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// -*- C++ -*-
//=============================================================================
/**
* @file Sched_Params.h
*
* $Id$
*
* @author David Levine <levine@cs.wustl.edu>
* @author Carlos O'Ryan <coryan@uci.edu>
*/
//=============================================================================
#ifndef ACE_SCHED_PARAMS_H
#define ACE_SCHED_PARAMS_H
#include /**/ "ace/pre.h"
#include /**/ "ace/ACE_export.h"
#if !defined (ACE_LACKS_PRAGMA_ONCE)
# pragma once
#endif /* ACE_LACKS_PRAGMA_ONCE */
#include "ace/Time_Value.h"
#include "ace/OS_NS_Thread.h"
ACE_BEGIN_VERSIONED_NAMESPACE_DECL
/**
* @class ACE_Sched_Params
*
* @brief Container for scheduling-related parameters.
*
* ACE_Sched_Params are passed via <ACE_OS::sched_params> to the
* OS to specify scheduling parameters. These parameters include
* scheduling policy, such as FIFO (ACE_SCHED_FIFO), round-robin
* (ACE_SCHED_RR), or an implementation-defined "OTHER"
* (ACE_SCHED_OTHER), to which many systems default; priority;
* and a time-slice quantum for round-robin scheduling. A
* "scope" parameter specifies whether the ACE_Sched_Params
* applies to the current process, current lightweight process
* (LWP) (on Solaris), or current thread. Please see the "NOTE"
* below about not all combinations of parameters being legal on
* a particular platform.
* For the case of thread priorities, it is intended that
* <ACE_OS::sched_params> usually be called from <main> before
* any threads have been spawned. If spawned threads inherit
* their parent's priority (I think that's the default behavior
* for all of our platforms), then this sets the default base
* priority. Individual thread priorities can be adjusted as
* usual using <ACE_OS::thr_prio> or via the ACE_Thread
* interface. See the parameter descriptions in the private:
* section below.
* @note This class does not do any checking of parameters. It
* is just a container class. If it is constructed with values
* that are not supported on a platform, the call to
* <ACE_OS::sched_params> will fail by returning -1 with EINVAL
* (available through <ACE_OS::last_error>).
*/
class ACE_Export ACE_Sched_Params
{
// NOTE: Solaris 2.5.x threads in the RT class must set the
// priority of their LWP. The only way to do that through ACE is
// for the RT thread itself to call <ACE_OS::thr_setprio> with
// it's own priority.
// OS Scheduling parameters are complicated and often confusing.
// Many thanks to Thilo Kielmann
// <kielmann@informatik.uni-siegen.de> for his careful review of
// this class design, thoughtful comments, and assistance with
// implementation, especially for PTHREADS platforms. Please
// send any comments or corrections to the ACE developers.
public:
typedef int Policy;
// = Initialization and termination methods.
/// Constructor.
ACE_Sched_Params (const Policy policy,
const ACE_Sched_Priority priority,
const int scope = ACE_SCOPE_THREAD,
const ACE_Time_Value &quantum = ACE_Time_Value::zero);
/// Termination.
~ACE_Sched_Params (void);
// = Get/Set methods:
// = Get/Set policy
Policy policy (void) const;
void policy (const Policy);
// = Get/Set priority.
ACE_Sched_Priority priority (void) const;
void priority (const ACE_Sched_Priority);
// = Get/Set scope.
int scope (void) const;
void scope(const int);
// = Get/Set quantum.
const ACE_Time_Value &quantum (void) const;
void quantum (const ACE_Time_Value &);
// = Accessors for OS-specific priorities.
// These return priority values for ACE_SCHED_OTHER if the Policy value
// is invalid.
static int priority_min (const Policy,
const int scope = ACE_SCOPE_THREAD);
static int priority_max (const Policy,
const int scope = ACE_SCOPE_THREAD);
/**
* The next higher priority. "Higher" refers to scheduling priority,
* not to the priority value itself. (On some platforms, higher scheduling
* priority is indicated by a lower priority value.) If "priority" is
* already the highest priority (for the specified policy), then it is
* returned.
*/
static int next_priority (const Policy,
const int priority,
const int scope = ACE_SCOPE_THREAD);
/**
* The previous, lower priority. "Lower" refers to scheduling priority,
* not to the priority value itself. (On some platforms, lower scheduling
* priority is indicated by a higher priority value.) If "priority" is
* already the lowest priority (for the specified policy), then it is
* returned.
*/
static int previous_priority (const Policy,
const int priority,
const int scope = ACE_SCOPE_THREAD);
private:
/// Scheduling policy.
Policy policy_;
/// Default <priority_>: for setting the priority for the process, LWP,
/// or thread, as indicated by the scope_ parameter.
ACE_Sched_Priority priority_;
/**
* <scope_> must be one of the following:
* ACE_SCOPE_PROCESS: sets the scheduling policy for the
* process, and the process priority. On some platforms,
* such as Win32, the scheduling policy can _only_ be
* set at process scope.
* ACE_SCOPE_LWP: lightweight process scope, only used with
* Solaris threads.
* ACE_SCOPE_THREAD: sets the scheduling policy for the thread,
* if the OS supports it, such as with Posix threads, and the
* thread priority.
* NOTE: I don't think that these are the same as POSIX
* contention scope. POSIX users who are interested in,
* and understand, contention scope will have to set it
* by using system calls outside of ACE.
*/
int scope_;
/**
* The <quantum_> is for time slicing. An ACE_Time_Value of 0 has
* special significance: it means time-slicing is disabled; with
* that, a thread that is running on a CPU will continue to run
* until it blocks or is preempted. Currently ignored if the OS
* doesn't directly support time slicing, such as on VxWorks, or
* setting the quantum (can that be done on Win32?).
*/
ACE_Time_Value quantum_;
};
/**
* @class ACE_Sched_Priority_Iterator
*
* @brief An iterator over the OS-defined scheduling priorities.
*
* The order of priorities (numeric value vs. importance) is OS
* dependant, it can be the case that the priorities are not even
* contigous. This class permits iteration over priorities using
* the iterator pattern.
*/
class ACE_Export ACE_Sched_Priority_Iterator
{
public:
/// Initialize the iterator, the arguments define the scheduling
/// policy and scope for the priorities (see ACE_Sched_Param).
ACE_Sched_Priority_Iterator (const ACE_Sched_Params::Policy &policy,
int scope = ACE_SCOPE_THREAD);
/// Default dtor.
~ACE_Sched_Priority_Iterator (void);
/// Check if there are more priorities.
int more (void) const;
/// Return the current priority.
int priority (void) const;
/// Move to the next priority.
/// The iteration is from lowest to highest importance.
void next (void);
/// Accessor for the scheduling policy over which we are iterating.
const ACE_Sched_Params::Policy &policy (void) const;
/// Accessor for the scheduling
int scope (void) const;
private:
/// The Scheduling policy (FIFO, RR, etc.) and scheduling scope
/// (PROCESS, SYSTEM) we are iterating on.
ACE_Sched_Params::Policy policy_;
int scope_;
/// The current priority.
int priority_;
/**
* This is set to 1 when there are no more priorities. Cannot easily
* compare against the highest priority on platforms were priorities
* are non-contigous or descending.
*/
int done_;
};
ACE_END_VERSIONED_NAMESPACE_DECL
#if defined (__ACE_INLINE__)
#include "ace/Sched_Params.inl"
#endif /* __ACE_INLINE__ */
#include /**/ "ace/post.h"
#endif /* ACE_SCHED_PARAMS_H */
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