/* 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 . */ /** * @author Christian * @date 2015 * Parses and analyses the doc strings. * Stores the parsing results in the AST annotations and reports errors. */ #include #include #include #include #include #include #include #include #include #include #include using namespace std; using namespace solidity; using namespace solidity::langutil; using namespace solidity::frontend; bool DocStringTagParser::parseDocStrings(SourceUnit const& _sourceUnit) { auto errorWatcher = m_errorReporter.errorWatcher(); _sourceUnit.accept(*this); return errorWatcher.ok(); } bool DocStringTagParser::validateDocStringsUsingTypes(SourceUnit const& _sourceUnit) { ErrorReporter::ErrorWatcher errorWatcher = m_errorReporter.errorWatcher(); SimpleASTVisitor visitReturns( [](ASTNode const&) { return true; }, [&](ASTNode const& _node) { if (auto const* annotation = dynamic_cast(&_node.annotation())) { auto const& documentationNode = dynamic_cast(_node); size_t returnTagsVisited = 0; for (auto const& [tagName, tagValue]: annotation->docTags) if (tagName == "return") { returnTagsVisited++; vector returnParameterNames; if (auto const* varDecl = dynamic_cast(&_node)) { if (!varDecl->isPublic()) continue; // FunctionType() requires the DeclarationTypeChecker to have run. returnParameterNames = FunctionType(*varDecl).returnParameterNames(); } else if (auto const* function = dynamic_cast(&_node)) returnParameterNames = FunctionType(*function).returnParameterNames(); else continue; string content = tagValue.content; string firstWord = content.substr(0, content.find_first_of(" \t")); if (returnTagsVisited > returnParameterNames.size()) m_errorReporter.docstringParsingError( 2604_error, documentationNode.documentation()->location(), "Documentation tag \"@" + tagName + " " + content + "\"" + " exceeds the number of return parameters." ); else { string const& parameter = returnParameterNames.at(returnTagsVisited - 1); if (!parameter.empty() && parameter != firstWord) m_errorReporter.docstringParsingError( 5856_error, documentationNode.documentation()->location(), "Documentation tag \"@" + tagName + " " + content + "\"" + " does not contain the name of its return parameter." ); } } } }); _sourceUnit.accept(visitReturns); return errorWatcher.ok(); } bool DocStringTagParser::visit(ContractDefinition const& _contract) { static set const validTags = set{"author", "title", "dev", "notice"}; parseDocStrings(_contract, _contract.annotation(), validTags, "contracts"); return true; } bool DocStringTagParser::visit(FunctionDefinition const& _function) { if (_function.isConstructor()) handleConstructor(_function, _function, _function.annotation()); else handleCallable(_function, _function, _function.annotation()); return true; } bool DocStringTagParser::visit(VariableDeclaration const& _variable) { if (_variable.isStateVariable()) { if (_variable.isPublic()) parseDocStrings(_variable, _variable.annotation(), {"dev", "notice", "return", "inheritdoc"}, "public state variables"); else parseDocStrings(_variable, _variable.annotation(), {"dev", "notice", "inheritdoc"}, "non-public state variables"); } else if (_variable.isFileLevelVariable()) parseDocStrings(_variable, _variable.annotation(), {"dev"}, "file-level variables"); return false; } bool DocStringTagParser::visit(ModifierDefinition const& _modifier) { handleCallable(_modifier, _modifier, _modifier.annotation()); return true; } bool DocStringTagParser::visit(EventDefinition const& _event) { handleCallable(_event, _event, _event.annotation()); return true; } bool DocStringTagParser::visit(ErrorDefinition const& _error) { handleCallable(_error, _error, _error.annotation()); return true; } bool DocStringTagParser::visit(InlineAssembly const& _assembly) { if (!