/* 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 Interface.h * @author Gav Wood * @date 2014 */ #pragma once #include #include #include #include #include #include "LogFilter.h" #include "Transaction.h" #include "AccountDiff.h" #include "BlockDetails.h" #include "Miner.h" namespace dev { namespace eth { using TransactionHashes = h256s; using UncleHashes = h256s; enum class Reaping { Automatic, Manual }; enum class FudgeFactor { Strict, Lenient }; /** * @brief Main API hub for interfacing with Ethereum. */ class Interface { public: /// Constructor. Interface() {} /// Destructor. virtual ~Interface() {} // [TRANSACTION API] /// Submits the given message-call transaction. virtual void submitTransaction(Secret _secret, u256 _value, Address _dest, bytes const& _data = bytes(), u256 _gas = 10000, u256 _gasPrice = 10 * szabo) = 0; /// Submits a new contract-creation transaction. /// @returns the new contract's address (assuming it all goes through). virtual Address submitTransaction(Secret _secret, u256 _endowment, bytes const& _init, u256 _gas = 10000, u256 _gasPrice = 10 * szabo) = 0; /// Blocks until all pending transactions have been processed. virtual void flushTransactions() = 0; /// Makes the given call. Nothing is recorded into the state. virtual ExecutionResult call(Secret _secret, u256 _value, Address _dest, bytes const& _data, u256 _gas, u256 _gasPrice, BlockNumber _blockNumber, FudgeFactor _ff = FudgeFactor::Strict) = 0; ExecutionResult call(Secret _secret, u256 _value, Address _dest, bytes const& _data = bytes(), u256 _gas = 10000, u256 _gasPrice = 10 * szabo, FudgeFactor _ff = FudgeFactor::Strict) { return call(_secret, _value, _dest, _data, _gas, _gasPrice, m_default, _ff); } /// Does the given creation. Nothing is recorded into the state. /// @returns the pair of the Address of the created contract together with its code. virtual ExecutionResult create(Secret _secret, u256 _value, bytes const& _data, u256 _gas, u256 _gasPrice, BlockNumber _blockNumber, FudgeFactor _ff = FudgeFactor::Strict) = 0; ExecutionResult create(Secret _secret, u256 _value, bytes const& _data = bytes(), u256 _gas = 10000, u256 _gasPrice = 10 * szabo, FudgeFactor _ff = FudgeFactor::Strict) { return create(_secret, _value, _data, _gas, _gasPrice, m_default, _ff); } // [STATE-QUERY API] int getDefault() const { return m_default; } void setDefault(BlockNumber _block) { m_default = _block; } u256 balanceAt(Address _a) const { return balanceAt(_a, m_default); } u256 countAt(Address _a) const { return countAt(_a, m_default); } u256 stateAt(Address _a, u256 _l) const { return stateAt(_a, _l, m_default); } bytes codeAt(Address _a) const { return codeAt(_a, m_default); } std::map storageAt(Address _a) const { return storageAt(_a, m_default); } virtual u256 balanceAt(Address _a, BlockNumber _block) const = 0; virtual u256 countAt(Address _a, BlockNumber _block) const = 0; virtual u256 stateAt(Address _a, u256 _l, BlockNumber _block) const = 0; virtual bytes codeAt(Address _a, BlockNumber _block) const = 0; virtual std::map storageAt(Address _a, BlockNumber _block) const = 0; // [LOGS API] virtual LocalisedLogEntries logs(unsigned _watchId) const = 0; virtual LocalisedLogEntries logs(LogFilter const& _filter) const = 0; /// Install, uninstall and query watches. virtual unsigned installWatch(LogFilter const& _filter, Reaping _r = Reaping::Automatic) = 0; virtual unsigned installWatch(h256 _filterId, Reaping _r = Reaping::Automatic) = 0; virtual bool uninstallWatch(unsigned _watchId) = 0; LocalisedLogEntries peekWatchSafe(unsigned _watchId) const { try { return peekWatch(_watchId); } catch (...) { return LocalisedLogEntries(); } } LocalisedLogEntries checkWatchSafe(unsigned _watchId) { try { return checkWatch(_watchId); } catch (...) { return LocalisedLogEntries(); } } virtual LocalisedLogEntries peekWatch(unsigned _watchId) const = 0; virtual LocalisedLogEntries checkWatch(unsigned _watchId) = 0; // [BLOCK QUERY API] virtual Transaction transaction(h256 _transactionHash) const = 0; virtual h256 hashFromNumber(BlockNumber _number) const = 0; virtual BlockInfo blockInfo(h256 _hash) const = 0; virtual BlockDetails blockDetails(h256 _hash) const = 0; virtual Transaction transaction(h256 _blockHash, unsigned _i) const = 