private async Task ReceiveSingleMessage(TestDeviceType type, Client.TransportType transport)
{
TestDevice testDevice = await TestDevice.GetTestDeviceAsync(DevicePrefix, type).ConfigureAwait(false);
using (DeviceClient deviceClient = testDevice.CreateDeviceClient(transport))
using (ServiceClient serviceClient = ServiceClient.CreateFromConnectionString(Configuration.IoTHub.ConnectionString))
{
await deviceClient.OpenAsync().ConfigureAwait(false);
if (transport == Client.TransportType.Mqtt_Tcp_Only ||
transport == Client.TransportType.Mqtt_WebSocket_Only)
{
// Dummy ReceiveAsync to ensure mqtt subscription registration before SendAsync() is called on service client.
await deviceClient.ReceiveAsync(TimeSpan.FromSeconds(1)).ConfigureAwait(false);
}
string payload, messageId, p1Value;
await serviceClient.OpenAsync().ConfigureAwait(false);
Message msg = MessageReceive.ComposeC2DTestMessage(out payload, out messageId, out p1Value);
await serviceClient.SendAsync(testDevice.Id, msg).ConfigureAwait(false);
await MessageReceive.VerifyReceivedC2DMessageAsync(transport, deviceClient, payload, p1Value).ConfigureAwait(false);
await deviceClient.CloseAsync().ConfigureAwait(false);
await serviceClient.CloseAsync().ConfigureAwait(false);
}
}
private async Task ReceiveMessageRecovery(
TestDeviceType type,
Client.TransportType transport,
string faultType,
string reason,
int delayInSec)
{
using (ServiceClient serviceClient = ServiceClient.CreateFromConnectionString(Configuration.IoTHub.ConnectionString))
{
Func <DeviceClient, TestDevice, Task> init = async(deviceClient, testDevice) =>
{
await serviceClient.OpenAsync().ConfigureAwait(false);
if (transport == Client.TransportType.Mqtt_Tcp_Only ||
transport == Client.TransportType.Mqtt_WebSocket_Only)
{
// Dummy ReceiveAsync to ensure mqtt subscription registration before SendAsync() is called on service client.
await deviceClient.ReceiveAsync(TimeSpan.FromSeconds(1)).ConfigureAwait(false);
}
};
Func <DeviceClient, TestDevice, Task> testOperation = async(deviceClient, testDevice) =>
{
string payload, messageId, p1Value;
await serviceClient.SendAsync(
testDevice.Id,
MessageReceive.ComposeC2DTestMessage(out payload, out messageId, out p1Value)).ConfigureAwait(false);
await MessageReceive.VerifyReceivedC2DMessageAsync(transport, deviceClient, payload, p1Value).ConfigureAwait(false);
};
Func <Task> cleanupOperation = () =>
{
return(serviceClient.CloseAsync());
};
await FaultInjection.TestErrorInjectionAsync(
DevicePrefix,
type,
transport,
faultType,
reason,
delayInSec,
FaultInjection.DefaultDurationInSec,
init,
testOperation,
cleanupOperation).ConfigureAwait(false);
}
}
private async Task DeviceCombinedClientOperations(
Client.TransportType transport,
int poolSize,
int devicesCount,
ConnectionStringAuthScope authScope
)
{
var transportSettings = new ITransportSettings[]
{
new AmqpTransportSettings(transport)
{
AmqpConnectionPoolSettings = new AmqpConnectionPoolSettings()
{
MaxPoolSize = unchecked ((uint)poolSize),
Pooling = true
}
}
};
// Initialize service client for service-side operations
ServiceClient serviceClient = ServiceClient.CreateFromConnectionString(Configuration.IoTHub.ConnectionString);
ICollection <DeviceClient> deviceClients = new List <DeviceClient>();
Dictionary <DeviceClient, int> deviceClientConnectionStatusChangeCount = new Dictionary <DeviceClient, int>();
try
{
_log.WriteLine($"{nameof(CombinedClientOperationsMultiplexingTests)}: Starting the test execution for {devicesCount} devices");
for (int i = 0; i < devicesCount; i++)
{
ConnectionStatus? lastConnectionStatus = null;
ConnectionStatusChangeReason?lastConnectionStatusChangeReason = null;
int setConnectionStatusChangesHandlerCount = 0;
TestDevice testDevice = await TestDevice.GetTestDeviceAsync($"{DevicePrefix}_{i}_").ConfigureAwait(false);
DeviceClient deviceClient = testDevice.CreateDeviceClient(transportSettings, authScope);
deviceClients.Add(deviceClient);
// Set the connection status change handler
deviceClient.SetConnectionStatusChangesHandler((status, statusChangeReason) =>
{
setConnectionStatusChangesHandlerCount++;
lastConnectionStatus = status;
lastConnectionStatusChangeReason = statusChangeReason;
_log.WriteLine($"{nameof(CombinedClientOperationsMultiplexingTests)}.{nameof(ConnectionStatusChangesHandler)}: status={status} statusChangeReason={statusChangeReason} count={setConnectionStatusChangesHandlerCount}");
deviceClientConnectionStatusChangeCount[deviceClient] = setConnectionStatusChangesHandlerCount;
});
// Perform D2C Operation
_log.WriteLine($"{nameof(CombinedClientOperationsMultiplexingTests)}: Preparing to send message for device {i}");
await deviceClient.OpenAsync().ConfigureAwait(false);
await MessageSend.SendSingleMessageAndVerifyAsync(deviceClient, testDevice.Id).ConfigureAwait(false);
// Perform C2D Operation
_log.WriteLine($"{nameof(CombinedClientOperationsMultiplexingTests)}: Setting the device {i} to receive C2D message.");
