/* 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 using namespace solidity; using namespace solidity::langutil; using namespace solidity::frontend; namespace { class AssemblyViewPureChecker { public: explicit AssemblyViewPureChecker( yul::Dialect const& _dialect, std::function _reportMutability ): m_dialect(_dialect), m_reportMutability(std::move(_reportMutability)) {} void operator()(yul::Literal const&) {} void operator()(yul::Identifier const&) {} void operator()(yul::ExpressionStatement const& _expr) { std::visit(*this, _expr.expression); } void operator()(yul::Assignment const& _assignment) { std::visit(*this, *_assignment.value); } void operator()(yul::VariableDeclaration const& _varDecl) { if (_varDecl.value) std::visit(*this, *_varDecl.value); } void operator()(yul::FunctionDefinition const& _funDef) { (*this)(_funDef.body); } void operator()(yul::FunctionCall const& _funCall) { if (yul::EVMDialect const* dialect = dynamic_cast(&m_dialect)) if (yul::BuiltinFunctionForEVM const* fun = dialect->builtin(_funCall.functionName.name)) if (fun->instruction) checkInstruction(nativeLocationOf(_funCall), *fun->instruction); for (auto const& arg: _funCall.arguments) std::visit(*this, arg); } void operator()(yul::If const& _if) { std::visit(*this, *_if.condition); (*this)(_if.body); } void operator()(yul::Switch const& _switch) { std::visit(*this, *_switch.expression); for (auto const& _case: _switch.cases) { if (_case.value) (*this)(*_case.value); (*this)(_case.body); } } void operator()(yul::ForLoop const& _for) { (*this)(_for.pre); std::visit(*this, *_for.condition); (*this)(_for.body); (*this)(_for.post); } void operator()(yul::Break const&) { } void operator()(yul::Continue const&) { } void operator()(yul::Leave const&) { } void operator()(yul::Block const& _block) { for (auto const& s: _block.statements) std::visit(*this, s); } private: void checkInstruction(SourceLocation _location, evmasm::Instruction _instruction) { if (evmasm::SemanticInformation::invalidInViewFunctions(_instruction)) m_reportMutability(StateMutability::NonPayable, _location); else if (evmasm::SemanticInformation::invalidInPureFunctions(_instruction)) m_reportMutability(StateMutability::View, _location); } yul::Dialect const& m_dialect; std::function m_reportMutability; }; } bool ViewPureChecker::check() { for (auto const& source: m_ast) source->accept(*this); return !m_errors; } bool ViewPureChecker::visit(ImportDirective const&) { return false; } bool ViewPureChecker::visit(FunctionDefinition const& _funDef) { solAssert(!m_currentFunction, ""); m_currentFunction = &_funDef; m_bestMutabilityAndLocation = {StateMutability::Pure, _funDef.location()}; return true; } void ViewPureChecker::endVisit(FunctionDefinition const& _funDef) { solAssert(m_currentFunction == &_funDef, ""); if ( m_bestMutabilityAndLocation.mutability < _funDef.stateMutability() && _funDef.stateMutability() != StateMutability::Payable && _funDef.isImplemented() && !_funDef.body().statements().empty() && !_funDef.isConstructor() && !_funDef.isFallback() && !_funDef.isReceive() && !_funDef.virtualSemantics() ) m_errorReporter.warning( 2018_error, _funDef.location(), "Function state mutability can be restricted to " + stateMutabilityToString(m_bestMutabilityAndLocation.mutability) ); m_currentFunction = nullptr; } bool ViewPureChecker::visit(ModifierDefinition const& _modifier) { solAssert(m_currentFunction == nullptr, ""); m_bestMutabilityAndLocation = {StateMutability::Pure, _modifier.location()}; return true; } void ViewPureChecker::endVisit(ModifierDefinition const& _modifierDef) { solAssert(m_currentFunction == nullptr, ""); m_inferredMutability[&_modifierDef] = std::move(m_bestMutabilityAndLocation); } void ViewPureChecker::endVisit(Identifier const& _identifier) { Declaration const* declaration = _identifier.annotation().referencedDeclaration; solAssert(declaration, ""); StateMutability mutability = StateMutability::Pure; bool writes = _identifier.annotation().willBeWrittenTo; if (VariableDeclaration const* varDecl = dynamic_cast(declaration)) { if (varDecl->immutable()) { // Immutables that are assigned literals are pure. if (!