public async Task When_Device_Is_Not_In_Cache_And_Found_In_Api_Does_Not_Match_Gateway_Should_Return_Null()
{
var simulatedDevice = new SimulatedDevice(TestDeviceInfo.CreateABPDevice(1, gatewayID: "a_different_one"));
var payload = simulatedDevice.CreateUnconfirmedDataUpMessage("1234");
payload.SerializeUplink(simulatedDevice.AppSKey, simulatedDevice.NwkSKey);
var apiService = new Mock <LoRaDeviceAPIServiceBase>();
var iotHubDeviceInfo = new IoTHubDeviceInfo(simulatedDevice.LoRaDevice.DevAddr, simulatedDevice.LoRaDevice.DeviceID, string.Empty);
apiService.Setup(x => x.SearchByDevAddrAsync(It.IsNotNull <string>()))
.ReturnsAsync(new SearchDevicesResult(iotHubDeviceInfo.AsList()));
var createdLoraDevice = TestUtils.CreateFromSimulatedDevice(simulatedDevice, this.loRaDeviceClient.Object);
this.loraDeviceFactoryMock.Setup(x => x.Create(iotHubDeviceInfo))
.Returns(createdLoraDevice);
// device will be initialized
this.loRaDeviceClient.Setup(x => x.GetTwinAsync())
.ReturnsAsync(new Twin());
var target = new LoRaDeviceRegistry(this.serverConfiguration, this.cache, apiService.Object, this.loraDeviceFactoryMock.Object);
var actual = await target.GetDeviceForPayloadAsync(payload);
Assert.Null(actual);
// Device was searched by DevAddr
apiService.VerifyAll();
// Device was created by factory
this.loraDeviceFactoryMock.VerifyAll();
}
public async Task When_Device_Is_Assigned_To_Another_Gateway_After_Getting_Twin_Cache_Locally_And_Return_Null()
{
var simulatedDevice = new SimulatedDevice(TestDeviceInfo.CreateABPDevice(1, gatewayID: "another-gateway"));
var apiService = new Mock <LoRaDeviceAPIServiceBase>(MockBehavior.Strict);
var iotHubDeviceInfo = new IoTHubDeviceInfo(simulatedDevice.LoRaDevice.DevAddr, simulatedDevice.LoRaDevice.DeviceID, string.Empty);
apiService.Setup(x => x.SearchByDevAddrAsync(It.IsNotNull <string>()))
.ReturnsAsync(new SearchDevicesResult(iotHubDeviceInfo.AsList()));
this.loRaDeviceClient.Setup(x => x.GetTwinAsync())
.ReturnsAsync(simulatedDevice.CreateABPTwin());
this.loRaDeviceClient.Setup(x => x.Disconnect())
.Returns(true);
var deviceFactory = new TestLoRaDeviceFactory(this.loRaDeviceClient.Object);
var target = new LoRaDeviceRegistry(this.serverConfiguration, this.cache, apiService.Object, deviceFactory);
// request #1
var payload1 = simulatedDevice.CreateUnconfirmedDataUpMessage("1", fcnt: 11);
payload1.SerializeUplink(simulatedDevice.AppSKey, simulatedDevice.NwkSKey);
var request1 = new WaitableLoRaRequest(payload1);
target.GetLoRaRequestQueue(request1).Queue(request1);
Assert.True(await request1.WaitCompleteAsync());
Assert.True(request1.ProcessingFailed);
Assert.Equal(LoRaDeviceRequestFailedReason.BelongsToAnotherGateway, request1.ProcessingFailedReason);
// request #2
var payload2 = simulatedDevice.CreateUnconfirmedDataUpMessage("2", fcnt: 12);
payload2.SerializeUplink(simulatedDevice.AppSKey, simulatedDevice.NwkSKey);
var request2 = new WaitableLoRaRequest(payload2);
target.GetLoRaRequestQueue(request2).Queue(request2);
Assert.True(await request2.WaitCompleteAsync());
Assert.True(request2.ProcessingFailed);
Assert.Equal(LoRaDeviceRequestFailedReason.BelongsToAnotherGateway, request2.ProcessingFailedReason);
// Device was searched by DevAddr
apiService.VerifyAll();
apiService.Verify(x => x.SearchByDevAddrAsync(It.IsNotNull <string>()), Times.Once());
this.loRaDeviceClient.VerifyAll();
this.loRaDeviceClient.Verify(x => x.GetTwinAsync(), Times.Once());
// device is in cache
var devAddrDictionary = target.InternalGetCachedDevicesForDevAddr(LoRaTools.Utils.ConversionHelper.ByteArrayToString(payload1.DevAddr));
Assert.NotNull(devAddrDictionary);
Assert.True(devAddrDictionary.TryGetValue(simulatedDevice.DevEUI, out var cachedLoRaDevice));
Assert.False(cachedLoRaDevice.IsOurDevice);
}
public async Task When_New_ABP_Device_Instance_Is_Created_Should_Increment_FCntDown()
{
var simulatedDevice = new SimulatedDevice(TestDeviceInfo.CreateABPDevice(1, gatewayID: ServerGatewayID));
