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568 lines
14 KiB
568 lines
14 KiB
/*
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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 MixClient.cpp
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* @author Arkadiy Paronyan arkadiy@ethdev.com
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* @date 2015
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* Ethereum IDE client.
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*/
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#include <vector>
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#include <libdevcore/Exceptions.h>
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#include <libethereum/CanonBlockChain.h>
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#include <libethereum/Transaction.h>
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#include <libethereum/Executive.h>
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#include <libethereum/ExtVM.h>
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#include <libethereum/BlockChain.h>
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#include <libevm/VM.h>
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#include "Exceptions.h"
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#include "MixClient.h"
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using namespace dev;
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using namespace dev::eth;
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namespace dev
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{
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namespace mix
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{
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const Secret c_userAccountSecret = Secret("cb73d9408c4720e230387d956eb0f829d8a4dd2c1055f96257167e14e7169074");
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const u256 c_mixGenesisDifficulty = (u256) 1 << 4;
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class MixBlockChain: public dev::eth::BlockChain
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{
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public:
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MixBlockChain(std::string const& _path, h256 _stateRoot):
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BlockChain(createGenesisBlock(_stateRoot), _path, true)
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{
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}
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static bytes createGenesisBlock(h256 _stateRoot)
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{
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RLPStream block(3);
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block.appendList(16)
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<< h256() << EmptyListSHA3 << h160() << _stateRoot << EmptyTrie << EmptyTrie
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<< LogBloom() << c_mixGenesisDifficulty << 0 << 1000000 << 0 << (unsigned)0
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<< std::string() << h256() << h256() << h64(u64(42));
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block.appendRaw(RLPEmptyList);
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block.appendRaw(RLPEmptyList);
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return block.out();
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}
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};
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MixClient::MixClient(std::string const& _dbPath):
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m_userAccount(c_userAccountSecret), m_dbPath(_dbPath), m_minigThreads(0)
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{
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resetState(10000000 * ether);
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}
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MixClient::~MixClient()
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{
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}
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void MixClient::resetState(u256 _balance)
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{
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WriteGuard l(x_state);
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Guard fl(m_filterLock);
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m_filters.clear();
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m_watches.clear();
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m_stateDB = OverlayDB();
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SecureTrieDB<Address, MemoryDB> accountState(&m_stateDB);
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accountState.init();
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std::map<Address, Account> genesisState = { std::make_pair(KeyPair(c_userAccountSecret).address(), Account(_balance, Account::NormalCreation)) };
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dev::eth::commit(genesisState, static_cast<MemoryDB&>(m_stateDB), accountState);
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h256 stateRoot = accountState.root();
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m_bc.reset();
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m_bc.reset(new MixBlockChain(m_dbPath, stateRoot));
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m_state = eth::State(m_userAccount.address(), m_stateDB, BaseState::Empty);
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m_state.sync(bc());
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m_startState = m_state;
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m_executions.clear();
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}
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void MixClient::executeTransaction(Transaction const& _t, State& _state, bool _call)
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{
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bytes rlp = _t.rlp();
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// do debugging run first
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LastHashes lastHashes(256);
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lastHashes[0] = bc().numberHash(bc().number());
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for (unsigned i = 1; i < 256; ++i)
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lastHashes[i] = lastHashes[i - 1] ? bc().details(lastHashes[i - 1]).parent : h256();
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State execState = _state;
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Executive execution(execState, lastHashes, 0);
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execution.setup(&rlp);
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std::vector<MachineState> machineStates;
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std::vector<unsigned> levels;
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std::vector<MachineCode> codes;
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std::map<bytes const*, unsigned> codeIndexes;
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std::vector<bytes> data;
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std::map<bytesConstRef const*, unsigned> dataIndexes;
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bytes const* lastCode = nullptr;
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bytesConstRef const* lastData = nullptr;
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unsigned codeIndex = 0;
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unsigned dataIndex = 0;
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auto onOp = [&](uint64_t steps, Instruction inst, dev::bigint newMemSize, dev::bigint gasCost, void* voidVM, void const* voidExt)
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{
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VM& vm = *static_cast<VM*>(voidVM);
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ExtVM const& ext = *static_cast<ExtVM const*>(voidExt);
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if (lastCode == nullptr || lastCode != &ext.code)
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{
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auto const& iter = codeIndexes.find(&ext.code);
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if (iter != codeIndexes.end())
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codeIndex = iter->second;
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else
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{
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codeIndex = codes.size();
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codes.push_back(MachineCode({ext.myAddress, ext.code}));
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codeIndexes[&ext.code] = codeIndex;
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}
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lastCode = &ext.code;
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}
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if (lastData == nullptr || lastData != &ext.data)
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{
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auto const& iter = dataIndexes.find(&ext.data);
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if (iter != dataIndexes.end())
