// Async method to send simulated telemetry
        internal async Task SendDeviceToCloudMessagesAsync(ModuleClient moduleClient, string deviceId, string moduleId, ILogger logger)
        {
            // Initial telemetry values
            int    counter   = 1;
            string logPrefix = "data".BuildLogPrefix();

            string  messageString = string.Empty;
            Message message       = null;

            using (logger.BeginScope($"{logPrefix}::{ModuleSettings.ArtifactId}::MEASURED DATA"))
            {
                var defaultModel = ModuleSettings.SupportedModels.SingleOrDefault(i => i.ModelId == ModuleSettings.DefaultModelId);
                if (defaultModel == null)
                {
                    throw new Exception("No supported model corresponds to the default model Id.");
                }

                while (true)
                {
                    //Randomize data
                    messageString = await _dtdlMessagingService.GetRandomizedMessageAsync(deviceId, moduleId, ModuleSettings.DefaultModelId, defaultModel.ModelPath);

                    message = new Message(Encoding.UTF8.GetBytes(messageString));
                    message.Properties.Add("messageType", "dtdlMessage");

                    // Add a custom application property to the message.
                    // An IoT hub can filter on these properties without access to the message body.
                    //message.Properties.Add("temperatureAlert", (currentTemperature > 30) ? "true" : "false");
                    message.ContentType     = "application/json";
                    message.ContentEncoding = "utf-8";

                    // Send the tlemetry message
                    await moduleClient.SendEventAsync(message);

                    counter++;

                    logger.LogDebug($"{logPrefix}::{ModuleSettings.ArtifactId}::Sent message: {messageString}.");
                    logger.LogDebug($"{logPrefix}::{ModuleSettings.ArtifactId}::COUNTER: {counter}.");

                    if (_stopProcessing)
                    {
                        logger.LogDebug($"{logPrefix}::{ModuleSettings.ArtifactId}::STOP PROCESSING.");
                        break;
                    }

                    await Task.Delay(_telemetryInterval * 1000);
                }
            }
        }
Exemple #2
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        // Async method to send simulated telemetry
        internal async Task SendDeviceToCloudMessagesAsync(string deviceId)
        {
            int    counter   = 0;
            string logPrefix = "data".BuildLogPrefix();

            string  messageString = string.Empty;
            Message message       = null;

            using (_logger.BeginScope($"{logPrefix}::{DateTime.Now}::{_deviceSettings.ArtifactId}::MEASURED DATA"))
            {
                while (true)
                {
                    //Randomize data
                    messageString = await _dtdlMessageService.GetRandomizedMessageAsync(deviceId, string.Empty, _deviceSettings.DefaultModelId, _defaultModel.ModelPath);

                    message = new Message(Encoding.UTF8.GetBytes(messageString));
                    message.Properties.Add("messageType", "dtdlMessage");

                    // Add a custom application property to the message.
                    // An IoT hub can filter on these properties without access to the message body.
                    //message.Properties.Add("temperatureAlert", (currentTemperature > 30) ? "true" : "false");
                    message.ContentType     = "application/json";
                    message.ContentEncoding = "utf-8";

                    // Send the tlemetry message
                    await _deviceClient.SendEventAsync(message);

                    counter++;

                    _logger.LogDebug($"{logPrefix}::{_deviceSettings.ArtifactId}::Sent message: {messageString}.");
                    _logger.LogDebug($"{logPrefix}::{_deviceSettings.ArtifactId}::COUNTER: {counter}.");

                    if (_stopProcessing)
                    {
                        _logger.LogDebug($"{logPrefix}::STOP PROCESSING.");
                        break;
                    }

                    await Task.Delay(_telemetryInterval * 1000);
                }
            }
        }