#include #include #include #include #include #include #include #include #include #include #include namespace DB { namespace ErrorCodes { extern const int SYNTAX_ERROR; } namespace { /** From position in (possible multiline) query, get line number and column number in line. * Used in syntax error message. */ std::pair getLineAndCol(const char * begin, const char * pos) { size_t line = 0; const char * nl; while (nullptr != (nl = reinterpret_cast(memchr(begin, '\n', pos - begin)))) { ++line; begin = nl + 1; } /// Lines numbered from 1. return { line + 1, pos - begin + 1 }; } WriteBuffer & operator<< (WriteBuffer & out, const Expected & expected) { if (expected.variants.empty()) return out; if (expected.variants.size() == 1) return out << *expected.variants.begin(); out << "one of: "; bool first = true; for (const auto & variant : expected.variants) { if (!first) out << ", "; first = false; out << variant; } return out; } /// Hilite place of syntax error. void writeQueryWithHighlightedErrorPositions( WriteBuffer & out, const char * begin, const char * end, const Token * positions_to_hilite, /// must go in ascending order size_t num_positions_to_hilite) { const char * pos = begin; for (size_t position_to_hilite_idx = 0; position_to_hilite_idx < num_positions_to_hilite; ++position_to_hilite_idx) { const char * current_position_to_hilite = positions_to_hilite[position_to_hilite_idx].begin; out.write(pos, current_position_to_hilite - pos); if (current_position_to_hilite == end) { out << "\033[41;1m \033[0m"; return; } else { size_t bytes_to_hilite = UTF8::seqLength(*current_position_to_hilite); /// Bright on red background. out << "\033[41;1m"; out.write(current_position_to_hilite, bytes_to_hilite); out << "\033[0m"; pos = current_position_to_hilite + bytes_to_hilite; } } out.write(pos, end - pos); } void writeQueryAroundTheError( WriteBuffer & out, const char * begin, const char * end, bool hilite, const Token * positions_to_hilite, size_t num_positions_to_hilite) { if (hilite) { out << ":\n\n"; writeQueryWithHighlightedErrorPositions(out, begin, end, positions_to_hilite, num_positions_to_hilite); out << "\n\n"; } else { if (num_positions_to_hilite) out << ": " << std::string(positions_to_hilite[0].begin, std::min(SHOW_CHARS_ON_SYNTAX_ERROR, end - positions_to_hilite[0].begin)); } } void writeCommonErrorMessage( WriteBuffer & out, const char * begin, const char * end, Token last_token, const std::string & query_description) { out << "Syntax error"; if (!query_description.empty()) out << " (" << query_description << ")"; out << ": failed at position " << (last_token.begin - begin + 1); if (last_token.type == TokenType::EndOfStream || last_token.type == TokenType::Semicolon) out << " (end of query)"; /// If query is multiline. const char * nl = reinterpret_cast(memchr(begin, '\n', end - begin)); if (nullptr != nl && nl + 1 != end) { size_t line = 0; size_t col = 0; std::tie(line, col) = getLineAndCol(begin, last_token.begin); out << " (line " << line << ", col " << col << ")"; } } std::string getSyntaxErrorMessage( const char * begin, const char * end, Token last_token, const Expected & expected, bool hilite, const std::string & query_description) { WriteBufferFromOwnString out; writeCommonErrorMessage(out, begin, end, last_token, query_description); writeQueryAroundTheError(out, begin, end, hilite, &last_token, 1); if (!expected.variants.empty()) out << "Expected " << expected; return out.str(); } std::string getLexicalErrorMessage( const char * begin, const char * end, Token last_token, bool hilite, const std::string & query_description) { WriteBufferFromOwnString out; writeCommonErrorMessage(out, begin, end, last_token, query_description); writeQueryAroundTheError(out, begin, end, hilite, &last_token, 1); out << getErrorTokenDescription(last_token.type); return out.str(); } std::string getUnmatchedParenthesesErrorMessage( const char * begin, const char * end, const UnmatchedParentheses & unmatched_parens, bool hilite, const std::string & query_description) { WriteBufferFromOwnString out; writeCommonErrorMessage(out, begin, end, unmatched_parens[0], query_description); writeQueryAroundTheError(out, begin, end, hilite, unmatched_parens.data(), unmatched_parens.size()); out << "Unmatched parentheses: "; for (const Token & paren : unmatched_parens) out << *paren.begin; return out.str(); } } ASTPtr tryParseQuery( IParser & parser, const char * & pos, const char * end, std::string & out_error_message, bool hilite, const std::string & query_description, bool allow_multi_statements) { Tokens tokens(pos, end); TokenIterator token_iterator(tokens); if (token_iterator->isEnd() || token_iterator->type == TokenType::Semicolon) { out_error_message = "Empty query"; return nullptr; } Expected expected; ASTPtr res; bool parse_res = parser.parse(token_iterator, res, expected); Token last_token = token_iterator.max(); /// If parsed query ends at data for insertion. Data for insertion could be in any format and not necessary be lexical correct. ASTInsertQuery * insert = nullptr; if (parse_res) insert = typeid_cast(res.get()); if (!(insert && insert->data)) { /// Lexical error if (last_token.isError()) { out_error_message = getLexicalErrorMessage(pos, end, last_token, hilite, query_description); return nullptr; } /// Unmatched parentheses UnmatchedParentheses unmatched_parens = checkUnmatchedParentheses(TokenIterator(tokens), &last_token); if (!unmatched_parens.empty()) { out_error_message = getUnmatchedParenthesesErrorMessage(pos, end, unmatched_parens, hilite, query_description); return nullptr; } } if (!parse_res) { /// Parse error. out_error_message = getSyntaxErrorMessage(pos, end, last_token, expected, hilite, query_description); return nullptr; } /// Excessive input after query. Parsed query must end with end of data or semicolon or data for INSERT. if (!token_iterator->isEnd() && token_iterator->type != TokenType::Semicolon && !(insert && insert->data)) { expected.add(pos, "end of query"); out_error_message = getSyntaxErrorMessage(pos, end, last_token, expected, hilite, query_description); return nullptr; } while (token_iterator->type == TokenType::Semicolon) ++token_iterator; /// If multi-statements are not allowed, then after semicolon, there must be no non-space characters. if (!allow_multi_statements && !token_iterator->isEnd() && !(insert && insert->data)) { out_error_message = getSyntaxErrorMessage(pos, end, last_token, {}, hilite, (query_description.empty() ? std::string() : std::string(". ")) + "Multi-statements are not allowed"); return nullptr; } pos = token_iterator->begin; return res; } ASTPtr parseQueryAndMovePosition( IParser & parser, const char * & pos, const char * end, const std::string & query_description, bool allow_multi_statements) { std::string error_message; ASTPtr res = tryParseQuery(parser, pos, end, error_message, false, query_description, allow_multi_statements); if (res) return res; throw Exception(error_message, ErrorCodes::SYNTAX_ERROR); } ASTPtr parseQuery( IParser & parser, const char * begin, const char * end, const std::string & query_description) { auto pos = begin; return parseQueryAndMovePosition(parser, pos, end, query_description, false); } std::pair splitMultipartQuery(const std::string & queries, std::vector & queries_list) { ASTPtr ast; const char * begin = queries.data(); /// begin of current query const char * pos = begin; /// parser moves pos from begin to the end of current query const char * end = begin + queries.size(); ParserQuery parser(end); queries_list.clear(); while (pos < end) { begin = pos; ast = parseQueryAndMovePosition(parser, pos, end, "", true); if (!ast) break; ASTInsertQuery * insert = typeid_cast(ast.get()); if (insert && insert->data) { /// Data for INSERT is broken on new line pos = insert->data; while (*pos && *pos != '\n') ++pos; insert->end = pos; } queries_list.emplace_back(queries.substr(begin - queries.data(), pos - begin)); while (isWhitespaceASCII(*pos) || *pos == ';') ++pos; } return std::make_pair(begin, pos == end); } }