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dataIndex = iter->second;
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else
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{
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dataIndex = data.size();
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data.push_back(ext.data.toBytes());
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dataIndexes[&ext.data] = dataIndex;
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}
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lastData = &ext.data;
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}
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if (levels.size() < ext.depth)
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levels.push_back(machineStates.size() - 1);
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else
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levels.resize(ext.depth);
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machineStates.emplace_back(MachineState({steps, vm.curPC(), inst, newMemSize, vm.gas(),
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vm.stack(), vm.memory(), gasCost, ext.state().storage(ext.myAddress), levels, codeIndex, dataIndex}));
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};
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execution.go(onOp);
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execution.finalize();
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ExecutionResult d;
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d.returnValue = execution.out().toVector();
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d.machineStates = machineStates;
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d.executionCode = std::move(codes);
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d.transactionData = std::move(data);
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d.address = _t.receiveAddress();
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d.sender = _t.sender();
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d.value = _t.value();
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if (_t.isCreation())
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d.contractAddress = right160(sha3(rlpList(_t.sender(), _t.nonce())));
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if (!_call)
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d.transactionIndex = m_state.pending().size();
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m_executions.emplace_back(std::move(d));
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// execute on a state
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if (!_call)
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{
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_state.execute(lastHashes, rlp, nullptr, true);
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// collect watches
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h256Set changed;
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Guard l(m_filterLock);
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for (std::pair<h256 const, eth::InstalledFilter>& i: m_filters)
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if ((unsigned)i.second.filter.latest() > bc().number())
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{
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// acceptable number.
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auto m = i.second.filter.matches(_state.receipt(_state.pending().size() - 1));
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if (m.size())
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{
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// filter catches them
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for (LogEntry const& l: m)
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i.second.changes.push_back(LocalisedLogEntry(l, bc().number() + 1));
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changed.insert(i.first);
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}
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}
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changed.insert(dev::eth::PendingChangedFilter);
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noteChanged(changed);
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}
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}
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void MixClient::mine()
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{
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WriteGuard l(x_state);
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m_state.commitToMine(bc());
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while (!m_state.mine(100, true).completed) {}
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m_state.completeMine();
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bc().import(m_state.blockData(), m_stateDB);
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m_state.sync(bc());
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m_startState = m_state;
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h256Set changed { dev::eth::PendingChangedFilter, dev::eth::ChainChangedFilter };
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noteChanged(changed);
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}
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ExecutionResult const& MixClient::lastExecution() const
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{
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return m_executions.back();
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}
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ExecutionResults const& MixClient::executions() const
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{
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return m_executions;
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}
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State MixClient::asOf(int _block) const
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{
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ReadGuard l(x_state);
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if (_block == 0)
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return m_state;
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else if (_block == -1)
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return m_startState;
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else
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return State(m_stateDB, bc(), bc().numberHash(_block));
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}
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void MixClient::transact(Secret _secret, u256 _value, Address _dest, bytes const& _data, u256 _gas, u256 _gasPrice)
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{
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WriteGuard l(x_state);
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u256 n = m_state.transactionsFrom(toAddress(_secret));
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Transaction t(_value, _gasPrice, _gas, _dest, _data, n, _secret);
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executeTransaction(t, m_state, false);
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}
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Address MixClient::transact(Secret _secret, u256 _endowment, bytes const& _init, u256 _gas, u256 _gasPrice)
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{
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WriteGuard l(x_state);
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u256 n = m_state.transactionsFrom(toAddress(_secret));
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eth::Transaction t(_endowment, _gasPrice, _gas, _init, n, _secret);
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executeTransaction(t, m_state, false);
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Address address = right160(sha3(rlpList(t.sender(), t.nonce())));
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return address;
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}
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void MixClient::inject(bytesConstRef _rlp)
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{
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WriteGuard l(x_state);
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eth::Transaction t(_rlp, CheckSignature::None);
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executeTransaction(t, m_state, false);
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}
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void MixClient::flushTransactions()
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{
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}
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bytes MixClient::call(Secret _secret, u256 _value, Address _dest, bytes const& _data, u256 _gas, u256 _gasPrice)
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{
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u256 n;
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State temp;
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{
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ReadGuard lr(x_state);
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temp = m_state;
