/*
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 Client.h
* @ author Gav Wood < i @ gavwood . com >
* @ date 2014
*/
# pragma once
# include <thread>
# include <condition_variable>
# include <mutex>
# include <list>
# include <atomic>
# include <string>
# include <array>
# include <boost/utility.hpp>
# include <libdevcore/Common.h>
# include <libdevcore/CommonIO.h>
# include <libdevcore/Guards.h>
# include <libdevcore/Worker.h>
# include <libethcore/Params.h>
# include <libethcore/ABI.h>
# include <libethcore/Farm.h>
# include <libp2p/Common.h>
# include "CanonBlockChain.h"
# include "TransactionQueue.h"
# include "State.h"
# include "CommonNet.h"
# include "ClientBase.h"
namespace dev
{
namespace eth
{
class Client ;
class DownloadMan ;
enum ClientWorkState
{
Active = 0 ,
Deleting ,
Deleted
} ;
class VersionChecker
{
public :
VersionChecker ( std : : string const & _dbPath ) ;
void setOk ( ) ;
WithExisting action ( ) const { return m_action ; }
private :
WithExisting m_action ;
std : : string m_path ;
} ;
class BasicGasPricer : public GasPricer
{
public :
explicit BasicGasPricer ( u256 _weiPerRef , u256 _refsPerBlock ) : m_weiPerRef ( _weiPerRef ) , m_refsPerBlock ( _refsPerBlock ) { }
void setRefPrice ( u256 _weiPerRef ) { if ( ( bigint ) m_refsPerBlock * _weiPerRef > std : : numeric_limits < u256 > : : max ( ) ) BOOST_THROW_EXCEPTION ( Overflow ( ) < < errinfo_comment ( " ether price * block fees is larger than 2**256-1, choose a smaller number. " ) ) ; else m_weiPerRef = _weiPerRef ; }
void setRefBlockFees ( u256 _refsPerBlock ) { if ( ( bigint ) m_weiPerRef * _refsPerBlock > std : : numeric_limits < u256 > : : max ( ) ) BOOST_THROW_EXCEPTION ( Overflow ( ) < < errinfo_comment ( " ether price * block fees is larger than 2**256-1, choose a smaller number. " ) ) ; else m_refsPerBlock = _refsPerBlock ; }
u256 ask ( State const & ) const override { return m_weiPerRef * m_refsPerBlock / m_gasPerBlock ; }
u256 bid ( TransactionPriority _p = TransactionPriority : : Medium ) const override { return m_octiles [ ( int ) _p ] > 0 ? m_octiles [ ( int ) _p ] : ( m_weiPerRef * m_refsPerBlock / m_gasPerBlock ) ; }
void update ( BlockChain const & _bc ) override ;
private :
u256 m_weiPerRef ;
u256 m_refsPerBlock ;
u256 m_gasPerBlock = 3141592 ;
std : : array < u256 , 9 > m_octiles ;
} ;
struct ClientNote : public LogChannel { static const char * name ( ) ; static const int verbosity = 2 ; } ;
struct ClientChat : public LogChannel { static const char * name ( ) ; static const int verbosity = 4 ; } ;
struct ClientTrace : public LogChannel { static const char * name ( ) ; static const int verbosity = 7 ; } ;
struct ClientDetail : public LogChannel { static const char * name ( ) ; static const int verbosity = 14 ; } ;
struct ActivityReport
{
unsigned ticks = 0 ;
std : : chrono : : system_clock : : time_point since = std : : chrono : : system_clock : : now ( ) ;
} ;
std : : ostream & operator < < ( std : : ostream & _out , ActivityReport const & _r ) ;
/**
* @ brief Main API hub for interfacing with Ethereum .
*/
class Client : public ClientBase , Worker
{
public :
/// New-style Constructor.
explicit Client (
p2p : : Host * _host ,
std : : string const & _dbPath = std : : string ( ) ,
WithExisting _forceAction = WithExisting : : Trust ,
u256 _networkId = 0
) ;
explicit Client (
p2p : : Host * _host ,
std : : shared_ptr < GasPricer > _gpForAdoption , // pass it in with new.
std : : string const & _dbPath = std : : string ( ) ,
WithExisting _forceAction = WithExisting : : Trust ,
u256 _networkId = 0
) ;
/// Destructor.
virtual ~ Client ( ) ;
/// Resets the gas pricer to some other object.
void setGasPricer ( std : : shared_ptr < GasPricer > _gp ) { m_gp = _gp ; }
/// Blocks until all pending transactions have been processed.
virtual void flushTransactions ( ) override ;
using Interface : : call ; // to remove warning about hiding virtual function
/// Makes the given call. Nothing is recorded into the state. This cheats by creating a null address and endowing it with a lot of ETH.
