private static SortedList <ushort, RegistryRegisterBlock> GetTransactionHeaders(ulong syncBlockHeight, ulong blockHeight, uint nonce, ushort expectedCount) { PacketType expectedReferencedPacketType = PacketType.Transactional; ushort expectedReferencedBlockType = BlockTypes.Transaction_TransferFunds; SortedList <ushort, RegistryRegisterBlock> transactionHeaders = new SortedList <ushort, RegistryRegisterBlock>(expectedCount); for (ushort j = 0; j < expectedCount; j++) { RegistryRegisterBlock registryRegisterBlock = new RegistryRegisterBlock { SyncBlockHeight = syncBlockHeight, Nonce = nonce + j, PowHash = BinaryHelper.GetPowHash(1234 + j), BlockHeight = blockHeight, ReferencedPacketType = expectedReferencedPacketType, ReferencedBlockType = expectedReferencedBlockType, ReferencedBodyHash = BinaryHelper.GetDefaultHash(473826643 + j), ReferencedTarget = BinaryHelper.GetDefaultHash(BinaryHelper.GetRandomPublicKey()) }; ISigningService signingService = GetRandomCryptoService(); IIdentityKeyProvider transactionIdentityKeyProvider = Substitute.For <IIdentityKeyProvider>(); transactionIdentityKeyProvider.GetKey(null).ReturnsForAnyArgs(c => new Key16(c.ArgAt <Memory <byte> >(0))); IIdentityKeyProvidersRegistry transactionIdentityKeyProvidersRegistry = Substitute.For <IIdentityKeyProvidersRegistry>(); transactionIdentityKeyProvidersRegistry.GetTransactionsIdenityKeyProvider().Returns(transactionIdentityKeyProvider); IHashCalculationsRepository transactionHashCalculationsRepository = Substitute.For <IHashCalculationsRepository>(); transactionHashCalculationsRepository.Create(HashType.MurMur).Returns(new MurMurHashCalculation()); RegistryRegisterBlockSerializer serializer1 = new RegistryRegisterBlockSerializer(); serializer1.Initialize(registryRegisterBlock); serializer1.SerializeBody(); signingService.Sign(registryRegisterBlock); serializer1.SerializeFully(); transactionHeaders.Add(j, registryRegisterBlock); } return(transactionHeaders); }
public void MemPool_AddedNonUniqueTransactions_NotAllContained() { SynchronizationDescriptor synchronizationDescriptor = new SynchronizationDescriptor(1, new byte[Globals.DEFAULT_HASH_SIZE], DateTime.Now, DateTime.Now, 1); IHash transactionKeyHash = HashFactory.Hash128.CreateMurmur3_128(); ILogger logger = Substitute.For <ILogger>(); ILoggerService loggerService = Substitute.For <ILoggerService>(); IIdentityKeyProvider identityKeyProvider = new TransactionRegistryKeyProvider(); IIdentityKeyProvidersRegistry identityKeyProvidersRegistry = Substitute.For <IIdentityKeyProvidersRegistry>(); IHashCalculationsRepository hashCalculationsRepository = Substitute.For <IHashCalculationsRepository>(); ISigningService signingService = Substitute.For <ISigningService>(); SynchronizationContext synchronizationContext = new SynchronizationContext(loggerService); synchronizationContext.UpdateLastSyncBlockDescriptor(synchronizationDescriptor); IStatesRepository statesRepository = Substitute.For <IStatesRepository>(); hashCalculationsRepository.Create(HashType.MurMur).Returns(new MurMurHashCalculation()); logger.WhenForAnyArgs(l => l.Error(null)).DoNotCallBase(); logger.WhenForAnyArgs(l => l.Warning(null)).DoNotCallBase(); logger.WhenForAnyArgs(l => l.Info(null)).DoNotCallBase(); loggerService.GetLogger(null).Returns(logger); identityKeyProvidersRegistry.GetTransactionsIdenityKeyProvider().ReturnsForAnyArgs(identityKeyProvider); //identityKeyProvider.GetKey(null).ReturnsForAnyArgs(c => new Key16() { Value = c.Arg<Memory<byte>>() }); statesRepository.GetInstance <ISynchronizationContext>().Returns(synchronizationContext); byte[] privateKey = ConfidentialAssetsHelper.GetRandomSeed(); Ed25519.KeyPairFromSeed(out