var iotHubDeviceInfo = new IoTHubDeviceInfo(simulatedDevice.LoRaDevice.DevAddr, simulatedDevice.LoRaDevice.DeviceID, string.Empty);
this.LoRaDeviceApi.Setup(x => x.SearchByDevAddrAsync(It.IsNotNull <string>()))
.ReturnsAsync(new SearchDevicesResult(iotHubDeviceInfo.AsList()));
// device will:
// - be initialized
// - send event
// - receive c2d
this.LoRaDeviceClient.Setup(x => x.GetTwinAsync())
.ReturnsAsync(simulatedDevice.CreateABPTwin());
this.LoRaDeviceClient.Setup(x => x.SendEventAsync(It.IsNotNull <LoRaDeviceTelemetry>(), null))
.ReturnsAsync(true);
this.LoRaDeviceClient.Setup(x => x.ReceiveAsync(It.IsNotNull <TimeSpan>()))
.ReturnsAsync((Message)null);
var deviceRegistry = new LoRaDeviceRegistry(this.ServerConfiguration, this.NewMemoryCache(), this.LoRaDeviceApi.Object, this.LoRaDeviceFactory);
// Send to message processor
var messageProcessor = new MessageDispatcher(
this.ServerConfiguration,
deviceRegistry,
this.FrameCounterUpdateStrategyProvider);
var payload = simulatedDevice.CreateUnconfirmedDataUpMessage("2", fcnt: 2);
var rxpk = payload.SerializeUplink(simulatedDevice.AppSKey, simulatedDevice.NwkSKey).Rxpk[0];
var request = this.CreateWaitableRequest(rxpk, constantElapsedTime: TimeSpan.FromMilliseconds(300));
messageProcessor.DispatchRequest(request);
Assert.True(await request.WaitCompleteAsync());
Assert.True(request.ProcessingSucceeded);
// Wait until loader updates the device cache
await Task.Delay(50);
var devices = deviceRegistry.InternalGetCachedDevicesForDevAddr(simulatedDevice.DevAddr);
Assert.Single(devices);
Assert.True(devices.TryGetValue(simulatedDevice.DevEUI, out var cachedDevice));
Assert.True(cachedDevice.IsOurDevice);
Assert.Equal(Constants.MAX_FCNT_UNSAVED_DELTA - 1U, cachedDevice.FCntDown);
Assert.Equal(payload.GetFcnt(), (ushort)cachedDevice.FCntUp);
// Device was searched by DevAddr
this.LoRaDeviceApi.VerifyAll();
// Device was created by factory
this.LoRaDeviceClient.VerifyAll();
}
public async Task When_New_ABP_Device_Instance_Is_Created_Should_Increment_FCntDown()
{
var simulatedDevice = new SimulatedDevice(TestDeviceInfo.CreateABPDevice(1, gatewayID: ServerGatewayID));
var iotHubDeviceInfo = new IoTHubDeviceInfo(simulatedDevice.LoRaDevice.DevAddr, simulatedDevice.LoRaDevice.DevEui, "pk");
LoRaDeviceApi.Setup(x => x.SearchByDevAddrAsync(It.IsAny <DevAddr>()))
.ReturnsAsync(new SearchDevicesResult(iotHubDeviceInfo.AsList()));
// device will:
// - be initialized
// - send event
// - receive c2d
LoRaDeviceClient.Setup(x => x.GetTwinAsync(CancellationToken.None))
.ReturnsAsync(simulatedDevice.CreateABPTwin());
LoRaDeviceClient.Setup(x => x.SendEventAsync(It.IsNotNull <LoRaDeviceTelemetry>(), null))
.ReturnsAsync(true);
LoRaDeviceClient.Setup(x => x.ReceiveAsync(It.IsNotNull <TimeSpan>()))
.ReturnsAsync((Message)null);
using var cache = NewMemoryCache();
using var deviceRegistry = new LoRaDeviceRegistry(ServerConfiguration, cache, LoRaDeviceApi.Object, LoRaDeviceFactory, DeviceCache);
// Send to message processor
using var messageProcessor = new MessageDispatcher(
ServerConfiguration,
deviceRegistry,
FrameCounterUpdateStrategyProvider);
var payload = simulatedDevice.CreateUnconfirmedDataUpMessage("2", fcnt: 2);
using var request = CreateWaitableRequest(TestUtils.GenerateTestRadioMetadata(), payload, constantElapsedTime: TimeSpan.FromMilliseconds(300));
messageProcessor.DispatchRequest(request);
Assert.True(await request.WaitCompleteAsync());
Assert.True(request.ProcessingSucceeded);
// Wait until loader updates the device cache
await Task.Delay(50);
Assert.Equal(1, DeviceCache.RegistrationCount(simulatedDevice.DevAddr.Value));
Assert.True(DeviceCache.TryGetForPayload(request.Payload, out var cachedDevice));
Assert.True(cachedDevice.IsOurDevice);
Assert.Equal(Constants.MaxFcntUnsavedDelta - 1U, cachedDevice.FCntDown);
Assert.Equal(payload.Fcnt, (ushort)cachedDevice.FCntUp);
