/* 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 /** * @author Christian * @date 2016 * Solidity inline assembly parser. */ #include #include #include #include #include #include #include #include using namespace std; using namespace solidity; using namespace solidity::util; using namespace solidity::langutil; using namespace solidity::yul; unique_ptr Parser::parse(std::shared_ptr const& _scanner, bool _reuseScanner) { m_recursionDepth = 0; _scanner->setScannerMode(ScannerKind::Yul); ScopeGuard resetScanner([&]{ _scanner->setScannerMode(ScannerKind::Solidity); }); try { m_scanner = _scanner; auto block = make_unique(parseBlock()); if (!_reuseScanner) expectToken(Token::EOS); return block; } catch (FatalError const&) { yulAssert(!m_errorReporter.errors().empty(), "Fatal error detected, but no error is reported."); } return nullptr; } Block Parser::parseBlock() { RecursionGuard recursionGuard(*this); Block block = createWithLocation(); expectToken(Token::LBrace); while (currentToken() != Token::RBrace) block.statements.emplace_back(parseStatement()); block.location.end = currentLocation().end; advance(); return block; } Statement Parser::parseStatement() { RecursionGuard recursionGuard(*this); switch (currentToken()) { case Token::Let: return parseVariableDeclaration(); case Token::Function: return parseFunctionDefinition(); case Token::LBrace: return parseBlock(); case Token::If: { If _if = createWithLocation(); advance(); _if.condition = make_unique(parseExpression()); _if.body = parseBlock(); return Statement{move(_if)}; } case Token::Switch: { Switch _switch = createWithLocation(); advance(); _switch.expression = make_unique(parseExpression()); while (currentToken() == Token::Case) _switch.cases.emplace_back(parseCase()); if (currentToken() == Token::Default) _switch.cases.emplace_back(parseCase()); if (currentToken() == Token::Default) fatalParserError(6931_error, "Only one default case allowed."); else if (currentToken() == Token::Case) fatalParserError(4904_error, "Case not allowed after default case."); if (_switch.cases.empty()) fatalParserError(2418_error, "Switch statement without any cases."); _switch.location.end = _switch.cases.back().body.location.end; return Statement{move(_switch)}; } case Token::For: return parseForLoop(); case Token::Break: { Statement stmt{createWithLocation()}; checkBreakContinuePosition("break"); m_scanner->next(); return stmt; } case Token::Continue: { Statement stmt{createWithLocation()}; checkBreakContinuePosition("continue"); m_scanner->next(); return stmt; } case Token::Identifier: if (currentLiteral() == "leave") { Statement stmt{createWithLocation()}; if (!m_insideFunction) m_errorReporter.syntaxError(8149_error, currentLocation(), "Keyword \"leave\" can only be used inside a function."); m_scanner->next(); return stmt; } break; default: break; } // Options left: // Simple instruction (might turn into functional), // literal, // identifier (might turn into label or functional assignment) ElementaryOperation elementary(parseElementaryOperation()); switch (currentToken()) { case Token::LParen: { Expression expr = parseCall(std::move(elementary)); return ExpressionStatement{locationOf(expr), expr}; } case Token::Comma: case Token::AssemblyAssign: { Assignment assignment; assignment.location = locationOf(elementary); while (true) { if (!holds_alternative(elementary)) { auto const token = currentToken() == Token::Comma ? "," : ":="; fatalParserError( 2856_error, std::string("Variable name must precede \"") + token + "\"" + (currentToken() == Token::Comma ? " in multiple assignment." : " in assignment.") ); } auto const& identifier = std::get(elementary); if (m_dialect.builtin(identifier.name)) fatalParserError(6272_error, "Cannot assign to builtin function \"" + identifier.name.str() + "\"."); assignment.variableNames.emplace_back(identifier); if (currentToken() != Token::Comma) break; expectToken(Token::Comma); elementary = parseElementaryOperation(); } expectToken(Token::AssemblyAssign); assignment.value = make_unique(parseExpression()); assignment.location.end = locationOf(*assignment.value).end; return Statement{std::move(assignment)}; } default: fatalParserError(6913_error, "Call or assignment expected."); break; } if (holds_alternative(elementary)) { Identifier& identifier = std::get(elementary); return ExpressionStatement{identifier.location, { move(identifier) }}; } else if (holds_alternative(elementary)) { Expression expr = std::get(elementary); return ExpressionStatement{locationOf(expr), expr}; } else { yulAssert(false, "Invalid elementary operation."); return {}; } } Case Parser::parseCase() { RecursionGuard recursionGuard(*this); Case _case = createWithLocation(); if (currentToken() == Token::Default) advance(); else if (currentToken() == Token::Case) { advance(); ElementaryOperation literal = parseElementaryOperation(); if (!holds_alternative(literal)) fatalParserError(4805_error, "Literal expected."); _case.value = make_unique(std::get(std::move(literal))); } else yulAssert(false, "Case or default case expected."); _case.body = parseBlock(); _case.location.end = _case.body.location.end; return _case; } ForLoop Parser::parseForLoop() { RecursionGuard recursionGuard(*this); ForLoopComponent outerForLoopComponent = m_currentForLoopComponent; ForLoop forLoop = createWithLocation(); expectToken(Token::For); m_currentForLoopComponent = ForLoopComponent::ForLoopPre; forLoop.pre = parseBlock(); m_currentForLoopComponent = ForLoopComponent::None; forLoop.condition = make_unique(parseExpression()); m_currentForLoopComponent = ForLoopComponent::ForLoopPost; forLoop.post = parseBlock(); m_currentForLoopComponent = ForLoopComponent::ForLoopBody; forLoop.body = parseBlock(); forLoop.location.end = forLoop.body.location.end; m_currentForLoopComponent = outerForLoopComponent; return forLoop; } Expression Parser::parseExpression() { RecursionGuard recursionGuard(*this); ElementaryOperation operation = parseElementaryOperation(); if (holds_alternative(operation) || currentToken() == Token::LParen) return parseCall(std::move(operation)); else if (holds_alternative(operation)) return std::get(operation); else { yulAssert(holds_alternative(operation), ""); return std::get(operation); } } Parser::ElementaryOperation Parser::parseElementaryOperation() { RecursionGuard recursionGuard(*this); ElementaryOperation ret; switch (currentToken()) { case Token::Identifier: case Token::Return: case Token::Byte: case Token::Bool: case Token::Address: case Token::Var: case Token::In: { YulString literal{currentLiteral()}; if (m_dialect.builtin(literal)) { Identifier identifier{currentLocation(), literal}; advance(); expectToken(Token::LParen, false); return FunctionCall{identifier.location, identifier, {}}; } else ret = Identifier{currentLocation(), literal}; advance(); break; } case Token::StringLiteral: case Token::Number: case Token::TrueLiteral: case Token::FalseLiteral: { LiteralKind kind = LiteralKind::Number; switch (currentToken()) { case Token::StringLiteral: kind = LiteralKind::String; break; case Token::Number: if (!isValidNumberLiteral(currentLiteral())) fatalParserError(4828_error, "Invalid number literal."); kind = LiteralKind::Number; break; case Token::TrueLiteral: case Token::FalseLiteral: kind = LiteralKind::Boolean; break; default: break; } Literal literal{ currentLocation(), kind, YulString{currentLiteral()}, kind == LiteralKind::Boolean ? m_dialect.boolType : m_dialect.defaultType }; advance(); if (currentToken() == Token::Colon) { expectToken(Token::Colon); literal.location.end = currentLocation().end; literal.type = expectAsmIdentifier(); } ret = std::move(literal); break; } default: fatalParserError(1856_error, "Literal or identifier expected."); } return ret; } VariableDeclaration Parser::parseVariableDeclaration() { RecursionGuard recursionGuard(*this); VariableDeclaration varDecl = createWithLocation(); expectToken(Token::Let); while (true) { varDecl.variables.emplace_back(parseTypedName()); if (currentToken() == Token::Comma) expectToken(Token::Comma); else