byte[] publicKey, out byte[] expandedPrivateKey, privateKey); signingService.WhenForAnyArgs(s => s.Sign(null, null)).Do(c => { ((SignedPacketBase)c.ArgAt <IPacket>(0)).Signer = new Key32(publicKey); ((SignedPacketBase)c.ArgAt <IPacket>(0)).Signature = Ed25519.Sign(c.Arg <byte[]>(), expandedPrivateKey); }); signingService.PublicKeys.ReturnsForAnyArgs(new IKey[] { new Key32(publicKey) }); TransactionRegistryMemPool transactionRegistryMemPool = new TransactionRegistryMemPool(loggerService, identityKeyProvidersRegistry, statesRepository, hashCalculationsRepository); SortedList <ushort, RegistryRegisterBlock> expectedBlocks = new SortedList <ushort, RegistryRegisterBlock>(); ulong[] heights = new ulong[] { 1, 2, 2, 5, 4, 3, 4, 3, 4, 5, 3 }; HashSet <ulong> addedHeights = new HashSet <ulong>(); ushort order = 0; for (ulong i = 0; i < (ulong)heights.Length; i++) { RegistryRegisterBlock transactionRegisterBlock = PacketsBuilder.GetTransactionRegisterBlock(synchronizationContext.LastBlockDescriptor.BlockHeight, 1, null, heights[i], PacketType.Transactional, BlockTypes.Transaction_TransferFunds, new byte[Globals.POW_HASH_SIZE], new byte[Globals.DEFAULT_HASH_SIZE], privateKey); RegistryRegisterBlockSerializer serializer = new RegistryRegisterBlockSerializer(); serializer.Initialize(transactionRegisterBlock); serializer.SerializeBody(); signingService.Sign(transactionRegisterBlock); serializer.SerializeFully(); if (!addedHeights.Contains(heights[i])) { expectedBlocks.Add(order++, transactionRegisterBlock); addedHeights.Add(heights[i]); } transactionRegistryMemPool.EnqueueTransactionWitness(transactionRegisterBlock); } SortedList <ushort, RegistryRegisterBlock> actualBlocks = transactionRegistryMemPool.DequeueStateWitnessBulk(); Assert.Equal(expectedBlocks.Count, actualBlocks.Count); for (ushort i = 0; i < (ushort)expectedBlocks.Count; i++) { Assert.Equal(expectedBlocks[i].BlockHeight, actualBlocks[i].BlockHeight); } }
public void RegistryFullBlockParserTest() { IBlockParser blockParser = new RegistryRegisterBlockParser(_identityKeyProvidersRegistry); _blockParsersRepository.GetInstance(0).ReturnsForAnyArgs(blockParser); ulong syncBlockHeight = 1; uint nonce = 4; byte[] powHash = BinaryHelper.GetPowHash(1234); ushort version = 1; ulong blockHeight = 9; byte[] prevHash = null; PacketType expectedReferencedPacketType = PacketType.Transactional; ushort expectedReferencedBlockType = BlockTypes.Transaction_TransferFunds; byte[] body; ushort expectedCount = 1; byte[] expectedShortBlockHash; RegistryRegisterBlock[] stateWitnesses = new RegistryRegisterBlock[expectedCount]; RegistryRegisterUtxoConfidential[] utxoWitnesses = new RegistryRegisterUtxoConfidential[expectedCount]; for (ushort i = 0; i < expectedCount; i++) { RegistryRegisterBlock registryRegisterBlock = new RegistryRegisterBlock { SyncBlockHeight = syncBlockHeight, Nonce = nonce + i, PowHash = BinaryHelper.GetPowHash(1234 + i), BlockHeight = blockHeight, ReferencedPacketType = expectedReferencedPacketType, ReferencedBlockType = expectedReferencedBlockType, ReferencedBodyHash = BinaryHelper.GetDefaultHash(473826643 + i), ReferencedTarget = BinaryHelper.GetDefaultHash(BinaryHelper.GetRandomPublicKey()) }; RegistryRegisterBlockSerializer serializer1 = new RegistryRegisterBlockSerializer(); serializer1.Initialize(registryRegisterBlock); serializer1.SerializeBody(); _signingService.Sign(registryRegisterBlock); serializer1.SerializeFully(); stateWitnesses[i] = registryRegisterBlock; RegistryRegisterUtxoConfidential registryRegisterUtxoConfidentialBlock = new RegistryRegisterUtxoConfidential { SyncBlockHeight = syncBlockHeight, Nonce = nonce + i, PowHash = BinaryHelper.GetPowHash(1234 + i), KeyImage = new Key32(ConfidentialAssetsHelper.GetRandomSeed()), ReferencedPacketType = expectedReferencedPacketType, ReferencedBlockType = expectedReferencedBlockType, ReferencedBodyHash = BinaryHelper.GetDefaultHash(473826643 + i), DestinationKey = ConfidentialAssetsHelper.GetRandomSeed(), DestinationKey2 = ConfidentialAssetsHelper.GetRandomSeed(), TransactionPublicKey = ConfidentialAssetsHelper.GetRandomSeed(), PublicKeys = new Key32[] { new Key32(ConfidentialAssetsHelper.GetRandomSeed()), new Key32(ConfidentialAssetsHelper.GetRandomSeed()), new Key32(ConfidentialAssetsHelper.GetRandomSeed()) }, Signatures = new RingSignature[] { new RingSignature { R = ConfidentialAssetsHelper.GetRandomSeed(), C = ConfidentialAssetsHelper.GetRandomSeed() }, new RingSignature { R = ConfidentialAssetsHelper.GetRandomSeed(), C = ConfidentialAssetsHelper.GetRandomSeed() }, new RingSignature { R = ConfidentialAssetsHelper.GetRandomSeed(), C = ConfidentialAssetsHelper.GetRandomSeed() } } }; RegistryRegisterUtxoConfidentialBlockSerializer serializer2 = new RegistryRegisterUtxoConfidentialBlockSerializer(); serializer2.Initialize(registryRegisterUtxoConfidentialBlock); serializer2.SerializeFully(); utxoWitnesses[i] = registryRegisterUtxoConfidentialBlock; } using (MemoryStream ms = new MemoryStream()) { using (BinaryWriter bw = new BinaryWriter(ms)) { bw.Write((ushort)stateWitnesses.Length); bw.Write((ushort)utxoWitnesses.Length); foreach (RegistryRegisterBlock witness in stateWitnesses) { bw.Write(witness.RawData.ToArray()); } foreach (RegistryRegisterUtxoConfidential witness in utxoWitnesses) { bw.Write(witness.RawData.ToArray()); } expectedShortBlockHash = BinaryHelper.GetDefaultHash(1111); bw.Write(expectedShortBlockHash); } body = ms.ToArray(); } byte[] packet = BinaryHelper.GetSignedPacket( PacketType.Registry, syncBlockHeight, nonce, powHash, version, BlockTypes.Registry_FullBlock, blockHeight, prevHash, body, _privateKey, out byte[] expectedSignature); RegistryFullBlockParser registryFullBlockParser = new RegistryFullBlockParser(_identityKeyProvidersRegistry); RegistryFullBlock block = (RegistryFullBlock)registryFullBlockParser.Parse(packet); Assert.Equal(syncBlockHeight, block.SyncBlockHeight); Assert.Equal(nonce, block.Nonce); Assert.Equal(powHash, block.PowHash); Assert.Equal(version, block.Version); Assert.Equal(blockHeight, block.BlockHeight); for (int i = 0; i < expectedCount; i++) { RegistryRegisterBlock registryRegisterBlock = block.StateWitnesses[i]; Assert.Equal(stateWitnesses[i].PacketType, registryRegisterBlock.PacketType); Assert.Equal(stateWitnesses[i].SyncBlockHeight, registryRegisterBlock.SyncBlockHeight); Assert.Equal(stateWitnesses[i].Nonce, registryRegisterBlock.Nonce); Assert.Equal(stateWitnesses[i].PowHash, registryRegisterBlock.PowHash); Assert.Equal(stateWitnesses[i].BlockHeight, registryRegisterBlock.BlockHeight); Assert.Equal(stateWitnesses[i].BlockType, registryRegisterBlock.BlockType); Assert.Equal(stateWitnesses[i].ReferencedPacketType, registryRegisterBlock.ReferencedPacketType); Assert.Equal(stateWitnesses[i].ReferencedBlockType, registryRegisterBlock.ReferencedBlockType); Assert.Equal(stateWitnesses[i].ReferencedBodyHash, registryRegisterBlock.ReferencedBodyHash); Assert.Equal(stateWitnesses[i].ReferencedTarget, registryRegisterBlock.ReferencedTarget); Assert.Equal(stateWitnesses[i].Signature.ToArray(), registryRegisterBlock.Signature.ToArray()); Assert.Equal(stateWitnesses[i].Signer, registryRegisterBlock.Signer); RegistryRegisterUtxoConfidential registryRegisterUtxoConfidentialBlock = block.UtxoWitnesses[i]; Assert.Equal(utxoWitnesses[i].PacketType, registryRegisterUtxoConfidentialBlock.PacketType); Assert.Equal(utxoWitnesses[i].SyncBlockHeight, registryRegisterUtxoConfidentialBlock.SyncBlockHeight); Assert.Equal(utxoWitnesses[i].Nonce, registryRegisterUtxoConfidentialBlock.Nonce); Assert.Equal(utxoWitnesses[i].PowHash, registryRegisterUtxoConfidentialBlock.PowHash); Assert.Equal(utxoWitnesses[i].KeyImage, registryRegisterUtxoConfidentialBlock.KeyImage); Assert.Equal(utxoWitnesses[i].BlockType, registryRegisterUtxoConfidentialBlock.BlockType); Assert.Equal(utxoWitnesses[i].ReferencedPacketType, registryRegisterUtxoConfidentialBlock.ReferencedPacketType); Assert.Equal(utxoWitnesses[i].ReferencedBlockType, registryRegisterUtxoConfidentialBlock.ReferencedBlockType); Assert.Equal(utxoWitnesses[i].DestinationKey2, registryRegisterUtxoConfidentialBlock.DestinationKey2); Assert.Equal(utxoWitnesses[i].ReferencedBodyHash, registryRegisterUtxoConfidentialBlock.ReferencedBodyHash); Assert.Equal(utxoWitnesses[i].DestinationKey, registryRegisterUtxoConfidentialBlock.DestinationKey); } Assert.Equal(expectedShortBlockHash, block.ShortBlockHash); Assert.Equal(_publicKey, block.Signer.Value.ToArray()); Assert.Equal(expectedSignature, block.Signature.ToArray()); }
public void RegistryFullBlockSerializerTest() { ulong syncBlockHeight = 1; uint nonce = 4; byte[] powHash = BinaryHelper.GetPowHash(1234); ushort version = 1; ulong blockHeight = 9; byte[] prevHash = null; PacketType expectedReferencedPacketType = PacketType.Transactional; ushort expectedReferencedBlockType = BlockTypes.Transaction_TransferFunds; byte[] expectedReferencedBodyHash = BinaryHelper.GetDefaultHash(473826643); byte[] expectedTarget = BinaryHelper.GetDefaultHash(BinaryHelper.GetRandomPublicKey()); byte[] body; ushort expectedCount = 1000; RegistryRegisterBlock[] stateWitnesses = new RegistryRegisterBlock[expectedCount]; RegistryRegisterUtxoConfidential[] utxoWitnesses = new RegistryRegisterUtxoConfidential[expectedCount]; for (ushort i = 0; i < expectedCount; i++) { RegistryRegisterBlock registryRegisterBlock = new RegistryRegisterBlock { SyncBlockHeight = syncBlockHeight, Nonce = nonce + i, PowHash = BinaryHelper.GetPowHash(1234 + i), BlockHeight = blockHeight, ReferencedPacketType = expectedReferencedPacketType, ReferencedBlockType = expectedReferencedBlockType, ReferencedBodyHash = BinaryHelper.GetDefaultHash(473826643 + i), ReferencedTarget = BinaryHelper.GetDefaultHash(BinaryHelper.GetRandomPublicKey()) }; RegistryRegisterBlockSerializer serializer1 = new RegistryRegisterBlockSerializer(); serializer1.Initialize(registryRegisterBlock); serializer1.SerializeBody(); _signingService.Sign(registryRegisterBlock); serializer1.SerializeFully(); stateWitnesses[i] = registryRegisterBlock; RegistryRegisterUtxoConfidential registryRegisterUtxoConfidentialBlock = new RegistryRegisterUtxoConfidential { SyncBlockHeight = syncBlockHeight, Nonce = nonce + i, PowHash = BinaryHelper.GetPowHash(1234 + i), DestinationKey = ConfidentialAssetsHelper.GetRandomSeed(), ReferencedPacketType = expectedReferencedPacketType, ReferencedBlockType = expectedReferencedBlockType, DestinationKey2 = ConfidentialAssetsHelper.GetRandomSeed(), ReferencedBodyHash = BinaryHelper.GetDefaultHash(473826643 + i), KeyImage = new Key32(ConfidentialAssetsHelper.GetRandomSeed()), TransactionPublicKey = ConfidentialAssetsHelper.GetRandomSeed(), PublicKeys = new IKey[] { new Key32(ConfidentialAssetsHelper.GetRandomSeed()), new Key32(ConfidentialAssetsHelper.GetRandomSeed()), new Key32(ConfidentialAssetsHelper.GetRandomSeed()) }, Signatures = new RingSignature[] { new RingSignature { C = ConfidentialAssetsHelper.GetRandomSeed(), R = ConfidentialAssetsHelper.GetRandomSeed() }, new