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2022-03-22 at 11:09 AM
#16809
I decided to try to make a new site in order to try to work around the problem, but that hasn’t seemed to work either. I’m now getting 504 response codes. The data is still uploading to MM
I decided to try to make a new site in order to try to work around the problem, but that hasn’t seemed to work either. I’m now getting 504 response codes. The data is still uploading to MMW but not publishing. I have to be missing something obvious, right? The new site is NTNWD in the same spot.
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/** ========================================================================= * @file DRWI_LTE.ino * @brief Example for DRWI CitSci LTE sites. * * This example shows proper settings for the following configuration: * * Mayfly v0.5 board * EnviroDIY sim7080 LTE module (with Hologram SIM card) * Hydros21 CTD sensor * Campbell Scientific OBS3+ Turbidity sensor * @author Sara Geleskie Damiano <sdamiano@stroudcenter.org> * @copyright (c) 2017-2020 Stroud Water Research Center (SWRC) * and the EnviroDIY Development Team * This example is published under the BSD-3 license. * * Build Environment: Visual Studios Code with PlatformIO * Hardware Platform: EnviroDIY Mayfly Arduino Datalogger * * DISCLAIMER: * THIS CODE IS PROVIDED "AS IS" - NO WARRANTY IS GIVEN. * ======================================================================= */ // ========================================================================== // Defines for the Arduino IDE // NOTE: These are ONLY needed to compile with the Arduino IDE. // If you use PlatformIO, you should set these build flags in your // platformio.ini // ========================================================================== /** Start [defines] */ #ifndef TINY_GSM_RX_BUFFER #define TINY_GSM_RX_BUFFER 64 #endif #ifndef TINY_GSM_YIELD_MS #define TINY_GSM_YIELD_MS 2 #endif #ifndef MQTT_MAX_PACKET_SIZE #define MQTT_MAX_PACKET_SIZE 256 #endif /** End [defines] */ // ========================================================================== // Include the libraries required for any data logger // ========================================================================== /** Start [includes] */ // The Arduino library is needed for every Arduino program. #include <Arduino.h> // EnableInterrupt is used by ModularSensors for external and pin change // interrupts and must be explicitly included in the main program. #include <EnableInterrupt.h> // To get all of the base classes for ModularSensors, include LoggerBase. // NOTE: Individual sensor definitions must be included separately. #include <LoggerBase.h> // Include the main header for ModularSensors #include <ModularSensors.h> /** End [includes] */ // ========================================================================== // Data Logging Options // ========================================================================== /** Start [logging_options] */ // The name of this program file const char* sketchName = "DRWI_LTE.ino"; // Logger ID, also becomes the prefix for the name of the data file on SD card const char* LoggerID = "NTNWD"; // How frequently (in minutes) to log data const uint8_t loggingInterval = 5; // Your logger's timezone. const int8_t timeZone = -5; // Eastern Standard Time // NOTE: Daylight savings time will not be applied! Please use standard time! // Set the input and output pins for the logger // NOTE: Use -1 for pins that do not apply const long serialBaud = 115200; // Baud rate for debugging const int8_t greenLED = 8; // Pin for the green LED const int8_t redLED = 9; // Pin for the red LED const int8_t buttonPin = 21; // Pin for debugging mode (ie, button pin) const int8_t wakePin = A7; // MCU interrupt/alarm pin to wake from sleep // Mayfly 0.x D31 = A7 // Set the wake pin to -1 if you do not want the main processor to sleep. // In a SAMD system where you are using the built-in rtc, set wakePin to 1 const int8_t sdCardPwrPin = -1; // MCU SD card power pin const int8_t sdCardSSPin = 