/* 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 . */ #include #include #include #include #include #include #include #include #include #include using namespace dev; using namespace langutil; using namespace solidity; using namespace dev::solidity::test; using namespace std; using namespace soltest; namespace { enum class DeclaredAlignment { Left, Right, None, }; inline bytes alignLeft(bytes _bytes) { return std::move(_bytes) + bytes(32 - _bytes.size(), 0); } inline bytes alignRight(bytes _bytes) { return bytes(32 - _bytes.size(), 0) + std::move(_bytes); } inline bytes applyAlign(DeclaredAlignment _alignment, ABIType& _abiType, bytes _converted) { if (_alignment != DeclaredAlignment::None) _abiType.alignDeclared = true; switch (_alignment) { case DeclaredAlignment::Left: _abiType.align = ABIType::AlignLeft; return alignLeft(std::move(_converted)); case DeclaredAlignment::Right: _abiType.align = ABIType::AlignRight; return alignRight(std::move(_converted)); default: _abiType.align = ABIType::AlignRight; return alignRight(std::move(_converted)); } } } vector TestFileParser::parseFunctionCalls() { vector calls; if (!accept(Token::EOS)) { assert(m_scanner.currentToken() == Token::Unknown); m_scanner.scanNextToken(); while (!accept(Token::EOS)) { if (!accept(Token::Whitespace)) { FunctionCall call; /// If this is not the first call in the test, /// the last call to parseParameter could have eaten the /// new line already. This could only be fixed with a one /// token lookahead that checks parseParameter /// if the next token is an identifier. if (calls.empty()) expect(Token::Newline); else accept(Token::Newline, true); call.signature = parseFunctionSignature(); if (accept(Token::Comma, true)) call.value = parseFunctionCallValue(); if (accept(Token::Colon, true)) call.arguments = parseFunctionCallArguments(); if (accept(Token::Newline, true)) call.displayMode = FunctionCall::DisplayMode::MultiLine; call.arguments.comment = parseComment(); if (accept(Token::Newline, true)) call.displayMode = FunctionCall::DisplayMode::MultiLine; expect(Token::Arrow); call.expectations = parseFunctionCallExpectations(); accept(Token::Newline, true); call.expectations.comment = parseComment(); calls.emplace_back(std::move(call)); } } } return calls; } bool TestFileParser::accept(soltest::Token _token, bool const _expect) { if (m_scanner.currentToken() != _token) return false; if (_expect) return expect(_token); return true; } bool TestFileParser::expect(soltest::Token _token, bool const _advance) { if (m_scanner.currentToken() != _token || m_scanner.currentToken() == Token::Invalid) throw Error( Error::Type::ParserError, "Unexpected " + formatToken(m_scanner.currentToken()) + ": \"" + m_scanner.currentLiteral() + "\". " + "Expected \"" + formatToken(_token) + "\"." ); if (_advance) m_scanner.scanNextToken(); return true; } string TestFileParser::parseFunctionSignature() { string signature = m_scanner.currentLiteral(); expect(Token::Identifier); signature += formatToken(Token::LParen); expect(Token::LParen); string parameters; if (!accept(Token::RParen, false)) parameters = parseIdentifierOrTuple(); while (accept(Token::Comma)) { parameters += formatToken(Token::Comma); expect(Token::Comma); parameters += parseIdentifierOrTuple(); } if (accept(Token::Arrow, true)) throw Error(Error::Type::ParserError, "Invalid signature detected: " + signature); signature += parameters; expect(Token::RParen); signature += formatToken(Token::RParen); return signature; } u256 TestFileParser::parseFunctionCallValue() { try { u256 value{parseDecimalNumber()}; expect(Token::Ether); return value; } catch (std::exception const&) { throw Error(Error::Type::ParserError, "Ether value encoding invalid."); } } FunctionCallArgs TestFileParser::parseFunctionCallArguments() { FunctionCallArgs arguments; auto param = parseParameter(); if (param.abiType.type == ABIType::None) throw Error(Error::Type::ParserError, "No argument provided."); arguments.parameters.emplace_back(param); while (accept(Token::Comma, true)) arguments.parameters.emplace_back(parseParameter()); return arguments; } FunctionCallExpectations TestFileParser::parseFunctionCallExpectations() { FunctionCallExpectations expectations; auto param = parseParameter(); if (param.abiType.type == ABIType::None) { expectations.failure = false; return expectations; } expectations.result.emplace_back(param); while (accept(Token::Comma, true)) expectations.result.emplace_back(parseParameter()); /// We have always one virtual parameter in the parameter list. /// If its type is FAILURE, the expected result is also a REVERT etc. if (expectations.result.at(0).abiType.type != ABIType::Failure) expectations.failure = false; return expectations; } Parameter TestFileParser::parseParameter() { Parameter parameter; if (accept(Token::Newline, true)) parameter.format.newline = true; auto literal = parseABITypeLiteral(); parameter.rawBytes = get<0>(literal); parameter.abiType = get<1>(literal); parameter.rawString = get<2>(literal); return parameter; } tuple TestFileParser::parseABITypeLiteral() { ABIType abiType{ABIType::None, ABIType::AlignNone, 0}; DeclaredAlignment alignment{DeclaredAlignment::None}; bytes result{toBigEndian(u256{0})}; string rawString; bool isSigned = false; if (accept(Token::Left, true)) { rawString += formatToken(Token::Left); expect(Token::LParen); rawString += formatToken(Token::LParen); alignment = DeclaredAlignment::Left; } if (accept(Token::Right, true)) { rawString += formatToken(Token::Right); expect(Token::LParen); rawString += formatToken(Token::LParen); alignment = DeclaredAlignment::Right; } try { if (accept(Token::Sub, true)) { rawString += formatToken(Token::Sub); isSigned = true; } if (accept(Token::Boolean)) { if (isSigned) throw Error(Error::Type::ParserError, "Invalid boolean literal."); abiType = ABIType{ABIType::Boolean, ABIType::AlignRight, 32}; string parsed = parseBoolean(); rawString += parsed; result = applyAlign(alignment, abiType, convertBoolean(parsed)); } else if (accept(Token::HexNumber)) { if (isSigned) throw Error(Error::Type::ParserError, "Invalid hex number literal."); abiType = ABIType{ABIType::Hex, ABIType::AlignRight, 32}; string parsed = parseHexNumber(); rawString += parsed; result = applyAlign(alignment, abiType, convertHexNumber(parsed)); } else if (accept(Token::Hex, true)) { if (isSigned) throw Error(Error::Type::ParserError, "Invalid hex string literal."); if (alignment != DeclaredAlignment::None) throw Error(Error::Type::ParserError, "Hex string literals cannot be aligned or padded."); string parsed = parseHexNumber(); rawString += parsed; result = convertHexString(parsed); abiType = ABIType{ABIType::HexString, ABIType::AlignNone, result.size()}; } else if (accept(Token::Number)) { auto type = isSigned ? ABIType::SignedDec : ABIType::UnsignedDec; abiType = ABIType{type, ABIType::AlignRight, 32}; string parsed = parseDecimalNumber(); rawString += parsed; if (isSigned) parsed = "-" + parsed; result = applyAlign(alignment, abiType, convertNumber(parsed)); } else if (accept(Token::Failure, true)) { if (isSigned) throw Error(Error::Type::ParserError, "Invalid failure literal."); abiType = ABIType{ABIType::Failure, ABIType::AlignRight, 0}; result = bytes{}; } if (alignment != DeclaredAlignment::None) { expect(Token::RParen); rawString += formatToken(Token::RParen); } return make_tuple(result, abiType, rawString); } catch (std::exception const&) { throw Error(Error::Type::ParserError, "Literal encoding invalid."); } } string TestFileParser::parseIdentifierOrTuple() { string identOrTuple; auto parseArrayDimensions = [&]() { while (accept(Token::LBrack)) { identOrTuple += formatToken(Token::LBrack); expect(Token::LBrack); if (accept(Token::Number)) identOrTuple += parseDecimalNumber(); identOrTuple += formatToken(Token::RBrack); expect(Token::RBrack); } }; if (accept(Token::Identifier)) { identOrTuple = m_scanner.currentLiteral(); expect(Token::Identifier); parseArrayDimensions(); return identOrTuple; } expect(Token::LParen); identOrTuple += formatToken(Token::LParen); identOrTuple += parseIdentifierOrTuple(); while (accept(Token::Comma)) { identOrTuple += formatToken(Token::Comma); expect(Token::Comma); identOrTuple += parseIdentifierOrTuple(); } expect(Token::RParen); identOrTuple += formatToken(Token::RParen); parseArrayDimensions(); return identOrTuple; } string TestFileParser::parseBoolean() { string literal = m_scanner.currentLiteral(); expect(Token::Boolean); return literal; } string TestFileParser::parseComment() { string comment = m_scanner.currentLiteral(); if (accept(Token::Comment, true)) return comment; return string{}; } string TestFileParser::parseDecimalNumber() { string literal = m_scanner.currentLiteral(); expect(Token::Number); return literal; } string TestFileParser::parseHexNumber() { string literal = m_scanner.currentLiteral(); expect(Token::HexNumber); return literal; } bytes TestFileParser::convertBoolean(string const& _literal) { if (_literal == "true") return bytes{true}; else if (_literal == "false") return bytes{false}; else throw Error(Error::Type::ParserError, "Boolean literal invalid."); } bytes TestFileParser::convertNumber(string const& _literal) { try { return toCompactBigEndian(u256{_literal}); } catch (std::exception const&) { throw Error(Error::Type::ParserError, "Number encoding invalid."); } } bytes TestFileParser::convertHexNumber(string const& _literal) { try { if (_literal.size() % 2) { throw Error(Error::Type::ParserError, "Hex number encoding invalid."); } else { return fromHex(_literal); } } catch (std::exception const&) { throw Error(Error::Type::ParserError, "Hex number encoding invalid."); } } bytes TestFileParser::convertHexString(string const& _literal) { try { if (_literal.size() % 2) throw Error(Error::Type::ParserError, "Hex string encoding invalid."); else return fromHex(_literal); } catch (std::exception const&) { throw Error(Error::Type::ParserError, "Hex string encoding invalid."); } } void TestFileParser::Scanner::readStream(istream& _stream) { std::string line; while (std::getline(_stream, line)) m_line += line; m_char = m_line.begin(); } void TestFileParser::Scanner::scanNextToken() { using namespace langutil; // Make code coverage happy. assert(formatToken(Token::NUM_TOKENS) == ""); auto detectKeyword = [](std::string const& _literal = "") -> TokenDesc { if (_literal == "true") return TokenDesc{Token::Boolean, _literal}; if (_literal == "false") return TokenDesc{Token::Boolean, _literal}; if (_literal == "ether") return TokenDesc{Token::Ether, _literal}; if (_literal == "left") return TokenDesc{Token::Left, _literal}; if (_literal == "right") return TokenDesc{Token::Right, _literal}; if (_literal == "hex") return TokenDesc{Token::Hex, _literal}; if (_literal == "FAILURE") return TokenDesc{Token::Failure, _literal}; return TokenDesc{Token::Identifier, _literal}; }; auto selectToken = [this](Token _token, std::string const& _literal = "") -> TokenDesc { advance(); return make_pair(_token, !_literal.empty() ? _literal : formatToken(_token)); }; TokenDesc token = make_pair(Token::Unknown, ""); do { switch(current()) { case '/': advance(); if (current() == '/') token = selectToken(Token::Newline); else token = selectToken(Token::Invalid); break; case '-': if (peek() == '>') { advance(); token = selectToken(Token::Arrow); } else token = selectToken(Token::Sub); break; case ':': token = selectToken(Token::Colon); break; case '#': token = selectToken(Token::Comment, scanComment()); break; case ',': token = selectToken(Token::Comma); break; case '(': token = selectToken(Token::LParen); break; case ')': token = selectToken(Token::RParen); break; case '[': token = selectToken(Token::LBrack); break; case ']': token = selectToken(Token::RBrack); break; case '\"': advance(); token = selectToken(Token::HexNumber, scanHexNumber()); advance(); break; default: if (isIdentifierStart(current())) { TokenDesc detectedToken = detectKeyword(scanIdentifierOrKeyword()); token = selectToken(detectedToken.first, detectedToken.second); } else if (isDecimalDigit(current())) { if (current() == '0' && peek() == 'x') { advance(); advance(); token = selectToken(Token::HexNumber, "0x" + scanHexNumber()); } else token = selectToken(Token::Number, scanDecimalNumber()); } else if (isWhiteSpace(current())) token = selectToken(Token::Whitespace); else if (isEndOfLine()) token = selectToken(Token::EOS); break; } } while (token.first == Token::Whitespace); m_currentToken = token; } string TestFileParser::Scanner::scanComment() { string comment; advance(); while (current() != '#') { comment += current(); advance(); } return comment; } string TestFileParser::Scanner::scanIdentifierOrKeyword() { string identifier; identifier += current(); while (langutil::isIdentifierPart(peek())) { advance(); identifier += current(); } return identifier; } string TestFileParser::Scanner::scanDecimalNumber() { string number; number += current(); while (langutil::isDecimalDigit(peek())) { advance(); number += current(); } return number; } string TestFileParser::Scanner::scanHexNumber() { string number; number += current(); while (langutil::isHexDigit(peek())) { advance(); number += current(); } return number; }