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381 lines
15 KiB
381 lines
15 KiB
/*
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This file is part of cpp-ethereum.
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cpp-ethereum is free software: you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation, either version 3 of the License, or
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(at your option) any later version.
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cpp-ethereum is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with cpp-ethereum. If not, see <http://www.gnu.org/licenses/>.
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*/
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/** @file State.h
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* @author Gav Wood <i@gavwood.com>
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* @date 2014
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*/
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#pragma once
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#include <array>
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#include <map>
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#include <unordered_map>
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#include <libdevcore/Common.h>
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#include <libdevcore/RLP.h>
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#include <libdevcrypto/TrieDB.h>
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#include <libethcore/Exceptions.h>
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#include <libethcore/BlockInfo.h>
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#include <libethcore/ProofOfWork.h>
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#include <libevm/FeeStructure.h>
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#include <libevm/ExtVMFace.h>
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#include "TransactionQueue.h"
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#include "Account.h"
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#include "Transaction.h"
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#include "TransactionReceipt.h"
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#include "Executive.h"
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#include "AccountDiff.h"
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namespace dev
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{
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namespace test { class ImportTest; }
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namespace eth
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{
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class BlockChain;
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struct StateChat: public LogChannel { static const char* name() { return "-S-"; } static const int verbosity = 4; };
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struct StateTrace: public LogChannel { static const char* name() { return "=S="; } static const int verbosity = 7; };
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struct StateDetail: public LogChannel { static const char* name() { return "/S/"; } static const int verbosity = 14; };
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struct PrecompiledAddress
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{
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unsigned gas;
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std::function<void(bytesConstRef, bytesRef)> exec;
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};
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/**
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* @brief Model of the current state of the ledger.
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* Maintains current ledger (m_current) as a fast hash-map. This is hashed only when required (i.e. to create or verify a block).
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* Should maintain ledger as of last N blocks, also, in case we end up on the wrong branch.
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*/
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class State
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{
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friend class ExtVM;
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friend class dev::test::ImportTest;
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friend class Executive;
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public:
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/// Construct state object.
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State(Address _coinbaseAddress = Address(), OverlayDB const& _db = OverlayDB());
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/// Construct state object from arbitrary point in blockchain.
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State(OverlayDB const& _db, BlockChain const& _bc, h256 _hash);
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/// Copy state object.
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State(State const& _s);
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/// Copy state object.
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State& operator=(State const& _s);
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~State();
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/// Set the coinbase address for any transactions we do.
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/// This causes a complete reset of current block.
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void setAddress(Address _coinbaseAddress) { m_ourAddress = _coinbaseAddress; resetCurrent(); }
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Address address() const { return m_ourAddress; }
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/// Open a DB - useful for passing into the constructor & keeping for other states that are necessary.
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static OverlayDB openDB(std::string _path, bool _killExisting = false);
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static OverlayDB openDB(bool _killExisting = false) { return openDB(std::string(), _killExisting); }
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OverlayDB const& db() const { return m_db; }
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/// @returns the set containing all addresses currently in use in Ethereum.
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std::map<Address, u256> addresses() const;
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/// @returns the address b such that b > @a _a .
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Address nextActiveAddress(Address _a) const;
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/// Get the header information on the present block.
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BlockInfo const& info() const { return m_currentBlock; }
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/// @brief Checks that mining the current object will result in a valid block.
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/// Effectively attempts to import the serialised block.
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/// @returns true if all is ok. If it's false, worry.
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bool amIJustParanoid(BlockChain const& _bc);
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/// Prepares the current state for mining.
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/// Commits all transactions into the trie, compiles uncles and transactions list, applies all
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/// rewards and populates the current block header with the appropriate hashes.
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/// The only thing left to do after this is to actually mine().
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///
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/// This may be called multiple times and without issue.
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void commitToMine(BlockChain const& _bc);
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/// Attempt to find valid nonce for block that this state represents.
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/// This function is thread-safe. You can safely have other interactions with this object while it is happening.
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/// @param _msTimeout Timeout before return in milliseconds.
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/// @returns Information on the mining.
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MineInfo mine(unsigned _msTimeout = 1000, bool _turbo = false);
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/** Commit to DB and build the final block if the previous call to mine()'s result is completion.
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* Typically looks like:
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* @code
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* // lock
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* commitToMine(blockchain);
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* // unlock
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* MineInfo info;
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* for (info.complete = false; !info.complete; info = mine()) {}
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* // lock
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* completeMine();
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* // unlock
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* @endcode
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*/
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void completeMine();
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/// Get the complete current block, including valid nonce.
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/// Only valid after mine() returns true.
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bytes const& blockData() const { return m_currentBytes; }
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// TODO: Cleaner interface.
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/// Sync our transactions, killing those from the queue that we have and assimilating those that we don't.
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/// @returns a list of bloom filters one for each transaction placed from the queue into the state.
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/// @a o_transactionQueueChanged boolean pointer, the value of which will be set to true if the transaction queue
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/// changed and the pointer is non-null
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h256s sync(TransactionQueue& _tq, bool* o_transactionQueueChanged = nullptr);
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/// Like sync but only operate on _tq, killing the invalid/old ones.
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bool cull(TransactionQueue& _tq) const;
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/// Execute a given transaction.
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/// This will append @a _t to the transaction list and change the state accordingly.
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u256 execute(bytes const& _rlp, bytes* o_output = nullptr, bool _commit = true) { return execute(&_rlp, o_output, _commit); }
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u256 execute(bytesConstRef _rlp, bytes* o_output = nullptr, bool _commit = true);
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/// Get the remaining gas limit in this block.
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u256 gasLimitRemaining() const { return m_currentBlock.gasLimit - gasUsed(); }
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/// Check if the address is in use.
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bool addressInUse(Address _address) const;
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/// Check if the address contains executable code.
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bool addressHasCode(Address _address) const;
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/// Get an account's balance.
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/// @returns 0 if the address has never been used.
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u256 balance(Address _id) const;
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/// Add some amount to balance.
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/// Will initialise the address if it has never been used.
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void addBalance(Address _id, u256 _amount);
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/** Subtract some amount from balance.
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* @throws NotEnoughCash if balance of @a _id is less than @a _value (or has never been used).
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* @note We use bigint here as we don't want any accidental problems with negative numbers.
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*/
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void subBalance(Address _id, bigint _value);
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/// Get the root of the storage of an account.
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h256 storageRoot(Address _contract) const;
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/// Get the value of a storage position of an account.
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/// @returns 0 if no account exists at that address.
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u256 storage(Address _contract, u256 _memory) const;
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/// Set the value of a storage position of an account.
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void setStorage(Address _contract, u256 _location, u256 _value) { m_cache[_contract].setStorage(_location, _value); }
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/// Get the storage of an account.
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/// @note This is expensive. Don't use it unless you need to.
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/// @returns std::map<u256, u256> if no account exists at that address.
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std::map<u256, u256> storage(Address _contract) const;
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/// Get the code of an account.
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/// @returns bytes() if no account exists at that address.
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bytes const& code(Address _contract) const;
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/// Note that the given address is sending a transaction and thus increment the associated ticker.
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void noteSending(Address _id);
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/// Get the number of transactions a particular address has sent (used for the transaction nonce).
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/// @returns 0 if the address has never been used.
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u256 transactionsFrom(Address _address) const;
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/// The hash of the root of our state tree.
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h256 rootHash() const { return m_state.root(); }
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/// Get the list of pending transactions.
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Transactions const& pending() const { return m_transactions; }
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/// Get the list of pending transactions. TODO: PoC-7: KILL
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Manifest changesFromPending(unsigned _i) const { return m_receipts[_i].changes(); }
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/// Get the bloom filter of all changes happened in the block. TODO: PoC-7: KILL
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h256 oldBloom() const;
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/// Get the bloom filter of a particular transaction that happened in the block. TODO: PoC-7: KILL
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h256 oldBloom(unsigned _i) const { return m_receipts[_i].changes().bloom(); }
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/// Get the transaction receipt for the transaction of the given index.
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TransactionReceipt const& receipt(unsigned _i) const { return m_receipts[_i]; }
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/// Get the list of pending transactions.
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LogEntries const& log(unsigned _i) const { return m_receipts[_i].log(); }
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/// Get the bloom filter of all logs that happened in the block.
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LogBloom logBloom() const;
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/// Get the bloom filter of a particular transaction that happened in the block.
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LogBloom const& logBloom(unsigned _i) const { return m_receipts[_i].bloom(); }
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/// Get the State immediately after the given number of pending transactions have been applied.
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/// If (_i == 0) returns the initial state of the block.
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/// If (_i == pending().size()) returns the final state of the block, prior to rewards.
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State fromPending(unsigned _i) const;
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/// @returns the StateDiff caused by the pending transaction of index @a _i.
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StateDiff pendingDiff(unsigned _i) const { return fromPending(_i).diff(fromPending(_i + 1)); }
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/// @return the difference between this state (origin) and @a _c (destination).
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StateDiff diff(State const& _c) const;
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/// Sync our state with the block chain.
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/// This basically involves wiping ourselves if we've been superceded and rebuilding from the transaction queue.
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bool sync(BlockChain const& _bc);
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/// Sync with the block chain, but rather than synching to the latest block, instead sync to the given block.
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bool sync(BlockChain const& _bc, h256 _blockHash, BlockInfo const& _bi = BlockInfo());
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/// Execute all transactions within a given block.
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/// @returns the additional total difficulty.
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u256 enactOn(bytesConstRef _block, BlockInfo const& _bi, BlockChain const& _bc);
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/// Returns back to a pristine state after having done a playback.
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/// @arg _fullCommit if true flush everything out to disk. If false, this effectively only validates
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/// the block since all state changes are ultimately reversed.
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void cleanup(bool _fullCommit);
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private:
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/// Undo the changes to the state for committing to mine.
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void uncommitToMine();
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/// Retrieve all information about a given address into the cache.
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/// If _requireMemory is true, grab the full memory should it be a contract item.
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/// If _forceCreate is true, then insert a default item into the cache, in the case it doesn't
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/// exist in the DB.
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void ensureCached(Address _a, bool _requireCode, bool _forceCreate) const;
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/// Retrieve all information about a given address into a cache.
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void ensureCached(std::map<Address, Account>& _cache, Address _a, bool _requireCode, bool _forceCreate) const;
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/// Commit all changes waiting in the address cache to the DB.
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void commit();
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/// Execute the given block, assuming it corresponds to m_currentBlock. If _bc is passed, it will be used to check the uncles.
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/// Throws on failure.
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u256 enact(bytesConstRef _block, BlockChain const* _bc = nullptr, bool _checkNonce = true);
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// Two priviledged entry points for the VM (these don't get added to the Transaction lists):
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// We assume all instrinsic fees are paid up before this point.
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/// Execute a contract-creation transaction.
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h160 create(Address _txSender, u256 _endowment, u256 _gasPrice, u256* _gas, bytesConstRef _code, Address _originAddress = Address(), SubState* o_sub = nullptr, Manifest* o_ms = nullptr, OnOpFunc const& _onOp = OnOpFunc(), unsigned _level = 0);
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/// Execute a call.
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/// @a _gas points to the amount of gas to use for the call, and will lower it accordingly.
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/// @returns false if the call ran out of gas before completion. true otherwise.
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bool call(Address _myAddress, Address _codeAddress, Address _txSender, u256 _txValue, u256 _gasPrice, bytesConstRef _txData, u256* _gas, bytesRef _out, Address _originAddress = Address(), SubState* o_sub = nullptr, Manifest* o_ms = nullptr, OnOpFunc const& _onOp = OnOpFunc(), unsigned _level = 0);
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/// Sets m_currentBlock to a clean state, (i.e. no change from m_previousBlock).
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void resetCurrent();
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/// Finalise the block, applying the earned rewards.
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void applyRewards(Addresses const& _uncleAddresses);
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void refreshManifest(RLPStream* _txs = nullptr);
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/// @returns gas used by transactions thus far executed.
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u256 gasUsed() const { return m_receipts.size() ? m_receipts.back().gasUsed() : 0; }
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bool isTrieGood(bool _enforceRefs, bool _requireNoLeftOvers) const;
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void paranoia(std::string const& _when, bool _enforceRefs = false) const;
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OverlayDB m_db; ///< Our overlay for the state tree.
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TrieDB<Address, OverlayDB> m_state; ///< Our state tree, as an OverlayDB DB.
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Transactions m_transactions; ///< The current list of transactions that we've included in the state.
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TransactionReceipts m_receipts; ///< The corresponding list of transaction receipts.
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std::set<h256> m_transactionSet; ///< The set of transaction hashes that we've included in the state.
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OverlayDB m_lastTx;
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mutable std::map<Address, Account> m_cache; ///< Our address cache. This stores the states of each address that has (or at least might have) been changed.
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BlockInfo m_previousBlock; ///< The previous block's information.
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BlockInfo m_currentBlock; ///< The current block's information.
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bytes m_currentBytes; ///< The current block.
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bytes m_currentTxs; ///< The RLP-encoded block of transactions.
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bytes m_currentUncles; ///< The RLP-encoded block of uncles.
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Address m_ourAddress; ///< Our address (i.e. the address to which fees go).
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ProofOfWork m_pow; ///< The PoW mining class.
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u256 m_blockReward;
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static std::string c_defaultPath;
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static const std::map<unsigned, PrecompiledAddress> c_precompiled;
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friend std::ostream& operator<<(std::ostream& _out, State const& _s);
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};
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std::ostream& operator<<(std::ostream& _out, State const& _s);
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template <class DB>
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void commit(std::map<Address, Account> const& _cache, DB& _db, TrieDB<Address, DB>& _state)
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{
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for (auto const& i: _cache)
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if (!i.second.isAlive())
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_state.remove(i.first);
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else
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{
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RLPStream s(4);
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s << i.second.nonce() << i.second.balance();
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if (i.second.storageOverlay().empty())
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{
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assert(i.second.baseRoot());
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s.append(i.second.baseRoot());
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}
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else
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{
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TrieDB<h256, DB> storageDB(&_db, i.second.baseRoot());
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for (auto const& j: i.second.storageOverlay())
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if (j.second)
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storageDB.insert(j.first, rlp(j.second));
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else
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storageDB.remove(j.first);
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assert(storageDB.root());
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s.append(storageDB.root());
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}
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if (i.second.isFreshCode())
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{
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h256 ch = sha3(i.second.code());
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_db.insert(ch, &i.second.code());
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s << ch;
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}
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else
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s << i.second.codeHash();
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_state.insert(i.first, &s.out());
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}
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}
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}
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}
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