12; // SD card chip select/slave select pin const int8_t sensorPowerPin = 22; // MCU pin controlling main sensor power /** End [logging_options] */ // ========================================================================== // Wifi/Cellular Modem Options // ========================================================================== /** Start [sim7080] */ // For almost anything based on the SIMCom SIM7080G #include <modems/SIMComSIM7080.h> // Create a reference to the serial port for the modem HardwareSerial& modemSerial = Serial1; // Use hardware serial if possible // for Additional Serial Ports" section const int32_t modemBaud = 9600; // SIM7080 does auto-bauding by default, but I set mine to 9600 // Modem Pins - Describe the physical pin connection of your modem to your board // NOTE: Use -1 for pins that do not apply const int8_t modemVccPin = -2; // MCU pin controlling modem power const int8_t modemStatusPin = 19; // MCU pin used to read modem status const bool useCTSforStatus = false; // Flag to use the modem CTS pin for status const int8_t modemResetPin = 20; // MCU pin connected to modem reset pin const int8_t modemSleepRqPin = 23; // MCU pin for modem sleep/wake request const int8_t modemLEDPin = redLED; // MCU pin connected an LED to show modem // status (-1 if unconnected) // Network connection information const char* apn = "hologram"; // The APN for the gprs connection // Create the modem object SIMComSIM7080 modem7080(&modemSerial, modemVccPin, modemStatusPin, modemSleepRqPin, apn); // Create an extra reference to the modem by a generic name SIMComSIM7080 modem = modem7080; /** End [xbee_cell_transparent] */ // ========================================================================== // Using the Processor as a Sensor // ========================================================================== /** Start [processor_sensor] */ #include <sensors/ProcessorStats.h> // Create the main processor chip "sensor" - for general metadata const char* mcuBoardVersion = "v0.5b"; ProcessorStats mcuBoard(mcuBoardVersion); /** End [processor_sensor] */ // ========================================================================== // Maxim DS3231 RTC (Real Time Clock) // ========================================================================== /** Start [ds3231] */ #include <sensors/MaximDS3231.h> // Create a DS3231 sensor object MaximDS3231 ds3231(1); /** End [ds3231] */ // ========================================================================== // Campbell OBS 3 / OBS 3+ Analog Turbidity Sensor // ========================================================================== /** Start [obs3] */ #include <sensors/CampbellOBS3.h> const int8_t OBS3Power = sensorPowerPin; // Power pin (-1 if unconnected) const uint8_t OBS3NumberReadings = 10; const uint8_t ADSi2c_addr = 0x48; // The I2C address of the ADS1115 ADC // Campbell OBS 3+ *Low* Range Calibration in Volts const int8_t OBSLowADSChannel = 0; // ADS channel for *low* range output const float OBSLow_A = 0.000E+00; // "A" value (X^2) [*low* range] const float OBSLow_B = 1.000E+00; // "B" value (X) [*low* range] const float OBSLow_C = 0.000E+00; // "C" value [*low* range] // Create a Campbell OBS3+ *low* range sensor object CampbellOBS3 osb3low(OBS3Power, OBSLowADSChannel, OBSLow_A, OBSLow_B, OBSLow_C, ADSi2c_addr, OBS3NumberReadings); // Campbell OBS 3+ *High* Range Calibration in Volts const int8_t OBSHighADSChannel = 1; // ADS channel for *high* range output const float OBSHigh_A = 0.000E+00; // "A" value (X^2) [*high* range] const float OBSHigh_B = 1.000E+00; // "B" value (X) [*high* range] const float OBSHigh_C = 0.000E+00; // "C" value [*high* range] // Create a Campbell OBS3+ *high* range sensor object CampbellOBS3 osb3high(OBS3Power, OBSHighADSChannel, OBSHigh_A, OBSHigh_B, OBSHigh_C, ADSi2c_addr, OBS3NumberReadings); /** End [obs3] */ // ========================================================================== // Meter Hydros 21 Conductivity, Temperature, and Depth Sensor // ========================================================================== /** Start [decagon_ctd] */ #include <sensors/DecagonCTD.h> const char* CTDSDI12address = "1"; // The SDI-12 Address of the CTD const uint8_t CTDNumberReadings = 6; // The number of readings to average const int8_t SDI12Power = sensorPowerPin; // Power pin (-1 if unconnected) const int8_t SDI12Data = 7; // The SDI12 data pin // Create a Decagon CTD sensor object DecagonCTD ctd(*CTDSDI12address, SDI12Power, SDI12Data, CTDNumberReadings); /** End [decagon_ctd] */ // ========================================================================== // Creating the Variable Array[s] and Filling with Variable Objects // ========================================================================== /** Start [variable_arrays] */ Variable* variableList[] = { new DecagonCTD_Cond(&ctd), new DecagonCTD_Depth(&ctd), new DecagonCTD_Temp(&ctd), // new CampbellOBS3_Turbidity(&osb3low, "", "TurbLow"), // new CampbellOBS3_Turbidity(&osb3high, "", "TurbHigh"), new ProcessorStats_Battery(&mcuBoard), new MaximDS3231_Temp(&ds3231), // new Modem_RSSI(&modem), new Modem_SignalPercent(&modem), }; // All UUID's, device registration, and sampling feature information can be // pasted directly from Monitor My Watershed. To get the list, click the "View // token UUID list" button on the upper right of the site page. // *** CAUTION --- CAUTION --- CAUTION --- CAUTION --- CAUTION *** // Check the order of your variables in the variable list!!! // Be VERY certain that they match the order of your UUID's! // Rearrange the variables in the variable list if necessary to match! // *** CAUTION --- CAUTION --- CAUTION --- CAUTION --- CAUTION *** const char *UUIDs[] = // UUID array for device sensors { "a619cb5d-5bc6-4c07-8c77-0ed879c22b60", // Electrical conductivity (Decagon_CTD-10_Cond) "377e0676-982e-4dd0-9283-a08eb8ef989b", // Water depth (Decagon_CTD-10_Depth) "0a345b69-848f-4703-9055-361f74b81cd5", // Temperature (Decagon_CTD-10_Temp) "10d9d51d-0227-43f1-bf3b-b445436bdc4d", // Battery voltage (EnviroDIY_Mayfly_Batt) "6dc48d23-2fd7-48fd-890b-478a31223b32", // Temperature (Maxim_DS3231_Temp) "53ca50a0-06d8-491a-ae0e-9b5a36fc6d4f" // Percent full scale (Digi_Cellular_SignalPercent) }; const char *registrationToken = "5b119f9c-7f26-4e16-bea9-5f9ad9f568dc"; // Device registration token const char *samplingFeature = "383c6738-cee1-4e22-bb0f-d86dda9d29f0"; // Sampling feature UUID // Count up the number of pointers in the array int variableCount = sizeof(variableList) / sizeof(variableList[0]); // Create the VariableArray object VariableArray varArray(variableCount, variableList, UUIDs); /** End [variable_arrays] */ // ========================================================================== // The Logger Object[s] // ========================================================================== /** Start [loggers] */ // Create a new logger instance Logger dataLogger(LoggerID, loggingInterval, &varArray); /** End [loggers] */ // ========================================================================== // Creating Data Publisher[s] // ========================================================================== /** Start [publishers] */ // Create a data publisher for the Monitor My Watershed/EnviroDIY POST endpoint #include <publishers/EnviroDIYPublisher.h> EnviroDIYPublisher EnviroDIYPOST(dataLogger, &modem.gsmClient, registrationToken, samplingFeature); /** End [publishers] */ // ========================================================================== // Working Functions // ========================================================================== /** Start [working_functions] */ // Flashes the LED's on the primary board void greenredflash(uint8_t numFlash = 4, uint8_t rate = 75) { for (uint8_t i = 0; i < numFlash; i++) { digitalWrite(greenLED, HIGH); digitalWrite(redLED, LOW); delay(rate); digitalWrite(greenLED, LOW); digitalWrite(redLED, HIGH); delay(rate); } digitalWrite(redLED, LOW); } // Reads the battery voltage // NOTE: This will actually return the battery level from the previous update! float getBatteryVoltage() { if (mcuBoard.sensorValues[0] == -9999) mcuBoard.update(); return mcuBoard.sensorValues[0]; } // ========================================================================== // Arduino Setup Function // ========================================================================== /** Start [setup] */ void setup() { // Start the primary serial connection Serial.begin(serialBaud); // Print a start-up note to the first serial port Serial.print(F("Now running ")); Serial.print(sketchName); Serial.print(F(" on Logger ")); Serial.println(LoggerID); Serial.println(); Serial.print(F("Using ModularSensors Library version ")); Serial.println(MODULAR_SENSORS_VERSION); Serial.print(F("TinyGSM Library version ")); Serial.println(TINYGSM_VERSION); Serial.println(); // Start the serial connection with the modem modemSerial.begin(modemBaud); // Set up pins for the LED's pinMode(greenLED, OUTPUT); digitalWrite(greenLED, LOW); pinMode(redLED, OUTPUT); digitalWrite(redLED, LOW); // Blink the LEDs to show the board is on and starting up greenredflash(); // Set the timezones for the logger/data and the RTC // Logging in the given time zone Logger::setLoggerTimeZone(timeZone); // It is STRONGLY RECOMMENDED that you set the RTC to be in UTC (UTC+0) Logger::setRTCTimeZone(0); // Attach the modem and information pins to the logger dataLogger.attachModem(modem); modem.setModemLED(modemLEDPin); dataLogger.setLoggerPins(wakePin, sdCardSSPin, sdCardPwrPin, buttonPin, greenLED); // Begin the logger dataLogger.begin(); // Note: Please change these battery voltages to match your battery // Set up the sensors, except at lowest battery level if (getBatteryVoltage() > 3.4) { Serial.println(F("Setting up sensors...")); varArray.setupSensors(); } /** Start [setup_sim7080] */ modem.setModemWakeLevel(HIGH); // ModuleFun Bee inverts the signal modem.setModemResetLevel(HIGH); // ModuleFun Bee inverts the signal Serial.println(F("Waking modem and setting Cellular Carrier Options...")); modem.modemWake(); // NOTE: This will also set up the modem modem.gsmModem.setBaud(modemBaud); // Make sure we're *NOT* auto-bauding! modem.gsmModem.setNetworkMode(38); // set to LTE only // 2 Automatic // 13 GSM only // 38 LTE only // 51 GSM and LTE only modem.gsmModem.setPreferredMode(1); // set to CAT-M // 1 CAT-M // 2 NB-IoT // 3 CAT-M and NB-IoT /** End [setup_sim7080] */ // Sync the clock if it isn't valid or we have battery to spare if (getBatteryVoltage() > 3.55 || !dataLogger.isRTCSane()) { // Synchronize the RTC with NIST // This will also set up the modem dataLogger.syncRTC(); } // Create the log file, adding the default header to it // Do this last so we have the best chance of getting the time correct and // all sensor names correct // Writing to the SD card can be power intensive, so if we're skipping // the sensor setup we'll skip this too. if (getBatteryVoltage() > 3.4) { Serial.println(F("Setting up file on SD card")); dataLogger.turnOnSDcard( true); // true = wait for card to settle after power up dataLogger.createLogFile(true); // true = write a new header dataLogger.turnOffSDcard( true); // true = wait for internal housekeeping after write } // Call the processor sleep Serial.println(F("Putting processor to sleep\n")); dataLogger.systemSleep(); } /** End [setup] */ // ========================================================================== // Arduino Loop Function // ========================================================================== /** Start [loop] */ // Use this short loop for simple data logging and sending void loop() { // Note: Please change these battery voltages to match your battery // At very low battery, just go back to sleep if (getBatteryVoltage() < 3.4) { dataLogger.systemSleep(); } // At moderate voltage, log data but don't send it over the modem else if (getBatteryVoltage() < 3.55) { dataLogger.logData(); } // If the battery is good, send the data to the world else { dataLogger.logDataAndPublish(); } } /** End [loop] */ //Michael Daniel //Lynchburg Water Resources |
I’m also unable to delete my previous sites or delete sensors.
