/// <summary>
        /// Applies an internally generated contract creation message to the current state.
        /// </summary>
        public StateTransitionResult Apply(IState state, InternalCreateMessage message)
        {
            bool enoughBalance = EnsureSenderHasEnoughBalance(state, message.From, message.Amount);

            if (!enoughBalance)
            {
                return(StateTransitionResult.Fail((Gas)0, StateTransitionErrorKind.InsufficientBalance)); // Trivial - just return and let the MethodCall gas account for it.
            }
            var gasMeter = new GasMeter(message.GasLimit);

            gasMeter.Spend((Gas)GasPriceList.CreateCost);

            byte[] contractCode = state.ContractState.GetCode(message.From);

            uint160 address = state.GenerateAddress(this.AddressGenerator);

            // For internal creates we need to add the value contained in the contract invocation transaction
            // to the internal transfer list. This must occur before we apply the message to the state.
            // For external creates we do not need to do this.
            state.AddInternalTransfer(new TransferInfo(message.From, address, message.Amount));

            StateTransitionResult result = ApplyCreate(state, message.Parameters, contractCode, message, address, gasMeter, message.Type);

            return(result);
        }
        private StateTransitionResult ApplyCreate(IState state,
                                                  object[] parameters,
                                                  byte[] code,
                                                  BaseMessage message,
                                                  uint160 address,
                                                  IGasMeter gasMeter,
                                                  string type = null)
        {
            state.ContractState.CreateAccount(address);

            ISmartContractState smartContractState = state.CreateSmartContractState(state, gasMeter, address, message, state.ContractState);

            VmExecutionResult result = this.Vm.Create(state.ContractState, smartContractState, gasMeter, code, parameters, type);

            bool revert = !result.IsSuccess;

            if (revert)
            {
                return(StateTransitionResult.Fail(
                           gasMeter.GasConsumed,
                           result.Error));
            }

            return(StateTransitionResult.Ok(
                       gasMeter.GasConsumed,
                       address,
                       result.Success.Result
                       ));
        }
        /// <summary>
        /// Applies an internally generated contract funds transfer message to the current state.
        /// </summary>
        public StateTransitionResult Apply(IState state, ContractTransferMessage message)
        {
            bool enoughBalance = EnsureSenderHasEnoughBalance(state, message.From, message.Amount);

            if (!enoughBalance)
            {
                return(StateTransitionResult.Fail((Gas)0, StateTransitionErrorKind.InsufficientBalance));
            }

            var gasMeter = new GasMeter(message.GasLimit);

            // If it's not a contract, create a regular P2PKH tx
            // If it is a contract, do a regular contract call
            byte[] contractCode = state.ContractState.GetCode(message.To);

            if (contractCode == null || contractCode.Length == 0)
            {
                gasMeter.Spend((Gas)GasPriceList.TransferCost);

                // No contract at this address, create a regular P2PKH xfer
                state.AddInternalTransfer(new TransferInfo(message.From, message.To, message.Amount));

                return(StateTransitionResult.Ok(gasMeter.GasConsumed, message.To));
            }

            // For internal contract-contract transfers we need to add the value contained in the contract invocation transaction
            // to the internal transfer list. This must occur before we apply the message to the state.
            state.AddInternalTransfer(new TransferInfo(message.From, message.To, message.Amount));

            gasMeter.Spend((Gas)GasPriceList.BaseCost);
            StateTransitionResult result = ApplyCall(state, message, contractCode, gasMeter);

            return(result);
        }
        /// <summary>
        /// Applies an internally generated contract method call message to the current state.
        /// </summary>
        public StateTransitionResult Apply(IState state, InternalCallMessage message)
        {
            bool enoughBalance = EnsureSenderHasEnoughBalance(state, message.From, message.Amount);

            if (!enoughBalance)
            {
                return(StateTransitionResult.Fail((Gas)0, StateTransitionErrorKind.InsufficientBalance)); // Trivial - just return and let the MethodCall gas account for it.
            }
            var gasMeter = new GasMeter(message.GasLimit);

            gasMeter.Spend((Gas)GasPriceList.BaseCost);

            byte[] contractCode = state.ContractState.GetCode(message.To);

            if (contractCode == null || contractCode.Length == 0)
            {
                return(StateTransitionResult.Fail(gasMeter.GasConsumed, StateTransitionErrorKind.NoCode));
            }

            // For internal calls we need to add the value contained in the contract invocation transaction
            // to the internal transfer list. This must occur before we apply the message to the state.
            // For external calls we do not need to do this.
            state.AddInternalTransfer(new TransferInfo(message.From, message.To, message.Amount));

            StateTransitionResult result = ApplyCall(state, message, contractCode, gasMeter);

            return(result);
        }
        private StateTransitionResult ApplyCall(IState state, CallMessage message, byte[] contractCode, IGasMeter gasMeter)
        {
            // This needs to happen after the base fee is charged, which is why it's in here.
            // TODO - Remove this check. It isn't possible for the method name to be null.
            if (message.Method.Name == null)
            {
                return(StateTransitionResult.Fail(gasMeter.GasConsumed, StateTransitionErrorKind.NoMethodName));
            }

            string type = state.ContractState.GetContractType(message.To);

            ISmartContractState smartContractState = state.CreateSmartContractState(state, gasMeter, message.To, message, state.ContractState);

            VmExecutionResult result = this.Vm.ExecuteMethod(smartContractState, gasMeter, message.Method, contractCode, type);

            bool revert = !result.IsSuccess;

            if (revert)
            {
                return(StateTransitionResult.Fail(
                           gasMeter.GasConsumed,
                           result.Error));
            }

            return(StateTransitionResult.Ok(
                       gasMeter.GasConsumed,
                       message.To,
                       result.Success.Result
                       ));
        }
        /// <summary>
        /// Applies an externally generated contract method call message to the current state.
        /// </summary>
        public StateTransitionResult Apply(IState state, ExternalCallMessage message)
        {
            var gasMeter = new GasMeter(message.GasLimit);

            gasMeter.Spend((Gas)GasPriceList.BaseCost);

            byte[] contractCode = state.ContractState.GetCode(message.To);

            if (contractCode == null || contractCode.Length == 0)
            {
                return(StateTransitionResult.Fail(gasMeter.GasConsumed, StateTransitionErrorKind.NoCode));
            }

            // For external calls we need to increment the balance state to take into
            // account any funds sent as part of the original contract invocation transaction.
            state.AddInitialTransfer(new TransferInfo(message.From, message.To, message.Amount));

            return(ApplyCall(state, message, contractCode, gasMeter));
        }