-// 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 <g0dil@berlios.de>
//
// This program is free software; you can redistribute it and/or modify
// Custom includes
#include <boost/operators.hpp>
-#include "Utils/Exception.hh"
-#include "Utils/SafeBool.hh"
+#include "../Utils/Exception.hh"
+#include "../Utils/Tags.hh"
+#include "../Utils/safe_bool.hh"
#include "PacketInterpreter.hh"
//#include "Packet.mpp"
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 PackeType> 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<Packet>,
+ : public safe_bool<Packet>,
public boost::equality_comparable<Packet>
{
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
// 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 <class PacketType>
- Packet(ConcretePacket<PacketType> packet);
+ template <class PacketType>
+ Packet(ConcretePacket<PacketType> packet); ///< Copy-construct Packet from ConcretePacket
+ /**< This constructor allows to convert an arbitrary
+ ConcretePacket into a general Packet, loosing the
+ protocol specific interface. */
///@}
///////////////////////////////////////////////////////////////////////////
///\name Interpreter chain access
///@{
- Packet next() const;
- template <class OtherPacket> OtherPacket next() const;
- template <class OtherPacket> OtherPacket next(NoThrow_t) const;
- template <class OtherPacket> OtherPacket findNext() const;
- template <class OtherPacket> OtherPacket findNext(NoThrow_t) 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 <class OtherPacket> 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 <class OtherPacket> 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 <class OtherPacket> 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 <class OtherPacket> 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 <class OtherPacket> 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 <class OtherPacket> 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 <class OtherPacket> 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 <class OtherPacket> 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 prev() const;
- template <class OtherPacket> OtherPacket prev() const;
- template <class OtherPacket> OtherPacket prev(NoThrow_t) const;
- template <class OtherPacket> OtherPacket findPrev() const;
- template <class OtherPacket> OtherPacket findPrev(NoThrow_t) const;
Packet first() const;
+ ///< Return first packet in chain
template <class OtherPacket> OtherPacket first() const;
- template <class OtherPacket> 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;
+ ///< Return last packet in chain
template <class OtherPacket> OtherPacket last() const;
- template <class OtherPacket> 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 <class OtherPacket> OtherPacket parseNextAs() 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. */
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. */
+
template <class OtherPacket> bool is() const;
+ ///< Check, whether \c this packet is of the given type
template <class OtherPacket> 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 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
///@{
- bool operator==(Packet other) const;
- bool boolean_test() const;
-
- void finalize() const;
-
- void dump(std::ostream & os) const;
-
- TypeIdValue typeId() const;
- factory_t factory() const;
+ bool operator==(Packet 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 finalize() const; ///< Update calculated fields
+ /**< This call will update all calculated fields of the
+ packet after it has been created or changed. This
+ includes checksums, payload size fields or other
+ fields, which can be set from other information in the
+ packet. Each concrete packet type should document,
+ which fields are set by finalize().
+
+ finalize() will automatically process all
+ packets/headers/interpreters from the end of the chain
+ backwards up to \c this. */
+
+ 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. */
///@}
template <class PacketType>
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 PacketType>
class ConcretePacket
// Types
typedef PacketType type;
- typedef PacketInterpreter<PacketType> interpreter;
+ typedef typename PacketType::parser Parser;
///////////////////////////////////////////////////////////////////////////
///\name Structors and default members
// 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 <tt>size() == 0</tt>.
+ \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. */
template <class ForwardReadableRange>
- 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 <a
+ href="http://www.boost.org/libs/range/index.html">Boost.Range</a>
+ of data to construct packet from. */
// 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);
+ ///< 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 packet, senf::NoInit_t);
+ ///< Create uninitialized empty packet after\a packet
+ /**< This will create a completely empty and uninitialized
+ packet with <tt>size() == 0</tt>. 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 packet, size_type size);
- static ConcretePacket createAfter(Packet packet, size_type size, NoInit_t);
+ ///< 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 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. */
template <class ForwardReadableRange>
static ConcretePacket createAfter(Packet 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 <a
+ href="http://www.boost.org/libs/range/index.html">Boost.Range</a>
+ of data to construct packet from. */
// 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 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 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;
+ Parser * operator->() const; ///< Access packet fields
+ /**< This operator allows to access the parsed fields of the
+ packet using the notation <tt>packet->field()</tt>. 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<PacketType> interpreter;
+
ConcretePacket(typename interpreter::ptr packet_);
typename interpreter::ptr ptr() const;
friend class PacketInterpreter<PacketType>;
};
+ ///@}
+
}
///////////////////////////////hh.e////////////////////////////////////////
+#endif
+#if !defined(HH_Packets__decls_) && !defined(HH_Packet_i_)
+#define HH_Packet_i_
#include "Packet.cci"
#include "Packet.ct"
#include "Packet.cti"
// compile-command: "scons -u test"
// comment-column: 40
// End:
+