LORA send queue created, size %d Bytes",
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SEND_QUEUE_SIZE * PAYLOAD_BUFFER_SIZE);
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ESP_LOGI(TAG, "Starting LMIC...");
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os_init(); // initialize lmic run-time environment on core 1
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LMIC_reset(); // initialize lmic MAC
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LMIC_setClockError(MAX_CLOCK_ERROR * 1 /
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100); // This tells LMIC to make the receive windows
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// bigger, in case your clock is 1% faster or slower.
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LMIC_startJoining(); // start joining
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#endif
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// initialize SPI
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@ -293,7 +286,7 @@ void setup() {
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get_salt(); // get new 16bit for salting hashes
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#ifdef HAS_GPS
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ESP_LOGI(TAG, "Starting GPS...");
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ESP_LOGI(TAG, "Starting GPSloop...");
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xTaskCreatePinnedToCore(gps_loop, /* task function */
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"gpsloop", /* name of task */
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1024, /* stack size of task */
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@ -303,6 +296,17 @@ void setup() {
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0); /* CPU core */
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#endif
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#ifdef HAS_SPI
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ESP_LOGI(TAG, "Starting SPIloop...");
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xTaskCreatePinnedToCore(spi_loop, /* task function */
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"spiloop", /* name of task */
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2048, /* stack size of task */
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(void *)1, /* parameter of the task */
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2, /* priority of the task */
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&SpiTask, /* task handle*/
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0); /* CPU core */
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#endif
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// start state machine
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ESP_LOGI(TAG, "Starting Statemachine...");
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xTaskCreatePinnedToCore(stateMachine, /* task function */
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@ -338,14 +342,13 @@ void setup() {
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} // setup()
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void loop() {
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osjob_t initjob;
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// initialize run-time env
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os_init();
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// setup initial job
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os_setCallback(&initjob, initlmic);
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// execute scheduled jobs and events
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while (1) {
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os_runloop_once(); // execute LMIC jobs
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#ifdef HAS_LORA
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os_runloop_once(); // execute lmic scheduled jobs and events
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#endif
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vTaskDelay(2 / portTICK_PERIOD_MS); // yield to CPU
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}
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vTaskDelete(NULL); // shoud never be reached
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}
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@ -75,33 +75,6 @@ void IRAM_ATTR SendCycleIRQ() {
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portEXIT_CRITICAL(&mutexSendCycle);
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}
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// interrupt triggered function to eat data from send queues and transmit it
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void checkSendQueues() {
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MessageBuffer_t SendBuffer;
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#ifdef HAS_LORA
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// Check if there is a pending TX/RX job running
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if ((LMIC.opmode & (OP_JOINING | OP_REJOIN | OP_TXDATA | OP_POLL)) != 0) {
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// LoRa Busy -> don't eat data from queue, since it cannot be sent
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} else {
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if (xQueueReceive(LoraSendQueue, &SendBuffer, (TickType_t)0) == pdTRUE) {
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// SendBuffer gets struct MessageBuffer with next payload from queue
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LMIC_setTxData2(SendBuffer.MessagePort, SendBuffer.Message,
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SendBuffer.MessageSize, (cfg.countermode & 0x02));
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ESP_LOGI(TAG, "%d bytes sent to LoRa", SendBuffer.MessageSize);
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sprintf(display_line7, "PACKET QUEUED");
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}
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}
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#endif
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#ifdef HAS_SPI
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if (xQueueReceive(SPISendQueue, &SendBuffer, (TickType_t)0) == pdTRUE) {
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ESP_LOGI(TAG, "%d bytes sent to SPI", SendBuffer.MessageSize);
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}
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#endif
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} // checkSendQueues
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void flushQueues() {
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#ifdef HAS_LORA
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xQueueReset(LoraSendQueue);
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30
src/spi.cpp
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30
src/spi.cpp
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@ -0,0 +1,30 @@
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#ifdef HAS_SPI
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#include "globals.h"
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// Local logging tag
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static const char TAG[] = "main";
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MessageBuffer_t SendBuffer;
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QueueHandle_t SPISendQueue;
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TaskHandle_t SpiTask;
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// SPI feed Task
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void spi_loop(void *pvParameters) {
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configASSERT(((uint32_t)pvParameters) == 1); // FreeRTOS check
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while (1) {
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if (xQueueReceive(SPISendQueue, &SendBuffer, (TickType_t)0) == pdTRUE) {
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ESP_LOGI(TAG, "%d bytes sent to SPI", SendBuffer.MessageSize);
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}
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vTaskDelay(2 / portTICK_PERIOD_MS); // yield to CPU
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} // end of infinite loop
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vTaskDelete(NULL); // shoud never be reached
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} // spi_loop()
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#endif // HAS_SPI
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9
src/spi.h
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9
src/spi.h
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@ -0,0 +1,9 @@
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#ifndef _SPI_H
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#define _SPI_H
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extern TaskHandle_t SpiTask;
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extern QueueHandle_t SPISendQueue;
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void spi_loop(void *pvParameters);
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#endif
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@ -27,11 +27,10 @@ void stateMachine(void *pvParameters) {
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// check housekeeping cycle and if due do the work
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if (HomeCycleIRQ)
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doHousekeeping();
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// check send cycle and if due enqueue payload to send
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if (SendCycleTimerIRQ)
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sendPayload();
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// check send queues and process due payload to send
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checkSendQueues();
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// give yield to CPU
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vTaskDelay(2 / portTICK_PERIOD_MS);
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