Example #1
0
        public void TestCanSpend_Spent()
        {
            // prepare utxo storage
            var chain = Chain.CreateForGenesisBlock(new FakeHeaders().GenesisChained());
            var unspentTransactions = ImmutableSortedDictionary.CreateBuilder <UInt256, UnspentTx>();

            // prepare spent output
            var txHash = new UInt256(0);

            unspentTransactions.Add(txHash, new UnspentTx(txHash, blockIndex: 0, txIndex: 0, txVersion: 0, isCoinbase: false, length: 1, state: OutputState.Spent));

            // prepare utxo
            var memoryStorage     = new MemoryStorageManager(unspentTransactions: unspentTransactions.ToImmutable());
            var chainStateStorage = memoryStorage.OpenChainStateCursor().Item;

            chainStateStorage.BeginTransaction();
            chainStateStorage.ChainTip = chain.GenesisBlock;
            chainStateStorage.CommitTransaction();
            var utxo = new ChainState(chain, memoryStorage);

            // prepare output reference
            var prevTxOutput = new TxOutputKey(txHash, txOutputIndex: 0);

            // check if output can be spent
            var canSpend = utxo.CanSpend(prevTxOutput);

            // verify output cannot be spent
            Assert.IsFalse(canSpend);
        }
Example #2
0
        public void TestCanSpend_NegativeIndex()
        {
            // prepare utxo storage
            var chain = new Chain(ImmutableList.Create(new FakeHeaders().GenesisChained()));
            var unspentTransactions = ImmutableSortedDictionary.CreateBuilder <UInt256, UnspentTx>();

            // prepare unspent output
            var txHash = new UInt256(0);

            unspentTransactions.Add(txHash, new UnspentTx(txHash, blockIndex: 0, txIndex: 0, length: 1, state: OutputState.Unspent));

            // prepare utxo
            var memoryStorage     = new MemoryStorageManager(unspentTransactions: unspentTransactions.ToImmutable());
            var chainStateStorage = memoryStorage.OpenChainStateCursor().Item;

            chainStateStorage.AddChainedHeader(chain.GenesisBlock);
            var utxo = new ChainState(chain, memoryStorage);

            // prepare output reference
            var prevTxOutput = new TxOutputKey(txHash, txOutputIndex: UInt32.MaxValue);

            // check if output can be spent
            var canSpend = utxo.CanSpend(prevTxOutput);

            // verify output cannot be spent
            Assert.IsFalse(canSpend);
        }
Example #3
0
        public void TestDoubleSpend()
        {
            // prepare block
            var fakeHeaders      = new FakeHeaders();
            var chainedHeader0   = fakeHeaders.GenesisChained();
            var chainedHeader1   = fakeHeaders.NextChained();
            var chainedHeader2   = fakeHeaders.NextChained();
            var chain            = Chain.CreateForGenesisBlock(chainedHeader0).ToBuilder();
            var emptyCoinbaseTx0 = BlockTx.Create(0, Transaction.Create(0, ImmutableArray.Create <TxInput>(), ImmutableArray.Create <TxOutput>(), 0));
            var emptyCoinbaseTx1 = BlockTx.Create(0, Transaction.Create(1, ImmutableArray.Create <TxInput>(), ImmutableArray.Create <TxOutput>(), 0));

            // initialize memory utxo builder storage
            var memoryStorage          = new MemoryStorageManager();
            var memoryChainStateCursor = memoryStorage.OpenChainStateCursor().Item;

            memoryChainStateCursor.BeginTransaction();

            // initialize utxo builder
            var utxoBuilder = new UtxoBuilder();

            // prepare an unspent transaction
            var txHash      = new UInt256(100);
            var unspentTx   = new UnspentTx(txHash, chainedHeader1.Height, 0, 0, false, 1, OutputState.Unspent);
            var txOutputKey = new TxOutputKey(txHash, 0);
            var txOutput    = new TxOutput(0, ImmutableArray <byte> .Empty);

