tinySA/os/various/cpp_wrappers/ch.cpp

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/*
ChibiOS/RT - Copyright (C) 2006,2007,2008,2009,2010,
2011,2012 Giovanni Di Sirio.
This file is part of ChibiOS/RT.
ChibiOS/RT 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 3 of the License, or
(at your option) any later version.
ChibiOS/RT 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 <http://www.gnu.org/licenses/>.
*/
/**
* @file ch.cpp
* @brief C++ wrapper code.
*
* @addtogroup cpp_library
* @{
*/
#include "ch.hpp"
namespace chibios_rt {
/*------------------------------------------------------------------------*
* chibios_rt::System *
*------------------------------------------------------------------------*/
void System::init(void) {
chSysInit();
}
void System::lock(void) {
chSysLock();
}
void System::unlock(void) {
chSysUnlock();
}
void System::lockFromIsr(void) {
chSysLockFromIsr();
}
void System::unlockFromIsr(void) {
chSysUnlockFromIsr();
}
systime_t System::getTime(void) {
return chTimeNow();
}
bool System::isTimeWithin(systime_t start, systime_t end) {
return (bool)chTimeIsWithin(start, end);
}
/*------------------------------------------------------------------------*
* chibios_rt::Core *
*------------------------------------------------------------------------*/
void *Core::alloc(size_t size) {
return chCoreAlloc(size);
}
void *Core::allocI(size_t size) {
return chCoreAllocI(size);
}
size_t Core::getStatus(void) {
return chCoreStatus();
}
/*------------------------------------------------------------------------*
* chibios_rt::Timer *
*------------------------------------------------------------------------*/
void Timer::setI(systime_t time, vtfunc_t vtfunc, void *par) {
chVTSetI(&timer_ref, time, vtfunc, par);
}
void Timer::resetI() {
if (chVTIsArmedI(&timer_ref))
chVTResetI(&timer_ref);
}
bool Timer::isArmedI(void) {
return (bool)chVTIsArmedI(&timer_ref);
}
/*------------------------------------------------------------------------*
* chibios_rt::ThreadReference *
*------------------------------------------------------------------------*/
void ThreadReference::stop(void) {
chDbgPanic("invoked unimplemented method stop()");
}
msg_t ThreadReference::suspend(void) {
msg_t msg;
chSysLock();
chDbgAssert(thread_ref != NULL,
"ThreadReference, #1",
"already referenced");
thread_ref = chThdSelf();
chSchGoSleepS(THD_STATE_SUSPENDED);
msg = thread_ref->p_u.rdymsg;
chSysUnlock();
return msg;
}
msg_t ThreadReference::suspendS(void) {
chDbgAssert(thread_ref == NULL,
"ThreadReference, #2",
"already referenced");
thread_ref = chThdSelf();
chSchGoSleepS(THD_STATE_SUSPENDED);
return thread_ref->p_u.rdymsg;
}
void ThreadReference::resume(msg_t msg) {
chSysLock()
chDbgAssert(thread_ref != NULL,
"ThreadReference, #3",
"not referenced");
if (thread_ref) {
Thread *tp = thread_ref;
thread_ref = NULL;
chSchWakeupS(tp, msg);
}
chSysUnlock();
}
void ThreadReference::resumeI(msg_t msg) {
chDbgAssert(thread_ref != NULL,
"ThreadReference, #4",
"not referenced");
if (thread_ref) {
Thread *tp = thread_ref;
thread_ref = NULL;
