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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.hpp
* @brief C++ wrapper classes and definitions.
*
* @addtogroup cpp_library
* @{
*/
#include <ch.h>
#ifndef _CH_HPP_
#define _CH_HPP_
namespace chibios_rt {
/*------------------------------------------------------------------------*
* chibios_rt::System *
*------------------------------------------------------------------------*/
/**
* @brief Class encapsulating the base system functionalities.
*/
class System {
public:
/**
* @brief ChibiOS/RT initialization.
* @details The system is initialized, the idle thread is spawned and the
* current instruction flow becomes the main thread with priority
* @p NORMALPRIO.
*
* @api
*/
static void init(void);
/**
* @brief Kernel lock.
* @note On some ports it is faster to invoke chSysLock() directly
* because inlining.
*
* @special
*/
static void lock(void);
/**
* @brief Kernel unlock.
* @note On some ports it is faster to invoke chSysUnlock() directly
* because inlining.
*
* @special
*/
static void unlock(void);
/**
* @brief Returns the system time as system ticks.
* @note The system tick time interval is implementation dependent.
*
* @return The system time.
*
* @api
*/
static systime_t getTime(void);
};
/*------------------------------------------------------------------------*
* chibios_rt::Timer *
*------------------------------------------------------------------------*/
/**
* @brief Timer class.
*/
class Timer {
public:
/**
* @brief Embedded @p VirtualTimer structure.
*/
struct ::VirtualTimer timer_ref;
/**
* @brief Starts the timer.
* @note It must be called with the interrupts disabled.
* @note The associated function is invoked by an interrupt handler.
*
* @param[in] time the time in system ticks
* @param[in] vtfunc the timer callback function
* @param[in] par the parameter for the callback function
*
* @iclass
*/
void setI(systime_t time, vtfunc_t vtfunc, void *par);
/**
* @brief Resets the timer, if armed.
*
* @iclass
*/
void resetI();
/**
* @brief Returns the timer status.
*
* @retval TRUE The timer is armed.
* @retval FALSE The timer already fired its callback.
*
* @iclass
*/
bool isArmedI(void);
};
/*------------------------------------------------------------------------*
* chibios_rt::ThreadReference *
*------------------------------------------------------------------------*/
/**
* @brief Thread reference class.
* @details This class encapsulates a reference to a system thread.
*/
class ThreadReference {
public:
/**
* @brief Pointer to the system thread.
*/
::Thread *thread_ref;
/**
* @brief Thread reference constructor.
*
* @param[in] tp the target thread. This parameter can be
* @p NULL if the thread is not known at
* creation time.
*
* @api
*/
ThreadReference(Thread * tp);
/**
* @brief Suspends the current thread on the reference.
* @details The suspended thread becomes the referenced thread. It is
* possible to use this method only if the thread reference
* was set to @p NULL.
*
* @return The incoming message.
*
* @api
*/
msg_t suspend(void);
/**
* @brief Suspends the current thread on the reference.
* @details The suspended thread becomes the referenced thread. It is
* possible to use this method only if the thread reference
* was set to @p NULL.
*
* @return The incoming message.
*
* @sclass
*/
msg_t suspendS(void);
/**
* @brief Resumes the currently referenced thread, if any.
*
* @api
*/
void resume(msg_t msg);
/**
* @brief Resumes the currently referenced thread, if any.
*
* @iclass
*/
void resumeI(msg_t msg);
/**
* @brief Requests thread termination.
* @details A termination flag is added to the thread, it is thread
* responsibility to detect it and exit.
*/
void requestTerminate(void);
#if CH_USE_WAITEXIT || defined(__DOXYGEN__)
/**
* @brief Synchronization on Thread exit.
*
* @return The exit message from the thread.
*
* @api
*/
msg_t wait(void);
#endif /* CH_USE_WAITEXIT */
#if CH_USE_MESSAGES || defined(__DOXYGEN__)
/**
* @brief Sends a message to the thread and returns the answer.
*
* @param[in] msg the sent message
* @return The returned message.
*
* @api
*/
msg_t sendMessage(msg_t msg);
/**
* @brief Returns true if there is at least one message in queue.
*
* @retval true A message is waiting in queue.
* @retval false A message is not waiting in queue.
*
* @api
*/
bool isPendingMessage(void);
#endif /* CH_USE_MESSAGES */
#if CH_USE_DYNAMIC
#endif /* CH_USE_DYNAMIC */
};
/*------------------------------------------------------------------------*
* chibios_rt::BaseThread *
*------------------------------------------------------------------------*/
/**
* @brief Abstract base class for a ChibiOS/RT thread.
* @details The thread body is the virtual function @p Main().
*/
class BaseThread : ThreadReference{
public:
/**
* @brief BaseThread constructor.