            // add the unspent transaction
            memoryChainStateCursor.TryAddUnspentTx(unspentTx);
            memoryChainStateCursor.TryAddUnspentTxOutput(txOutputKey, txOutput);

            // create an input to spend the unspent transaction
            var input = new TxInput(txHash, 0, ImmutableArray.Create <byte>(), 0);
            var tx    = BlockTx.Create(1, Transaction.Create(0, ImmutableArray.Create(input), ImmutableArray.Create <TxOutput>(), 0));

            // spend the input
            chain.AddBlock(chainedHeader1);
            utxoBuilder.CalculateUtxo(memoryChainStateCursor, chain.ToImmutable(), new[] { emptyCoinbaseTx0, tx }.ToBufferBlock()).ToEnumerable().ToList();

            // verify utxo storage
            UnspentTx actualUnspentTx; TxOutput actualTxOutput;

            Assert.IsTrue(memoryChainStateCursor.TryGetUnspentTx(txHash, out actualUnspentTx));
            Assert.IsTrue(actualUnspentTx.IsFullySpent);
            Assert.IsTrue(memoryChainStateCursor.TryGetUnspentTxOutput(txOutputKey, out actualTxOutput));
            Assert.AreEqual(txOutput, actualTxOutput);

            // attempt to spend the input again, validation exception should be thrown
            chain.AddBlock(chainedHeader2);
            AssertMethods.AssertAggregateThrows <ValidationException>(() =>
                                                                      utxoBuilder.CalculateUtxo(memoryChainStateCursor, chain.ToImmutable(), new[] { emptyCoinbaseTx1, tx }.ToBufferBlock()).ToEnumerable().ToList());
        }
Example #4
0
        public void TestCanSpend_Missing()
        {
            // prepare utxo
            var chain             = new Chain(ImmutableList.Create(new FakeHeaders().GenesisChained()));
            var memoryStorage     = new MemoryStorageManager();
            var chainStateStorage = memoryStorage.OpenChainStateCursor().Item;

            chainStateStorage.AddChainedHeader(chain.GenesisBlock);
            var utxo = new ChainState(chain, memoryStorage);

            // prepare output reference
            var prevTxOutput = new TxOutputKey(txHash: 0, txOutputIndex: 0);

            // check if output can be spent
            var canSpend = utxo.CanSpend(prevTxOutput);

            // verify output cannot be spent
            Assert.IsFalse(canSpend);
        }
Example #5
0
        public void TestDoubleSpend()
        {
            // prepare block
            var fakeHeaders      = new FakeHeaders();
            var chainedHeader0   = fakeHeaders.GenesisChained();
            var chainedHeader1   = fakeHeaders.NextChained();
            var chain            = new ChainBuilder();
            var emptyCoinbaseTx0 = new Transaction(0, ImmutableArray.Create <TxInput>(), ImmutableArray.Create <TxOutput>(), 0);
            var emptyCoinbaseTx1 = new Transaction(1, ImmutableArray.Create <TxInput>(), ImmutableArray.Create <TxOutput>(), 0);

            // initialize memory utxo builder storage
            var memoryStorage          = new MemoryStorageManager();
            var memoryChainStateCursor = memoryStorage.OpenChainStateCursor().Item;

            // initialize utxo builder
            var utxoBuilder = new UtxoBuilder(memoryChainStateCursor, LogManager.CreateNullLogger());

            // prepare an unspent transaction
            var txHash    = new UInt256(100);
            var unspentTx = new UnspentTx(txHash, chainedHeader0.Height, 0, 1, OutputState.Unspent);

            // add the unspent transaction
            memoryChainStateCursor.TryAddUnspentTx(unspentTx);

