/* 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 . */ // SPDX-License-Identifier: GPL-3.0 #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include using namespace solidity; using namespace solidity::util; using namespace solidity::langutil; using namespace solidity::yul; using namespace solidity::yul::test; using namespace solidity::frontend; using namespace std; YulOptimizerTestCommon::YulOptimizerTestCommon( shared_ptr _obj, Dialect const& _dialect ) { m_object = _obj; m_ast = m_object->code; m_analysisInfo = m_object->analysisInfo; m_dialect = &_dialect; m_namedSteps = { {"disambiguator", [&]() { disambiguate(); }}, {"nameDisplacer", [&]() { disambiguate(); NameDisplacer{ *m_nameDispenser, {"illegal1"_yulstring, "illegal2"_yulstring, "illegal3"_yulstring, "illegal4"_yulstring, "illegal5"_yulstring} }(*m_ast); }}, {"blockFlattener", [&]() { disambiguate(); BlockFlattener::run(*m_context, *m_ast); }}, {"constantOptimiser", [&]() { GasMeter meter(dynamic_cast(*m_dialect), false, 200); ConstantOptimiser{dynamic_cast(*m_dialect), meter}(*m_ast); }}, {"varDeclInitializer", [&]() { VarDeclInitializer::run(*m_context, *m_ast); }}, {"varNameCleaner", [&]() { disambiguate(); FunctionHoister::run(*m_context, *m_ast); FunctionGrouper::run(*m_context, *m_ast); VarNameCleaner::run(*m_context, *m_ast); }}, {"forLoopConditionIntoBody", [&]() { disambiguate(); ForLoopConditionIntoBody::run(*m_context, *m_ast); }}, {"forLoopInitRewriter", [&]() { disambiguate(); ForLoopInitRewriter::run(*m_context, *m_ast); }}, {"commonSubexpressionEliminator", [&]() { disambiguate(); ForLoopInitRewriter::run(*m_context, *m_ast); FunctionHoister::run(*m_context, *m_ast); CommonSubexpressionEliminator::run(*m_context, *m_ast); }}, {"conditionalUnsimplifier", [&]() { disambiguate(); ConditionalUnsimplifier::run(*m_context, *m_ast); }}, {"conditionalSimplifier", [&]() { disambiguate(); ConditionalSimplifier::run(*m_context, *m_ast); }}, {"expressionSplitter", [&]() { ExpressionSplitter::run(*m_context, *m_ast); }}, {"expressionJoiner", [&]() { disambiguate(); ExpressionJoiner::run(*m_context, *m_ast); }}, {"splitJoin", [&]() { disambiguate(); ExpressionSplitter::run(*m_context, *m_ast); ExpressionJoiner::run(*m_context, *m_ast); ExpressionJoiner::run(*m_context, *m_ast); }}, {"functionGrouper", [&]() { disambiguate(); FunctionGrouper::run(*m_context, *m_ast); }}, {"functionHoister", [&]() { disambiguate(); FunctionHoister::run(*m_context, *m_ast); }}, {"functionSpecializer", [&]() { disambiguate(); FunctionHoister::run(*m_context, *m_object->code); FunctionSpecializer::run(*m_context, *m_object->code); }}, {"expressionInliner", [&]() { disambiguate(); ExpressionInliner::run(*m_context, *m_ast); }}, {"fullInliner", [&]() { disambiguate(); FunctionHoister::run(*m_context, *m_ast); FunctionGrouper::run(*m_context, *m_ast); ExpressionSplitter::run(*m_context, *m_ast); FullInliner::run(*m_context, *m_ast); ExpressionJoiner::run(*m_context, *m_ast); }}, {"mainFunction", [&]() { disambiguate(); FunctionGrouper::run(*m_context, *m_ast); MainFunction::run(*m_context, *m_ast); }}, {"rematerialiser", [&]() { disambiguate(); ForLoopInitRewriter::run(*m_context, *m_ast); FunctionHoister::run(*m_context, *m_ast); Rematerialiser::run(*m_context, *m_ast); }}, {"expressionSimplifier", [&]() { disambiguate(); ForLoopInitRewriter::run(*m_context, *m_ast); FunctionHoister::run(*m_context, *m_ast); ExpressionSplitter::run(*m_context, *m_ast); CommonSubexpressionEliminator::run(*m_context, *m_ast); ExpressionSimplifier::run(*m_context, *m_ast); ExpressionSimplifier::run(*m_context, *m_ast); ExpressionSimplifier::run(*m_context, *m_ast); UnusedPruner::run(*m_context, *m_ast); ExpressionJoiner::run(*m_context, *m_ast); ExpressionJoiner::run(*m_context, *m_ast); }}, {"fullSimplify", [&]() { disambiguate(); ExpressionSplitter::run(*m_context, *m_ast); ForLoopInitRewriter::run(*m_context, *m_ast); FunctionHoister::run(*m_context, *m_ast); CommonSubexpressionEliminator::run(*m_context, *m_ast); ExpressionSimplifier::run(*m_context, *m_ast); UnusedPruner::run(*m_context, *m_ast); CircularReferencesPruner::run(*m_context, *m_ast); DeadCodeEliminator::run(*m_context, *m_ast); ExpressionJoiner::run(*m_context, *m_ast); ExpressionJoiner::run(*m_context, *m_ast); }}, {"unusedFunctionParameterPruner", [&]() { disambiguate(); ForLoopInitRewriter::run(*m_context, *m_ast); FunctionHoister::run(*m_context, *m_object->code); LiteralRematerialiser::run(*m_context, *m_object->code); UnusedFunctionParameterPruner::run(*m_context, *m_object->code); }}, {"unusedPruner", [&]() { disambiguate(); UnusedPruner::run(*m_context, *m_ast); }}, {"circularReferencesPruner", [&]() { disambiguate(); FunctionHoister::run(*m_context, *m_ast); CircularReferencesPruner::run(*m_context, *m_ast); }}, {"deadCodeEliminator", [&]() { disambiguate(); ForLoopInitRewriter::run(*m_context, *m_ast); DeadCodeEliminator::run(*m_context, *m_ast); }}, {"ssaTransform", [&]() { disambiguate(); ForLoopInitRewriter::run(*m_context, *m_ast); SSATransform::run(*m_context, *m_ast); }}, {"redundantAssignEliminator", [&]() { disambiguate(); ForLoopInitRewriter::run(*m_context, *m_ast); RedundantAssignEliminator::run(*m_context, *m_ast); }}, {"ssaPlusCleanup", [&]() { disambiguate(); ForLoopInitRewriter::run(*m_context, *m_ast); SSATransform::run(*m_context, *m_ast); RedundantAssignEliminator::run(*m_context, *m_ast); }}, {"loadResolver", [&]() { disambiguate(); ForLoopInitRewriter::run(*m_context, *m_ast); FunctionHoister::run(*m_context, *m_ast); ExpressionSplitter::run(*m_context, *m_ast); CommonSubexpressionEliminator::run(*m_context, *m_ast); ExpressionSimplifier::run(*m_context, *m_ast); LoadResolver::run(*m_context, *m_ast); UnusedPruner::run(*m_context, *m_ast); ExpressionJoiner::run(*m_context, *m_ast); ExpressionJoiner::run(*m_context, *m_ast); }}, {"loopInvariantCodeMotion", [&]() { disambiguate(); ForLoopInitRewriter::run(*m_context, *m_ast); FunctionHoister::run(*m_context, *m_ast); LoopInvariantCodeMotion::run(*m_context, *m_ast); }}, {"controlFlowSimplifier", [&]() { disambiguate(); ForLoopInitRewriter::run(*m_context, *m_ast); ControlFlowSimplifier::run(*m_context, *m_ast); }}, {"structuralSimplifier", [&]() { disambiguate(); ForLoopInitRewriter::run(*m_context, *m_ast); FunctionHoister::run(*m_context, *m_ast); LiteralRematerialiser::run(*m_context, *m_ast); StructuralSimplifier::run(*m_context, *m_ast); }}, {"reasoningBasedSimplifier", [&]() { disambiguate(); ReasoningBasedSimplifier::run(*m_context, *m_object->code); }}, {"equivalentFunctionCombiner", [&]() { disambiguate(); ForLoopInitRewriter::run(*m_context, *m_ast); FunctionHoister::run(*m_context, *m_ast); EquivalentFunctionCombiner::run(*m_context, *m_ast); }}, {"ssaReverser", [&]() { disambiguate(); SSAReverser::run(*m_context, *m_ast); }}, {"ssaAndBack", [&]() { disambiguate(); ForLoopInitRewriter::run(*m_context, *m_ast); // apply SSA SSATransform::run(*m_context, *m_ast); RedundantAssignEliminator::run(*m_context, *m_ast); // reverse SSA SSAReverser::run(*m_context, *m_ast); FunctionHoister::run(*m_context, *m_ast); CommonSubexpressionEliminator::run(*m_context, *m_ast); UnusedPruner::run(*m_context, *m_ast); }}, {"stackCompressor", [&]() { disambiguate(); ForLoopInitRewriter::run(*m_context, *m_ast); FunctionHoister::run(*m_context, *m_ast); FunctionGrouper::run(*m_context, *m_ast); size_t