// Device was searched by DevAddr
LoRaDeviceApi.VerifyAll();
// Device was created by factory
LoRaDeviceClient.VerifyAll();
}
public async Task When_Device_Does_Not_Match_Gateway_Should_Fail_Request()
{
var simulatedDevice = new SimulatedDevice(TestDeviceInfo.CreateABPDevice(1, gatewayID: "a_different_one"));
var payload = simulatedDevice.CreateUnconfirmedDataUpMessage("1234");
payload.SerializeUplink(simulatedDevice.AppSKey, simulatedDevice.NwkSKey);
var apiService = new Mock <LoRaDeviceAPIServiceBase>();
var iotHubDeviceInfo = new IoTHubDeviceInfo(simulatedDevice.LoRaDevice.DevAddr, simulatedDevice.LoRaDevice.DeviceID, string.Empty)
{
GatewayId = "a_different_one",
};
apiService.Setup(x => x.SearchByDevAddrAsync(It.IsNotNull <string>()))
.ReturnsAsync(new SearchDevicesResult(iotHubDeviceInfo.AsList()));
var loRaDeviceClient = new Mock <ILoRaDeviceClient>(MockBehavior.Strict);
var deviceFactory = new TestLoRaDeviceFactory(loRaDeviceClient.Object);
var destinationDictionary = new DevEUIToLoRaDeviceDictionary();
var finished = new SemaphoreSlim(0);
var target = new DeviceLoaderSynchronizer(
simulatedDevice.DevAddr,
apiService.Object,
deviceFactory,
destinationDictionary,
null,
this.serverConfiguration,
(_, l) => { finished.Release(); },
(d) => destinationDictionary.TryAdd(d.DevEUI, d));
var request = new WaitableLoRaRequest(payload);
target.Queue(request);
Assert.True(await request.WaitCompleteAsync());
Assert.True(request.ProcessingFailed);
Assert.Equal(LoRaDeviceRequestFailedReason.BelongsToAnotherGateway, request.ProcessingFailedReason);
// device should not be initialized, since it belongs to another gateway
loRaDeviceClient.Verify(x => x.GetTwinAsync(), Times.Never());
// device should not be disconnected (was never connected)
loRaDeviceClient.Verify(x => x.Disconnect(), Times.Never());
// Device was searched by DevAddr
apiService.VerifyAll();
// Device was created by factory
loRaDeviceClient.VerifyAll();
}
public async Task When_Device_Is_Assigned_To_Another_Gateway_Cache_Locally_And_Return_Null()
{
var simulatedDevice = new SimulatedDevice(TestDeviceInfo.CreateABPDevice(1, gatewayID: "another-gateway"));
var apiService = new Mock <LoRaDeviceAPIServiceBase>(MockBehavior.Strict);
var iotHubDeviceInfo = new IoTHubDeviceInfo(simulatedDevice.LoRaDevice.DevAddr, simulatedDevice.LoRaDevice.DevEui, "pk")
{
GatewayId = "another-gateway",
NwkSKey = simulatedDevice.NwkSKey.Value
};
apiService.Setup(x => x.SearchByDevAddrAsync(It.IsAny <DevAddr>()))
.ReturnsAsync(new SearchDevicesResult(iotHubDeviceInfo.AsList()));
var deviceFactory = new TestLoRaDeviceFactory(LoRaDeviceClient.Object, DeviceCache, ConnectionManager);
using var target = new LoRaDeviceRegistry(ServerConfiguration, this.cache, apiService.Object, deviceFactory, DeviceCache);
// request #1
var payload1 = simulatedDevice.CreateUnconfirmedDataUpMessage("1", fcnt: 11);
using var request1 = WaitableLoRaRequest.Create(payload1);
target.GetLoRaRequestQueue(request1).Queue(request1);
Assert.True(await request1.WaitCompleteAsync());
Assert.True(request1.ProcessingFailed);
Assert.Equal(LoRaDeviceRequestFailedReason.BelongsToAnotherGateway, request1.ProcessingFailedReason);
// request #2
var payload2 = simulatedDevice.CreateUnconfirmedDataUpMessage("2", fcnt: 12);
using var request2 = WaitableLoRaRequest.Create(payload2);
target.GetLoRaRequestQueue(request2).Queue(request2);
Assert.True(await request2.WaitCompleteAsync());
Assert.True(request2.ProcessingFailed);
Assert.Equal(LoRaDeviceRequestFailedReason.BelongsToAnotherGateway, request2.ProcessingFailedReason);
// Device was searched by DevAddr
apiService.VerifyAll();
apiService.Verify(x => x.SearchByDevAddrAsync(It.IsAny <DevAddr>()), Times.Once());
// Device should not be connected
LoRaDeviceClient.VerifyAll();
LoRaDeviceClient.Verify(x => x.GetTwinAsync(CancellationToken.None), Times.Never());
