Browse Source

Merge branch 'debris-1351_ClientBase' into develop

cl-refactor
Gav Wood 10 years ago
parent
commit
263dd51932
  1. 6
      libethereum/BlockChain.h
  2. 378
      libethereum/Client.cpp
  3. 135
      libethereum/Client.h
  4. 402
      libethereum/ClientBase.cpp
  5. 167
      libethereum/ClientBase.h
  6. 5
      libethereum/Interface.h
  7. 3
      libethereum/State.h
  8. 327
      mix/MixClient.cpp
  9. 72
      mix/MixClient.h

6
libethereum/BlockChain.h

@ -65,6 +65,7 @@ ldb::Slice toSlice(h256 _h, unsigned _sub = 0);
using BlocksHash = std::map<h256, bytes>;
using TransactionHashes = h256s;
using UncleHashes = h256s;
enum {
ExtraDetails = 0,
@ -130,7 +131,10 @@ public:
TransactionHashes transactionHashes(h256 _hash) const { auto b = block(_hash); RLP rlp(b); h256s ret; for (auto t: rlp[1]) ret.push_back(sha3(t.data())); return ret; }
TransactionHashes transactionHashes() const { return transactionHashes(currentHash()); }
/// Get a list of transaction hashes for a given block. Thread-safe.
/// Get a list of uncle hashes for a given block. Thread-safe.
UncleHashes uncleHashes(h256 _hash) const { auto b = block(_hash); RLP rlp(b); h256s ret; for (auto t: rlp[2]) ret.push_back(sha3(t.data())); return ret; }
UncleHashes uncleHashes() const { return uncleHashes(currentHash()); }
h256 numberHash(u256 _index) const { if (!_index) return genesisHash(); return queryExtras<BlockHash, ExtraBlockHash>(h256(_index), m_blockHashes, x_blockHashes, NullBlockHash).value; }
/** Get the block blooms for a number of blocks. Thread-safe.