tp->p_msg = msg;
chSchReadyI(tp);
}
}
void ThreadReference::requestTerminate(void) {
chDbgAssert(thread_ref != NULL,
"ThreadReference, #5",
"not referenced");
chThdTerminate(thread_ref);
}
#if CH_USE_WAITEXIT
msg_t ThreadReference::wait(void) {
chDbgAssert(thread_ref != NULL,
"ThreadReference, #6",
"not referenced");
msg_t msg = chThdWait(thread_ref);
thread_ref = NULL;
return msg;
}
#endif /* CH_USE_WAITEXIT */
#if CH_USE_MESSAGES
msg_t ThreadReference::sendMessage(msg_t msg) {
chDbgAssert(thread_ref != NULL,
"ThreadReference, #7",
"not referenced");
return chMsgSend(thread_ref, msg);
}
bool ThreadReference::isPendingMessage(void) {
chDbgAssert(thread_ref != NULL,
"ThreadReference, #7",
"not referenced");
return (bool)chMsgIsPendingI(thread_ref);
}
msg_t ThreadReference::getMessage(void) {
chDbgAssert(thread_ref != NULL,
"ThreadReference, #8",
"not referenced");
return chMsgGet(thread_ref);
}
void ThreadReference::releaseMessage(msg_t msg) {
chDbgAssert(thread_ref != NULL,
"ThreadReference, #9",
"not referenced");
chMsgRelease(thread_ref, msg);
}
#endif /* CH_USE_MESSAGES */
#if CH_USE_EVENTS
void ThreadReference::signalEvents(eventmask_t mask) {
chDbgAssert(thread_ref != NULL,
"ThreadReference, #10",
"not referenced");
chEvtSignal(thread_ref, mask);
}
void ThreadReference::signalEventsI(eventmask_t mask) {
chDbgAssert(thread_ref != NULL,
"ThreadReference, #11",
"not referenced");
chEvtSignalI(thread_ref, mask);
}
#endif /* CH_USE_EVENTS */
#if CH_USE_DYNAMIC
#endif /* CH_USE_DYNAMIC */
/*------------------------------------------------------------------------*
* chibios_rt::BaseThread *
*------------------------------------------------------------------------*/
BaseThread::BaseThread() : ThreadReference(NULL) {
}
msg_t BaseThread::main(void) {
return 0;
}
ThreadReference BaseThread::start(tprio_t prio) {
(void)prio;
return *this;
};
msg_t _thd_start(void *arg) {
return ((BaseThread *)arg)->main();
}
void BaseThread::setName(const char *tname) {
chRegSetThreadName(tname);
}
tprio_t BaseThread::setPriority(tprio_t newprio) {
return chThdSetPriority(newprio);
}
void BaseThread::exit(msg_t msg) {
chThdExit(msg);
}
void BaseThread::exitS(msg_t msg) {
chThdExitS(msg);
}
bool BaseThread::shouldTerminate(void) {
return (bool)chThdShouldTerminate();
}
void BaseThread::sleep(systime_t interval){
chThdSleep(interval);
}
void BaseThread::sleepUntil(systime_t time) {
chThdSleepUntil(time);
}
void BaseThread::yield(void) {
chThdYield();
}
#if CH_USE_MESSAGES
ThreadReference BaseThread::waitMessage(void) {
ThreadReference tr(chMsgWait());
return tr;
}
#endif /* CH_USE_MESSAGES */
#if CH_USE_EVENTS
eventmask_t BaseThread::getAndClearEvents(eventmask_t mask) {
return chEvtGetAndClearEvents(mask);
}
eventmask_t BaseThread::addEvents(eventmask_t mask) {
return chEvtAddEvents(mask);
}
eventmask_t BaseThread::waitOneEvent(eventmask_t ewmask) {
return chEvtWaitOne(ewmask);
}
eventmask_t BaseThread::waitAnyEvent(eventmask_t ewmask) {
return chEvtWaitAny(ewmask);
}
eventmask_t BaseThread::waitAllEvents(eventmask_t ewmask) {