LoRaDeviceClient.Verify(x => x.Disconnect(), Times.Never());
// device is in cache
Assert.True(DeviceCache.TryGetForPayload(request1.Payload, out var loRaDevice));
Assert.False(loRaDevice.IsOurDevice);
}
public async Task When_Device_Does_Not_Match_Gateway_Should_Fail_Request()
{
var simulatedDevice = new SimulatedDevice(TestDeviceInfo.CreateABPDevice(1, gatewayID: "a_different_one"));
var payload = simulatedDevice.CreateUnconfirmedDataUpMessage("1234");
var apiService = new Mock <LoRaDeviceAPIServiceBase>();
var iotHubDeviceInfo = new IoTHubDeviceInfo(simulatedDevice.LoRaDevice.DevAddr, simulatedDevice.LoRaDevice.DevEui, "pk")
{
GatewayId = "a_different_one",
NwkSKey = simulatedDevice.NwkSKey.Value
};
apiService.Setup(x => x.SearchByDevAddrAsync(It.IsAny <DevAddr>()))
.ReturnsAsync(new SearchDevicesResult(iotHubDeviceInfo.AsList()));
var loRaDeviceClient = new Mock <ILoRaDeviceClient>(MockBehavior.Loose);
using var deviceCache = LoRaDeviceCacheDefault.CreateDefault();
var deviceFactory = new TestLoRaDeviceFactory(loRaDeviceClient.Object, deviceCache, this.connectionManager);
var target = new DeviceLoaderSynchronizer(
simulatedDevice.DevAddr.Value,
apiService.Object,
deviceFactory,
new NetworkServerConfiguration(),
deviceCache,
null,
NullLogger <DeviceLoaderSynchronizer> .Instance);
_ = target.LoadAsync();
using var request = WaitableLoRaRequest.Create(payload);
target.Queue(request);
Assert.True(await request.WaitCompleteAsync());
Assert.True(request.ProcessingFailed);
Assert.Equal(LoRaDeviceRequestFailedReason.BelongsToAnotherGateway, request.ProcessingFailedReason);
// device should not be initialized, since it belongs to another gateway
loRaDeviceClient.Verify(x => x.GetTwinAsync(CancellationToken.None), Times.Never());
// device should not be disconnected (was never connected)
loRaDeviceClient.Verify(x => x.Disconnect(), Times.Never());
// Device was searched by DevAddr
apiService.VerifyAll();
// Device was created by factory
loRaDeviceClient.VerifyAll();
}
public async Task When_Device_Is_Not_In_Cache_And_Found_In_Api_Does_Not_Match_Mic_Should_Fail_Request(string deviceGatewayID)
{
var simulatedDevice = new SimulatedDevice(TestDeviceInfo.CreateABPDevice(1, gatewayID: deviceGatewayID));
var apiService = new Mock <LoRaDeviceAPIServiceBase>();
var iotHubDeviceInfo = new IoTHubDeviceInfo(simulatedDevice.LoRaDevice.DevAddr, simulatedDevice.LoRaDevice.DeviceID, string.Empty);
apiService.Setup(x => x.SearchByDevAddrAsync(It.IsNotNull <string>()))
.ReturnsAsync(new SearchDevicesResult(iotHubDeviceInfo.AsList()));
// Will get device twin
var loRaDeviceClient = new Mock <ILoRaDeviceClient>(MockBehavior.Strict);
loRaDeviceClient.Setup(x => x.GetTwinAsync())
.ReturnsAsync(TestUtils.CreateABPTwin(simulatedDevice));
var deviceFactory = new TestLoRaDeviceFactory(loRaDeviceClient.Object);
var destinationDictionary = new DevEUIToLoRaDeviceDictionary();
var finished = new SemaphoreSlim(0);
var target = new DeviceLoaderSynchronizer(
simulatedDevice.DevAddr,
apiService.Object,
deviceFactory,
destinationDictionary,
null,
this.serverConfiguration,
(_, l) => { finished.Release(); },
(d) => destinationDictionary.TryAdd(d.DevEUI, d));
var payload = simulatedDevice.CreateUnconfirmedDataUpMessage("1234");
payload.SerializeUplink(simulatedDevice.AppSKey, "00000000000000000000000000EEAAFF");
var request = new WaitableLoRaRequest(payload);
target.Queue(request);
Assert.True(await request.WaitCompleteAsync());
Assert.True(request.ProcessingFailed);
Assert.Equal(LoRaDeviceRequestFailedReason.NotMatchingDeviceByMicCheck, request.ProcessingFailedReason);
// Device was searched by DevAddr
apiService.VerifyAll();
loRaDeviceClient.VerifyAll();
}
public async Task When_ABP_Device_Is_Created_Should_Call_Initializers(string deviceGatewayID)
{
var simulatedDevice = new SimulatedDevice(TestDeviceInfo.CreateABPDevice(1, gatewayID: deviceGatewayID));
var payload = simulatedDevice.CreateUnconfirmedDataUpMessage("1234");
