/// <summary> /// Creates test chain with a consensus loop. /// </summary> public static async Task <TestChainContext> CreateAsync(Network network, string dataDir) { var testChainContext = new TestChainContext() { Network = network }; testChainContext.NodeSettings = new NodeSettings(network, args: new string[] { $"-datadir={dataDir}" }); if (dataDir != null) { testChainContext.NodeSettings.DataDir = dataDir; } testChainContext.ConnectionSettings = new ConnectionManagerSettings(); testChainContext.ConnectionSettings.Load(testChainContext.NodeSettings); testChainContext.LoggerFactory = testChainContext.NodeSettings.LoggerFactory; testChainContext.DateTimeProvider = DateTimeProvider.Default; network.Consensus.Options = new PowConsensusOptions(); ConsensusSettings consensusSettings = new ConsensusSettings().Load(testChainContext.NodeSettings); testChainContext.Checkpoints = new Checkpoints(); PowConsensusValidator consensusValidator = new PowConsensusValidator(network, testChainContext.Checkpoints, testChainContext.DateTimeProvider, testChainContext.LoggerFactory); testChainContext.Chain = new ConcurrentChain(network); CachedCoinView cachedCoinView = new CachedCoinView(new InMemoryCoinView(testChainContext.Chain.Tip.HashBlock), DateTimeProvider.Default, testChainContext.LoggerFactory); DataFolder dataFolder = new DataFolder(TestBase.AssureEmptyDir(dataDir)); testChainContext.PeerAddressManager = new PeerAddressManager(DateTimeProvider.Default, dataFolder, testChainContext.LoggerFactory, new SelfEndpointTracker()); testChainContext.MockConnectionManager = new Moq.Mock <IConnectionManager>(); testChainContext.MockReadOnlyNodesCollection = new Moq.Mock <IReadOnlyNetworkPeerCollection>(); testChainContext.MockConnectionManager.Setup(s => s.ConnectedPeers).Returns(testChainContext.MockReadOnlyNodesCollection.Object); testChainContext.MockConnectionManager.Setup(s => s.NodeSettings).Returns(testChainContext.NodeSettings); testChainContext.MockConnectionManager.Setup(s => s.ConnectionSettings).Returns(testChainContext.ConnectionSettings); testChainContext.ConnectionManager = testChainContext.MockConnectionManager.Object; LookaheadBlockPuller blockPuller = new LookaheadBlockPuller(testChainContext.Chain, testChainContext.ConnectionManager, testChainContext.LoggerFactory); testChainContext.PeerBanning = new PeerBanning(testChainContext.ConnectionManager, testChainContext.LoggerFactory, testChainContext.DateTimeProvider, testChainContext.PeerAddressManager); NodeDeployments deployments = new NodeDeployments(testChainContext.Network, testChainContext.Chain); ConsensusRules consensusRules = new PowConsensusRules(testChainContext.Network, testChainContext.LoggerFactory, testChainContext.DateTimeProvider, testChainContext.Chain, deployments, consensusSettings, testChainContext.Checkpoints).Register(new FullNodeBuilderConsensusExtension.PowConsensusRulesRegistration()); testChainContext.Consensus = new ConsensusLoop(new AsyncLoopFactory(testChainContext.LoggerFactory), consensusValidator, new NodeLifetime(), testChainContext.Chain, cachedCoinView, blockPuller, new NodeDeployments(network, testChainContext.Chain), testChainContext.LoggerFactory, new ChainState(new InvalidBlockHashStore(testChainContext.DateTimeProvider)), testChainContext.ConnectionManager, testChainContext.DateTimeProvider, new Signals.Signals(), consensusSettings, testChainContext.NodeSettings, testChainContext.PeerBanning, consensusRules); await testChainContext.Consensus.StartAsync(); return(testChainContext); }