378
libethereum/Client.cpp

@ -186,11 +186,6 @@ void Client::doneWorking()
m_postMine = m_preMine;
}
void Client::flushTransactions()
{
doWork();
}
void Client::killChain()
{
bool wasMining = isMining();
@ -249,64 +244,9 @@ void Client::clearPending()
noteChanged(changeds);
}
unsigned Client::installWatch(h256 _h, Reaping _r)
{
unsigned ret;
{
Guard l(m_filterLock);
ret = m_watches.size() ? m_watches.rbegin()->first + 1 : 0;
m_watches[ret] = ClientWatch(_h, _r);
cwatch << "+++" << ret << _h.abridged();
}
auto ch = logs(ret);
if (ch.empty())
ch.push_back(InitialChange);
{
Guard l(m_filterLock);
swap(m_watches[ret].changes, ch);
}
return ret;
}
unsigned Client::installWatch(LogFilter const& _f, Reaping _r)
{
h256 h = _f.sha3();
{
Guard l(m_filterLock);
if (!m_filters.count(h))
{
cwatch << "FFF" << _f << h.abridged();
m_filters.insert(make_pair(h, _f));
}
}
return installWatch(h, _r);
}
bool Client::uninstallWatch(unsigned _i)
{
cwatch << "XXX" << _i;
Guard l(m_filterLock);
auto it = m_watches.find(_i);
if (it == m_watches.end())
return false;
auto id = it->second.id;
m_watches.erase(it);
auto fit = m_filters.find(id);
if (fit != m_filters.end())
if (!--fit->second.refCount)
{
cwatch << "*X*" << fit->first << ":" << fit->second.filter;
m_filters.erase(fit);
}
return true;
}
void Client::noteChanged(h256Set const& _filters)
{
Guard l(m_filterLock);
Guard l(x_filtersWatches);
if (_filters.size())
cnote << "noteChanged(" << _filters << ")";
// accrue all changes left in each filter into the watches.
@ -324,42 +264,9 @@ void Client::noteChanged(h256Set const& _filters)
i.second.changes.clear();
}
LocalisedLogEntries Client::peekWatch(unsigned _watchId) const
{
Guard l(m_filterLock);
#if ETH_DEBUG
cdebug << "peekWatch" << _watchId;
#endif
auto& w = m_watches.at(_watchId);
#if ETH_DEBUG
cdebug << "lastPoll updated to " << chrono::duration_cast<chrono::seconds>(chrono::system_clock::now().time_since_epoch()).count();
#endif
w.lastPoll = chrono::system_clock::now();
return w.changes;
}
LocalisedLogEntries Client::checkWatch(unsigned _watchId)
{
Guard l(m_filterLock);
LocalisedLogEntries ret;
#if ETH_DEBUG && 0
cdebug << "checkWatch" << _watchId;
#endif
auto& w = m_watches.at(_watchId);
#if ETH_DEBUG && 0
cdebug << "lastPoll updated to " << chrono::duration_cast<chrono::seconds>(chrono::system_clock::now().time_since_epoch()).count();
#endif
std::swap(ret, w.changes);
w.lastPoll = chrono::system_clock::now();
return ret;
}
void Client::appendFromNewPending(TransactionReceipt const& _receipt, h256Set& io_changed, h256 _transactionHash)
{
Guard l(m_filterLock);
Guard l(x_filtersWatches);
for (pair<h256 const, InstalledFilter>& i: m_filters)
if (i.second.filter.envelops(RelativeBlock::Pending, m_bc.number() + 1))
{
@ -381,7 +288,7 @@ void Client::appendFromNewBlock(h256 const& _block, h256Set& io_changed)
auto d = m_bc.info(_block);
auto br = m_bc.receipts(_block);
Guard l(m_filterLock);
Guard l(x_filtersWatches);
for (pair<h256 const, InstalledFilter>& i: m_filters)
if (i.second.filter.envelops(RelativeBlock::Latest, d.number) && i.second.filter.matches(d.logBloom))
// acceptable number & looks like block may contain a matching log entry.
@ -475,68 +382,6 @@ void Client::setupState(State& _s)
_s.commitToMine(m_bc);
}
void Client::submitTransaction(Secret _secret, u256 _value, Address _dest, bytes const& _data, u256 _gas, u256 _gasPrice)
{
startWorking();
u256 n;
{
ReadGuard l(x_stateDB);
n = m_postMine.transactionsFrom(toAddress(_secret));
}
Transaction t(_value, _gasPrice, _gas, _dest, _data, n, _secret);
// cdebug << "Nonce at " << toAddress(_secret) << " pre:" << m_preMine.transactionsFrom(toAddress(_secret)) << " post:" << m_postMine.transactionsFrom(toAddress(_secret));
StructuredLogger::transactionReceived(t.sha3().abridged(), t.sender().abridged());
cnote << "New transaction " << t;
m_tq.attemptImport(t.rlp());
}
ExecutionResult Client::call(Secret _secret, u256 _value, Address _dest, bytes const& _data, u256 _gas, u256 _gasPrice, BlockNumber _blockNumber)
{
ExecutionResult ret;
try
{
u256 n;
State temp;
// cdebug << "Nonce at " << toAddress(_secret) << " pre:" << m_preMine.transactionsFrom(toAddress(_secret)) << " post:" << m_postMine.transactionsFrom(toAddress(_secret));
{
ReadGuard l(x_stateDB);
temp = asOf(_blockNumber);
n = temp.transactionsFrom(toAddress(_secret));
}
Transaction t(_value, _gasPrice, _gas, _dest, _data, n, _secret);
ret = temp.execute(m_bc, t.rlp(), Permanence::Reverted);
}
catch (...)
{
// TODO: Some sort of notification of failure.
}
return ret;
}
ExecutionResult Client::create(Secret _secret, u256 _value, bytes const& _data, u256 _gas, u256 _gasPrice, BlockNumber _blockNumber)
{
ExecutionResult ret;
try
{
u256 n;
State temp;
// cdebug << "Nonce at " << toAddress(_secret) << " pre:" << m_preMine.transactionsFrom(toAddress(_secret)) << " post:" << m_postMine.transactionsFrom(toAddress(_secret));
{
ReadGuard l(x_stateDB);
temp = asOf(_blockNumber);
n = temp.transactionsFrom(toAddress(_secret));
}
Transaction t(_value, _gasPrice, _gas, _data, n, _secret);
ret = temp.execute(m_bc, t.rlp(), Permanence::Reverted);
}
catch (...)
{
// TODO: Some sort of notification of failure.
}
return ret;
}
ExecutionResult Client::call(Address _dest, bytes const& _data, u256 _gas, u256 _value, u256 _gasPrice)
{
ExecutionResult ret;
@ -561,28 +406,6 @@ ExecutionResult Client::call(Address _dest, bytes const& _data, u256 _gas, u256
return ret;
}
Address Client::submitTransaction(Secret _secret, u256 _endowment, bytes const& _init, u256 _gas, u256 _gasPrice)
{
startWorking();
u256 n;
{
ReadGuard l(x_stateDB);
n = m_postMine.transactionsFrom(toAddress(_secret));
}
Transaction t(_endowment, _gasPrice, _gas, _init, n, _secret);
cnote << "New transaction " << t;
m_tq.attemptImport(t.rlp());
return right160(sha3(rlpList(t.sender(), t.nonce())));
}
void Client::inject(bytesConstRef _rlp)
{
startWorking();
m_tq.attemptImport(_rlp);
}
pair<h256, u256> Client::getWork()
{
Guard l(x_remoteMiner);
@ -712,7 +535,7 @@ void Client::doWork()
// watches garbage collection
vector<unsigned> toUninstall;
{
Guard l(m_filterLock);
Guard l(x_filtersWatches);
for (auto key: keysOf(m_watches))
if (m_watches[key].lastPoll != chrono::system_clock::time_point::max() && chrono::system_clock::now() - m_watches[key].lastPoll > chrono::seconds(20))
{
@ -730,15 +553,15 @@ void Client::doWork()
}
}
State Client::asOf(unsigned _h) const
State Client::asOf(h256 const& _block) const
{
ReadGuard l(x_stateDB);
if (_h == PendingBlock)
return m_postMine;
else if (_h == LatestBlock)
return m_preMine;
else
return State(m_stateDB, m_bc, m_bc.numberHash(_h));
return State(m_stateDB, bc(), _block);
}
void Client::prepareForTransaction()
{
startWorking();
}
State Client::state(unsigned _txi, h256 _block) const
@ -759,183 +582,14 @@ eth::State Client::state(unsigned _txi) const
return m_postMine.fromPending(_txi);
}
StateDiff Client::diff(unsigned _txi, BlockNumber _block) const
{
State st = asOf(_block);
return st.fromPending(_txi).diff(st.fromPending(_txi + 1));
}
StateDiff Client::diff(unsigned _txi, h256 _block) const
{
State st = state(_block);
return st.fromPending(_txi).diff(st.fromPending(_txi + 1));
}
std::vector<Address> Client::addresses(BlockNumber _block) const
{
vector<Address> ret;
for (auto const& i: asOf(_block).addresses())
ret.push_back(i.first);
return ret;
}
u256 Client::balanceAt(Address _a, BlockNumber _block) const
{
return asOf(_block).balance(_a);
}
std::map<u256, u256> Client::storageAt(Address _a, BlockNumber _block) const
{
return asOf(_block).storage(_a);
}
u256 Client::countAt(Address _a, BlockNumber _block) const
{
return asOf(_block).transactionsFrom(_a);
}
u256 Client::stateAt(Address _a, u256 _l, BlockNumber _block) const
{
return asOf(_block).storage(_a, _l);
}
bytes Client::codeAt(Address _a, BlockNumber _block) const
{
return asOf(_block).code(_a);
}
Transaction Client::transaction(h256 _transactionHash) const
{
return Transaction(m_bc.transaction(_transactionHash), CheckSignature::Range);
}
Transaction Client::transaction(h256 _blockHash, unsigned _i) const
{
auto bl = m_bc.block(_blockHash);
RLP b(bl);
if (_i < b[1].itemCount())
return Transaction(b[1][_i].data(), CheckSignature::Range);
else
return Transaction();
}
BlockInfo Client::uncle(h256 _blockHash, unsigned _i) const
{
auto bl = m_bc.block(_blockHash);
RLP b(bl);
if (_i < b[2].itemCount())
return BlockInfo::fromHeader(b[2][_i].data());
else
return BlockInfo();
}
unsigned Client::transactionCount(h256 _blockHash) const
{
auto bl = m_bc.block(_blockHash);
RLP b(bl);
return b[1].itemCount();
}
unsigned Client::uncleCount(h256 _blockHash) const
{
auto bl = m_bc.block(_blockHash);
RLP b(bl);
return b[2].itemCount();
}
Transactions Client::transactions(h256 _blockHash) const
{
auto bl = m_bc.block(_blockHash);
RLP b(bl);
Transactions res;
for (unsigned i = 0; i < b[1].itemCount(); i++)
res.emplace_back(b[1][i].data(), CheckSignature::Range);
return res;
}
TransactionHashes Client::transactionHashes(h256 _blockHash) const
void Client::inject(bytesConstRef _rlp)
{
return m_bc.transactionHashes(_blockHash);
}
startWorking();
LocalisedLogEntries Client::logs(unsigned _watchId) const
{
LogFilter f;
try
{
Guard l(m_filterLock);
f = m_filters.at(m_watches.at(_watchId).id).filter;
}
catch (...)
{
return LocalisedLogEntries();
}
return logs(f);
m_tq.attemptImport(_rlp);
}
LocalisedLogEntries Client::logs(LogFilter const& _f) const
void Client::flushTransactions()
{
LocalisedLogEntries ret;
unsigned begin = min<unsigned>(m_bc.number() + 1, (unsigned)_f.latest());
unsigned end = min(m_bc.number(), min(begin, (unsigned)_f.earliest()));
// Handle pending transactions differently as they're not on the block chain.
if (begin > m_bc.number())
{
ReadGuard l(x_stateDB);
for (unsigned i = 0; i < m_postMine.pending().size(); ++i)
{
// Might have a transaction that contains a matching log.
TransactionReceipt const& tr = m_postMine.receipt(i);
auto sha3 = m_postMine.pending()[i].sha3();
LogEntries le = _f.matches(tr);
if (le.size())
for (unsigned j = 0; j < le.size(); ++j)
ret.insert(ret.begin(), LocalisedLogEntry(le[j], begin, sha3));
}
begin = m_bc.number();
}
set<unsigned> matchingBlocks;
for (auto const& i: _f.bloomPossibilities())
for (auto u: m_bc.withBlockBloom(i, end, begin))
matchingBlocks.insert(u);
#if ETH_DEBUG
unsigned falsePos = 0;
#endif
for (auto n: matchingBlocks)
{
#if ETH_DEBUG
int total = 0;
#endif
auto h = m_bc.numberHash(n);
auto receipts = m_bc.receipts(h).receipts;
for (size_t i = 0; i < receipts.size(); i++)
{
TransactionReceipt receipt = receipts[i];
if (_f.matches(receipt.bloom()))
{
auto info = m_bc.info(h);
auto h = transaction(info.hash, i).sha3();
LogEntries le = _f.matches(receipt);
if (le.size())
{
#if ETH_DEBUG
total += le.size();
#endif
for (unsigned j = 0; j < le.size(); ++j)
ret.insert(ret.begin(), LocalisedLogEntry(le[j], n, h));
}
}
#if ETH_DEBUG
if (!total)
falsePos++;
#endif
}
}
#if ETH_DEBUG
cdebug << matchingBlocks.size() << "searched from" << (end - begin) << "skipped; " << falsePos << "false +ves";
#endif
return ret;
doWork();
}