payload.SerializeUplink(simulatedDevice.AppSKey, simulatedDevice.NwkSKey);
var apiService = new Mock <LoRaDeviceAPIServiceBase>();
var iotHubDeviceInfo = new IoTHubDeviceInfo(simulatedDevice.LoRaDevice.DevAddr, simulatedDevice.LoRaDevice.DeviceID, string.Empty);
apiService.Setup(x => x.SearchByDevAddrAsync(It.IsNotNull <string>()))
.ReturnsAsync(new SearchDevicesResult(iotHubDeviceInfo.AsList()));
var createdLoraDevice = TestUtils.CreateFromSimulatedDevice(simulatedDevice, this.loRaDeviceClient.Object);
this.loraDeviceFactoryMock.Setup(x => x.Create(iotHubDeviceInfo))
.Returns(createdLoraDevice);
// device will be initialized
this.loRaDeviceClient.Setup(x => x.GetTwinAsync())
.ReturnsAsync(simulatedDevice.CreateABPTwin());
var target = new LoRaDeviceRegistry(this.serverConfiguration, this.cache, apiService.Object, this.loraDeviceFactoryMock.Object);
var initializer = new Mock <ILoRaDeviceInitializer>();
initializer.Setup(x => x.Initialize(createdLoraDevice));
target.RegisterDeviceInitializer(initializer.Object);
var actual = await target.GetDeviceForPayloadAsync(payload);
Assert.NotNull(actual);
Assert.Same(actual, createdLoraDevice);
Assert.True(actual.IsOurDevice);
// Device was searched by DevAddr
apiService.VerifyAll();
// Device was created by factory
this.loraDeviceFactoryMock.VerifyAll();
// initializer was called
initializer.VerifyAll();
}
public async Task When_Device_Is_Assigned_To_Another_Gateway_After_No_Connection_Should_Be_Established()
{
const string gatewayId = "another-gateway";
var simulatedDevice = new SimulatedDevice(TestDeviceInfo.CreateABPDevice(1, gatewayID: gatewayId));
var apiService = new Mock <LoRaDeviceAPIServiceBase>(MockBehavior.Strict);
var iotHubDeviceInfo = new IoTHubDeviceInfo(simulatedDevice.LoRaDevice.DevAddr, simulatedDevice.LoRaDevice.DevEui, "pk")
{
NwkSKey = simulatedDevice.NwkSKey.Value, GatewayId = gatewayId
};
apiService.Setup(x => x.SearchByDevAddrAsync(It.IsAny <DevAddr>()))
.ReturnsAsync(new SearchDevicesResult(iotHubDeviceInfo.AsList()));
var deviceFactory = new TestLoRaDeviceFactory(LoRaDeviceClient.Object, DeviceCache, ConnectionManager);
using var target = new LoRaDeviceRegistry(ServerConfiguration, this.cache, apiService.Object, deviceFactory, DeviceCache);
// setup 2 requests - ensure the cache is validated before fetching from the function
var requests = Enumerable.Range(1, 2).Select((n) =>
{
var payload = simulatedDevice.CreateUnconfirmedDataUpMessage(n.ToString(CultureInfo.InvariantCulture), fcnt: (uint)n + 10);
var request = WaitableLoRaRequest.Create(payload);
target.GetLoRaRequestQueue(request).Queue(request);
return(request);
}
).ToList();
foreach (var request in requests)
{
Assert.True(await request.WaitCompleteAsync());
Assert.True(request.ProcessingFailed);
Assert.Equal(LoRaDeviceRequestFailedReason.BelongsToAnotherGateway, request.ProcessingFailedReason);
}
// Device was searched by DevAddr
apiService.VerifyAll();
apiService.Verify(x => x.SearchByDevAddrAsync(It.IsAny <DevAddr>()), Times.Once());
LoRaDeviceClient.Verify(x => x.GetTwinAsync(CancellationToken.None), Times.Never());
// device is in cache
Assert.True(DeviceCache.TryGetForPayload(requests.First().Payload, out var cachedLoRaDevice));
Assert.False(cachedLoRaDevice.IsOurDevice);
}
public async Task When_Device_Is_Assigned_To_Another_Gateway_Cache_Locally_And_Return_Null()
{
var simulatedDevice = new SimulatedDevice(TestDeviceInfo.CreateABPDevice(1, gatewayID: "another-gateway"));
var payload = simulatedDevice.CreateUnconfirmedDataUpMessage("1234");
var apiService = new Mock <LoRaDeviceAPIServiceBase>();
var iotHubDeviceInfo = new IoTHubDeviceInfo(simulatedDevice.LoRaDevice.DevAddr, simulatedDevice.LoRaDevice.DeviceID, string.Empty);
apiService.Setup(x => x.SearchByDevAddrAsync(It.IsNotNull <string>()))
.ReturnsAsync(new SearchDevicesResult(iotHubDeviceInfo.AsList()));