_assembly.documentation()) return true; StructuredDocumentation documentation{-1, _assembly.location(), _assembly.documentation()}; ErrorList errors; ErrorReporter errorReporter{errors}; auto docTags = DocStringParser{documentation, errorReporter}.parse(); if (!errors.empty()) { SecondarySourceLocation ssl; for (auto const& error: errors) if (error->comment()) ssl.append( *error->comment(), _assembly.location() ); m_errorReporter.warning( 7828_error, _assembly.location(), "Inline assembly has invalid NatSpec documentation.", ssl ); } for (auto const& [tagName, tagValue]: docTags) { if (tagName == "solidity") { vector values; boost::split(values, tagValue.content, isWhiteSpace); set valuesSeen; set duplicates; for (auto const& value: values | ranges::views::filter(not_fn(&string::empty))) if (valuesSeen.insert(value).second) { if (value == "memory-safe-assembly") _assembly.annotation().markedMemorySafe = true; else m_errorReporter.warning( 8787_error, _assembly.location(), "Unexpected value for @solidity tag in inline assembly: " + value ); } else if (duplicates.insert(value).second) m_errorReporter.warning( 4377_error, _assembly.location(), "Value for @solidity tag in inline assembly specified multiple times: " + value ); } else m_errorReporter.warning( 6269_error, _assembly.location(), "Unexpected NatSpec tag \"" + tagName + "\" with value \"" + tagValue.content + "\" in inline assembly." ); } return true; } void DocStringTagParser::checkParameters( CallableDeclaration const& _callable, StructurallyDocumented const& _node, StructurallyDocumentedAnnotation& _annotation ) { set validParams; for (auto const& p: _callable.parameters()) validParams.insert(p->name()); if (_callable.returnParameterList()) for (auto const& p: _callable.returnParameterList()->parameters()) validParams.insert(p->name()); auto paramRange = _annotation.docTags.equal_range("param"); for (auto i = paramRange.first; i != paramRange.second; ++i) if (!validParams.count(i->second.paramName)) m_errorReporter.docstringParsingError( 3881_error, _node.documentation()->location(), "Documented parameter \"" + i->second.paramName + "\" not found in the parameter list of the function." ); } void DocStringTagParser::handleConstructor( CallableDeclaration const& _callable, StructurallyDocumented const& _node, StructurallyDocumentedAnnotation& _annotation ) { static set const validTags = set{"author", "dev", "notice", "param"}; parseDocStrings(_node, _annotation, validTags, "constructor"); checkParameters(_callable, _node, _annotation); } void DocStringTagParser::handleCallable( CallableDeclaration const& _callable, StructurallyDocumented const& _node, StructurallyDocumentedAnnotation& _annotation ) { static set const validEventTags = set{"dev", "notice", "return", "param"}; static set const validErrorTags = set{"dev", "notice", "param"}; static set const validModifierTags = set{"dev", "notice", "param", "inheritdoc"}; static set const validTags = set{"dev", "notice", "return", "param", "inheritdoc"}; if (dynamic_cast(&_callable)) parseDocStrings(_node, _annotation, validEventTags, "events"); else if (dynamic_cast(&_callable)) parseDocStrings(_node, _annotation, validErrorTags, "errors"); else if (dynamic_cast(&_callable)) parseDocStrings(_node, _annotation, validModifierTags, "modifiers"); else parseDocStrings(_node, _annotation, validTags, "functions"); checkParameters(_callable, _node, _annotation); } void DocStringTagParser::parseDocStrings( StructurallyDocumented const& _node, StructurallyDocumentedAnnotation& _annotation, set const& _validTags, string const& _nodeName ) { if (!_node.documentation()) return; _annotation.docTags = DocStringParser{*_node.documentation(), m_errorReporter}.parse(); for (auto const& [tagName, tagValue]: _annotation.docTags) { string_view static constexpr customPrefix("custom:"); if (tagName == "custom" || tagName == "custom:") m_errorReporter.docstringParsingError( 6564_error, _node.documentation()->location(), "Custom documentation tag must contain a chosen name, i.e. @custom:mytag." ); else if (boost::starts_with(tagName, customPrefix) && tagName.size() > customPrefix.size()) { regex static const customRegex("^custom:[a-z][a-z-]*$"); if (!regex_match(tagName, customRegex)) m_errorReporter.docstringParsingError( 2968_error, _node.documentation()->location(), "Invalid character in custom tag @" + tagName + ". Only lowercase letters and \"-\" are permitted." ); continue; } else if (!_validTags.count(tagName)) m_errorReporter.docstringParsingError( 6546_error, _node.documentation()->location(), "Documentation tag @" + tagName + " not valid for " + _nodeName + "." ); } }