X-Git-Url: http://g0dil.de/git?a=blobdiff_plain;f=Packets%2FPacket.hh;h=d1485984cffe316497da488b3dea81abdb6ff00c;hb=92f8630b75f3ef50e73c48cde58645dcd1534e27;hp=f4bc724f251d04a8262af24390176d3b96a206ee;hpb=47368f306a577d1e46df69a7f729bd3893cbe5e7;p=senf.git diff --git a/Packets/Packet.hh b/Packets/Packet.hh index f4bc724..d148598 100644 --- a/Packets/Packet.hh +++ b/Packets/Packet.hh @@ -1,6 +1,8 @@ -// Copyright (C) 2007 -// Fraunhofer Institut fuer offene Kommunikationssysteme (FOKUS) -// Kompetenzzentrum fuer Satelitenkommunikation (SatCom) +// $Id$ +// +// Copyright (C) 2007 +// Fraunhofer Institute for Open Communication Systems (FOKUS) +// Competence Center NETwork research (NET), St. Augustin, GERMANY // Stefan Bund // // This program is free software; you can redistribute it and/or modify @@ -21,14 +23,16 @@ /** \file \brief Packet public header */ -#ifndef HH_Packet_ -#define HH_Packet_ 1 +#ifndef HH_SENF_Packets_Packet_ +#define HH_SENF_Packets_Packet_ 1 // Custom includes #include - -#include "Utils/Exception.hh" -#include "Utils/SafeBool.hh" +#include +#include +#include "../Utils/Exception.hh" +#include "../Utils/Tags.hh" +#include "../Utils/safe_bool.hh" #include "PacketInterpreter.hh" //#include "Packet.mpp" @@ -36,27 +40,116 @@ namespace senf { + /** \defgroup packet_module Packet Handling + + The basic groundwork of the %Packet library is the packet handling: + + \li The packet classes provide access to a chain of packet headers (more generically called + interpreters). + \li They automatically manage the required memory resources and the shared packet data. + + \section packet_module_chain The Interpreter Chain + + The central data structure for a packet is the interpreter chain + + \image html structure.png The Interpreter Chain + + This image depicts a packet with several headers. Each interpreter is responsible for a + specific sub-range of the complete packet. This range always \e includes the packets payload + (This is, why we call the data structure interpreter and not header: The interpreter is + responsible for interpreting a range of the packet according to a specific protocol), the + packet interpreters are nested inside each other. + + For each interpreter, this structure automatically divides the packet into three areas (each + of which are optional): The header, the payload and the trailer. Every packet will have + either a header or a payload section while most don't have a trailer. + + As user of the library you always interact with the chain through one (or more) of the + interpreters. The interpreter provides methods to traverse to the following or preceding + header (interpreter) and provides two levels of access to the packet data: Generic low-level + access in the form of an STL compatible sequence and access to the parsed fields which are + provided by the parser associated with the concrete packet type. + + \section packet_module_management Resource Management + + The interface to the packet library is provided using a handle class (\ref Packet for + generic, protocol agnostic access and \ref ConcretePacket derived from \ref Packet to access + a specific protocol). This handle automatically manages the resources associated with the + packet (the interpreter chain and the data storage holding the packet data). The resources + are automatically released when the last packet handle referencing a specific packet is + destroyed. + + \implementation The packet chain is provided on two levels: The internal representation \ref + PacketInterpreterBase and \ref PacketInterpreter which are referenced by the Handle + classes \ref Packet and \ref ConcretePacket. \n + The internal representation classes are pertinent in the sense, that they exist + regardless of the existence of a handle referencing them (as long as the packet + exists). Still the interpreter chain is lazy and packet interpreters beside the first + are only created dynamically when accessed (this is implemented in the handle not in the + internal representation). \n + The packet interpreters make use of a pool allocator. This provides extremely efficient + creation and destruction of packet interpreter's and removes the dynamic memory + management overhead from the packet interpreter management. The packet implementation + class (\ref PacketImpl which holds the packet data itself) however is still dynamically + managed (however there is only a single instance for each packet). + */ + template class ConcretePacket; + + ///\addtogroup packet_module + ///@{ - /** \brief - */ + /** \brief Main %Packet class + + %Packet is the main externally visible class of the packet library. %Packet is a handle into + the internal packet representation. From %Packet you may access the data of that specific + sub-packet/header/interpreter and navigate to the neighboring + sub-packets/headers/interpreters. + + %Packet is protocol agnostic. This class only provides non-protocol dependent members. To + access the protocol specific features of a packet (like header fields) the ConcretePacket + class extending %Packet is provided. + + \section packet_semantics Semantics + + All operations accessing the data of \c this packet in some way will ignore any preceding + packets/headers/interpreters in the chain. It does not matter, whether a given packet is + taken from the middle or the beginning of the chain, all operations (except those explicitly + accessing the chain of course) should work the same. + + This especially includes members like clone() or append(): clone() will clone \e only from + \c this packet until the end of the chain, append() will append the given packet \e ignoring + any possibly preceding packets/headers/interpreters. + + In the same way, the data() member provides an STL-sequence compatible view of the packet + data. This only includes the data which is part of \c this packet including header, trailer + \e and payload but \e not the headers or trailers of packets \e before \c this packet in the + packet/header/interpreter chain (nonetheless, this data overlaps with the data of other + packets). + + Several members are member templates taking an \a OtherPacket template parameter. This + parameter must be the ConcretePacket instantiation associated with some concrete packet type + (protocol). For each implemented protocol, typedefs should be provided for these + instantiations (Example: \ref EthernetPacket is a typedef for + \ref ConcretePacket < \ref EthernetPacketType >). + + \see + \ref ConcretePacket for the %type specific interface\n + \ref PacketData for the sequence interface\n + \ref packetparser for a specification of the parser interface + */ class Packet - : public SafeBool, + : public safe_bool, public boost::equality_comparable { public: /////////////////////////////////////////////////////////////////////////// // Types - typedef void type; - typedef senf::detail::packet::iterator iterator; - typedef senf::detail::packet::const_iterator const_iterator; + typedef void type; ///< Type of the packet. typedef senf::detail::packet::size_type size_type; - typedef senf::detail::packet::difference_type difference_type; - typedef senf::detail::packet::byte byte; - typedef PacketInterpreterBase::factory_t factory_t; - - enum NoInit_t { noinit }; + ///< Unsigned type to represent packet size + typedef PacketInterpreterBase::factory_t factory_t; ///< Packet factory type (see below) /////////////////////////////////////////////////////////////////////////// ///\name Structors and default members @@ -66,13 +159,23 @@ namespace senf { // default copy assignment // default destructor - Packet(); - Packet clone() const; + Packet(); ///< Create uninitialized packet handle + /**< An uninitialized handle is in - valid(). It does not + allow any operation except assignment and checking for + validity. */ + Packet clone() const; ///< Create copy packet + /**< clone() will create a complete copy of \c this + packet. The returned packet will have the same data and + packet chain. It does however not share any data with + the original packet. */ // conversion constructors - template - Packet(ConcretePacket packet); + template + Packet(ConcretePacket packet); ///< Copy-construct Packet from ConcretePacket + /**< This constructor allows to convert an arbitrary + ConcretePacket into a general Packet, loosing the + protocol specific interface. */ ///@} /////////////////////////////////////////////////////////////////////////// @@ -80,57 +183,311 @@ namespace senf { ///\name Interpreter chain access ///@{ - Packet next() const; - template OtherPacket next() const; - template OtherPacket next(NoThrow_t) const; - template OtherPacket findNext() const; - template OtherPacket findNext(NoThrow_t) const; - - Packet prev() const; - template OtherPacket prev() const; - template OtherPacket prev(NoThrow_t) const; - template OtherPacket findPrev() const; - template OtherPacket findPrev(NoThrow_t) const; - - Packet first() const; + Packet next() const; + ///< Get next packet in chain + /**< \throws InvalidPacketChainException if no next packet + exists */ + Packet next(NoThrow_t) const; + ///< Get next packet in chain + /**< \returns in - valid() packet if no next packet + exists */ + template OtherPacket next() const; + ///< Get next packet in chain and cast to \a OtherPacket + /**< \throws std::bad_cast if the next() packet is not of + type \a OtherPacket + \throws InvalidPacketChainException if no next packet + exists */ + template OtherPacket next(NoThrow_t) const; + ///< Get next packet in chain and cast to \a OtherPacket + /**< \throws std::bad_cast if the next() packet is not of + type \a OtherPacket + \returns in - valid() packet if no next packet + exists */ + template OtherPacket find() const; + ///< Search chain forward for packet of type \a OtherPacket + /**< The search will start with the current packet. + \throws InvalidPacketChainException if no packet of + type \a OtherPacket can be found. */ + template OtherPacket find(NoThrow_t) const; + ///< Search chain forward for packet of type \a OtherPacket + /**< The search will start with the current packet. + \returns in - valid() packet if no packet of type \a + OtherPacket can be found. */ + + Packet prev() const; + ///< Get previous packet in chain + /**< \throws InvalidPacketChainException if no previous + packet exists */ + Packet prev(NoThrow_t) const; + ///< Get previous packet in chain + /**< \returns in - valid() packet if no previous packet + exists */ + template OtherPacket prev() const; + ///< Get previous packet in chain and cast to \a OtherPacket + /**< \throws std::bad_cast, if the previous packet is not of + type \a OtherPacket + \throws InvalidPacketChainException if no previous + packet exists */ + template OtherPacket prev(NoThrow_t) const; + ///< Get previous packet in chain and cast to \a OtherPacket + /**< \throws std::bad_cast, if the previous packet is not of + type \a OtherPacket + \returns in - valid() packet if no previous packet + exists */ + template OtherPacket rfind() const; + ///< Search chain backwards for packet of type \a OtherPacket + /**< The search will start with the current packet. + \throws InvalidPacketChainException if no packet of + type \a OtherPacket can be found. */ + template OtherPacket rfind(NoThrow_t) const; + ///< Search chain backwards for packet of type \a OtherPacket + /**< The search will start with the current packet. + \returns in - valid() packet if no packet of type \a + OtherPacket can be found. */ + + + Packet first() const; + ///< Return first packet in chain template OtherPacket first() const; - template OtherPacket first(NoThrow_t) const; + ///< Return first packet in chain and cast + /**< \throws std::bad_cast if the first() packet is not of + type \a OtherPacket */ - Packet last() const; + Packet last() const; + ///< Return last packet in chain template OtherPacket last() const; - template OtherPacket last(NoThrow_t) const; + ///< Return last packet in chain and cast + /**< \throws std::bad_cast if the last() packet is not of + type \a OtherPacket */ template OtherPacket parseNextAs() const; - Packet parseNextAs(factory_t factory) const; + ///< Interpret payload of \c this as \a OtherPacket + /**< parseNextAs() will throw away the packet chain after + the current packet if necessary. It will then parse the + payload section of \c this packet as given by \a + OtherPacket. The new packet is added to the chain after + \c this. + \returns new packet instance sharing the same data and + placed after \c this packet in the chain. + \throws InvalidPacketChainException if no next + packet header is allowed (viz. nextPacketRange() of the the current + PacketType returns no_range() ) */ + Packet parseNextAs(factory_t factory) const; + ///< Interpret payload of \c this as \a factory type packet + /**< parseNextAs() will throw away the packet chain after + the current packet if necessary. It will then parse the + payload section of \c this packet as given by \a + factory. The new packet is added to the chain after + \c this. + \returns new packet instance sharing the same data and + placed after \c this packet in the chain. + \throws InvalidPacketChainException if no next + packet header is allowed (viz. nextPacketRange() of the the current + PacketType returns no_range() ) */ + template bool is() const; + ///< Check, whether \c this packet is of the given type template OtherPacket as() const; - - Packet append(Packet packet) const; + ///< Cast current packet to the given type + /**< This operations returns a handle to the same packet + header/interpreter however cast to the given + ConcretePacket type. + \throws std::bad_cast if the current packet is not of + type \a OtherPacket */ + + Packet append(Packet const & packet) const; ///< Append the given packet to \c this packet + /**< This operation will replace the payload section of \c + this packet with \a packet. This operation will replace + the packet chain after \c this packet with a clone of + \a packet and will replace the raw data of the payload + of \c this with the raw data of \a packet. \c this + packet will not share any date with \a packet. + \returns Packet handle to the cloned \a packet, placed + after \c this in the packet/header/interpreter + chain. */ ///@} ///\name Data access ///@{ - PacketData & data() const; - size_type size() const; + PacketData & data() const; ///< Access the packets raw data container + size_type size() const; ///< Return size of packet in bytes + /**< This size does \e not include the size of any preceding + headers/packets/interpreters. It does however include + \c this packets payload. */ ///@} - ///\name Other methods + ///\name Annotations ///@{ - bool operator==(Packet other) const; - bool boolean_test() const; + template + Annotation & annotation(); ///< Get packet annotation + /**< This member will retrieve an arbitrary packet + annotation. Every annotation is identified by a unique + \a Annotation type. This type should \e always be a \c + struct. + + \code + struct MyAnnotation { + int value; + }; + + senf::Packet p (...); + + p.annotation().value = 1; + \endcode + + Annotations are shared by all headers / interpreters + within a single packet chain. + + If an annotation is \e not a POD type (more + specifically, if it's constructor or destructor is not + trivial including base classes and members), the \a + Annotation type \e must inherit from + senf::ComplexAnnotation. Failing to follow this rule + will result in undefined behavior and will probably + lead to a program crash. + + \code + struct MyStringAnnotation : senf::ComplexAnnotation { + std::string value; + }; + \endcode + (This type is not POD since \c std::string is not POD) + + \see \ref packet_usage_annotation + + \implementation The annotation system is implemented + quite efficiently since annotations are stored + within a packet embedded vector of fixed size (the + size is determined automatically at runtime by the + number of different annotations + used). Additionally, non-complex small annotations + require no additional memory management (\c new / + \c delete). + + \idea Pool the annotation vectors: In the destructor + swap the vector into a vector graveyard (swapping + two vectors is an O(1) no allocation operation). In + the constructor, if there is a vector in the + graveyard, swap it in from there. Of course, it + would be better to do away with the vector and just + allocate the space together with the packet but + that looks quite complicated to do ... especially + considering that the packetimpl itself uses a pool. + */ - void finalize() const; + ///@} - void dump(std::ostream & os) const; + template + Annotation const & annotation() const; ///< Get packet annotation + /**< \see annotation() */ + + ///\name Other methods + ///@{ + + bool operator==(Packet const & other) const; ///< Check for packet identity + /**< Two packet handles compare equal if they really are the + same packet header in the same packet chain. */ + bool boolean_test() const; ///< Check, whether the packet is valid() + /**< \see valid() */ + bool valid() const; ///< Check, whether the packet is valid() + /**< An in - valid() packet does not allow any operation + except checking for validity and assignment. in - + valid() packets serve the same role as 0-pointers. + + This is an alias for boolean_test() which is called + when using a packet in a boolean context. */ + + void finalizeThis(); ///< Update calculated fields + /**< The finalize() fammily of members will update + calculated packet fields: checksums, size fields and so + on. This includes any field, which can be set from + other information in the packet. Each concrete packet + type should document, which fields are set by + finalize(). + + finalizeThis() will \e only process the current + header. Even if only changing fields in this protocol, + depending on the protocol it may not be enough to + finalize this header only. See the packet type + documentation. */ + + template + void finalizeTo(); ///< Update calculated fields + /**< The finalize() fammily of members will update + calculated packet fields: checksums, size fields and so + on. This includes any field, which can be set from + other information in the packet. Each concrete packet + type should document, which fields are set by + finalize(). + + finalizeTo() will automatically process all + packets/headers/interpreters from the \e first + occurrence of packet type \a Other (beginning at \c + this packet searching forward towards deeper nested + packets) backwards up to \c this. + + This call is equivalent to + \code + p.finalizeTo(p.next()) + \endcode */ + + void finalizeTo(Packet const & other); ///< Update calculated fields + /**< The finalize() fammily of members will update + calculated packet fields: checksums, size fields and so + on. This includes any field, which can be set from + other information in the packet. Each concrete packet + type should document, which fields are set by + finalize(). + + finalizeTo(other) will automatically process all + packets/headers/interpreters beginning at \a other + backwards towards outer packets up to \c this. */ + + void finalizeAll(); ///< Update calculated fields + /**< The finalize() fammily of members will update + calculated packet fields: checksums, size fields and so + on. This includes any field, which can be set from + other information in the packet. Each concrete packet + type should document, which fields are set by + finalize(). + + finalizeAll() will automatically process all + packets/headers/interpreters from the end of the chain + (the most inner packet) backwards up to \c this. + + This call is equivalent to + \code + p.finalizeTo(p.last()) + \endcode + + Beware, that finalizeAll() will \e not finalize any + headers before \c this, it will \e only process inner + headers. */ + + void dump(std::ostream & os) const; ///< Write out a printable packet representation + /**< This method is provided mostly to help debugging packet + problems. Each concrete packet should implement a dump + method writing out all fields of the packet in a + readable representation. dump() will call this member + for each packet/header/interpreter in the chain from \c + this packet up to the end of the chain. */ + + TypeIdValue typeId() const; ///< Get id of \c this packet + /**< This value is used e.g. in the packet registry to + associate packet types with other information. + \returns A type holding the same information as a + type_info object, albeit assignable */ + factory_t factory() const; ///< Return factory instance of \c this packet + /**< The returned factory instance can be used to create new + packets of the given type without knowing the concrete + type of the packet. The value may be stored away for + later use if needed. */ - TypeIdValue typeId() const; - factory_t factory() const; - ///@} protected: @@ -141,15 +498,46 @@ namespace senf { private: Packet checkNext() const; Packet checkLast() const; - + PacketInterpreterBase::ptr packet_; - + template friend class ConcretePacket; + friend class PacketParserBase; }; - /** \brief - */ + /** \brief Protocol specific packet handle + + The ConcretePacket template class extends Packet to provide protocol/packet type specific + aspects. These are packet constructors and access to the parsed packet fields. + + The \c PacketType template argument to ConcretePacket is a protocol specific and internal + policy class which defines the protocol specific behavior. To access a specific type of + packet, the library provides corresponding typedefs of ConcretePacket < \a SomePacketType > + (e.g. \ref EthernetPacket as typedef for \ref ConcretePacket < \ref EthernetPacketType >). + + The new members provided by ConcretePacket over packet are mostly comprised of the packet + constructors. These come in three major flavors: + + \li The create() family of constructors will create completely new packets. + \li The createAfter() family of constructors will create new packets (with new data for the + packet) \e after a given existing packet. + \li The createBefore() family of constructors will create new packets (again with new data) + \e before a given existing packet. + + Whereas create() will create a completely new packet with it's own chain and data storage, + createAfter() and createBefore() extend a packet with additional + headers/interpreters. createAfter() will set the payload of the given packet to the new + packet whereas createBefore() will create a new packet with the existing packet as it's + payload. + + createAfter() differs from Packet::parseNextAs() in that the former creates a new packet \e + replacing any possibly existing data whereas the latter will interpret the already \e + existing data as given by the type argument. + + \see \ref PacketTypeBase for a specification of the interface to be provided by the \a + PacketType policy class. + */ template class ConcretePacket : public Packet @@ -157,9 +545,9 @@ namespace senf { public: /////////////////////////////////////////////////////////////////////////// // Types - + typedef PacketType type; - typedef PacketInterpreter interpreter; + typedef typename PacketType::parser Parser; /////////////////////////////////////////////////////////////////////////// ///\name Structors and default members @@ -170,48 +558,178 @@ namespace senf { // default destructor // no conversion constructors - ConcretePacket(); + ConcretePacket(); ///< Create uninitialized packet handle + /**< An uninitialized handle is not valid(). It does not + allow any operation except assignment and checking for + validity. */ - static factory_t factory(); + static factory_t factory(); ///< Return factory for packets of specific type + /**< This \e static member is like Packet::factory() for a + specific packet of type \a PacketType */ // Create completely new packet - static ConcretePacket create(); - static ConcretePacket create(NoInit_t); - static ConcretePacket create(size_type size); - static ConcretePacket create(size_type size, NoInit_t); + static ConcretePacket create(); ///< Create default initialized packet + /**< The packet will be initialized to it's default empty + state. */ + static ConcretePacket create(senf::NoInit_t); ///< Create uninitialized empty packet + /**< This will create a completely empty and uninitialized + packet with size() == 0. + \param[in] senf::noinit This parameter must always have the + value \c senf::noinit. */ + static ConcretePacket create(size_type size); ///< Create default initialized packet + /**< This member will create a default initialized packet + with the given size. If the size parameter is smaller + than the minimum allowed packet size an exception will + be thrown. + \param[in] size Size of the packet to create in bytes. + \throws TruncatedPacketException if \a size is smaller + than the smallest permissible size for this type of + packet. */ + static ConcretePacket create(size_type size, senf::NoInit_t); + ///< Create uninitialized packet + /**< Creates an uninitialized (all-zero) packet of the exact + given size. + \param[in] size Size of the packet to create in bytes + \param[in] senf::noinit This parameter must always have the + value \c senf::noinit. */ +#ifndef DOXYGEN + template + static ConcretePacket create( + ForwardReadableRange const & range, + typename boost::disable_if< boost::is_integral >::type * = 0); +#else template - static ConcretePacket create(ForwardReadableRange const & range); + static ConcretePacket create(ForwardReadableRange const & range); + ///< Create packet from given data + /**< The packet will be created from a copy of the given + data. The data from the range will be copied directly + into the packet representation. The data will \e not be + validated in any way. + \param[in] range Boost.Range + of data to construct packet from. */ +#endif // Create packet as new packet after a given packet - static ConcretePacket createAfter(Packet packet); - static ConcretePacket createAfter(Packet packet, NoInit_t); - static ConcretePacket createAfter(Packet packet, size_type size); - static ConcretePacket createAfter(Packet packet, size_type size, NoInit_t); + static ConcretePacket createAfter(Packet const & packet); + ///< Create default initialized packet after \a packet + /**< The packet will be initialized to it's default empty + state. It will be appended as next header/interpreter + after \a packet in that packets interpreter chain. + \param[in] packet Packet to append new packet to. */ + static ConcretePacket createAfter(Packet const & packet, senf::NoInit_t); + ///< Create uninitialized empty packet after\a packet + /**< This will create a completely empty and uninitialized + packet with size() == 0. It will be appended + as next header/interpreter after \a packet in that + packets interpreter chain. + \param[in] packet Packet to append new packet to. + \param[in] senf::noinit This parameter must always have the + value \c senf::noinit. */ + static ConcretePacket createAfter(Packet const & packet, size_type size); + ///< Create default initialized packet after \a packet + /**< This member will create a default initialized packet + with the given size. If the size parameter is smaller + than the minimum allowed packet size an exception will + be thrown. It will be appended as next + header/interpreter after \a packet in that packets + interpreter chain. + \param[in] packet Packet to append new packet to. + \param[in] size Size of the packet to create in bytes. + \throws TruncatedPacketException if \a size is smaller + than the smallest permissible size for this type of + packet. */ + static ConcretePacket createAfter(Packet const & packet, size_type size, senf::NoInit_t); + ///< Create uninitialized packet after \a packet + /**< Creates an uninitialized (all-zero) packet of the exact + given size. It will be appended as next + header/interpreter after \a packet in that packets + interpreter chain. + \param[in] packet Packet to append new packet to. + \param[in] size Size of the packet to create in bytes + \param[in] senf::noinit This parameter must always have the + value \c senf::noinit. */ +#ifndef DOXYGEN + template + static ConcretePacket createAfter( + Packet const & packet, + ForwardReadableRange const & range, + typename boost::disable_if< boost::is_integral >::type * = 0); +#else template - static ConcretePacket createAfter(Packet packet, + static ConcretePacket createAfter(Packet const & packet, ForwardReadableRange const & range); + ///< Create packet from given data after \a packet + /**< The packet will be created from a copy of the given + data. The data from the range will be copied directly + into the packet representation. The data will \e not be + validated in any way. It will be appended as next + header/interpreter after \a packet in that packets + interpreter chain. + \param[in] packet Packet to append new packet to. + \param[in] range Boost.Range + of data to construct packet from. */ +#endif // Create packet as new packet (header) before a given packet - static ConcretePacket createBefore(Packet packet); - static ConcretePacket createBefore(Packet packet, NoInit_t); - + static ConcretePacket createBefore(Packet const & packet); + ///< Create default initialized packet before \a packet + /**< The packet will be initialized to it's default empty + state. It will be prepended as previous + header/interpreter before \a packet in that packets + interpreter chain. + \param[in] packet Packet to prepend new packet to. */ + static ConcretePacket createBefore(Packet const & packet, senf::NoInit_t); + ///< Create uninitialized empty packet before \a packet + /**< Creates a completely empty and uninitialized packet. It + will be prepended as previous header/interpreter before + \a packet in that packets interpreter chain. + \param[in] packet Packet to prepend new packet to. */ + // Create a clone of the current packet ConcretePacket clone() const; - + ///@} /////////////////////////////////////////////////////////////////////////// - + // Field access - - typename interpreter::parser * operator->() const; + + struct ParserProxy + { + ParserProxy(Parser const & p) : p_ (p) {} + Parser * operator->() { return &p_; } + Parser p_; + }; + + ParserProxy operator->() const; ///< Access packet fields + /**< This operator allows to access the parsed fields of the + packet using the notation packet->field(). The + fields of the packet are specified by the PacketType's + \c parser member. + + The members are not strictly restricted to simple field + access. The parser class may have any member which is + needed for full packet access (e.g. checksum validation + / recreation ...) + \see \ref packetparser for the parser interface. */ + + Parser parser() const; ///< Access packet field parser directly + /**< Access the parser of the packet. This is the same + object returned by the operator->() operator. The + operator however does not allow to access this object + itself, only it's members. + \see \ref packetparser for the parser interface */ protected: private: + typedef PacketInterpreter interpreter; + ConcretePacket(typename interpreter::ptr packet_); typename interpreter::ptr ptr() const; @@ -220,9 +738,23 @@ namespace senf { friend class PacketInterpreter; }; + /** \brief Generic parser copying + + This operator allows to copy the value of identical parsers. This operation does \e not + depend on the parsers detailed implementation, it will just replace the data bytes of the + target parser with those from the source packet. + */ + template + Parser operator<<(Parser target, ConcretePacket const & packet); + + ///@} + } ///////////////////////////////hh.e//////////////////////////////////////// +#endif +#if !defined(HH_SENF_Packets_Packets__decls_) && !defined(HH_SENF_Packets_Packet_i_) +#define HH_SENF_Packets_Packet_i_ #include "Packet.cci" #include "Packet.ct" #include "Packet.cti" @@ -236,4 +768,6 @@ namespace senf { // indent-tabs-mode: nil // ispell-local-dictionary: "american" // compile-command: "scons -u test" +// comment-column: 40 // End: +