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/*
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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 Account.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 <libdevcore/Common.h>
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#include <libdevcore/RLP.h>
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#include <libdevcore/TrieDB.h>
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#include <libdevcore/SHA3.h>
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#include <libethcore/Common.h>
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namespace dev
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{
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namespace eth
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{
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/**
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* Models the state of a single Ethereum account.
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* Used to cache a portion of the full Ethereum state. State keeps a mapping of Address's to Accounts.
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*
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* Aside from storing the nonce and balance, the account may also be "dead" (where isAlive() returns false).
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* This allows State to explicitly store the notion of a deleted account in it's cache. kill() can be used
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* for this.
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*
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* For the account's storage, the class operates a cache. baseRoot() specifies the base state of the storage
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* given as the Trie root to be looked up in the state database. Alterations beyond this base are specified
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* in the overlay, stored in this class and retrieved with storageOverlay(). setStorage allows the overlay
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* to be altered.
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*
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* The code handling explicitly supports a two-stage commit model needed for contract-creation. When creating
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* a contract (running the initialisation code), the code of the account is considered empty. The attribute
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* of emptiness can be retrieved with codeBearing(). After initialisation one must set the code accordingly;
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* the code of the Account can be set with setCode(). To validate a setCode() call, this class records the
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* state of being in contract-creation (and thus in a state where setCode may validly be called). It can be
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* determined through isFreshCode().
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*
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* The code can be retrieved through code(), and its hash through codeHash(). codeHash() is only valid when
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* the account is not in the contract-creation phase (i.e. when isFreshCode() returns false). This class
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* supports populating code on-demand from the state database. To determine if the code has been prepopulated
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* call codeCacheValid(). To populate the code, look it up with codeHash() and populate with noteCode().
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*
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* @todo: need to make a noteCodeCommitted().
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*
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* The constructor allows you to create an one of a number of "types" of accounts. The default constructor
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* makes a dead account (this is ignored by State when writing out the Trie). Another three allow a basic
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* or contract account to be specified along with an initial balance. The fina two allow either a basic or
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* a contract account to be created with arbitrary values.
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*/
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class Account
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{
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public:
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/// Type of account to create.
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enum NewAccountType
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{
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/// Normal account.
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NormalCreation,
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/// Contract account - we place this object into the contract-creation state (and as such we
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/// expect setCode(), but codeHash() won't work).
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ContractConception
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};
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/// Changedness of account to create.
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enum Changedness
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{
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/// Account starts as though it has been changed.
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Changed,
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/// Account starts as though it has not been changed.
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Unchanged
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};
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/// Construct a dead Account.
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Account() {}
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/// Construct an alive Account, with given endowment, for either a normal (non-contract) account or for a
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/// contract account in the
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/// conception phase, where the code is not yet known.
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Account(u256 _balance, NewAccountType _t, Changedness _c = Changed): m_isAlive(true), m_isUnchanged(_c == Unchanged), m_balance(_balance), m_codeHash(_t == NormalCreation ? EmptySHA3 : c_contractConceptionCodeHash) {}
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/// Explicit constructor for wierd cases of construction of a normal account.
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Account(u256 _nonce, u256 _balance, Changedness _c = Changed): m_isAlive(true), m_isUnchanged(_c == Unchanged), m_nonce(_nonce), m_balance(_balance) {}
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/// Explicit constructor for wierd cases of construction or a contract account.
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Account(u256 _nonce, u256 _balance, h256 _contractRoot, h256 _codeHash, Changedness _c): m_isAlive(true), m_isUnchanged(_c == Unchanged), m_nonce(_nonce), m_balance(_balance), m_storageRoot(_contractRoot), m_codeHash(_codeHash) { assert(_contractRoot); }
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/// Kill this account. Useful for the suicide opcode. Following this call, isAlive() returns false.
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void kill() { m_isAlive = false; m_storageOverlay.clear(); m_codeHash = EmptySHA3; m_storageRoot = EmptyTrie; m_balance = 0; m_nonce = 0; changed(); }
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/// @returns true iff this object represents an account in the state. Returns false if this object
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/// represents an account that should no longer exist in the trie (an account that never existed or was
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/// suicided).
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bool isAlive() const { return m_isAlive; }
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/// @returns true if the account is unchanged from creation.
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bool isDirty() const { return !m_isUnchanged; }
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/// @returns the balance of this account. Can be altered in place.
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u256& balance() { return m_balance; }
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/// @returns the balance of this account.
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u256 const& balance() const { return m_balance; }
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/// Increments the balance of this account by the given amount. It's a bigint, so can be negative.
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void addBalance(bigint _i) { if (!_i) return; m_balance = (u256)((bigint)m_balance + _i); changed(); }
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/// @returns the nonce of the account. Can be altered in place.
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u256& nonce() { return m_nonce; }
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/// @returns the nonce of the account.