string payload, messageId, p1Value;
Message msg = MessageReceive.ComposeC2DTestMessage(out payload, out messageId, out p1Value);
await serviceClient.SendAsync(testDevice.Id, msg).ConfigureAwait(false);
await MessageReceive.VerifyReceivedC2DMessageAsync(transport, deviceClient, payload, p1Value).ConfigureAwait(false);
// Invoke direct methods
_log.WriteLine($"{nameof(CombinedClientOperationsMultiplexingTests)}: Testing direct methods for device {i}");
Task methodReceivedTask = await MethodOperation.SetDeviceReceiveMethod(deviceClient).ConfigureAwait(false);
await Task.WhenAll(
MethodOperation.ServiceSendMethodAndVerifyResponse(testDevice.Id),
methodReceivedTask).ConfigureAwait(false);
// Set reported twin properties
_log.WriteLine($"{nameof(CombinedClientOperationsMultiplexingTests)}: Setting reported Twin properties for device {i}");
await TwinOperation.Twin_DeviceSetsReportedPropertyAndGetsItBack(deviceClient).ConfigureAwait(false);
// Receive set desired twin properties
_log.WriteLine($"{nameof(CombinedClientOperationsMultiplexingTests)}: Received set desired tein properties for device {i}");
var propName = Guid.NewGuid().ToString();
var propValue = Guid.NewGuid().ToString();
Task updateReceivedTask = await TwinOperation.SetTwinPropertyUpdateCallbackHandlerAsync(deviceClient, propName, propValue).ConfigureAwait(false);
await Task.WhenAll(
TwinOperation.RegistryManagerUpdateDesiredPropertyAsync(testDevice.Id, propName, propValue),
updateReceivedTask).ConfigureAwait(false);
}
}
finally
{
// Close and dispose all of the device client instances here
foreach (DeviceClient deviceClient in deviceClients)
{
await deviceClient.CloseAsync().ConfigureAwait(false);
// The connection status change count should be 2: connect (open) and disabled (close)
Assert.IsTrue(deviceClientConnectionStatusChangeCount[deviceClient] == 2);
_log.WriteLine($"{nameof(MessageSendE2EMultiplexingTests)}: Disposing deviceClient {TestLogging.GetHashCode(deviceClient)}");
deviceClient.Dispose();
}
}
}
private async Task ReceiveMessageMuxedOverAmqp(
Client.TransportType transport,
int poolSize,
int devicesCount,
ConnectionStringAuthScope authScope = ConnectionStringAuthScope.Device)
{
var transportSettings = new ITransportSettings[]
{
new AmqpTransportSettings(transport)
{
AmqpConnectionPoolSettings = new AmqpConnectionPoolSettings()
{
MaxPoolSize = unchecked ((uint)poolSize),
Pooling = true
}
}
};
ICollection <DeviceClient> deviceClients = new List <DeviceClient>();
Dictionary <DeviceClient, int> deviceClientConnectionStatusChangeCount = new Dictionary <DeviceClient, int>();
ServiceClient serviceClient = ServiceClient.CreateFromConnectionString(Configuration.IoTHub.ConnectionString);
try
{
_log.WriteLine($"{nameof(MessageReceiveE2EMultiplexingTests)}: Starting the test execution for {devicesCount} devices");
await serviceClient.OpenAsync().ConfigureAwait(false);
for (int i = 0; i < devicesCount; i++)
{
ConnectionStatus? lastConnectionStatus = null;
ConnectionStatusChangeReason?lastConnectionStatusChangeReason = null;
int setConnectionStatusChangesHandlerCount = 0;
TestDevice testDevice = await TestDevice.GetTestDeviceAsync($"{DevicePrefix}_{i}_").ConfigureAwait(false);
DeviceClient deviceClient = testDevice.CreateDeviceClient(transportSettings, authScope);
deviceClients.Add(deviceClient);
deviceClient.SetConnectionStatusChangesHandler((status, statusChangeReason) =>
{
setConnectionStatusChangesHandlerCount++;
lastConnectionStatus = status;
lastConnectionStatusChangeReason = statusChangeReason;
_log.WriteLine($"{nameof(MessageReceiveE2EMultiplexingTests)}.{nameof(ConnectionStatusChangesHandler)}: status={status} statusChangeReason={statusChangeReason} count={setConnectionStatusChangesHandlerCount}");
deviceClientConnectionStatusChangeCount[deviceClient] = setConnectionStatusChangesHandlerCount;
});
_log.WriteLine($"{nameof(MessageReceiveE2EMultiplexingTests)}: Preparing to receive message for device {i}");
await deviceClient.OpenAsync().ConfigureAwait(false);
string payload, messageId, p1Value;
Message msg = MessageReceive.ComposeC2DTestMessage(out payload, out messageId, out p1Value);
await serviceClient.SendAsync(testDevice.Id, msg).ConfigureAwait(false);
await MessageReceive.VerifyReceivedC2DMessageAsync(transport, deviceClient, payload, p1Value).ConfigureAwait(false);
}
}
finally
{
await serviceClient.CloseAsync().ConfigureAwait(false);
serviceClient.Dispose();
// Close and dispose all of the device client instances here
foreach (DeviceClient deviceClient in deviceClients)
{
await deviceClient.CloseAsync().ConfigureAwait(false);
// The connection status change count should be 2: connect (open) and disabled (close)
Assert.IsTrue(deviceClientConnectionStatusChangeCount[deviceClient] == 2);
_log.WriteLine($"{nameof(MessageReceiveE2EMultiplexingTests)}: Disposing deviceClient {TestLogging.GetHashCode(deviceClient)}");
deviceClient.Dispose();
}
}
}