RingSignature { C = ConfidentialAssetsHelper.GetRandomSeed(), R = ConfidentialAssetsHelper.GetRandomSeed() }, new RingSignature { C = ConfidentialAssetsHelper.GetRandomSeed(), R = ConfidentialAssetsHelper.GetRandomSeed() } } }; RegistryRegisterUtxoConfidentialBlockSerializer serializer2 = new RegistryRegisterUtxoConfidentialBlockSerializer(); serializer2.Initialize(registryRegisterUtxoConfidentialBlock); serializer2.SerializeFully(); utxoWitnesses[i] = registryRegisterUtxoConfidentialBlock; } using (MemoryStream ms = new MemoryStream()) { using (BinaryWriter bw = new BinaryWriter(ms)) { bw.Write((ushort)stateWitnesses.Length); bw.Write((ushort)utxoWitnesses.Length); foreach (RegistryRegisterBlock witness in stateWitnesses) { bw.Write(witness.RawData.ToArray()); } foreach (RegistryRegisterUtxoConfidential witness in utxoWitnesses) { bw.Write(witness.RawData.ToArray()); } bw.Write(BinaryHelper.GetDefaultHash(1111)); } body = ms.ToArray(); } byte[] expectedPacket = BinaryHelper.GetSignedPacket( PacketType.Registry, syncBlockHeight, nonce, powHash, version, BlockTypes.Registry_FullBlock, blockHeight, prevHash, body, _privateKey, out byte[] expectedSignature); RegistryFullBlock block = new RegistryFullBlock { SyncBlockHeight = syncBlockHeight, Nonce = nonce, PowHash = powHash, BlockHeight = blockHeight, StateWitnesses = stateWitnesses, UtxoWitnesses = utxoWitnesses, ShortBlockHash = BinaryHelper.GetDefaultHash(1111) }; RegistryFullBlockSerializer serializer = new RegistryFullBlockSerializer(); serializer.Initialize(block); serializer.SerializeBody(); _signingService.Sign(block); byte[] actualPacket = serializer.GetBytes(); Trace.WriteLine(expectedPacket.ToHexString()); Trace.WriteLine(actualPacket.ToHexString()); Assert.Equal(expectedPacket, actualPacket); }
public void RegistryRegisterBlockSerializerTransitionalTest() { ulong syncBlockHeight = 1; uint nonce = 4; byte[] powHash = BinaryHelper.GetPowHash(1234); ushort version = 1; ulong blockHeight = 9; byte[] prevHash = null; PacketType expectedReferencedPacketType = PacketType.Transactional; ushort expectedReferencedBlockType = BlockTypes.Transaction_TransferAssetToUtxo; byte[] expectedReferencedBodyHash = BinaryHelper.GetDefaultHash(473826643); byte[] expectedTarget = BinaryHelper.GetDefaultHash(BinaryHelper.GetRandomPublicKey()); byte[] transactionKey = ConfidentialAssetsHelper.GetRandomSeed(); byte[] body; using (MemoryStream ms = new MemoryStream()) { using (BinaryWriter bw = new BinaryWriter(ms)) { bw.Write((ushort)expectedReferencedPacketType); bw.Write(expectedReferencedBlockType); bw.Write(expectedReferencedBodyHash); bw.Write(expectedTarget); bw.Write(transactionKey); } body = ms.ToArray(); } byte[] expectedPacket = BinaryHelper.GetSignedPacket( PacketType.Registry, syncBlockHeight, nonce, powHash, version, BlockTypes.Registry_Register, blockHeight, prevHash, body, _privateKey, out byte[] expectedSignature); RegistryRegisterBlock block = new RegistryRegisterBlock { SyncBlockHeight = syncBlockHeight, Nonce = nonce, PowHash = powHash, BlockHeight = blockHeight, ReferencedPacketType = expectedReferencedPacketType, ReferencedBlockType = expectedReferencedBlockType, ReferencedBodyHash = expectedReferencedBodyHash, ReferencedTarget = expectedTarget, ReferencedTransactionKey = transactionKey }; RegistryRegisterBlockSerializer serializer = new RegistryRegisterBlockSerializer(); serializer.Initialize(block); serializer.SerializeBody(); _signingService.Sign(block); byte[] actualPacket = serializer.GetBytes(); Trace.WriteLine(expectedPacket.ToHexString()); Trace.WriteLine(actualPacket.ToHexString()); Assert.Equal(expectedPacket, actualPacket); }