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// -*- C++ -*-
//=============================================================================
/**
* @file Queued_Message.h
*
* $Id$
*
* @author Carlos O'Ryan <coryan@uci.edu>
*/
//=============================================================================
#ifndef TAO_QUEUED_MESSAGE_H
#define TAO_QUEUED_MESSAGE_H
#include "ace/pre.h"
#include "corbafwd.h"
#include "LF_Event.h"
#if !defined (ACE_LACKS_PRAGMA_ONCE)
# pragma once
#endif /* ACE_LACKS_PRAGMA_ONCE */
class ACE_Message_Block;
/**
* @class TAO_Queued_Message
*
* @brief Represent messages queued in the outgoing data path of the
* TAO_Transport class.
*
* Please read the documentation in the TAO_Transport class to find
* out more about the design of the outgoing data path.
*
* In some configurations TAO needs to maintain a per-connection queue
* of outgoing messages. This queue is drained by the pluggable
* protocols framework, normally under control of the ACE_Reactor, but
* other configurations are conceivable. The elements in the queue
* may may removed early, for example, because the application can
* specify timeouts for each message, or because the underlying
* connection is broken.
*
* In many cases the message corresponds to some application request,
* the application may be blocked waiting for the request to be sent,
* even more importantlyl, the ORB can be configured to use the
* Leader/Followers strategy, in which case one of the waiting threads
* can be required to wake up before its message completes
* each message may contain a 'Sent_Notifier'
*
* <H4>NOTE:</H4> The contents of the ACE_Message_Block may have been
* allocated from TSS storage, in that case we cannot steal them.
* However, we do not need to perform a deep copy all the time, for
* example, in a twoway request the sending thread blocks until the
* data goes out. The queued message can borrow the memory as it will
* be deallocated by the sending thread when it finishes.
* Oneways and asynchronous calls are another story.
*
* @todo: Change the ORB to allocate oneway and AMI buffer from global
* memory, to avoid the data copy in this path. What happens
* if the there is no queueing? Can we check that before
* allocating the memory?
*
*/
class TAO_Export TAO_Queued_Message : public TAO_LF_Event
{
public:
/// Constructor
TAO_Queued_Message (void);
/// Destructor
virtual ~TAO_Queued_Message (void);
/** @name Intrusive list manipulation
*
* The messages are put in a doubled linked list (for easy insertion
* and removal). To minimize memory allocations the list is
* intrusive, i.e. each element in the list contains the pointers
* for the next and previous element.
*
* The following methods are used to manipulate this implicit list.
*
* @todo: We should implement this as a base template, something
* like:<BR>
* template<class T> Intrusive_Node {<BR>
* public:<BR><BR>
* void next (T *);<BR>
* T* next () const;<BR><BR>
* private:<BR>
* T* next_;<BR>
* };<BR>
* and use it as follows:<BR>
* class TAO_Queued_Message : public Intrusive_Node<TAO_Queued_Message><BR>
* {<BR>
* };<BR>
*
*/
//@{
/// Set/get the next element in the list
virtual TAO_Queued_Message *next (void) const;
/// Set/get the previous element in the list
virtual TAO_Queued_Message *prev (void) const;
/// Remove this element from the list
virtual void remove_from_list (TAO_Queued_Message *&head,
TAO_Queued_Message *&tail);
/// Insert the current element at the tail of the queue.
virtual void push_back (TAO_Queued_Message *&head,
TAO_Queued_Message *&tail);
/// Insert the current element at the head of the queue.
virtual void push_front (TAO_Queued_Message *&head,
TAO_Queued_Message *&tail);
//@}
/** @name Template Methods
*/
//@{
/// Return the length of the message
/**
* If the message has been partially sent it returns the number of
* bytes that are still not sent.
*/
virtual size_t message_length (void) const = 0;
/// Return 1 if all the data has been sent
virtual int all_data_sent (void) const = 0;
/// Fill up an io vector using the connects of the message
/**
* Different versions of this class represent the message using
* either a single buffer, or a message block.
* This method allows a derived class to fill up the contents of an
* io vector, the TAO_Transport class uses this method to group as
* many messages as possible in an iovector before sending them to
* the OS I/O subsystem.
*
* @param iovcnt_max The number of elements in iov
* @param iovcnt The number of elements already used by iov, this
* method should update this counter
* @param iov The io vector
*/
virtual void fill_iov (int iovcnt_max, int &iovcnt, iovec iov[]) const = 0;
/// Update the internal state, data has been sent.
/**
* After the TAO_Transport class completes a successful (or
* partially successful) I/O operation it must update the state of
* all the messages queued. This callback method is used by each
* message to update its state and determine if all the data has
* been sent already.
*
* @param byte_count The number of bytes succesfully sent. The
* TAO_Queued_Message should decrement this value
* by the number of bytes that must still be sent.
* @return Returns 1 if the TAO_Queued_Message has any more data to
* send.
*/
virtual void bytes_transferred (size_t &byte_count) = 0;
/// Reclaim resources
/**
* Reliable messages are allocated from the stack, thus they do not
* be deallocated.
* Asynchronous (SYNC_NONE) messages are allocated from the heap (or
* a pool), they need to be reclaimed explicitly.
*/
virtual void destroy (void) = 0;
//@}
private:
/// Implement an intrusive double-linked list for the message queue
TAO_Queued_Message *next_;
TAO_Queued_Message *prev_;
};
#if defined (__ACE_INLINE__)
# include "Queued_Message.inl"
#endif /* __ACE_INLINE__ */
#include "ace/post.h"
#endif /* TAO_QUEUED_MESSAGE_H */
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