/***************************************************************************
* Copyright (C) 2010, 2011 by Terraneo Federico *
* *
* This program is free software; you can redistribute it and/or modify *
* it under the terms of the GNU General Public License as published by *
* the Free Software Foundation; either version 2 of the License, or *
* (at your option) any later version. *
* *
* This program is distributed in the hope that it will be useful, *
* but WITHOUT ANY WARRANTY; without even the implied warranty of *
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the *
* GNU General Public License for more details. *
* *
* As a special exception, if other files instantiate templates or use *
* macros or inline functions from this file, or you compile this file *
* and link it with other works to produce a work based on this file, *
* this file does not by itself cause the resulting work to be covered *
* by the GNU General Public License. However the source code for this *
* file must still be made available in accordance with the GNU General *
* Public License. This exception does not invalidate any other reasons *
* why a work based on this file might be covered by the GNU General *
* Public License. *
* *
* You should have received a copy of the GNU General Public License *
* along with this program; if not, see *
***************************************************************************/
#ifndef SCHEDULER_H
#define SCHEDULER_H
#include "config/miosix_settings.h"
#include "kernel/scheduler/priority/priority_scheduler.h"
#include "kernel/scheduler/control/control_scheduler.h"
#include "kernel/scheduler/edf/edf_scheduler.h"
namespace miosix {
class Thread; //Forward declaration
/**
* \internal
* This class is the common interface between the kernel and the scheduling
* algorithms.
* Dispatching of the calls to the implementation is done using templates
* instead of inheritance and virtual functions beacause the scheduler
* implementation is chosen at compile time.
*/
template
class basic_scheduler
{
public:
/**
* \internal
* Add a new thread to the scheduler.
* \param thread a pointer to a valid thread instance.
* The behaviour is undefined if a thread is added multiple timed to the
* scheduler, or if thread is NULL.
* \param priority the priority of the new thread.
* Priority must be a positive value.
* Note that the meaning of priority is scheduler specific.
* \return false if an error occurred and the thread could not be added to
* the scheduler
*
* Note: this member function is called also before the kernel is started
* to add the main and idle thread.
*/
static bool PKaddThread(Thread *thread, Priority priority)
{
return T::PKaddThread(thread,priority);
}
/**
* \internal
* \return true if thread exists, false if does not exist or has been
* deleted. A joinable thread is considered existing until it has been
* joined, even if it returns from its entry point (unless it is detached
* and terminates).
*
* Can be called both with the kernel paused and with interrupts disabled.
*/
static bool PKexists(Thread *thread)
{
return T::PKexists(thread);
}
/**
* \internal
* Called when there is at least one dead thread to be removed from the
* scheduler
*/
static void PKremoveDeadThreads()
{
T::PKremoveDeadThreads();
}
/**
* \internal
* Set the priority of a thread.
* Note that the meaning of priority is scheduler specific.
* \param thread thread whose priority needs to be changed.
* \param newPriority new thread priority.
* Priority must be a positive value.
*/
static void PKsetPriority(Thread *thread, Priority newPriority)
{
T::PKsetPriority(thread,newPriority);
}
/**
* \internal
* Get the priority of a thread.
* Note that the meaning of priority is scheduler specific.
* \param thread thread whose priority needs to be queried.
* \return the priority of thread.
*/
static Priority getPriority(Thread *thread)
{
return T::getPriority(thread);
}
/**
* \internal
* Same as getPriority, but meant to be called with interrupts disabled.
* \param thread thread whose priority needs to be queried.
* \return the priority of thread.
*/
static Priority IRQgetPriority(Thread *thread)
{
return T::IRQgetPriority(thread);
}
/**
* \internal
* This is called before the kernel is started to by the kernel. The given
* thread is the idle thread, to be run all the times where no other thread
* can run.
*/
static void IRQsetIdleThread(Thread *idleThread)
{
return T::IRQsetIdleThread(idleThread);
}
/**
* \internal
* This member function is called by the kernel every time a thread changes
* its running status. For example when a thread become sleeping, waiting,
* deleted or if it exits the sleeping or waiting status
*/
static void IRQwaitStatusHook()
{
T::IRQwaitStatusHook();
}
/**
* This function is used to develop interrupt driven peripheral drivers.
* Can be used ONLY inside an IRQ (and not when interrupts are disabled) to
* find next thread in READY status. If the kernel is paused, does nothing.
* Can be used for example if an IRQ causes a higher priority thread to be
* woken, to change context. Note that to use this function the IRQ must
* use the macros to save/restore context defined in portability.h
*
* If the kernel is paused does nothing.
* It's behaviour is to modify the global variable miosix::cur which always
* points to the currently running thread.
*/
static void IRQfindNextThread()
{
T::IRQfindNextThread();
}
};
#ifdef SCHED_TYPE_PRIORITY
typedef basic_scheduler Scheduler;
#elif defined(SCHED_TYPE_CONTROL_BASED)
typedef basic_scheduler Scheduler;
#elif defined(SCHED_TYPE_EDF)
typedef basic_scheduler Scheduler;
#else
#error No scheduler selected in config/miosix_settings.h
#endif
} //namespace miosix
#endif //SCHEDULER_H