public async Task When_Called_By_Multiple_Gateways_Should_Return_Closest()
{
var devEUI = TestEui.GenerateDevEui();
const uint fcntUp = 1;
var req1 = new FunctionBundlerRequest()
{
GatewayId = "gateway1", ClientFCntUp = fcntUp, Rssi = -180
};
var pipeline1 = new FunctionBundlerPipelineExecuter(new IFunctionBundlerExecutionItem[] { this.preferredGatewayExecutionItem }, devEUI, req1);
var t1 = Task.Run(() => this.preferredGatewayExecutionItem.ExecuteAsync(pipeline1));
var req2 = new FunctionBundlerRequest()
{
GatewayId = "gateway2", ClientFCntUp = fcntUp, Rssi = -179
};
var pipeline2 = new FunctionBundlerPipelineExecuter(new IFunctionBundlerExecutionItem[] { this.preferredGatewayExecutionItem }, devEUI, req2);
var t2 = Task.Run(() => this.preferredGatewayExecutionItem.ExecuteAsync(pipeline2));
var req3 = new FunctionBundlerRequest()
{
GatewayId = "gateway3", ClientFCntUp = fcntUp, Rssi = -39
};
var pipeline3 = new FunctionBundlerPipelineExecuter(new IFunctionBundlerExecutionItem[] { this.preferredGatewayExecutionItem }, devEUI, req3);
var t3 = Task.Run(() => this.preferredGatewayExecutionItem.ExecuteAsync(pipeline3));
await Task.WhenAll(t1, t2, t3);
foreach (var reqAndPipeline in new[] { (t1, pipeline1), (t2, pipeline2), (t3, pipeline3) })
public async Task When_PerformNeededSyncs_Fails_Should_Release_Lock(string lockToTake)
{
var devAddrcache = new LoRaDevAddrCache(this.cache, null, null);
await LockDevAddrHelper.PrepareLocksForTests(this.cache, lockToTake == null?null : new[] { lockToTake });
var managerInput = new List <DevAddrCacheInfo> {
new DevAddrCacheInfo()
{
DevEUI = TestEui.GenerateDevEui(), DevAddr = CreateDevAddr()
}
};
var registryManagerMock = InitRegistryManager(managerInput);
registryManagerMock.Setup(x => x.CreateQuery(It.IsAny <string>())).Throws(new RedisException(string.Empty));
await devAddrcache.PerformNeededSyncs(registryManagerMock.Object);
// When doing a full update, the FullUpdateKey lock should be reset to 1min, the GlobalDevAddrUpdateKey should be gone
// When doing a partial update, the GlobalDevAddrUpdateKey should be gone
switch (lockToTake)
{
case FullUpdateKey:
Assert.Null(await this.cache.GetObjectTTL(GlobalDevAddrUpdateKey));
break;
case null:
var nextFullUpdate = await this.cache.GetObjectTTL(FullUpdateKey);
Assert.True(nextFullUpdate <= TimeSpan.FromMinutes(1));
Assert.Null(await this.cache.GetObjectTTL(GlobalDevAddrUpdateKey));
break;
default: throw new InvalidOperationException("invalid test case");
}
}
public async Task MessageDeduplication_DifferentDevices_Allowed()
{
var gateway1Id = NewUniqueEUI64();
var gateway2Id = NewUniqueEUI64();
var dev1EUI = TestEui.GenerateDevEui();
var dev2EUI = TestEui.GenerateDevEui();
var result = await this.deduplicationExecutionItem.GetDuplicateMessageResultAsync(dev1EUI, gateway1Id, 1, 1);
Assert.False(result.IsDuplicate);
Assert.Equal(gateway1Id, result.GatewayId);
result = await this.deduplicationExecutionItem.GetDuplicateMessageResultAsync(dev1EUI, gateway2Id, 2, 1);
Assert.False(result.IsDuplicate);
Assert.Equal(gateway2Id, result.GatewayId);
result = await this.deduplicationExecutionItem.GetDuplicateMessageResultAsync(dev2EUI, gateway1Id, 1, 1);
Assert.False(result.IsDuplicate);
Assert.Equal(gateway1Id, result.GatewayId);
result = await this.deduplicationExecutionItem.GetDuplicateMessageResultAsync(dev2EUI, gateway2Id, 2, 1);
Assert.False(result.IsDuplicate);
Assert.Equal(gateway2Id, result.GatewayId);
}
public async Task FrameCounter_Down_Initial()
{
var deviceEUI = TestEui.GenerateDevEui();
var gatewayId = NewUniqueEUI64();
var next = await this.fcntCheck.GetNextFCntDownAsync(deviceEUI, gatewayId, 1, 1);
Assert.Equal(2U, next);
}
// This test ensure that if the device has the key within the cache, it should not make any query to iot hub
public async Task When_Device_Is_Not_Ours_Save_In_Cache_And_Dont_Query_Hub_Again()