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n = temp.transactionsFrom(toAddress(_secret));
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}
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Transaction t(_value, _gasPrice, _gas, _dest, _data, n, _secret);
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bytes rlp = t.rlp();
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WriteGuard lw(x_state); //TODO: lock is required only for last execution state
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executeTransaction(t, temp, true);
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return lastExecution().returnValue;
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}
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u256 MixClient::balanceAt(Address _a, int _block) const
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{
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return asOf(_block).balance(_a);
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}
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u256 MixClient::countAt(Address _a, int _block) const
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{
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return asOf(_block).transactionsFrom(_a);
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}
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u256 MixClient::stateAt(Address _a, u256 _l, int _block) const
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{
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return asOf(_block).storage(_a, _l);
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}
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bytes MixClient::codeAt(Address _a, int _block) const
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{
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return asOf(_block).code(_a);
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}
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std::map<u256, u256> MixClient::storageAt(Address _a, int _block) const
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{
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return asOf(_block).storage(_a);
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}
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eth::LocalisedLogEntries MixClient::logs(unsigned _watchId) const
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{
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Guard l(m_filterLock);
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h256 h = m_watches.at(_watchId).id;
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auto filterIter = m_filters.find(h);
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if (filterIter != m_filters.end())
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return logs(filterIter->second.filter);
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return eth::LocalisedLogEntries();
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}
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eth::LocalisedLogEntries MixClient::logs(eth::LogFilter const& _f) const
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{
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LocalisedLogEntries ret;
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unsigned lastBlock = bc().number();
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unsigned block = std::min<unsigned>(lastBlock, (unsigned)_f.latest());
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unsigned end = std::min(lastBlock, std::min(block, (unsigned)_f.earliest()));
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unsigned skip = _f.skip();
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// Pending transactions
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if (block > bc().number())
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{
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ReadGuard l(x_state);
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for (unsigned i = 0; i < m_state.pending().size(); ++i)
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{
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// Might have a transaction that contains a matching log.
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TransactionReceipt const& tr = m_state.receipt(i);
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LogEntries logEntries = _f.matches(tr);
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for (unsigned entry = 0; entry < logEntries.size() && ret.size() != _f.max(); ++entry)
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ret.insert(ret.begin(), LocalisedLogEntry(logEntries[entry], block));
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skip -= std::min(skip, static_cast<unsigned>(logEntries.size()));
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}
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block = bc().number();
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}
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// The rest
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auto h = bc().numberHash(block);
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for (; ret.size() != block && block != end; block--)
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{
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if (_f.matches(bc().info(h).logBloom))
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for (TransactionReceipt receipt: bc().receipts(h).receipts)
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if (_f.matches(receipt.bloom()))
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{
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LogEntries logEntries = _f.matches(receipt);
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for (unsigned entry = skip; entry < logEntries.size() && ret.size() != _f.max(); ++entry)
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ret.insert(ret.begin(), LocalisedLogEntry(logEntries[entry], block));
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skip -= std::min(skip, static_cast<unsigned>(logEntries.size()));
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}
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h = bc().details(h).parent;
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}
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return ret;
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}
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unsigned MixClient::installWatch(h256 _h)
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{
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unsigned ret;
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{
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Guard l(m_filterLock);
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ret = m_watches.size() ? m_watches.rbegin()->first + 1 : 0;
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m_watches[ret] = ClientWatch(_h);
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}
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auto ch = logs(ret);
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if (ch.empty())
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ch.push_back(eth::InitialChange);
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{
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Guard l(m_filterLock);
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swap(m_watches[ret].changes, ch);
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}
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return ret;
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}
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unsigned MixClient::installWatch(eth::LogFilter const& _f)
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{
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h256 h = _f.sha3();
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{
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Guard l(m_filterLock);
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m_filters.insert(std::make_pair(h, _f));
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}
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return installWatch(h);
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}
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void MixClient::uninstallWatch(unsigned _i)
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{
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Guard l(m_filterLock);
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auto it = m_watches.find(_i);
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if (it == m_watches.end())
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return;
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auto id = it->second.id;
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m_watches.erase(it);
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auto fit = m_filters.find(id);
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if (fit != m_filters.end())
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if (!--fit->second.refCount)
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m_filters.erase(fit);
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}
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void MixClient::noteChanged(h256Set const& _filters)
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{
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for (auto& i: m_watches)
