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368 | // Copyright (C) 2010-2024 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/.
#ifndef RRTYPE_H
#define RRTYPE_H
#include <stdint.h><--- Include file: not found. Please note: Cppcheck does not need standard library headers to get proper results.
#include <string><--- Include file: not found. Please note: Cppcheck does not need standard library headers to get proper results.
#include <ostream><--- Include file: not found. Please note: Cppcheck does not need standard library headers to get proper results.
#include <dns/exceptions.h>
#include <util/buffer.h>
// Solaris x86 defines DS in <sys/regset.h>, which gets pulled in by Boost
#if defined(__sun) && defined(DS)
# undef DS
#endif
namespace isc {
namespace dns {
// forward declarations
class AbstractMessageRenderer;
///
/// \brief A standard DNS module exception that is thrown if an RRType object
/// is being constructed from an unrecognized string.
///
class InvalidRRType : public DNSTextError {
public:
InvalidRRType(const char* file, size_t line, const char* what) :
DNSTextError(file, line, what) {}
};
///
/// \brief A standard DNS module exception that is thrown if an RRType object
/// is being constructed from a incomplete (too short) wire-format data.
///
class IncompleteRRType : public isc::dns::Exception {
public:
IncompleteRRType(const char* file, size_t line, const char* what) :
isc::dns::Exception(file, line, what) {}
};
///
/// The \c RRType class encapsulates DNS resource record types.
///
/// This class manages the 16-bit integer type codes in quite a straightforward
/// way. The only non trivial task is to handle textual representations of
/// RR types, such as "A", "AAAA", or "TYPE65534".
///
/// This class consults a helper \c RRParamRegistry class, which is a registry
/// of RR related parameters and has the singleton object. This registry
/// provides a mapping between RR type codes and their "well-known" textual
/// representations.
/// Parameters of RR types defined by DNS protocol standards are automatically
/// registered at initialization time and are ensured to be always available for
/// applications unless the application explicitly modifies the registry.
///
/// For convenience, this class defines constant class objects corresponding to
/// standard RR types. These are generally referred to as the form of
/// <code>RRType::{type-text}()</code>.
/// For example, \c RRType::NS() is an \c RRType object corresponding to the NS
/// resource record (type code 2).
/// Note that these constants are used through a "proxy" function.
/// This is because they may be used to initialize another non-local (e.g.
/// global or namespace-scope) static object as follows:
///
/// \code
/// namespace foo {
/// const RRType default_type = RRType::A();
/// } \endcode
///
/// In order to ensure that the constant RRType object has been initialized
/// before the initialization for \c default_type, we need help from
/// the proxy function.
///
/// In the current implementation, the initialization of the well-known
/// static objects is not thread safe. The same consideration as the
/// \c RRParamRegistry class applies. We may extend the implementation so
/// that the initialization is ensured to be thread safe in a future version.
///
/// Note to developers: since it's expected that some of these constant
/// \c RRType objects are frequently used in a performance sensitive path,
/// we define these proxy functions as inline. This makes sense only when
/// the corresponding static objects are defined only once even if they used
/// in different source files. Sufficiently modern compilers should meet
/// this assumption, but if we encounter memory bloat due to this problem with
/// particular compilers we need to revisit the design or think about
/// workaround.
class RRType {
public:
///
/// \name Constructors and Destructor
///
//@{
/// Constructor from an integer type code.
///
/// This constructor never throws an exception.
///
/// \param typecode An 16-bit integer code corresponding to the RRType.
explicit RRType(uint16_t typecode) : typecode_(typecode) {
}
/// Constructor from a string.
///
/// A valid string is one of "well-known" textual type representations
/// such as "A", "AAAA", or "NS", or in the standard format for "unknown"
/// RR types as defined in RFC3597, i.e., "TYPEnnnn".
///
/// More precisely, the "well-known" representations are the ones stored
/// in the \c RRParamRegistry registry (see the class description).
///
/// As for the format of "TYPEnnnn", "nnnn" must represent a valid 16-bit
/// unsigned integer, which may contain leading 0's as long as it consists
/// of at most 5 characters (inclusive).
/// For example, "TYPE1" and "TYPE001" are valid and represent the same
/// RR type, but "TYPE65536" and "TYPE000001" are invalid.
/// A "TYPEnnnn" representation is valid even if the corresponding type code
/// is registered in the \c RRParamRegistry object. For example, both
/// "A" and "TYPE1" are valid and represent the same RR type.
///
/// All of these representations are case insensitive; "NS" and "ns", and
/// "TYPE1" and "type1" are all valid and represent the same RR types,
/// respectively.
///
/// If the given string is not recognized as a valid representation of
/// an RR type, an exception of class \c InvalidRRType will be thrown.
///
/// \param typestr A string representation of the \c RRType
explicit RRType(const std::string& typestr);
/// Constructor from wire-format data.
///
/// The \c buffer parameter normally stores a complete DNS message
/// containing the RRType to be constructed. The current read position of
/// the buffer points to the head of the type.
///
/// If the given data does not large enough to contain a 16-bit integer,
/// an exception of class \c IncompleteRRType will be thrown.
///
/// \param buffer A buffer storing the wire format data.
explicit RRType(isc::util::InputBuffer& buffer);
///
/// We use the default copy constructor intentionally.
//@}
/// We use the default copy assignment operator intentionally.
///
///
/// \name Converter methods
///
//@{
/// \brief Convert the \c RRType to a string.
///
/// If a "well known" textual representation for the type code is registered
/// in the RR parameter registry (see the class description), that will be
/// used as the return value of this method. Otherwise, this method creates
/// a new string for an "unknown" RR type in the format defined in RFC3597,
/// i.e., "TYPEnnnn", and returns it.
///
/// If resource allocation for the string fails, a corresponding standard
/// exception will be thrown.
///
/// \return A string representation of the \c RRType.
const std::string toText() const;
/// \brief Render the \c RRType in the wire format.
///
/// This method renders the type code in network byte order via \c renderer,
/// which encapsulates output buffer and other rendering contexts.
///
/// If resource allocation in rendering process fails, a corresponding
/// standard exception will be thrown.
///
/// \param renderer DNS message rendering context that encapsulates the
/// output buffer in which the RRType is to be stored.
void toWire(AbstractMessageRenderer& renderer) const;
/// \brief Render the \c RRType in the wire format.
///
/// This method renders the type code in network byte order into the
/// \c buffer.
///
/// If resource allocation in rendering process fails, a corresponding
/// standard exception will be thrown.
///
/// \param buffer An output buffer to store the wire data.
void toWire(isc::util::OutputBuffer& buffer) const;
//@}
///
/// \name Getter Methods
///
//@{
/// \brief Returns the RR type code as a 16-bit unsigned integer.
///
/// This method never throws an exception.
///
/// \return An 16-bit integer code corresponding to the RRType.
uint16_t getCode() const {
return (typecode_);
}
//@}
///
/// \name Comparison methods
///
//@{
/// \brief Return true iff two RRTypes are equal.
///
/// Two RRTypes are equal iff their type codes are equal.
///
/// This method never throws an exception.
///
/// \param other the \c RRType object to compare against.
/// \return true if the two RRTypes are equal; otherwise false.
bool equals(const RRType& other) const {
return (typecode_ == other.typecode_);
}
/// \brief Same as \c equals().
bool operator==(const RRType& other) const {
return (equals(other));
}
/// \brief Return true iff two RRTypes are not equal.
///
/// This method never throws an exception.
///
/// \param other the \c RRType object to compare against.
/// \return true if the two RRTypes are not equal; otherwise false.
bool nequals(const RRType& other) const {
return (typecode_ != other.typecode_);
}
/// \brief Same as \c nequals().
bool operator!=(const RRType& other) const {
return (nequals(other));
}
/// \brief Less-than comparison for RRType against \c other
///
/// We define the less-than relationship based on their type codes;
/// one RRType is less than the other iff the code of the former is less
/// than that of the other as unsigned integers.
/// The relationship is meaningless in terms of DNS protocol; the only
/// reason we define this method is that RRType objects can be stored in
/// STL containers without requiring user-defined less-than relationship.
/// We therefore don't define other comparison operators.
///
/// This method never throws an exception.
///
/// \param other the \c RRType object to compare against.
/// \return true if \c this RRType is less than the \c other; otherwise
/// false.
bool operator<(const RRType& other) const {
return (typecode_ < other.typecode_);
}
//@}
static const RRType& A();
static const RRType& NS();
static const RRType& SOA();
static const RRType& OPT();
static const RRType& PTR();
static const RRType& TXT();
static const RRType& AAAA();
static const RRType& RRSIG();
static const RRType& DHCID();
static const RRType& TKEY();
static const RRType& TSIG();
static const RRType& ANY();
private:
uint16_t typecode_;
};
inline const RRType&
RRType::A() {
static RRType rrtype(1);
return (rrtype);
}
inline const RRType&
RRType::NS() {
static RRType rrtype(2);
return (rrtype);
}
inline const RRType&
RRType::SOA() {
static RRType rrtype(6);
return (rrtype);
}
inline const RRType&
RRType::OPT() {
static RRType rrtype(41);
return (rrtype);
}
inline const RRType&
RRType::PTR() {
static RRType rrtype(12);
return (rrtype);
}
inline const RRType&
RRType::TXT() {
static RRType rrtype(16);
return (rrtype);
}
inline const RRType&
RRType::AAAA() {
static RRType rrtype(28);
return (rrtype);
}
inline const RRType&
RRType::RRSIG() {
static RRType rrtype(46);
return (rrtype);
}
inline const RRType&
RRType::DHCID() {
static RRType rrtype(49);
return (rrtype);
}
inline const RRType&
RRType::TKEY() {
static RRType rrtype(249);
return (rrtype);
}
inline const RRType&
RRType::TSIG() {
static RRType rrtype(250);
return (rrtype);
}
inline const RRType&
RRType::ANY() {
static RRType rrtype(255);
return (rrtype);
}
///
/// \brief Insert the \c RRType as a string into stream.
///
/// This method convert the \c rrtype into a string and inserts it into the
/// output stream \c os.
///
/// This function overloads the global operator<< to behave as described in
/// ostream::operator<< but applied to \c RRType objects.
///
/// \param os A \c std::ostream object on which the insertion operation is
/// performed.
/// \param rrtype The \c RRType 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 RRType& rrtype);
}
}
#endif // RRTYPE_H
|