break; } if (currentToken() == Token::AssemblyAssign) { expectToken(Token::AssemblyAssign); varDecl.value = make_unique(parseExpression()); varDecl.location.end = locationOf(*varDecl.value).end; } else varDecl.location.end = varDecl.variables.back().location.end; return varDecl; } FunctionDefinition Parser::parseFunctionDefinition() { RecursionGuard recursionGuard(*this); if (m_currentForLoopComponent == ForLoopComponent::ForLoopPre) m_errorReporter.syntaxError( 3441_error, currentLocation(), "Functions cannot be defined inside a for-loop init block." ); ForLoopComponent outerForLoopComponent = m_currentForLoopComponent; m_currentForLoopComponent = ForLoopComponent::None; FunctionDefinition funDef = createWithLocation(); expectToken(Token::Function); funDef.name = expectAsmIdentifier(); expectToken(Token::LParen); while (currentToken() != Token::RParen) { funDef.parameters.emplace_back(parseTypedName()); if (currentToken() == Token::RParen) break; expectToken(Token::Comma); } expectToken(Token::RParen); if (currentToken() == Token::Sub) { expectToken(Token::Sub); expectToken(Token::GreaterThan); while (true) { funDef.returnVariables.emplace_back(parseTypedName()); if (currentToken() == Token::LBrace) break; expectToken(Token::Comma); } } bool preInsideFunction = m_insideFunction; m_insideFunction = true; funDef.body = parseBlock(); m_insideFunction = preInsideFunction; funDef.location.end = funDef.body.location.end; m_currentForLoopComponent = outerForLoopComponent; return funDef; } Expression Parser::parseCall(Parser::ElementaryOperation&& _initialOp) { RecursionGuard recursionGuard(*this); FunctionCall ret; if (holds_alternative(_initialOp)) { ret.functionName = std::move(std::get(_initialOp)); ret.location = ret.functionName.location; } else if (holds_alternative(_initialOp)) ret = std::move(std::get(_initialOp)); else fatalParserError(9980_error, "Function name expected."); expectToken(Token::LParen); if (currentToken() != Token::RParen) { ret.arguments.emplace_back(parseExpression()); while (currentToken() != Token::RParen) { expectToken(Token::Comma); ret.arguments.emplace_back(parseExpression()); } } ret.location.end = currentLocation().end; expectToken(Token::RParen); return ret; } TypedName Parser::parseTypedName() { RecursionGuard recursionGuard(*this); TypedName typedName = createWithLocation(); typedName.name = expectAsmIdentifier(); if (currentToken() == Token::Colon) { expectToken(Token::Colon); typedName.location.end = currentLocation().end; typedName.type = expectAsmIdentifier(); } else typedName.type = m_dialect.defaultType; return typedName; } YulString Parser::expectAsmIdentifier() { YulString name{currentLiteral()}; switch (currentToken()) { case Token::Return: case Token::Byte: case Token::Address: case Token::Bool: case Token::Identifier: case Token::Var: case Token::In: break; default: expectToken(Token::Identifier); break; } if (m_dialect.builtin(name)) fatalParserError(5568_error, "Cannot use builtin function name \"" + name.str() + "\" as identifier name."); advance(); return name; } void Parser::checkBreakContinuePosition(string const& _which) { switch (m_currentForLoopComponent) { case ForLoopComponent::None: m_errorReporter.syntaxError(2592_error, currentLocation(), "Keyword \"" + _which + "\" needs to be inside a for-loop body."); break; case ForLoopComponent::ForLoopPre: m_errorReporter.syntaxError(9615_error, currentLocation(), "Keyword \"" + _which + "\" in for-loop init block is not allowed."); break; case ForLoopComponent::ForLoopPost: m_errorReporter.syntaxError(2461_error, currentLocation(), "Keyword \"" + _which + "\" in for-loop post block is not allowed."); break; case ForLoopComponent::ForLoopBody: break; } } bool Parser::isValidNumberLiteral(string const& _literal) { try { // Try to convert _literal to u256. [[maybe_unused]] auto tmp = u256(_literal); } catch (...) { return false; } if (boost::starts_with(_literal, "0x")) return true; else return _literal.find_first_not_of("0123456789") == string::npos; }