var createdLoraDevice = TestUtils.CreateFromSimulatedDevice(simulatedDevice, this.loRaDeviceClient.Object);
this.loraDeviceFactoryMock.Setup(x => x.Create(iotHubDeviceInfo))
.Returns(createdLoraDevice);
// device will be initialized
this.loRaDeviceClient.Setup(x => x.GetTwinAsync())
.ReturnsAsync(simulatedDevice.CreateABPTwin());
var target = new LoRaDeviceRegistry(this.serverConfiguration, this.cache, apiService.Object, this.loraDeviceFactoryMock.Object);
var actual = await target.GetDeviceForPayloadAsync(payload);
Assert.Null(actual);
// search again
var actual2 = await target.GetDeviceForPayloadAsync(payload);
Assert.Null(actual2);
// Device was searched by DevAddr
apiService.VerifyAll();
// Device was created by factory
this.loraDeviceFactoryMock.VerifyAll();
// device is in cache
Assert.Equal(1, this.cache.Count);
var devAddrDictionary = target.InternalGetCachedDevicesForDevAddr(LoRaTools.Utils.ConversionHelper.ByteArrayToString(payload.DevAddr));
Assert.NotNull(devAddrDictionary);
Assert.True(devAddrDictionary.TryGetValue(createdLoraDevice.DevEUI, out var cachedLoRaDevice));
Assert.False(cachedLoRaDevice.IsOurDevice);
}
public async Task When_Device_Is_Not_In_Cache_And_Found_In_Api_Should_Cache_And_Process_Request(string deviceGatewayID)
{
var simulatedDevice = new SimulatedDevice(TestDeviceInfo.CreateABPDevice(1, gatewayID: deviceGatewayID));
var payload = simulatedDevice.CreateUnconfirmedDataUpMessage("1234");
payload.SerializeUplink(simulatedDevice.AppSKey, simulatedDevice.NwkSKey);
var apiService = new Mock <LoRaDeviceAPIServiceBase>();
var iotHubDeviceInfo = new IoTHubDeviceInfo(simulatedDevice.LoRaDevice.DevAddr, simulatedDevice.LoRaDevice.DeviceID, string.Empty);
apiService.Setup(x => x.SearchByDevAddrAsync(It.IsNotNull <string>()))
.ReturnsAsync(new SearchDevicesResult(iotHubDeviceInfo.AsList()));
// device will be initialized
this.loRaDeviceClient.Setup(x => x.GetTwinAsync())
.ReturnsAsync(simulatedDevice.CreateABPTwin());
var request = new WaitableLoRaRequest(payload);
var requestHandler = new Mock <ILoRaDataRequestHandler>(MockBehavior.Strict);
requestHandler.Setup(x => x.ProcessRequestAsync(request, It.IsNotNull <LoRaDevice>()))
.ReturnsAsync(new LoRaDeviceRequestProcessResult(null, request));
var deviceFactory = new TestLoRaDeviceFactory(this.loRaDeviceClient.Object, requestHandler.Object);
var target = new LoRaDeviceRegistry(this.serverConfiguration, this.cache, apiService.Object, deviceFactory);
target.GetLoRaRequestQueue(request).Queue(request);
Assert.True(await request.WaitCompleteAsync());
Assert.True(request.ProcessingSucceeded);
// Device was searched by DevAddr
apiService.VerifyAll();
// ensure device is in cache
var cachedItem = target.InternalGetCachedDevicesForDevAddr(simulatedDevice.DevAddr);
Assert.NotNull(cachedItem);
Assert.Single(cachedItem);
Assert.True(cachedItem.TryGetValue(simulatedDevice.DevEUI, out var actualCachedLoRaDevice));
// request was handled
requestHandler.VerifyAll();
}
public async Task When_Cache_Clear_Is_Called_Should_Removed_Cached_Devices(string deviceGatewayID)
{
const int deviceCount = 10;
var foundDeviceList = new HashSet <LoRaDevice>();
var apiService = new Mock <LoRaDeviceAPIServiceBase>();
var deviceFactory = new TestLoRaDeviceFactory(this.loRaDeviceClient.Object);
var target = new LoRaDeviceRegistry(this.serverConfiguration, this.cache, apiService.Object, deviceFactory);
var getTwinMockSequence = this.loRaDeviceClient.SetupSequence(x => x.GetTwinAsync());
for (var deviceID = 1; deviceID <= deviceCount; ++deviceID)
{
var simulatedDevice = new SimulatedDevice(TestDeviceInfo.CreateABPDevice((uint)deviceID, gatewayID: deviceGatewayID));
var payload = simulatedDevice.CreateUnconfirmedDataUpMessage("1234");
payload.SerializeUplink(simulatedDevice.AppSKey, simulatedDevice.NwkSKey); // force mic creation
var iotHubDeviceInfo = new IoTHubDeviceInfo(simulatedDevice.LoRaDevice.DevAddr, simulatedDevice.LoRaDevice.DeviceID, string.Empty);
