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|
// Copyright (C) 2010-2021 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 RRSET_H
#define RRSET_H 1
#include <iostream>
#include <string>
#include <boost/shared_ptr.hpp>
#include <dns/exceptions.h>
#include <dns/rdata.h>
#include <dns/rrtype.h>
namespace isc {
namespace util {
class OututBuffer;
}
namespace dns {
///
/// \brief A standard DNS module exception that is thrown if an RRset object
/// does not contain any RDATA where required.
///
class EmptyRRset : public isc::dns::Exception {
public:
EmptyRRset(const char* file, size_t line, const char* what) :
isc::dns::Exception(file, line, what) {}
};
// forward declarations
class Name;
class RRType;
class RRClass;
class RRTTL;
class AbstractMessageRenderer;
class AbstractRRset;
class BasicRRset;
class RdataIterator;
class BasicRRsetImpl;
class RRset;
/// \brief A pointer-like type pointing to an \c RRset object.
///
/// This type is commonly used as an argument of various functions defined
/// in this library in order to handle RRsets in a polymorphic manner.
typedef boost::shared_ptr<AbstractRRset> RRsetPtr;
/// \brief A pointer-like type pointing to an (immutable) \c RRset
/// object.
///
/// This type is commonly used as an argument of various functions defined
/// in this library in order to handle RRsets in a polymorphic manner.
typedef boost::shared_ptr<const AbstractRRset> ConstRRsetPtr;
/// \brief A pointer-like type point to an \c RdataIterator object.
typedef boost::shared_ptr<RdataIterator> RdataIteratorPtr;
/// \brief The \c AbstractRRset class is an abstract base class that
/// models a DNS RRset.
///
/// An object of (a specific derived class of) \c AbstractRRset
/// models an RRset as described in the DNS standard:
/// A set of DNS resource records (RRs) of the same type and class.
/// The standard requires the TTL of all RRs in an RRset be the same;
/// this class follows that requirement.
/// Note about duplicate RDATA: RFC2181 states that it's meaningless that an
/// RRset contains two identical RRs and that name servers should suppress
/// such duplicates.
/// This class is not responsible for ensuring this requirement: For example,
/// \c addRdata() method doesn't check if there's already RDATA identical
/// to the one being added.
/// This is because such checks can be expensive, and it's often easy to
/// ensure the uniqueness requirement at the %data preparation phase
/// (e.g. when loading a zone).
/// When parsing an incoming DNS message, the uniqueness may not be guaranteed,
/// so the application needs to detect and ignore any duplicate RDATA
/// (the \c Message class of this library should provide this responsibility).
///
/// Another point to note is that \c AbstractRRset and its derived classes
/// allow an object to have an empty set of RDATA.
/// Even though there's no corresponding notion in the protocol specification,
/// it would be more intuitive for a container-like %data structure
/// to allow an empty set.
///
/// Since \c AbstractRRset is an abstract class, it is generally used
/// via a pointer (or pointer like object) or a reference.
/// In particular, \c RRsetPtr, a pointer like type for \c AbstractRRset,
/// is used for polymorphic RRset operations throughout this library.
///
/// The \c AbstractRRset class is also intended to be a major customization
/// point. For example, a high performance server implementation may want
/// to define an optimized "pre-compiled" RRset and provide an optimized
/// implementation of the \c toWire() method.
///
/// Note about design choice: In BIND9, a set of RDATA with a common tuple
/// of RR class, RR type, and TTL was represented in a structure named
/// \c rdataset. Unlike the RRset classes, an \c rdataset did not contain
/// the information of the owner name.
/// This might be advantageous if we want to handle "RRsets", that is,
/// a set of different types of RRset for the same owner name, because
/// a single "name" structure can be used for multiple RRsets, minimizing
/// %data copy and memory footprint.
/// On the other hand, it's inconvenient for API users since in many cases
/// a pair of name and an \c rdataset must be maintained. It's also counter
/// intuitive in implementing protocol operations as an RRset is often used
/// as an atomic entity in DNS protocols while an \c rdataset is a component
/// of an RRset.
///
/// We have therefore defined the notion of RRset explicitly in our initial
/// API design. We believe memory footprint is not a big concern because
/// RRsets are generally expected to be used as temporary objects, e.g.
/// while parsing or constructing a DNS message, or searching a DNS %data
/// source; for longer term purposes such as in-memory %data source entries,
/// the corresponding %data would be represented in a different, memory
/// optimized format. As for the concern about %data copy, we believe
/// it can be mitigated by using copy-efficient implementation for the
/// \c Name class implementation, such as reference counted objects.
/// Later, We plan to perform benchmark tests later to see if this assumption
/// is valid and to revisit the design if necessary.
///
/// Note about terminology: there has been a discussion at the IETF
/// namedroppers ML about RRset vs RRSet (case of "s")
/// [http://ops.ietf.org/lists/namedroppers/namedroppers.2009/msg02737.html].
/// While RFC2181 uses the latter, many other RFCs use the former,
/// and most of the list members who showed their opinion seem to prefer
/// "RRset". We follow that preference in this implementation.
///
/// The current design of \c AbstractRRset is still in flux.
/// There are many open questions in design details:
/// - support more set-like operations, e.g, merge two RRsets of the same
/// type?
/// - more convenient methods or non member utility functions, e.g.
/// "sort" and "search(find)" method?
/// - what about comparing two RRsets of the same type? If we need this,
/// should it compare rdata's as a set or as a list (i.e. compare
/// each rdata one by one or as a whole)? c.f. NLnet Labs' ldns
/// (http://www.nlnetlabs.nl/projects/ldns/doc/index.html)
/// has \c ldns_rr_list_compare(), which takes the latter approach
/// (seemingly assuming the caller sorts the lists beforehand).
/// - BIND9 libdns has some special DNSSEC-related methods
/// such as \c addnoqname() or \c addclosest(). Do we need these?
/// (Probably not. We wouldn't want to make the class design too
/// monolithic.)
/// - Do we need to allow the user to remove specific Rdata?
/// Probably not, according to the current usage of the BIND9 code.
class AbstractRRset {
///
/// \name Constructors and Destructor
///
/// Note: The copy constructor and the assignment operator are intentionally
/// defined as private to make it explicit that this is a pure base class.
//@{
private:
AbstractRRset(const AbstractRRset& source);
AbstractRRset& operator=(const AbstractRRset& source);
protected:
/// \brief The default constructor.
///
/// This is intentionally defined as \c protected as this base class should
/// never be instantiated (except as part of a derived class).
AbstractRRset() {}
public:
/// The destructor.
virtual ~AbstractRRset() {}
//@}
///
/// \name Getter and Setter Methods
///
/// These methods are generally expected to be exception free, but it's
/// not guaranteed at the interface level;
/// for example, some performance optimized derived class may manage
/// the information corresponding to the class "attributes" to get or set,
/// and may require dynamic memory allocation to execute the method.
/// Consult the derived class description to see if a specific derived
/// \c RRset class may throw an exception from these methods.
///
/// Note that setter methods are not provided for \c RRClass and
/// \c RRType. This is intentional. Since the format and semantics of
/// \c Rdata are dependent on the RR type (and RR class for some RR types),
/// allowing dynamically modify these attributes can easily lead to a
/// bug where the RDATA and type and/or class become inconsistent.
/// We want to avoid that situation by restricting the access.
//@{
/// \brief Returns the number of \c Rdata objects contained in the \c RRset.
///
/// Note that an \c RRset with an empty set of \c Rdata can exist, so
/// this method may return 0.
///
/// \return The number of \c Rdata objects contained.
virtual unsigned int getRdataCount() const = 0;
/// \brief Get the wire format length of the \c AbstractRRset.
///
/// This method returns the wire format length of the
/// \c AbstractRRset, which is calculated by summing the individual
/// lengths of the various fields that make up each RR.
///
/// NOTE: When including name lengths, the allocation for
/// uncompressed name wire format representation is used.
///
/// \return The length of the wire format representation of the
/// \c AbstractRRset.
/// \throw EmptyRRset if the \c AbstractRRset is empty.
virtual uint16_t getLength() const = 0;
/// \brief Returns the owner name of the \c RRset.
///
/// \return A reference to a \c Name class object corresponding to the
/// \c RRset owner name.
virtual const Name& getName() const = 0;
/// \brief Returns the RR Class of the \c RRset.
///
/// \return A reference to a \c RRClass class object corresponding to the
/// RR class of the \c RRset.
virtual const RRClass& getClass() const = 0;
/// \brief Returns the RR Type of the \c RRset.
///
/// \return A reference to a \c RRType class object corresponding to the
/// RR type of the \c RRset.
virtual const RRType& getType() const = 0;
/// \brief Returns the TTL of the RRset.
///
/// \return A reference to a \c RRTTL class object corresponding to the
/// TTL of the \c RRset.
virtual const RRTTL& getTTL() const = 0;
/// \brief Updates the TTL of the \c RRset.
///
/// \param ttl A reference to a \c RRTTL class object to be copied as the
/// new TTL.
virtual void setTTL(const RRTTL& ttl) = 0;
//@}
///
/// \name Converter Methods
///
/// These methods have the default implementation that can be reused by
/// derived classes.
/// Since they are defined as pure virtual, derived classes
/// that want to reuse the default implementation must explicitly
/// invoke their base class version (see the description for
/// <code>addRdata(const rdata::Rdata&)</code>).
///
/// Design Note: the default implementations are defined only using
/// other public methods of the \c AbstractRRset class, and could be
/// implemented as non member functions (as some C++ textbooks suggest).
/// However, since derived classes may want to provide customized versions
/// (especially of the \c toWire() method for performance reasons)
/// we chose to define them as virtual functions, and, as a result,
/// member functions.
//@{
/// \brief Convert the RRset to a string.
///
/// Unlike other similar methods of this library, this method terminates
/// the resulting string with a trailing newline character.
/// (following the BIND9 convention)
///
/// If any RRSIGs are associated with the RRset, they are also
/// appended to the returned string.
///
/// If the class is not ANY or NONE, the RRset must contain some RDATA;
/// otherwise, an exception of class \c EmptyRRset will be thrown.
/// If resource allocation fails, a corresponding standard exception
/// will be thrown.
/// The default implementation may throw other exceptions if the
/// \c toText() method of the RDATA objects throws.
/// If a derived class of \c AbstractRRset overrides the default
/// implementation, the derived version may throw its own exceptions.
///
/// Open issue: We may want to support multiple output formats as
/// BIND9 does. For example, we might want to allow omitting the owner
/// name when possible in the context of zone dump. This is a future
/// TODO item.
///
/// \return A string representation of the RRset.
virtual std::string toText() const = 0;
/// \brief Render the RRset in the wire format with name compression and
/// truncation handling.
///
/// This method compresses the owner name of the RRset and domain names
/// used in RDATA that should be compressed.
/// In addition, this method detects the case where rendering the entire
/// RRset would cause truncation, and handles the case appropriately
/// (this is a TODO item, and not implemented in this version).
///
/// If any RRSIGs are associated with the RRset, they are also rendered.
///
/// Note: perhaps we may want to add more arguments to convey optional
/// information such as an "rrset-order" policy or how to handle truncation
/// case. This is a TODO item.
///
/// If resource allocation fails, a corresponding standard exception
/// will be thrown.
/// If the class is not ANY or NONE, the RRset must contain some RDATA;
/// otherwise, an exception of class \c EmptyRRset will be thrown.
/// The default implementation may throw other exceptions if the
/// \c toWire() method of the RDATA objects throws.
/// If a derived class of \c AbstractRRset overrides the default
/// implementation, the derived version may throw its own exceptions.
///
/// \param renderer DNS message rendering context that encapsulates the
/// output buffer and name compression information.
/// \return The number of RRs rendered. If the truncation is necessary
/// this value may be different from the number of RDATA objects contained
/// in the RRset.
virtual unsigned int toWire(AbstractMessageRenderer& renderer) const = 0;
/// \brief Render the RRset in the wire format without any compression.
///
/// See the other toWire() description about possible exceptions.
///
/// \param buffer An output buffer to store the wire data.
/// \return The number of RRs rendered.
virtual unsigned int toWire(isc::util::OutputBuffer& buffer) const = 0;
//@}
///
/// \name RDATA Manipulation Methods
///
//@{
/// \brief Add an RDATA to the RRset (pointer version).
///
/// This method adds the given RDATA (as a pointer-like type to a
/// derived class object of \c rdata::Rdata) to the \c RRset.
///
/// \param rdata A pointer (like) type of \c rdata::RdataPtr to be added
/// to the \c RRset.
virtual void addRdata(rdata::ConstRdataPtr rdata) = 0;
/// \brief Add an RDATA to the RRset (reference version).
///
/// This method adds the given RDATA (as a reference to a
/// derived class object of \c rdata::Rdata) to the \c RRset.
///
/// This method has the default implementation that can be reused by
/// derived classes.
/// Since this method is defined as pure virtual, derived classes
/// that want to reuse the default implementation must explicitly
/// invoke this base class version.
/// For example, if the class \c CustomizedRRset, a derived class of
/// \c AbstractRRset, wants to reuse the default implementation of
/// \c %addRdata() (reference version), it would be defined as follows:
/// \code void
/// CustomizedRRset::addRdata(const rdata::Rdata& rdata)
/// {
/// AbstractRRset::addRdata(rdata);
/// }
/// \endcode
///
/// This method is more strictly typed than the pointer version:
/// If \c rdata does not refer to the appropriate derived
/// \c Rdata class
/// for the \c RRType for this \c RRset, it throws an exception of class
/// \c std::bad_cast.
/// If resource allocation fails, a corresponding standard exception
/// will be thrown.
/// The RRset must contain some RDATA; otherwise, an exception of class
/// \c EmptyRRset will be thrown.
/// The default implementation may throw other exceptions if the
/// \c toWire() method of the RDATA objects throws.
/// If a derived class of \c AbstractRRset overrides the default
/// implementation, the derived version may throw its own exceptions.
///
/// The default implementation simply constructs an \c rdata::RdataPtr
/// object from a newly allocated RDATA object copying from parameter
/// \c rdata, and calls the other version of
/// \c addRdata(const rdata::RdataPtr).
/// So it is inherently less efficient than the other version.
/// Still, this version would offer a more intuitive interface and is
/// provided as such.
///
/// NOTE: Because a new Rdata object is constructed, this method can
/// throw a std::bad_cast exception if this RRset's class is NONE,
/// or if some other error occurs. If you want to be able to add
/// RDATA to an RRset whose class is NONE, please use the other
/// variant of \c addRdata() which accepts a \c ConstRdataPtr
/// argument.
///
/// \param rdata A reference to a \c rdata::RdataPtr (derived) class
/// object, a copy of which is to be added to the \c RRset.
virtual void addRdata(const rdata::Rdata& rdata) = 0;
/// \brief Add an RDATA to the RRset (string version).
///
/// This method constructs an Rdata object from the given
/// \c rdata_str in presentation format and adds it to the \c RRset.
///
/// \param rdata_str RDATA string in presentation format.
/// \throw InvalidRdataText if the \c rdata_str is invalid for this
/// \c RRset.
virtual void addRdata(const std::string& rdata_str) = 0;
/// \brief Return an iterator to go through all RDATA stored in the
/// \c RRset.
///
/// The rdata cursor of the returned iterator will point to the first
/// RDATA, that is, it effectively calls \c RdataIterator::first()
/// internally.
///
/// Using the design pattern terminology, \c getRdataIterator()
/// is an example of a <em>factory method</em>.
///
/// Whether this method throws an exception depends on the actual
/// implementation of the derived \c AbstractRRset class, but in general
/// it will involve resource allocation and can throw a standard exception
/// if it fails.
///
/// \return A pointer-like object pointing to the derived \c RdataIterator
/// object.
virtual RdataIteratorPtr getRdataIterator() const = 0;
//@}
///
/// \name Associated RRSIG methods
///
/// These methods access an "associated" RRset, that containing the DNSSEC
/// signatures for this RRset. It can be argued that this is not a
/// fundamental part of the RRset abstraction, since RFC 2181 defined an
/// RRset as a group of records with the same label, class and type but
/// different data. However, BIND 10 had to deal with DNSSEC and in
/// practice, including the information at the AbstractRRset level makes
/// implementation easier. (If a class is ever needed that must be
/// ignorant of the idea of an associated RRSIG RRset - e.g. a specialised
/// RRSIG RRset class - these methods can just throw a "NotImplemented"
/// exception.) DNSSEC is unlikely to be ever needed in Kea, but it does
/// not make sense to redesign the abstract RRSet class now.
//@{
/// \brief Return pointer to this RRset's RRSIG RRset
///
/// \return Pointer to the associated RRSIG RRset or null if there is none.
virtual RRsetPtr getRRsig() const = 0;
/// \brief Returns the number of \c RRSIG records associated with
/// the \c RRset.
///
/// Note that an \c RRset with no RRSIG records may exist, so this
/// method may return 0.
///
/// \return The number of \c RRSIG records associated.
virtual unsigned int getRRsigDataCount() const = 0;
/// \brief Adds RRSIG RRset RRs to the associated RRSIG RRset
///
/// Adds the (assumed) RRSIG rdata the RRSIG RRset associated with this
/// RRset. If one does not exist, it is created using the data given.
///
/// \param rdata Pointer to RRSIG rdata to be added.
virtual void addRRsig(const rdata::ConstRdataPtr& rdata) = 0;
/// \brief Adds RRSIG RRset RRs to the associated RRSIG RRset
///
/// Adds the (assumed) RRSIG rdata the RRSIG RRset associated with this
/// RRset. If one does not exist, it is created using the data given.
///
/// (This overload is for an older version of boost that doesn't support
/// conversion from shared_ptr<X> to shared_ptr<const X>.)
///
/// \param rdata Pointer to RRSIG rdata to be added.
virtual void addRRsig(const rdata::RdataPtr& rdata) = 0;
/// \brief Adds RRSIG RRset RRs to the associated RRSIG RRset
///
/// Adds the signatures in the given (assumed) RRSIG RRset to the RRSIG
/// RRset associated with this RRset. If one does not exist, it is created
/// using the data given.
///
/// \param sigs RRSIG RRset containing signatures to be added to the
/// RRSIG RRset associated with this class.
virtual void addRRsig(const AbstractRRset& sigs) = 0;
/// \brief Adds RRSIG RRset RRs to the associated RRSIG RRset
///
/// Adds the signatures in the given (assumed) RRSIG RRset to the RRSIG
/// RRset associated with this RRset. If one does not exist, it is created
/// using the data given.
///
/// \param sigs Pointer to a RRSIG RRset containing signatures to be added
/// to the RRSIG RRset associated with this class.
virtual void addRRsig(const ConstRRsetPtr& sigs) = 0;
/// \brief Adds RRSIG RRset RRs to the associated RRSIG RRset
///
/// Adds the signatures in the given (assumed) RRSIG RRset to the RRSIG
/// RRset associated with this RRset. If one does not exist, it is created
/// using the data given.
///
/// (This overload is for an older version of boost that doesn't support
/// conversion from shared_ptr<X> to shared_ptr<const X>.)
///
/// \param sigs Pointer to a RRSIG RRset containing signatures to be added
/// to the RRSIG RRset associated with this class.
virtual void addRRsig(const RRsetPtr& sigs) = 0;
/// \brief Clear the RRSIGs for this RRset
virtual void removeRRsig() = 0;
/// \brief Check whether two RRsets are of the same kind
///
/// Checks if two RRsets have the same name, RR type, and RR class.
///
/// \param other Pointer to another AbstractRRset to compare
/// against.
virtual bool isSameKind(const AbstractRRset& other) const;
//@}
};
/// \brief The \c RdataIterator class is an abstract base class that
/// provides an interface for accessing RDATA objects stored in an RRset.
///
/// While different derived classes of \c AbstractRRset may maintain the RDATA
/// objects in different ways, the \c RdataIterator class provides a
/// unified interface to iterate over the RDATA objects in a polymorphic
/// manner.
///
/// Each derived class of \c AbstractRRset is expected to provide a concrete
/// derived class of \c RdataIterator, and each derived \c RdataIterator
/// class implements the unified interface in a way specific to the
/// implementation of the corresponding derived \c AbstractRRset class.
/// Using the design pattern terminology, this is a typical example of
/// the \e Iterator pattern.
///
/// The RDATA objects stored in the \c RRset are considered to form
/// a unidirectional list from the \c RdataIterator point of view (while
/// the actual implementation in the derived \c RRset may not use a list).
/// We call this unidirectional list the <em>rdata list</em>.
///
/// An \c RdataIterator object internally (and conceptually) holds a
/// <em>rdata cursor</em>, which points to a specific item of the rdata list.
///
/// Note about design choice: as is clear from the interface, \c RdataIterator
/// is not compatible with the standard iterator classes.
/// Although it would be useful (for example, we could then use STL algorithms)
/// and is not necessarily impossible, it would make the iterator implementation
/// much more complicated.
/// For instance, any standard iterator must be assignable and
/// copy-constructible.
/// So we'd need to implement \c RdataIterator::operator=() in a polymorphic
/// way. This will require non-trivial implementation tricks.
/// We believe the simplified iterator interface as provided by the
/// \c RdataIterator class is sufficient in practice:
/// Most applications will simply go through the RDATA objects contained in
/// an RRset, examining (and possibly using) each object, as one path
/// operation.
class RdataIterator {
///
/// \name Constructors and Destructor
///
/// Note: The copy constructor and the assignment operator are intentionally
/// defined as private to make it explicit that this is a pure base class.
//@{
protected:
/// \brief The default constructor.
///
/// This is intentionally defined as \c protected as this base class should
/// never be instantiated (except as part of a derived class).
RdataIterator() {}
public:
/// \brief Destructor
virtual ~RdataIterator() {}
private:
RdataIterator(const RdataIterator& source);
RdataIterator& operator=(const RdataIterator& source);
//@}
public:
/// \brief Move the rdata cursor to the first RDATA in the rdata list
/// (if any).
///
/// This method can safely be called multiple times, even after moving
/// the rdata cursor forward by the \c next() method.
///
/// This method should never throw an exception.
virtual void first() = 0;
/// \brief Move the rdata cursor to the next RDATA in the rdata list
/// (if any).
///
/// This method should never throw an exception.
virtual void next() = 0;
/// \brief Return the current \c Rdata corresponding to the rdata cursor.
///
/// \return A reference to an \c rdata::Rdata object corresponding
/// to the rdata cursor.
virtual const rdata::Rdata& getCurrent() const = 0;
/// \brief Return true iff the rdata cursor has reached the end of the
/// rdata list.
///
/// Once this method returns \c true, the behavior of any subsequent
/// call to \c next() or \c getCurrent() is undefined.
/// Likewise, the result of \c isLast() call followed by such undefined
/// operations is also undefined.
///
/// This method should never throw an exception.
///
/// \return \c true if the rdata cursor has reached the end of the
/// rdata list; otherwise \c false.
virtual bool isLast() const = 0;
};
/// \brief The \c BasicRRset class is a concrete derived class of
/// \c AbstractRRset that defines a straightforward RRset implementation.
///
/// This class is designed to be as portable as possible, and so it adopts
/// the Pimpl idiom to hide as many details as possible.
/// Performance is a secondary concern for this class.
///
/// This class is intended to be used by applications that only need
/// moderate level of performance with full functionality provided by
/// the \c AbstractRRset interfaces.
/// Highly performance-sensitive applications, such as a large scale
/// authoritative or caching name servers will implement and use a customized
/// version of derived \c AbstractRRset class.
class BasicRRset : public AbstractRRset {
///
/// \name Constructors and Destructor
///
/// Note: The copy constructor and the assignment operator are intentionally
/// defined as private. The intended use case wouldn't require copies of
/// a \c BasicRRset object; once created, it would normally be used
/// as a \c const object (via references).
//@{
private:
BasicRRset(const BasicRRset& source);
BasicRRset& operator=(const BasicRRset& source);
public:
/// \brief Constructor from (mostly) fixed parameters of the RRset.
///
/// This constructor is normally expected to be exception free, but
/// copying the name may involve resource allocation, and if it fails
/// the corresponding standard exception will be thrown.
///
/// \param name The owner name of the RRset.
/// \param rrclass The RR class of the RRset.
/// \param rrtype The RR type of the RRset.
/// \param ttl The TTL of the RRset.
BasicRRset(const Name& name, const RRClass& rrclass,
const RRType& rrtype, const RRTTL& ttl);
/// \brief The destructor.
virtual ~BasicRRset();
//@}
///
/// \name Getter and Setter Methods
///
//@{
/// \brief Returns the number of \c Rdata objects contained in the \c RRset.
///
/// This method never throws an exception.
///
/// \return The number of \c Rdata objects contained.
virtual unsigned int getRdataCount() const;
/// \brief Get the wire format length of the \c BasicRRset.
///
/// \return The length of the wire format representation of the
/// \c BasicRRset.
/// \throw EmptyRRset if the \c BasicRRset is empty.
virtual uint16_t getLength() const;
/// \brief Returns the owner name of the \c RRset.
///
/// This method never throws an exception.
///
/// \return A reference to a \c Name class object corresponding to the
/// \c RRset owner name.
virtual const Name& getName() const;
/// \brief Returns the RR Class of the \c RRset.
///
/// This method never throws an exception.
///
/// \return A reference to a \c RRClass class object corresponding to the
/// RR class of the \c RRset.
virtual const RRClass& getClass() const;
/// \brief Returns the RR Type of the \c RRset.
///
/// This method never throws an exception.
///
/// \return A reference to a \c RRType class object corresponding to the
/// RR type of the \c RRset.
virtual const RRType& getType() const;
/// \brief Returns the TTL of the \c RRset.
///
/// This method never throws an exception.
///
/// \return A reference to a \c RRTTL class object corresponding to the
/// TTL of the \c RRset.
virtual const RRTTL& getTTL() const;
/// \brief Updates the TTL of the \c RRset.
///
/// This method never throws an exception.
///
/// \param ttl A reference to a \c RRTTL class object to be copied as the
/// new TTL.
virtual void setTTL(const RRTTL& ttl);
//@}
///
/// \name Converter Methods
///
//@{
/// \brief Convert the RRset to a string.
///
/// This method simply uses the default implementation.
/// See \c AbstractRRset::toText().
virtual std::string toText() const;
/// \brief Render the RRset in the wire format with name compression and
/// truncation handling.
///
/// This method simply uses the default implementation.
/// See \c AbstractRRset::toWire(MessageRenderer&)const.
virtual unsigned int toWire(AbstractMessageRenderer& renderer) const;
/// \brief Render the RRset in the wire format without any compression.
///
/// This method simply uses the default implementation.
/// See \c AbstractRRset::toWire(OutputBuffer&)const.
virtual unsigned int toWire(isc::util::OutputBuffer& buffer) const;
//@}
///
/// \name RDATA manipulation methods
///
//@{
/// \brief Add an RDATA to the RRset (pointer version).
///
/// This method is normally expected to be exception free, but it may
/// involve resource allocation, and if it fails the corresponding
/// standard exception will be thrown.
///
/// \param rdata A pointer (like) type of \c rdata::RdataPtr to be added
/// to the \c BasicRRset.
virtual void addRdata(rdata::ConstRdataPtr rdata);
/// \brief Add an RDATA to the RRset (reference version).
///
/// This method simply uses the default implementation.
/// See \c AbstractRRset::addRdata(const rdata::Rdata&).
virtual void addRdata(const rdata::Rdata& rdata);
/// \brief Add an RDATA to the RRset (string version).
///
/// \param rdata_str RDATA string in presentation format.
/// \throw InvalidRdataText if the \c rdata_str is invalid for this
/// \c RRset.
virtual void addRdata(const std::string& rdata_str);
/// \brief Return an iterator to go through all RDATA stored in the
/// \c BasicRRset.
///
/// This is a concrete derived implementation of
/// \c AbstractRRset::getRdataIterator().
///
/// This method dynamically allocates resources. If it fails it will
/// throw the corresponding standard exception.
/// The iterator methods for the \c BasicRRset class are exception free.
///
/// \return A pointer-like object pointing to the derived \c RdataIterator
/// object for the \c BasicRRset class.
virtual RdataIteratorPtr getRdataIterator() const;
//@}
///
/// \name Associated RRSIG methods
///
/// The associated RRSIG RRset is not supported in BasicRRset. For
/// ease of use, getRRsig() returns a null pointer (indicating no RRset).
/// The addRRsig()/removeRRsig() methods throw a "NotImplemented"
/// exception - if you are using a BasicRRset, you should not be trying
/// to modify signatures on it.
//@{
/// \brief Return pointer to this RRset's RRSIG RRset
///
/// \return Null pointer, as this class does not support RRSIG records.
virtual RRsetPtr getRRsig() const {
return (RRsetPtr());
}
/// \brief Returns the number of \c RRSIG records associated with
/// the \c RRset.
///
/// \return Always returns 0. Associated RRSIG RRsets are not
/// supported in this class.
virtual unsigned int getRRsigDataCount() const {
return (0);
}
virtual void addRRsig(const rdata::ConstRdataPtr&) {
isc_throw(NotImplemented,
"BasicRRset does not implement the addRRsig() method");
}
virtual void addRRsig(const rdata::RdataPtr&) {
isc_throw(NotImplemented,
"BasicRRset does not implement the addRRsig() method");
}
virtual void addRRsig(const AbstractRRset&) {
isc_throw(NotImplemented,
"BasicRRset does not implement the addRRsig() method");
}
virtual void addRRsig(const ConstRRsetPtr&) {
isc_throw(NotImplemented,
"BasicRRset does not implement the addRRsig() method");
}
virtual void addRRsig(const RRsetPtr&) {
isc_throw(NotImplemented,
"BasicRRset does not implement the addRRsig() method");
}
virtual void removeRRsig() {
isc_throw(NotImplemented,
"BasicRRset does not implement the removeRRsig() method");
}
//@}
private:
BasicRRsetImpl* impl_;
};
/// \brief The \c RRset class is a concrete derived class of
/// \c BasicRRset which contains a pointer to an additional RRset
/// containing associated RRSIG records. This allows DNSSEC aware
/// applications to treat data associated with a particular
/// QNAME/QTYPE/QCLASS as a single object.
class RRset : public BasicRRset {
public:
RRset(const Name& name, const RRClass& rrclass,
const RRType& rrtype, const RRTTL& ttl);
virtual ~RRset();
/// \brief Get the wire format length of the \c RRset.
///
/// \return The length of the wire format representation of the
/// \c RRset.
/// \throw EmptyRRset if the \c RRset is empty.
virtual uint16_t getLength() const;
/// \brief Render the RRset in the wire format with name compression and
/// truncation handling.
///
/// See \c AbstractRRset::toWire(MessageRenderer&)const.
virtual unsigned int toWire(AbstractMessageRenderer& renderer) const;
/// \brief Render the RRset in the wire format without any compression.
///
/// See \c AbstractRRset::toWire(OutputBuffer&)const.
virtual unsigned int toWire(isc::util::OutputBuffer& buffer) const;
/// \brief Updates the owner name of the \c RRset, including RRSIGs if any
virtual void setTTL(const RRTTL& ttl) {
BasicRRset::setTTL(ttl);
if (rrsig_) {
rrsig_->setTTL(ttl);
}
}
/// \brief Adds an RRSIG RR to this RRset's signatures
virtual void addRRsig(const rdata::ConstRdataPtr& rdata) {
if (!rrsig_) {
rrsig_ = RRsetPtr(new RRset(getName(), getClass(),
RRType::RRSIG(), getTTL()));
}
rrsig_->addRdata(rdata);
}
// Workaround for older versions of boost: some don't support implicit
// conversion from shared_ptr<X> to shared_ptr<const X>. Note: we should
// revisit the interface of managing RRset signatures, at which point this
// problem may go away.
virtual void addRRsig(const rdata::RdataPtr& rdata) {
// Don't try to convert as a reference here. SunStudio will reject it.
addRRsig(static_cast<const rdata::ConstRdataPtr>(rdata));
}
/// \brief Adds an RRSIG RRset to this RRset
virtual void addRRsig(const AbstractRRset& sigs) {
RdataIteratorPtr it = sigs.getRdataIterator();
if (!rrsig_) {
rrsig_ = RRsetPtr(new RRset(getName(), getClass(),
RRType::RRSIG(), getTTL()));
}
for (it->first(); !it->isLast(); it->next()) {
rrsig_->addRdata(it->getCurrent());
}
}
virtual void addRRsig(const ConstRRsetPtr& sigs) { addRRsig(*sigs); }
// Another workaround for older boost (see above)
virtual void addRRsig(const RRsetPtr& sigs) { addRRsig(*sigs); }
/// \brief Clear the RRSIGs for this RRset
virtual void removeRRsig() { rrsig_ = RRsetPtr(); }
/// \brief Return a pointer to this RRset's RRSIG RRset
virtual RRsetPtr getRRsig() const { return (rrsig_); }
/// \brief Returns the number of \c RRSIG records associated with
/// the \c RRset.
///
/// Note that an \c RRset with no RRSIG records may exist, so this
/// method may return 0.
///
/// \return The number of \c RRSIG records associated.
virtual unsigned int getRRsigDataCount() const;
private:
RRsetPtr rrsig_;
};
/// \brief Insert the \c RRset as a string into stream.
///
/// This method convert the \c rrset into a string and inserts it into the
/// output stream \c os.
///
/// This function overloads the global \c operator<< to behave as described in
/// \c %ostream::%operator<< but applied to RRset objects.
///
/// \param os A \c std::ostream object on which the insertion operation is
/// performed.
/// \param rrset A reference to a (derived class of) \c AbstractRRset 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 AbstractRRset& rrset);
} // end of namespace dns
} // end of namespace isc
#endif // RRSET_H
// Local Variables:
// mode: c++
// End:
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