ExecutionResult call ( Address _dest , bytes const & _data = bytes ( ) , u256 _gas = 125000 , u256 _value = 0 , u256 _gasPrice = 1 * ether , Address const & _from = Address ( ) ) ;
/// Get the remaining gas limit in this block.
virtual u256 gasLimitRemaining ( ) const { return m_postMine . gasLimitRemaining ( ) ; }
// [PRIVATE API - only relevant for base clients, not available in general]
dev : : eth : : State state ( unsigned _txi , h256 _block ) const ;
dev : : eth : : State state ( h256 _block ) const ;
dev : : eth : : State state ( unsigned _txi ) const ;
/// Get the object representing the current state of Ethereum.
dev : : eth : : State postState ( ) const { ReadGuard l ( x_postMine ) ; return m_postMine ; }
/// Get the object representing the current canonical blockchain.
CanonBlockChain const & blockChain ( ) const { return m_bc ; }
/// Get some information on the block queue.
BlockQueueStatus blockQueueStatus ( ) const { return m_bq . status ( ) ; }
// Mining stuff:
void setAddress ( Address _us ) { WriteGuard l ( x_preMine ) ; m_preMine . setAddress ( _us ) ; }
/// Check block validity prior to mining.
bool miningParanoia ( ) const { return m_paranoia ; }
/// Change whether we check block validity prior to mining.
void setParanoia ( bool _p ) { m_paranoia = _p ; }
/// Should we force mining to happen, even without transactions?
bool forceMining ( ) const { return m_forceMining ; }
/// Enable/disable forcing of mining to happen, even without transactions.
void setForceMining ( bool _enable ) ;
/// Are we allowed to GPU mine?
bool turboMining ( ) const { return m_turboMining ; }
/// Enable/disable GPU mining.
void setTurboMining ( bool _enable = true ) { m_turboMining = _enable ; if ( isMining ( ) ) startMining ( ) ; }
/// Start mining.
/// NOT thread-safe - call it & stopMining only from a single thread
void startMining ( ) override ;
/// Stop mining.
/// NOT thread-safe
void stopMining ( ) override { m_farm . stop ( ) ; }
/// Are we mining now?
bool isMining ( ) const override { return m_farm . isMining ( ) ; }
/// The hashrate...
uint64_t hashrate ( ) const override ;
/// Check the progress of the mining.
MiningProgress miningProgress ( ) const override ;
/// Get and clear the mining history.
std : : list < MineInfo > miningHistory ( ) ;
/// Update to the latest transactions and get hash of the current block to be mined minus the
/// nonce (the 'work hash') and the difficulty to be met.
virtual ProofOfWork : : WorkPackage getWork ( ) override ;
/** @brief Submit the proof for the proof-of-work.
* @ param _s A valid solution .
* @ return true if the solution was indeed valid and accepted .
*/
virtual bool submitWork ( ProofOfWork : : Solution const & _proof ) override ;
// Debug stuff:
DownloadMan const * downloadMan ( ) const ;
bool isSyncing ( ) const ;
/// Sets the network id.
void setNetworkId ( u256 _n ) ;
/// Clears pending transactions. Just for debug use.
void clearPending ( ) ;
/// Kills the blockchain. Just for debug use.
void killChain ( ) ;
/// Retries all blocks with unknown parents.
void retryUnkonwn ( ) { m_bq . retryAllUnknown ( ) ; }
/// Get a report of activity.
ActivityReport activityReport ( ) { ActivityReport ret ; std : : swap ( m_report , ret ) ; return ret ; }
protected :
/// InterfaceStub methods
virtual BlockChain & bc ( ) override { return m_bc ; }
virtual BlockChain const & bc ( ) const override { return m_bc ; }
/// Returns the state object for the full block (i.e. the terminal state) for index _h.
/// Works properly with LatestBlock and PendingBlock.
using ClientBase : : asOf ;
virtual State asOf ( h256 const & _block ) const override ;
virtual State preMine ( ) const override { ReadGuard l ( x_preMine ) ; return m_preMine ; }
virtual State postMine ( ) const override { ReadGuard l ( x_postMine ) ; return m_postMine ; }
virtual void prepareForTransaction ( ) override ;
/// Collate the changed filters for the bloom filter of the given pending transaction.
/// Insert any filters that are activated into @a o_changed.
void appendFromNewPending ( TransactionReceipt const & _receipt , h256Hash & io_changed , h256 _sha3 ) ;
/// Collate the changed filters for the hash of the given block.
/// Insert any filters that are activated into @a o_changed.
void appendFromNewBlock ( h256 const & _blockHash , h256Hash & io_changed ) ;
/// Record that the set of filters @a _filters have changed.
/// This doesn't actually make any callbacks, but incrememnts some counters in m_watches.
void noteChanged ( h256Hash const & _filters ) ;
private :
/// Called when Worker is starting.
void startedWorking ( ) override ;
/// Do some work. Handles blockchain maintenance and mining.
void doWork ( ) override ;
/// Called when Worker is exiting.
void doneWorking ( ) override ;
/// Magically called when the chain has changed. An import route is provided.
/// Called by either submitWork() or in our main thread through syncBlockQueue().
void onChainChanged ( ImportRoute const & _ir ) ;
/// Signal handler for when the block queue needs processing.
void syncBlockQueue ( ) ;
/// Signal handler for when the block queue needs processing.
void syncTransactionQueue ( ) ;
/// Magically called when m_tq needs syncing. Be nice and don't block.
void onTransactionQueueReady ( ) { m_syncTransactionQueue = true ; m_signalled . notify_all ( ) ; }
/// Magically called when m_tq needs syncing. Be nice and don't block.
void onBlockQueueReady ( ) { m_syncBlockQueue = true ; m_signalled . notify_all ( ) ; }
/// Called when the post state has changed (i.e. when more transactions are in it or we're mining on a new block).
/// This updates m_miningInfo.
void onPostStateChanged ( ) ;
/// Does garbage collection on watches.
void checkWatchGarbage ( ) ;
/// Ticks various system-level objects.
void tick ( ) ;
VersionChecker m_vc ; ///< Dummy object to check & update the protocol version.
CanonBlockChain m_bc ; ///< Maintains block database.
BlockQueue m_bq ; ///< Maintains a list of incoming blocks not yet on the blockchain (to be imported).
std : : shared_ptr < GasPricer > m_gp ; ///< The gas pricer.
OverlayDB m_stateDB ; ///< Acts as the central point for the state database, so multiple States can share it.
mutable SharedMutex x_preMine ; ///< Lock on m_preMine.
State m_preMine ; ///< The present state of the client.
mutable SharedMutex x_postMine ; ///< Lock on m_postMine.
State m_postMine ; ///< The state of the client which we're mining (i.e. it'll have all the rewards added).
mutable SharedMutex x_working ; ///< Lock on m_working.
State m_working ; ///< The state of the client which we're mining (i.e. it'll have all the rewards added), while we're actually working on it.
BlockInfo m_miningInfo ; ///< The header we're attempting to mine on (derived from m_postMine).
bool remoteActive ( ) const ; ///< Is there an active and valid remote worker?
bool m_remoteWorking = false ; ///< Has the remote worker recently been reset?
std : : chrono : : system_clock : : time_point m_lastGetWork = std : : chrono : : system_clock : : time_point : : min ( ) ; ///< Is there an active and valid remote worker?
std : : weak_ptr < EthereumHost > m_host ; ///< Our Ethereum Host. Don't do anything if we can't lock.
GenericFarm < ProofOfWork > m_farm ; ///< Our mining farm.
Handler m_tqReady ;
Handler m_bqReady ;
bool m_turboMining = false ; ///< Don't squander all of our time mining actually just sleeping.
bool m_forceMining = false ; ///< Mine even when there are no transactions pending?
bool m_paranoia = false ; ///< Should we be paranoid about our state?
mutable std : : chrono : : system_clock : : time_point m_lastGarbageCollection ;
///< When did we last both doing GC on the watches?
mutable std : : chrono : : system_clock : : time_point m_lastTick = std : : chrono : : system_clock : : now ( ) ;
///< When did we last tick()?
ActivityReport m_report ;
std : : condition_variable m_signalled ;
Mutex x_signalled ;
std : : atomic < bool > m_syncTransactionQueue = { false } ;
std : : atomic < bool > m_syncBlockQueue = { false } ;
} ;
}
}