(varDecl->value() && varDecl->value()->annotation().type->category() == Type::Category::RationalNumber)) mutability = StateMutability::View; } else if (varDecl->isStateVariable() && !varDecl->isConstant()) mutability = writes ? StateMutability::NonPayable : StateMutability::View; } else if (MagicVariableDeclaration const* magicVar = dynamic_cast(declaration)) { switch (magicVar->type()->category()) { case Type::Category::Contract: solAssert(_identifier.name() == "this", ""); if (dynamic_cast(magicVar->type())) // reads the address mutability = StateMutability::View; break; case Type::Category::Integer: solAssert(_identifier.name() == "now", ""); mutability = StateMutability::View; break; default: break; } } reportMutability(mutability, _identifier.location()); } void ViewPureChecker::endVisit(InlineAssembly const& _inlineAssembly) { AssemblyViewPureChecker{ _inlineAssembly.dialect(), [&](StateMutability _mutability, SourceLocation const& _location) { reportMutability(_mutability, _location); } }(_inlineAssembly.operations()); } void ViewPureChecker::reportMutability( StateMutability _mutability, SourceLocation const& _location, std::optional const& _nestedLocation ) { if (_mutability > m_bestMutabilityAndLocation.mutability) m_bestMutabilityAndLocation = MutabilityAndLocation{_mutability, _location}; if (!m_currentFunction || _mutability <= m_currentFunction->stateMutability()) return; // Check for payable here, because any occurrence of `msg.value` // will set mutability to payable. if (_mutability == StateMutability::View || ( _mutability == StateMutability::Payable && m_currentFunction->stateMutability() == StateMutability::Pure )) { m_errorReporter.typeError( 2527_error, _location, "Function declared as pure, but this expression (potentially) reads from the " "environment or state and thus requires \"view\"." ); m_errors = true; } else if (_mutability == StateMutability::NonPayable) { m_errorReporter.typeError( 8961_error, _location, "Function cannot be declared as " + stateMutabilityToString(m_currentFunction->stateMutability()) + " because this expression (potentially) modifies the state." ); m_errors = true; } else if (_mutability == StateMutability::Payable) { // We do not warn for library functions because they cannot be payable anyway. // Also internal functions should be allowed to use `msg.value`. if ((m_currentFunction->isConstructor() || m_currentFunction->isPublic()) && !m_currentFunction->libraryFunction()) { if (_nestedLocation) m_errorReporter.typeError( 4006_error, _location, SecondarySourceLocation().append("\"msg.value\" or \"callvalue()\" appear here inside the modifier.", *_nestedLocation), m_currentFunction->isConstructor() ? "This modifier uses \"msg.value\" or \"callvalue()\" and thus the constructor has to be payable." : "This modifier uses \"msg.value\" or \"callvalue()\" and thus the function has to be payable or internal." ); else m_errorReporter.typeError( 5887_error, _location, m_currentFunction->isConstructor() ? "\"msg.value\" and \"callvalue()\" can only be used in payable constructors. Make the constructor \"payable\" to avoid this error." : "\"msg.value\" and \"callvalue()\" can only be used in payable public functions. Make the function \"payable\" or use an internal function to avoid this error." ); m_errors = true; } } else solAssert(false, ""); solAssert( m_currentFunction->stateMutability() == StateMutability::View || m_currentFunction->stateMutability() == StateMutability::Pure || m_currentFunction->stateMutability() == StateMutability::NonPayable, "" ); } ViewPureChecker::MutabilityAndLocation const& ViewPureChecker::modifierMutability( ModifierDefinition const& _modifier ) { if (!m_inferredMutability.count(&_modifier)) { MutabilityAndLocation bestMutabilityAndLocation{}; FunctionDefinition const* currentFunction = nullptr; std::swap(bestMutabilityAndLocation, m_bestMutabilityAndLocation); std::swap(currentFunction, m_currentFunction); _modifier.accept(*this); std::swap(bestMutabilityAndLocation, m_bestMutabilityAndLocation); std::swap(currentFunction, m_currentFunction); } return m_inferredMutability.at(&_modifier); } void ViewPureChecker::reportFunctionCallMutability(StateMutability _mutability, langutil::SourceLocation const& _location) { // We only require "nonpayable" to call a payable function. if (_mutability == StateMutability::Payable) _mutability = StateMutability::NonPayable; reportMutability(_mutability, _location); } void ViewPureChecker::endVisit(BinaryOperation const& _binaryOperation) { if (*_binaryOperation.annotation().userDefinedFunction != nullptr) reportFunctionCallMutability((*_binaryOperation.annotation().userDefinedFunction)->stateMutability(), _binaryOperation.location()); } void ViewPureChecker::endVisit(UnaryOperation const& _unaryOperation) { if (*_unaryOperation.annotation().userDefinedFunction != nullptr) reportFunctionCallMutability((*_unaryOperation.annotation().userDefinedFunction)->stateMutability(), _unaryOperation.location()); } void ViewPureChecker::endVisit(FunctionCall const& _functionCall) { if (*_functionCall.annotation().kind != FunctionCallKind::FunctionCall) return; reportFunctionCallMutability( dynamic_cast(*_functionCall.expression().annotation().type).stateMutability(), _functionCall.location() ); } bool ViewPureChecker::visit(MemberAccess const& _memberAccess) { // Catch the special case of `this.f.selector` which is a pure expression. ASTString const& member = _memberAccess.memberName(); if ( _memberAccess.expression().annotation().type->category() == Type::Category::Function && member == "selector" ) if (auto const* expr = dynamic_cast(&_memberAccess.expression())) if (auto const* exprInt = dynamic_cast(&expr->expression())) if (exprInt->name() == "this") // Do not continue visiting. return false; return true; } void ViewPureChecker::endVisit(MemberAccess const& _memberAccess) { StateMutability mutability = StateMutability::Pure; bool writes = _memberAccess.annotation().willBeWrittenTo; ASTString const& member = _memberAccess.memberName(); switch (_memberAccess.expression().annotation().type->category()) { case Type::Category::Address: if (member == "balance" || member == "code" || member == "codehash") mutability = StateMutability::View; break; case Type::Category::Magic: { using MagicMember = std::pair; std::set static const pureMembers{ {MagicType::Kind::ABI, "decode"}, {MagicType::Kind::ABI, "encode"}, {MagicType::Kind::ABI, "encodePacked"}, {MagicType::Kind::ABI, "encodeWithSelector"}, {MagicType::Kind::ABI, "encodeCall"}, {MagicType::Kind::ABI, "encodeWithSignature"}, {MagicType::Kind::Message, "data"}, {MagicType::Kind::Message, "sig"}, {MagicType::Kind::MetaType, "creationCode"}, {MagicType::Kind::MetaType, "runtimeCode"}, {MagicType::Kind::MetaType, "name"}, {MagicType::Kind::MetaType, "interfaceId"}, {MagicType::Kind::MetaType, "min"}, {MagicType::Kind::MetaType, "max"}, }; std::set static const payableMembers{ {MagicType::Kind::Message, "value"} }; auto const& type = dynamic_cast(*_memberAccess.expression().annotation().type); MagicMember magicMember(type.kind(), member); if (!pureMembers.count(magicMember)) mutability = StateMutability::View; if (payableMembers.count(magicMember)) mutability = StateMutability::Payable; break; } case Type::Category::Struct: { if (_memberAccess.expression().annotation().type->dataStoredIn(DataLocation::Storage)) mutability = writes ? StateMutability::NonPayable : StateMutability::View; break; } case Type::Category::Array: { auto const& type = dynamic_cast(*_memberAccess.expression().annotation().type); if (member == "length" && type.isDynamicallySized() && type.dataStoredIn(DataLocation::Storage)) mutability = StateMutability::View; break; } default: { if (VariableDeclaration const* varDecl = dynamic_cast( _memberAccess.annotation().referencedDeclaration )) if (varDecl->isStateVariable() && !varDecl->isConstant()) mutability = writes ? StateMutability::NonPayable : StateMutability::View; break; } } reportMutability(mutability, _memberAccess.location()); } void ViewPureChecker::endVisit(IndexAccess const& _indexAccess) { if (!_indexAccess.indexExpression()) solAssert(_indexAccess.annotation().type->category() == Type::Category::TypeType, ""); else { bool writes = _indexAccess.annotation().willBeWrittenTo; if (_indexAccess.baseExpression().annotation().type->dataStoredIn(DataLocation::Storage)) reportMutability(writes ? StateMutability::NonPayable : StateMutability::View, _indexAccess.location()); } } void ViewPureChecker::endVisit(IndexRangeAccess const& _indexRangeAccess) { bool writes = _indexRangeAccess.annotation().willBeWrittenTo; if (_indexRangeAccess.baseExpression().annotation().type->dataStoredIn(DataLocation::Storage)) reportMutability(writes ? StateMutability::NonPayable : StateMutability::View, _indexRangeAccess.location()); } void ViewPureChecker::endVisit(ModifierInvocation const& _modifier) { if (ModifierDefinition const* mod = dynamic_cast(_modifier.name().annotation().referencedDeclaration)) { MutabilityAndLocation const& mutAndLocation = modifierMutability(*mod); reportMutability(mutAndLocation.mutability, _modifier.location(), mutAndLocation.location); } else solAssert(dynamic_cast(_modifier.name().annotation().referencedDeclaration), ""); }