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/*
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* FreeRTOS Kernel V10 .0 .1
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* Copyright ( C ) 2017 Amazon . com , Inc . or its affiliates . All Rights Reserved .
*
* Permission is hereby granted , free of charge , to any person obtaining a copy of
* this software and associated documentation files ( the " Software " ) , to deal in
* the Software without restriction , including without limitation the rights to
* use , copy , modify , merge , publish , distribute , sublicense , and / or sell copies of
* the Software , and to permit persons to whom the Software is furnished to do so ,
* subject to the following conditions :
*
* The above copyright notice and this permission notice shall be included in all
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* copies or substantial portions of the Software .
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*
* THE SOFTWARE IS PROVIDED " AS IS " , WITHOUT WARRANTY OF ANY KIND , EXPRESS OR
* IMPLIED , INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY , FITNESS
* FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT . IN NO EVENT SHALL THE AUTHORS OR
* COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM , DAMAGES OR OTHER LIABILITY , WHETHER
* IN AN ACTION OF CONTRACT , TORT OR OTHERWISE , ARISING FROM , OUT OF OR IN
* CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE .
*
* http : //www.FreeRTOS.org
* http : //aws.amazon.com/freertos
*
* 1 tab = = 4 spaces !
*/
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# ifndef TIMERS_H
# define TIMERS_H
# ifndef INC_FREERTOS_H
# error "include FreeRTOS.h must appear in source files before include timers.h"
# endif
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/*lint -save -e537 This headers are only multiply included if the application code
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happens to also be including task . h . */
# include "task.h"
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/*lint -restore */
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# ifdef __cplusplus
extern " C " {
# endif
/*-----------------------------------------------------------
* MACROS AND DEFINITIONS
* - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - */
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/* IDs for commands that can be sent/received on the timer queue. These are to
be used solely through the macros that make up the public software timer API ,
as defined below . The commands that are sent from interrupts must use the
highest numbers as tmrFIRST_FROM_ISR_COMMAND is used to determine if the task
or interrupt version of the queue send function should be used . */
# define tmrCOMMAND_EXECUTE_CALLBACK_FROM_ISR ( ( BaseType_t ) -2 )
# define tmrCOMMAND_EXECUTE_CALLBACK ( ( BaseType_t ) -1 )
# define tmrCOMMAND_START_DONT_TRACE ( ( BaseType_t ) 0 )
# define tmrCOMMAND_START ( ( BaseType_t ) 1 )
# define tmrCOMMAND_RESET ( ( BaseType_t ) 2 )
# define tmrCOMMAND_STOP ( ( BaseType_t ) 3 )
# define tmrCOMMAND_CHANGE_PERIOD ( ( BaseType_t ) 4 )
# define tmrCOMMAND_DELETE ( ( BaseType_t ) 5 )
# define tmrFIRST_FROM_ISR_COMMAND ( ( BaseType_t ) 6 )
# define tmrCOMMAND_START_FROM_ISR ( ( BaseType_t ) 6 )
# define tmrCOMMAND_RESET_FROM_ISR ( ( BaseType_t ) 7 )
# define tmrCOMMAND_STOP_FROM_ISR ( ( BaseType_t ) 8 )
# define tmrCOMMAND_CHANGE_PERIOD_FROM_ISR ( ( BaseType_t ) 9 )
/**
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* Type by which software timers are referenced . For example , a call to
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* xTimerCreate ( ) returns an TimerHandle_t variable that can then be used to
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* reference the subject timer in calls to other software timer API functions
* ( for example , xTimerStart ( ) , xTimerReset ( ) , etc . ) .
*/
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typedef void * TimerHandle_t ;
/*
* Defines the prototype to which timer callback functions must conform .
*/
typedef void ( * TimerCallbackFunction_t ) ( TimerHandle_t xTimer ) ;
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/*
* Defines the prototype to which functions used with the
* xTimerPendFunctionCallFromISR ( ) function must conform .
*/
typedef void ( * PendedFunction_t ) ( void * , uint32_t ) ;
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/**
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* TimerHandle_t xTimerCreate ( const char * const pcTimerName ,
* TickType_t xTimerPeriodInTicks ,
* UBaseType_t uxAutoReload ,
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* void * pvTimerID ,
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* TimerCallbackFunction_t pxCallbackFunction ) ;
*
* Creates a new software timer instance , and returns a handle by which the
* created software timer can be referenced .
