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/* -*- C++ -*- */
//=============================================================================
/**
* @file Timer_Queue_T.h
*
* $Id$
*
* @author Doug Schmidt <schmidt@cs.wustl.edu>
* @author Irfan Pyarali <irfan@cs.wustl.edu> and
* @author Darrell Brunsch <brunsch@cs.wustl.edu>
*/
//=============================================================================
#ifndef ACE_TIMER_QUEUE_T_H
#define ACE_TIMER_QUEUE_T_H
#include /**/ "ace/pre.h"
#include "ace/Free_List.h"
#if !defined (ACE_LACKS_PRAGMA_ONCE)
# pragma once
#endif /* ACE_LACKS_PRAGMA_ONCE */
#include "ace/Event_Handler.h"
#include "ace/Time_Value.h"
/**
* @class ACE_Timer_Node_Dispatch_Info_T
*
* @brief Maintains generated dispatch information for Timer nodes.
*
*/
template <class TYPE>
class ACE_Timer_Node_Dispatch_Info_T
{
public:
/// The type of object held in the queue
TYPE type_;
/// Asynchronous completion token associated with the timer.
const void *act_;
/// Flag to check if the timer is recurring.
int recurring_timer_;
};
/**
* @class ACE_Timer_Node_T
*
* @brief Maintains the state associated with a Timer entry.
*/
template <class TYPE>
class ACE_Timer_Node_T
{
public:
/// Default constructor
ACE_Timer_Node_T (void);
/// Destructor
~ACE_Timer_Node_T (void);
/// Useful typedef ..
typedef ACE_Timer_Node_Dispatch_Info_T <TYPE> DISPATCH_INFO;
/// Singly linked list
void set (const TYPE &type,
const void *a,
const ACE_Time_Value &t,
const ACE_Time_Value &i,
ACE_Timer_Node_T<TYPE> *n,
long timer_id);
/// Doubly linked list version
void set (const TYPE &type,
const void *a,
const ACE_Time_Value &t,
const ACE_Time_Value &i,
ACE_Timer_Node_T<TYPE> *p,
ACE_Timer_Node_T<TYPE> *n,
long timer_id);
// = Accessors
/// Get the type.
TYPE &get_type (void);
/// Set the type.
void set_type (TYPE &type);
/// Get the asynchronous completion token.
const void *get_act (void);
/// Set the asynchronous completion token.
void set_act (void *act);
/// Get the timer value.
const ACE_Time_Value &get_timer_value (void) const;
/// Set the timer value.
void set_timer_value (const ACE_Time_Value &timer_value);
/// Get the timer interval.
const ACE_Time_Value &get_interval (void) const;
/// Set the timer interval.
void set_interval (const ACE_Time_Value &interval);
/// Get the previous pointer.
ACE_Timer_Node_T<TYPE> *get_prev (void);
/// Set the previous pointer.
void set_prev (ACE_Timer_Node_T<TYPE> *prev);
/// Get the next pointer.
ACE_Timer_Node_T<TYPE> *get_next (void);
/// Set the next pointer.
void set_next (ACE_Timer_Node_T<TYPE> *next);
/// Get the timer_id.
long get_timer_id (void) const;
/// Set the timer_id.
void set_timer_id (long timer_id);
/// Get the dispatch info. The dispatch information is got
/// through <info>. This form helps us in preventing allocation and
/// deleting data along the criticl path.
/// @@TODO: We may want to have a copying version too, so that our
/// interface will be complete..
void get_dispatch_info (ACE_Timer_Node_Dispatch_Info_T <TYPE> &info);
/// Dump the state of an TYPE.
void dump (void) const;
private:
/// Type of object stored in the Queue
TYPE type_;
/// Asynchronous completion token associated with the timer.
const void *act_;
/// Time until the timer expires.
ACE_Time_Value timer_value_;
/// If this is a periodic timer this holds the time until the next
/// timeout.
ACE_Time_Value interval_;
/// Pointer to previous timer.
ACE_Timer_Node_T<TYPE> *prev_;
/// Pointer to next timer.
ACE_Timer_Node_T<TYPE> *next_;
/// Id of this timer (used to cancel timers before they expire).
long timer_id_;
};
/**
* @class ACE_Timer_Queue_Iterator_T
*
* @brief Generic interface for iterating over a subclass of
* <ACE_Timer_Queue>.
*
* This is a generic iterator that can be used to visit every
* node of a timer queue. Be aware that it isn't guaranteed
* that the transversal will be in order of timeout values.
*/
template <class TYPE, class FUNCTOR, class ACE_LOCK>
class ACE_Timer_Queue_Iterator_T
{
public:
// = Initialization and termination methods.
/// Constructor.
