public void Contract_Transfer_To_Other_Contract_Success()
        {
            // There is code at the destination address, which causes an internal call to the receive method
            var vmExecutionResult = VmExecutionResult.Success(true, "Test");
            var code     = new byte[1];
            var typeName = "Test";

            var contractTransferMessage = new ContractTransferMessage(
                uint160.One,
                uint160.Zero,
                10,
                (Gas)(GasPriceList.BaseCost + 100000)
                );

            // Code must be returned for this test to ensure we apply the call.
            this.contractStateRoot
            .Setup(sr => sr.GetCode(contractTransferMessage.To))
            .Returns(code);

            this.contractStateRoot
            .Setup(sr => sr.GetContractType(contractTransferMessage.To))
            .Returns(typeName);

            this.vm.Setup(v => v.ExecuteMethod(It.IsAny <ISmartContractState>(), contractTransferMessage.Method, code, typeName))
            .Returns(vmExecutionResult);

            var state = new Mock <IState>();

            // Return the sent amount + 1
            state.Setup(s => s.GetBalance(contractTransferMessage.From)).Returns(contractTransferMessage.Amount + 1);

            state.SetupGet(s => s.ContractState).Returns(this.contractStateRoot.Object);

            var stateProcessor = new StateProcessor(this.vm.Object, this.addressGenerator.Object);

            StateTransitionResult result = stateProcessor.Apply(state.Object, contractTransferMessage);

            // Verify we check the balance of the sender first
            state.Verify(s => s.GetBalance(contractTransferMessage.From));

            // Verify we get the code from the destination address' code cache
            this.contractStateRoot.Verify(s => s.GetCode(contractTransferMessage.To), Times.Once);

            // Verify we set up the smart contract state
            state.Verify(s => s.CreateSmartContractState(state.Object, It.IsAny <GasMeter>(), contractTransferMessage.To, contractTransferMessage, this.contractStateRoot.Object));

            // Verify the VM was invoked
            this.vm.Verify(v => v.ExecuteMethod(It.IsAny <ISmartContractState>(), contractTransferMessage.Method, code, typeName), Times.Once);

            // Verify the value was added to the internal transfer list
            state.Verify(s => s.AddInternalTransfer(It.Is <TransferInfo>(t => t.From == contractTransferMessage.From &&
                                                                         t.To == contractTransferMessage.To &&
                                                                         t.Value == contractTransferMessage.Amount)));

            Assert.True(result.IsSuccess);
            Assert.NotNull(result.Success);
            Assert.Equal(contractTransferMessage.To, result.Success.ContractAddress);
            Assert.Equal(vmExecutionResult.Result, result.Success.ExecutionResult);
            Assert.Equal(GasPriceList.BaseCost, result.GasConsumed);
        }
        public void ExternalCall_Success()
        {
            var gasLimit          = (Gas)(GasPriceList.BaseCost + 100000);
            var vmExecutionResult = VmExecutionResult.Success(true, "Test");

            // Code must have a length to pass precondition checks.
            var code     = new byte[1];
            var typeName = "Test";

            var externalCallMessage = new ExternalCallMessage(
                uint160.Zero,
                uint160.Zero,
                0,
                gasLimit,
                new MethodCall("Test", null)
                );

            this.contractStateRoot
            .Setup(sr => sr.GetCode(externalCallMessage.To))
            .Returns(code);

            this.contractStateRoot
            .Setup(sr => sr.GetContractType(externalCallMessage.To))
            .Returns(typeName);

            this.vm.Setup(v =>
                          v.ExecuteMethod(It.IsAny <ISmartContractState>(), externalCallMessage.Method, code, typeName))
            .Returns(vmExecutionResult);

            var state = new Mock <IState>();

            state.SetupGet(s => s.ContractState).Returns(this.contractStateRoot.Object);

            var stateProcessor = new StateProcessor(this.vm.Object, this.addressGenerator.Object);

            StateTransitionResult result = stateProcessor.Apply(state.Object, externalCallMessage);

            this.contractStateRoot.Verify(sr => sr.GetCode(externalCallMessage.To), Times.Once);

            this.contractStateRoot.Verify(sr => sr.GetContractType(externalCallMessage.To), Times.Once);

            state.Verify(s => s.CreateSmartContractState(state.Object, It.IsAny <GasMeter>(), externalCallMessage.To, externalCallMessage, this.contractStateRoot.Object));

            this.vm.Verify(
                v => v.ExecuteMethod(It.IsAny <ISmartContractState>(), externalCallMessage.Method, code, typeName),
                Times.Once);