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*
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* Internally , within the FreeRTOS implementation , software timers use a block
* of memory , in which the timer data structure is stored . If a software timer
* is created using xTimerCreate ( ) then the required memory is automatically
* dynamically allocated inside the xTimerCreate ( ) function . ( see
* http : //www.freertos.org/a00111.html). If a software timer is created using
* xTimerCreateStatic ( ) then the application writer must provide the memory that
* will get used by the software timer . xTimerCreateStatic ( ) therefore allows a
* software timer to be created without using any dynamic memory allocation .
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*
* Timers are created in the dormant state . The xTimerStart ( ) , xTimerReset ( ) ,
* xTimerStartFromISR ( ) , xTimerResetFromISR ( ) , xTimerChangePeriod ( ) and
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* xTimerChangePeriodFromISR ( ) API functions can all be used to transition a
* timer into the active state .
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*
* @ param pcTimerName A text name that is assigned to the timer . This is done
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* purely to assist debugging . The kernel itself only ever references a timer
* by its handle , and never by its name .
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*
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* @ param xTimerPeriodInTicks The timer period . The time is defined in tick
* periods so the constant portTICK_PERIOD_MS can be used to convert a time that
* has been specified in milliseconds . For example , if the timer must expire
* after 100 ticks , then xTimerPeriodInTicks should be set to 100.
* Alternatively , if the timer must expire after 500 ms , then xPeriod can be set
* to ( 500 / portTICK_PERIOD_MS ) provided configTICK_RATE_HZ is less than or
* equal to 1000.
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*
* @ param uxAutoReload If uxAutoReload is set to pdTRUE then the timer will
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* expire repeatedly with a frequency set by the xTimerPeriodInTicks parameter .
* If uxAutoReload is set to pdFALSE then the timer will be a one - shot timer and
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* enter the dormant state after it expires .
*
* @ param pvTimerID An identifier that is assigned to the timer being created .
* Typically this would be used in the timer callback function to identify which
* timer expired when the same callback function is assigned to more than one
* timer .
*
* @ param pxCallbackFunction The function to call when the timer expires .
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* Callback functions must have the prototype defined by TimerCallbackFunction_t ,
* which is " void vCallbackFunction( TimerHandle_t xTimer ); " .
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*
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* @ return If the timer is successfully created then a handle to the newly
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* created timer is returned . If the timer cannot be created ( because either
* there is insufficient FreeRTOS heap remaining to allocate the timer
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* structures , or the timer period was set to 0 ) then NULL is returned .
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*
* Example usage :
* @ verbatim
* # define NUM_TIMERS 5
*
* // An array to hold handles to the created timers.
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* TimerHandle_t xTimers [ NUM_TIMERS ] ;
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*
* // An array to hold a count of the number of times each timer expires.
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* int32_t lExpireCounters [ NUM_TIMERS ] = { 0 } ;
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*
* // Define a callback function that will be used by multiple timer instances.
* // The callback function does nothing but count the number of times the
* // associated timer expires, and stop the timer once the timer has expired
* // 10 times.
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* void vTimerCallback ( TimerHandle_t pxTimer )
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* {
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* int32_t lArrayIndex ;
* const int32_t xMaxExpiryCountBeforeStopping = 10 ;
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*
* // Optionally do something if the pxTimer parameter is NULL.
* configASSERT ( pxTimer ) ;
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*
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* // Which timer expired?
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* lArrayIndex = ( int32_t ) pvTimerGetTimerID ( pxTimer ) ;
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*
* // Increment the number of times that pxTimer has expired.
* lExpireCounters [ lArrayIndex ] + = 1 ;
*
* // If the timer has expired 10 times then stop it from running.
* if ( lExpireCounters [ lArrayIndex ] = = xMaxExpiryCountBeforeStopping )
* {
* // Do not use a block time if calling a timer API function from a
* // timer callback function, as doing so could cause a deadlock!
* xTimerStop ( pxTimer , 0 ) ;
* }
* }
*
* void main ( void )
* {
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* int32_t x ;
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*
* // Create then start some timers. Starting the timers before the scheduler
* // has been started means the timers will start running immediately that
* // the scheduler starts.
* for ( x = 0 ; x < NUM_TIMERS ; x + + )
* {
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* xTimers [ x ] = xTimerCreate ( " Timer " , // Just a text name, not used by the kernel.