return chEvtWaitAll(ewmask);
}
#if CH_USE_EVENTS_TIMEOUT
eventmask_t BaseThread::waitOneEventTimeout(eventmask_t ewmask,
systime_t time) {
return chEvtWaitOneTimeout(ewmask, time);
}
eventmask_t BaseThread::waitAnyEventTimeout(eventmask_t ewmask,
systime_t time) {
return chEvtWaitAnyTimeout(ewmask, time);
}
eventmask_t BaseThread::waitAllEventsTimeout(eventmask_t ewmask,
systime_t time) {
return chEvtWaitAllTimeout(ewmask, time);
}
#endif /* CH_USE_EVENTS_TIMEOUT */
void BaseThread::dispatchEvents(const evhandler_t handlers[],
eventmask_t mask) {
chEvtDispatch(handlers, mask);
}
#endif /* CH_USE_EVENTS */
#if CH_USE_MUTEXES
void BaseThread::unlockMutex(void) {
chMtxUnlock();
}
void BaseThread::unlockMutexS(void) {
chMtxUnlockS();
}
void BaseThread::unlockAllMutexes(void) {
chMtxUnlockAll();
}
#endif /* CH_USE_MUTEXES */
#if CH_USE_SEMAPHORES
/*------------------------------------------------------------------------*
* chibios_rt::CounterSemaphore *
*------------------------------------------------------------------------*/
CounterSemaphore::CounterSemaphore(cnt_t n) {
chSemInit(&sem, n);
}
void CounterSemaphore::reset(cnt_t n) {
chSemReset(&sem, n);
}
void CounterSemaphore::resetI(cnt_t n) {
chSemResetI(&sem, n);
}
msg_t CounterSemaphore::wait(void) {
return chSemWait(&sem);
}
msg_t CounterSemaphore::waitS(void) {
return chSemWaitS(&sem);
}
msg_t CounterSemaphore::waitTimeout(systime_t time) {
return chSemWaitTimeout(&sem, time);
}
msg_t CounterSemaphore::waitTimeoutS(systime_t time) {
return chSemWaitTimeoutS(&sem, time);
}
void CounterSemaphore::signal(void) {
chSemSignal(&sem);
}
void CounterSemaphore::signalI(void) {
chSemSignalI(&sem);
}
void CounterSemaphore::addCounterI(cnt_t n) {
chSemAddCounterI(&sem, n);
}
cnt_t CounterSemaphore::getCounterI(void) {
return chSemGetCounterI(&sem);
}
#if CH_USE_SEMSW
msg_t CounterSemaphore::signalWait(CounterSemaphore *ssem,
CounterSemaphore *wsem) {
return chSemSignalWait(&ssem->sem, &wsem->sem);
}
#endif /* CH_USE_SEMSW */
/*------------------------------------------------------------------------*
* chibios_rt::BinarySemaphore *
*------------------------------------------------------------------------*/
BinarySemaphore::BinarySemaphore(bool taken) {
chBSemInit(&bsem, (bool_t)taken);
}
msg_t BinarySemaphore::wait(void) {
return chBSemWait(&bsem);
}
msg_t BinarySemaphore::waitS(void) {
return chBSemWaitS(&bsem);
}
msg_t BinarySemaphore::waitTimeout(systime_t time) {
return chBSemWaitTimeout(&bsem, time);
}
msg_t BinarySemaphore::waitTimeoutS(systime_t time) {
return chBSemWaitTimeoutS(&bsem, time);
}
void BinarySemaphore::reset(bool taken) {
chBSemReset(&bsem, (bool_t)taken);
}
void BinarySemaphore::resetI(bool taken) {
chBSemResetI(&bsem, (bool_t)taken);
}
void BinarySemaphore::signal(void) {
chBSemSignal(&bsem);
}
void BinarySemaphore::signalI(void) {
chBSemSignalI(&bsem);
}
bool BinarySemaphore::getStateI(void) {
return (bool)chBSemGetStateI(&bsem);
}
#endif /* CH_USE_SEMAPHORES */
#if CH_USE_MUTEXES
/*------------------------------------------------------------------------*