{
var gatewayId = NewUniqueEUI64();
var dateTime = DateTime.UtcNow;
// In this test we want no updates running
// initialize locks for test to run correctly
var lockToTake = new string[2] {
FullUpdateKey, GlobalDevAddrUpdateKey
};
await LockDevAddrHelper.PrepareLocksForTests(this.cache, lockToTake);
var items = new List <IoTHubDeviceInfo>();
var primaryKey = Convert.ToBase64String(Encoding.UTF8.GetBytes(PrimaryKey));
var managerInput = new List <DevAddrCacheInfo>();
for (var i = 0; i < 2; i++)
{
managerInput.Add(new DevAddrCacheInfo()
{
DevEUI = TestEui.GenerateDevEui(),
DevAddr = CreateDevAddr(),
GatewayId = gatewayId,
PrimaryKey = primaryKey,
LastUpdatedTwins = dateTime
});
}
var devAddrJoining = CreateDevAddr();
InitCache(this.cache, managerInput);
var registryManagerMock = InitRegistryManager(managerInput);
var deviceGetter = new DeviceGetter(registryManagerMock.Object, this.cache);
items = await deviceGetter.GetDeviceList(null, gatewayId, new DevNonce(0xABCD), devAddrJoining);
Assert.Empty(items);
var queryResult = this.cache.GetHashObject(string.Concat(CacheKeyPrefix, devAddrJoining));
Assert.Single(queryResult);
var resultObject = JsonConvert.DeserializeObject <DevAddrCacheInfo>(queryResult[0].Value);
Assert.Null(resultObject.DevEUI);
Assert.Null(resultObject.PrimaryKey);
Assert.Null(resultObject.GatewayId);
var query2Result = this.cache.GetHashObject(string.Concat(CacheKeyPrefix, devAddrJoining));
Assert.Single(query2Result);
// Iot hub should never have been called.
registryManagerMock.Verify(x => x.CreateQuery(It.IsAny <string>()), Times.Never, "IoT Hub should not have been called, as the device was present in the cache.");
registryManagerMock.Verify(x => x.GetTwinAsync(It.IsAny <string>()), Times.Never, "IoT Hub should not have been called, as the device was present in the cache.");
// Should not query for the key as key is there
registryManagerMock.Verify(x => x.GetDeviceAsync(It.IsAny <string>()), Times.Never);
}
public async void DeviceGetter_OTAA_Join()
{
var devEui = TestEui.GenerateDevEui();
var gatewayId = NewUniqueEUI64();
var deviceGetter = new DeviceGetter(InitRegistryManager(devEui), new LoRaInMemoryDeviceStore());
var items = await deviceGetter.GetDeviceList(devEui, gatewayId, new DevNonce(0xABCD), null);
Assert.Single(items);
Assert.Equal(devEui, items[0].DevEUI);
}
public async Task FunctionBundler_Multi()
{
var gatewayId1 = NewUniqueEUI64();
var gatewayId2 = NewUniqueEUI64();
var gatewayId3 = NewUniqueEUI64();
var gatewayId4 = NewUniqueEUI64();
var devEUI = TestEui.GenerateDevEui();
var requests = new FunctionBundlerRequest[]
{
CreateStandardBundlerRequest(gatewayId1),
CreateStandardBundlerRequest(gatewayId2),
CreateStandardBundlerRequest(gatewayId3),
CreateStandardBundlerRequest(gatewayId4)
};
foreach (var req in requests)
{
await PrepareADRFrames(devEUI, 20, req.AdrRequest);
req.ClientFCntUp = req.AdrRequest.FCntUp;
req.ClientFCntDown = req.AdrRequest.FCntDown;
}
var functionBundlerResults = await Task.WhenAll(from req in requests select ExecuteRequest(devEUI, req));
// only one request should be winning the race
var winners = 0;
var dups = 0;
foreach (var res in functionBundlerResults)
{
if (!res.DeduplicationResult.IsDuplicate)
{
Assert.NotNull(res.AdrResult);
Assert.True(res.AdrResult.CanConfirmToDevice);
Assert.Equal(res.AdrResult.FCntDown, res.NextFCntDown);
Assert.True(res.NextFCntDown.GetValueOrDefault() > 0);
winners++;
}
else
{
Assert.NotNull(res.AdrResult);
Assert.False(res.AdrResult.CanConfirmToDevice);
Assert.Equal(0U, res.AdrResult.FCntDown.GetValueOrDefault());
Assert.Null(res.NextFCntDown);
dups++;
}
}
Assert.Equal(1, winners);
Assert.Equal(functionBundlerResults.Length - 1, dups);
}
// This test simulate a call received by multiple server. It ensures IoT Hub is only queried once.