135
libethereum/Client.h

@ -40,9 +40,8 @@
#include "TransactionQueue.h"
#include "State.h"
#include "CommonNet.h"
#include "LogFilter.h"
#include "Miner.h"
#include "Interface.h"
#include "ClientBase.h"
namespace dev
{
@ -74,40 +73,6 @@ private:
static const int GenesisBlock = INT_MIN;
struct InstalledFilter
{
InstalledFilter(LogFilter const& _f): filter(_f) {}
LogFilter filter;
unsigned refCount = 1;
LocalisedLogEntries changes;
};
static const h256 PendingChangedFilter = u256(0);
static const h256 ChainChangedFilter = u256(1);
static const LogEntry SpecialLogEntry = LogEntry(Address(), h256s(), bytes());
static const LocalisedLogEntry InitialChange(SpecialLogEntry, 0);
struct ClientWatch
{
ClientWatch(): lastPoll(std::chrono::system_clock::now()) {}
explicit ClientWatch(h256 _id, Reaping _r): id(_id), lastPoll(_r == Reaping::Automatic ? std::chrono::system_clock::now() : std::chrono::system_clock::time_point::max()) {}
h256 id;
LocalisedLogEntries changes = LocalisedLogEntries{ InitialChange };
mutable std::chrono::system_clock::time_point lastPoll = std::chrono::system_clock::now();
};
struct WatchChannel: public LogChannel { static const char* name() { return "(o)"; } static const int verbosity = 7; };
#define cwatch dev::LogOutputStream<dev::eth::WatchChannel, true>()
struct WorkInChannel: public LogChannel { static const char* name() { return ">W>"; } static const int verbosity = 16; };
struct WorkOutChannel: public LogChannel { static const char* name() { return "<W<"; } static const int verbosity = 16; };
struct WorkChannel: public LogChannel { static const char* name() { return "-W-"; } static const int verbosity = 16; };
#define cwork dev::LogOutputStream<dev::eth::WorkChannel, true>()
#define cworkin dev::LogOutputStream<dev::eth::WorkInChannel, true>()
#define cworkout dev::LogOutputStream<dev::eth::WorkOutChannel, true>()
template <class T> struct ABISerialiser {};
template <unsigned N> struct ABISerialiser<FixedHash<N>> { static bytes serialise(FixedHash<N> const& _t) { static_assert(N <= 32, "Cannot serialise hash > 32 bytes."); static_assert(N > 0, "Cannot serialise zero-length hash."); return bytes(32 - N, 0) + _t.asBytes(); } };
template <> struct ABISerialiser<u256> { static bytes serialise(u256 const& _t) { return h256(_t).asBytes(); } };
@ -182,7 +147,7 @@ private:
/**
* @brief Main API hub for interfacing with Ethereum.
*/
class Client: public MinerHost, public Interface, Worker
class Client: public MinerHost, public ClientBase, Worker
{
friend class Miner;
@ -211,88 +176,20 @@ public:
/// Resets the gas pricer to some other object.
void setGasPricer(std::shared_ptr<GasPricer> _gp) { m_gp = _gp; }
/// Submits the given message-call transaction.
virtual void submitTransaction(Secret _secret, u256 _value, Address _dest, bytes const& _data = bytes(), u256 _gas = 10000, u256 _gasPrice = 10 * szabo) override;
/// Submits a new contract-creation transaction.
/// @returns the new contract's address (assuming it all goes through).
virtual Address submitTransaction(Secret _secret, u256 _endowment, bytes const& _init, u256 _gas = 10000, u256 _gasPrice = 10 * szabo) override;
/// Injects the RLP-encoded transaction given by the _rlp into the transaction queue directly.
virtual void inject(bytesConstRef _rlp) override;
virtual void inject(bytesConstRef _rlp);
/// Blocks until all pending transactions have been processed.
virtual void flushTransactions() override;
/// Makes the given call. Nothing is recorded into the state.
virtual ExecutionResult call(Secret _secret, u256 _value, Address _dest, bytes const& _data = bytes(), u256 _gas = 10000, u256 _gasPrice = 10 * szabo, BlockNumber _blockNumber = PendingBlock) override;
/// Does the given creation. Nothing is recorded into the state.
/// @returns the pair of the Address of the created contract together with its code.
virtual ExecutionResult create(Secret _secret, u256 _value, bytes const& _data = bytes(), u256 _gas = 10000, u256 _gasPrice = 10 * szabo, BlockNumber _blockNumber = PendingBlock) 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);
// Informational stuff
// [NEW API]
using Interface::balanceAt;
using Interface::countAt;
using Interface::stateAt;
using Interface::codeAt;
using Interface::storageAt;
virtual u256 balanceAt(Address _a, BlockNumber _block) const;
virtual u256 countAt(Address _a, BlockNumber _block) const;
virtual u256 stateAt(Address _a, u256 _l, BlockNumber _block) const;
virtual bytes codeAt(Address _a, BlockNumber _block) const;
virtual std::map<u256, u256> storageAt(Address _a, BlockNumber _block) const;
virtual unsigned installWatch(LogFilter const& _filter, Reaping _r = Reaping::Automatic) override;
virtual unsigned installWatch(h256 _filterId, Reaping _r = Reaping::Automatic) override;
virtual bool uninstallWatch(unsigned _watchId) override;
virtual LocalisedLogEntries peekWatch(unsigned _watchId) const;
virtual LocalisedLogEntries checkWatch(unsigned _watchId);
virtual LocalisedLogEntries logs(unsigned _watchId) const;
virtual LocalisedLogEntries logs(LogFilter const& _filter) const;
// [EXTRA API]:
/// @returns the length of the chain.
virtual unsigned number() const { return m_bc.number(); }
/// Get the list of pending transactions.
/// @TODO: Remove in favour of transactions().
virtual Transactions pending() const { return m_postMine.pending(); }
virtual h256 hashFromNumber(unsigned _number) const { return m_bc.numberHash(_number); }
virtual BlockInfo blockInfo(h256 _hash) const { return BlockInfo(m_bc.block(_hash)); }
virtual BlockDetails blockDetails(h256 _hash) const { return m_bc.details(_hash); }
virtual Transaction transaction(h256 _transactionHash) const;
virtual Transaction transaction(h256 _blockHash, unsigned _i) const;
virtual BlockInfo uncle(h256 _blockHash, unsigned _i) const;
virtual unsigned transactionCount(h256 _blockHash) const;
virtual unsigned uncleCount(h256 _blockHash) const;
virtual Transactions transactions(h256 _blockHash) const;
virtual TransactionHashes transactionHashes(h256 _blockHash) const;
/// Differences between transactions.
using Interface::diff;
virtual StateDiff diff(unsigned _txi, h256 _block) const;
virtual StateDiff diff(unsigned _txi, BlockNumber _block) const;
/// Get a list of all active addresses.
using Interface::addresses;
virtual std::vector<Address> addresses(BlockNumber _block) const;
/// 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;
@ -317,10 +214,6 @@ public:
/// Enable/disable fast mining.
void setTurboMining(bool _enable = true) { m_turboMining = _enable; }
/// Set the coinbase address.
virtual void setAddress(Address _us) { m_preMine.setAddress(_us); }
/// Get the coinbase address.
virtual Address address() const { return m_preMine.address(); }
/// Stops mining and sets the number of mining threads (0 for automatic).
virtual void setMiningThreads(unsigned _threads = 0);
/// Get the effective number of mining threads.
@ -356,6 +249,17 @@ public:
void killChain();
protected:
/// InterfaceStub methods
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_stateDB); return m_preMine; }
virtual State postMine() const override { ReadGuard l(x_stateDB); 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, h256Set& io_changed, h256 _sha3);
@ -380,13 +284,8 @@ private:
virtual bool turbo() const { return m_turboMining; }
virtual bool force() const { return m_forceMining; }
/// Returns the state object for the full block (i.e. the terminal state) for index _h.
/// Works properly with LatestBlock and PendingBlock.
State asOf(unsigned _h) const;
VersionChecker m_vc; ///< Dummy object to check & update the protocol version.
CanonBlockChain m_bc; ///< Maintains block database.
TransactionQueue m_tq; ///< Maintains a list of incoming transactions not yet in a block on the blockchain.
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.
@ -407,10 +306,6 @@ private:
bool m_forceMining = false; ///< Mine even when there are no transactions pending?
bool m_verifyOwnBlocks = true; ///< Should be verify blocks that we mined?
mutable Mutex m_filterLock;
std::map<h256, InstalledFilter> m_filters;
std::map<unsigned, ClientWatch> m_watches;
mutable std::chrono::system_clock::time_point m_lastGarbageCollection;
};