apiService.Setup(x => x.SearchByDevAddrAsync(simulatedDevice.DevAddr))
.ReturnsAsync(new SearchDevicesResult(iotHubDeviceInfo.AsList()));
// device will be initialized
getTwinMockSequence.ReturnsAsync(simulatedDevice.CreateABPTwin());
var actual = await target.GetDeviceForPayloadAsync(payload);
Assert.NotNull(actual);
foundDeviceList.Add(actual);
}
Assert.Equal(deviceCount, foundDeviceList.Count);
// Device was searched by DevAddr
apiService.VerifyAll();
// Device was created by factory
this.loraDeviceFactoryMock.VerifyAll();
// ensure all devices are in cache
Assert.Equal(deviceCount, foundDeviceList.Count(x => target.InternalGetCachedDevicesForDevAddr(x.DevAddr).Count == 1));
target.ResetDeviceCache();
Assert.False(foundDeviceList.Any(x => target.InternalGetCachedDevicesForDevAddr(x.DevAddr).Count > 0), "Should not find devices again");
}
public async Task When_Device_Is_Not_In_Cache_And_Found_In_Api_Should_Cache_And_Return_It(string deviceGatewayID)
{
var simulatedDevice = new SimulatedDevice(TestDeviceInfo.CreateABPDevice(1, gatewayID: deviceGatewayID));
var payload = simulatedDevice.CreateUnconfirmedDataUpMessage("1234");
payload.SerializeUplink(simulatedDevice.AppSKey, simulatedDevice.NwkSKey);
var apiService = new Mock <LoRaDeviceAPIServiceBase>();
var iotHubDeviceInfo = new IoTHubDeviceInfo(simulatedDevice.LoRaDevice.DevAddr, simulatedDevice.LoRaDevice.DeviceID, string.Empty);
apiService.Setup(x => x.SearchByDevAddrAsync(It.IsNotNull <string>()))
.ReturnsAsync(new SearchDevicesResult(iotHubDeviceInfo.AsList()));
var createdLoraDevice = TestUtils.CreateFromSimulatedDevice(simulatedDevice, this.loRaDeviceClient.Object);
this.loraDeviceFactoryMock.Setup(x => x.Create(iotHubDeviceInfo))
.Returns(createdLoraDevice);
// device will be initialized
this.loRaDeviceClient.Setup(x => x.GetTwinAsync())
.ReturnsAsync(simulatedDevice.CreateABPTwin());
var target = new LoRaDeviceRegistry(this.serverConfiguration, this.cache, apiService.Object, this.loraDeviceFactoryMock.Object);
var actual = await target.GetDeviceForPayloadAsync(payload);
Assert.NotNull(actual);
Assert.Same(actual, createdLoraDevice);
Assert.True(actual.IsOurDevice);
// Device was searched by DevAddr
apiService.VerifyAll();
// Device was created by factory
this.loraDeviceFactoryMock.VerifyAll();
// ensure device is in cache
var cachedItem = target.InternalGetCachedDevicesForDevAddr(createdLoraDevice.DevAddr);
Assert.NotNull(cachedItem);
Assert.Single(cachedItem);
Assert.True(cachedItem.TryGetValue(createdLoraDevice.DevEUI, out var actualCachedLoRaDevice));
Assert.Same(createdLoraDevice, actualCachedLoRaDevice);
}
public async Task When_ABP_Device_Is_Created_Should_Call_Initializers(string deviceGatewayID)
{
LoRaDeviceClient.Setup(ldc => ldc.Dispose());
var simulatedDevice = new SimulatedDevice(TestDeviceInfo.CreateABPDevice(1, gatewayID: deviceGatewayID));
var payload = simulatedDevice.CreateUnconfirmedDataUpMessage("1234");
var apiService = new Mock <LoRaDeviceAPIServiceBase>();
var iotHubDeviceInfo = new IoTHubDeviceInfo(simulatedDevice.LoRaDevice.DevAddr, simulatedDevice.LoRaDevice.DevEui, string.Empty);
apiService.Setup(x => x.SearchByDevAddrAsync(It.IsAny <DevAddr>()))
.ReturnsAsync(new SearchDevicesResult(iotHubDeviceInfo.AsList()));
using var connectionManager = new SingleDeviceConnectionManager(LoRaDeviceClient.Object);
using var createdLoraDevice = TestUtils.CreateFromSimulatedDevice(simulatedDevice, connectionManager);
this.loraDeviceFactoryMock.Setup(x => x.CreateAndRegisterAsync(iotHubDeviceInfo, It.IsAny <CancellationToken>()))
.ReturnsAsync(createdLoraDevice);
// device will be initialized
LoRaDeviceClient.Setup(x => x.GetTwinAsync(CancellationToken.None))
.ReturnsAsync(simulatedDevice.CreateABPTwin());
using var target = new LoRaDeviceRegistry(ServerConfiguration, this.cache, apiService.Object, this.loraDeviceFactoryMock.Object, DeviceCache);
