/// @file
/// @brief QK/C++ platform-independent public interface.
/// @ingroup qk
/// @cond
///***************************************************************************
/// Last updated for version 5.8.1
/// Last updated on 2016-12-14
///
/// Q u a n t u m L e a P s
/// ---------------------------
/// innovating embedded systems
///
/// Copyright (C) Quantum Leaps, LLC. All rights reserved.
///
/// This program is open source 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 3 of the License, or
/// (at your option) any later version.
///
/// Alternatively, this program may be distributed and modified under the
/// terms of Quantum Leaps commercial licenses, which expressly supersede
/// the GNU General Public License and are specifically designed for
/// licensees interested in retaining the proprietary status of their code.
///
/// 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.
///
/// You should have received a copy of the GNU General Public License
/// along with this program. If not, see .
///
/// Contact information:
/// https://state-machine.com
/// mailto:info@state-machine.com
///***************************************************************************
/// @endcond
#ifndef qk_h
#define qk_h
#include "qequeue.h" // QK kernel uses the native QF event queue
#include "qmpool.h" // QK kernel uses the native QF memory pool
#include "qpset.h" // QK kernel uses the native QF priority set
//****************************************************************************
// QF configuration for QK
//! This macro defines the type of the event queue used for active objects.
/// @description
///QK uses the native QF event queue QEQueue.
#define QF_EQUEUE_TYPE QEQueue
//****************************************************************************
//! attributes of the QK kernel (in C for easy access in assembly)
extern "C" {
struct QK_Attr {
uint_fast8_t volatile actPrio; //!< prio of the active AO
uint_fast8_t volatile nextPrio; //!< prio of the next AO to execute
uint_fast8_t volatile lockPrio; //!< lock prio (0 == no-lock)
uint_fast8_t volatile lockHolder; //!< prio of the lock holder
#ifndef QK_ISR_CONTEXT_
uint_fast8_t volatile intNest; //!< ISR nesting level
#endif // QK_ISR_CONTEXT_
QP::QPSet readySet; //!< QK ready-set of AOs and "naked" threads
};
//! global attributes of the QK kernel
extern QK_Attr QK_attr_;
//! QK scheduler finds the highest-priority thread ready to run
uint_fast8_t QK_sched_(void);
//! QK activator activates the next active object. The activated AO preempts
// the currently executing AOs.
void QK_activate_(void);
} // extern "C"
//****************************************************************************
namespace QP {
//****************************************************************************
//! QK services.
/// @description
/// This class groups together QK services. It has only static members and
/// should not be instantiated.
///
// @note The QK scheduler, QK priority, QK ready set, etc. belong conceptually
/// to the QK class (as static class members). However, to avoid C++ potential
/// name-mangling problems in assembly language, these elements are defined
/// outside of the QK class and use the extern "C" linkage specification.
class QK {
public:
//! get the current QK version number string of the form X.Y.Z
static char_t const *getVersion(void) {
return versionStr;
}
//! QK idle callback (customized in BSPs for QK)
/// @description
/// QP::QK::onIdle() is called continously by the QK idle loop. This
/// callback gives the application an opportunity to enter a power-saving
/// CPU mode, or perform some other idle processing.
///
/// @note QP::QK::onIdle() is invoked with interrupts enabled and must
/// also return with interrupts enabled.
///
/// @sa QP::QF::onIdle()
static void onIdle(void);
};
/*! Priority-ceiling Mutex the QK preemptive kernel */
class QMutex {
public:
void init(uint_fast8_t const prio);
void lock(void);
void unlock(void);
private:
uint_fast8_t m_lockPrio; //!< lock prio (priority ceiling)
uint_fast8_t m_prevPrio; //!< previoius lock prio
friend class QF;
};
} // namespace QP
//****************************************************************************
// interface used only inside QF, but not in applications
#ifdef QP_IMPL
#ifndef QK_ISR_CONTEXT_
//! Internal port-specific macro that reports the execution context
// (ISR vs. thread).
/// @returns true if the code executes in the ISR context and false
/// otherwise
#define QK_ISR_CONTEXT_() \
(QK_attr_.intNest != static_cast(0))
#endif // QK_ISR_CONTEXT_
// QK-specific scheduler locking
//! Internal macro to represent the scheduler lock status
// that needs to be preserved to allow nesting of locks.
//
#define QF_SCHED_STAT_ QMutex schedLock_;
//! Internal macro for selective scheduler locking.
#define QF_SCHED_LOCK_(prio_) do { \
if (QK_ISR_CONTEXT_()) { \
schedLock_.m_lockPrio = static_cast(0); \
} else { \
schedLock_.init((prio_)); \
schedLock_.lock(); \
} \
} while (false)
//! Internal macro for selective scheduler unlocking.
#define QF_SCHED_UNLOCK_() do { \
if (schedLock_.m_lockPrio != static_cast(0)) { \
schedLock_.unlock(); \
} \
} while (false)
// QK-specific native event queue operations...
#define QACTIVE_EQUEUE_WAIT_(me_) \
Q_ASSERT_ID(110, (me_)->m_eQueue.m_frontEvt != static_cast(0))
#define QACTIVE_EQUEUE_SIGNAL_(me_) do { \
QK_attr_.readySet.insert((me_)->m_prio); \
if (!QK_ISR_CONTEXT_()) { \
if (QK_sched_() != static_cast(0)) { \
QK_activate_(); \
} \
} \
} while (false)
// QK-specific native QF event pool operations...
#define QF_EPOOL_TYPE_ QMPool
#define QF_EPOOL_INIT_(p_, poolSto_, poolSize_, evtSize_) \
(p_).init((poolSto_), (poolSize_), (evtSize_))
#define QF_EPOOL_EVENT_SIZE_(p_) \
static_cast((p_).getBlockSize())
#define QF_EPOOL_GET_(p_, e_, m_) \
((e_) = static_cast((p_).get((m_))))
#define QF_EPOOL_PUT_(p_, e_) ((p_).put(e_))
#endif // QP_IMPL
#endif // qk_h