private static MempoolManager CreateTestMempool(NodeSettings settings, out TxMempool txMemPool) { var mempoolSettings = new MempoolSettings(settings); IDateTimeProvider dateTimeProvider = DateTimeProvider.Default; NodeSettings nodeSettings = NodeSettings.Default(); ILoggerFactory loggerFactory = nodeSettings.LoggerFactory; var consensusSettings = new ConsensusSettings(nodeSettings); txMemPool = new TxMempool(dateTimeProvider, new BlockPolicyEstimator(new MempoolSettings(nodeSettings), loggerFactory, nodeSettings), loggerFactory, nodeSettings); var mempoolLock = new MempoolSchedulerLock(); var coins = new InMemoryCoinView(settings.Network.GenesisHash); var chain = new ConcurrentChain(Network.Main.GetGenesis().Header); var mempoolPersistence = new MempoolPersistence(settings, loggerFactory); Network.Main.Consensus.Options = new PosConsensusOptions(); ConsensusRules consensusRules = new PowConsensusRules(Network.Main, loggerFactory, dateTimeProvider, chain, new NodeDeployments(Network.Main, chain), consensusSettings, new Checkpoints(), new InMemoryCoinView(new uint256()), new Mock <ILookaheadBlockPuller>().Object).Register(new FullNodeBuilderConsensusExtension.PowConsensusRulesRegistration()); var mempoolValidator = new MempoolValidator(txMemPool, mempoolLock, dateTimeProvider, mempoolSettings, chain, coins, loggerFactory, settings, consensusRules); return(new MempoolManager(mempoolLock, txMemPool, mempoolValidator, dateTimeProvider, mempoolSettings, mempoolPersistence, coins, loggerFactory, settings.Network)); }
public async Task InitializeAsync() { this.blockinfo = new List <Blockinfo>(); var lst = blockinfoarr.Cast <long>().ToList(); for (int i = 0; i < lst.Count; i += 2) { this.blockinfo.Add(new Blockinfo { extranonce = (int)lst[i], nonce = (uint)lst[i + 1] }); } // Note that by default, these tests run with size accounting enabled. this.network = Network.Main; var hex = Encoders.Hex.DecodeData("04678afdb0fe5548271967f1a67130b7105cd6a828e03909a67962e0ea1f61deb649f6bc3f4cef38c4f35504e51ec112de5c384df7ba0b8d578a4c702b6bf11d5f"); this.scriptPubKey = new Script(new[] { Op.GetPushOp(hex), OpcodeType.OP_CHECKSIG }); this.newBlock = new BlockTemplate(this.network); this.entry = new TestMemPoolEntryHelper(); this.chain = new ConcurrentChain(this.network); this.network.Consensus.Options = new PowConsensusOptions(); IDateTimeProvider dateTimeProvider = DateTimeProvider.Default; this.cachedCoinView = new CachedCoinView(new InMemoryCoinView(this.chain.Tip.HashBlock), dateTimeProvider, new LoggerFactory()); var loggerFactory = new ExtendedLoggerFactory(); loggerFactory.AddConsoleWithFilters(); NodeSettings nodeSettings = new NodeSettings(args: new string[] { "-checkpoints" }); var consensusSettings = new ConsensusSettings().Load(nodeSettings); PowConsensusValidator consensusValidator = new PowConsensusValidator(this.network, new Checkpoints(), dateTimeProvider, loggerFactory); NetworkPeerFactory networkPeerFactory = new NetworkPeerFactory(this.network, dateTimeProvider, loggerFactory, new PayloadProvider().DiscoverPayloads(), new SelfEndpointTracker()); var peerAddressManager = new PeerAddressManager(DateTimeProvider.Default, nodeSettings.DataFolder, loggerFactory, new SelfEndpointTracker()); var peerDiscovery = new PeerDiscovery(new AsyncLoopFactory(loggerFactory), loggerFactory, Network.Main, networkPeerFactory, new NodeLifetime(), nodeSettings, peerAddressManager); var connectionSettings = new ConnectionManagerSettings(); connectionSettings.Load(nodeSettings); var connectionManager = new ConnectionManager(dateTimeProvider, loggerFactory, this.network, networkPeerFactory, nodeSettings, new NodeLifetime(), new NetworkPeerConnectionParameters(), peerAddressManager, new IPeerConnector[] { }, peerDiscovery, connectionSettings); LookaheadBlockPuller blockPuller = new LookaheadBlockPuller(this.chain, connectionManager, new LoggerFactory()); PeerBanning peerBanning = new PeerBanning(connectionManager, loggerFactory, dateTimeProvider, peerAddressManager); NodeDeployments deployments = new NodeDeployments(this.network, this.chain); ConsensusRules consensusRules = new PowConsensusRules(this.network, loggerFactory, dateTimeProvider, this.chain, deployments, consensusSettings, new Checkpoints(), this.cachedCoinView, blockPuller).Register(new FullNodeBuilderConsensusExtension.PowConsensusRulesRegistration()); this.consensus = new ConsensusLoop(new AsyncLoopFactory(loggerFactory), consensusValidator, new NodeLifetime(), this.chain, this.cachedCoinView, blockPuller, new NodeDeployments(this.network, this.chain), loggerFactory, new ChainState(new InvalidBlockHashStore(dateTimeProvider)), connectionManager, dateTimeProvider, new Signals.Signals(), consensusSettings, nodeSettings, peerBanning, consensusRules); await this.consensus.StartAsync(); this.entry.Fee(11); this.entry.Height(11); var date1 = new MemoryPoolTests.DateTimeProviderSet(); date1.time = dateTimeProvider.GetTime(); date1.timeutc = dateTimeProvider.GetUtcNow(); this.DateTimeProvider = date1; this.mempool = new TxMempool(dateTimeProvider, new BlockPolicyEstimator(new MempoolSettings(nodeSettings), new LoggerFactory(), nodeSettings), new LoggerFactory(), nodeSettings); this.mempoolLock = new MempoolSchedulerLock(); // Simple block creation, nothing special yet: this.newBlock = AssemblerForTest(this).Build(this.chain.Tip, this.scriptPubKey); this.chain.SetTip(this.newBlock.Block.Header); await this.consensus.ValidateAndExecuteBlockAsync(new RuleContext(new BlockValidationContext { Block = this.newBlock.Block }, this.network.Consensus, this.consensus.Tip) { CheckPow = false, CheckMerkleRoot = false }); // We can't make transactions until we have inputs // Therefore, load 100 blocks :) this.baseheight = 0; List <Block> blocks = new List <Block>(); this.txFirst = new List <Transaction>(); for (int i = 0; i < this.blockinfo.Count; ++i) { var pblock = this.newBlock.Block.Clone(); // pointer for convenience pblock.Header.HashPrevBlock = this.chain.Tip.HashBlock; pblock.Header.Version = 1; pblock.Header.Time = Utils.DateTimeToUnixTime(this.chain.Tip.GetMedianTimePast()) + 1; Transaction txCoinbase = pblock.Transactions[0].Clone(); txCoinbase.Inputs.Clear(); txCoinbase.Version = 1; txCoinbase.AddInput(new TxIn(new Script(new[] { Op.GetPushOp(this.blockinfo[i].extranonce), Op.GetPushOp(this.chain.Height) }))); // Ignore the (optional) segwit commitment added by CreateNewBlock (as the hardcoded nonces don't account for this) txCoinbase.AddOutput(new TxOut(Money.Zero, new Script())); pblock.Transactions[0] = txCoinbase; if (this.txFirst.Count == 0) { this.baseheight = this.chain.Height; } if (this.txFirst.Count < 4) { this.txFirst.Add(pblock.Transactions[0]); } pblock.UpdateMerkleRoot(); pblock.Header.Nonce = this.blockinfo[i].nonce; this.chain.SetTip(pblock.Header); await this.consensus.ValidateAndExecuteBlockAsync(new RuleContext(new BlockValidationContext { Block = pblock }, this.network.Consensus, this.consensus.Tip) { CheckPow = false, CheckMerkleRoot = false }); blocks.Add(pblock); } // Just to make sure we can still make simple blocks this.newBlock = AssemblerForTest(this).Build(this.chain.Tip, this.scriptPubKey); Assert.NotNull(this.newBlock); }
/// <summary> /// Creates the test chain with some default blocks and txs. /// </summary> /// <param name="network">Network to create the chain on.</param> /// <param name="scriptPubKey">Public key to create blocks/txs with.</param> /// <returns>Context object representing the test chain.</returns> public static async Task <ITestChainContext> CreateAsync(Network network, Script scriptPubKey, string dataDir) { var nodeSettings = new NodeSettings(network, args: new string[] { $"-datadir={dataDir}" }); ILoggerFactory loggerFactory = nodeSettings.LoggerFactory; IDateTimeProvider dateTimeProvider = DateTimeProvider.Default; network.Consensus.Options = new ConsensusOptions(); network.Consensus.Rules = new FullNodeBuilderConsensusExtension.PowConsensusRulesRegistration().GetRules(); var consensusSettings = new ConsensusSettings(nodeSettings); var chain = new ConcurrentChain(network); InMemoryCoinView inMemoryCoinView = new InMemoryCoinView(chain.Tip.HashBlock); var cachedCoinView = new CachedCoinView(inMemoryCoinView, DateTimeProvider.Default, loggerFactory); var networkPeerFactory = new NetworkPeerFactory(network, dateTimeProvider, loggerFactory, new PayloadProvider().DiscoverPayloads(), new SelfEndpointTracker()); var peerAddressManager = new PeerAddressManager(DateTimeProvider.Default, nodeSettings.DataFolder, loggerFactory, new SelfEndpointTracker()); var peerDiscovery = new PeerDiscovery(new AsyncLoopFactory(loggerFactory), loggerFactory, network, networkPeerFactory, new NodeLifetime(), nodeSettings, peerAddressManager); var connectionSettings = new