public async Task Multi_Gateway_When_DevAddr_Is_Not_In_Cache_Query_Iot_Hub_Only_Once_And_Save_In_Cache()
{
var gateway1 = NewUniqueEUI64();
var gateway2 = NewUniqueEUI64();
var dateTime = DateTime.UtcNow;
var managerInput = new List <DevAddrCacheInfo>();
for (var i = 0; i < 2; i++)
{
managerInput.Add(new DevAddrCacheInfo()
{
DevEUI = TestEui.GenerateDevEui(),
DevAddr = CreateDevAddr()
});
}
var devAddrJoining = managerInput[0].DevAddr;
var registryManagerMock = InitRegistryManager(managerInput);
// In this test we want no updates running
// initialize locks for test to run correctly
var lockToTake = new string[2] {
FullUpdateKey, GlobalDevAddrUpdateKey
};
await LockDevAddrHelper.PrepareLocksForTests(this.cache, lockToTake);
var deviceGetter = new DeviceGetter(registryManagerMock.Object, this.cache);
// Simulate three queries
var tasks =
from gw in new[] { gateway1, gateway2 }
select Enumerable.Repeat(gw, 2) into gws // repeat each gateway twice
from gw in gws
select deviceGetter.GetDeviceList(null, gw, new DevNonce(0xABCD), devAddrJoining);
await Task.WhenAll(tasks);
// If a cache miss it should save it in the redisCache
var devAddrcache = new LoRaDevAddrCache(this.cache, null, null);
var queryResult = this.cache.GetHashObject(string.Concat(CacheKeyPrefix, devAddrJoining));
Assert.Single(queryResult);
var resultObject = JsonConvert.DeserializeObject <DevAddrCacheInfo>(queryResult[0].Value);
Assert.Equal(managerInput[0].DevAddr, resultObject.DevAddr);
Assert.Equal(managerInput[0].GatewayId ?? string.Empty, resultObject.GatewayId);
Assert.Equal(managerInput[0].DevEUI, resultObject.DevEUI);
registryManagerMock.Verify(x => x.CreateQuery(It.IsAny <string>(), It.IsAny <int>()), Times.Once);
registryManagerMock.Verify(x => x.GetTwinAsync(It.IsAny <string>()), Times.Never);
registryManagerMock.Verify(x => x.GetDeviceAsync(It.IsAny <string>()), Times.Once);
}
// This test ensure that if a device is in cache without a key, it get the keys from iot hub and save it
public async Task Multi_Gateway_When_DevAddr_Is_In_Cache_Without_Key_Should_Not_Query_Iot_Hub_For_Twin_But_Should_Get_Key_And_Update()
{
var gatewayId = NewUniqueEUI64();
var dateTime = DateTime.UtcNow;
var managerInput = new List <DevAddrCacheInfo>();
for (var i = 0; i < 2; i++)
{
managerInput.Add(new DevAddrCacheInfo()
{
DevEUI = TestEui.GenerateDevEui(),
DevAddr = CreateDevAddr(),
GatewayId = gatewayId,
LastUpdatedTwins = dateTime
});
}
var devAddrJoining = managerInput[0].DevAddr;
InitCache(this.cache, managerInput);
var registryManagerMock = InitRegistryManager(managerInput);
// In this test we want no updates running
// initialize locks for test to run correctly
var lockToTake = new string[2] {
FullUpdateKey, GlobalDevAddrUpdateKey
};
await LockDevAddrHelper.PrepareLocksForTests(this.cache, lockToTake);
var deviceGetter = new DeviceGetter(registryManagerMock.Object, this.cache);
var tasks =
from gw in Enumerable.Repeat(gatewayId, 3)
select deviceGetter.GetDeviceList(null, gw, new DevNonce(0xABCD), devAddrJoining);
await Task.WhenAll(tasks);
// Iot hub should never have been called.
registryManagerMock.Verify(x => x.CreateQuery(It.IsAny <string>()), Times.Never, "IoT Hub should not have been called, as the device was present in the cache.");
registryManagerMock.Verify(x => x.CreateQuery(It.IsAny <string>(), It.IsAny <int>()), Times.Never, "IoT Hub should not have been called, as the device was present in the cache.");
registryManagerMock.Verify(x => x.GetTwinAsync(It.IsAny <string>()), Times.Never, "IoT Hub should not have been called, as the device was present in the cache.");
// Should query for the key as key is missing
registryManagerMock.Verify(x => x.GetDeviceAsync(It.IsAny <string>()), Times.Once);
var queryResult = this.cache.GetHashObject(string.Concat(CacheKeyPrefix, devAddrJoining));
Assert.Single(queryResult);
// The key should have been saved
var resultObject = JsonConvert.DeserializeObject <DevAddrCacheInfo>(queryResult[0].Value);
Assert.NotNull(resultObject.PrimaryKey);
}
// Check that the server perform a full reload if the locking key for full reload is not present
public async Task When_FullUpdateKey_Is_Not_there_Should_Perform_Full_Reload()
{
var gatewayId = NewUniqueEUI64();
var dateTime = DateTime.UtcNow;
var primaryKey = Convert.ToBase64String(Encoding.UTF8.GetBytes(PrimaryKey));
var managerInput = new List <DevAddrCacheInfo>();
for (var i = 0; i < 5; i++)
{
managerInput.Add(new DevAddrCacheInfo()
{
DevEUI = TestEui.GenerateDevEui(),
DevAddr = CreateDevAddr(),
GatewayId = gatewayId,
});
}
var devAddrJoining = managerInput[0].DevAddr;
// The cache start as empty
var registryManagerMock = InitRegistryManager(managerInput);
// initialize locks for test to run correctly
await LockDevAddrHelper.PrepareLocksForTests(this.cache);
var items = new List <IoTHubDeviceInfo>();
var deviceGetter = new DeviceGetter(registryManagerMock.Object, this.cache);
items = await deviceGetter.GetDeviceList(null, gatewayId, new DevNonce(0xABCD), devAddrJoining);
Assert.Single(items);
// Iot hub should never have been called.
registryManagerMock.Verify(x => x.CreateQuery(It.IsAny <string>()), Times.Once);
registryManagerMock.Verify(x => x.GetTwinAsync(It.IsAny <string>()), Times.Never);
// We expect to query for the key once (the device with an active connection)
registryManagerMock.Verify(x => x.GetDeviceAsync(It.IsAny <string>()), Times.Once);
// we expect the devices are saved
for (var i = 1; i < 5; i++)
{
var queryResult = this.cache.GetHashObject(string.Concat(CacheKeyPrefix, managerInput[i].DevAddr));
Assert.Single(queryResult);
var resultObject = JsonConvert.DeserializeObject <DevAddrCacheInfo>(queryResult[0].Value);
Assert.Equal(managerInput[i].GatewayId, resultObject.GatewayId);
Assert.Equal(managerInput[i].DevEUI, resultObject.DevEUI);
}
}
public async Task ADR_First_Entry_Device_Reset()
{
var deviceEUI = TestEui.GenerateDevEui();
var gatewayId = NewUniqueEUI64();
var req = CreateStandardADRRequest(gatewayId);
var result = await this.adrExecutionItem.HandleADRRequest(deviceEUI, req);
Assert.NotNull(result);
Assert.Equal(1, result.NumberOfFrames);
Assert.True(result.CanConfirmToDevice);
Assert.Equal(0, result.TxPower);
Assert.Equal(req.DataRate, result.DataRate);
Assert.Equal(1, result.NbRepetition);
}
public async Task ADR_MultiGateway_Full_Frame()
{
var deviceEUI = TestEui.GenerateDevEui();
var gateway1Id = NewUniqueEUI64();
var gateway2Id = NewUniqueEUI64();
var req1 = CreateStandardADRRequest(gateway1Id, -10);
var req2 = CreateStandardADRRequest(gateway2Id, -10);
var rnd = new Random();
// add just 1 under the limit to the table
for (var i = 0; i < LoRaADRTable.FrameCountCaptureCount - 1; i++)
{
var res1 = await this.adrExecutionItem.HandleADRRequest(deviceEUI, req1);
var res2 = await this.adrExecutionItem.HandleADRRequest(deviceEUI, req2);
var winner = req1.RequiredSnr < req2.RequiredSnr ? gateway2Id : gateway1Id;
var last = await this.adrManager.GetLastEntryAsync(deviceEUI);
Assert.Equal(winner, last.GatewayId);
Assert.Equal(2U, last.GatewayCount);
req1.RequiredSnr = rnd.Next(-20, 5);
req2.RequiredSnr = rnd.Next(-20, 5);
req2.FCntUp = ++req1.FCntUp;
req1.FCntDown = res1.FCntDown.GetValueOrDefault() > 0 ? res1.FCntDown.Value : req1.FCntDown;
req2.FCntDown = res2.FCntDown.GetValueOrDefault() > 0 ? res2.FCntDown.Value : req2.FCntDown;
}
req2.FCntUp = ++req1.FCntUp;
// first one should win
var result1 = await this.adrExecutionItem.HandleADRRequest(deviceEUI, req1);
var result2 = await this.adrExecutionItem.HandleADRRequest(deviceEUI, req2);
Assert.True(result1.CanConfirmToDevice);
Assert.False(result2.CanConfirmToDevice);
Assert.Equal(req1.FCntDown + 1, result1.FCntDown);
Assert.Equal(0U, result2.FCntDown.GetValueOrDefault());
}
public async Task FunctionBundler_FCntDown_Only()
{
var gatewayId1 = NewUniqueEUI64();
var devEUI = TestEui.GenerateDevEui();
var req = CreateStandardBundlerRequest(gatewayId1);
req.AdrRequest = null;
req.FunctionItems = FunctionBundlerItemType.FCntDown;
var resp = await this.functionBundler.HandleFunctionBundlerInvoke(devEUI, req);
Assert.NotNull(resp);
Assert.Null(resp.AdrResult);
Assert.Null(resp.DeduplicationResult);
Assert.Equal(req.ClientFCntDown + 1, resp.NextFCntDown);
}
public async Task ADR_MultiGateway_Entry_Update()
{
var deviceEUI = TestEui.GenerateDevEui();
var gateway1Id = NewUniqueEUI64();
var gateway2Id = NewUniqueEUI64();
var req = CreateStandardADRRequest(gateway1Id, -10);
var req2 = CreateStandardADRRequest(gateway2Id, -10);
_ = await this.adrExecutionItem.HandleADRRequest(deviceEUI, req);
_ = await this.adrExecutionItem.HandleADRRequest(deviceEUI, req2);
// last entry should have 2 and the id should be from gw1
var last = await this.adrManager.GetLastEntryAsync(deviceEUI);
Assert.Equal(2U, last.GatewayCount);
Assert.Equal(gateway1Id, last.GatewayId);
// reply
_ = await this.adrExecutionItem.HandleADRRequest(deviceEUI, req);
_ = await this.adrExecutionItem.HandleADRRequest(deviceEUI, req2);
last = await this.adrManager.GetLastEntryAsync(deviceEUI);
Assert.Equal(4U, last.GatewayCount);
// add new fcnt and change snr for gw2
req2.FCntUp = ++req.FCntUp;
req2.RequiredSnr = -9;
_ = await this.adrExecutionItem.HandleADRRequest(deviceEUI, req);
_ = await this.adrExecutionItem.HandleADRRequest(deviceEUI, req2);
last = await this.adrManager.GetLastEntryAsync(deviceEUI);
Assert.Equal(2U, last.GatewayCount);
Assert.Equal(gateway2Id, last.GatewayId);
Assert.Equal(-9, last.Snr);
}
public ADRTestData()
{
// First test not enough entries to send back an answer
var tableentries = new List <LoRaADRTableEntry>();
var deviceEuiNotEnoughEntries = TestEui.GenerateDevEui();
for (uint i = 0; i < 10; i++)
{
tableentries.Add(new LoRaADRTableEntry()
{
DevEUI = deviceEuiNotEnoughEntries,
FCnt = i,
GatewayCount = 1,
GatewayId = "mygateway",
Snr = -20
});
}
var radioMetadata = new RadioMetadata(DataRateIndex.DR5, TestUtils.TestRegion.GetDefaultRX2ReceiveWindow(default).Frequency, null);
public async Task FunctionBundler_All_Functions()
{
var gatewayId1 = NewUniqueEUI64();
var devEUI = TestEui.GenerateDevEui();
var req = CreateStandardBundlerRequest(gatewayId1);
var resp = await this.functionBundler.HandleFunctionBundlerInvoke(devEUI, req);
Assert.NotNull(resp);
Assert.NotNull(resp.AdrResult);
Assert.False(resp.AdrResult.CanConfirmToDevice);
Assert.Equal(1, resp.AdrResult.NumberOfFrames);
Assert.NotNull(resp.DeduplicationResult);
Assert.Equal(gatewayId1, resp.DeduplicationResult.GatewayId);
Assert.False(resp.DeduplicationResult.IsDuplicate);
Assert.Equal(req.ClientFCntDown + 1, resp.NextFCntDown);
}
public async Task FunctionBundler_Adr_Only()
{
var gatewayId1 = NewUniqueEUI64();
var devEUI = TestEui.GenerateDevEui();
var req = CreateStandardBundlerRequest(gatewayId1);
req.FunctionItems = FunctionBundlerItemType.ADR;
var resp = await this.functionBundler.HandleFunctionBundlerInvoke(devEUI, req);
Assert.NotNull(resp);
Assert.NotNull(resp.AdrResult);
Assert.True(resp.AdrResult.CanConfirmToDevice);
Assert.Equal(req.AdrRequest.DataRate, resp.AdrResult.DataRate);
Assert.Equal(0, resp.AdrResult.TxPower);
Assert.Equal(1, resp.AdrResult.NumberOfFrames);
Assert.Null(resp.DeduplicationResult);
Assert.Equal(2U, resp.NextFCntDown);
}
// Trigger delta update correctly to see if it performs correctly on an empty cache
public async Task Delta_Update_Perform_Correctly_On_Empty_Cache()
{
var gatewayId = NewUniqueEUI64();
var dateTime = DateTime.UtcNow;
var managerInput = new List <DevAddrCacheInfo>();
for (var i = 0; i < 5; i++)
{
managerInput.Add(new DevAddrCacheInfo()
{
DevEUI = TestEui.GenerateDevEui(),
DevAddr = CreateDevAddr(),
GatewayId = gatewayId,
LastUpdatedTwins = dateTime
});
}
var devAddrJoining = managerInput[0].DevAddr;
// The cache start as empty
var registryManagerMock = InitRegistryManager(managerInput);
// initialize locks for test to run correctly
var locksToTake = new string[1] {
FullUpdateKey
};
await LockDevAddrHelper.PrepareLocksForTests(this.cache, locksToTake);
var devAddrCache = new LoRaDevAddrCache(this.cache, null, gatewayId);
await devAddrCache.PerformNeededSyncs(registryManagerMock.Object);
while (!string.IsNullOrEmpty(this.cache.StringGet(GlobalDevAddrUpdateKey)))
{
await Task.Delay(100);
}
var foundItem = 0;
// we expect the devices are saved
for (var i = 0; i < 5; i++)
{
var queryResult = this.cache.GetHashObject(string.Concat(CacheKeyPrefix, managerInput[i].DevAddr));
if (queryResult.Length > 0)
{
foundItem++;
Assert.Single(queryResult);
var resultObject = JsonConvert.DeserializeObject <DevAddrCacheInfo>(queryResult[0].Value);
Assert.Equal(managerInput[i].GatewayId, resultObject.GatewayId);
Assert.Equal(managerInput[i].DevEUI, resultObject.DevEUI);
}
}
// Only two items should be updated by the delta updates
Assert.Equal(2, foundItem);
// Iot hub should never have been called.
registryManagerMock.Verify(x => x.CreateQuery(It.IsAny <string>()), Times.Once);
registryManagerMock.Verify(x => x.GetTwinAsync(It.IsAny <string>()), Times.Never);
// We expect to query for the key once (the device with an active connection)
registryManagerMock.Verify(x => x.GetDeviceAsync(It.IsAny <string>()), Times.Never);
}
public async System.Threading.Tasks.Task CheckADRReturnsDefaultValueIfCacheCrash()
{
var devEUI = TestEui.GenerateDevEui();
var region = RegionManager.EU868;
ILoRaADRStrategyProvider provider = new LoRaADRStrategyProvider(NullLoggerFactory.Instance);
var datarate = DataRateIndex.DR5;
using var inMemoryStore = new LoRaADRInMemoryStore();
var loRaADRManager = new Mock <LoRaADRManagerBase>(MockBehavior.Loose, inMemoryStore, provider, NullLogger <LoRaADRManagerBase> .Instance)
{
CallBase = true
};
_ = loRaADRManager.Setup(x => x.NextFCntDown(It.IsAny <DevEui>(), It.IsAny <string>(), It.IsAny <uint>(), It.IsAny <uint>())).ReturnsAsync(1U);
// setup table with default value
_ = await loRaADRManager.Object.CalculateADRResultAndAddEntryAsync(devEUI, string.Empty, 1, 1, (float)region.RequiredSnr(datarate), region.GetDownstreamDataRate(datarate), region.TXPowertoMaxEIRP.Count - 1, region.MaxADRDataRate, new LoRaADRTableEntry()
{
Snr = 0,
FCnt = 1,
DevEUI = devEUI,
GatewayCount = 1,
GatewayId = "gateway"
});
// Add measurement and compute new ADR
for (uint i = 0; i < 21; i++)
{
await loRaADRManager.Object.StoreADREntryAsync(
new LoRaADRTableEntry()
{
DevEUI = devEUI,
FCnt = i,
GatewayCount = 1,
GatewayId = "mygateway",
Snr = 50
});
}
var adrResult = await loRaADRManager.Object.CalculateADRResultAndAddEntryAsync(devEUI, string.Empty, 1, 1, (float)region.RequiredSnr(datarate), region.GetDownstreamDataRate(datarate), region.TXPowertoMaxEIRP.Count - 1, region.MaxADRDataRate);
Assert.Equal(DR5, adrResult.DataRate);
Assert.Equal(7, adrResult.TxPower);
Assert.Equal(1, adrResult.NbRepetition);
// reset cache and check we get default values
_ = await loRaADRManager.Object.ResetAsync(devEUI);
adrResult = await loRaADRManager.Object.CalculateADRResultAndAddEntryAsync(devEUI, string.Empty, 1, 1, (float)region.RequiredSnr(datarate), region.GetDownstreamDataRate(datarate), region.TXPowertoMaxEIRP.Count - 1, region.MaxADRDataRate, new LoRaADRTableEntry()
{
Snr = 0,
FCnt = 1,
DevEUI = devEUI,
GatewayCount = 1,
GatewayId = "gateway"
});
Assert.Equal(DR5, adrResult.DataRate);
Assert.Equal(0, adrResult.TxPower);
Assert.Equal(1, adrResult.NbRepetition);
loRaADRManager.Verify(x => x.NextFCntDown(It.IsAny <DevEui>(), It.IsAny <string>(), It.IsAny <uint>(), It.IsAny <uint>()), Times.AtLeastOnce, "NextFCntDown");
}
// This test perform a delta update and we check the following
// primary key present in the cache is still here after a delta up
// Items with save Devaddr are correctly saved (one old from cache, one from iot hub)
// Gateway Id is correctly updated in old cache information.
// Primary Key are kept as UpdateTime is similar
public async Task Delta_Update_Perform_Correctly_On_Non_Empty_Cache_And_Keep_Old_Values()
{
var oldGatewayId = NewUniqueEUI64();
var newGatewayId = NewUniqueEUI64();
var dateTime = DateTime.UtcNow;
var primaryKey = Convert.ToBase64String(Encoding.UTF8.GetBytes(PrimaryKey));
var managerInput = new List <DevAddrCacheInfo>();
var adressForDuplicateDevAddr = CreateDevAddr();
for (var i = 0; i < 5; i++)
{
managerInput.Add(new DevAddrCacheInfo()
{
DevEUI = TestEui.GenerateDevEui(),
DevAddr = CreateDevAddr(),
GatewayId = newGatewayId,
LastUpdatedTwins = dateTime
});
}
managerInput.Add(new DevAddrCacheInfo()
{
DevEUI = TestEui.GenerateDevEui(),
DevAddr = adressForDuplicateDevAddr,
GatewayId = newGatewayId,
LastUpdatedTwins = dateTime
});
var devAddrJoining = managerInput[0].DevAddr;
// The cache start as empty
var registryManagerMock = InitRegistryManager(managerInput, managerInput.Count);
// Set up the cache with expectation.
var cacheInput = new List <DevAddrCacheInfo>();
for (var i = 0; i < 5; i++)
{
cacheInput.Add(new DevAddrCacheInfo()
{
DevEUI = managerInput[i].DevEUI,
DevAddr = managerInput[i].DevAddr,
GatewayId = oldGatewayId,
LastUpdatedTwins = dateTime
});
}
cacheInput[2].PrimaryKey = primaryKey;
cacheInput[3].PrimaryKey = primaryKey;
var devEui = TestEui.GenerateDevEui();
cacheInput.Add(new DevAddrCacheInfo()
{
DevEUI = devEui,
DevAddr = adressForDuplicateDevAddr,
GatewayId = oldGatewayId,
PrimaryKey = primaryKey,
LastUpdatedTwins = dateTime
});
InitCache(this.cache, cacheInput);
// initialize locks for test to run correctly
var locksToTake = new string[1] {
FullUpdateKey
};
await LockDevAddrHelper.PrepareLocksForTests(this.cache, locksToTake);
var devAddrCache = new LoRaDevAddrCache(this.cache, null, newGatewayId);
await devAddrCache.PerformNeededSyncs(registryManagerMock.Object);
// we expect the devices are saved
for (var i = 0; i < managerInput.Count; i++)
{
if (managerInput[i].DevAddr != adressForDuplicateDevAddr)
{
var queryResult = this.cache.GetHashObject(string.Concat(CacheKeyPrefix, managerInput[i].DevAddr));
Assert.Single(queryResult);
var resultObject = JsonConvert.DeserializeObject <DevAddrCacheInfo>(queryResult[0].Value);
Assert.Equal(managerInput[i].GatewayId, resultObject.GatewayId);
Assert.Equal(managerInput[i].DevEUI, resultObject.DevEUI);
Assert.Equal(cacheInput[i].PrimaryKey, resultObject.PrimaryKey);
}
}
// let's check the devices with a double EUI
var query2Result = this.cache.GetHashObject(string.Concat(CacheKeyPrefix, adressForDuplicateDevAddr));
Assert.Equal(2, query2Result.Length);
for (var i = 0; i < 2; i++)
{
var resultObject = JsonConvert.DeserializeObject <DevAddrCacheInfo>(query2Result[0].Value);
if (resultObject.DevEUI == devEui)
{
Assert.Equal(oldGatewayId, resultObject.GatewayId);
Assert.Equal(primaryKey, resultObject.PrimaryKey);
}
else
{
Assert.Equal(newGatewayId, resultObject.GatewayId);
Assert.True(string.IsNullOrEmpty(resultObject.PrimaryKey));
}
}
// Iot hub should never have been called.
registryManagerMock.Verify(x => x.CreateQuery(It.IsAny <string>()), Times.Once);
registryManagerMock.Verify(x => x.GetTwinAsync(It.IsAny <string>()), Times.Never);
// We expect to query for the key once (the device with an active connection)
registryManagerMock.Verify(x => x.GetDeviceAsync(It.IsAny <string>()), Times.Never);
registryManagerMock.Verify(x => x.CreateQuery(It.IsAny <string>(), It.IsAny <int>()), Times.Never);
}
public async Task FunctionBundler_Adr_and_Dedup()
{
var gatewayId1 = NewUniqueEUI64();
var gatewayId2 = NewUniqueEUI64();
var devEUI = TestEui.GenerateDevEui();
var req = CreateStandardBundlerRequest(gatewayId1);
var req2 = CreateStandardBundlerRequest(gatewayId2);
req.FunctionItems = FunctionBundlerItemType.ADR | FunctionBundlerItemType.Deduplication;
req2.FunctionItems = FunctionBundlerItemType.ADR | FunctionBundlerItemType.Deduplication;
var resp = await this.functionBundler.HandleFunctionBundlerInvoke(devEUI, req);
Assert.NotNull(resp);
Assert.NotNull(resp.AdrResult);
Assert.False(resp.AdrResult.CanConfirmToDevice);
Assert.Equal(1, resp.AdrResult.NumberOfFrames);
Assert.NotNull(resp.DeduplicationResult);
Assert.Equal(gatewayId1, resp.DeduplicationResult.GatewayId);
Assert.False(resp.DeduplicationResult.IsDuplicate);
Assert.Null(resp.NextFCntDown);
// with ADR frames
await this.adrManager.ResetAsync(devEUI);
await PrepareADRFrames(devEUI, LoRaADRTable.FrameCountCaptureCount - 1, req.AdrRequest);
req.ClientFCntUp = req.AdrRequest.FCntUp;
resp = await this.functionBundler.HandleFunctionBundlerInvoke(devEUI, req);
Assert.NotNull(resp);
Assert.NotNull(resp.AdrResult);
Assert.Equal(LoRaADRTable.FrameCountCaptureCount, resp.AdrResult.NumberOfFrames);
Assert.NotNull(resp.DeduplicationResult);