* ( 100 * x ) , // The timer period in ticks.
* pdTRUE , // The timers will auto-reload themselves when they expire.
* ( void * ) x , // Assign each timer a unique id equal to its array index.
* vTimerCallback // Each timer calls the same callback when it expires.
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* ) ;
*
* if ( xTimers [ x ] = = NULL )
* {
* // The timer was not created.
* }
* else
* {
* // Start the timer. No block time is specified, and even if one was
* // it would be ignored because the scheduler has not yet been
* // started.
* if ( xTimerStart ( xTimers [ x ] , 0 ) ! = pdPASS )
* {
* // The timer could not be set into the Active state.
* }
* }
* }
*
* // ...
* // Create tasks here.
* // ...
*
* // Starting the scheduler will start the timers running as they have already
* // been set into the active state.
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* vTaskStartScheduler ( ) ;
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*
* // Should not reach here.
* for ( ; ; ) ;
* }
* @ endverbatim
*/
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# if( configSUPPORT_DYNAMIC_ALLOCATION == 1 )
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TimerHandle_t xTimerCreate ( const char * const pcTimerName , /*lint !e971 Unqualified char types are allowed for strings and single characters only. */
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const TickType_t xTimerPeriodInTicks ,
const UBaseType_t uxAutoReload ,
void * const pvTimerID ,
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TimerCallbackFunction_t pxCallbackFunction ) PRIVILEGED_FUNCTION ;
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# endif
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/**
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* TimerHandle_t xTimerCreateStatic ( const char * const pcTimerName ,
* TickType_t xTimerPeriodInTicks ,
* UBaseType_t uxAutoReload ,
* void * pvTimerID ,
* TimerCallbackFunction_t pxCallbackFunction ,
* StaticTimer_t * pxTimerBuffer ) ;
*
* Creates a new software timer instance , and returns a handle by which the
* created software timer can be referenced .
*
* Internally , within the FreeRTOS implementation , software timers use a block
* of memory , in which the timer data structure is stored . If a software timer
* is created using xTimerCreate ( ) then the required memory is automatically
* dynamically allocated inside the xTimerCreate ( ) function . ( see
* http : //www.freertos.org/a00111.html). If a software timer is created using
* xTimerCreateStatic ( ) then the application writer must provide the memory that
* will get used by the software timer . xTimerCreateStatic ( ) therefore allows a
* software timer to be created without using any dynamic memory allocation .
*
* Timers are created in the dormant state . The xTimerStart ( ) , xTimerReset ( ) ,
* xTimerStartFromISR ( ) , xTimerResetFromISR ( ) , xTimerChangePeriod ( ) and
* xTimerChangePeriodFromISR ( ) API functions can all be used to transition a
* timer into the active state .
*
* @ param pcTimerName A text name that is assigned to the timer . This is done
* purely to assist debugging . The kernel itself only ever references a timer
* by its handle , and never by its name .
*
* @ param xTimerPeriodInTicks The timer period . The time is defined in tick
* periods so the constant portTICK_PERIOD_MS can be used to convert a time that
* has been specified in milliseconds . For example , if the timer must expire
* after 100 ticks , then xTimerPeriodInTicks should be set to 100.
* Alternatively , if the timer must expire after 500 ms , then xPeriod can be set
* to ( 500 / portTICK_PERIOD_MS ) provided configTICK_RATE_HZ is less than or
* equal to 1000.
*
* @ param uxAutoReload If uxAutoReload is set to pdTRUE then the timer will
* expire repeatedly with a frequency set by the xTimerPeriodInTicks parameter .
* If uxAutoReload is set to pdFALSE then the timer will be a one - shot timer and
* enter the dormant state after it expires .
*
* @ param pvTimerID An identifier that is assigned to the timer being created .
* Typically this would be used in the timer callback function to identify which
* timer expired when the same callback function is assigned to more than one
* timer .
*
* @ param pxCallbackFunction The function to call when the timer expires .
* Callback functions must have the prototype defined by TimerCallbackFunction_t ,
* which is " void vCallbackFunction( TimerHandle_t xTimer ); " .
*
* @ param pxTimerBuffer Must point to a variable of type StaticTimer_t , which
* will be then be used to hold the software timer ' s data structures , removing
* the need for the memory to be allocated dynamically .
