mirror of
https://github.com/ethereum/solidity
synced 2023-10-03 13:03:40 +00:00
670 lines
19 KiB
C++
670 lines
19 KiB
C++
/*
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This file is part of solidity.
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solidity 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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solidity 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 solidity. If not, see <http://www.gnu.org/licenses/>.
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*/
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/** @file Assembly.cpp
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* @author Gav Wood <i@gavwood.com>
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* @date 2014
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*/
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#include "Assembly.h"
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#include <libevmasm/CommonSubexpressionEliminator.h>
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#include <libevmasm/ControlFlowGraph.h>
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#include <libevmasm/PeepholeOptimiser.h>
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#include <libevmasm/JumpdestRemover.h>
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#include <libevmasm/BlockDeduplicator.h>
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#include <libevmasm/ConstantOptimiser.h>
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#include <libevmasm/GasMeter.h>
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#include <fstream>
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#include <json/json.h>
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using namespace std;
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using namespace dev;
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using namespace dev::eth;
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void Assembly::append(Assembly const& _a)
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{
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auto newDeposit = m_deposit + _a.deposit();
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for (AssemblyItem i: _a.m_items)
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{
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if (i.type() == Tag || i.type() == PushTag)
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i.setData(i.data() + m_usedTags);
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else if (i.type() == PushSub || i.type() == PushSubSize)
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i.setData(i.data() + m_subs.size());
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append(i);
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}
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m_deposit = newDeposit;
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m_usedTags += _a.m_usedTags;
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// This does not transfer the names of named tags on purpose. The tags themselves are
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// transferred, but their names are only available inside the assembly.
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for (auto const& i: _a.m_data)
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m_data.insert(i);
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for (auto const& i: _a.m_strings)
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m_strings.insert(i);
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m_subs += _a.m_subs;
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for (auto const& lib: _a.m_libraries)
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m_libraries.insert(lib);
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}
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void Assembly::append(Assembly const& _a, int _deposit)
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{
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assertThrow(_deposit <= _a.m_deposit, InvalidDeposit, "");
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append(_a);
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while (_deposit++ < _a.m_deposit)
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append(Instruction::POP);
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}
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unsigned Assembly::bytesRequired(unsigned subTagSize) const
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{
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for (unsigned tagSize = subTagSize; true; ++tagSize)
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{
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unsigned ret = 1;
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for (auto const& i: m_data)
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ret += i.second.size();
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for (AssemblyItem const& i: m_items)
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ret += i.bytesRequired(tagSize);
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if (dev::bytesRequired(ret) <= tagSize)
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return ret;
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}
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}
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namespace
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{
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string locationFromSources(StringMap const& _sourceCodes, SourceLocation const& _location)
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{
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if (_location.isEmpty() || _sourceCodes.empty() || _location.start >= _location.end || _location.start < 0)
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return "";
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auto it = _sourceCodes.find(*_location.sourceName);
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if (it == _sourceCodes.end())
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return "";
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string const& source = it->second;
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if (size_t(_location.start) >= source.size())
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return "";
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string cut = source.substr(_location.start, _location.end - _location.start);
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auto newLinePos = cut.find_first_of("\n");
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if (newLinePos != string::npos)
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cut = cut.substr(0, newLinePos) + "...";
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return cut;
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}
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class Functionalizer
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{
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public:
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Functionalizer (ostream& _out, string const& _prefix, StringMap const& _sourceCodes):
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m_out(_out), m_prefix(_prefix), m_sourceCodes(_sourceCodes)
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{}
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void feed(AssemblyItem const& _item)
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{
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if (!_item.location().isEmpty() && _item.location() != m_location)
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{
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flush();
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m_location = _item.location();
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printLocation();
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}
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if (!(
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_item.canBeFunctional() &&
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_item.returnValues() <= 1 &&
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_item.arguments() <= int(m_pending.size())
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))
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{
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flush();
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m_out << m_prefix << (_item.type() == Tag ? "" : " ") << _item.toAssemblyText() << endl;
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return;
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}
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string expression = _item.toAssemblyText();
