/* * Copyright (C) 2010-2015 Internet Systems Consortium, Inc. ("ISC") * * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #include #include #ifndef RCODE_H #define RCODE_H 1 namespace isc { namespace dns { /// \brief DNS Response Codes (RCODEs) class. /// /// The \c Rcode class objects represent standard Response Codes /// (RCODEs) of the header section of DNS messages, and extended response /// codes as defined in the EDNS specification. /// /// Originally RCODEs were defined as 4-bit integers (RFC1035), and then /// extended to 12 bits as part of the %EDNS specification (RFC2671). /// This API uses the 12-bit version of the definition from the beginning; /// applications don't have to aware of the original definition except when /// dealing with the wire-format representation of the %EDNS OPT RR /// (which is rare). /// /// Like the \c Opcode class, Rcodes could be represented as bare integers, /// but we define a separate class to benefit from C++ type safety. /// /// For convenience we also provide /// an enum type for pre-defined RCODE values, but it is generally advisable /// to handle RCODEs through this class. In fact, public interfaces of /// this library uses this class to pass or return RCODEs instead of the /// bare code values. class Rcode { public: /// Constants for pre-defined RCODE values. enum CodeValue { NOERROR_CODE = 0, ///< 0: No error (RFC1035) FORMERR_CODE = 1, ///< 1: Format error (RFC1035) SERVFAIL_CODE = 2, ///< 2: Server failure (RFC1035) NXDOMAIN_CODE = 3, ///< 3: Name Error (RFC1035) NOTIMP_CODE = 4, ///< 4: Not Implemented (RFC1035) REFUSED_CODE = 5, ///< 5: Refused (RFC1035) YXDOMAIN_CODE = 6, ///< 6: Name unexpectedly exists (RFC2136) YXRRSET_CODE = 7, ///< 7: RRset unexpectedly exists (RFC2136) NXRRSET_CODE = 8, ///< 8: RRset should exist but not (RFC2136) NOTAUTH_CODE = 9, ///< 9: Server isn't authoritative (RFC2136) NOTZONE_CODE = 10, ///< 10: Name is not within the zone (RFC2136) RESERVED11_CODE = 11, ///< 11: Reserved for future use (RFC1035) RESERVED12_CODE = 12, ///< 12: Reserved for future use (RFC1035) RESERVED13_CODE = 13, ///< 13: Reserved for future use (RFC1035) RESERVED14_CODE = 14, ///< 14: Reserved for future use (RFC1035) RESERVED15_CODE = 15, ///< 15: Reserved for future use (RFC1035) BADVERS_CODE = 16 ///< 16: EDNS version not implemented (RFC2671) }; /// \name Constructors and Destructor /// /// We use the default versions of destructor, copy constructor, /// and assignment operator. /// /// The default constructor is hidden as a result of defining the other /// constructors. This is intentional; we don't want to allow an /// \c Rcode object to be constructed with an invalid state. //@{ /// \brief Constructor from the code value. /// /// Since RCODEs are 12-bit values, parameters larger than 0xfff are /// invalid. /// If \c code is larger than 0xfff an exception of class /// \c isc::OutOfRange will be thrown. /// /// \param code The underlying 12-bit code value of the \c Rcode. explicit Rcode(const uint16_t code); /// \brief Constructor from a pair of base and extended parts of code. /// /// This constructor takes two parameters, one for the lower 4 bits of /// the code value, the other for the upper 8 bits, and combines them /// to build a complete 12-bit code value. /// /// The first parameter, \c code, is the lower 4 bits, and therefore must /// not exceed 15. Otherwise, an exception of class /// \c isc::OutOfRange will be thrown. /// /// This version of constructor is provided specifically for constructing /// an Rcode from a DNS header and an %EDNS OPT RR. Normal applications /// won't have to use this constructor. /// /// \param code The lower 4 bits of the underlying code value. /// \param extended_code The upper 8 bits of the underlying code value. Rcode(const uint8_t code, const uint8_t extended_code); //@} /// \brief Returns the \c Rcode code value. /// /// This method never throws an exception. /// /// \return The underlying code value corresponding to the \c Rcode. uint16_t getCode() const { return (code_); } /// \brief Returns the upper 8-bit of the \c Rcode code value. /// /// Normal applications won't have to use this method. This is provided /// in case the upper 8 bits are necessary for the EDNS protocol /// processing. /// /// This method never throws an exception. /// /// \return The upper 8-bit of the underlying code value. uint8_t getExtendedCode() const; /// \brief Return true iff two Rcodes are equal. /// /// Two Rcodes are equal iff their type codes are equal. /// /// This method never throws an exception. /// /// \param other the \c Rcode object to compare against. /// \return true if the two Rcodes are equal; otherwise false. bool equals(const Rcode& other) const { return (code_ == other.code_); } /// \brief Same as \c equals(). bool operator==(const Rcode& other) const { return (equals(other)); } /// \brief Return true iff two Rcodes are not equal. /// /// This method never throws an exception. /// /// \param other the \c Rcode object to compare against. /// \return true if the two Rcodes are not equal; otherwise false. bool nequals(const Rcode& other) const { return (code_ != other.code_); } /// \brief Same as \c nequals(). bool operator!