            // create an input to spend the unspent transaction
            var input = new TxInput(new TxOutputKey(txHash, txOutputIndex: 0), ImmutableArray.Create <byte>(), 0);
            var tx    = new Transaction(0, ImmutableArray.Create(input), ImmutableArray.Create <TxOutput>(), 0);

            // spend the input
            chain.AddBlock(chainedHeader0);
            utxoBuilder.CalculateUtxo(chain.ToImmutable(), new[] { emptyCoinbaseTx0, tx }).ToList();

            // verify utxo storage
            Assert.IsFalse(memoryChainStateCursor.ContainsUnspentTx(txHash));

            // attempt to spend the input again
            chain.AddBlock(chainedHeader1);
            utxoBuilder.CalculateUtxo(chain.ToImmutable(), new[] { emptyCoinbaseTx1, tx }).ToList();

            // validation exception should be thrown
        }
Example #6
0
        public void TestCanSpend_Missing()
        {
            // prepare utxo
            var chain             = Chain.CreateForGenesisBlock(new FakeHeaders().GenesisChained());
            var memoryStorage     = new MemoryStorageManager();
            var chainStateStorage = memoryStorage.OpenChainStateCursor().Item;

            chainStateStorage.BeginTransaction();
            chainStateStorage.ChainTip = chain.GenesisBlock;
            chainStateStorage.CommitTransaction();
            var utxo = new ChainState(chain, memoryStorage);

            // prepare output reference
            var prevTxOutput = new TxOutputKey(txHash: UInt256.Zero, txOutputIndex: 0);

            // check if output can be spent
            var canSpend = utxo.CanSpend(prevTxOutput);

            // verify output cannot be spent
            Assert.IsFalse(canSpend);
        }
Example #7
0
        public void TestPruneAllData()
        {
            // create genesis block
            var genesisblock  = CreateFakeBlock(1);
            var genesisHeader = new ChainedHeader(genesisblock.Header, height: 0, totalWork: genesisblock.Header.CalculateWork().ToBigInteger(), dateSeen: DateTimeOffset.Now);

            // create a block
            var txCount       = 100;
            var block         = CreateFakeBlock(txCount, genesisblock.Hash);
            var chainedHeader = ChainedHeader.CreateFromPrev(genesisHeader, block.Header, dateSeen: DateTimeOffset.Now);

            // create a long chain based off the block, to account for pruning buffer
            var fakeHeaders = new FakeHeaders(new[] { genesisHeader, chainedHeader });
            var chain       = new ChainBuilder(Enumerable.Concat(new[] { genesisHeader, chainedHeader }, Enumerable.Range(0, 2000).Select(x => fakeHeaders.NextChained()))).ToImmutable();

            // mock core daemon to return the chain
            var coreDaemon = new Mock <ICoreDaemon>();

            coreDaemon.Setup(x => x.CurrentChain).Returns(chain);

            // create memory storage with the block
            var storageManager = new MemoryStorageManager();

            storageManager.BlockTxesStorage.TryAddBlockTransactions(block.Hash, block.BlockTxes);

            // initialize the pruning worker
            var workerConfig = new WorkerConfig(initialNotify: false, minIdleTime: TimeSpan.Zero, maxIdleTime: TimeSpan.MaxValue);

            using (var pruningWorker = new PruningWorker(workerConfig, coreDaemon.Object, storageManager, null))
                // get a chain state cursor
                using (var handle = storageManager.OpenChainStateCursor())
                {
                    var chainStateCursor = handle.Item;

                    // set the pruning worker to prune all data
                    pruningWorker.Mode = PruningMode.TxIndex | PruningMode.BlockSpentIndex | PruningMode.BlockTxesPreserveMerkle;

                    // wire event to wait for work
                    var workFinishedEvent = new AutoResetEvent(false);
                    pruningWorker.OnWorkFinished += () => workFinishedEvent.Set();

                    // wire event to track exceptions
                    Exception workException = null;
                    pruningWorker.OnWorkError += e => workException = e;

                    // start the worker
                    pruningWorker.Start();

                    // pick a random pruning order
                    var random           = new Random();
                    var pruneOrderSource = Enumerable.Range(0, txCount).ToList();
                    var pruneOrder       = new List <int>(txCount);
                    while (pruneOrderSource.Count > 0)
                    {
                        var randomIndex = random.Next(pruneOrderSource.Count);

                        pruneOrder.Add(pruneOrderSource[randomIndex]);
                        pruneOrderSource.RemoveAt(randomIndex);
                    }

                    // add an unspent tx for each transaction to storage
                    var unspentTxes = new UnspentTx[block.Transactions.Length];
                    chainStateCursor.BeginTransaction();
                    for (var txIndex = 0; txIndex < block.Transactions.Length; txIndex++)
                    {
                        var tx        = block.Transactions[txIndex];
                        var unspentTx = new UnspentTx(tx.Hash, blockIndex: 1, txIndex: txIndex, txVersion: tx.Version, isCoinbase: txIndex == 0, outputStates: new OutputStates(1, OutputState.Spent));
                        unspentTxes[txIndex] = unspentTx;
                        chainStateCursor.TryAddUnspentTx(unspentTx);
                    }
                    chainStateCursor.CommitTransaction();

                    // create a memory pruning cursor to verify expected pruning results
                    var pruneCursor = new MemoryMerkleTreePruningCursor <BlockTxNode>(block.BlockTxes.Select(x => (BlockTxNode)x));

                    // prune each transaction in random order
                    var pruneHeight = 0;
                    foreach (var pruneTxIndex in pruneOrder)
                    {
                        // create a spent tx to prune the transaction
                        var pruneTx   = block.Transactions[pruneTxIndex];
                        var spentTxes = BlockSpentTxes.CreateRange(new[] { unspentTxes[pruneTxIndex].ToSpentTx() });

                        // store the spent txes for the current pruning block
                        pruneHeight++;
                        chainStateCursor.BeginTransaction();
                        Assert.IsTrue(chainStateCursor.TryAddBlockSpentTxes(pruneHeight, spentTxes));
                        pruningWorker.PrunableHeight = pruneHeight;

                        // verify unspent tx is present before pruning
                        Assert.IsTrue(chainStateCursor.ContainsUnspentTx(pruneTx.Hash));
                        chainStateCursor.CommitTransaction();

                        // notify the pruning worker and wait
                        pruningWorker.NotifyWork();
                        workFinishedEvent.WaitOne();

                        // verify unspent tx is removed after pruning
                        chainStateCursor.BeginTransaction();
                        Assert.IsFalse(chainStateCursor.ContainsUnspentTx(pruneTx.Hash));

                        // verify unspent tx outputs are removed after pruning
                        for (var outputIndex = 0; outputIndex < pruneTx.Outputs.Length; outputIndex++)
                        {
                            Assert.IsFalse(chainStateCursor.ContainsUnspentTxOutput(new TxOutputKey(pruneTx.Hash, (uint)outputIndex)));
                        }

                        // verify the spent txes were removed
                        Assert.IsFalse(chainStateCursor.ContainsBlockSpentTxes(pruneHeight));
                        chainStateCursor.RollbackTransaction();

                        // prune to determine expected results
                        MerkleTree.PruneNode(pruneCursor, pruneTxIndex);
                        var expectedPrunedTxes = pruneCursor.ReadNodes().ToList();

                        // retrieve the actual transaction after pruning
                        IEnumerator <BlockTxNode> actualPrunedTxNodes;
                        Assert.IsTrue(storageManager.BlockTxesStorage.TryReadBlockTxNodes(block.Hash, out actualPrunedTxNodes));

                        // verify the actual pruned transactions match the expected results
                        CollectionAssert.AreEqual(expectedPrunedTxes, actualPrunedTxNodes.UsingAsEnumerable().ToList());
                    }

                    // verify all unspent txes were removed
                    chainStateCursor.BeginTransaction();
                    Assert.AreEqual(0, chainStateCursor.ReadUnspentTransactions().Count());
                    chainStateCursor.CommitTransaction();

                    // verify final block with all transactions pruned
                    IEnumerator <BlockTxNode> finalPrunedTxNodes;
                    Assert.IsTrue(storageManager.BlockTxesStorage.TryReadBlockTxNodes(block.Hash, out finalPrunedTxNodes));
                    var finalPrunedTxesList = finalPrunedTxNodes.UsingAsEnumerable().ToList();
                    Assert.AreEqual(1, finalPrunedTxesList.Count);
                    Assert.AreEqual(block.Header.MerkleRoot, finalPrunedTxesList.Single().Hash);

                    // verify no work exceptions occurred
                    Assert.IsNull(workException);
                }
        }
Example #8
0
        public void TestSimpleSpend()
        {
            // prepare block
            var fakeHeaders      = new FakeHeaders();
            var chainedHeader0   = fakeHeaders.GenesisChained();
            var chainedHeader1   = fakeHeaders.NextChained();
            var chainedHeader2   = fakeHeaders.NextChained();
            var chain            = new ChainBuilder();
            var emptyCoinbaseTx0 = new Transaction(0, ImmutableArray.Create <TxInput>(), ImmutableArray.Create <TxOutput>(), 0);
            var emptyCoinbaseTx1 = new Transaction(1, ImmutableArray.Create <TxInput>(), ImmutableArray.Create <TxOutput>(), 0);
            var emptyCoinbaseTx2 = new Transaction(2, ImmutableArray.Create <TxInput>(), ImmutableArray.Create <TxOutput>(), 0);

            // initialize memory utxo builder storage
            var memoryStorage          = new MemoryStorageManager();
            var memoryChainStateCursor = memoryStorage.OpenChainStateCursor().Item;

            // initialize utxo builder
            var utxoBuilder = new UtxoBuilder(memoryChainStateCursor, LogManager.CreateNullLogger());

            // prepare an unspent transaction
            var txHash    = new UInt256(100);
            var unspentTx = new UnspentTx(txHash, chainedHeader0.Height, 0, 3, OutputState.Unspent);

            // prepare unspent output
            var unspentTransactions = ImmutableDictionary.Create <UInt256, UnspentTx>().Add(txHash, unspentTx);

            // add the unspent transaction
            memoryChainStateCursor.TryAddUnspentTx(unspentTx);

            // create an input to spend the unspent transaction's first output
            var input0 = new TxInput(new TxOutputKey(txHash, txOutputIndex: 0), ImmutableArray.Create <byte>(), 0);
            var tx0    = new Transaction(0, ImmutableArray.Create(input0), ImmutableArray.Create <TxOutput>(), 0);

            // spend the input
            chain.AddBlock(chainedHeader0);
            utxoBuilder.CalculateUtxo(chain.ToImmutable(), new[] { emptyCoinbaseTx0, tx0 }).ToList();

            // verify utxo storage
            UnspentTx actualUnspentTx;

            Assert.IsTrue(memoryChainStateCursor.TryGetUnspentTx(txHash, out actualUnspentTx));
            Assert.IsTrue(actualUnspentTx.OutputStates.Length == 3);
            Assert.IsTrue(actualUnspentTx.OutputStates[0] == OutputState.Spent);
            Assert.IsTrue(actualUnspentTx.OutputStates[1] == OutputState.Unspent);
            Assert.IsTrue(actualUnspentTx.OutputStates[2] == OutputState.Unspent);

            // create an input to spend the unspent transaction's second output
            var input1 = new TxInput(new TxOutputKey(txHash, txOutputIndex: 1), ImmutableArray.Create <byte>(), 0);
            var tx1    = new Transaction(0, ImmutableArray.Create(input1), ImmutableArray.Create <TxOutput>(), 0);

            // spend the input
            chain.AddBlock(chainedHeader1);
            utxoBuilder.CalculateUtxo(chain.ToImmutable(), new[] { emptyCoinbaseTx1, tx1 }).ToList();

            // verify utxo storage
            Assert.IsTrue(memoryChainStateCursor.TryGetUnspentTx(txHash, out actualUnspentTx));
            Assert.IsTrue(actualUnspentTx.OutputStates.Length == 3);
            Assert.IsTrue(actualUnspentTx.OutputStates[0] == OutputState.Spent);
            Assert.IsTrue(actualUnspentTx.OutputStates[1] == OutputState.Spent);
            Assert.IsTrue(actualUnspentTx.OutputStates[2] == OutputState.Unspent);

            // create an input to spend the unspent transaction's third output
            var input2 = new TxInput(new TxOutputKey(txHash, txOutputIndex: 2), ImmutableArray.Create <byte>(), 0);
            var tx2    = new Transaction(0, ImmutableArray.Create(input2), ImmutableArray.Create <TxOutput>(), 0);

            // spend the input
            chain.AddBlock(chainedHeader2);
            utxoBuilder.CalculateUtxo(chain.ToImmutable(), new[] { emptyCoinbaseTx2, tx2 }).ToList();

            // verify utxo storage
            Assert.IsFalse(memoryChainStateCursor.ContainsUnspentTx(txHash));
        }
Example #9
0
        public void TestSimpleSpend()
        {
            // prepare block
            var fakeHeaders      = new FakeHeaders();
            var chainedHeader0   = fakeHeaders.GenesisChained();
            var chainedHeader1   = fakeHeaders.NextChained();
            var chainedHeader2   = fakeHeaders.NextChained();
            var chainedHeader3   = fakeHeaders.NextChained();
            var chain            = Chain.CreateForGenesisBlock(chainedHeader0).ToBuilder();
            var emptyCoinbaseTx0 = BlockTx.Create(0, Transaction.Create(0, ImmutableArray.Create <TxInput>(), ImmutableArray.Create <TxOutput>(), 0));
            var emptyCoinbaseTx1 = BlockTx.Create(1, Transaction.Create(1, ImmutableArray.Create <TxInput>(), ImmutableArray.Create <TxOutput>(), 0));
            var emptyCoinbaseTx2 = BlockTx.Create(2, Transaction.Create(2, ImmutableArray.Create <TxInput>(), ImmutableArray.Create <TxOutput>(), 0));

            // initialize memory utxo builder storage
            var memoryStorage          = new MemoryStorageManager();
            var memoryChainStateCursor = memoryStorage.OpenChainStateCursor().Item;

            memoryChainStateCursor.BeginTransaction();

            // initialize utxo builder
            var utxoBuilder = new UtxoBuilder();

            // prepare an unspent transaction
            var txHash       = new UInt256(100);
            var unspentTx    = new UnspentTx(txHash, chainedHeader1.Height, 0, 0, false, 3, OutputState.Unspent);
            var txOutput1Key = new TxOutputKey(txHash, 0);
            var txOutput1    = new TxOutput(0, ImmutableArray <byte> .Empty);
            var txOutput2Key = new TxOutputKey(txHash, 1);
            var txOutput2    = new TxOutput(1, ImmutableArray <byte> .Empty);
            var txOutput3Key = new TxOutputKey(txHash, 2);
            var txOutput3    = new TxOutput(2, ImmutableArray <byte> .Empty);

            // prepare unspent output
            var unspentTransactions = ImmutableDictionary.Create <UInt256, UnspentTx>().Add(txHash, unspentTx);

            // add the unspent transaction
            memoryChainStateCursor.TryAddUnspentTx(unspentTx);
            memoryChainStateCursor.TryAddUnspentTxOutput(txOutput1Key, txOutput1);
            memoryChainStateCursor.TryAddUnspentTxOutput(txOutput2Key, txOutput2);
            memoryChainStateCursor.TryAddUnspentTxOutput(txOutput3Key, txOutput3);

            // create an input to spend the unspent transaction's first output
            var input0 = new TxInput(txHash, 0, ImmutableArray.Create <byte>(), 0);
            var tx0    = BlockTx.Create(1, Transaction.Create(0, ImmutableArray.Create(input0), ImmutableArray.Create <TxOutput>(), 0));

            // spend the input
            chain.AddBlock(chainedHeader1);
            utxoBuilder.CalculateUtxo(memoryChainStateCursor, chain.ToImmutable(), new[] { emptyCoinbaseTx0, tx0 }.ToBufferBlock()).ToEnumerable().ToList();

            // verify utxo storage
            UnspentTx actualUnspentTx; TxOutput actualTxOutput;

            Assert.IsTrue(memoryChainStateCursor.TryGetUnspentTx(txHash, out actualUnspentTx));
            Assert.IsTrue(actualUnspentTx.OutputStates.Length == 3);
            Assert.IsTrue(actualUnspentTx.OutputStates[0] == OutputState.Spent);
            Assert.IsTrue(actualUnspentTx.OutputStates[1] == OutputState.Unspent);
            Assert.IsTrue(actualUnspentTx.OutputStates[2] == OutputState.Unspent);

            Assert.IsTrue(memoryChainStateCursor.TryGetUnspentTxOutput(txOutput1Key, out actualTxOutput));
            Assert.AreEqual(txOutput1, actualTxOutput);
            Assert.IsTrue(memoryChainStateCursor.TryGetUnspentTxOutput(txOutput2Key, out actualTxOutput));
            Assert.AreEqual(txOutput2, actualTxOutput);
            Assert.IsTrue(memoryChainStateCursor.TryGetUnspentTxOutput(txOutput3Key, out actualTxOutput));
            Assert.AreEqual(txOutput3, actualTxOutput);

            // create an input to spend the unspent transaction's second output
            var input1 = new TxInput(txHash, 1, ImmutableArray.Create <byte>(), 0);
            var tx1    = BlockTx.Create(1, Transaction.Create(0, ImmutableArray.Create(input1), ImmutableArray.Create <TxOutput>(), 0));

            // spend the input
            chain.AddBlock(chainedHeader2);
            utxoBuilder.CalculateUtxo(memoryChainStateCursor, chain.ToImmutable(), new[] { emptyCoinbaseTx1, tx1 }.ToBufferBlock()).ToEnumerable().ToList();

            // verify utxo storage
            Assert.IsTrue(memoryChainStateCursor.TryGetUnspentTx(txHash, out actualUnspentTx));
            Assert.IsTrue(actualUnspentTx.OutputStates.Length == 3);
            Assert.IsTrue(actualUnspentTx.OutputStates[0] == OutputState.Spent);
            Assert.IsTrue(actualUnspentTx.OutputStates[1] == OutputState.Spent);
            Assert.IsTrue(actualUnspentTx.OutputStates[2] == OutputState.Unspent);

            // create an input to spend the unspent transaction's third output
            var input2 = new TxInput(txHash, 2, ImmutableArray.Create <byte>(), 0);
            var tx2    = BlockTx.Create(2, Transaction.Create(0, ImmutableArray.Create(input2), ImmutableArray.Create <TxOutput>(), 0));

            // spend the input
            chain.AddBlock(chainedHeader3);
            utxoBuilder.CalculateUtxo(memoryChainStateCursor, chain.ToImmutable(), new[] { emptyCoinbaseTx2, tx2 }.ToBufferBlock()).ToEnumerable().ToList();

            // verify utxo storage
            Assert.IsTrue(memoryChainStateCursor.TryGetUnspentTx(txHash, out actualUnspentTx));
            Assert.IsTrue(actualUnspentTx.IsFullySpent);
        }