public void Transfer_GasRemaining_Error() { ulong amount = 100UL; var to = new Address("Sj2p6ZRHdLvywyi43HYoE4bu2TF1nvavjR"); var fixture = new InternalExecutorTestFixture(); fixture.SetGasMeterLimitBelow((Gas)InternalExecutor.DefaultGasLimit); var internalExecutor = new InternalExecutor( fixture.LoggerFactory, fixture.Network, fixture.State.Object, fixture.StateProcessor.Object); ITransferResult result = internalExecutor.Transfer(fixture.SmartContractState, to, amount); fixture.State.Verify(s => s.Snapshot(), Times.Never); fixture.StateProcessor.Verify(sp => sp.Apply(fixture.Snapshot, It.IsAny <ContractTransferMessage>()), Times.Never); fixture.State.Verify(s => s.TransitionTo(fixture.Snapshot), Times.Never); fixture.GasMeter.Verify(g => g.Spend(It.IsAny <Gas>()), Times.Never); Assert.False(result.Success); Assert.Null(result.ReturnValue); }
public void Transfer_GasRemaining_Error() { var fixture = new InternalExecutorTestFixture(); fixture.SetGasMeterLimitBelow((Gas)GasPriceList.TransferCost); ulong amount = 100UL; var to = "0x95D34980095380851902ccd9A1Fb4C813C2cb639".HexToAddress(); var internalExecutor = new InternalExecutor( fixture.LoggerFactory, fixture.State.Object, fixture.StateProcessor.Object); ITransferResult result = internalExecutor.Transfer(fixture.SmartContractState, to, amount); fixture.State.Verify(s => s.Snapshot(), Times.Never); fixture.StateProcessor.Verify(sp => sp.Apply(fixture.Snapshot, It.IsAny <ContractTransferMessage>()), Times.Never); fixture.State.Verify(s => s.TransitionTo(fixture.Snapshot), Times.Never); fixture.GasMeter.Verify(g => g.Spend(It.IsAny <Gas>()), Times.Never); Assert.False(result.Success); Assert.Null(result.ReturnValue); }
public void Create_GasRemaining_Error() { ulong amount = 100UL; var parameters = new object[] { }; var gasLimit = (Gas)100_000; var fixture = new InternalExecutorTestFixture(); fixture.SetGasMeterLimitBelow(gasLimit); var internalExecutor = new InternalExecutor( fixture.LoggerFactory, fixture.Network, fixture.State.Object, fixture.StateProcessor.Object); ICreateResult result = internalExecutor.Create <string>(fixture.SmartContractState, amount, parameters, gasLimit); fixture.State.Verify(s => s.Snapshot(), Times.Never); fixture.StateProcessor.Verify(sp => sp.Apply(fixture.Snapshot, It.IsAny <InternalCreateMessage>()), Times.Never); fixture.State.Verify(s => s.TransitionTo(fixture.Snapshot), Times.Never); fixture.GasMeter.Verify(g => g.Spend(It.IsAny <Gas>()), Times.Never); Assert.False(result.Success); Assert.Equal(default(Address), result.NewContractAddress); }
public void Call_GasRemaining_Error() { var fixture = new InternalExecutorTestFixture(); ulong amount = 100UL; var to = "0x95D34980095380851902ccd9A1Fb4C813C2cb639".HexToAddress(); var method = "Test"; var parameters = new object[] { }; var gasLimit = (Gas)100_000; fixture.SetGasMeterLimitBelow(gasLimit); var internalExecutor = new InternalExecutor( fixture.LoggerFactory, fixture.State.Object, fixture.StateProcessor.Object); ITransferResult result = internalExecutor.Call(fixture.SmartContractState, to, amount, method, parameters, gasLimit); fixture.State.Verify(s => s.Snapshot(), Times.Never); fixture.StateProcessor.Verify(sp => sp.Apply(fixture.Snapshot, It.IsAny <InternalCreateMessage>()), Times.Never); fixture.State.Verify(s => s.TransitionTo(fixture.Snapshot), Times.Never); fixture.GasMeter.Verify(g => g.Spend(It.IsAny <Gas>()), Times.Never); Assert.False(result.Success); Assert.Null(result.ReturnValue); }