/** * @file * @brief QK/C (preemptive non-blocking kernel) 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: * http://www.state-machine.com * mailto:info@state-machine.com ****************************************************************************** * @endcond */ #ifndef qk_h #define qk_h #include "qequeue.h" /* QK kernel uses the native QP event queue */ #include "qmpool.h" /* QK kernel uses the native QP memory pool */ #include "qpset.h" /* QK kernel uses the native QP priority set */ /****************************************************************************/ /* QF configuration for QK */ /*! This macro defines the type of the event queue used for the * active objects. */ /** * @description * QK uses the native QF event queue QEQueue. */ #define QF_EQUEUE_TYPE QEQueue /****************************************************************************/ /*! attributes of the QK kernel */ typedef struct { 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 AO holding the lock */ #ifndef QK_ISR_CONTEXT_ uint_fast8_t volatile intNest; /*!< ISR nesting level */ #endif /* QK_ISR_CONTEXT_ */ QPSet readySet; /*!< QK ready-set of AOs */ } QK_Attr; /*! global attributes of the QK kernel */ extern QK_Attr QK_attr_; /****************************************************************************/ /*! QK idle callback (customized in BSPs for QK) */ /** * QK_onIdle() is called continuously 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 QK_onIdle() is invoked with interrupts enabled and must also * return with interrupts enabled. * * @sa QV_onIdle() */ void QK_onIdle(void); /****************************************************************************/ /*! 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); /****************************************************************************/ /*! QK priority-ceiling mutex class */ typedef struct { uint_fast8_t lockPrio; /*!< lock prio (priority ceiling) */ uint_fast8_t prevPrio; /*!< previoius lock prio */ } QMutex; /*! The QMutex initialization */ void QMutex_init(QMutex * const me, uint_fast8_t prio); /*! QMutex lock */ void QMutex_lock(QMutex * const me); /*! QMutex unlock */ void QMutex_unlock(QMutex * const me); /****************************************************************************/ /*! get the current QK version number string of the form "X.Y.Z" */ #define QK_getVersion() (QP_versionStr) /****************************************************************************/ /* interface used only inside QP implementation, but not in applications */ #ifdef QP_IMPL #ifndef QK_ISR_CONTEXT_ /*! Internal 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 != (uint_fast8_t)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_.lockPrio = (uint_fast8_t)0; \ } else { \ QMutex_init(&schedLock_, (prio_)); \ QMutex_lock(&schedLock_); \ } \ } while (0) /*! Internal macro for selective scheduler unlocking. */ #define QF_SCHED_UNLOCK_() do { \ if (schedLock_.lockPrio != (uint_fast8_t)0) { \ QMutex_unlock(&schedLock_); \ } \ } while (0) /* native event queue operations... */ #define QACTIVE_EQUEUE_WAIT_(me_) \ (Q_ASSERT_ID(0, (me_)->eQueue.frontEvt != (QEvt *)0)) #define QACTIVE_EQUEUE_SIGNAL_(me_) do { \ QPSet_insert(&QK_attr_.readySet, (me_)->prio); \ if (!QK_ISR_CONTEXT_()) { \ if (QK_sched_() != (uint_fast8_t)0) { \ QK_activate_(); \ } \ } \ } while (0) /* native QF event pool operations */ #define QF_EPOOL_TYPE_ QMPool #define QF_EPOOL_INIT_(p_, poolSto_, poolSize_, evtSize_) \ (QMPool_init(&(p_), (poolSto_), (poolSize_), (evtSize_))) #define QF_EPOOL_EVENT_SIZE_(p_) ((uint_fast16_t)(p_).blockSize) #define QF_EPOOL_GET_(p_, e_, m_) ((e_) = (QEvt *)QMPool_get(&(p_), (m_))) #define QF_EPOOL_PUT_(p_, e_) (QMPool_put(&(p_), (e_))) #endif /* QP_IMPL */ #endif /* qk_h */