/* This file is part of cpp-ethereum. cpp-ethereum is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. cpp-ethereum is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with cpp-ethereum. If not, see . */ /** @file Transaction.h * @author Gav Wood * @date 2014 */ #pragma once #include #include #include #include namespace dev { namespace eth { /// Named-boolean type to encode whether a signature be included in the serialisation process. enum IncludeSignature { WithoutSignature = 0, ///< Do not include a signature. WithSignature = 1, ///< Do include a signature. }; enum class CheckTransaction { None, Cheap, Everything }; enum class TransactionException { None = 0, Unknown, BadRLP, OutOfGasIntrinsic, ///< Too little gas to pay for the base transaction cost. InvalidSignature, InvalidNonce, NotEnoughCash, OutOfGasBase, ///< Too little gas to pay for the base transaction cost. BlockGasLimitReached, BadInstruction, BadJumpDestination, OutOfGas, ///< Ran out of gas executing code of the transaction. OutOfStack, ///< Ran out of stack executing code of the transaction. StackUnderflow }; enum class CodeDeposit { None = 0, Failed, Success }; struct VMException; TransactionException toTransactionException(Exception const& _e); std::ostream& operator<<(std::ostream& _out, TransactionException const& _er); /// Description of the result of executing a transaction. struct ExecutionResult { u256 gasUsed = 0; TransactionException excepted = TransactionException::Unknown; Address newAddress; bytes output; CodeDeposit codeDeposit = CodeDeposit::None; ///< Failed if an attempted deposit failed due to lack of gas. u256 gasRefunded = 0; unsigned depositSize = 0; ///< Amount of code of the creation's attempted deposit. u256 gasForDeposit; ///< Amount of gas remaining for the code deposit phase. }; std::ostream& operator<<(std::ostream& _out, ExecutionResult const& _er); /// Encodes a transaction, ready to be exported to or freshly imported from RLP. class Transaction { public: /// Constructs a null transaction. Transaction() {} /// Constructs a signed message-call transaction. Transaction(u256 const& _value, u256 const& _gasPrice, u256 const& _gas, Address const& _dest, bytes const& _data, u256 const& _nonce, Secret const& _secret): m_type(MessageCall), m_nonce(_nonce), m_value(_value), m_receiveAddress(_dest), m_gasPrice(_gasPrice), m_gas(_gas), m_data(_data) { sign(_secret); } /// Constructs a signed contract-creation transaction. Transaction(u256 const& _value, u256 const& _gasPrice, u256 const& _gas, bytes const& _data, u256 const& _nonce, Secret const& _secret): m_type(ContractCreation), m_nonce(_nonce), m_value(_value), m_gasPrice(_gasPrice), m_gas(_gas), m_data(_data) { sign(_secret); } /// Constructs an unsigned message-call transaction. Transaction(u256 const& _value, u256 const& _gasPrice, u256 const& _gas, Address const& _dest, bytes const& _data, u256 const& _nonce = 0): m_type(MessageCall), m_nonce(_nonce), m_value(_value), m_receiveAddress(_dest), m_gasPrice(_gasPrice), m_gas(_gas), m_data(_data) {} /// Constructs an unsigned contract-creation transaction. Transaction(u256 const& _value, u256 const& _gasPrice, u256 const& _gas, bytes const& _data, u256 const& _nonce = 0): m_type(ContractCreation), m_nonce(_nonce), m_value(_value), m_gasPrice(_gasPrice), m_gas(_gas), m_data(_data) {} /// Constructs a transaction from the given RLP. explicit Transaction(bytesConstRef _rlp, CheckTransaction _checkSig); /// Constructs a transaction from the given RLP. explicit Transaction(bytes const& _rlp, CheckTransaction _checkSig): Transaction(&_rlp, _checkSig) {} /// Checks equality of transactions. bool operator==(Transaction const& _c) const { return m_type == _c.m_type && (m_type == ContractCreation || m_receiveAddress == _c.m_receiveAddress) && m_value == _c.m_value && m_data == _c.m_data; } /// Checks inequality of transactions. bool operator!=(Transaction const& _c) const { return !operator==(_c); } /// @returns sender of the transaction from the signature (and hash). Address const& sender() const; /// Like sender() but will never throw. @returns a null Address if the signature is invalid. Address const& safeSender() const noexcept; /// Force the sender to a particular value. This will result in an invalid transaction RLP. void forceSender(Address const& _a) { m_sender = _a; } /// @returns true if transaction is non-null. explicit operator bool() const { return m_type != NullTransaction; } /// @returns true if transaction is contract-creation. bool isCreation() const { return m_type == ContractCreation; } /// @returns true if transaction is message-call. bool isMessageCall() const { return m_type == MessageCall; } /// Serialises this transaction to an RLPStream. void streamRLP(RLPStream& _s, IncludeSignature _sig = WithSignature) const; /// @returns the RLP serialisation of this transaction. bytes rlp(IncludeSignature _sig = WithSignature) const { RLPStream s; streamRLP(s, _sig); return s.out(); } /// @returns the SHA3 hash of the RLP serialisation of this transaction. h256 sha3(IncludeSignature _sig = WithSignature) const { if (_sig == WithSignature && m_hashWith) return m_hashWith; RLPStream s; streamRLP(s, _sig); auto ret = dev::sha3(s.out()); if (_sig == WithSignature) m_hashWith = ret; return ret; } /// @returns the amount of ETH to be transferred by this (message-call) transaction, in Wei. Synonym for endowment(). u256 value() const { return m_value; } /// @returns the amount of ETH to be endowed by this (contract-creation) transaction, in Wei. Synonym for value(). u256 endowment() const { return m_value; } /// @returns the base fee and thus the implied exchange rate of ETH to GAS. u256 gasPrice() const { return m_gasPrice; } /// @returns the total gas to convert, paid for from sender's account. Any unused gas gets refunded once the contract is ended. u256 gas() const { return m_gas; } /// @returns the receiving address of the message-call transaction (undefined for contract-creation transactions). Address receiveAddress() const { return m_receiveAddress; } /// Synonym for receiveAddress(). Address to() const { return m_receiveAddress; } /// Synonym for safeSender(). Address from() const { return safeSender(); } /// @returns the data associated with this (message-call) transaction. Synonym for initCode(). bytes const& data() const { return m_data; } /// @returns the initialisation code associated with this (contract-creation) transaction. Synonym for data(). bytes const& initCode() const { return m_data; } /// @returns the transaction-count of the sender. u256 nonce() const { return m_nonce; } /// @returns the signature of the transaction. Encodes the sender. SignatureStruct const& signature() const { return m_vrs; } /// @returns true if the transaction contains enough gas for the basic payment. bool checkPayment() const { return m_gas >= gasRequired(); } /// @returns the gas required to run this transaction. bigint gasRequired() const; /// Get the fee associated for a transaction with the given data. template static bigint gasRequired(T const& _data, u256 _gas = 0) { bigint ret = c_txGas + _gas; for (auto i: _data) ret += i ? c_txDataNonZeroGas : c_txDataZeroGas; return ret; } private: /// Type of transaction. enum Type { NullTransaction, ///< Null transaction. ContractCreation, ///< Transaction to create contracts - receiveAddress() is ignored. MessageCall ///< Transaction to invoke a message call - receiveAddress() is used. }; void sign(Secret _priv); ///< Sign the transaction. Type m_type = NullTransaction; ///< Is this a contract-creation transaction or a message-call transaction? u256 m_nonce; ///< The transaction-count of the sender. u256 m_value; ///< The amount of ETH to be transferred by this transaction. Called 'endowment' for contract-creation transactions. Address m_receiveAddress; ///< The receiving address of the transaction. u256 m_gasPrice; ///< The base fee and thus the implied exchange rate of ETH to GAS. u256 m_gas; ///< The total gas to convert, paid for from sender's account. Any unused gas gets refunded once the contract is ended. bytes m_data; ///< The data associated with the transaction, or the initialiser if it's a creation transaction. SignatureStruct m_vrs; ///< The signature of the transaction. Encodes the sender. mutable h256 m_hashWith; ///< Cached hash of transaction with signature. mutable Address m_sender; ///< Cached sender, determined from signature. mutable bigint m_gasRequired = 0; ///< Memoised amount required for the transaction to run. }; /// Nice name for vector of Transaction. using Transactions = std::vector; /// Simple human-readable stream-shift operator. inline std::ostream& operator<<(std::ostream& _out, Transaction const& _t) { _out << _t.sha3().abridged() << "{"; if (_t.receiveAddress()) _out << _t.receiveAddress().abridged(); else _out << "[CREATE]"; _out << "/" << _t.data().size() << "$" << _t.value() << "+" << _t.gas() << "@" << _t.gasPrice(); _out << "<-" << _t.safeSender().abridged() << " #" << _t.nonce() << "}"; return _out; } } }