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/*
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 <http://www.gnu.org/licenses/>.
*/
/** @file BlockInfo.h
* @author Gav Wood <i@gavwood.com>
* @date 2014
*/
#pragma once
#include <libdevcore/Common.h>
#include <libdevcore/RLP.h>
#include "Common.h"
namespace dev
{
namespace eth
{
enum IncludeNonce
{
WithoutNonce = 0,
WithNonce = 1
};
enum Strictness
{
CheckEverything,
IgnoreNonce,
CheckNothing
};
/** @brief Encapsulation of a block header.
* Class to contain all of a block header's data. It is able to parse a block header and populate
* from some given RLP block serialisation with the static fromHeader(), through the method
* populateFromHeader(). This will conduct a minimal level of verification. In this case extra
* verification can be performed through verifyInternals() and verifyParent().
*
* The object may also be populated from an entire block through the explicit
* constructor BlockInfo(bytesConstRef) and manually with the populate() method. These will
* conduct verification of the header against the other information in the block.
*
* The object may be populated with a template given a parent BlockInfo object with the
* populateFromParent() method. The genesis block info may be retrieved with genesis() and the
* corresponding RLP block created with createGenesisBlock().
*
* The difficulty and gas-limit derivations may be calculated with the calculateDifficulty()
* and calculateGasLimit() and the object serialised to RLP with streamRLP. To determine the
* header hash without the nonce (for mining), the method headerHash(WithoutNonce) is provided.
*
* The default constructor creates an empty object, which can be tested against with the boolean
* conversion operator.
*/
struct BlockInfo
{
public:
// TODO: make them all private!
h256 parentHash;
h256 sha3Uncles;
Address coinbaseAddress;
h256 stateRoot;
h256 transactionsRoot;
h256 receiptsRoot;
LogBloom logBloom;
u256 difficulty;
u256 number;
u256 gasLimit;
u256 gasUsed;
u256 timestamp = Invalid256;
bytes extraData;
h256 mixHash;
Nonce nonce;
BlockInfo();
explicit BlockInfo(bytes const& _block, Strictness _s = IgnoreNonce, h256 const& _h = h256()): BlockInfo(&_block, _s, _h) {}
explicit BlockInfo(bytesConstRef _block, Strictness _s = IgnoreNonce, h256 const& _h = h256());
static h256 headerHash(bytes const& _block) { return headerHash(&_block); }
static h256 headerHash(bytesConstRef _block);
static BlockInfo fromHeader(bytes const& _header, Strictness _s = IgnoreNonce, h256 const& _h = h256()) { return fromHeader(bytesConstRef(&_header), _s, _h); }
static BlockInfo fromHeader(bytesConstRef _header, Strictness _s = IgnoreNonce, h256 const& _h = h256());
explicit operator bool() const { return timestamp != Invalid256; }
bool operator==(BlockInfo const& _cmp) const
{
return parentHash == _cmp.parentHash &&
sha3Uncles == _cmp.sha3Uncles &&
coinbaseAddress == _cmp.coinbaseAddress &&
stateRoot == _cmp.stateRoot &&
transactionsRoot == _cmp.transactionsRoot &&
receiptsRoot == _cmp.receiptsRoot &&
logBloom == _cmp.logBloom &&
difficulty == _cmp.difficulty &&
number == _cmp.number &&
gasLimit == _cmp.gasLimit &&
gasUsed == _cmp.gasUsed &&
timestamp == _cmp.timestamp &&
extraData == _cmp.extraData &&
mixHash == _cmp.mixHash &&
nonce == _cmp.nonce;
}
bool operator!=(BlockInfo const& _cmp) const { return !operator==(_cmp); }
void clear();
void noteDirty() const { m_hash = m_seedHash = h256(); }
void populateFromHeader(RLP const& _header, Strictness _s = IgnoreNonce, h256 const& _h = h256());
void populate(bytesConstRef _block, Strictness _s = IgnoreNonce, h256 const& _h = h256());
void populate(bytes const& _block, Strictness _s = IgnoreNonce, h256 const& _h = h256()) { populate(&_block, _s, _h); }
void verifyInternals(bytesConstRef _block) const;
void verifyParent(BlockInfo const& _parent) const;
void populateFromParent(BlockInfo const& parent);
u256 calculateDifficulty(BlockInfo const& _parent) const;
u256 selectGasLimit(BlockInfo const& _parent) const;
h256 const& seedHash() const;
h256 const& hash() const;
/// sha3 of the header only.
h256 headerHash(IncludeNonce _n) const;
void streamRLP(RLPStream& _s, IncludeNonce _n) const;
private:
mutable h256 m_seedHash;
mutable h256 m_hash; ///< SHA3 hash of the block header! Not serialised.
};
inline std::ostream& operator<<(std::ostream& _out, BlockInfo const& _bi)
{
_out << _bi.hash() << " " << _bi.parentHash << " " << _bi.sha3Uncles << " " << _bi.coinbaseAddress << " " << _bi.stateRoot << " " << _bi.transactionsRoot << " " <<
_bi.receiptsRoot << " " << _bi.logBloom << " " << _bi.difficulty << " " << _bi.number << " " << _bi.gasLimit << " " <<
_bi.gasUsed << " " << _bi.timestamp << " " << _bi.mixHash << " " << _bi.nonce << " (" << _bi.seedHash() << ")";
return _out;
}
}
}