402
libethereum/ClientBase.cpp

@ -0,0 +1,402 @@
/*
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 ClientBase.cpp
* @author Gav Wood <i@gavwood.com>
* @author Marek Kotewicz <marek@ethdev.com>
* @date 2015
*/
#include <libdevcore/StructuredLogger.h>
#include "ClientBase.h"
#include "BlockChain.h"
#include "Executive.h"
using namespace std;
using namespace dev;
using namespace dev::eth;
State ClientBase::asOf(BlockNumber _h) const
{
if (_h == PendingBlock)
return postMine();
else if (_h == LatestBlock)
return preMine();
return asOf(bc().numberHash(_h));
}
void ClientBase::submitTransaction(Secret _secret, u256 _value, Address _dest, bytes const& _data, u256 _gas, u256 _gasPrice)
{
prepareForTransaction();
u256 n = postMine().transactionsFrom(toAddress(_secret));
Transaction t(_value, _gasPrice, _gas, _dest, _data, n, _secret);
m_tq.attemptImport(t.rlp());
StructuredLogger::transactionReceived(t.sha3().abridged(), t.sender().abridged());
cnote << "New transaction " << t;
}
Address ClientBase::submitTransaction(Secret _secret, u256 _endowment, bytes const& _init, u256 _gas, u256 _gasPrice)
{
prepareForTransaction();
u256 n = postMine().transactionsFrom(toAddress(_secret));
Transaction t(_endowment, _gasPrice, _gas, _init, n, _secret);
m_tq.attemptImport(t.rlp());
StructuredLogger::transactionReceived(t.sha3().abridged(), t.sender().abridged());
cnote << "New transaction " << t;
return right160(sha3(rlpList(t.sender(), t.nonce())));
}
// TODO: remove try/catch, allow exceptions
ExecutionResult ClientBase::call(Secret _secret, u256 _value, Address _dest, bytes const& _data, u256 _gas, u256 _gasPrice, BlockNumber _blockNumber)
{
ExecutionResult ret;
try
{
State temp = asOf(_blockNumber);
u256 n = temp.transactionsFrom(toAddress(_secret));
Transaction t(_value, _gasPrice, _gas, _dest, _data, n, _secret);
ret = temp.execute(bc(), t.rlp(), Permanence::Reverted);
}
catch (...)
{
// TODO: Some sort of notification of failure.
}
return ret;
}
ExecutionResult ClientBase::create(Secret _secret, u256 _value, bytes const& _data, u256 _gas, u256 _gasPrice, BlockNumber _blockNumber)
{
ExecutionResult ret;
try
{
State temp = asOf(_blockNumber);
u256 n = temp.transactionsFrom(toAddress(_secret));
// cdebug << "Nonce at " << toAddress(_secret) << " pre:" << m_preMine.transactionsFrom(toAddress(_secret)) << " post:" << m_postMine.transactionsFrom(toAddress(_secret));
Transaction t(_value, _gasPrice, _gas, _data, n, _secret);
ret = temp.execute(bc(), t.rlp(), Permanence::Reverted);
}
catch (...)
{
// TODO: Some sort of notification of failure.
}
return ret;
}
u256 ClientBase::balanceAt(Address _a, BlockNumber _block) const
{
return asOf(_block).balance(_a);
}
u256 ClientBase::countAt(Address _a, BlockNumber _block) const
{
return asOf(_block).transactionsFrom(_a);
}
u256 ClientBase::stateAt(Address _a, u256 _l, BlockNumber _block) const
{
return asOf(_block).storage(_a, _l);
}
bytes ClientBase::codeAt(Address _a, BlockNumber _block) const
{
return asOf(_block).code(_a);
}
map<u256, u256> ClientBase::storageAt(Address _a, BlockNumber _block) const
{
return asOf(_block).storage(_a);
}
// TODO: remove try/catch, allow exceptions
LocalisedLogEntries ClientBase::logs(unsigned _watchId) const
{
LogFilter f;
try
{
Guard l(x_filtersWatches);
f = m_filters.at(m_watches.at(_watchId).id).filter;
}
catch (...)
{
return LocalisedLogEntries();
}
return logs(f);
}
LocalisedLogEntries ClientBase::logs(LogFilter const& _f) const
{
LocalisedLogEntries ret;
unsigned begin = min<unsigned>(bc().number() + 1, (unsigned)_f.latest());
unsigned end = min(bc().number(), min(begin, (unsigned)_f.earliest()));
// Handle pending transactions differently as they're not on the block chain.
if (begin > bc().number())
{
State temp = postMine();
for (unsigned i = 0; i < temp.pending().size(); ++i)
{
// Might have a transaction that contains a matching log.
TransactionReceipt const& tr = temp.receipt(i);
auto th = temp.pending()[i].sha3();
LogEntries le = _f.matches(tr);
if (le.size())
for (unsigned j = 0; j < le.size(); ++j)
ret.insert(ret.begin(), LocalisedLogEntry(le[j], begin, th));
}
begin = bc().number();
}
set<unsigned> matchingBlocks;
for (auto const& i: _f.bloomPossibilities())
for (auto u: bc().withBlockBloom(i, end, begin))
matchingBlocks.insert(u);
unsigned falsePos = 0;
for (auto n: matchingBlocks)
{
int total = 0;
auto h = bc().numberHash(n);
auto receipts = bc().receipts(h).receipts;
for (size_t i = 0; i < receipts.size(); i++)
{
TransactionReceipt receipt = receipts[i];
if (_f.matches(receipt.bloom()))
{
auto info = bc().info(h);
auto th = transaction(info.hash, i).sha3();
LogEntries le = _f.matches(receipt);
if (le.size())
{
total += le.size();
for (unsigned j = 0; j < le.size(); ++j)
ret.insert(ret.begin(), LocalisedLogEntry(le[j], n, th));
}
}
if (!total)
falsePos++;
}
}
cdebug << matchingBlocks.size() << "searched from" << (end - begin) << "skipped; " << falsePos << "false +ves";
return ret;
}
unsigned ClientBase::installWatch(LogFilter const& _f, Reaping _r)
{
h256 h = _f.sha3();
{
Guard l(x_filtersWatches);
if (!m_filters.count(h))
{
cwatch << "FFF" << _f << h.abridged();
m_filters.insert(make_pair(h, _f));
}
}
return installWatch(h, _r);
}
unsigned ClientBase::installWatch(h256 _h, Reaping _r)
{
unsigned ret;
{
Guard l(x_filtersWatches);
ret = m_watches.size() ? m_watches.rbegin()->first + 1 : 0;
m_watches[ret] = ClientWatch(_h, _r);
cwatch << "+++" << ret << _h.abridged();
}
auto ch = logs(ret);
if (ch.empty())
ch.push_back(InitialChange);
{
Guard l(x_filtersWatches);
swap(m_watches[ret].changes, ch);
}
return ret;
}
bool ClientBase::uninstallWatch(unsigned _i)
{
cwatch << "XXX" << _i;
Guard l(x_filtersWatches);
auto it = m_watches.find(_i);
if (it == m_watches.end())
return false;
auto id = it->second.id;
m_watches.erase(it);
auto fit = m_filters.find(id);
if (fit != m_filters.end())
if (!--fit->second.refCount)
{
cwatch << "*X*" << fit->first << ":" << fit->second.filter;
m_filters.erase(fit);
}
return true;
}
LocalisedLogEntries ClientBase::peekWatch(unsigned _watchId) const
{
Guard l(x_filtersWatches);
cwatch << "peekWatch" << _watchId;
auto& w = m_watches.at(_watchId);
cwatch << "lastPoll updated to " << chrono::duration_cast<chrono::seconds>(chrono::system_clock::now().time_since_epoch()).count();
w.lastPoll = chrono::system_clock::now();
return w.changes;
}
LocalisedLogEntries ClientBase::checkWatch(unsigned _watchId)
{
Guard l(x_filtersWatches);
LocalisedLogEntries ret;
cwatch << "checkWatch" << _watchId;
auto& w = m_watches.at(_watchId);
cwatch << "lastPoll updated to " << chrono::duration_cast<chrono::seconds>(chrono::system_clock::now().time_since_epoch()).count();
std::swap(ret, w.changes);
w.lastPoll = chrono::system_clock::now();
return ret;
}
h256 ClientBase::hashFromNumber(unsigned _number) const
{
return bc().numberHash(_number);
}
BlockInfo ClientBase::blockInfo(h256 _hash) const
{
return BlockInfo(bc().block(_hash));
}
BlockDetails ClientBase::blockDetails(h256 _hash) const
{
return bc().details(_hash);
}
Transaction ClientBase::transaction(h256 _transactionHash) const
{
return Transaction(bc().transaction(_transactionHash), CheckSignature::Range);
}
Transaction ClientBase::transaction(h256 _blockHash, unsigned _i) const
{
auto bl = bc().block(_blockHash);
RLP b(bl);
if (_i < b[1].itemCount())
return Transaction(b[1][_i].data(), CheckSignature::Range);
else
return Transaction();
}
Transactions ClientBase::transactions(h256 _blockHash) const
{
auto bl = bc().block(_blockHash);
RLP b(bl);
Transactions res;
for (unsigned i = 0; i < b[1].itemCount(); i++)
res.emplace_back(b[1][i].data(), CheckSignature::Range);
return res;
}
TransactionHashes ClientBase::transactionHashes(h256 _blockHash) const
{
return bc().transactionHashes(_blockHash);
}
BlockInfo ClientBase::uncle(h256 _blockHash, unsigned _i) const
{
auto bl = bc().block(_blockHash);
RLP b(bl);
if (_i < b[2].itemCount())
return BlockInfo::fromHeader(b[2][_i].data());
else
return BlockInfo();
}
UncleHashes ClientBase::uncleHashes(h256 _blockHash) const
{
return bc().uncleHashes(_blockHash);
}
unsigned ClientBase::transactionCount(h256 _blockHash) const
{
auto bl = bc().block(_blockHash);
RLP b(bl);
return b[1].itemCount();
}
unsigned ClientBase::uncleCount(h256 _blockHash) const
{
auto bl = bc().block(_blockHash);
RLP b(bl);
return b[2].itemCount();
}
unsigned ClientBase::number() const
{
return bc().number();
}
Transactions ClientBase::pending() const
{
return postMine().pending();
}
StateDiff ClientBase::diff(unsigned _txi, h256 _block) const
{
State st = asOf(_block);
return st.fromPending(_txi).diff(st.fromPending(_txi + 1));
}
StateDiff ClientBase::diff(unsigned _txi, BlockNumber _block) const
{
State st = asOf(_block);
return st.fromPending(_txi).diff(st.fromPending(_txi + 1));
}
Addresses ClientBase::addresses(BlockNumber _block) const
{
Addresses ret;
for (auto const& i: asOf(_block).addresses())
ret.push_back(i.first);
return ret;
}
u256 ClientBase::gasLimitRemaining() const
{
return postMine().gasLimitRemaining();
}
void ClientBase::setAddress(Address _us)
{
preMine().setAddress(_us);
}
Address ClientBase::address() const
{
return preMine().address();
}

167
libethereum/ClientBase.h

@ -0,0 +1,167 @@
/*
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 ClientBase.h
* @author Gav Wood <i@gavwood.com>
* @author Marek Kotewicz <marek@ethdev.com>
* @date 2015
*/
#pragma once
#include <chrono>
#include "Interface.h"
#include "LogFilter.h"
namespace dev {
namespace eth {
struct InstalledFilter
{
InstalledFilter(LogFilter const& _f): filter(_f) {}
LogFilter filter;
unsigned refCount = 1;
LocalisedLogEntries changes;
};
static const h256 PendingChangedFilter = u256(0);
static const h256 ChainChangedFilter = u256(1);
static const LogEntry SpecialLogEntry = LogEntry(Address(), h256s(), bytes());
static const LocalisedLogEntry InitialChange(SpecialLogEntry, 0);
struct ClientWatch
{
ClientWatch(): lastPoll(std::chrono::system_clock::now()) {}
explicit ClientWatch(h256 _id, Reaping _r): id(_id), lastPoll(_r == Reaping::Automatic ? std::chrono::system_clock::now() : std::chrono::system_clock::time_point::max()) {}
h256 id;
LocalisedLogEntries changes = LocalisedLogEntries{ InitialChange };
mutable std::chrono::system_clock::time_point lastPoll = std::chrono::system_clock::now();
};
struct WatchChannel: public LogChannel { static const char* name() { return "(o)"; } static const int verbosity = 7; };
#define cwatch dev::LogOutputStream<dev::eth::WatchChannel, true>()
struct WorkInChannel: public LogChannel { static const char* name() { return ">W>"; } static const int verbosity = 16; };
struct WorkOutChannel: public LogChannel { static const char* name() { return "<W<"; } static const int verbosity = 16; };
struct WorkChannel: public LogChannel { static const char* name() { return "-W-"; } static const int verbosity = 16; };
#define cwork dev::LogOutputStream<dev::eth::WorkChannel, true>()
#define cworkin dev::LogOutputStream<dev::eth::WorkInChannel, true>()
#define cworkout dev::LogOutputStream<dev::eth::WorkOutChannel, true>()
class ClientBase: public dev::eth::Interface
{
public:
ClientBase() {}
virtual ~ClientBase() {}
/// Submits the given message-call transaction.
virtual void submitTransaction(Secret _secret, u256 _value, Address _dest, bytes const& _data = bytes(), u256 _gas = 10000, u256 _gasPrice = 10 * szabo) override;
/// Submits a new contract-creation transaction.
/// @returns the new contract's address (assuming it all goes through).
virtual Address submitTransaction(Secret _secret, u256 _endowment, bytes const& _init, u256 _gas = 10000, u256 _gasPrice = 10 * szabo) override;
/// Makes the given call. Nothing is recorded into the state.
virtual ExecutionResult call(Secret _secret, u256 _value, Address _dest, bytes const& _data = bytes(), u256 _gas = 10000, u256 _gasPrice = 10 * szabo, BlockNumber _blockNumber = PendingBlock) override;
virtual ExecutionResult create(Secret _secret, u256 _value, bytes const& _data = bytes(), u256 _gas = 10000, u256 _gasPrice = 10 * szabo, BlockNumber _blockNumber = PendingBlock) override;
using Interface::balanceAt;
using Interface::countAt;
using Interface::stateAt;
using Interface::codeAt;
using Interface::storageAt;
virtual u256 balanceAt(Address _a, BlockNumber _block) const override;
virtual u256 countAt(Address _a, BlockNumber _block) const override;
virtual u256 stateAt(Address _a, u256 _l, BlockNumber _block) const override;
virtual bytes codeAt(Address _a, BlockNumber _block) const override;
virtual std::map<u256, u256> storageAt(Address _a, BlockNumber _block) const override;
virtual LocalisedLogEntries logs(unsigned _watchId) const override;
virtual LocalisedLogEntries logs(LogFilter const& _filter) const override;
/// Install, uninstall and query watches.
virtual unsigned installWatch(LogFilter const& _filter, Reaping _r = Reaping::Automatic) override;
virtual unsigned installWatch(h256 _filterId, Reaping _r = Reaping::Automatic) override;
virtual bool uninstallWatch(unsigned _watchId) override;
virtual LocalisedLogEntries peekWatch(unsigned _watchId) const override;
virtual LocalisedLogEntries checkWatch(unsigned _watchId) override;
virtual h256 hashFromNumber(unsigned _number) const override;
virtual eth::BlockInfo blockInfo(h256 _hash) const override;
virtual eth::BlockDetails blockDetails(h256 _hash) const override;
virtual eth::Transaction transaction(h256 _transactionHash) const override;
virtual eth::Transaction transaction(h256 _blockHash, unsigned _i) const override;
virtual eth::Transactions transactions(h256 _blockHash) const override;
virtual eth::TransactionHashes transactionHashes(h256 _blockHash) const override;
virtual eth::BlockInfo uncle(h256 _blockHash, unsigned _i) const override;
virtual eth::UncleHashes uncleHashes(h256 _blockHash) const override;
virtual unsigned transactionCount(h256 _blockHash) const override;
virtual unsigned uncleCount(h256 _blockHash) const override;
virtual unsigned number() const override;
virtual eth::Transactions pending() const override;
using Interface::diff;
virtual StateDiff diff(unsigned _txi, h256 _block) const override;
virtual StateDiff diff(unsigned _txi, BlockNumber _block) const override;
using Interface::addresses;
virtual Addresses addresses(BlockNumber _block) const override;
virtual u256 gasLimitRemaining() const override;
/// Set the coinbase address
virtual void setAddress(Address _us) override;
/// Get the coinbase address
virtual Address address() const override;
/// TODO: consider moving it to a separate interface
virtual void setMiningThreads(unsigned _threads) override { (void)_threads; BOOST_THROW_EXCEPTION(InterfaceNotSupported("dev::eth::ClientBase::setMiningThreads")); }
virtual unsigned miningThreads() const override { BOOST_THROW_EXCEPTION(InterfaceNotSupported("dev::eth::ClientBase::miningThreads")); }
virtual void startMining() override { BOOST_THROW_EXCEPTION(InterfaceNotSupported("dev::eth::ClientBase::startMining")); }
virtual void stopMining() override { BOOST_THROW_EXCEPTION(InterfaceNotSupported("dev::eth::ClientBase::stopMining")); }
virtual bool isMining() override { BOOST_THROW_EXCEPTION(InterfaceNotSupported("dev::eth::ClientBase::isMining")); }
virtual eth::MineProgress miningProgress() const override { BOOST_THROW_EXCEPTION(InterfaceNotSupported("dev::eth::ClientBase::miningProgress")); }
virtual std::pair<h256, u256> getWork() override { BOOST_THROW_EXCEPTION(InterfaceNotSupported("dev::eth::ClientBase::getWork")); }
virtual bool submitWork(eth::ProofOfWork::Proof const&) override { BOOST_THROW_EXCEPTION(InterfaceNotSupported("dev::eth::ClientBase::submitWork")); }
State asOf(BlockNumber _h) const;
protected:
/// The interface that must be implemented in any class deriving this.
/// {
virtual BlockChain const& bc() const = 0;
virtual State asOf(h256 const& _h) const = 0;
virtual State preMine() const = 0;
virtual State postMine() const = 0;
virtual void prepareForTransaction() = 0;
/// }
TransactionQueue m_tq; ///< Maintains a list of incoming transactions not yet in a block on the blockchain.
// filters
mutable Mutex x_filtersWatches; ///< Our lock.
std::map<h256, InstalledFilter> m_filters; ///< The dictionary of filters that are active.
std::map<unsigned, ClientWatch> m_watches; ///< Each and every watch - these reference a filter.
};
}}

5
libethereum/Interface.h

@ -38,6 +38,7 @@ namespace eth
{
using TransactionHashes = h256s;
using UncleHashes = h256s;
enum class Reaping
{
@ -66,9 +67,6 @@ public:
/// @returns the new contract's address (assuming it all goes through).
virtual Address submitTransaction(Secret _secret, u256 _endowment, bytes const& _init, u256 _gas = 10000, u256 _gasPrice = 10 * szabo) = 0;
/// Injects the RLP-encoded transaction given by the _rlp into the transaction queue directly.
virtual void inject(bytesConstRef _rlp) = 0;
/// Blocks until all pending transactions have been processed.
virtual void flushTransactions() = 0;
@ -118,6 +116,7 @@ public:
virtual Transaction transaction(h256 _transactionHash) const = 0;
virtual Transaction transaction(h256 _blockHash, unsigned _i) const = 0;
virtual BlockInfo uncle(h256 _blockHash, unsigned _i) const = 0;
virtual UncleHashes uncleHashes(h256 _blockHash) const = 0;
virtual unsigned transactionCount(h256 _blockHash) const = 0;
virtual unsigned uncleCount(h256 _blockHash) const = 0;
virtual Transactions transactions(h256 _blockHash) const = 0;

3
libethereum/State.h

@ -41,7 +41,7 @@
namespace dev
{
namespace test { class ImportTest; }
namespace test { class ImportTest; class StateLoader; }
namespace eth
{
@ -99,6 +99,7 @@ class State
{
friend class ExtVM;
friend class dev::test::ImportTest;
friend class dev::test::StateLoader;
friend class Executive;
public:

