/* 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 /** * Class that contains contextual information during IR generation. */ #pragma once #include #include #include #include #include #include #include #include #include #include #include #include namespace solidity::frontend { class YulUtilFunctions; class ABIFunctions; struct AscendingFunctionIDCompare { bool operator()(FunctionDefinition const* _f1, FunctionDefinition const* _f2) const { // NULLs always first. if (_f1 != nullptr && _f2 != nullptr) return _f1->id() < _f2->id(); else return _f1 == nullptr; } }; using DispatchSet = std::set; using InternalDispatchMap = std::map; /** * Class that contains contextual information during IR generation. */ class IRGenerationContext { public: enum class ExecutionContext { Creation, Deployed }; IRGenerationContext( langutil::EVMVersion _evmVersion, ExecutionContext _executionContext, RevertStrings _revertStrings, OptimiserSettings _optimiserSettings, std::map _sourceIndices ): m_evmVersion(_evmVersion), m_executionContext(_executionContext), m_revertStrings(_revertStrings), m_optimiserSettings(std::move(_optimiserSettings)), m_sourceIndices(std::move(_sourceIndices)) {} MultiUseYulFunctionCollector& functionCollector() { return m_functions; } /// Adds a Solidity function to the function generation queue and returns the name of the /// corresponding Yul function. std::string enqueueFunctionForCodeGeneration(FunctionDefinition const& _function); /// Pops one item from the function generation queue. Must not be called if the queue is empty. FunctionDefinition const* dequeueFunctionForCodeGeneration(); bool functionGenerationQueueEmpty() { return m_functionGenerationQueue.empty(); } /// Sets the most derived contract (the one currently being compiled)> void setMostDerivedContract(ContractDefinition const& _mostDerivedContract) { m_mostDerivedContract = &_mostDerivedContract; } ContractDefinition const& mostDerivedContract() const; IRVariable const& addLocalVariable(VariableDeclaration const& _varDecl); bool isLocalVariable(VariableDeclaration const& _varDecl) const { return m_localVariables.count(&_varDecl); } IRVariable const& localVariable(VariableDeclaration const& _varDecl); void resetLocalVariables(); /// Registers an immutable variable of the contract. /// Should only be called at construction time. void registerImmutableVariable(VariableDeclaration const& _varDecl); /// @returns the reserved memory for storing the value of the /// immutable @a _variable during contract creation. size_t immutableMemoryOffset(VariableDeclaration const& _variable) const; /// @returns the reserved memory and resets it to mark it as used. /// Intended to be used only once for initializing the free memory pointer /// to after the area used for immutables. size_t reservedMemory(); void addStateVariable(VariableDeclaration const& _varDecl, u256 _storageOffset, unsigned _byteOffset); bool isStateVariable(VariableDeclaration const& _varDecl) const { return m_stateVariables.count(&_varDecl); } std::pair storageLocationOfStateVariable(VariableDeclaration const& _varDecl) const { solAssert(isStateVariable(_varDecl), ""); return m_stateVariables.at(&_varDecl); } std::string newYulVariable(); void initializeInternalDispatch(InternalDispatchMap _internalDispatchMap); InternalDispatchMap consumeInternalDispatchMap(); bool internalDispatchClean() const { return m_internalDispatchMap.empty(); } /// Notifies the context that a function call that needs to go through internal dispatch was /// encountered while visiting the AST. This ensures that the corresponding dispatch function /// gets added to the dispatch map even if there are no entries in it (which may happen if /// the code contains a call to an uninitialized function variable). void internalFunctionCalledThroughDispatch(YulArity const& _arity); /// Adds a function to the internal dispatch. void addToInternalDispatch(FunctionDefinition const& _function); /// @returns a new copy of the utility function generator (but using the same function set). YulUtilFunctions utils(); langutil::EVMVersion evmVersion() const { return m_evmVersion; } ExecutionContext executionContext() const { return m_executionContext; } void setArithmetic(Arithmetic _value) { m_arithmetic = _value; } Arithmetic arithmetic() const { return m_arithmetic; } ABIFunctions abiFunctions(); RevertStrings revertStrings() const { return m_revertStrings; } std::set& subObjectsCreated() { return m_subObjects; } bool inlineAssemblySeen() const { return m_inlineAssemblySeen; } void setInlineAssemblySeen() { m_inlineAssemblySeen = true; } /// @returns the runtime ID to be used for the function in the dispatch routine /// and for internal function pointers. /// @param _requirePresent if false, generates a new ID if not yet done. uint64_t internalFunctionID(FunctionDefinition const& _function, bool _requirePresent); /// Copies the internal function IDs from the @a _other. For use in transferring /// function IDs from constructor code to deployed code. void copyFunctionIDsFrom(IRGenerationContext const& _other); std::map const& sourceIndices() const { return m_sourceIndices; } bool immutableRegistered(VariableDeclaration const& _varDecl) const { return m_immutableVariables.count(&_varDecl); } private: langutil::EVMVersion m_evmVersion; ExecutionContext m_executionContext; RevertStrings m_revertStrings; OptimiserSettings m_optimiserSettings; std::map m_sourceIndices; ContractDefinition const* m_mostDerivedContract = nullptr; std::map m_localVariables; /// Memory offsets reserved for the values of immutable variables during contract creation. /// This map is empty in the runtime context. std::map m_immutableVariables; /// Total amount of reserved memory. Reserved memory is used to store /// immutable variables during contract creation. std::optional m_reservedMemory = {0}; /// Storage offsets of state variables std::map> m_stateVariables; MultiUseYulFunctionCollector m_functions; size_t m_varCounter = 0; /// Whether to use checked or wrapping arithmetic. Arithmetic m_arithmetic = Arithmetic::Checked; /// Flag indicating whether any inline assembly block was seen. bool m_inlineAssemblySeen = false; /// Function definitions queued for code generation. They're the Solidity functions whose calls /// were discovered by the IR generator during AST traversal. /// Note that the queue gets filled in a lazy way - new definitions can be added while the /// collected ones get removed and traversed. /// The order and duplicates are irrelevant here (hence std::set rather than std::queue) as /// long as the order of Yul functions in the generated code is deterministic and the same on /// all platforms - which is a property guaranteed by MultiUseYulFunctionCollector. DispatchSet m_functionGenerationQueue; /// Collection of functions that need to be callable via internal dispatch. /// Note that having a key with an empty set of functions is a valid situation. It means that /// the code contains a call via a pointer even though a specific function is never assigned to it. /// It will fail at runtime but the code must still compile. InternalDispatchMap m_internalDispatchMap; /// Map used by @a internalFunctionID. std::map m_functionIDs; std::set m_subObjects; }; }