ACE_Timer_Queue_Iterator_T (void);
/// Destructor.
virtual ~ACE_Timer_Queue_Iterator_T (void);
/// Positions the iterator at the earliest node in the Timer Queue
virtual void first (void) = 0;
/// Positions the iterator at the next node in the Timer Queue
virtual void next (void) = 0;
/// Returns true when there are no more nodes in the sequence
virtual int isdone (void) const = 0;
/// Returns the node at the current position in the sequence
virtual ACE_Timer_Node_T<TYPE> *item (void) = 0;
};
/**
* @class ACE_Timer_Queue_T
*
* @brief Provides an interface to timers.
*
* This is an abstract base class that provides hook for
* implementing specialized policies such as <ACE_Timer_List>
* and <ACE_Timer_Heap>.
*/
template <class TYPE, class FUNCTOR, class ACE_LOCK>
class ACE_Timer_Queue_T
{
public:
/// Type of Iterator.
typedef ACE_Timer_Queue_Iterator_T<TYPE, FUNCTOR, ACE_LOCK> ITERATOR;
// = Initialization and termination methods.
/**
* Default constructor. <upcall_functor> is the instance of the
* FUNCTOR to be used by the queue. If <upcall_functor> is 0, Timer
* Queue will create a default FUNCTOR. <freelist> the freelist of
* timer nodes. If 0, then a default freelist will be created.
*/
ACE_Timer_Queue_T (FUNCTOR *upcall_functor = 0,
ACE_Free_List<ACE_Timer_Node_T <TYPE> > *freelist = 0);
/// Destructor - make virtual for proper destruction of inherited
/// classes.
virtual ~ACE_Timer_Queue_T (void);
/// True if queue is empty, else false.
virtual int is_empty (void) const = 0;
/// Returns the time of the earlier node in the Timer_Queue. Must
/// be called on a non-empty queue.
virtual const ACE_Time_Value &earliest_time (void) const = 0;
/**
* Schedule <type> that will expire at <future_time>, which is
* specified in absolute time. If it expires then <act> is passed
* in as the value to the <functor>. If <interval> is != to
* <ACE_Time_Value::zero> then it is used to reschedule the <type>
* automatically, using relative time to the current <gettimeofday>.
* This method returns a <timer_id> that uniquely identifies the the
* <type> entry in an internal list. This <timer_id> can be used to
* cancel the timer before it expires. The cancellation ensures
* that <timer_ids> are unique up to values of greater than 2
* billion timers. As long as timers don't stay around longer than
* this there should be no problems with accidentally deleting the
* wrong timer. Returns -1 on failure (which is guaranteed never to
* be a valid <timer_id>).
*/
virtual long schedule (const TYPE &type,
const void *act,
const ACE_Time_Value &future_time,
const ACE_Time_Value &interval = ACE_Time_Value::zero);
/**
* Resets the interval of the timer represented by <timer_id> to
* <interval>, which is specified in relative time to the current
* <gettimeofday>. If <interval> is equal to
* <ACE_Time_Value::zero>, the timer will become a non-rescheduling
* timer. Returns 0 if successful, -1 if not.
*/
virtual int reset_interval (long timer_id,
const ACE_Time_Value &interval) = 0;
/**
* Cancel all timer associated with <type>. If
* <dont_call_handle_close> is 0 then the <functor> will be invoked,
* which typically invokes the <handle_close> hook. Returns number
* of timers cancelled.
*/
virtual int cancel (const TYPE &type,
int dont_call_handle_close = 1) = 0;
/**
* Cancel the single timer that matches the <timer_id> value (which
* was returned from the <schedule> method). If act is non-NULL
* then it will be set to point to the ``magic cookie'' argument
* passed in when the timer was registered. This makes it possible
* to free up the memory and avoid memory leaks. If
* <dont_call_handle_close> is 0 then the <functor> will be invoked,
* which typically calls the <handle_close> hook. Returns 1 if
* cancellation succeeded and 0 if the <timer_id> wasn't found.
*/
virtual int cancel (long timer_id,
const void **act = 0,
int dont_call_handle_close = 1) = 0;
/**
* Run the <functor> for all timers whose values are <= <cur_time>.
* This does not account for <timer_skew>. Returns the number of
* timers canceled.
*/
virtual int expire (const ACE_Time_Value ¤t_time);
/**
* Get the dispatch information for a timer whose value is <= <cur_time>.
* This does not account for <timer_skew>. Returns 1 if
* there is a node whose value <= <cur_time> else returns a 0.
*
*/
virtual int dispatch_info (const ACE_Time_Value ¤t_time,
ACE_Timer_Node_Dispatch_Info_T<TYPE> &info);
/**
* Run the <functor> for all timers whose values are <=
* <ACE_OS::gettimeofday>. Also accounts for <timer_skew>.