* chibios_rt::Mutex *
*------------------------------------------------------------------------*/
Mutex::Mutex(void) {
chMtxInit(&mutex);
}
bool Mutex::tryLock(void) {
return chMtxTryLock(&mutex);
}
bool Mutex::tryLockS(void) {
return chMtxTryLockS(&mutex);
}
void Mutex::lock(void) {
chMtxLock(&mutex);
}
void Mutex::lockS(void) {
chMtxLockS(&mutex);
}
#if CH_USE_CONDVARS
/*------------------------------------------------------------------------*
* chibios_rt::CondVar *
*------------------------------------------------------------------------*/
CondVar::CondVar(void) {
chCondInit(&condvar);
}
void CondVar::signal(void) {
chCondSignal(&condvar);
}
void CondVar::signalI(void) {
chCondSignalI(&condvar);
}
void CondVar::broadcast(void) {
chCondBroadcast(&condvar);
}
void CondVar::broadcastI(void) {
chCondBroadcastI(&condvar);
}
msg_t CondVar::wait(void) {
return chCondWait(&condvar);
}
msg_t CondVar::waitS(void) {
return chCondWaitS(&condvar);
}
#if CH_USE_CONDVARS_TIMEOUT
msg_t CondVar::waitTimeout(systime_t time) {
return chCondWaitTimeout(&condvar, time);
}
#endif /* CH_USE_CONDVARS_TIMEOUT */
#endif /* CH_USE_CONDVARS */
#endif /* CH_USE_MUTEXES */
#if CH_USE_EVENTS
/*------------------------------------------------------------------------*
* chibios_rt::EvtListener *
*------------------------------------------------------------------------*/
flagsmask_t EvtListener::getAndClearFlags(void) {
return chEvtGetAndClearFlags(&ev_listener);
}
flagsmask_t EvtListener::getAndClearFlagsI(void) {
return chEvtGetAndClearFlagsI(&ev_listener);
}
/*------------------------------------------------------------------------*
* chibios_rt::EvtSource *
*------------------------------------------------------------------------*/
EvtSource::EvtSource(void) {
chEvtInit(&ev_source);
}
void EvtSource::registerOne(chibios_rt::EvtListener *elp,
eventid_t eid) {
chEvtRegister(&ev_source, &elp->ev_listener, eid);
}
void EvtSource::registerMask(chibios_rt::EvtListener *elp,
eventmask_t emask) {
chEvtRegisterMask(&ev_source, &elp->ev_listener, emask);
}
void EvtSource::unregister(chibios_rt::EvtListener *elp) {
chEvtUnregister(&ev_source, &elp->ev_listener);
}
void EvtSource::broadcastFlags(flagsmask_t flags) {
chEvtBroadcastFlags(&ev_source, flags);
}
void EvtSource::broadcastFlagsI(flagsmask_t flags) {
chEvtBroadcastFlagsI(&ev_source, flags);
}
#endif /* CH_USE_EVENTS */
#if CH_USE_QUEUES
/*------------------------------------------------------------------------*
* chibios_rt::InQueue *
*------------------------------------------------------------------------*/
InQueue::InQueue(uint8_t *bp, size_t size, qnotify_t infy, void *link) {
chIQInit(&iq, bp, size, infy, link);
}
size_t InQueue::getFullI(void) {
return chIQGetFullI(&iq);
}
size_t InQueue::getEmptyI(void) {
return chIQGetEmptyI(&iq);
}
bool InQueue::isEmptyI(void) {
return (bool)chIQIsEmptyI(&iq);
}
bool InQueue::isFullI(void) {
return (bool)chIQIsFullI(&iq);
}
void InQueue::resetI(void) {
chIQResetI(&iq);
}
msg_t InQueue::putI(uint8_t b) {
return chIQPutI(&iq, b);
}
msg_t InQueue::get() {
return chIQGet(&iq);
}
msg_t InQueue::getTimeout(systime_t time) {
return chIQGetTimeout(&iq, time);
}
size_t InQueue::readTimeout(uint8_t *bp, size_t n, systime_t time) {
return chIQReadTimeout(&iq, bp, n, time);
}
/*------------------------------------------------------------------------*
* chibios_rt::OutQueue *
*------------------------------------------------------------------------*/
OutQueue::OutQueue(uint8_t *bp, size_t size, qnotify_t onfy, void *link) {
chOQInit(&oq, bp, size, onfy, link);
}
size_t OutQueue::getFullI(void) {
return chOQGetFullI(&oq);
}
size_t OutQueue::getEmptyI(void) {
return chOQGetEmptyI(&oq);
}
bool OutQueue::isEmptyI(void) {
return (bool)chOQIsEmptyI(&oq);
}
bool OutQueue::isFullI(void) {
return (bool)chOQIsFullI(&oq);
}
void OutQueue::resetI(void) {
chOQResetI(&oq);
}
msg_t OutQueue::put(uint8_t b) {
return chOQPut(&oq, b);
}
msg_t OutQueue::putTimeout(uint8_t b, systime_t time) {
return chOQPutTimeout(&oq, b, time);
}
msg_t OutQueue::getI(void) {
return chOQGetI(&oq);
}
size_t OutQueue::writeTimeout(const uint8_t *bp, size_t n,
systime_t time) {
return chOQWriteTimeout(&oq, bp, n, time);
}
#endif /* CH_USE_QUEUES */
#if CH_USE_MAILBOXES
/*------------------------------------------------------------------------*
* chibios_rt::Mailbox *
*------------------------------------------------------------------------*/
Mailbox::Mailbox(msg_t *buf, cnt_t n) {
chMBInit(&mb, buf, n);
}
void Mailbox::reset(void) {
chMBReset(&mb);
}
msg_t Mailbox::post(msg_t msg, systime_t time) {
return chMBPost(&mb, msg, time);
}
msg_t Mailbox::postS(msg_t msg, systime_t time) {
return chMBPostS(&mb, msg, time);
}
msg_t Mailbox::postI(msg_t msg) {
return chMBPostI(&mb, msg);
}
msg_t Mailbox::postAhead(msg_t msg, systime_t time) {
return chMBPostAhead(&mb, msg, time);
}
msg_t Mailbox::postAheadS(msg_t msg, systime_t time) {
return chMBPostAheadS(&mb, msg, time);
}
msg_t Mailbox::postAheadI(msg_t msg) {
return chMBPostAheadI(&mb, msg);
}
msg_t Mailbox::fetch(msg_t *msgp, systime_t time) {
return chMBFetch(&mb, msgp, time);
}
msg_t Mailbox::fetchS(msg_t *msgp, systime_t time) {
return chMBFetchS(&mb, msgp, time);
}
msg_t Mailbox::fetchI(msg_t *msgp) {
return chMBFetchI(&mb, msgp);
}
#endif /* CH_USE_MAILBOXES */
#if CH_USE_MEMPOOLS
/*------------------------------------------------------------------------*
* chibios_rt::MemoryPool *
*------------------------------------------------------------------------*/
MemoryPool::MemoryPool(size_t size, memgetfunc_t provider) {
chPoolInit(&pool, size, provider);
}
MemoryPool::MemoryPool(size_t size, memgetfunc_t provider, void* p, size_t n) {
chPoolInit(&pool, size, provider);
chPoolLoadArray(&pool, p, n);
}
void MemoryPool::loadArray(void *p, size_t n) {
chPoolLoadArray(&pool, p, n);
}
void *MemoryPool::allocI(void) {
return chPoolAllocI(&pool);
}
void *MemoryPool::alloc(void) {
return chPoolAlloc(&pool);
}
void MemoryPool::free(void *objp) {
chPoolFree(&pool, objp);
}
void MemoryPool::freeI(void *objp) {
chPoolFreeI(&pool, objp);
}
#endif /* CH_USE_MEMPOOLS */
}
/** @} */