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if (_item.arguments() > 0)
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{
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expression += "(";
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for (int i = 0; i < _item.arguments(); ++i)
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{
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expression += m_pending.back();
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m_pending.pop_back();
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if (i + 1 < _item.arguments())
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expression += ", ";
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}
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expression += ")";
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}
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m_pending.push_back(expression);
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if (_item.returnValues() != 1)
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flush();
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}
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void flush()
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{
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for (string const& expression: m_pending)
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m_out << m_prefix << " " << expression << endl;
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m_pending.clear();
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}
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void printLocation()
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{
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if (!m_location.sourceName && m_location.isEmpty())
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return;
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m_out << m_prefix << " /*";
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if (m_location.sourceName)
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m_out << " \"" + *m_location.sourceName + "\"";
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if (!m_location.isEmpty())
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m_out << ":" << to_string(m_location.start) + ":" + to_string(m_location.end);
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m_out << " " << locationFromSources(m_sourceCodes, m_location);
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m_out << " */" << endl;
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}
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private:
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strings m_pending;
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SourceLocation m_location;
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ostream& m_out;
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string const& m_prefix;
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StringMap const& m_sourceCodes;
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};
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}
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void Assembly::assemblyStream(ostream& _out, string const& _prefix, StringMap const& _sourceCodes) const
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{
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Functionalizer f(_out, _prefix, _sourceCodes);
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for (auto const& i: m_items)
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f.feed(i);
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f.flush();
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if (!m_data.empty() || !m_subs.empty())
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{
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_out << _prefix << "stop" << endl;
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for (auto const& i: m_data)
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if (u256(i.first) >= m_subs.size())
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_out << _prefix << "data_" << toHex(u256(i.first)) << " " << toHex(i.second) << endl;
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for (size_t i = 0; i < m_subs.size(); ++i)
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{
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_out << endl << _prefix << "sub_" << i << ": assembly {\n";
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m_subs[i]->assemblyStream(_out, _prefix + " ", _sourceCodes);
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_out << _prefix << "}" << endl;
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}
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}
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if (m_auxiliaryData.size() > 0)
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_out << endl << _prefix << "auxdata: 0x" << toHex(m_auxiliaryData) << endl;
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}
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string Assembly::assemblyString(StringMap const& _sourceCodes) const
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{
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ostringstream tmp;
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assemblyStream(tmp, "", _sourceCodes);
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return tmp.str();
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}
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Json::Value Assembly::createJsonValue(string _name, int _begin, int _end, string _value, string _jumpType)
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{
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Json::Value value;
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value["name"] = _name;
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value["begin"] = _begin;
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value["end"] = _end;
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if (!_value.empty())
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value["value"] = _value;
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if (!_jumpType.empty())
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value["jumpType"] = _jumpType;
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return value;
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}
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string Assembly::toStringInHex(u256 _value)
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{
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std::stringstream hexStr;
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hexStr << hex << _value;
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return hexStr.str();
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}
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Json::Value Assembly::assemblyJSON(StringMap const& _sourceCodes) const
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{
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Json::Value root;
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Json::Value& collection = root[".code"] = Json::arrayValue;
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for (AssemblyItem const& i: m_items)
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{
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switch (i.type())
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{
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case Operation:
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collection.append(
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createJsonValue(instructionInfo(i.instruction()).name, i.location().start, i.location().end, i.getJumpTypeAsString()));
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break;
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case Push:
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collection.append(
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createJsonValue("PUSH", i.location().start, i.location().end, toStringInHex(i.data()), i.getJumpTypeAsString()));
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break;
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case PushString:
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collection.append(
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createJsonValue("PUSH tag", i.location().start, i.location().end, m_strings.at((h256)i.data())));
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break;
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case PushTag:
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if (i.data() == 0)
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collection.append(
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createJsonValue("PUSH [ErrorTag]", i.location().start, i.location().end, ""));
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else
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collection.append(
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createJsonValue("PUSH [tag]", i.location().start, i.location().end, string(i.data())));
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break;
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case PushSub:
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collection.append(
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createJsonValue("PUSH [$]", i.location().start, i.location().end, dev::toString(h256(i.data()))));
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break;
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case PushSubSize:
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collection.append(
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createJsonValue("PUSH #[$]", i.location().start, i.location().end, dev::toString(h256(i.data()))));
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break;
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case PushProgramSize:
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collection.append(
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createJsonValue("PUSHSIZE", i.location().start, i.location().end));
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break;
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case PushLibraryAddress:
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collection.append(
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createJsonValue("PUSHLIB", i.location().start, i.location().end, m_libraries.at(h256(i.data())))
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);
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break;
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case PushDeployTimeAddress:
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collection.append(
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createJsonValue("PUSHDEPLOYADDRESS", i.location().start, i.location().end)
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);
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break;
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case Tag:
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collection.append(
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createJsonValue("tag", i.location().start, i.location().end, string(i.data())));
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collection.append(
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createJsonValue("JUMPDEST", i.location().start, i.location().end));
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break;
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case PushData:
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collection.append(createJsonValue("PUSH data", i.location().start, i.location().end, toStringInHex(i.data())));
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break;
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default:
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BOOST_THROW_EXCEPTION(InvalidOpcode());
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}
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}
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if (!m_data.empty() || !m_subs.empty())
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{
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Json::Value& data = root[".data"] = Json::objectValue;
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for (auto const& i: m_data)
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if (u256(i.first) >= m_subs.size())
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data[toStringInHex((u256)i.first)] = toHex(i.second);
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for (size_t i = 0; i < m_subs.size(); ++i)
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{
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std::stringstream hexStr;
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hexStr << hex << i;
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data[hexStr.str()] = m_subs[i]->assemblyJSON(_sourceCodes);
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}
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}
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if (m_auxiliaryData.size() > 0)
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root[".auxdata"] = toHex(m_auxiliaryData);
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return root;
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}
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AssemblyItem const& Assembly::append(AssemblyItem const& _i)
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{
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assertThrow(m_deposit >= 0, AssemblyException, "Stack underflow.");
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m_deposit += _i.deposit();
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m_items.push_back(_i);
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if (m_items.back().location().isEmpty() && !m_currentSourceLocation.isEmpty())
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m_items.back().setLocation(m_currentSourceLocation);
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return back();
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}
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AssemblyItem Assembly::namedTag(string const& _name)
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{
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assertThrow(!_name.empty(), AssemblyException, "Empty named tag.");
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if (!m_namedTags.count(_name))
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m_namedTags[_name] = size_t(newTag().data());
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return AssemblyItem(Tag, m_namedTags.at(_name));
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}
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AssemblyItem Assembly::newPushLibraryAddress(string const& _identifier)
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{
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h256 h(dev::keccak256(_identifier));
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m_libraries[h] = _identifier;
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return AssemblyItem(PushLibraryAddress, h);
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}
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void Assembly::injectStart(AssemblyItem const& _i)
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{
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m_items.insert(m_items.begin(), _i);
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}
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Assembly& Assembly::optimise(bool _enable, bool _isCreation, size_t _runs)
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{
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OptimiserSettings settings;
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settings.isCreation = _isCreation;
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settings.runJumpdestRemover = true;
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settings.runPeephole = true;
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if (_enable)
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{
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settings.runDeduplicate = true;
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settings.runCSE = true;
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settings.runConstantOptimiser = true;
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}
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settings.expectedExecutionsPerDeployment = _runs;
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optimise(settings);
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return *this;
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}
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Assembly& Assembly::optimise(OptimiserSettings const& _settings)
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{
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optimiseInternal(_settings, {});
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return *this;
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}
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map<u256, u256> Assembly::optimiseInternal(
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OptimiserSettings const& _settings,
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std::set<size_t> const& _tagsReferencedFromOutside
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)
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{
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// Run optimisation for sub-assemblies.
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for (size_t subId = 0; subId < m_subs.size(); ++subId)
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{
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OptimiserSettings settings = _settings;
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// Disable creation mode for sub-assemblies.
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settings.isCreation = false;
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map<u256, u256> subTagReplacements = m_subs[subId]->optimiseInternal(
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settings,
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JumpdestRemover::referencedTags(m_items, subId)
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);
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// Apply the replacements (can be empty).
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BlockDeduplicator::applyTagReplacement(m_items, subTagReplacements, subId);
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}
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map<u256, u256> tagReplacements;
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// Iterate until no new optimisation possibilities are found.
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for (unsigned count = 1; count > 0;)
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{
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count = 0;
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if (_settings.runJumpdestRemover)
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{
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JumpdestRemover jumpdestOpt(m_items);
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if (jumpdestOpt.optimise(_tagsReferencedFromOutside))
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count++;
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}
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if (_settings.runPeephole)
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{
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PeepholeOptimiser peepOpt(m_items);
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while (peepOpt.optimise())
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{
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count++;
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assertThrow(count < 64000, OptimizerException, "Peephole optimizer seems to be stuck.");
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}
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}
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// This only modifies PushTags, we have to run again to actually remove code.
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if (_settings.runDeduplicate)
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{
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BlockDeduplicator dedup(m_items);
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if (dedup.deduplicate())
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{
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tagReplacements.insert(dedup.replacedTags().begin(), dedup.replacedTags().end());
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count++;
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}
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}
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if (_settings.runCSE)
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{
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// Control flow graph optimization has been here before but is disabled because it
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// assumes we only jump to tags that are pushed. This is not the case anymore with
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// function types that can be stored in storage.
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AssemblyItems optimisedItems;
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auto iter = m_items.begin();
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while (iter != m_items.end())
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{
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KnownState emptyState;
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CommonSubexpressionEliminator eliminator(emptyState);
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auto orig = iter;
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iter = eliminator.feedItems(iter, m_items.end());
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bool shouldReplace = false;
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AssemblyItems optimisedChunk;
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try
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{
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optimisedChunk = eliminator.getOptimizedItems();
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shouldReplace = (optimisedChunk.size() < size_t(iter - orig));
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}
