#pragma once #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #ifdef __clang__ #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wdouble-promotion" #endif #include #ifdef __clang__ #pragma clang diagnostic pop #endif #define DEFAULT_MAX_STRING_SIZE 0x00FFFFFFULL namespace DB { namespace ErrorCodes { extern const int CANNOT_PARSE_DATE; extern const int CANNOT_PARSE_DATETIME; extern const int CANNOT_PARSE_UUID; extern const int CANNOT_READ_ARRAY_FROM_TEXT; extern const int CANNOT_PARSE_NUMBER; extern const int ILLEGAL_TYPE_OF_ARGUMENT; } /// Helper functions for formatted input. inline char parseEscapeSequence(char c) { switch(c) { case 'a': return '\a'; case 'b': return '\b'; case 'e': return '\x1B'; /// \e escape sequence is non standard for C and C++ but supported by gcc and clang. case 'f': return '\f'; case 'n': return '\n'; case 'r': return '\r'; case 't': return '\t'; case 'v': return '\v'; case '0': return '\0'; default: return c; } } /// These functions are located in VarInt.h /// inline void throwReadAfterEOF() inline void readChar(char & x, ReadBuffer & buf) { if (!buf.eof()) { x = *buf.position(); ++buf.position(); } else throwReadAfterEOF(); } /// Read POD-type in native format template inline void readPODBinary(T & x, ReadBuffer & buf) { buf.readStrict(reinterpret_cast(&x), sizeof(x)); } template inline void readIntBinary(T & x, ReadBuffer & buf) { readPODBinary(x, buf); } template inline void readFloatBinary(T & x, ReadBuffer & buf) { readPODBinary(x, buf); } inline void readStringBinary(std::string & s, ReadBuffer & buf, size_t MAX_STRING_SIZE = DEFAULT_MAX_STRING_SIZE) { size_t size = 0; readVarUInt(size, buf); if (size > MAX_STRING_SIZE) throw Poco::Exception("Too large string size."); s.resize(size); buf.readStrict(s.data(), size); } inline StringRef readStringBinaryInto(Arena & arena, ReadBuffer & buf) { size_t size = 0; readVarUInt(size, buf); char * data = arena.alloc(size); buf.readStrict(data, size); return StringRef(data, size); } template void readVectorBinary(std::vector & v, ReadBuffer & buf, size_t MAX_VECTOR_SIZE = DEFAULT_MAX_STRING_SIZE) { size_t size = 0; readVarUInt(size, buf); if (size > MAX_VECTOR_SIZE) throw Poco::Exception("Too large vector size."); v.resize(size); for (size_t i = 0; i < size; ++i) readBinary(v[i], buf); } void assertString(const char * s, ReadBuffer & buf); void assertEOF(ReadBuffer & buf); void assertChar(char symbol, ReadBuffer & buf); inline void assertString(const String & s, ReadBuffer & buf) { assertString(s.c_str(), buf); } bool checkString(const char * s, ReadBuffer & buf); inline bool checkString(const String & s, ReadBuffer & buf) { return checkString(s.c_str(), buf); } inline bool checkChar(char c, ReadBuffer & buf) { if (buf.eof() || *buf.position() != c) return false; ++buf.position(); return true; } bool checkStringCaseInsensitive(const char * s, ReadBuffer & buf); inline bool checkStringCaseInsensitive(const String & s, ReadBuffer & buf) { return checkStringCaseInsensitive(s.c_str(), buf); } void assertStringCaseInsensitive(const char * s, ReadBuffer & buf); inline void assertStringCaseInsensitive(const String & s, ReadBuffer & buf) { return assertStringCaseInsensitive(s.c_str(), buf); } /** Check that next character in buf matches first character of s. * If true, then check all characters in s and throw exception if it doesn't match. * If false, then return false, and leave position in buffer unchanged. */ bool checkStringByFirstCharacterAndAssertTheRest(const char * s, ReadBuffer & buf); bool checkStringByFirstCharacterAndAssertTheRestCaseInsensitive(const char * s, ReadBuffer & buf); inline bool