*
* @ return If the timer is created then a handle to the created timer is
* returned . If pxTimerBuffer was NULL then NULL is returned .
*
* Example usage :
* @ verbatim
*
* // The buffer used to hold the software timer's data structure.
* static StaticTimer_t xTimerBuffer ;
*
* // A variable that will be incremented by the software timer's callback
* // function.
* UBaseType_t uxVariableToIncrement = 0 ;
*
* // A software timer callback function that increments a variable passed to
* // it when the software timer was created. After the 5th increment the
* // callback function stops the software timer.
* static void prvTimerCallback ( TimerHandle_t xExpiredTimer )
* {
* UBaseType_t * puxVariableToIncrement ;
* BaseType_t xReturned ;
*
* // Obtain the address of the variable to increment from the timer ID.
* puxVariableToIncrement = ( UBaseType_t * ) pvTimerGetTimerID ( xExpiredTimer ) ;
*
* // Increment the variable to show the timer callback has executed.
* ( * puxVariableToIncrement ) + + ;
*
* // If this callback has executed the required number of times, stop the
* // timer.
* if ( * puxVariableToIncrement = = 5 )
* {
* // This is called from a timer callback so must not block.
* xTimerStop ( xExpiredTimer , staticDONT_BLOCK ) ;
* }
* }
*
*
* void main ( void )
* {
* // Create the software time. xTimerCreateStatic() has an extra parameter
* // than the normal xTimerCreate() API function. The parameter is a pointer
* // to the StaticTimer_t structure that will hold the software timer
* // structure. If the parameter is passed as NULL then the structure will be
* // allocated dynamically, just as if xTimerCreate() had been called.
* xTimer = xTimerCreateStatic ( " T1 " , // Text name for the task. Helps debugging only. Not used by FreeRTOS.
* xTimerPeriod , // The period of the timer in ticks.
* pdTRUE , // This is an auto-reload timer.
* ( void * ) & uxVariableToIncrement , // A variable incremented by the software timer's callback function
* prvTimerCallback , // The function to execute when the timer expires.
* & xTimerBuffer ) ; // The buffer that will hold the software timer structure.
*
* // The scheduler has not started yet so a block time is not used.
* xReturned = xTimerStart ( xTimer , 0 ) ;
*
* // ...
* // Create tasks here.
* // ...
*
* // Starting the scheduler will start the timers running as they have already
* // been set into the active state.
* vTaskStartScheduler ( ) ;
*
* // Should not reach here.
* for ( ; ; ) ;
* }
* @ endverbatim
*/
# if( configSUPPORT_STATIC_ALLOCATION == 1 )
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TimerHandle_t xTimerCreateStatic ( const char * const pcTimerName , /*lint !e971 Unqualified char types are allowed for strings and single characters only. */
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const TickType_t xTimerPeriodInTicks ,
const UBaseType_t uxAutoReload ,
void * const pvTimerID ,
TimerCallbackFunction_t pxCallbackFunction ,
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StaticTimer_t * pxTimerBuffer ) PRIVILEGED_FUNCTION ;
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# endif /* configSUPPORT_STATIC_ALLOCATION */
/**
* void * pvTimerGetTimerID ( TimerHandle_t xTimer ) ;
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*
* Returns the ID assigned to the timer .
*
* IDs are assigned to timers using the pvTimerID parameter of the call to
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* xTimerCreated ( ) that was used to create the timer , and by calling the
* vTimerSetTimerID ( ) API function .
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*
* If the same callback function is assigned to multiple timers then the timer
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* ID can be used as time specific ( timer local ) storage .
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*
* @ param xTimer The timer being queried .
*
* @ return The ID assigned to the timer being queried .
*
* Example usage :
*
* See the xTimerCreate ( ) API function example usage scenario .
*/
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void * pvTimerGetTimerID ( const TimerHandle_t xTimer ) PRIVILEGED_FUNCTION ;
/**
* void vTimerSetTimerID ( TimerHandle_t xTimer , void * pvNewID ) ;
*
* Sets the ID assigned to the timer .
*
* IDs are assigned to timers using the pvTimerID parameter of the call to
* xTimerCreated ( ) that was used to create the timer .
*
* If the same callback function is assigned to multiple timers then the timer
* ID can be used as time specific ( timer local ) storage .
*
* @ param xTimer The timer being updated .
*
* @ param pvNewID The ID to assign to the timer .
*
* Example usage :
*
* See the xTimerCreate ( ) API function example usage scenario .
*/
void vTimerSetTimerID ( TimerHandle_t xTimer , void * pvNewID ) PRIVILEGED_FUNCTION ;
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/**
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* BaseType_t xTimerIsTimerActive ( TimerHandle_t xTimer ) ;
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*
* Queries a timer to see if it is active or dormant .
*
* A timer will be dormant if :
* 1 ) It has been created but not started , or
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* 2 ) It is an expired one - shot timer that has not been restarted .
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*
* Timers are created in the dormant state . The xTimerStart ( ) , xTimerReset ( ) ,
* xTimerStartFromISR ( ) , xTimerResetFromISR ( ) , xTimerChangePeriod ( ) and
* xTimerChangePeriodFromISR ( ) API functions can all be used to transition a timer into the
* active state .
*
* @ param xTimer The timer being queried .
*
* @ return pdFALSE will be returned if the timer is dormant . A value other than
* pdFALSE will be returned if the timer is active .
*
* Example usage :
* @ verbatim
* // This function assumes xTimer has already been created.
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* void vAFunction ( TimerHandle_t xTimer )
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* {
* if ( xTimerIsTimerActive ( xTimer ) ! = pdFALSE ) // or more simply and equivalently "if( xTimerIsTimerActive( xTimer ) )"
* {
* // xTimer is active, do something.
* }
* else
* {
* // xTimer is not active, do something else.
* }
* }
* @ endverbatim
*/
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BaseType_t xTimerIsTimerActive ( TimerHandle_t xTimer ) PRIVILEGED_FUNCTION ;
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/**
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* TaskHandle_t xTimerGetTimerDaemonTaskHandle ( void ) ;
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*
* Simply returns the handle of the timer service / daemon task . It it not valid
* to call xTimerGetTimerDaemonTaskHandle ( ) before the scheduler has been started .
*/
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TaskHandle_t xTimerGetTimerDaemonTaskHandle ( void ) PRIVILEGED_FUNCTION ;
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/**
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* BaseType_t xTimerStart ( TimerHandle_t xTimer , TickType_t xTicksToWait ) ;
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*
* Timer functionality is provided by a timer service / daemon task . Many of the
* public FreeRTOS timer API functions send commands to the timer service task
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* through a queue called the timer command queue . The timer command queue is
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* private to the kernel itself and is not directly accessible to application
* code . The length of the timer command queue is set by the
* configTIMER_QUEUE_LENGTH configuration constant .
*
* xTimerStart ( ) starts a timer that was previously created using the
* xTimerCreate ( ) API function . If the timer had already been started and was
* already in the active state , then xTimerStart ( ) has equivalent functionality
* to the xTimerReset ( ) API function .
*
* Starting a timer ensures the timer is in the active state . If the timer
* is not stopped , deleted , or reset in the mean time , the callback function
* associated with the timer will get called ' n ' ticks after xTimerStart ( ) was
* called , where ' n ' is the timers defined period .
*
* It is valid to call xTimerStart ( ) before the scheduler has been started , but
* when this is done the timer will not actually start until the scheduler is
* started , and the timers expiry time will be relative to when the scheduler is
* started , not relative to when xTimerStart ( ) was called .
*
* The configUSE_TIMERS configuration constant must be set to 1 for xTimerStart ( )
* to be available .
*
* @ param xTimer The handle of the timer being started / restarted .
*
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* @ param xTicksToWait Specifies the time , in ticks , that the calling task should
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* be held in the Blocked state to wait for the start command to be successfully
* sent to the timer command queue , should the queue already be full when
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* xTimerStart ( ) was called . xTicksToWait is ignored if xTimerStart ( ) is called
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* before the scheduler is started .
*
* @ return pdFAIL will be returned if the start command could not be sent to
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* the timer command queue even after xTicksToWait ticks had passed . pdPASS will
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* be returned if the command was successfully sent to the timer command queue .
* When the command is actually processed will depend on the priority of the
* timer service / daemon task relative to other tasks in the system , although the
* timers expiry time is relative to when xTimerStart ( ) is actually called . The
* timer service / daemon task priority is set by the configTIMER_TASK_PRIORITY
* configuration constant .
*
* Example usage :
*
* See the xTimerCreate ( ) API function example usage scenario .
*
*/
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# define xTimerStart( xTimer, xTicksToWait ) xTimerGenericCommand( ( xTimer ), tmrCOMMAND_START, ( xTaskGetTickCount() ), NULL, ( xTicksToWait ) )
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/**
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* BaseType_t xTimerStop ( TimerHandle_t xTimer , TickType_t xTicksToWait ) ;
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*
* Timer functionality is provided by a timer service / daemon task . Many of the
* public FreeRTOS timer API functions send commands to the timer service task
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* through a queue called the timer command queue . The timer command queue is
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* private to the kernel itself and is not directly accessible to application
* code . The length of the timer command queue is set by the
* configTIMER_QUEUE_LENGTH configuration constant .
*
* xTimerStop ( ) stops a timer that was previously started using either of the
* The xTimerStart ( ) , xTimerReset ( ) , xTimerStartFromISR ( ) , xTimerResetFromISR ( ) ,
* xTimerChangePeriod ( ) or xTimerChangePeriodFromISR ( ) API functions .
*
* Stopping a timer ensures the timer is not in the active state .
*
* The configUSE_TIMERS configuration constant must be set to 1 for xTimerStop ( )
* to be available .
*
* @ param xTimer The handle of the timer being stopped .
*
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* @ param xTicksToWait Specifies the time , in ticks , that the calling task should
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* be held in the Blocked state to wait for the stop command to be successfully
* sent to the timer command queue , should the queue already be full when
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* xTimerStop ( ) was called . xTicksToWait is ignored if xTimerStop ( ) is called
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* before the scheduler is started .
*
* @ return pdFAIL will be returned if the stop command could not be sent to
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* the timer command queue even after xTicksToWait ticks had passed . pdPASS will
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* be returned if the command was successfully sent to the timer command queue .
* When the command is actually processed will depend on the priority of the
* timer service / daemon task relative to other tasks in the system . The timer
* service / daemon task priority is set by the configTIMER_TASK_PRIORITY
* configuration constant .
*
* Example usage :
*
* See the xTimerCreate ( ) API function example usage scenario .
*
*/
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# define xTimerStop( xTimer, xTicksToWait ) xTimerGenericCommand( ( xTimer ), tmrCOMMAND_STOP, 0U, NULL, ( xTicksToWait ) )
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/**
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* BaseType_t xTimerChangePeriod ( TimerHandle_t xTimer ,
* TickType_t xNewPeriod ,
* TickType_t xTicksToWait ) ;
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*
* Timer functionality is provided by a timer service / daemon task . Many of the
* public FreeRTOS timer API functions send commands to the timer service task
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* through a queue called the timer command queue . The timer command queue is
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* private to the kernel itself and is not directly accessible to application
* code . The length of the timer command queue is set by the
* configTIMER_QUEUE_LENGTH configuration constant .
*
* xTimerChangePeriod ( ) changes the period of a timer that was previously
* created using the xTimerCreate ( ) API function .
*
* xTimerChangePeriod ( ) can be called to change the period of an active or
* dormant state timer .
*
* The configUSE_TIMERS configuration constant must be set to 1 for
* xTimerChangePeriod ( ) to be available .
*
* @ param xTimer The handle of the timer that is having its period changed .
*
* @ param xNewPeriod The new period for xTimer . Timer periods are specified in
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* tick periods , so the constant portTICK_PERIOD_MS can be used to convert a time
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* that has been specified in milliseconds . For example , if the timer must
* expire after 100 ticks , then xNewPeriod should be set to 100. Alternatively ,
* if the timer must expire after 500 ms , then xNewPeriod can be set to
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* ( 500 / portTICK_PERIOD_MS ) provided configTICK_RATE_HZ is less than
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* or equal to 1000.
*
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* @ param xTicksToWait Specifies the time , in ticks , that the calling task should
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* be held in the Blocked state to wait for the change period command to be
* successfully sent to the timer command queue , should the queue already be
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* full when xTimerChangePeriod ( ) was called . xTicksToWait is ignored if
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* xTimerChangePeriod ( ) is called before the scheduler is started .
*
* @ return pdFAIL will be returned if the change period command could not be
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* sent to the timer command queue even after xTicksToWait ticks had passed .
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* pdPASS will be returned if the command was successfully sent to the timer
* command queue . When the command is actually processed will depend on the
* priority of the timer service / daemon task relative to other tasks in the
* system . The timer service / daemon task priority is set by the
* configTIMER_TASK_PRIORITY configuration constant .