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u256 const& nonce() const { return m_nonce; }
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/// Increment the nonce of the account by one.
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void incNonce() { m_nonce++; changed(); }
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/// @returns the root of the trie (whose nodes are stored in the state db externally to this class)
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/// which encodes the base-state of the account's storage (upon which the storage is overlaid).
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h256 baseRoot() const { assert(m_storageRoot); return m_storageRoot; }
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/// @returns the storage overlay as a simple hash map.
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std::unordered_map<u256, u256> const& storageOverlay() const { return m_storageOverlay; }
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/// Set a key/value pair in the account's storage. This actually goes into the overlay, for committing
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/// to the trie later.
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void setStorage(u256 _p, u256 _v) { m_storageOverlay[_p] = _v; changed(); }
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/// @returns true if we are in the contract-conception state and setCode is valid to call.
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bool isFreshCode() const { return m_codeHash == c_contractConceptionCodeHash; }
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/// @returns true if we are either in the contract-conception state or if the account's code is not
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/// empty.
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bool codeBearing() const { return m_codeHash != EmptySHA3; }
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/// @returns the hash of the account's code. Must only be called when isFreshCode() returns false.
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h256 codeHash() const { assert(!isFreshCode()); return m_codeHash; }
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/// Sets the code of the account. Must only be called when isFreshCode() returns true.
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void setCode(bytes&& _code) { assert(isFreshCode()); m_codeCache = std::move(_code); changed(); }
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/// @returns true if the account's code is available through code().
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bool codeCacheValid() const { return m_codeHash == EmptySHA3 || m_codeHash == c_contractConceptionCodeHash || m_codeCache.size(); }
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/// Specify to the object what the actual code is for the account. @a _code must have a SHA3 equal to
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/// codeHash() and must only be called when isFreshCode() returns false.
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void noteCode(bytesConstRef _code) { assert(sha3(_code) == m_codeHash); m_codeCache = _code.toBytes(); }
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/// @returns the account's code. Must only be called when codeCacheValid returns true.
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bytes const& code() const { assert(codeCacheValid()); return m_codeCache; }
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private:
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/// Note that we've altered the account.
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void changed() { m_isUnchanged = false; }
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/// Is this account existant? If not, it represents a deleted account.
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bool m_isAlive = false;
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/// True if we've not made any alteration to the account having been given it's properties directly.
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bool m_isUnchanged = false;
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/// Account's nonce.
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u256 m_nonce = 0;
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/// Account's balance.
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u256 m_balance = 0;
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/// The base storage root. Used with the state DB to give a base to the storage. m_storageOverlay is
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/// overlaid on this and takes precedence for all values set.
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h256 m_storageRoot = EmptyTrie;
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/** If c_contractConceptionCodeHash then we're in the limbo where we're running the initialisation code.
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* We expect a setCode() at some point later.
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* If EmptySHA3, then m_code, which should be empty, is valid.
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* If anything else, then m_code is valid iff it's not empty, otherwise, State::ensureCached() needs to
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* be called with the correct args.
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*/
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h256 m_codeHash = EmptySHA3;
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/// The map with is overlaid onto whatever storage is implied by the m_storageRoot in the trie.
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std::unordered_map<u256, u256> m_storageOverlay;
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/// The associated code for this account. The SHA3 of this should be equal to m_codeHash unless m_codeHash
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/// equals c_contractConceptionCodeHash.
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bytes m_codeCache;
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/// Value for m_codeHash when this account is having its code determined.
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static const h256 c_contractConceptionCodeHash;
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};
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class AccountMask
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{
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public:
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AccountMask(bool _all = false):
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m_hasBalance(_all),
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m_hasNonce(_all),
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m_hasCode(_all),
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m_hasStorage(_all)
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{}
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AccountMask(
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bool _hasBalance,
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bool _hasNonce,
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bool _hasCode,
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bool _hasStorage
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):
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m_hasBalance(_hasBalance),
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m_hasNonce(_hasNonce),
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m_hasCode(_hasCode),
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m_hasStorage(_hasStorage)
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{}
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bool allSet() const { return m_hasBalance && m_hasNonce && m_hasCode && m_hasStorage; }
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bool hasBalance() const { return m_hasBalance; }
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bool hasNonce() const { return m_hasNonce; }
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bool hasCode() const { return m_hasCode; }
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bool hasStorage() const { return m_hasStorage; }
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private:
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bool m_hasBalance;
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bool m_hasNonce;
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bool m_hasCode;
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bool m_hasStorage;
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};
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using AccountMap = std::unordered_map<Address, Account>;
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using AccountMaskMap = std::unordered_map<Address, AccountMask>;
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AccountMap jsonToAccountMap(std::string const& _json, AccountMaskMap* o_mask = nullptr);
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}
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}
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