=(const Rcode& other) const { return (nequals(other)); } /// \brief Convert the \c Rcode to a string. /// /// For pre-defined code values (see Rcode::CodeValue), /// this method returns a string representation of the "mnemonic' used /// for the enum and constant objects. For example, the string for /// code value 0 is "NOERROR", etc. /// For other code values it returns a string representation of the decimal /// number of the value, e.g. "32", "100", etc. /// /// If resource allocation for the string fails, a corresponding standard /// exception will be thrown. /// /// \return A string representation of the \c Rcode. std::string toText() const; /// A constant object for the NOERROR Rcode (see \c Rcode::NOERROR_CODE). static const Rcode& NOERROR(); /// A constant object for the FORMERR Rcode (see \c Rcode::FORMERR_CODE). static const Rcode& FORMERR(); /// A constant object for the SERVFAIL Rcode (see \c Rcode::SERVFAIL_CODE). static const Rcode& SERVFAIL(); /// A constant object for the NXDOMAIN Rcode (see \c Rcode::NXDOMAIN_CODE). static const Rcode& NXDOMAIN(); /// A constant object for the NOTIMP Rcode (see \c Rcode::NOTIMP_CODE). static const Rcode& NOTIMP(); /// A constant object for the REFUSED Rcode (see \c Rcode::REFUSED_CODE). static const Rcode& REFUSED(); /// A constant object for the YXDOMAIN Rcode (see \c Rcode::YXDOMAIN_CODE). static const Rcode& YXDOMAIN(); /// A constant object for the YXRRSET Rcode (see \c Rcode::YXRRSET_CODE). static const Rcode& YXRRSET(); /// A constant object for the NXRRSET Rcode (see \c Rcode::NXRRSET_CODE). static const Rcode& NXRRSET(); /// A constant object for the NOTAUTH Rcode (see \c Rcode::NOTAUTH_CODE). static const Rcode& NOTAUTH(); /// A constant object for the NOTZONE Rcode (see \c Rcode::NOTZONE_CODE). static const Rcode& NOTZONE(); /// A constant object for a reserved (code 11) Rcode. /// (see \c Rcode::RESERVED11_CODE). static const Rcode& RESERVED11(); /// A constant object for a reserved (code 12) Rcode. /// (see \c Rcode::RESERVED12_CODE). static const Rcode& RESERVED12(); /// A constant object for a reserved (code 13) Rcode. /// (see \c Rcode::RESERVED13_CODE). static const Rcode& RESERVED13(); /// A constant object for a reserved (code 14) Rcode. /// (see \c Rcode::RESERVED14_CODE). static const Rcode& RESERVED14(); /// A constant object for a reserved (code 15) Rcode. /// (see \c Rcode::RESERVED15_CODE). static const Rcode& RESERVED15(); /// A constant object for the BADVERS Rcode (see \c Rcode::BADVERS_CODE). static const Rcode& BADVERS(); private: uint16_t code_; }; inline const Rcode& Rcode::NOERROR() { static Rcode c(0); return (c); } inline const Rcode& Rcode::FORMERR() { static Rcode c(1); return (c); } inline const Rcode& Rcode::SERVFAIL() { static Rcode c(2); return (c); } inline const Rcode& Rcode::NXDOMAIN() { static Rcode c(3); return (c); } inline const Rcode& Rcode::NOTIMP() { static Rcode c(4); return (c); } inline const Rcode& Rcode::REFUSED() { static Rcode c(5); return (c); } inline const Rcode& Rcode::YXDOMAIN() { static Rcode c(6); return (c); } inline const Rcode& Rcode::YXRRSET() { static Rcode c(7); return (c); } inline const Rcode& Rcode::NXRRSET() { static Rcode c(8); return (c); } inline const Rcode& Rcode::NOTAUTH() { static Rcode c(9); return (c); } inline const Rcode& Rcode::NOTZONE() { static Rcode c(10); return (c); } inline const Rcode& Rcode::RESERVED11() { static Rcode c(11); return (c); } inline const Rcode& Rcode::RESERVED12() { static Rcode c(12); return (c); } inline const Rcode& Rcode::RESERVED13() { static Rcode c(13); return (c); } inline const Rcode& Rcode::RESERVED14() { static Rcode c(14); return (c); } inline const Rcode& Rcode::RESERVED15() { static Rcode c(15); return (c); } inline const Rcode& Rcode::BADVERS() { static Rcode c(16); return (c); } /// \brief Insert the \c Rcode as a string into stream. /// /// This method convert \c rcode into a string and inserts it into the /// output stream \c os. /// /// \param os A \c std::ostream object on which the insertion operation is /// performed. /// \param rcode A reference to an \c Rcode object output by the operation. /// \return A reference to the same \c std::ostream object referenced by /// parameter \c os after the insertion operation. std::ostream& operator<<(std::ostream& os, const Rcode& rcode); } } #endif // RCODE_H // Local Variables: // mode: c++ // End: