// Copyright (C) 2010 Internet Systems Consortium, Inc. ("ISC") // // Permission to use, copy, modify, and/or distribute this software for any // purpose with or without fee is hereby granted, provided that the above // copyright notice and this permission notice appear in all copies. // // THE SOFTWARE IS PROVIDED "AS IS" AND ISC DISCLAIMS ALL WARRANTIES WITH // REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY // AND FITNESS. IN NO EVENT SHALL ISC BE LIABLE FOR ANY SPECIAL, DIRECT, // INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM // LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE // OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR // PERFORMANCE OF THIS SOFTWARE. #ifndef __RRPARAMREGISTRY_H #define __RRPARAMREGISTRY_H 1 #include #include #include #include #include namespace isc { namespace dns { // forward declarations struct RRParamRegistryImpl; /// /// \brief A standard DNS module exception that is thrown if a new RR type is /// being registered with a different type string. /// class RRTypeExists : public Exception { public: RRTypeExists(const char* file, size_t line, const char* what) : isc::Exception(file, line, what) {} }; /// /// \brief A standard DNS module exception that is thrown if a new RR class is /// being registered with a different type string. /// class RRClassExists : public Exception { public: RRClassExists(const char* file, size_t line, const char* what) : isc::Exception(file, line, what) {} }; namespace rdata { /// \brief The \c AbstractRdataFactory class is an abstract base class to /// encapsulate a set of Rdata factory methods in a polymorphic way. /// /// An external developers who want to introduce a new or experimental RR type /// are expected to define a corresponding derived class of \c /// AbstractRdataFactory and register it via \c RRParamRegistry. /// /// For other users of this API normally do not have to care about this class /// or its derived classes; this class is generally intended to be used /// as an internal utility of the API implementation. class AbstractRdataFactory { /// /// \name Constructors and Destructor /// //@{ protected: /// 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). AbstractRdataFactory() {} public: /// The destructor. virtual ~AbstractRdataFactory() {}; //@} /// /// \name Factory methods for polymorphic creation. /// //@{ /// /// \brief Create RDATA from a string. /// /// This method creates from a string an \c Rdata object of specific class /// corresponding to the specific derived class of \c AbstractRdataFactory. /// /// \param rdata_str A string of textual representation of the \c Rdata. /// \return An \c RdataPtr object pointing to the created \c Rdata object. virtual RdataPtr create(const std::string& rdata_str) const = 0; /// /// \brief Create RDATA from wire-format data. /// /// This method creates from wire-format binary data an \c Rdata object /// of specific class corresponding to the specific derived class of /// \c AbstractRdataFactory. /// /// \param buffer A reference to an \c InputBuffer object storing the /// \c Rdata to parse. /// \param rdata_len The length in buffer of the \c Rdata. In bytes. /// \return An \c RdataPtr object pointing to the created \c Rdata object. virtual RdataPtr create(isc::util::InputBuffer& buffer, size_t rdata_len) const = 0; /// /// \brief Create RDATA from another \c Rdata object of the same type. /// /// This method creates an \c Rdata object of specific class corresponding /// to the specific derived class of \c AbstractRdataFactory, copying the /// content of the given \c Rdata, \c source. /// /// \c source must be an object of the concrete derived class corresponding /// to the specific derived class of \c AbstractRdataFactory; /// otherwise, an exception of class \c std::bad_cast will be thrown. /// /// \param source A reference to an \c Rdata object whose content is to /// be copied to the created \c Rdata object. /// \return An \c RdataPtr object pointing to the created \c Rdata object. virtual RdataPtr create(const rdata::Rdata& source) const = 0; //@} }; /// /// The \c RdataFactoryPtr type is a pointer-like type, pointing to an /// object of some concrete derived class of \c AbstractRdataFactory. /// typedef boost::shared_ptr RdataFactoryPtr; } // end of namespace rdata /// /// The \c RRParamRegistry class represents a registry of parameters to /// manipulate DNS resource records (RRs). /// /// A \c RRParamRegistry class object stores a mapping between RR types or /// classes and their textual representations. It will also have knowledge of /// how to create an RDATA object for a specific pair of RR type and class /// (not implemented in this version). /// /// Normal applications that only handle standard DNS protocols won't have to /// care about this class. This is mostly an internal class to the DNS library /// to manage standard parameters. Some advanced applications may still need /// to use this class explicitly. For example, if an application wants to /// define and use an experimental non-standard RR type, it may want to register /// related protocol parameters for its convenience. This class is designed to /// allow such usage without modifying the library source code or rebuilding /// the library. /// /// It is assumed that at most one instance of this class can exist so that /// the application uses the consistent set of registered parameters. To ensure /// this, this class is designed and implemented as a "singleton class": the /// constructor is intentionally private, and applications must get access to /// the single instance via the \c getRegistry() static member function. /// /// In the current implementation, access to the singleton \c RRParamRegistry /// object is not thread safe. /// The application should ensure that multiple threads don't race in the /// first invocation of \c getRegistry(), and, if the registry needs to /// be changed dynamically, read and write operations are performed /// exclusively. /// Since this class should be static in common usage this restriction would /// be acceptable in practice. /// In the future, we may extend the implementation so that multiple threads can /// get access to the registry fully concurrently without any restriction. /// /// Note: the implementation of this class is incomplete: we should at least /// add RDATA related parameters. This will be done in a near future version, /// at which point some of method signatures will be changed. class RRParamRegistry { /// /// \name Constructors and Destructor /// /// These are intentionally hidden (see the class description). //@{ private: RRParamRegistry(); RRParamRegistry(const RRParamRegistry& orig); ~RRParamRegistry(); //@} public: /// /// \brief Return the singleton instance of \c RRParamRegistry. /// /// This method is a unified access point to the singleton instance of /// the RR parameter registry (\c RRParamRegistry). /// On first invocation it internally constructs an instance of the /// \c RRParamRegistry class and returns a reference to it. /// This is a static object inside this method and will remain valid /// throughout the rest of the application lifetime. /// On subsequent calls this method simply returns a reference to the /// singleton object. /// /// If resource allocation fails in the first invocation, /// a corresponding standard exception will be thrown. /// This method never fails otherwise. In particular, this method /// doesn't throw an exception once the singleton instance is constructed. /// /// \return A reference to the singleton instance of \c RRParamRegistry. static RRParamRegistry& getRegistry(); /// /// \name Registry Update Methods /// //@{ /// /// \brief Add a set of parameters for a pair of RR type and class. /// /// This method adds to the registry a specified set of RR parameters, /// including mappings between type/class codes and their textual /// representations. /// /// Regarding the mappings between textual representations and integer /// codes, this method behaves in the same way as \c addType() and /// \c addClass(). That is, it ignores any overriding attempt as /// long as the mapping is the same; otherwise the corresponding exception /// will be thrown. /// /// This method provides the strong exception guarantee: unless an /// exception is thrown the entire specified set of parameters must be /// stored in the registry; if this method throws an exception the /// registry will remain in the state before this method is called. /// /// \param type_string The textual representation of the RR type. /// \param type_code The integer code of the RR type. /// \param class_string The textual representation of the RR class. /// \param class_code The integer code of the RR class. /// \param rdata_factory An \c RdataFactoryPtr object pointing to a /// concrete RDATA factory. void add(const std::string& type_string, uint16_t type_code, const std::string& class_string, uint16_t class_code, rdata::RdataFactoryPtr rdata_factory); /// \brief Add a set of parameters for a class-independent RR type. /// /// This method behaves as exactly same as the other \c add method except /// that it handles class-independent types (such as NS, CNAME, or SOA). /// /// \param type_string The textual representation of the RR type. /// \param type_code The integer code of the RR type. /// \param rdata_factory An \c RdataFactoryPtr object pointing to a /// concrete RDATA factory. void add(const std::string& type_string, uint16_t type_code, rdata::RdataFactoryPtr rdata_factory); /// \brief Add mappings between RR type code and textual representation. /// /// This method adds a mapping from the type code of an RR to its textual /// representation and the reverse mapping in the registry. /// /// If the given RR type is already registered with the same textual /// representation, this method simply ignores the duplicate mapping; /// if the given type is registered and a new pair with a different /// textual representation is being added,an exception of class /// \c RRTypeExist will be thrown. /// To replace an existing mapping with a different textual representation, /// the existing one must be removed by the \c removeType() method /// beforehand. /// /// In addition, if resource allocation for the new mapping entries fails, /// a corresponding standard exception will be thrown. /// /// This method provides the strong exception guarantee: unless an exception /// is thrown the specified mappings must be stored in the registry /// (although it may be an already existing one) on completion of the /// method; if this method throws an exception the registry will remain /// in the state before this method is called. /// /// \param type_string The textual representation of the RR type. /// \param type_code The integer code of the RR type. /// \return \c true if a new mapping is added to the repository; \c false /// if the same mapping is already registered. bool addType(const std::string& type_string, uint16_t type_code); /// \brief Remove mappings between RR type code and textual representation /// for a given type. /// /// This method can safely be called whether or not the specified mappings /// exist in the registry. If not, this method simply ignores the attempt /// and returns \c false. /// /// This method never throws an exception. /// /// \param type_code The integer code of the RR type. /// \return \c true if mappings for the specified RR type exists and is /// removed; \c false if no such mapping is in the registry. bool removeType(uint16_t type_code); /// \brief Add mappings between RR class code and textual representation. /// /// This method adds a mapping from the class code of an RR to its textual /// representation and the reverse mapping in the registry. /// /// If the given RR class is already registered with the same textual /// representation, this method simply ignores the duplicate mapping; /// if the given class is registered and a new pair with a different /// textual representation is being added,an exception of class /// \c RRClassExist will be thrown. /// To replace an existing mapping with a different textual representation, /// the existing one must be removed by the \c removeClass() method /// beforehand. /// /// In addition, if resource allocation for the new mapping entries fails, /// a corresponding standard exception will be thrown. /// /// This method provides the strong exception guarantee: unless an exception /// is thrown the specified mappings must be stored in the registry /// (although it may be an already existing one) on completion of the /// method; if this method throws an exception the registry will remain /// in the state before this method is called. /// /// \param class_string The textual representation of the RR class. /// \param class_code The integer code of the RR class. /// \return \c true if a new mapping is added to the repository; \c false /// if the same mapping is already registered. bool addClass(const std::string& class_string, uint16_t class_code); /// \brief Remove mappings between RR class code and textual representation /// for a given class. /// /// This method can safely be called whether or not the specified mappings /// exist in the registry. If not, this method simply ignores the attempt /// and returns \c false. /// /// This method never throws an exception. /// /// \param class_code The integer code of the RR class. /// \return \c true if mappings for the specified RR type exists and is /// removed; \c false if no such mapping is in the registry. bool removeClass(uint16_t class_code); /// \brief Remove registered RDATA factory for the given pair of \c RRType /// and \c RRClass. /// /// This method can safely be called whether or not the specified factory /// object exist in the registry. If not, this method simply ignores the /// attempt and returns \c false. /// /// This method never throws an exception. /// /// \param rrtype An \c RRType object specifying the type/class pair. /// \param rrclass An \c RRClass object specifying the type/class pair. /// \return \c true if a factory object for the specified RR type/class /// pair exists and is removed; \c false if no such object is in the /// registry. bool removeRdataFactory(const RRType& rrtype, const RRClass& rrclass); /// \brief Remove registered RDATA factory for the given pair of \c RRType /// and \c RRClass. /// /// This method can safely be called whether or not the specified factory /// object exist in the registry. If not, this method simply ignores the /// attempt and returns \c false. /// /// This method never throws an exception. /// /// \param rrtype An \c RRType object specifying the type/class pair. /// \return \c true if a factory object for the specified RR type/class /// pair exists and is removed; \c false if no such object is in the /// registry. bool removeRdataFactory(const RRType& rrtype); //@} /// /// \name Parameter Conversion Methods /// //@{ /// \brief Convert a textual representation of an RR type to the /// corresponding 16-bit integer code. /// /// This method searches the \c RRParamRegistry for the mapping from the /// given textual representation of RR type to the corresponding integer /// code. If a mapping is found, it returns the associated type code; /// otherwise, if the given string is in the form of "TYPEnnnn", it returns /// the corresponding number as the type code; otherwise, it throws an /// exception of class \c InvalidRRType. /// /// \param type_string The textual representation of the RR type. /// \return The RR type code for \c type_string. uint16_t textToTypeCode(const std::string& type_string) const; /// \brief Convert type code into its textual representation. /// /// This method searches the \c RRParamRegistry for the mapping from the /// given RR type code to its textual representation. /// If a mapping is found, it returns (a copy of) the associated string; /// otherwise, this method creates a new string in the form of "TYPEnnnn" /// where "nnnn" is the decimal representation of the type code, and /// returns the new string. /// /// If resource allocation for the returned string fails, /// a corresponding standard exception will be thrown. /// This method never fails otherwise. /// /// \param type_code The integer code of the RR type. /// \return A textual representation of the RR type for code \c type_code. std::string codeToTypeText(uint16_t type_code) const; /// \brief Convert a textual representation of an RR class to the /// corresponding 16-bit integer code. /// /// This method searches the \c RRParamRegistry for the mapping from the /// given textual representation of RR class to the corresponding integer /// code. If a mapping is found, it returns the associated class code; /// otherwise, if the given string is in the form of "CLASSnnnn", it returns /// the corresponding number as the class code; otherwise, it throws an /// exception of class \c InvalidRRClass. /// /// \param class_string The textual representation of the RR class. /// \return The RR class code for \c class_string. uint16_t textToClassCode(const std::string& class_string) const; /// \brief Convert class code into its textual representation. /// /// This method searches the \c RRParamRegistry for the mapping from the /// given RR class code to its textual representation. /// If a mapping is found, it returns (a copy of) the associated string; /// otherwise, this method creates a new string in the form of "CLASSnnnn" /// where "nnnn" is the decimal representation of the class code, and /// returns the new string. /// /// If resource allocation for the returned string fails, /// a corresponding standard exception will be thrown. /// This method never fails otherwise. /// /// \param class_code The integer code of the RR class. /// \return A textual representation of the RR class for code \c class_code. std::string codeToClassText(uint16_t class_code) const; //@} /// /// \name RDATA Factories /// /// This set of methods provide a unified interface to create an /// \c rdata::Rdata object in a parameterized polymorphic way, /// that is, these methods take a pair of \c RRType and \c RRClass /// objects and data specific to that pair, and create an object of /// the corresponding concrete derived class of \c rdata::Rdata. /// /// These methods first search the \c RRParamRegistry for a factory /// method (a member of a concrete derived class of /// \c AbstractRdataFactory) for the given RR type and class pair. /// If the search fails, they then search for a factory method for /// the given type ignoring the class, in case a RRClass independent /// factory method is registered. /// If it still fails, these methods assume the RDATA is of an "unknown" /// type, and creates a new object by calling a constructor of the /// \c rdata::generic::Generic class. /// //@{ /// \brief Create RDATA of a given pair of RR type and class from a string. /// /// This method creates from a string an \c Rdata object of the given pair /// of RR type and class. /// /// \param rrtype An \c RRType object specifying the type/class pair. /// \param rrclass An \c RRClass object specifying the type/class pair. /// \param rdata_string A string of textual representation of the \c Rdata. /// \return An \c rdata::RdataPtr object pointing to the created \c Rdata /// object. rdata::RdataPtr createRdata(const RRType& rrtype, const RRClass& rrclass, const std::string& rdata_string); /// \brief Create RDATA of a given pair of RR type and class from /// wire-format data. /// /// This method creates from wire-format binary data an \c Rdata object /// of the given pair of RR type and class. /// /// \param rrtype An \c RRType object specifying the type/class pair. /// \param rrclass An \c RRClass object specifying the type/class pair. /// \param buffer A reference to an \c InputBuffer object storing the /// \c Rdata to parse. /// \param len The length in buffer of the \c Rdata. In bytes. /// \return An \c rdata::RdataPtr object pointing to the created \c Rdata /// object. rdata::RdataPtr createRdata(const RRType& rrtype, const RRClass& rrclass, isc::util::InputBuffer& buffer, size_t len); /// \brief Create RDATA of a given pair of RR type and class, copying /// of another RDATA of same kind. /// /// This method creates an \c Rdata object of the given pair of /// RR type and class, copying the content of the given \c Rdata, /// \c source. /// /// \c source must be an object of the concrete derived class of /// \c rdata::Rdata for the given pair of RR type and class; /// otherwise, an exception of class \c std::bad_cast will be thrown. /// In case the \c RRParamRegistry doesn't have a factory method for /// the given pair and it is assumed to be of an "unknown" type, /// \c source must reference an object of class /// \c rdata::generic::Generic; otherwise, an exception of class /// \c std::bad_cast will be thrown. /// /// \param rrtype An \c RRType object specifying the type/class pair. /// \param rrclass An \c RRClass object specifying the type/class pair. /// \param source A reference to an \c rdata::Rdata object whose content /// is to be copied to the created \c rdata::Rdata object. /// \return An \c rdata::RdataPtr object pointing to the created /// \c rdata::Rdata object. rdata::RdataPtr createRdata(const RRType& rrtype, const RRClass& rrclass, const rdata::Rdata& source); //@} private: RRParamRegistryImpl* impl_; }; } } #endif // __RRPARAMREGISTRY_H // Local Variables: // mode: c++ // End: