public void CheckHealth_returns_expected_results([ValueSource(nameof(CheckHealthTestCases))] CheckHealthTest test) { IBlockFinder blockFinder = Substitute.For <IBlockFinder>(); ISyncServer syncServer = Substitute.For <ISyncServer>(); IBlockchainProcessor blockchainProcessor = Substitute.For <IBlockchainProcessor>(); IBlockProducer blockProducer = Substitute.For <IBlockProducer>(); IHealthHintService healthHintService = Substitute.For <IHealthHintService>(); blockchainProcessor.IsProcessingBlocks(Arg.Any <ulong?>()).Returns(test.IsProcessingBlocks); blockProducer.IsProducingBlocks(Arg.Any <ulong?>()).Returns(test.IsProducingBlocks); syncServer.GetPeerCount().Returns(test.PeerCount); BlockHeaderBuilder GetBlockHeader(int blockNumber) => Build.A.BlockHeader.WithNumber(blockNumber); blockFinder.Head.Returns(new Block(GetBlockHeader(4).TestObject)); if (test.IsSyncing) { blockFinder.FindBestSuggestedHeader().Returns(GetBlockHeader(15).TestObject); } else { blockFinder.FindBestSuggestedHeader().Returns(GetBlockHeader(2).TestObject); } IEthSyncingInfo ethSyncingInfo = new EthSyncingInfo(blockFinder); NodeHealthService nodeHealthService = new(syncServer, blockFinder, blockchainProcessor, blockProducer, new HealthChecksConfig(), healthHintService, ethSyncingInfo, test.IsMining); CheckHealthResult result = nodeHealthService.CheckHealth(); Assert.AreEqual(test.ExpectedHealthy, result.Healthy); Assert.AreEqual(test.ExpectedMessage, FormatMessages(result.Messages.Select(x => x.Message))); Assert.AreEqual(test.ExpectedLongMessage, FormatMessages(result.Messages.Select(x => x.LongMessage))); }
protected override IBlockProducer CreateTestBlockProducer(TxPoolTxSource txPoolTxSource, ISealer sealer, ITransactionComparerProvider transactionComparerProvider) { SealEngine = new MergeSealEngine(SealEngine, PoSSwitcher, SealValidator, LogManager); MiningConfig miningConfig = new() { Enabled = true, MinGasPrice = 0 }; TargetAdjustedGasLimitCalculator targetAdjustedGasLimitCalculator = new(SpecProvider, miningConfig); EthSyncingInfo = new EthSyncingInfo(BlockTree); PostMergeBlockProducerFactory blockProducerFactory = new( SpecProvider, SealEngine, Timestamper, miningConfig, LogManager, targetAdjustedGasLimitCalculator); BlockProducerEnvFactory blockProducerEnvFactory = new( DbProvider, BlockTree, ReadOnlyTrieStore, SpecProvider, BlockValidator, NoBlockRewards.Instance, ReceiptStorage, BlockPreprocessorStep, TxPool, transactionComparerProvider, miningConfig, LogManager); BlockProducerEnv blockProducerEnv = blockProducerEnvFactory.Create(); PostMergeBlockProducer postMergeBlockProducer = blockProducerFactory.Create(blockProducerEnv, BlockProductionTrigger); PostMergeBlockProducer = postMergeBlockProducer; PayloadPreparationService ??= new PayloadPreparationService( postMergeBlockProducer, new BlockImprovementContextFactory(BlockProductionTrigger, TimeSpan.FromSeconds(MergeConfig.SecondsPerSlot) ), TimerFactory.Default, LogManager, TimeSpan.FromSeconds(MergeConfig.SecondsPerSlot) ); IAuRaStepCalculator auraStepCalculator = Substitute.For <IAuRaStepCalculator>(); auraStepCalculator.TimeToNextStep.Returns(TimeSpan.FromMilliseconds(0)); FollowOtherMiners gasLimitCalculator = new(MainnetSpecProvider.Instance); AuRaBlockProducer preMergeBlockProducer = new( txPoolTxSource, blockProducerEnvFactory.Create().ChainProcessor, ((TestBlockchain)this).BlockProductionTrigger, State, sealer, BlockTree, Timestamper, auraStepCalculator, NullReportingValidator.Instance, new AuRaConfig(), gasLimitCalculator, SpecProvider, LogManager ); return(new MergeBlockProducer(preMergeBlockProducer, postMergeBlockProducer, PoSSwitcher)); } }