ConnectionManagerSettings(nodeSettings); var connectionManager = new ConnectionManager(dateTimeProvider, loggerFactory, network, networkPeerFactory, nodeSettings, new NodeLifetime(), new NetworkPeerConnectionParameters(), peerAddressManager, new IPeerConnector[] { }, peerDiscovery, connectionSettings, new VersionProvider()); var blockPuller = new LookaheadBlockPuller(chain, connectionManager, new LoggerFactory()); var peerBanning = new PeerBanning(connectionManager, loggerFactory, dateTimeProvider, peerAddressManager); var deployments = new NodeDeployments(network, chain); ConsensusRules consensusRules = new PowConsensusRules(network, loggerFactory, dateTimeProvider, chain, deployments, consensusSettings, new Checkpoints(), inMemoryCoinView, new Mock <ILookaheadBlockPuller>().Object).Register(); var consensusLoop = new ConsensusLoop(new AsyncLoopFactory(loggerFactory), new NodeLifetime(), chain, cachedCoinView, blockPuller, deployments, loggerFactory, new ChainState(new InvalidBlockHashStore(dateTimeProvider)), connectionManager, dateTimeProvider, new Signals.Signals(), consensusSettings, nodeSettings, peerBanning, consensusRules); await consensusLoop.StartAsync(); var blockPolicyEstimator = new BlockPolicyEstimator(new MempoolSettings(nodeSettings), loggerFactory, nodeSettings); var mempool = new TxMempool(dateTimeProvider, blockPolicyEstimator, loggerFactory, nodeSettings); var mempoolLock = new MempoolSchedulerLock(); var minerSettings = new MinerSettings(nodeSettings); // Simple block creation, nothing special yet: PowBlockDefinition blockDefinition = new PowBlockDefinition(consensusLoop, dateTimeProvider, loggerFactory, mempool, mempoolLock, minerSettings, network, consensusRules); BlockTemplate newBlock = blockDefinition.Build(chain.Tip, scriptPubKey); chain.SetTip(newBlock.Block.Header); RuleContext ruleContext = consensusRules.CreateRuleContext(new ValidationContext { Block = newBlock.Block }, consensusLoop.Tip); ruleContext.MinedBlock = true; await consensusLoop.ValidateAndExecuteBlockAsync(ruleContext); List <BlockInfo> blockinfo = CreateBlockInfoList(); // We can't make transactions until we have inputs // Therefore, load 100 blocks :) int baseheight = 0; var blocks = new List <Block>(); var srcTxs = new List <Transaction>(); for (int i = 0; i < blockinfo.Count; ++i) { Block currentBlock = Block.Load(newBlock.Block.ToBytes(network.Consensus.ConsensusFactory), network); currentBlock.Header.HashPrevBlock = chain.Tip.HashBlock; currentBlock.Header.Version = 1; currentBlock.Header.Time = Utils.DateTimeToUnixTime(chain.Tip.GetMedianTimePast()) + 1; Transaction txCoinbase = network.CreateTransaction(currentBlock.Transactions[0].ToBytes()); txCoinbase.Inputs.Clear(); txCoinbase.Version = 1; txCoinbase.AddInput(new TxIn(new Script(new[] { Op.GetPushOp(blockinfo[i].extraNonce), Op.GetPushOp(chain.Height) }))); // Ignore the (optional) segwit commitment added by CreateNewBlock (as the hardcoded nonces don't account for this) txCoinbase.AddOutput(new TxOut(Money.Zero, new Script())); currentBlock.Transactions[0] = txCoinbase; if (srcTxs.Count == 0) { baseheight = chain.Height; } if (srcTxs.Count < 4) { srcTxs.Add(currentBlock.Transactions[0]); } currentBlock.UpdateMerkleRoot(); currentBlock.Header.Nonce = blockinfo[i].nonce; chain.SetTip(currentBlock.Header); RuleContext ruleContextForBlock = consensusRules.CreateRuleContext(new ValidationContext { Block = currentBlock }, consensusLoop.Tip); ruleContextForBlock.MinedBlock = true; await consensusLoop.ValidateAndExecuteBlockAsync(ruleContextForBlock); blocks.Add(currentBlock); } // Just to make sure we can still make simple blocks blockDefinition = new PowBlockDefinition(consensusLoop, dateTimeProvider, loggerFactory, mempool, mempoolLock, minerSettings, network, consensusRules); newBlock = blockDefinition.Build(chain.Tip, scriptPubKey); var mempoolValidator = new MempoolValidator(mempool, mempoolLock, dateTimeProvider, new MempoolSettings(nodeSettings), chain, cachedCoinView, loggerFactory, nodeSettings, consensusRules); return(new TestChainContext { MempoolValidator = mempoolValidator, SrcTxs = srcTxs }); }