327
mix/MixClient.cpp

@ -45,29 +45,20 @@ namespace mix
const Secret c_defaultUserAccountSecret = Secret("cb73d9408c4720e230387d956eb0f829d8a4dd2c1055f96257167e14e7169074");
const u256 c_mixGenesisDifficulty = c_minimumDifficulty; //TODO: make it lower for Mix somehow
class MixBlockChain: public dev::eth::BlockChain
bytes MixBlockChain::createGenesisBlock(h256 _stateRoot)
{
public:
MixBlockChain(std::string const& _path, h256 _stateRoot):
BlockChain(createGenesisBlock(_stateRoot), _path, true)
{
}
static bytes createGenesisBlock(h256 _stateRoot)
{
RLPStream block(3);
block.appendList(15)
<< h256() << EmptyListSHA3 << h160() << _stateRoot << EmptyTrie << EmptyTrie
<< LogBloom() << c_mixGenesisDifficulty << 0 << c_genesisGasLimit << 0 << (unsigned)0
<< std::string() << h256() << h64(u64(42));
block.appendRaw(RLPEmptyList);
block.appendRaw(RLPEmptyList);
return block.out();
}
};
RLPStream block(3);
block.appendList(15)
<< h256() << EmptyListSHA3 << h160() << _stateRoot << EmptyTrie << EmptyTrie
<< LogBloom() << c_mixGenesisDifficulty << 0 << c_genesisGasLimit << 0 << (unsigned)0
<< std::string() << h256() << h64(u64(42));
block.appendRaw(RLPEmptyList);
block.appendRaw(RLPEmptyList);
return block.out();
}
MixClient::MixClient(std::string const& _dbPath):
m_dbPath(_dbPath), m_minigThreads(0)
m_dbPath(_dbPath), m_miningThreads(0)
{
std::map<Secret, u256> account;
account.insert(std::make_pair(c_defaultUserAccountSecret, 1000000 * ether));
@ -81,7 +72,7 @@ MixClient::~MixClient()
void MixClient::resetState(std::map<Secret, u256> _accounts)
{
WriteGuard l(x_state);
Guard fl(m_filterLock);
Guard fl(x_filtersWatches);
m_filters.clear();
m_watches.clear();
@ -197,7 +188,7 @@ void MixClient::executeTransaction(Transaction const& _t, State& _state, bool _c
BOOST_THROW_EXCEPTION(OutOfGas() << errinfo_comment("Not enough gas for contract deployment"));
// collect watches
h256Set changed;
Guard l(m_filterLock);
Guard l(x_filtersWatches);
for (std::pair<h256 const, eth::InstalledFilter>& i: m_filters)
if ((unsigned)i.second.filter.latest() > bc().number())
{
@ -243,15 +234,10 @@ ExecutionResult MixClient::execution(unsigned _index) const
return m_executions.at(_index);
}
State MixClient::asOf(int _block) const
State MixClient::asOf(h256 const& _block) const
{
ReadGuard l(x_state);
if (_block == 0)
return m_state;
else if (_block == -1)
return m_startState;
else
return State(m_stateDB, bc(), bc().numberHash(_block));
return State(m_stateDB, bc(), _block);
}
void MixClient::submitTransaction(Secret _secret, u256 _value, Address _dest, bytes const& _data, u256 _gas, u256 _gasPrice)
@ -272,26 +258,11 @@ Address MixClient::submitTransaction(Secret _secret, u256 _endowment, bytes cons
return address;
}
void MixClient::inject(bytesConstRef _rlp)
{
WriteGuard l(x_state);
eth::Transaction t(_rlp, CheckSignature::None);
executeTransaction(t, m_state, false);
}
void MixClient::flushTransactions()
{
}
dev::eth::ExecutionResult MixClient::call(Secret _secret, u256 _value, Address _dest, bytes const& _data, u256 _gas, u256 _gasPrice, BlockNumber _blockNumber)
{
u256 n;
State temp;
{
ReadGuard lr(x_state);
temp = asOf(_blockNumber);
n = temp.transactionsFrom(toAddress(_secret));
}
State temp = asOf(_blockNumber);
u256 n = temp.transactionsFrom(toAddress(_secret));
Transaction t(_value, _gasPrice, _gas, _dest, _data, n, _secret);
bytes rlp = t.rlp();
WriteGuard lw(x_state); //TODO: lock is required only for last execution state
@ -315,122 +286,6 @@ dev::eth::ExecutionResult MixClient::create(Secret _secret, u256 _value, bytes c
return lastExecution().result;
}
u256 MixClient::balanceAt(Address _a, BlockNumber _block) const
{
return asOf(_block).balance(_a);
}
u256 MixClient::countAt(Address _a, BlockNumber _block) const
{
return asOf(_block).transactionsFrom(_a);
}
u256 MixClient::stateAt(Address _a, u256 _l, BlockNumber _block) const
{
return asOf(_block).storage(_a, _l);
}
bytes MixClient::codeAt(Address _a, BlockNumber _block) const
{
return asOf(_block).code(_a);
}
std::map<u256, u256> MixClient::storageAt(Address _a, BlockNumber _block) const
{
return asOf(_block).storage(_a);
}
eth::LocalisedLogEntries MixClient::logs(unsigned _watchId) const
{
Guard l(m_filterLock);
h256 h = m_watches.at(_watchId).id;
auto filterIter = m_filters.find(h);
if (filterIter != m_filters.end())
return logs(filterIter->second.filter);
return eth::LocalisedLogEntries();
}
eth::LocalisedLogEntries MixClient::logs(eth::LogFilter const& _f) const
{
LocalisedLogEntries ret;
unsigned lastBlock = bc().number();
unsigned block = std::min<unsigned>(lastBlock, (unsigned)_f.latest());
unsigned end = std::min(lastBlock, std::min(block, (unsigned)_f.earliest()));
// Pending transactions
if (block > bc().number())
{
ReadGuard l(x_state);
for (unsigned i = 0; i < m_state.pending().size(); ++i)
{
// Might have a transaction that contains a matching log.
TransactionReceipt const& tr = m_state.receipt(i);
LogEntries logEntries = _f.matches(tr);
for (unsigned entry = 0; entry < logEntries.size(); ++entry)
ret.insert(ret.begin(), LocalisedLogEntry(logEntries[entry], block));
}
block = bc().number();
}
// The rest
auto h = bc().numberHash(block);
for (; ret.size() != block && block != end; block--)
{
if (_f.matches(bc().info(h).logBloom))
for (TransactionReceipt receipt: bc().receipts(h).receipts)
if (_f.matches(receipt.bloom()))
for (auto const& e: _f.matches(receipt))
ret.insert(ret.begin(), LocalisedLogEntry(e, block));
h = bc().details(h).parent;
}
return ret;
}
unsigned MixClient::installWatch(h256 _h, eth::Reaping _r)
{
unsigned ret;
{
Guard l(m_filterLock);
ret = m_watches.size() ? m_watches.rbegin()->first + 1 : 0;
m_watches[ret] = ClientWatch(_h, _r);
}
auto ch = logs(ret);
if (ch.empty())
ch.push_back(eth::InitialChange);
{
Guard l(m_filterLock);
swap(m_watches[ret].changes, ch);
}
return ret;
}
unsigned MixClient::installWatch(eth::LogFilter const& _f, eth::Reaping _r)
{
h256 h = _f.sha3();
{
Guard l(m_filterLock);
m_filters.insert(std::make_pair(h, _f));
}
return installWatch(h, _r);
}
bool MixClient::uninstallWatch(unsigned _i)
{
Guard l(m_filterLock);
auto it = m_watches.find(_i);
if (it == m_watches.end())
return false;
auto id = it->second.id;
m_watches.erase(it);
auto fit = m_filters.find(id);
if (fit != m_filters.end())
if (!--fit->second.refCount)
m_filters.erase(fit);
return true;
}
void MixClient::noteChanged(h256Set const& _filters)
{
for (auto& i: m_watches)
@ -445,168 +300,26 @@ void MixClient::noteChanged(h256Set const& _filters)
i.second.changes.clear();
}
LocalisedLogEntries MixClient::peekWatch(unsigned _watchId) const
{
Guard l(m_filterLock);
if (_watchId < m_watches.size())
return m_watches.at(_watchId).changes;
return LocalisedLogEntries();
}
LocalisedLogEntries MixClient::checkWatch(unsigned _watchId)
{
Guard l(m_filterLock);
LocalisedLogEntries ret;
if (_watchId < m_watches.size())
std::swap(ret, m_watches.at(_watchId).changes);
return ret;
}
h256 MixClient::hashFromNumber(unsigned _number) const
{
ReadGuard l(x_state);
return bc().numberHash(_number);
}
eth::BlockInfo MixClient::blockInfo(h256 _hash) const
{
ReadGuard l(x_state);
return BlockInfo(bc().block(_hash));
}
eth::BlockInfo MixClient::blockInfo() const
{
ReadGuard l(x_state);
return BlockInfo(bc().block());
}
eth::BlockDetails MixClient::blockDetails(h256 _hash) const
{
ReadGuard l(x_state);
return bc().details(_hash);
}
Transaction MixClient::transaction(h256 _transactionHash) const
{
ReadGuard l(x_state);
return Transaction(bc().transaction(_transactionHash), CheckSignature::Range);
}
eth::Transaction MixClient::transaction(h256 _blockHash, unsigned _i) const
{
ReadGuard l(x_state);
auto bl = bc().block(_blockHash);
RLP b(bl);
if (_i < b[1].itemCount())
return Transaction(b[1][_i].data(), CheckSignature::Range);
else
return Transaction();
}
eth::BlockInfo MixClient::uncle(h256 _blockHash, unsigned _i) const
{
ReadGuard l(x_state);
auto bl = bc().block(_blockHash);
RLP b(bl);
if (_i < b[2].itemCount())
return BlockInfo::fromHeader(b[2][_i].data());
else
return BlockInfo();
}
unsigned MixClient::transactionCount(h256 _blockHash) const
{
ReadGuard l(x_state);
auto bl = bc().block(_blockHash);
RLP b(bl);
return b[1].itemCount();
}
unsigned MixClient::uncleCount(h256 _blockHash) const
{
ReadGuard l(x_state);
auto bl = bc().block(_blockHash);
RLP b(bl);
return b[2].itemCount();
}
Transactions MixClient::transactions(h256 _blockHash) const
{
ReadGuard l(x_state);
auto bl = bc().block(_blockHash);
RLP b(bl);
Transactions res;
for (unsigned i = 0; i < b[1].itemCount(); i++)
res.emplace_back(b[1][i].data(), CheckSignature::Range);
return res;
}
TransactionHashes MixClient::transactionHashes(h256 _blockHash) const
{
ReadGuard l(x_state);
return bc().transactionHashes(_blockHash);
}
unsigned MixClient::number() const
{
ReadGuard l(x_state);
return bc().number();
}
eth::Transactions MixClient::pending() const
{
ReadGuard l(x_state);
return m_state.pending();
}
eth::StateDiff MixClient::diff(unsigned _txi, h256 _block) const
{
ReadGuard l(x_state);
State st(m_stateDB, bc(), _block);
return st.fromPending(_txi).diff(st.fromPending(_txi + 1));
}
eth::StateDiff MixClient::diff(unsigned _txi, BlockNumber _block) const
{
State st = asOf(_block);
return st.fromPending(_txi).diff(st.fromPending(_txi + 1));
}
Addresses MixClient::addresses(BlockNumber _block) const
{
Addresses ret;
for (auto const& i: asOf(_block).addresses())
ret.push_back(i.first);
return ret;
}
u256 MixClient::gasLimitRemaining() const
{
ReadGuard l(x_state);
return m_state.gasLimitRemaining();
}
void MixClient::setAddress(Address _us)
{
WriteGuard l(x_state);
m_state.setAddress(_us);
}
Address MixClient::address() const
{
ReadGuard l(x_state);
return m_state.address();
}
void MixClient::setMiningThreads(unsigned _threads)
{
m_minigThreads = _threads;
m_miningThreads = _threads;
}
unsigned MixClient::miningThreads() const
{
return m_minigThreads;
return m_miningThreads;
}
void MixClient::startMining()

72
mix/MixClient.h

@ -25,8 +25,7 @@
#include <vector>
#include <string>
#include <libethcore/Common.h>
#include <libethereum/Interface.h>
#include <libethereum/ClientBase.h>
#include <libethereum/Client.h>
#include "MachineStates.h"
@ -35,9 +34,15 @@ namespace dev
namespace mix
{
class MixBlockChain;
class MixBlockChain: public dev::eth::BlockChain
{
public:
MixBlockChain(std::string const& _path, h256 _stateRoot): BlockChain(createGenesisBlock(_stateRoot), _path, true) {}
static bytes createGenesisBlock(h256 _stateRoot);
};
class MixClient: public dev::eth::Interface
class MixClient: public dev::eth::ClientBase
{
public:
MixClient(std::string const& _dbPath);
@ -48,43 +53,12 @@ public:
ExecutionResult lastExecution() const;
ExecutionResult execution(unsigned _index) const;
//dev::eth::Interface
void submitTransaction(Secret _secret, u256 _value, Address _dest, bytes const& _data, u256 _gas, u256 _gasPrice) override;
Address submitTransaction(Secret _secret, u256 _endowment, bytes const& _init, u256 _gas, u256 _gasPrice) override;
void inject(bytesConstRef _rlp) override;
void flushTransactions() override;
dev::eth::ExecutionResult call(Secret _secret, u256 _value, Address _dest, bytes const& _data, u256 _gas, u256 _gasPrice, eth::BlockNumber _blockNumber) override;
dev::eth::ExecutionResult create(Secret _secret, u256 _value, bytes const& _data, u256 _gas, u256 _gasPrice, eth::BlockNumber _blockNumber) override;
u256 balanceAt(Address _a, eth::BlockNumber _block) const override;
u256 countAt(Address _a, eth::BlockNumber _block) const override;
u256 stateAt(Address _a, u256 _l, eth::BlockNumber _block) const override;
bytes codeAt(Address _a, eth::BlockNumber _block) const override;
std::map<u256, u256> storageAt(Address _a, eth::BlockNumber _block) const override;
eth::LocalisedLogEntries logs(unsigned _watchId) const override;
eth::LocalisedLogEntries logs(eth::LogFilter const& _filter) const override;
unsigned installWatch(eth::LogFilter const& _filter, eth::Reaping _r = eth::Reaping::Automatic) override;
unsigned installWatch(h256 _filterId, eth::Reaping _r = eth::Reaping::Automatic) override;
bool uninstallWatch(unsigned _watchId) override;
eth::LocalisedLogEntries peekWatch(unsigned _watchId) const override;
eth::LocalisedLogEntries checkWatch(unsigned _watchId) override;
h256 hashFromNumber(unsigned _number) const override;
eth::BlockInfo blockInfo(h256 _hash) const override;
eth::BlockDetails blockDetails(h256 _hash) const override;
eth::Transaction transaction(h256 _transactionHash) const override;
eth::Transaction transaction(h256 _blockHash, unsigned _i) const override;
eth::BlockInfo uncle(h256 _blockHash, unsigned _i) const override;
unsigned transactionCount(h256 _blockHash) const override;
unsigned uncleCount(h256 _blockHash) const override;
eth::Transactions transactions(h256 _blockHash) const override;
eth::TransactionHashes transactionHashes(h256 _blockHash) const override;
unsigned number() const override;
eth::Transactions pending() const override;
eth::StateDiff diff(unsigned _txi, h256 _block) const override;
eth::StateDiff diff(unsigned _txi, eth::BlockNumber _block) const override;
Addresses addresses(eth::BlockNumber _block) const override;
u256 gasLimitRemaining() const override;
dev::eth::ExecutionResult call(Secret _secret, u256 _value, Address _dest, bytes const& _data, u256 _gas, u256 _gasPrice, eth::BlockNumber _blockNumber = eth::PendingBlock) override;
dev::eth::ExecutionResult create(Secret _secret, u256 _value, bytes const& _data = bytes(), u256 _gas = 10000, u256 _gasPrice = 10 * eth::szabo, eth::BlockNumber _blockNumber = eth::PendingBlock) override;
void setAddress(Address _us) override;
Address address() const override;
void setMiningThreads(unsigned _threads) override;
unsigned miningThreads() const override;
void startMining() override;
@ -93,16 +67,27 @@ public:
eth::MineProgress miningProgress() const override;
std::pair<h256, u256> getWork() override { return std::pair<h256, u256>(); }
bool submitWork(eth::ProofOfWork::Proof const&) override { return false; }
virtual void flushTransactions() override {}
/// @returns the last mined block information
using Interface::blockInfo; // to remove warning about hiding virtual function
eth::BlockInfo blockInfo() const;
std::vector<KeyPair> userAccounts() { return m_userAccounts; }
protected:
virtual dev::eth::BlockChain& bc() { return *m_bc; }
/// InterfaceStub methods
virtual dev::eth::State asOf(h256 const& _block) const override;
using ClientBase::asOf;
virtual dev::eth::BlockChain const& bc() const override { return *m_bc; }
virtual dev::eth::State preMine() const override { ReadGuard l(x_state); return m_startState; }
virtual dev::eth::State postMine() const override { ReadGuard l(x_state); return m_state; }
virtual void prepareForTransaction() override {}
private:
void executeTransaction(dev::eth::Transaction const& _t, eth::State& _state, bool _call);
void noteChanged(h256Set const& _filters);
dev::eth::State asOf(int _block) const;
MixBlockChain& bc() { return *m_bc; }
MixBlockChain const& bc() const { return *m_bc; }
std::vector<KeyPair> m_userAccounts;
eth::State m_state;
@ -111,12 +96,9 @@ private:
std::auto_ptr<MixBlockChain> m_bc;
mutable boost::shared_mutex x_state;
mutable boost::shared_mutex x_executions;
mutable std::mutex m_filterLock;
std::map<h256, dev::eth::InstalledFilter> m_filters;
std::map<unsigned, dev::eth::ClientWatch> m_watches;
ExecutionResults m_executions;
std::string m_dbPath;
unsigned m_minigThreads;
unsigned m_miningThreads;
};
}

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