solidity/libyul/YulStack.cpp

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/*
This file is part of solidity.
solidity 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.
solidity 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 solidity. If not, see <http://www.gnu.org/licenses/>.
*/
// SPDX-License-Identifier: GPL-3.0
/**
* Full assembly stack that can support EVM-assembly and Yul as input and EVM, EVM1.5 and
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* Ewasm as output.
*/
#include <libyul/YulStack.h>
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#include <libyul/AsmAnalysis.h>
#include <libyul/AsmAnalysisInfo.h>
#include <libyul/backends/evm/EthAssemblyAdapter.h>
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#include <libyul/backends/evm/EVMCodeTransform.h>
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#include <libyul/backends/evm/EVMDialect.h>
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#include <libyul/backends/evm/EVMObjectCompiler.h>
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#include <libyul/backends/evm/EVMMetrics.h>
#include <libyul/backends/wasm/WasmDialect.h>
#include <libyul/backends/wasm/WasmObjectCompiler.h>
#include <libyul/backends/wasm/EVMToEwasmTranslator.h>
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#include <libyul/ObjectParser.h>
#include <libyul/optimiser/Suite.h>
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#include <libevmasm/Assembly.h>
#include <liblangutil/Scanner.h>
#include <boost/algorithm/string.hpp>
#include <optional>
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using namespace std;
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using namespace solidity;
using namespace solidity::yul;
using namespace solidity::langutil;
namespace
{
Dialect const& languageToDialect(YulStack::Language _language, EVMVersion _version)
{
switch (_language)
{
case YulStack::Language::Assembly:
case YulStack::Language::StrictAssembly:
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return EVMDialect::strictAssemblyForEVMObjects(_version);
case YulStack::Language::Yul:
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return EVMDialectTyped::instance(_version);
case YulStack::Language::Ewasm:
return WasmDialect::instance();
}
yulAssert(false, "");
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return Dialect::yulDeprecated();
}
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// Duplicated from libsolidity/codegen/CompilerContext.cpp
// TODO: refactor and remove duplication
evmasm::Assembly::OptimiserSettings translateOptimiserSettings(
frontend::OptimiserSettings const& _settings,
langutil::EVMVersion _evmVersion
)
{
// Constructing it this way so that we notice changes in the fields.
evmasm::Assembly::OptimiserSettings asmSettings{false, false, false, false, false, false, _evmVersion, 0};
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asmSettings.runInliner = _settings.runInliner;
asmSettings.runJumpdestRemover = _settings.runJumpdestRemover;
asmSettings.runPeephole = _settings.runPeephole;
asmSettings.runDeduplicate = _settings.runDeduplicate;
asmSettings.runCSE = _settings.runCSE;
asmSettings.runConstantOptimiser = _settings.runConstantOptimiser;
asmSettings.expectedExecutionsPerDeployment = _settings.expectedExecutionsPerDeployment;
asmSettings.evmVersion = _evmVersion;
return asmSettings;
}
}
CharStream const& YulStack::charStream(string const& _sourceName) const
{
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yulAssert(m_charStream, "");
yulAssert(m_charStream->name() == _sourceName, "");
return *m_charStream;
}
bool YulStack::parseAndAnalyze(std::string const& _sourceName, std::string const& _source)
{
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m_errors.clear();
m_analysisSuccessful = false;
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m_charStream = make_unique<CharStream>(_source, _sourceName);
shared_ptr<Scanner> scanner = make_shared<Scanner>(*m_charStream);
m_parserResult = ObjectParser(m_errorReporter, languageToDialect(m_language, m_evmVersion)).parse(scanner, false);
if (!m_errorReporter.errors().empty())
return false;
yulAssert(m_parserResult, "");
yulAssert(m_parserResult->code, "");
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return analyzeParsed();
}
void YulStack::optimize()
{
if (!m_optimiserSettings.runYulOptimiser)
return;
yulAssert(m_analysisSuccessful, "Analysis was not successful.");
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m_analysisSuccessful = false;
yulAssert(m_parserResult, "");
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optimize(*m_parserResult, true);
yulAssert(analyzeParsed(), "Invalid source code after optimization.");
}
void YulStack::translate(YulStack::Language _targetLanguage)
{
if (m_language == _targetLanguage)
return;
yulAssert(
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m_language == Language::StrictAssembly && _targetLanguage == Language::Ewasm,
"Invalid language combination"
);
*m_parserResult = EVMToEwasmTranslator(
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languageToDialect(m_language, m_evmVersion),
*this
).run(*parserResult());
m_language = _targetLanguage;
}
bool YulStack::analyzeParsed()
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{
yulAssert(m_parserResult, "");
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m_analysisSuccessful = analyzeParsed(*m_parserResult);
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return m_analysisSuccessful;
}
bool YulStack::analyzeParsed(Object& _object)
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{
yulAssert(_object.code, "");
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_object.analysisInfo = make_shared<AsmAnalysisInfo>();
AsmAnalyzer analyzer(
*_object.analysisInfo,
m_errorReporter,
languageToDialect(m_language, m_evmVersion),
{},
_object.qualifiedDataNames()
);
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bool success = analyzer.analyze(*_object.code);
for (auto& subNode: _object.subObjects)
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if (auto subObject = dynamic_cast<Object*>(subNode.get()))
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if (!analyzeParsed(*subObject))
success = false;
return success;
}
void YulStack::compileEVM(AbstractAssembly& _assembly, bool _optimize) const
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{
EVMDialect const* dialect = nullptr;
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switch (m_language)
{
case Language::Assembly:
case Language::StrictAssembly:
dialect = &EVMDialect::strictAssemblyForEVMObjects(m_evmVersion);
break;
case Language::Yul:
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dialect = &EVMDialectTyped::instance(m_evmVersion);
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break;
default:
yulAssert(false, "Invalid language.");
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break;
}
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EVMObjectCompiler::compile(*m_parserResult, _assembly, *dialect, _optimize);
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}
void YulStack::optimize(Object& _object, bool _isCreation)
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{
yulAssert(_object.code, "");
yulAssert(_object.analysisInfo, "");
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for (auto& subNode: _object.subObjects)
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if (auto subObject = dynamic_cast<Object*>(subNode.get()))
{
bool isCreation = !boost::ends_with(subObject->name.str(), "_deployed");
optimize(*subObject, isCreation);
}
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Dialect const& dialect = languageToDialect(m_language, m_evmVersion);
unique_ptr<GasMeter> meter;
if (EVMDialect const* evmDialect = dynamic_cast<EVMDialect const*>(&dialect))
meter = make_unique<GasMeter>(*evmDialect, _isCreation, m_optimiserSettings.expectedExecutionsPerDeployment);
OptimiserSuite::run(
dialect,
meter.get(),
_object,
m_optimiserSettings.optimizeStackAllocation,
m_optimiserSettings.yulOptimiserSteps,
_isCreation ? nullopt : make_optional(m_optimiserSettings.expectedExecutionsPerDeployment),
{}
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);
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}
MachineAssemblyObject YulStack::assemble(Machine _machine) const
{
yulAssert(m_analysisSuccessful, "");
yulAssert(m_parserResult, "");
yulAssert(m_parserResult->code, "");
yulAssert(m_parserResult->analysisInfo, "");
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switch (_machine)
{
case Machine::EVM:
return assembleWithDeployed().first;
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case Machine::Ewasm:
{
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yulAssert(m_language == Language::Ewasm, "");
Dialect const& dialect = languageToDialect(m_language, EVMVersion{});
MachineAssemblyObject object;
auto result = WasmObjectCompiler::compile(*m_parserResult, dialect);
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object.assembly = std::move(result.first);
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object.bytecode = make_shared<evmasm::LinkerObject>();
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object.bytecode->bytecode = std::move(result.second);
return object;
}
}
// unreachable
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return MachineAssemblyObject();
}
std::pair<MachineAssemblyObject, MachineAssemblyObject>
YulStack::assembleWithDeployed(optional<string_view> _deployName) const
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{
auto [creationAssembly, deployedAssembly] = assembleEVMWithDeployed(_deployName);
yulAssert(creationAssembly, "");
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yulAssert(m_charStream, "");
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MachineAssemblyObject creationObject;
creationObject.bytecode = make_shared<evmasm::LinkerObject>(creationAssembly->assemble());
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yulAssert(creationObject.bytecode->immutableReferences.empty(), "Leftover immutables.");
creationObject.assembly = creationAssembly->assemblyString(m_debugInfoSelection);
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creationObject.sourceMappings = make_unique<string>(
evmasm::AssemblyItem::computeSourceMapping(
creationAssembly->items(),
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{{m_charStream->name(), 0}}
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)
);
MachineAssemblyObject deployedObject;
if (deployedAssembly)
{
deployedObject.bytecode = make_shared<evmasm::LinkerObject>(deployedAssembly->assemble());
deployedObject.assembly = deployedAssembly->assemblyString(m_debugInfoSelection);
deployedObject.sourceMappings = make_unique<string>(
evmasm::AssemblyItem::computeSourceMapping(
deployedAssembly->items(),
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{{m_charStream->name(), 0}}
)
);
}
return {std::move(creationObject), std::move(deployedObject)};
}
std::pair<std::shared_ptr<evmasm::Assembly>, std::shared_ptr<evmasm::Assembly>>
YulStack::assembleEVMWithDeployed(optional<string_view> _deployName) const
{
yulAssert(m_analysisSuccessful, "");
yulAssert(m_parserResult, "");
yulAssert(m_parserResult->code, "");
yulAssert(m_parserResult->analysisInfo, "");
evmasm::Assembly assembly(true, {});
EthAssemblyAdapter adapter(assembly);
compileEVM(adapter, m_optimiserSettings.optimizeStackAllocation);
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assembly.optimise(translateOptimiserSettings(m_optimiserSettings, m_evmVersion));
optional<size_t> subIndex;
// Pick matching assembly if name was given
if (_deployName.has_value())
{
for (size_t i = 0; i < assembly.numSubs(); i++)
if (assembly.sub(i).name() == _deployName)
{
subIndex = i;
break;
}
solAssert(subIndex.has_value(), "Failed to find object to be deployed.");
}
// Otherwise use heuristic: If there is a single sub-assembly, this is likely the object to be deployed.
else if (assembly.numSubs() == 1)
subIndex = 0;
if (subIndex.has_value())
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{
evmasm::Assembly& runtimeAssembly = assembly.sub(*subIndex);
return {make_shared<evmasm::Assembly>(assembly), make_shared<evmasm::Assembly>(runtimeAssembly)};
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}
return {make_shared<evmasm::Assembly>(assembly), {}};
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}
string YulStack::print(
CharStreamProvider const* _soliditySourceProvider
) const
{
yulAssert(m_parserResult, "");
yulAssert(m_parserResult->code, "");
return m_parserResult->toString(&languageToDialect(m_language, m_evmVersion), m_debugInfoSelection, _soliditySourceProvider) + "\n";
}
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shared_ptr<Object> YulStack::parserResult() const
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{
yulAssert(m_analysisSuccessful, "Analysis was not successful.");
yulAssert(m_parserResult, "");
yulAssert(m_parserResult->code, "");
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return m_parserResult;
}