0; virtual BlockInfo uncle(h256 _blockHash, unsigned _i) const = 0; virtual UncleHashes uncleHashes(h256 _blockHash) const = 0; virtual unsigned transactionCount(h256 _blockHash) const = 0; virtual unsigned uncleCount(h256 _blockHash) const = 0; virtual Transactions transactions(h256 _blockHash) const = 0; virtual TransactionHashes transactionHashes(h256 _blockHash) const = 0; BlockInfo blockInfo(BlockNumber _block) const { return blockInfo(hashFromNumber(_block)); } BlockDetails blockDetails(BlockNumber _block) const { return blockDetails(hashFromNumber(_block)); } Transaction transaction(BlockNumber _block, unsigned _i) const { if (_block == PendingBlock) { auto p = pending(); return _i < p.size() ? p[_i] : Transaction(); } return transaction(hashFromNumber(_block)); } unsigned transactionCount(BlockNumber _block) const { if (_block == PendingBlock) { auto p = pending(); return p.size(); } return transactionCount(hashFromNumber(_block)); } Transactions transactions(BlockNumber _block) const { if (_block == PendingBlock) return pending(); return transactions(hashFromNumber(_block)); } TransactionHashes transactionHashes(BlockNumber _block) const { if (_block == PendingBlock) return pendingHashes(); return transactionHashes(hashFromNumber(_block)); } BlockInfo uncle(BlockNumber _block, unsigned _i) const { return uncle(hashFromNumber(_block), _i); } UncleHashes uncleHashes(BlockNumber _block) const { return uncleHashes(hashFromNumber(_block)); } unsigned uncleCount(BlockNumber _block) const { return uncleCount(hashFromNumber(_block)); } // [EXTRA API]: /// @returns The height of the chain. virtual unsigned number() const = 0; /// Get a map containing each of the pending transactions. /// @TODO: Remove in favour of transactions(). virtual Transactions pending() const = 0; virtual h256s pendingHashes() const = 0; /// Differences between transactions. StateDiff diff(unsigned _txi) const { return diff(_txi, m_default); } virtual StateDiff diff(unsigned _txi, h256 _block) const = 0; virtual StateDiff diff(unsigned _txi, BlockNumber _block) const = 0; /// Get a list of all active addresses. /// NOTE: This only works when compiled with ETH_FATDB; otherwise will throw InterfaceNotSupported. virtual Addresses addresses() const { return addresses(m_default); } virtual Addresses addresses(BlockNumber _block) const = 0; /// Get the remaining gas limit in this block. virtual u256 gasLimitRemaining() const = 0; // [MINING API]: /// Set the coinbase address. virtual void setAddress(Address _us) = 0; /// Get the coinbase address. virtual Address address() const = 0; /// Stops mining and sets the number of mining threads (0 for automatic). virtual void setMiningThreads(unsigned _threads = 0) = 0; /// Get the effective number of mining threads. virtual unsigned miningThreads() const = 0; /// Start mining. /// NOT thread-safe - call it & stopMining only from a single thread virtual void startMining() = 0; /// Stop mining. /// NOT thread-safe virtual void stopMining() = 0; /// Are we mining now? virtual bool isMining() = 0; /// Get hash of the current block to be mined minus the nonce (the 'work hash'). virtual std::pair getWork() = 0; /// Submit the nonce for the proof-of-work. virtual bool submitWork(ProofOfWork::Proof const& _proof) = 0; /// Check the progress of the mining. virtual MineProgress miningProgress() const = 0; protected: int m_default = PendingBlock; }; class Watch; } } namespace std { void swap(dev::eth::Watch& _a, dev::eth::Watch& _b); } namespace dev { namespace eth { class Watch: public boost::noncopyable { friend void std::swap(Watch& _a, Watch& _b); public: Watch() {} Watch(Interface& _c, h256 _f): m_c(&_c), m_id(_c.installWatch(_f)) {} Watch(Interface& _c, LogFilter const& _tf): m_c(&_c), m_id(_c.installWatch(_tf)) {} ~Watch() { if (m_c) m_c->uninstallWatch(m_id); } LocalisedLogEntries check() { return m_c ? m_c->checkWatch(m_id) : LocalisedLogEntries(); } LocalisedLogEntries peek() { return m_c ? m_c->peekWatch(m_id) : LocalisedLogEntries(); } LocalisedLogEntries logs() const { return m_c->logs(m_id); } private: Interface* m_c = nullptr; unsigned m_id = 0; }; } } namespace std { inline void swap(dev::eth::Watch& _a, dev::eth::Watch& _b) { swap(_a.m_c, _b.m_c); swap(_a.m_id, _b.m_id); } }