*
* @api
*/
BaseThread(void);
/**
* @brief Thread body function.
*
* @return The exit message.
*
* @api
*/
virtual msg_t Main(void);
/**
* @brief Creates and starts a system thread.
*
* @param[in] tname the name to be assigned to the thread
* @param[in] prio thread priority
* @return Error flag.
* @retval false if the operation failed.
* @retval true if the operation succeeded.
*
* @api
*/
virtual bool start(const char *tname, tprio_t prio);
/**
* @brief Thread exit.
*
* @param[in] msg the exit message
*
* @api
*/
static void exit(msg_t msg);
#if CH_USE_WAITEXIT || defined(__DOXYGEN__)
/**
* @brief Synchronization on Thread exit.
*
* @return The exit message from the thread.
*
* @api
*/
msg_t wait(void);
#endif /* CH_USE_WAITEXIT */
/**
* @brief Changes the current thread priority.
*
* @param[in] newprio The new priority level
* @return The old priority level.
*
* @api
*/
static tprio_t setPriority(tprio_t newprio);
/**
* @brief Requests thread termination.
* @details A termination flag is added to the thread, it is thread
* responsibility to detect it and exit.
*
* @api
*/
void requestTerminate(void);
/**
* @brief Determines if there is a pending termination request.
*
* @return The termination status.
* @retval false if there is no termination request pending.
* @retval true if there is a termination request pending.
*
* @api
*/
bool shouldTerminate(void);
/**
* @brief Suspends the thread execution for the specified number of
* system ticks.
*
* @param[in] interval the number of system ticks
*
* @api
*/
static void sleep(systime_t interval);
/**
* @brief Suspends the thread execution until the specified time arrives.
*
* @param[in] time the system time
*
* @api
*/
static void sleepUntil(systime_t time);
#if CH_USE_MESSAGES
/**
* @brief Waits for a message.
*
* @return The sender thread.
*
* @api
*/
static ThreadReference waitMessage(void);
/**
* @brief Returns an enqueued message or @p NULL.
*
* @param[in] trp the sender thread reference
* @return The incoming message.
*
* @api
*/
static msg_t getMessage(ThreadReference* trp);
/**
* @brief Releases the next message in queue with a reply.
*
* @param[in] trp the sender thread reference
* @param[in] msg the answer message
*
* @api
*/
static void releaseMessage(ThreadReference* trp, msg_t msg);
#endif /* CH_USE_MESSAGES */
};
/*------------------------------------------------------------------------*
* chibios_rt::BaseStaticThread *
*------------------------------------------------------------------------*/
/**
* @brief Static threads template class.
* @details This class introduces static working area allocation.
*
* @param N the working area size for the thread class
*/
template <int N>
class BaseStaticThread : public BaseThread {
protected:
WORKING_AREA(wa, N); // Thread working area.
public:
/**
* @brief Thread constructor.
* @details The thread object is initialized but the thread is not
* started here.
*
* @api
*/
BaseStaticThread(void) : BaseThread() {
}
/**
* @brief Creates and starts a system thread.
*
* @param[in] tname the name to be assigned to the thread
* @param[in] prio thread priority
* @return Error flag.
* @retval false if the operation succeeded.
* @retval true if the operation failed.
*
* @api
*/
bool start(const char *tname, tprio_t prio) {
msg_t _thd_start(void *arg);
thread_ref = chThdCreateStatic(wa, sizeof(wa), prio, _thd_start, this);
return false;
}
};
#if CH_USE_SEMAPHORES
/**
* @brief Class encapsulating a semaphore.
*/
class Semaphore {
public:
/**
* @brief Embedded @p ::Semaphore structure.
*/
struct ::Semaphore sem;
/**
* @brief Semaphore constructor.
* @details The embedded @p ::Semaphore structure is initialized.
*
* @param[in] n the semaphore counter value, must be greater
* or equal to zero
*
* @api
*/
Semaphore(cnt_t n);
/**
* @brief Resets a semaphore.
*
* @param[in] n the new semaphore counter value, must be
* greater or equal to zero
*
* @api
*/
void reset(cnt_t n);
/**
* @brief Wait operation on the semaphore.
*
* @retval RDY_OK if the semaphore was signaled or not taken.
* @retval RDY_RESET if the semaphore was reset.
*
* @api
*/
msg_t wait(void);
/**
* @brief Wait operation on the semaphore with timeout.
*
* @param[in] time the number of ticks before the operation fails
* @retval RDY_OK if the semaphore was signaled or not taken.
* @retval RDY_RESET if the semaphore was reset.
* @retval RDY_TIMEOUT if the semaphore was not signaled or reset
* within the specified timeout.
*
* @api
*/
msg_t waitTimeout(systime_t time);
/**
* @brief Signal operation on the semaphore.
* @details The semaphore is signaled, the next thread in queue, if any,
* is awakened.
*
* @api
*/
void signal(void);
#if CH_USE_SEMSW
/**
* @brief Atomic signal and wait operations.
*
* @param[in] ssem pointer to a @p Semaphore to be signaled
* @param[in] wsem pointer to a @p Semaphore to be wait on
* @retval RDY_OK if the semaphore was signaled or not taken.
* @retval RDY_RESET if the semaphore was reset.
*
* @api
*/
static msg_t signalWait(Semaphore *ssem, Semaphore *wsem);
#endif /* CH_USE_SEMSW */
};
#endif /* CH_USE_SEMAPHORES */
#if CH_USE_MUTEXES
/**
* @brief Class encapsulating a mutex.
*/
class Mutex {
public:
/**
* @brief Embedded @p ::Mutex structure.
*/
struct ::Mutex mutex;
/**
* @brief Mutex constructor.
* @details The embedded @p ::Mutex structure is initialized.
*
* @api
*/
Mutex(void);
/**
* @brief Tries a lock operation on the mutex.
*
* @retval TRUE if the mutex was successfully acquired
* @retval FALSE if the lock attempt failed.
*
* @api
*/
bool tryLock(void);
/**
* @brief Locks the mutex.
* @details Performs a lock operation on the mutex, if the mutex is
* already locked then the thread enters the mutex priority
* queue and waits.
*
* @api
*/
void lock(void);
/**
* @brief Unlocks the mutex.
* @details Performs an unlock operation on the mutex, the next waiting
* thread, if any, is resumed and locks the mutex.
*
* @api
*/
static void unlock(void);
/**
* @brief Unlocks all the mutexes owned by the invoking thread.
* @details This operation is <b>MUCH MORE</b> efficient than releasing
* the mutexes one by one and not just because the call overhead,
* this function does not have any overhead related to the
* priority inheritance mechanism.
*
* @api
*/
static void unlockAll(void);
};
#if CH_USE_CONDVARS
/**
* @brief Class encapsulating a conditional variable.
*/
class CondVar {
public:
/**
* @brief Embedded @p ::CondVar structure.
*/
struct ::CondVar condvar;
/**
* @brief CondVar constructor.
* @details The embedded @p ::CondVar structure is initialized.
*
* @api
*/
CondVar(void);
/**
* @brief Signals the CondVar.
* @details The next thread waiting on the @p CondVar, if any, is awakened.
*
* @api
*/
void signal(void);
/**
* @brief Broadcasts the CondVar.
* @details All the threads waiting on the @p CondVar, if any, are awakened.
*
* @api
*/
void broadcast(void);
/**
* @brief Waits on the CondVar while releasing the controlling mutex.
*
* @return The wakep mode.
* @retval RDY_OK if the condvar was signaled using
* @p chCondSignal().
* @retval RDY_RESET if the condvar was signaled using
* @p chCondBroadcast().
*
* @api
*/
msg_t wait(void);
#if CH_USE_CONDVARS_TIMEOUT
/**
* @brief Waits on the CondVar while releasing the controlling mutex.
*
* @param[in] time the number of ticks before the operation fails
* @return The wakep mode.
* @retval RDY_OK if the condvar was signaled using
* @p chCondSignal().
* @retval RDY_RESET if the condvar was signaled using
* @p chCondBroadcast().
* @retval RDY_TIMEOUT if the condvar was not signaled within the
* specified timeout.
*
* @api
*/
msg_t waitTimeout(systime_t time);
#endif /* CH_USE_CONDVARS_TIMEOUT */
};
#endif /* CH_USE_CONDVARS */
#endif /* CH_USE_MUTEXES */
#if CH_USE_EVENTS
/**
* @brief Class encapsulating an event source.
*/
class Event {
public:
/**
* @brief Embedded @p ::EventSource structure.
*/
struct ::EventSource event;
/**
* @brief Event constructor.
* @details The embedded @p ::EventSource structure is initialized.
*
* @api
*/
Event(void);
/**
* @brief Registers a listener on the event source.
*
* @param[in] elp pointer to the @p EventListener structure
* @param[in] eid numeric identifier assigned to the Event
* Listener
*
* @api
*/
void registerOne(EventListener *elp, eventid_t eid);
/**
* @brief Registers an Event Listener on an Event Source.
* @note Multiple Event Listeners can specify the same bits to be added.
*
* @param[in] elp pointer to the @p EventListener structure
* @param[in] emask the mask of event flags to be pended to the
* thread when the event source is broadcasted
*
* @api
*/
void registerMask(EventListener *elp, eventmask_t emask);
/**
* @brief Unregisters a listener.
* @details The specified listeners is no more signaled by the event
* source.