checkStringByFirstCharacterAndAssertTheRest(const String & s, ReadBuffer & buf) { return checkStringByFirstCharacterAndAssertTheRest(s.c_str(), buf); } inline bool checkStringByFirstCharacterAndAssertTheRestCaseInsensitive(const String & s, ReadBuffer & buf) { return checkStringByFirstCharacterAndAssertTheRestCaseInsensitive(s.c_str(), buf); } inline void readBoolText(bool & x, ReadBuffer & buf) { char tmp = '0'; readChar(tmp, buf); x = tmp != '0'; } inline void readBoolTextWord(bool & x, ReadBuffer & buf) { if (buf.eof()) throwReadAfterEOF(); if (*buf.position() == 't') { assertString("true", buf); x = true; } else { assertString("false", buf); x = false; } } template ReturnType readIntTextImpl(T & x, ReadBuffer & buf) { static constexpr bool throw_exception = std::is_same_v; bool negative = false; x = 0; if (buf.eof()) { if constexpr (throw_exception) throwReadAfterEOF(); else return ReturnType(false); } while (!buf.eof()) { switch (*buf.position()) { case '+': break; case '-': if (std::is_signed_v) negative = true; else { if constexpr (throw_exception) throw Exception("Unsigned type must not contain '-' symbol", ErrorCodes::CANNOT_PARSE_NUMBER); else return ReturnType(false); } break; case '0': [[fallthrough]]; case '1': [[fallthrough]]; case '2': [[fallthrough]]; case '3': [[fallthrough]]; case '4': [[fallthrough]]; case '5': [[fallthrough]]; case '6': [[fallthrough]]; case '7': [[fallthrough]]; case '8': [[fallthrough]]; case '9': x *= 10; x += *buf.position() - '0'; break; default: if (negative) x = -x; return ReturnType(true); } ++buf.position(); } /// NOTE Signed integer overflow is undefined behaviour. Consider we have '128' that is parsed as Int8 and overflowed. /// We are happy if it is overflowed to -128 and then 'x = -x' does nothing. But UBSan will warn. if (negative) x = -x; return ReturnType(true); } template void readIntText(T & x, ReadBuffer & buf) { readIntTextImpl(x, buf); } template bool tryReadIntText(T & x, ReadBuffer & buf) { return readIntTextImpl(x, buf); } /** More efficient variant (about 1.5 times on real dataset). * Differs in following: * - for numbers starting with zero, parsed only zero; * - symbol '+' before number is not supported; * - symbols :;<=>? are parsed as some numbers. */ template void readIntTextUnsafe(T & x, ReadBuffer & buf) { bool negative = false; x = 0; auto on_error = [] { if (throw_on_error) throwReadAfterEOF(); }; if (unlikely(buf.eof())) return on_error(); if (std::is_signed_v && *buf.position() == '-') { ++buf.position(); negative = true; if (unlikely(buf.eof())) return on_error(); } if (*buf.position() == '0') /// There are many zeros in real datasets. { ++buf.position(); return; } while (!buf.eof()) { /// This check is suddenly faster than /// unsigned char c = *buf.position() - '0'; /// if (c < 10) /// for unknown reason on Xeon E5645. if ((*buf.position() & 0xF0) == 0x30) /// It makes sense to have this condition inside loop. { x *= 10; x += *buf.position() & 0x0F; ++buf.position(); } else break; } /// See note about undefined behaviour above. if (std::is_signed_v && negative) x = -x; } template void tryReadIntTextUnsafe(T & x, ReadBuffer & buf) { return readIntTextUnsafe(x, buf); } /// Look at readFloatText.h template void readFloatText(T & x, ReadBuffer & in); template bool tryReadFloatText(T & x, ReadBuffer & in); /// simple: all until '\n' or '\t' void readString(String & s, ReadBuffer & buf); void readEscapedString(String & s, ReadBuffer & buf); void readQuotedString(String & s, ReadBuffer & buf); void readQuotedStringWithSQLStyle(String & s, ReadBuffer & buf); void readDoubleQuotedString(String & s, ReadBuffer & buf); void readDoubleQuotedStringWithSQLStyle(String & s, ReadBuffer & buf); void readJSONString(String & s, ReadBuffer & buf); void readBackQuotedString(String & s, ReadBuffer & buf); void readBackQuotedStringWithSQLStyle(String & s, ReadBuffer & buf); void readStringUntilEOF(String & s, ReadBuffer & buf); /** Read string in CSV format. * Parsing rules: * - string could be placed in quotes; quotes could be single: ' if FormatSettings::CSV::allow_single_quotes is true * or double: " if FormatSettings::CSV::allow_double_quotes is true; * - or string could be unquoted - this is determined by first character; * - if string is unquoted, then it is read until next delimiter, * either until end of line (CR or LF), * or until end of stream; * but spaces and tabs at begin and end of unquoted string are consumed but ignored (note that this behaviour differs from RFC). * - if string is in quotes, then it will be read until closing quote, * but sequences of two consecutive quotes are parsed as single quote inside string; */ void readCSVString(String & s, ReadBuffer & buf, const FormatSettings::CSV & settings); /// Read and append result to array of characters. template void readStringInto(Vector & s, ReadBuffer & buf); template void readEscapedStringInto(Vector & s, ReadBuffer & buf); template void readQuotedStringInto(Vector & s, ReadBuffer & buf); template void readDoubleQuotedStringInto(Vector & s, ReadBuffer & buf); template void readBackQuotedStringInto(Vector & s, ReadBuffer & buf); template void readStringUntilEOFInto(Vector & s, ReadBuffer & buf); template void readCSVStringInto(Vector & s, ReadBuffer & buf, const FormatSettings::CSV & settings); /// ReturnType is either bool or void. If bool, the function will return false instead of throwing an exception. template ReturnType readJSONStringInto(Vector & s, ReadBuffer & buf); template bool tryReadJSONStringInto(Vector & s, ReadBuffer & buf) { return readJSONStringInto(s, buf); } /// This could be used as template parameter for functions above, if you want to just skip data. struct NullSink { void append(const char *, size_t) {} void push_back(char) {} }; void parseUUID(const UInt8 * src36, UInt8 * dst16); void parseUUID(const UInt8 * src36, std::reverse_iterator dst16); template void formatHex(IteratorSrc src, IteratorDst dst, const size_t num_bytes); template ReturnType readDateTextFallback(LocalDate & date, ReadBuffer & buf); /// In YYYY-MM-DD format. /// For convenience, Month and Day parts can have single digit instead of two digits. /// Any separators other than '-' are supported. template inline ReturnType readDateTextImpl(LocalDate & date, ReadBuffer & buf) { /// Optimistic path, when whole value is in buffer. if (buf.position() + 10 <= buf.buffer().end()) { UInt16 year = (buf.position()[0] - '0') * 1000 + (buf.position()[1] - '0') * 100 + (buf.position()[2] - '0') * 10 + (buf.position()[3] - '0'); buf.position() += 5; UInt8 month = buf.position()[0] - '0'; if (isNumericASCII(buf.position()[1])) { month = month * 10 + buf.position()[1] - '0'; buf.position() += 3; } else buf.position() += 2; UInt8 day = buf.position()[0] - '0'; if (isNumericASCII(buf.position()[1])) { day = day * 10 + buf.position()[1] - '0'; buf.position() += 2; } else buf.position() += 1; date = LocalDate(year, month, day); return ReturnType(true); } else return readDateTextFallback(date, buf); } template inline ReturnType readDateTextImpl(DayNum & date, ReadBuffer & buf) { static constexpr bool throw_exception = std::is_same_v; LocalDate local_date; if constexpr (throw_exception) readDateTextImpl(local_date, buf); else if (!readDateTextImpl(local_date, buf)) return false; date = DateLUT::instance().makeDayNum(local_date.year(), local_date.month(), local_date.day()); return ReturnType(true); } inline void readDateText(LocalDate & date, ReadBuffer & buf) { readDateTextImpl(date, buf); } inline void readDateText(DayNum & date, ReadBuffer & buf) { readDateTextImpl(date, buf); } inline bool tryReadDateText(LocalDate & date, ReadBuffer & buf) { return readDateTextImpl(date, buf); } inline bool tryReadDateText(DayNum & date, ReadBuffer & buf) { return readDateTextImpl(date, buf); } inline void readUUIDText(UUID & uuid, ReadBuffer & buf) { char s[36]; size_t size = buf.read(s, 36); if (size != 36) { s[size] = 0; throw Exception(std::string("Cannot parse uuid ") + s, ErrorCodes::CANNOT_PARSE_UUID); } parseUUID(reinterpret_cast(s), std::reverse_iterator(reinterpret_cast(&uuid) + 16)); } template inline T parse(const char * data, size_t size); template inline T parseFromString(const String & str) { return parse(str.data(), str.size()); } UInt128 stringToUUID(const String & str); template ReturnType readDateTimeTextFallback(time_t & datetime, ReadBuffer & buf, const DateLUTImpl & date_lut); /** In YYYY-MM-DD hh:mm:ss format, according to specified time zone. * As an exception, also supported parsing of unix timestamp in form of decimal number. */ template inline ReturnType readDateTimeTextImpl(time_t & datetime, ReadBuffer & buf, const DateLUTImpl & date_lut) { /** Read 10 characters, that could represent unix timestamp. * Only unix timestamp of 5-10 characters is supported. * Then look at 5th charater. If it is a number - treat whole as unix timestamp. * If it is not a number - then parse datetime in YYYY-MM-DD hh:mm:ss format. */ /// Optimistic path, when whole value is in buffer. const char * s = buf.position(); if (s + 19 <= buf.buffer().end()) { if (s[4] < '0' || s[4] > '9') { UInt16 year = (s[0] - '0') * 1000 + (s[1] - '0') * 100 + (s[2] - '0') * 10 + (s[3] - '0'); UInt8 month = (s[5] - '0') * 10 + (s[6] - '0'); UInt8 day = (s[8] - '0') * 10 + (s[9] - '0'); UInt8 hour = (s[11] - '0') * 10 + (s[12] - '0'); UInt8 minute = (s[14] - '0') * 10 + (s[15] - '0'); UInt8 second = (s[17] - '0') * 10 + (s[18] - '0'); if (unlikely(year == 0)) datetime = 0; else datetime = date_lut.makeDateTime(year, month, day, hour, minute, second); buf.position() += 19; return ReturnType(true); } else /// Why not readIntTextUnsafe? Because for needs of AdFox, parsing of unix timestamp with leading zeros is supported: 000...NNNN. return readIntTextImpl(datetime, buf); } else return readDateTimeTextFallback(datetime, buf, date_lut); } inline void readDateTimeText(time_t & datetime, ReadBuffer & buf, const DateLUTImpl & date_lut = DateLUT::instance()) { readDateTimeTextImpl(datetime, buf, date_lut); } inline bool tryReadDateTimeText(time_t & datetime, ReadBuffer & buf, const DateLUTImpl & date_lut = DateLUT::instance()) { return readDateTimeTextImpl(datetime, buf, date_lut); } inline void readDateTimeText(LocalDateTime & datetime, ReadBuffer & buf) { char s[19]; size_t size = buf.read(s, 19); if (19 != size) { s[size] = 0; throw Exception(std::string("Cannot parse datetime ") + s, ErrorCodes::CANNOT_PARSE_DATETIME); } datetime.year((s[0] - '0') * 1000 + (s[1] - '0') * 100 + (s[2] - '0') * 10 + (s[3] - '0')); datetime.month((s[5] - '0') * 10 + (s[6] - '0')); datetime.day((s[8] - '0') * 10 + (s[9] - '0')); datetime.hour((s[11] - '0') * 10 + (s[12] - '0')); datetime.minute((s[14] - '0') * 10 + (s[15] - '0')); datetime.second((s[17] - '0') * 10 + (s[18] - '0')); } /// Generic methods to read value in native binary format. template inline std::enable_if_t, void> readBinary(T & x, ReadBuffer & buf) { readPODBinary(x, buf); } inline void