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pte_generic_osal.h
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pte_generic_osal.h
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/*
* pte_cancellable_wait.c
*
* Description:
*
* --------------------------------------------------------------------------
*
* Pthreads-embedded (PTE) - POSIX Threads Library for embedded systems
* Copyright(C) 2008 Jason Schmidlapp
*
* Contact Email: [email protected]
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2 of the License, or (at your option) any later version.
*
* This library 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
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library in the file COPYING.LIB;
* if not, write to the Free Software Foundation, Inc.,
* 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA
*/
#ifndef _GENERIC_OS_SUPPORT_H_
#define _GENERIC_OS_SUPPORT_H_
#ifdef __cplusplus
extern "C" {
#endif // __cplusplus
/** @name Misc */
//@{
typedef enum pte_osResult
{
/** Operation completed successfully */
PTE_OS_OK = 0,
/** Operation failed because there insufficient resources */
PTE_OS_NO_RESOURCES,
/** Operation failed due to a general failure */
PTE_OS_GENERAL_FAILURE,
/** Operation did not complete because a user specified timeout expired. */
PTE_OS_TIMEOUT,
/** The operation was interrupted before it could complete. */
PTE_OS_INTERRUPTED,
/** An invalid parameter was specified */
PTE_OS_INVALID_PARAM
} pte_osResult;
/**
* Provides a hook for the OSAL to implement any OS specific initialization. This is guaranteed to be
* called before any other OSAL function.
*/
pte_osResult pte_osInit(void);
//@}
/** @name Mutexes */
//@{
/**
* Creates a mutex
*
* @param pHandle Set to the handle of the newly created mutex.
*
* @return PTE_OS_OK - Mutex successfully created
* @return PTE_OS_NO_RESOURCESs - Insufficient resources to create mutex
*/
pte_osResult pte_osMutexCreate(pte_osMutexHandle *pHandle);
/**
* Deletes a mutex and frees any associated resources.
*
* @param handle Handle of mutex to delete.
*
* @return PTE_OS_OK - Mutex successfully deleted.
*/
pte_osResult pte_osMutexDelete(pte_osMutexHandle handle);
/**
* Locks the mutex
*
* @param handle Handle of mutex to lock.
*
* @return PTE_OS_OK - Mutex successfully locked.
*/
pte_osResult pte_osMutexLock(pte_osMutexHandle handle);
/**
* Locks the mutex, returning after @p timeoutMsecs if the resources is not
* available. Can be used for polling mutex by using @p timeoutMsecs of zero.
*
* @param handle Handle of mutex to lock.
* @param timeoutMsecs Number of milliseconds to wait for resource before returning.
*
* @return PTE_OS_OK - Mutex successfully locked.
* @return PTE_OS_TIMEOUT - Timeout expired before lock was obtained.
*/
pte_osResult pte_osMutexTimedLock(pte_osMutexHandle handle, unsigned int timeoutMsecs);
/**
* Unlocks the mutex
*
* @param handle Handle of mutex to unlock
*
* @return PTE_OS_OK - Mutex successfully unlocked.
*/
pte_osResult pte_osMutexUnlock(pte_osMutexHandle handle);
//@}
/** @name Threads */
//@{
typedef int (*pte_osThreadEntryPoint)(void *params);
/**
* Creates a new thread. The thread must be started in a suspended state - it will be
* explicitly started when pte_osThreadStart() is called.
*
* @param entryPoint Entry point to the new thread.
* @param stackSize The initial stack size, in bytes. Note that this can be considered a minimum -
* for instance if the OS requires a larger stack space than what the caller specified.
* @param initialPriority The priority that the new thread should be initially set to.
* @param argv Parameter to pass to the new thread.
* @param ppte_osThreadHandle set to the handle of the new thread.
*
* @return PTE_OS_OK - New thread successfully created.
* @return PTE_OS_NO_RESOURCESs - Insufficient resources to create thread
*/
pte_osResult pte_osThreadCreate(pte_osThreadEntryPoint entryPoint,
int stackSize,
int initialPriority,
void *argv,
pte_osThreadHandle* ppte_osThreadHandle);
/**
* Starts executing the specified thread.
*
* @param osThreadHandle handle of the thread to start.
*
* @return PTE_OS_OK - thread successfully started.
*/
pte_osResult pte_osThreadStart(pte_osThreadHandle osThreadHandle);
/**
* Causes the current thread to stop executing.
*
* @return Never returns (thread terminated)
*/
void pte_osThreadExit();
/**
* Waits for the specified thread to end. If the thread has already terminated, this returns
* immediately.
*
* @param threadHandle Handle fo thread to wait for.
*
* @return PTE_OS_OK - specified thread terminated.
*/
pte_osResult pte_osThreadWaitForEnd(pte_osThreadHandle threadHandle);
/**
* Returns the handle of the currently executing thread.
*/
pte_osThreadHandle pte_osThreadGetHandle(void);
/**
* Returns the priority of the specified thread.
*/
int pte_osThreadGetPriority(pte_osThreadHandle threadHandle);
/**
* Sets the priority of the specified thread.
*
* @return PTE_OS_OK - thread priority successfully set
*/
pte_osResult pte_osThreadSetPriority(pte_osThreadHandle threadHandle, int newPriority);
/**
* Frees resources associated with the specified thread. This is called after the thread has terminated
* and is no longer needed (e.g. after pthread_join returns). This call will always be made
* from a different context than that of the target thread.
*/
pte_osResult pte_osThreadDelete(pte_osThreadHandle handle);
/**
* Frees resources associated with the specified thread and then causes the thread to exit.
* This is called after the thread has terminated and is no longer needed (e.g. after
* pthread_join returns). This call will always be made from the context of the target thread.
*/
pte_osResult pte_osThreadExitAndDelete(pte_osThreadHandle handle);
/**
* Cancels the specified thread. This should cause pte_osSemaphoreCancellablePend() and for pte_osThreadCheckCancel()
* to return @p PTE_OS_INTERRUPTED.
*
* @param threadHandle handle to the thread to cancel.
*
* @return Thread successfully canceled.
*/
pte_osResult pte_osThreadCancel(pte_osThreadHandle threadHandle);
/**
* Check if pte_osThreadCancel() has been called on the specified thread.
*
* @param threadHandle handle of thread to check the state of.
*
* @return PTE_OS_OK - Thread has not been cancelled
* @return PTE_OS_INTERRUPTED - Thread has been cancelled.
*/
pte_osResult pte_osThreadCheckCancel(pte_osThreadHandle threadHandle);
/**
* Causes the current thread to sleep for the specified number of milliseconds.
*/
void pte_osThreadSleep(unsigned int msecs);
/**
* Returns the maximum allowable priority
*/
int pte_osThreadGetMaxPriority();
/**
* Returns the minimum allowable priority
*/
int pte_osThreadGetMinPriority();
/**
* Returns the priority that should be used if the caller to pthread_create doesn't
* explicitly set one.
*/
int pte_osThreadGetDefaultPriority();
//@}
/** @name Semaphores */
//@{
/**
* Creates a semaphore
*
* @param initialValue Initial value of the semaphore
* @param pHandle Set to the handle of the newly created semaphore.
*
* @return PTE_OS_OK - Semaphore successfully created
* @return PTE_OS_NO_RESOURCESs - Insufficient resources to create semaphore
*/
pte_osResult pte_osSemaphoreCreate(int initialValue, pte_osSemaphoreHandle *pHandle);
/**
* Deletes a semaphore and frees any associated resources.
*
* @param handle Handle of semaphore to delete.
*
* @return PTE_OS_OK - Semaphore successfully deleted.
*/
pte_osResult pte_osSemaphoreDelete(pte_osSemaphoreHandle handle);
/**
* Posts to the semaphore
*
* @param handle Semaphore to release
* @param count Amount to increment the semaphore by.
*
* @return PTE_OS_OK - semaphore successfully released.
*/
pte_osResult pte_osSemaphorePost(pte_osSemaphoreHandle handle, int count);
/**
* Acquire a semaphore, returning after @p timeoutMsecs if the semaphore is not
* available. Can be used for polling a semaphore by using @p timeoutMsecs of zero.
*
* @param handle Handle of semaphore to acquire.
* @param pTimeout Pointer to the number of milliseconds to wait to acquire the semaphore
* before returning. If set to NULL, wait forever.
*
* @return PTE_OS_OK - Semaphore successfully acquired.
* @return PTE_OS_TIMEOUT - Timeout expired before semaphore was obtained.
*/
pte_osResult pte_osSemaphorePend(pte_osSemaphoreHandle handle, unsigned int *pTimeout);
/**
* Acquire a semaphore, returning after @p timeoutMsecs if the semaphore is not
* available. Can be used for polling a semaphore by using @p timeoutMsecs of zero.
* Call must return immediately if pte_osThreadCancel() is called on the thread waiting for
* the semaphore.
*
* @param handle Handle of semaphore to acquire.
* @param pTimeout Pointer to the number of milliseconds to wait to acquire the semaphore
* before returning. If set to NULL, wait forever.
*
* @return PTE_OS_OK - Semaphore successfully acquired.
* @return PTE_OS_TIMEOUT - Timeout expired before semaphore was obtained.
*/
pte_osResult pte_osSemaphoreCancellablePend(pte_osSemaphoreHandle handle, unsigned int *pTimeout);
//@}
/** @name Thread Local Storage */
//@{
/**
* Sets the thread specific value for the specified key for the
* currently executing thread.
*
* @param index The TLS key for the value.
* @param value The value to save
*/
pte_osResult pte_osTlsSetValue(unsigned int key, void * value);
/**
* Retrieves the thread specific value for the specified key for
* the currently executing thread. If a value has not been set
* for this key, NULL should be returned (i.e. TLS values default
* to NULL).
*
* @param index The TLS key for the value.
*
* @return The value associated with @p key for the current thread.
*/
void * pte_osTlsGetValue(unsigned int key);
/**
* Initializes the OS TLS support. This is called by the PTE library
* prior to performing ANY TLS operation.
*/
void pte_osTlsInit(void);
/**
* Allocates a new TLS key.
*
* @param pKey On success will be set to the newly allocated key.
*
* @return PTE_OS_OK - TLS key successfully allocated.
* @return PTE_OS_NO_RESOURCESs - Insufficient resources to allocate key (e.g.
* maximum number of keys reached).
*/
pte_osResult pte_osTlsAlloc(unsigned int *pKey);
/**
* Frees the specified TLS key.
*
* @param index TLS key to free
*
* @return PTE_OS_OK - TLS key was successfully freed.
*/
pte_osResult pte_osTlsFree(unsigned int key);
//@}
/** @name Atomic operations */
//@{
/**
* Sets the target to the specified value as an atomic operation.
*
* \code
* origVal = *ptarg
* *ptarg = val
* return origVal
* \endcode
*
* @param pTarg Pointer to the value to be exchanged.
* @param val Value to be exchanged
*
* @return original value of destination
*/
int pte_osAtomicExchange(int *pTarg, int val);
/**
* Performs an atomic compare-and-exchange oepration on the specified
* value. That is:
*
* \code
* origVal = *pdest
* if (*pdest == comp)
* then *pdest = exchange
* return origVal
* \endcode
*
* @param pdest Pointer to the destination value.
* @param exchange Exchange value (value to set destination to if destination == comparand)
* @param comp The value to compare to destination.
*
* @return Original value of destination
*/
int pte_osAtomicCompareExchange(int *pdest, int exchange, int comp);
/**
* Adds the value to target as an atomic operation
*
* \code
* origVal = *pdest
* *pAddend += value
* return origVal
* \endcode
*
* @param pdest Pointer to the variable to be updated.
* @param value Value to be added to the variable.
*
* @return Original value of destination
*/
int pte_osAtomicExchangeAdd(int volatile* pdest, int value);
/**
* Decrements the destination.
*
* \code
* origVal = *pdest
* *pdest++
* return origVal
* \endcode
*
* @param pdest Destination value to decrement
*
* @return Original destination value
*/
int pte_osAtomicDecrement(int *pdest);
/**
* Increments the destination value
*
* \code
* origVal = *pdest;
* *pdest++;
* return origVal;
*/
int pte_osAtomicIncrement(int *pdest);
//@}
struct timeb;
int ftime(struct timeb *tb);
#ifdef __cplusplus
}
#endif // __cplusplus
#endif // _OS_SUPPORT_H_