*
* Depending on the resolution of the underlying OS the system calls
* like select()/poll() might return at time different than that is
* specified in the timeout. Suppose the OS guarantees a resolution of t ms.
* The timeline will look like
*
* A B
* | |
* V V
* |-------------|-------------|-------------|-------------|
* t t t t t
*
*
* If you specify a timeout value of A, then the timeout will not occur
* at A but at the next interval of the timer, which is later than
* that is expected. Similarly, if your timeout value is equal to B,
* then the timeout will occur at interval after B. Now depending upon the
* resolution of your timeouts and the accuracy of the timeouts
* needed for your application, you should set the value of
* <timer_skew>. In the above case, if you want the timeout A to fire
* no later than A, then you should specify your <timer_skew> to be
* A % t.
*
* The timeout value should be specified via the macro ACE_TIMER_SKEW
* in your config.h file. The default value is zero.
*
* Things get interesting if the t before the timeout value B is zero
* i.e your timeout is less than the interval. In that case, you are
* almost sure of not getting the desired timeout behaviour. Maybe you
* should look for a better OS :-)
*
* Returns the number of timers canceled.
*/
/* virtual */ int expire (void);
/**
* Returns the current time of day. This method allows different
* implementations of the timer queue to use special high resolution
* timers.
*/
/* virtual */ ACE_Time_Value gettimeofday (void);
/// Allows applications to control how the timer queue gets the time
/// of day.
void gettimeofday (ACE_Time_Value (*gettimeofday)(void));
/// Determine the next event to timeout. Returns <max> if there are
/// no pending timers or if all pending timers are longer than max.
/// This method acquires a lock internally since it modifies internal state.
virtual ACE_Time_Value *calculate_timeout (ACE_Time_Value *max);
/**
* Determine the next event to timeout. Returns <max> if there are
* no pending timers or if all pending timers are longer than max.
* <the_timeout> should be a pointer to storage for the timeout value,
* and this value is also returned. This method does not acquire a
* lock internally since it doesn't modify internal state. If you
* need to call this method when the queue is being modified
* concurrently, however, you should make sure to acquire the <mutex()>
* externally before making the call.
*/
virtual ACE_Time_Value *calculate_timeout (ACE_Time_Value *max,
ACE_Time_Value *the_timeout);
/// Set the timer skew for the Timer_Queue.
void timer_skew (const ACE_Time_Value &skew);
/// Get the timer skew for the Timer_Queue.
const ACE_Time_Value &timer_skew (void) const;
/// Synchronization variable used by the queue
ACE_LOCK &mutex (void);
/// Accessor to the upcall functor
FUNCTOR &upcall_functor (void);
/// Returns a pointer to this <ACE_Timer_Queue>'s iterator.
virtual ITERATOR &iter (void) = 0;
/// Removes the earliest node from the queue and returns it
virtual ACE_Timer_Node_T<TYPE> *remove_first (void) = 0;
/// Dump the state of a object.
virtual void dump (void) const;
/// Reads the earliest node from the queue and returns it.
virtual ACE_Timer_Node_T<TYPE> *get_first (void) = 0;
/// Method used to return a timer node to the queue's ownership
/// after it is returned by a method like <remove_first>.
virtual void return_node (ACE_Timer_Node_T<TYPE> *);
/// This method will call the preinvoke() on <functor>.
void preinvoke (ACE_Timer_Node_Dispatch_Info_T<TYPE> &info,
const ACE_Time_Value &cur_time,
const void *&upcall_act);
/// This method will call the timeout() on <functor>.
void upcall (ACE_Timer_Node_Dispatch_Info_T<TYPE> &info,
const ACE_Time_Value &cur_time);
/// This method will call the postinvoke() on <functor>.
void postinvoke (ACE_Timer_Node_Dispatch_Info_T<TYPE> &info,
const ACE_Time_Value &cur_time,
const void *upcall_act);
protected:
/// Schedule a timer.
virtual long schedule_i (const TYPE &type,
const void *act,
const ACE_Time_Value &future_time,
const ACE_Time_Value &interval) = 0;
/// Reschedule an "interval" <ACE_Timer_Node>.
virtual void reschedule (ACE_Timer_Node_T<TYPE> *) = 0;
/// Factory method that allocates a new node.
virtual ACE_Timer_Node_T<TYPE> *alloc_node (void);
/// Factory method that frees a previously allocated node.
virtual void free_node (ACE_Timer_Node_T<TYPE> *);
/// Non-locking version of dispatch_info ()
virtual int dispatch_info_i (const ACE_Time_Value ¤t_time,
ACE_Timer_Node_Dispatch_Info_T<TYPE> &info);
/// Synchronization variable for <ACE_Timer_Queue>.