readBinary(String & x, ReadBuffer & buf) { readStringBinary(x, buf); } inline void readBinary(Int128 & x, ReadBuffer & buf) { readPODBinary(x, buf); } inline void readBinary(UInt128 & x, ReadBuffer & buf) { readPODBinary(x, buf); } inline void readBinary(UInt256 & x, ReadBuffer & buf) { readPODBinary(x, buf); } inline void readBinary(Decimal32 & x, ReadBuffer & buf) { readPODBinary(x, buf); } inline void readBinary(Decimal64 & x, ReadBuffer & buf) { readPODBinary(x, buf); } inline void readBinary(Decimal128 & x, ReadBuffer & buf) { readPODBinary(x, buf); } inline void readBinary(LocalDate & x, ReadBuffer & buf) { readPODBinary(x, buf); } /// Generic methods to read value in text tab-separated format. template inline std::enable_if_t, void> readText(T & x, ReadBuffer & buf) { readIntText(x, buf); } template inline std::enable_if_t, void> readText(T & x, ReadBuffer & buf) { readFloatText(x, buf); } inline void readText(bool & x, ReadBuffer & buf) { readBoolText(x, buf); } inline void readText(String & x, ReadBuffer & buf) { readEscapedString(x, buf); } inline void readText(LocalDate & x, ReadBuffer & buf) { readDateText(x, buf); } inline void readText(LocalDateTime & x, ReadBuffer & buf) { readDateTimeText(x, buf); } inline void readText(UUID & x, ReadBuffer & buf) { readUUIDText(x, buf); } inline void readText(UInt128 &, ReadBuffer &) { /** Because UInt128 isn't a natural type, without arithmetic operator and only use as an intermediary type -for UUID- * it should never arrive here. But because we used the DataTypeNumber class we should have at least a definition of it. */ throw Exception("UInt128 cannot be read as a text", ErrorCodes::ILLEGAL_TYPE_OF_ARGUMENT); } /// Generic methods to read value in text format, /// possibly in single quotes (only for data types that use quotes in VALUES format of INSERT statement in SQL). template inline std::enable_if_t, void> readQuoted(T & x, ReadBuffer & buf) { readText(x, buf); } inline void readQuoted(String & x, ReadBuffer & buf) { readQuotedString(x, buf); } inline void readQuoted(LocalDate & x, ReadBuffer & buf) { assertChar('\'', buf); readDateText(x, buf); assertChar('\'', buf); } inline void readQuoted(LocalDateTime & x, ReadBuffer & buf) { assertChar('\'', buf); readDateTimeText(x, buf); assertChar('\'', buf); } /// Same as above, but in double quotes. template inline std::enable_if_t, void> readDoubleQuoted(T & x, ReadBuffer & buf) { readText(x, buf); } inline void readDoubleQuoted(String & x, ReadBuffer & buf) { readDoubleQuotedString(x, buf); } inline void readDoubleQuoted(LocalDate & x, ReadBuffer & buf) { assertChar('"', buf); readDateText(x, buf); assertChar('"', buf); } inline void readDoubleQuoted(LocalDateTime & x, ReadBuffer & buf) { assertChar('"', buf); readDateTimeText(x, buf); assertChar('"', buf); } /// CSV, for numbers, dates: quotes are optional, no special escaping rules. template inline void readCSVSimple(T & x, ReadBuffer & buf) { if (buf.eof()) throwReadAfterEOF(); char maybe_quote = *buf.position(); if (maybe_quote == '\'' || maybe_quote == '\"') ++buf.position(); readText(x, buf); if (maybe_quote == '\'' || maybe_quote == '\"') assertChar(maybe_quote, buf); } template inline std::enable_if_t, void> readCSV(T & x, ReadBuffer & buf) { readCSVSimple(x, buf); } inline void readCSV(String & x, ReadBuffer & buf, const FormatSettings::CSV & settings) { readCSVString(x, buf, settings); } inline void readCSV(LocalDate & x, ReadBuffer & buf) { readCSVSimple(x, buf); } inline void readCSV(LocalDateTime & x, ReadBuffer & buf) { readCSVSimple(x, buf); } inline void readCSV(UUID & x, ReadBuffer & buf) { readCSVSimple(x, buf); } inline void