            Assert.True(result.IsSuccess);
            Assert.NotNull(result.Success);
            Assert.Equal(externalCallMessage.To, result.Success.ContractAddress);
            Assert.Equal(vmExecutionResult.Result, result.Success.ExecutionResult);
            Assert.Equal(GasPriceList.BaseCost, result.GasConsumed);
        }
        public void ExternalCreate_Success()
        {
            var newContractAddress = uint160.One;
            var vmExecutionResult  = VmExecutionResult.Success(true, "Test");

            var externalCreateMessage = new ExternalCreateMessage(
                uint160.Zero,
                10,
                (Gas)(GasPriceList.BaseCost + 100000),
                new byte[0],
                null
                );

            this.vm.Setup(v => v.Create(this.contractStateRoot.Object, It.IsAny <ISmartContractState>(), externalCreateMessage.Code, externalCreateMessage.Parameters, null))
            .Returns(vmExecutionResult);

            var state = new Mock <IState>();

            state.SetupGet(s => s.ContractState).Returns(this.contractStateRoot.Object);
            state.Setup(s => s.GenerateAddress(It.IsAny <IAddressGenerator>())).Returns(newContractAddress);

            var stateProcessor = new StateProcessor(this.vm.Object, this.addressGenerator.Object);

            StateTransitionResult result = stateProcessor.Apply(state.Object, externalCreateMessage);

            state.Verify(s => s.GenerateAddress(this.addressGenerator.Object), Times.Once);

            this.contractStateRoot.Verify(s => s.CreateAccount(newContractAddress), Times.Once);

            state.Verify(s => s.CreateSmartContractState(state.Object, It.IsAny <GasMeter>(), newContractAddress, externalCreateMessage, this.contractStateRoot.Object));

            this.vm.Verify(v => v.Create(this.contractStateRoot.Object, It.IsAny <ISmartContractState>(), externalCreateMessage.Code, externalCreateMessage.Parameters, null), Times.Once);

            Assert.True(result.IsSuccess);
            Assert.NotNull(result.Success);
            Assert.Equal(newContractAddress, result.Success.ContractAddress);
            Assert.Equal(vmExecutionResult.Result, result.Success.ExecutionResult);
            Assert.Equal(GasPriceList.BaseCost, result.GasConsumed);
        }
        public void InternalCall_Success()
        {
            // The difference between an internal and an external call:
            // - Internal call performs a balance check before execution
            // - Internal call appends a new internal transfer if successful
            var vmExecutionResult = VmExecutionResult.Success(true, "Test");
            var code     = new byte[1];
            var typeName = "Test";

            var internalCallMessage = new InternalCallMessage(
                uint160.One,
                uint160.Zero,
                10,
                (Gas)(GasPriceList.BaseCost + 100000),
                new MethodCall("Test", new object[] {})
                );

            this.contractStateRoot
            .Setup(sr => sr.GetCode(internalCallMessage.To))
            .Returns(code);

            this.contractStateRoot
            .Setup(sr => sr.GetContractType(internalCallMessage.To))
            .Returns(typeName);

            this.vm.Setup(v => v.ExecuteMethod(It.IsAny <ISmartContractState>(), internalCallMessage.Method, code, typeName))
            .Returns(vmExecutionResult);

            var state = new Mock <IState>();

            // Return the sent amount + 1
            state.Setup(s => s.GetBalance(internalCallMessage.From)).Returns(internalCallMessage.Amount + 1);

            state.SetupGet(s => s.ContractState).Returns(this.contractStateRoot.Object);

            var stateProcessor = new StateProcessor(this.vm.Object, this.addressGenerator.Object);

            StateTransitionResult result = stateProcessor.Apply(state.Object, internalCallMessage);

            // Verify we check the balance of the sender first
            state.Verify(s => s.GetBalance(internalCallMessage.From));

            // Verify we get the code from the destination address' code cache
            this.contractStateRoot.Verify(s => s.GetCode(internalCallMessage.To), Times.Once);

            // Verify we set up the smart contract state
            state.Verify(s => s.CreateSmartContractState(state.Object, It.IsAny <GasMeter>(), internalCallMessage.To, internalCallMessage, this.contractStateRoot.Object));

            // Verify the VM was invoked
            this.vm.Verify(v => v.ExecuteMethod(It.IsAny <ISmartContractState>(), internalCallMessage.Method, code, typeName), Times.Once);

            // Verify the value was added to the internal transfer list
            state.Verify(s => s.AddInternalTransfer(It.Is <TransferInfo>(t => t.From == internalCallMessage.From &&
                                                                         t.To == internalCallMessage.To &&
                                                                         t.Value == internalCallMessage.Amount)));

            Assert.True(result.IsSuccess);
            Assert.NotNull(result.Success);
            Assert.Equal(internalCallMessage.To, result.Success.ContractAddress);
            Assert.Equal(vmExecutionResult.Result, result.Success.ExecutionResult);
            Assert.Equal(GasPriceList.BaseCost, result.GasConsumed);
        }
Exemplo n.º 5
0
        public void Create_Contract_Success()
        {
            var         network            = new SmartContractsRegTest();
            uint160     newContractAddress = uint160.One;
            var         gasConsumed        = (Gas)100;
            var         code           = new byte[] { 0xAA, 0xBB, 0xCC };
            var         contractTxData = new ContractTxData(1, 1, (Gas)1000, code);
            var         refund         = new Money(0);
            const ulong mempoolFee     = 2UL; // MOQ doesn't like it when you use a type with implicit conversions (Money)
            ISmartContractTransactionContext context = Mock.Of <ISmartContractTransactionContext>(c =>
                                                                                                  c.Data == code &&
                                                                                                  c.MempoolFee == mempoolFee &&
                                                                                                  c.Sender == uint160.One &&
                                                                                                  c.CoinbaseAddress == uint160.Zero);

            var            logger        = new Mock <ILogger>();
            ILoggerFactory loggerFactory = Mock.Of <ILoggerFactory>
                                               (l => l.CreateLogger(It.IsAny <string>()) == logger.Object);

            var callDataSerializer = new Mock <ICallDataSerializer>();

            callDataSerializer
            .Setup(s => s.Deserialize(It.IsAny <byte[]>()))
            .Returns(Result.Ok(contractTxData));

            var vmExecutionResult = VmExecutionResult.Success(null, null);

            var contractStateRoot = new Mock <IContractStateRoot>();
            var transferProcessor = new Mock <ISmartContractResultTransferProcessor>();

            (Money refund, TxOut)refundResult = (refund, null);
            var refundProcessor = new Mock <ISmartContractResultRefundProcessor>();

            refundProcessor
            .Setup(r => r.Process(
                       contractTxData,
                       mempoolFee,
                       context.Sender,
                       It.IsAny <Gas>(),
                       false))
            .Returns(refundResult);

            var stateTransitionResult = StateTransitionResult.Ok(gasConsumed, newContractAddress, vmExecutionResult.Result);

            var internalTransfers = new List <TransferInfo>().AsReadOnly();
            var stateMock         = new Mock <IState>();

            stateMock.Setup(s => s.Apply(It.IsAny <ExternalCreateMessage>()))
            .Returns(stateTransitionResult);
            stateMock.SetupGet(p => p.InternalTransfers).Returns(internalTransfers);

            var stateFactory = new Mock <IStateFactory>();

            stateFactory.Setup(sf => sf.Create(
                                   contractStateRoot.Object,
                                   It.IsAny <IBlock>(),
                                   context.TxOutValue,
                                   context.TransactionHash,
                                   contractTxData.GasLimit))
            .Returns(stateMock.Object);

            var sut = new Executor(
                loggerFactory,
                callDataSerializer.Object,
                contractStateRoot.Object,
                refundProcessor.Object,
                transferProcessor.Object,
                network,
                stateFactory.Object);

            sut.Execute(context);

            callDataSerializer.Verify(s => s.Deserialize(code), Times.Once);

            stateFactory.Verify(sf => sf
                                .Create(
                                    contractStateRoot.Object,
                                    It.IsAny <IBlock>(),
                                    context.TxOutValue,
                                    context.TransactionHash,
                                    contractTxData.GasLimit),
                                Times.Once);

            stateMock.Verify(sm => sm
                             .Apply(It.IsAny <ExternalCreateMessage>()), Times.Once);

            transferProcessor.Verify(t => t
                                     .Process(
                                         contractStateRoot.Object,
                                         newContractAddress,
                                         context,
                                         internalTransfers,
                                         false),
                                     Times.Once);

            refundProcessor.Verify(t => t
                                   .Process(
                                       contractTxData,
                                       mempoolFee,
                                       context.Sender,
                                       It.IsAny <Gas>(),
                                       false),
                                   Times.Once);
        }
Exemplo n.º 6
0
        public void Call_Contract_Success()
        {
            var parameters     = new object[] { };
            var contractTxData = new ContractTxData(1, 1, (Gas)1000, uint160.One, "TestMethod", "", parameters);

            VmExecutionResult vmExecutionResult = VmExecutionResult.Success(new object(), null);

            StateTransitionResult stateTransitionResult = StateTransitionResult.Ok((Gas)100, uint160.One, vmExecutionResult.Result);

            var    fixture  = new ExecutorFixture(contractTxData);
            IState snapshot = fixture.State.Object.Snapshot();

            fixture.StateProcessor
            .Setup(s => s.Apply(snapshot, It.IsAny <ExternalCallMessage>()))
            .Returns(stateTransitionResult);

            var sut = new ContractExecutor(
                fixture.LoggerFactory,
                fixture.CallDataSerializer.Object,
                fixture.ContractStateRoot.Object,
                fixture.RefundProcessor.Object,
                fixture.TransferProcessor.Object,
                fixture.Network,
                fixture.StateFactory.Object,
                fixture.StateProcessor.Object,
                fixture.ContractPrimitiveSerializer.Object);

            IContractExecutionResult result = sut.Execute(fixture.ContractTransactionContext);

            fixture.CallDataSerializer.Verify(s => s.Deserialize(fixture.ContractTransactionContext.Data), Times.Once);

            fixture.StateFactory.Verify(sf => sf
                                        .Create(
                                            fixture.ContractStateRoot.Object,
                                            It.IsAny <IBlock>(),
                                            fixture.ContractTransactionContext.TxOutValue,
                                            fixture.ContractTransactionContext.TransactionHash),
                                        Times.Once);

            // We only apply the message to the snapshot.
            fixture.StateProcessor.Verify(sm => sm.Apply(snapshot, It.Is <ExternalCallMessage>(m =>
                                                                                               m.Method.Name == contractTxData.MethodName &&
                                                                                               m.Method.Parameters == contractTxData.MethodParameters &&
                                                                                               m.Amount == fixture.ContractTransactionContext.TxOutValue &&
                                                                                               m.From == fixture.ContractTransactionContext.Sender &&
                                                                                               m.To == contractTxData.ContractAddress)), Times.Once);

            // Must transition to the snapshot.
            fixture.State.Verify(sm => sm.TransitionTo(snapshot), Times.Once);

            fixture.TransferProcessor.Verify(t => t
                                             .Process(
                                                 fixture.ContractStateRoot.Object,
                                                 stateTransitionResult.Success.ContractAddress,
                                                 fixture.ContractTransactionContext,
                                                 fixture.State.Object.InternalTransfers,
                                                 false),
                                             Times.Once);

            fixture.RefundProcessor.Verify(t => t
                                           .Process(
                                               contractTxData,
                                               fixture.MempoolFee,
                                               fixture.ContractTransactionContext.Sender,
                                               It.IsAny <Gas>(),
                                               false),
                                           Times.Once);

            Assert.Equal(contractTxData.ContractAddress, result.To);
            Assert.Null(result.NewContractAddress);
            Assert.Null(result.ErrorMessage);
            Assert.False(result.Revert);
            Assert.Equal(stateTransitionResult.GasConsumed, result.GasConsumed);
            Assert.Equal(stateTransitionResult.Success.ExecutionResult, result.Return);
            Assert.Equal(fixture.InternalTransaction, result.InternalTransaction);
            Assert.Equal(fixture.Fee, (Money)result.Fee);
            Assert.Equal(fixture.Refund, result.Refund);
            Assert.Equal(fixture.State.Object.GetLogs(fixture.ContractPrimitiveSerializer.Object), result.Logs);
        }