Assert.Equal(gatewayId1, resp.DeduplicationResult.GatewayId);
Assert.False(resp.DeduplicationResult.IsDuplicate);
Assert.True(resp.AdrResult.CanConfirmToDevice || resp.NextFCntDown == null);
// multi request
req.AdrRequest.FCntUp = req2.AdrRequest.FCntUp = req2.ClientFCntUp = ++req.ClientFCntUp;
req.AdrRequest.FCntDown = req2.AdrRequest.FCntDown = req2.ClientFCntDown = req.ClientFCntDown = resp.NextFCntDown.GetValueOrDefault();
resp = await this.functionBundler.HandleFunctionBundlerInvoke(devEUI, req);
Assert.NotNull(resp);
Assert.NotNull(resp.AdrResult);
Assert.NotNull(resp.DeduplicationResult);
Assert.Equal(gatewayId1, resp.DeduplicationResult.GatewayId);
Assert.False(resp.DeduplicationResult.IsDuplicate);
Assert.True(resp.AdrResult.CanConfirmToDevice || resp.NextFCntDown == null);
resp = await this.functionBundler.HandleFunctionBundlerInvoke(devEUI, req2);
Assert.NotNull(resp);
Assert.NotNull(resp.AdrResult);
Assert.True(resp.AdrResult.CanConfirmToDevice || resp.NextFCntDown == null);
Assert.NotNull(resp.DeduplicationResult);
Assert.Equal(gatewayId1, resp.DeduplicationResult.GatewayId);
Assert.True(resp.DeduplicationResult.IsDuplicate);
}
// This test perform a full update and we check the following
// primary key present in the cache is still here after a fullupdate
// Items with same Devaddr are correctly saved (one old from cache, one from iot hub)
// Old cache items sharing a devaddr not in the new update are correctly removed
// Items with a devAddr not in the update are correctly still in cache
// Gateway Id is correctly updated in old cache information.
// Primary Key are not kept as UpdateTime is not similar
public async Task Full_Update_Perform_Correctly_On_Non_Empty_Cache_And_Keep_Old_Values_Except_Primary_Keys()
{
var oldGatewayId = NewUniqueEUI64();
var newGatewayId = NewUniqueEUI64();
var dateTime = DateTime.UtcNow;
var updateDateTime = DateTime.UtcNow.AddMinutes(3);
var primaryKey = Convert.ToBase64String(Encoding.UTF8.GetBytes(PrimaryKey));
var newValues = new List <DevAddrCacheInfo>();
for (var i = 0; i < 5; i++)
{
newValues.Add(new DevAddrCacheInfo()
{
DevEUI = TestEui.GenerateDevEui(),
DevAddr = CreateDevAddr(),
GatewayId = newGatewayId,
LastUpdatedTwins = updateDateTime
});
}
// The cache start as empty
var registryManagerMock = InitRegistryManager(newValues, newValues.Count);
// Set up the cache with expectation.
var cacheInput = new List <DevAddrCacheInfo>();
for (var i = 0; i < 5; i++)
{
cacheInput.Add(new DevAddrCacheInfo()
{
DevEUI = newValues[i].DevEUI,
DevAddr = newValues[i].DevAddr,
GatewayId = oldGatewayId,
LastUpdatedTwins = dateTime,
PrimaryKey = primaryKey
});
}
InitCache(this.cache, cacheInput);
// initialize locks for test to run correctly
await LockDevAddrHelper.PrepareLocksForTests(this.cache);
var devAddrCache = new LoRaDevAddrCache(this.cache, null, newGatewayId);
await devAddrCache.PerformNeededSyncs(registryManagerMock.Object);
// we expect the devices are saved, the double device id should not be there anymore
for (var i = 0; i < newValues.Count; i++)
{
var queryResult = this.cache.GetHashObject(string.Concat(CacheKeyPrefix, newValues[i].DevAddr));
Assert.Single(queryResult);
var result2Object = JsonConvert.DeserializeObject <DevAddrCacheInfo>(queryResult[0].Value);
Assert.Equal(newGatewayId, result2Object.GatewayId);
Assert.Equal(newValues[i].DevEUI, result2Object.DevEUI);
Assert.Equal(string.Empty, result2Object.PrimaryKey);
}
// Iot hub should never have been called.
registryManagerMock.Verify(x => x.CreateQuery(It.IsAny <string>()), Times.Once);
registryManagerMock.Verify(x => x.GetTwinAsync(It.IsAny <string>()), Times.Never);
// We expect to query for the key once (the device with an active connection)
registryManagerMock.Verify(x => x.GetDeviceAsync(It.IsAny <string>()), Times.Never);
}