var initializer = new Mock <ILoRaDeviceInitializer>();
initializer.Setup(x => x.Initialize(createdLoraDevice));
target.RegisterDeviceInitializer(initializer.Object);
using var request = WaitableLoRaRequest.Create(payload);
target.GetLoRaRequestQueue(request).Queue(request);
Assert.True(await request.WaitCompleteAsync());
// Device was searched by DevAddr
apiService.VerifyAll();
// Device was created by factory
this.loraDeviceFactoryMock.VerifyAll();
// initializer was called
initializer.VerifyAll();
}
public async Task When_Device_Is_Not_In_Cache_And_Found_In_Api_Should_Cache_And_Process_Request(string deviceGatewayID)
{
var simulatedDevice = new SimulatedDevice(TestDeviceInfo.CreateABPDevice(1, gatewayID: deviceGatewayID));
var payload = simulatedDevice.CreateUnconfirmedDataUpMessage("1234");
var apiService = new Mock <LoRaDeviceAPIServiceBase>();
var iotHubDeviceInfo = new IoTHubDeviceInfo(simulatedDevice.LoRaDevice.DevAddr, simulatedDevice.LoRaDevice.DevEui, "pk")
{
GatewayId = deviceGatewayID
};
apiService.Setup(x => x.SearchByDevAddrAsync(It.IsAny <DevAddr>()))
.ReturnsAsync(new SearchDevicesResult(iotHubDeviceInfo.AsList()));
// device will be initialized
LoRaDeviceClient.Setup(x => x.GetTwinAsync(CancellationToken.None))
.ReturnsAsync(simulatedDevice.CreateABPTwin());
using var request = WaitableLoRaRequest.Create(payload);
var requestHandler = new Mock <ILoRaDataRequestHandler>(MockBehavior.Strict);
requestHandler.Setup(x => x.ProcessRequestAsync(request, It.IsNotNull <LoRaDevice>()))
.ReturnsAsync(new LoRaDeviceRequestProcessResult(null, request));
var deviceFactory = new TestLoRaDeviceFactory(LoRaDeviceClient.Object, requestHandler.Object, DeviceCache, ConnectionManager);
using var target = new LoRaDeviceRegistry(ServerConfiguration, this.cache, apiService.Object, deviceFactory, DeviceCache);
target.GetLoRaRequestQueue(request).Queue(request);
Assert.True(await request.WaitCompleteAsync());
Assert.True(request.ProcessingSucceeded);
// Device was searched by DevAddr
apiService.VerifyAll();
// ensure device is in cache
Assert.True(DeviceCache.TryGetForPayload(request.Payload, out var actualCachedLoRaDevice));
// request was handled
requestHandler.VerifyAll();
}
public async Task When_Device_Is_Not_In_Cache_And_Found_In_Api_Does_Not_Match_Mic_Should_Fail_Request(string deviceGatewayID)
{
var simulatedDevice = new SimulatedDevice(TestDeviceInfo.CreateABPDevice(1, gatewayID: deviceGatewayID));
var apiService = new Mock <LoRaDeviceAPIServiceBase>();
var iotHubDeviceInfo = new IoTHubDeviceInfo(simulatedDevice.LoRaDevice.DevAddr, simulatedDevice.LoRaDevice.DevEui, "pk");
apiService.Setup(x => x.SearchByDevAddrAsync(It.IsAny <DevAddr>()))
.ReturnsAsync(new SearchDevicesResult(iotHubDeviceInfo.AsList()));
// Will get device twin
var loRaDeviceClient = new Mock <ILoRaDeviceClient>(MockBehavior.Loose);
loRaDeviceClient.Setup(x => x.GetTwinAsync(CancellationToken.None))
.ReturnsAsync(TestUtils.CreateABPTwin(simulatedDevice));
using var deviceCache = LoRaDeviceCacheDefault.CreateDefault();
var deviceFactory = new TestLoRaDeviceFactory(loRaDeviceClient.Object, deviceCache, this.connectionManager);
var target = new DeviceLoaderSynchronizer(
simulatedDevice.DevAddr.Value,
apiService.Object,
deviceFactory,
new NetworkServerConfiguration(),
deviceCache,
null,
NullLogger <DeviceLoaderSynchronizer> .Instance);
_ = target.LoadAsync();
var payload = simulatedDevice.CreateUnconfirmedDataUpMessage("1234", appSKey: simulatedDevice.AppSKey, nwkSKey: TestKeys.CreateNetworkSessionKey(0xEEAAFF));
using var request = WaitableLoRaRequest.Create(payload);
target.Queue(request);
Assert.True(await request.WaitCompleteAsync());
Assert.True(request.ProcessingFailed);
Assert.Equal(LoRaDeviceRequestFailedReason.NotMatchingDeviceByMicCheck, request.ProcessingFailedReason);
// Device was searched by DevAddr
apiService.VerifyAll();
loRaDeviceClient.VerifyAll();
}