*
* @param[in] elp the listener to be unregistered
*
* @api
*/
void unregister(EventListener *elp);
/**
* @brief Broadcasts an event.
* @details All the listeners registered on the event source are signaled.
*
* @param[in] flags the flags set to be added to the listener
* flags mask
*
* @api
*/
void broadcastFlags(flagsmask_t flags);
/**
* @brief Clears specified events from the pending events mask.
*
* @param[in] elp pointer to the @p EventListener structure
* @param[in] flags the events to be cleared
* @return The flags added to the listener by the
* associated event source.
*
* @api
*/
static flagsmask_t getAndClearFlags(EventListener *elp);
/**
* @brief Clears specified events from the pending events mask.
*
* @param[in] mask the events to be cleared
* @return The pending events that were cleared.
*
* @api
*/
static eventmask_t getAndClearEvents(eventmask_t mask);
/**
* @brief Makes an events mask pending in the current thread.
* @details This functon is @b much faster than using @p Broadcast().
*
* @param[in] mask the events to be pended
* @return The current pending events mask.
*
* @api
*/
static eventmask_t addEvents(eventmask_t mask);
/**
* @brief Invokes the event handlers associated with a mask.
*
* @param[in] mask mask of the events to be dispatched
* @param[in] handlers an array of @p evhandler_t. The array must be
* have indexes from zero up the higher registered
* event identifier.
*
* @api
*/
static void dispatch(const evhandler_t handlers[], eventmask_t mask);
/**
* @brief Waits for a single event.
* @details A pending event among those specified in @p ewmask is selected,
* cleared and its mask returned.
* @note One and only one event is served in the function, the one with
* the lowest event id. The function is meant to be invoked into
* a loop in order to serve all the pending events.<br>
* This means that Event Listeners with a lower event identifier
* have an higher priority.
*
* @param[in] ewmask mask of the events that the function should
* wait for, @p ALL_EVENTS enables all the events
* @return The mask of the lowest id served and cleared
* event.
*
* @api
*/
static eventmask_t waitOne(eventmask_t ewmask);
/**
* @brief Waits for any of the specified events.
* @details The function waits for any event among those specified in
* @p ewmask to become pending then the events are cleared and
* returned.
*
* @param[in] ewmask mask of the events that the function should
* wait for, @p ALL_EVENTS enables all the events
* @return The mask of the served and cleared events.
*
* @api
*/
static eventmask_t waitAny(eventmask_t ewmask);
/**
* @brief Waits for all the specified event flags then clears them.
* @details The function waits for all the events specified in @p ewmask
* to become pending then the events are cleared and returned.
*
* @param[in] ewmask mask of the event ids that the function should
* wait for
* @return The mask of the served and cleared events.
*
* @api
*/
static eventmask_t waitAll(eventmask_t ewmask);
#if CH_USE_EVENTS_TIMEOUT
/**
* @brief Waits for a single event.
* @details A pending event among those specified in @p ewmask is selected,
* cleared and its mask returned.
* @note One and only one event is served in the function, the one with
* the lowest event id. The function is meant to be invoked into
* a loop in order to serve all the pending events.<br>
* This means that Event Listeners with a lower event identifier
* have an higher priority.
*
* @param[in] ewmask mask of the events that the function should
* wait for, @p ALL_EVENTS enables all the events
*
* @param[in] time the number of ticks before the operation timouts
* @return The mask of the lowest id served and cleared
* event.
* @retval 0 if the specified timeout expired.
*
* @api
*/
static eventmask_t waitOneTimeout(eventmask_t ewmask, systime_t time);
/**
* @brief Waits for any of the specified events.
* @details The function waits for any event among those specified in
* @p ewmask to become pending then the events are cleared and
* returned.
*
* @param[in] ewmask mask of the events that the function should
* wait for, @p ALL_EVENTS enables all the events
* @param[in] time the number of ticks before the operation
* timouts
* @return The mask of the served and cleared events.
* @retval 0 if the specified timeout expired.
*
* @api
*/
static eventmask_t waitAnyTimeout(eventmask_t ewmask, systime_t time);
/**
* @brief Waits for all the specified event flags then clears them.
* @details The function waits for all the events specified in @p ewmask
* to become pending then the events are cleared and returned.
*
* @param[in] ewmask mask of the event ids that the function should
* wait for
* @param[in] time the number of ticks before the operation
* timouts
* @return The mask of the served and cleared events.
* @retval 0 if the specified timeout expired.
*
* @api
*/
static eventmask_t waitAllTimeout(eventmask_t ewmask, systime_t time);
#endif /* CH_USE_EVENTS_TIMEOUT */
};
#endif /* CH_USE_EVENTS */
}
#endif /* _CH_HPP_ */
/** @} */
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