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catch (StackTooDeepException const&)
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{
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// This might happen if the opcode reconstruction is not as efficient
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// as the hand-crafted code.
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}
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catch (ItemNotAvailableException const&)
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{
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// This might happen if e.g. associativity and commutativity rules
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// reorganise the expression tree, but not all leaves are available.
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}
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if (shouldReplace)
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{
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count++;
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optimisedItems += optimisedChunk;
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}
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else
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copy(orig, iter, back_inserter(optimisedItems));
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}
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if (optimisedItems.size() < m_items.size())
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{
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m_items = move(optimisedItems);
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count++;
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}
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}
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}
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if (_settings.runConstantOptimiser)
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ConstantOptimisationMethod::optimiseConstants(
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_settings.isCreation,
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_settings.isCreation ? 1 : _settings.expectedExecutionsPerDeployment,
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*this,
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m_items
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);
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return tagReplacements;
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}
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LinkerObject const& Assembly::assemble() const
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{
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if (!m_assembledObject.bytecode.empty())
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return m_assembledObject;
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size_t subTagSize = 1;
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for (auto const& sub: m_subs)
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{
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sub->assemble();
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for (size_t tagPos: sub->m_tagPositionsInBytecode)
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if (tagPos != size_t(-1) && tagPos > subTagSize)
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subTagSize = tagPos;
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}
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LinkerObject& ret = m_assembledObject;
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size_t bytesRequiredForCode = bytesRequired(subTagSize);
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m_tagPositionsInBytecode = vector<size_t>(m_usedTags, -1);
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map<size_t, pair<size_t, size_t>> tagRef;
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multimap<h256, unsigned> dataRef;
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multimap<size_t, size_t> subRef;
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vector<unsigned> sizeRef; ///< Pointers to code locations where the size of the program is inserted
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unsigned bytesPerTag = dev::bytesRequired(bytesRequiredForCode);
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byte tagPush = (byte)Instruction::PUSH1 - 1 + bytesPerTag;
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unsigned bytesRequiredIncludingData = bytesRequiredForCode + 1 + m_auxiliaryData.size();
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for (auto const& sub: m_subs)
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bytesRequiredIncludingData += sub->assemble().bytecode.size();
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unsigned bytesPerDataRef = dev::bytesRequired(bytesRequiredIncludingData);
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byte dataRefPush = (byte)Instruction::PUSH1 - 1 + bytesPerDataRef;
|
|
ret.bytecode.reserve(bytesRequiredIncludingData);
|
|
|
|
for (AssemblyItem const& i: m_items)
|
|
{
|
|
// store position of the invalid jump destination
|
|
if (i.type() != Tag && m_tagPositionsInBytecode[0] == size_t(-1))
|
|
m_tagPositionsInBytecode[0] = ret.bytecode.size();
|
|
|
|
switch (i.type())
|
|
{
|
|
case Operation:
|
|
ret.bytecode.push_back((byte)i.instruction());
|
|
break;
|
|
case PushString:
|
|
{
|
|
ret.bytecode.push_back((byte)Instruction::PUSH32);
|
|
unsigned ii = 0;
|
|
for (auto j: m_strings.at((h256)i.data()))
|
|
if (++ii > 32)
|
|
break;
|
|
else
|
|
ret.bytecode.push_back((byte)j);
|
|
while (ii++ < 32)
|
|
ret.bytecode.push_back(0);
|
|
break;
|
|
}
|
|
case Push:
|
|
{
|
|
byte b = max<unsigned>(1, dev::bytesRequired(i.data()));
|
|
ret.bytecode.push_back((byte)Instruction::PUSH1 - 1 + b);
|
|
ret.bytecode.resize(ret.bytecode.size() + b);
|
|
bytesRef byr(&ret.bytecode.back() + 1 - b, b);
|
|
toBigEndian(i.data(), byr);
|
|
break;
|
|
}
|
|
case PushTag:
|
|
{
|
|
ret.bytecode.push_back(tagPush);
|
|
tagRef[ret.bytecode.size()] = i.splitForeignPushTag();
|
|
ret.bytecode.resize(ret.bytecode.size() + bytesPerTag);
|
|
break;
|
|
}
|
|
case PushData:
|
|
ret.bytecode.push_back(dataRefPush);
|
|
dataRef.insert(make_pair((h256)i.data(), ret.bytecode.size()));
|
|
ret.bytecode.resize(ret.bytecode.size() + bytesPerDataRef);
|
|
break;
|
|
case PushSub:
|
|
ret.bytecode.push_back(dataRefPush);
|
|
subRef.insert(make_pair(size_t(i.data()), ret.bytecode.size()));
|
|
ret.bytecode.resize(ret.bytecode.size() + bytesPerDataRef);
|
|
break;
|
|
case PushSubSize:
|
|
{
|
|
auto s = m_subs.at(size_t(i.data()))->assemble().bytecode.size();
|
|
i.setPushedValue(u256(s));
|
|
byte b = max<unsigned>(1, dev::bytesRequired(s));
|
|
ret.bytecode.push_back((byte)Instruction::PUSH1 - 1 + b);
|
|
ret.bytecode.resize(ret.bytecode.size() + b);
|
|
bytesRef byr(&ret.bytecode.back() + 1 - b, b);
|
|
toBigEndian(s, byr);
|
|
break;
|
|
}
|
|
case PushProgramSize:
|
|
{
|
|
ret.bytecode.push_back(dataRefPush);
|
|
sizeRef.push_back(ret.bytecode.size());
|
|
ret.bytecode.resize(ret.bytecode.size() + bytesPerDataRef);
|
|
break;
|
|
}
|
|
case PushLibraryAddress:
|
|
ret.bytecode.push_back(byte(Instruction::PUSH20));
|
|
ret.linkReferences[ret.bytecode.size()] = m_libraries.at(i.data());
|
|
ret.bytecode.resize(ret.bytecode.size() + 20);
|
|
break;
|
|
case PushDeployTimeAddress:
|
|
ret.bytecode.push_back(byte(Instruction::PUSH20));
|
|
ret.bytecode.resize(ret.bytecode.size() + 20);
|
|
break;
|
|
case Tag:
|
|
assertThrow(i.data() != 0, AssemblyException, "Invalid tag position.");
|
|
assertThrow(i.splitForeignPushTag().first == size_t(-1), AssemblyException, "Foreign tag.");
|
|
assertThrow(ret.bytecode.size() < 0xffffffffL, AssemblyException, "Tag too large.");
|
|
assertThrow(m_tagPositionsInBytecode[size_t(i.data())] == size_t(-1), AssemblyException, "Duplicate tag position.");
|
|
m_tagPositionsInBytecode[size_t(i.data())] = ret.bytecode.size();
|
|
ret.bytecode.push_back((byte)Instruction::JUMPDEST);
|
|
break;
|
|
default:
|
|
BOOST_THROW_EXCEPTION(InvalidOpcode());
|
|
}
|
|
}
|
|
|
|
if (!m_subs.empty() || !m_data.empty() || !m_auxiliaryData.empty())
|
|
// Append a STOP just to be sure.
|
|
ret.bytecode.push_back(0);
|
|
|
|
for (size_t i = 0; i < m_subs.size(); ++i)
|
|
{
|
|
auto references = subRef.equal_range(i);
|
|
if (references.first == references.second)
|
|
continue;
|
|
for (auto ref = references.first; ref != references.second; ++ref)
|
|
{
|
|
bytesRef r(ret.bytecode.data() + ref->second, bytesPerDataRef);
|
|
toBigEndian(ret.bytecode.size(), r);
|
|
}
|
|
ret.append(m_subs[i]->assemble());
|
|
}
|
|
for (auto const& i: tagRef)
|
|
{
|
|
size_t subId;
|
|
size_t tagId;
|
|
tie(subId, tagId) = i.second;
|
|
assertThrow(subId == size_t(-1) || subId < m_subs.size(), AssemblyException, "Invalid sub id");
|
|
std::vector<size_t> const& tagPositions =
|
|
subId == size_t(-1) ?
|
|
m_tagPositionsInBytecode :
|
|
m_subs[subId]->m_tagPositionsInBytecode;
|
|
assertThrow(tagId < tagPositions.size(), AssemblyException, "Reference to non-existing tag.");
|
|
size_t pos = tagPositions[tagId];
|
|
assertThrow(pos != size_t(-1), AssemblyException, "Reference to tag without position.");
|
|
assertThrow(dev::bytesRequired(pos) <= bytesPerTag, AssemblyException, "Tag too large for reserved space.");
|
|
bytesRef r(ret.bytecode.data() + i.first, bytesPerTag);
|
|
toBigEndian(pos, r);
|
|
}
|
|
for (auto const& dataItem: m_data)
|
|
{
|
|
auto references = dataRef.equal_range(dataItem.first);
|
|
if (references.first == references.second)
|
|
continue;
|
|
for (auto ref = references.first; ref != references.second; ++ref)
|
|
{
|
|
bytesRef r(ret.bytecode.data() + ref->second, bytesPerDataRef);
|
|
toBigEndian(ret.bytecode.size(), r);
|
|
}
|
|
ret.bytecode += dataItem.second;
|
|
}
|
|
|
|
ret.bytecode += m_auxiliaryData;
|
|
|
|
for (unsigned pos: sizeRef)
|
|
{
|
|
bytesRef r(ret.bytecode.data() + pos, bytesPerDataRef);
|
|
toBigEndian(ret.bytecode.size(), r);
|
|
}
|
|
return ret;
|
|
}
|