readCSV(UInt128 &, ReadBuffer &) { /** Because UInt128 isn't a natural type, without arithmetic operator and only use as an intermediary type -for UUID- * it should never arrive here. But because we used the DataTypeNumber class we should have at least a definition of it. */ throw Exception("UInt128 cannot be read as a text", ErrorCodes::ILLEGAL_TYPE_OF_ARGUMENT); } template void readBinary(std::vector & x, ReadBuffer & buf) { size_t size = 0; readVarUInt(size, buf); if (size > DEFAULT_MAX_STRING_SIZE) throw Poco::Exception("Too large vector size."); x.resize(size); for (size_t i = 0; i < size; ++i) readBinary(x[i], buf); } template void readQuoted(std::vector & x, ReadBuffer & buf) { bool first = true; assertChar('[', buf); while (!buf.eof() && *buf.position() != ']') { if (!first) { if (*buf.position() == ',') ++buf.position(); else throw Exception("Cannot read array from text", ErrorCodes::CANNOT_READ_ARRAY_FROM_TEXT); } first = false; x.push_back(T()); readQuoted(x.back(), buf); } assertChar(']', buf); } template void readDoubleQuoted(std::vector & x, ReadBuffer & buf) { bool first = true; assertChar('[', buf); while (!buf.eof() && *buf.position() != ']') { if (!first) { if (*buf.position() == ',') ++buf.position(); else throw Exception("Cannot read array from text", ErrorCodes::CANNOT_READ_ARRAY_FROM_TEXT); } first = false; x.push_back(T()); readDoubleQuoted(x.back(), buf); } assertChar(']', buf); } template void readText(std::vector & x, ReadBuffer & buf) { readQuoted(x, buf); } /// Skip whitespace characters. inline void skipWhitespaceIfAny(ReadBuffer & buf) { while (!buf.eof() && isWhitespaceASCII(*buf.position())) ++buf.position(); } /// Skips json value. void skipJSONField(ReadBuffer & buf, const StringRef & name_of_field); /** Read serialized exception. * During serialization/deserialization some information is lost * (type is cut to base class, 'message' replaced by 'displayText', and stack trace is appended to 'message') * Some additional message could be appended to exception (example: you could add information about from where it was received). */ void readException(Exception & e, ReadBuffer & buf, const String & additional_message = ""); void readAndThrowException(ReadBuffer & buf, const String & additional_message = ""); /** Helper function for implementation. */ template static inline const char * tryReadIntText(T & x, const char * pos, const char * end) { ReadBufferFromMemory in(pos, end - pos); tryReadIntText(x, in); return pos + in.count(); } /// Convenient methods for reading something from string in text format. template inline T parse(const char * data, size_t size) { T res; ReadBufferFromMemory buf(data, size); readText(res, buf); return res; } template inline T parse(const char * data) { return parse(data, strlen(data)); } template inline T parse(const String & s) { return parse(s.data(), s.size()); } /** Skip UTF-8 BOM if it is under cursor. * As BOM is usually located at start of stream, and buffer size is usually larger than three bytes, * the function expects, that all three bytes of BOM is fully in buffer (otherwise it don't skip anything). */ inline void skipBOMIfExists(ReadBuffer & buf) { if (!buf.eof() && buf.position() + 3 < buf.buffer().end() && buf.position()[0] == '\xEF' && buf.position()[1] == '\xBB' && buf.position()[2] == '\xBF') { buf.position() += 3; } } /// Skip to next character after next \n. If no \n in stream, skip to end. void skipToNextLineOrEOF(ReadBuffer & buf); /// Skip to next character after next unescaped \n. If no \n in stream, skip to end. Does not throw on invalid escape sequences. void skipToUnescapedNextLineOrEOF(ReadBuffer & buf); }