maxIterations = 16; StackCompressor::run(*m_dialect, *m_object, true, maxIterations); BlockFlattener::run(*m_context, *m_ast); }}, {"wordSizeTransform", [&]() { disambiguate(); ExpressionSplitter::run(*m_context, *m_ast); WordSizeTransform::run(*m_dialect, *m_dialect, *m_ast, *m_nameDispenser); }}, {"fullSuite", [&]() { GasMeter meter(dynamic_cast(*m_dialect), false, 200); OptimiserSuite::run( *m_dialect, &meter, *m_object, true, frontend::OptimiserSettings::DefaultYulOptimiserSteps, frontend::OptimiserSettings::standard().expectedExecutionsPerDeployment ); }}, {"stackLimitEvader", [&]() { disambiguate(); StackLimitEvader::run(*m_context, *m_object, CompilabilityChecker{ *m_dialect, *m_object, true }.unreachableVariables); }}, {"fakeStackLimitEvader", [&]() { disambiguate(); // Mark all variables with a name starting with "$" for escalation to memory. struct FakeUnreachableGenerator: ASTWalker { map> fakeUnreachables; using ASTWalker::operator(); void operator()(FunctionDefinition const& _function) override { YulString originalFunctionName = m_currentFunction; m_currentFunction = _function.name; ASTWalker::operator()(_function); m_currentFunction = originalFunctionName; } void visitVariableName(YulString _var) { if (!_var.empty() && _var.str().front() == '$') fakeUnreachables[m_currentFunction].insert(_var); } void operator()(VariableDeclaration const& _varDecl) override { for (auto const& var: _varDecl.variables) visitVariableName(var.name); ASTWalker::operator()(_varDecl); } void operator()(Identifier const& _identifier) override { visitVariableName(_identifier.name); ASTWalker::operator()(_identifier); } YulString m_currentFunction = YulString{}; }; FakeUnreachableGenerator fakeUnreachableGenerator; fakeUnreachableGenerator(*m_ast); StackLimitEvader::run(*m_context, *m_object, fakeUnreachableGenerator.fakeUnreachables); }} }; } void YulOptimizerTestCommon::setStep(string const& _optimizerStep) { m_optimizerStep = _optimizerStep; } bool YulOptimizerTestCommon::runStep() { yulAssert(m_dialect, "Dialect not set."); updateContext(); if (m_namedSteps.count(m_optimizerStep)) m_namedSteps[m_optimizerStep](); else return false; return true; } string YulOptimizerTestCommon::randomOptimiserStep(unsigned _seed) { std::mt19937 prng(_seed); std::uniform_int_distribution dist(1, m_namedSteps.size()); size_t idx = dist(prng); size_t count = 1; for (auto &step: m_namedSteps) { if (count == idx) { string optimiserStep = step.first; // Do not fuzz mainFunction and wordSizeTransform // because they do not preserve yul code semantics. // Do not fuzz reasoning based simplifier because // it can sometimes drain memory. if ( optimiserStep == "mainFunction" || optimiserStep == "wordSizeTransform" || optimiserStep == "reasoningBasedSimplifier" ) // "Fullsuite" is fuzzed roughly four times more frequently than // other steps because of the filtering in place above. return "fullSuite"; else return optimiserStep; } count++; } yulAssert(false, "Optimiser step selection failed."); } shared_ptr YulOptimizerTestCommon::run() { return runStep() ? m_ast : nullptr; } void YulOptimizerTestCommon::disambiguate() { *m_object->code = std::get(Disambiguator(*m_dialect, *m_analysisInfo)(*m_object->code)); m_analysisInfo.reset(); updateContext(); } void YulOptimizerTestCommon::updateContext() { m_nameDispenser = make_unique(*m_dialect, *m_object->code, m_reservedIdentifiers); m_context = make_unique(OptimiserStepContext{ *m_dialect, *m_nameDispenser, m_reservedIdentifiers, frontend::OptimiserSettings::standard().expectedExecutionsPerDeployment }); }