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if (_filters.count(i.second.id))
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{
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if (m_filters.count(i.second.id))
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i.second.changes += m_filters.at(i.second.id).changes;
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else
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i.second.changes.push_back(LocalisedLogEntry(SpecialLogEntry, 0));
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}
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for (auto& i: m_filters)
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i.second.changes.clear();
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}
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LocalisedLogEntries MixClient::peekWatch(unsigned _watchId) const
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{
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Guard l(m_filterLock);
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if (_watchId < m_watches.size())
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return m_watches.at(_watchId).changes;
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return LocalisedLogEntries();
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}
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LocalisedLogEntries MixClient::checkWatch(unsigned _watchId)
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{
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Guard l(m_filterLock);
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LocalisedLogEntries ret;
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if (_watchId < m_watches.size())
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std::swap(ret, m_watches.at(_watchId).changes);
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return ret;
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}
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h256 MixClient::hashFromNumber(unsigned _number) const
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{
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return bc().numberHash(_number);
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}
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eth::BlockInfo MixClient::blockInfo(h256 _hash) const
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{
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return BlockInfo(bc().block(_hash));
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}
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eth::BlockInfo MixClient::blockInfo() const
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{
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return BlockInfo(bc().block());
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}
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eth::BlockDetails MixClient::blockDetails(h256 _hash) const
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{
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return bc().details(_hash);
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}
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eth::Transaction MixClient::transaction(h256 _blockHash, unsigned _i) const
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{
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auto bl = bc().block(_blockHash);
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RLP b(bl);
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if (_i < b[1].itemCount())
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return Transaction(b[1][_i].data(), CheckSignature::Range);
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else
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return Transaction();
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}
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eth::BlockInfo MixClient::uncle(h256 _blockHash, unsigned _i) const
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{
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auto bl = bc().block(_blockHash);
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RLP b(bl);
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if (_i < b[2].itemCount())
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return BlockInfo::fromHeader(b[2][_i].data());
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else
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return BlockInfo();
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}
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unsigned MixClient::transactionCount(h256 _blockHash) const
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{
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auto bl = bc().block(_blockHash);
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RLP b(bl);
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return b[1].itemCount();
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}
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unsigned MixClient::uncleCount(h256 _blockHash) const
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{
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auto bl = bc().block(_blockHash);
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RLP b(bl);
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return b[2].itemCount();
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}
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unsigned MixClient::number() const
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{
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return bc().number();
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}
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eth::Transactions MixClient::pending() const
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{
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return m_state.pending();
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}
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eth::StateDiff MixClient::diff(unsigned _txi, h256 _block) const
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{
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State st(m_stateDB, bc(), _block);
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return st.fromPending(_txi).diff(st.fromPending(_txi + 1));
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}
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eth::StateDiff MixClient::diff(unsigned _txi, int _block) const
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{
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State st = asOf(_block);
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return st.fromPending(_txi).diff(st.fromPending(_txi + 1));
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}
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Addresses MixClient::addresses(int _block) const
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{
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Addresses ret;
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for (auto const& i: asOf(_block).addresses())
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ret.push_back(i.first);
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return ret;
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}
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u256 MixClient::gasLimitRemaining() const
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{
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ReadGuard l(x_state);
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return m_state.gasLimitRemaining();
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}
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|
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void MixClient::setAddress(Address _us)
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|
{
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|
WriteGuard l(x_state);
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|
m_state.setAddress(_us);
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}
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|
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Address MixClient::address() const
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|
{
|
|
ReadGuard l(x_state);
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|
return m_state.address();
|
|
}
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|
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void MixClient::setMiningThreads(unsigned _threads)
|
|
{
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|
m_minigThreads = _threads;
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|
}
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|
|
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unsigned MixClient::miningThreads() const
|
|
{
|
|
return m_minigThreads;
|
|
}
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|
|
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void MixClient::startMining()
|
|
{
|
|
//no-op
|
|
}
|
|
|
|
void MixClient::stopMining()
|
|
{
|
|
//no-op
|
|
}
|
|
|
|
bool MixClient::isMining()
|
|
{
|
|
return false;
|
|
}
|
|
|
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eth::MineProgress MixClient::miningProgress() const
|
|
{
|
|
return eth::MineProgress();
|
|
}
|
|
|
|
}
|
|
}
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|