/// NOTE: the right name would be lock_, but HP/C++ will choke on that!
ACE_LOCK mutex_;
/// Class that implements a free list
ACE_Free_List<ACE_Timer_Node_T<TYPE> > *free_list_;
/// Pointer to function that returns the current time of day.
ACE_Time_Value (*gettimeofday_)(void);
/// Upcall functor
FUNCTOR *upcall_functor_;
/// To delete or not to delete is the question?
int delete_upcall_functor_;
/// Flag to delete only if the class created the <free_list_>
int delete_free_list_;
private:
/// Returned by <calculate_timeout>.
ACE_Time_Value timeout_;
/// Adjusts for timer skew in various clocks.
ACE_Time_Value timer_skew_;
// = Don't allow these operations for now.
ACE_UNIMPLEMENTED_FUNC (ACE_Timer_Queue_T (const ACE_Timer_Queue_T<TYPE, FUNCTOR, ACE_LOCK> &))
ACE_UNIMPLEMENTED_FUNC (void operator= (const ACE_Timer_Queue_T<TYPE, FUNCTOR, ACE_LOCK> &))
};
/**
* @class ACE_Event_Handler_Handle_Timeout_Upcall
*
* @brief Functor for Timer_Queues.
*
* This class implements the functor required by the Timer
* Queue to call <handle_timeout> on ACE_Event_Handlers.
*/
template <class ACE_LOCK>
class ACE_Event_Handler_Handle_Timeout_Upcall
{
public:
typedef ACE_Timer_Queue_T<ACE_Event_Handler *,
ACE_Event_Handler_Handle_Timeout_Upcall<ACE_LOCK>,
ACE_LOCK>
TIMER_QUEUE;
// = Initialization and termination methods.
/// Constructor.
ACE_Event_Handler_Handle_Timeout_Upcall (void);
/// Destructor.
~ACE_Event_Handler_Handle_Timeout_Upcall (void);
/// This method is called when a timer is registered.
int registration (TIMER_QUEUE &timer_queue,
ACE_Event_Handler *handler,
const void *arg);
/// This method is called before the timer expires.
int preinvoke (TIMER_QUEUE &timer_queue,
ACE_Event_Handler *handler,
const void *arg,
int recurring_timer,
const ACE_Time_Value &cur_time,
const void *&upcall_act);
/// This method is called when the timer expires.
int timeout (TIMER_QUEUE &timer_queue,
ACE_Event_Handler *handler,
const void *arg,
int recurring_timer,
const ACE_Time_Value &cur_time);
/// This method is called after the timer expires.
int postinvoke (TIMER_QUEUE &timer_queue,
ACE_Event_Handler *handler,
const void *arg,
int recurring_timer,
const ACE_Time_Value &cur_time,
const void *upcall_act);
/// This method is called when a handler is cancelled
int cancel_type (TIMER_QUEUE &timer_queue,
ACE_Event_Handler *handler,
int dont_call,
int &requires_reference_counting);
/// This method is called when a timer is cancelled
int cancel_timer (TIMER_QUEUE &timer_queue,
ACE_Event_Handler *handler,
int dont_call,
int requires_reference_counting);
/// This method is called when the timer queue is destroyed and
/// the timer is still contained in it
int deletion (TIMER_QUEUE &timer_queue,
ACE_Event_Handler *handler,
const void *arg);
private:
/// Flag indicating that reference counting is required for this
/// event handler upcall.
int requires_reference_counting_;
// = Don't allow these operations for now.
ACE_UNIMPLEMENTED_FUNC (ACE_Event_Handler_Handle_Timeout_Upcall (const ACE_Event_Handler_Handle_Timeout_Upcall<ACE_LOCK> &))
ACE_UNIMPLEMENTED_FUNC (void operator= (const ACE_Event_Handler_Handle_Timeout_Upcall<ACE_LOCK> &))
};
#if defined (__ACE_INLINE__)
#include "ace/Timer_Queue_T.inl"
#endif /* __ACE_INLINE__ */
#if defined (ACE_TEMPLATES_REQUIRE_SOURCE) && !defined (ACE_HAS_BROKEN_HPUX_TEMPLATES)
#include "ace/Timer_Queue_T.cpp"
#endif /* ACE_TEMPLATES_REQUIRE_SOURCE && !ACE_HAS_BROKEN_HPUX_TEMPLATES */
#if defined (ACE_TEMPLATES_REQUIRE_PRAGMA)
#pragma implementation ("Timer_Queue_T.cpp")
#endif /* ACE_TEMPLATES_REQUIRE_PRAGMA */
#include /**/ "ace/post.h"
#endif /* ACE_TIMER_QUEUE_T_H */
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