/*
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 State.h
* @author Gav Wood
* @date 2014
*/
#pragma once
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include "Account.h"
#include "Transaction.h"
#include "TransactionReceipt.h"
#include "AccountDiff.h"
#include "GasPricer.h"
namespace dev
{
namespace test { class ImportTest; class StateLoader; }
namespace eth
{
// Import-specific errinfos
using errinfo_uncleIndex = boost::error_info;
using errinfo_currentNumber = boost::error_info;
using errinfo_uncleNumber = boost::error_info;
using errinfo_unclesExcluded = boost::error_info;
using errinfo_block = boost::error_info;
using errinfo_now = boost::error_info;
using errinfo_transactionIndex = boost::error_info;
using errinfo_vmtrace = boost::error_info;
using errinfo_receipts = boost::error_info>;
using errinfo_transaction = boost::error_info;
using errinfo_phase = boost::error_info;
using errinfo_required_LogBloom = boost::error_info;
using errinfo_got_LogBloom = boost::error_info;
using LogBloomRequirementError = boost::tuple;
class BlockChain;
class State;
class TransactionQueue;
struct VerifiedBlockRef;
struct StateChat: public LogChannel { static const char* name(); static const int verbosity = 4; };
struct StateTrace: public LogChannel { static const char* name(); static const int verbosity = 5; };
struct StateDetail: public LogChannel { static const char* name(); static const int verbosity = 14; };
struct StateSafeExceptions: public LogChannel { static const char* name(); static const int verbosity = 21; };
enum class BaseState
{
PreExisting,
Empty
};
enum class Permanence
{
Reverted,
Committed
};
/**
* @brief Model of an Ethereum state, essentially a facade for the trie.
* Allows you to query the state of accounts, and has built-in caching for various aspects of the
* state.
*/
class State
{
friend class ExtVM;
friend class dev::test::ImportTest;
friend class dev::test::StateLoader;
friend class Executive;
friend class BlockChain;
public:
/// Default constructor; creates with a blank database prepopulated with the genesis block.
State(): State(OverlayDB(), BaseState::Empty) {}
/// Basic state object from database.
/// Use the default when you already have a database and you just want to make a State object
/// which uses it. If you have no preexisting database then set BaseState to something other
/// than BaseState::PreExisting in order to prepopulate the Trie.
/// You can also set the coinbase address.
explicit State(OverlayDB const& _db, BaseState _bs = BaseState::PreExisting);
/// Copy state object.
State(State const& _s);
/// Copy state object.
State& operator=(State const& _s);
/// Open a DB - useful for passing into the constructor & keeping for other states that are necessary.
static OverlayDB openDB(std::string const& _path, h256 const& _genesisHash, WithExisting _we = WithExisting::Trust);
static OverlayDB openDB(h256 const& _genesisHash, WithExisting _we = WithExisting::Trust) { return openDB(std::string(), _genesisHash, _we); }
OverlayDB const& db() const { return m_db; }
OverlayDB& db() { return m_db; }
/// Populate the state from the given AccountMap. Just uses dev::eth::commit().
void populateFrom(AccountMap const& _map);
/// @returns the set containing all addresses currently in use in Ethereum.
/// @warning This is slowslowslow. Don't use it unless you want to lock the object for seconds or minutes at a time.
/// @throws InterfaceNotSupported if compiled without ETH_FATDB.
std::unordered_map addresses() const;
/// Execute a given transaction.
/// This will change the state accordingly.
std::pair execute(EnvInfo const& _envInfo, Transaction const& _t, Permanence _p = Permanence::Committed, OnOpFunc const& _onOp = OnOpFunc());
/// Check if the address is in use.
bool addressInUse(Address const& _address) const;
/// Check if the address contains executable code.
bool addressHasCode(Address const& _address) const;
/// Get an account's balance.
/// @returns 0 if the address has never been used.
u256 balance(Address const& _id) const;
/// Add some amount to balance.
/// Will initialise the address if it has never been used.
void addBalance(Address const& _id, u256 const& _amount);
/** Subtract some amount from balance.
* @throws NotEnoughCash if balance of @a _id is less than @a _value (or has never been used).
* @note We use bigint here as we don't want any accidental problems with negative numbers.
*/
void subBalance(Address const& _id, bigint const& _value);
/**
* @brief Transfers "the balance @a _value between two accounts.
* @param _from Account from which @a _value will be deducted.
* @param _to Account to which @a _value will be added.
* @param _value Amount to be transferred.
*/
void transferBalance(Address const& _from, Address const& _to, u256 const& _value) { subBalance(_from, _value); addBalance(_to, _value); }
/// Get the root of the storage of an account.
h256 storageRoot(Address const& _contract) const;
/// Get the value of a storage position of an account.
/// @returns 0 if no account exists at that address.
u256 storage(Address const& _contract, u256 const& _memory) const;
/// Set the value of a storage position of an account.
void setStorage(Address const& _contract, u256 const& _location, u256 const& _value) { m_cache[_contract].setStorage(_location, _value); }
/// Create a new contract.
Address newContract(u256 const& _balance, bytes const& _code);
/// Get the storage of an account.
/// @note This is expensive. Don't use it unless you need to.
/// @returns std::unordered_map if no account exists at that address.
std::unordered_map storage(Address const& _contract) const;
/// Get the code of an account.
/// @returns bytes() if no account exists at that address.
bytes const& code(Address const& _contract) const;
/// Get the code hash of an account.
/// @returns EmptySHA3 if no account exists at that address or if there is no code associated with the address.
h256 codeHash(Address const& _contract) const;
/// Note that the given address is sending a transaction and thus increment the associated ticker.
void noteSending(Address const& _id);
/// Get the number of transactions a particular address has sent (used for the transaction nonce).
/// @returns 0 if the address has never been used.
u256 transactionsFrom(Address const& _address) const;
/// The hash of the root of our state tree.
h256 rootHash() const { return m_state.root(); }
/// @return the difference between this state (origin) and @a _c (destination).
/// @param _quick if true doesn't check all addresses possible (/very/ slow for a full chain)
/// but rather only those touched by the transactions in creating the two States.
StateDiff diff(State const& _c, bool _quick = false) const;
/// Commit all changes waiting in the address cache to the DB.
void commit();
/// Resets any uncommitted changes to the cache.
void setRoot(h256 const& _root);
private:
/// Retrieve all information about a given address into the cache.
/// If _requireMemory is true, grab the full memory should it be a contract item.
/// If _forceCreate is true, then insert a default item into the cache, in the case it doesn't
/// exist in the DB.
void ensureCached(Address const& _a, bool _requireCode, bool _forceCreate) const;
/// Retrieve all information about a given address into a cache.
void ensureCached(std::unordered_map& _cache, Address const& _a, bool _requireCode, bool _forceCreate) const;
/// Debugging only. Good for checking the Trie is in shape.
bool isTrieGood(bool _enforceRefs, bool _requireNoLeftOvers) const;
/// Debugging only. Good for checking the Trie is in shape.
void paranoia(std::string const& _when, bool _enforceRefs = false) const;
OverlayDB m_db; ///< Our overlay for the state tree.
SecureTrieDB m_state; ///< Our state tree, as an OverlayDB DB.
mutable std::unordered_map m_cache; ///< Our address cache. This stores the states of each address that has (or at least might have) been changed.
AddressHash m_touched; ///< Tracks all addresses touched so far.
static std::string c_defaultPath;
friend std::ostream& operator<<(std::ostream& _out, State const& _s);
};
std::ostream& operator<<(std::ostream& _out, State const& _s);
template
AddressHash commit(AccountMap const& _cache, SecureTrieDB& _state)
{
AddressHash ret;
for (auto const& i: _cache)
if (i.second.isDirty())
{
if (!i.second.isAlive())
_state.remove(i.first);
else
{
RLPStream s(4);
s << i.second.nonce() << i.second.balance();
if (i.second.storageOverlay().empty())
{
assert(i.second.baseRoot());
s.append(i.second.baseRoot());
}
else
{
SecureTrieDB storageDB(_state.db(), i.second.baseRoot());
for (auto const& j: i.second.storageOverlay())
if (j.second)
storageDB.insert(j.first, rlp(j.second));
else
storageDB.remove(j.first);
assert(storageDB.root());
s.append(storageDB.root());
}
if (i.second.isFreshCode())
{
h256 ch = sha3(i.second.code());
_state.db()->insert(ch, &i.second.code());
s << ch;
}
else
s << i.second.codeHash();
_state.insert(i.first, &s.out());
}
ret.insert(i.first);
}
return ret;
}
}
}