*
* Example usage :
* @ verbatim
* // This function assumes xTimer has already been created. If the timer
* // referenced by xTimer is already active when it is called, then the timer
* // is deleted. If the timer referenced by xTimer is not active when it is
* // called, then the period of the timer is set to 500ms and the timer is
* // started.
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* void vAFunction ( TimerHandle_t xTimer )
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* {
* if ( xTimerIsTimerActive ( xTimer ) ! = pdFALSE ) // or more simply and equivalently "if( xTimerIsTimerActive( xTimer ) )"
* {
* // xTimer is already active - delete it.
* xTimerDelete ( xTimer ) ;
* }
* else
* {
* // xTimer is not active, change its period to 500ms. This will also
* // cause the timer to start. Block for a maximum of 100 ticks if the
* // change period command cannot immediately be sent to the timer
* // command queue.
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* if ( xTimerChangePeriod ( xTimer , 500 / portTICK_PERIOD_MS , 100 ) = = pdPASS )
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* {
* // The command was successfully sent.
* }
* else
* {
* // The command could not be sent, even after waiting for 100 ticks
* // to pass. Take appropriate action here.
* }
* }
* }
* @ endverbatim
*/
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# define xTimerChangePeriod( xTimer, xNewPeriod, xTicksToWait ) xTimerGenericCommand( ( xTimer ), tmrCOMMAND_CHANGE_PERIOD, ( xNewPeriod ), NULL, ( xTicksToWait ) )
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/**
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* BaseType_t xTimerDelete ( TimerHandle_t xTimer , TickType_t xTicksToWait ) ;
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*
* Timer functionality is provided by a timer service / daemon task . Many of the
* public FreeRTOS timer API functions send commands to the timer service task
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* through a queue called the timer command queue . The timer command queue is
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* private to the kernel itself and is not directly accessible to application
* code . The length of the timer command queue is set by the
* configTIMER_QUEUE_LENGTH configuration constant .
*
* xTimerDelete ( ) deletes a timer that was previously created using the
* xTimerCreate ( ) API function .
*
* The configUSE_TIMERS configuration constant must be set to 1 for
* xTimerDelete ( ) to be available .
*
* @ param xTimer The handle of the timer being deleted .
*
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* @ param xTicksToWait Specifies the time , in ticks , that the calling task should
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* be held in the Blocked state to wait for the delete command to be
* successfully sent to the timer command queue , should the queue already be
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* full when xTimerDelete ( ) was called . xTicksToWait is ignored if xTimerDelete ( )
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* is called before the scheduler is started .
*
* @ return pdFAIL will be returned if the delete command could not be sent to
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* the timer command queue even after xTicksToWait ticks had passed . pdPASS will
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* be returned if the command was successfully sent to the timer command queue .
* When the command is actually processed will depend on the priority of the
* timer service / daemon task relative to other tasks in the system . The timer
* service / daemon task priority is set by the configTIMER_TASK_PRIORITY
* configuration constant .
*
* Example usage :
*
* See the xTimerChangePeriod ( ) API function example usage scenario .
*/
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# define xTimerDelete( xTimer, xTicksToWait ) xTimerGenericCommand( ( xTimer ), tmrCOMMAND_DELETE, 0U, NULL, ( xTicksToWait ) )
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/**
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* BaseType_t xTimerReset ( TimerHandle_t xTimer , TickType_t xTicksToWait ) ;
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*
* Timer functionality is provided by a timer service / daemon task . Many of the
* public FreeRTOS timer API functions send commands to the timer service task
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* through a queue called the timer command queue . The timer command queue is
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* private to the kernel itself and is not directly accessible to application
* code . The length of the timer command queue is set by the
* configTIMER_QUEUE_LENGTH configuration constant .
*
* xTimerReset ( ) re - starts a timer that was previously created using the
* xTimerCreate ( ) API function . If the timer had already been started and was
* already in the active state , then xTimerReset ( ) will cause the timer to
* re - evaluate its expiry time so that it is relative to when xTimerReset ( ) was
* called . If the timer was in the dormant state then xTimerReset ( ) has
* equivalent functionality to the xTimerStart ( ) API function .
*
* Resetting a timer ensures the timer is in the active state . If the timer
* is not stopped , deleted , or reset in the mean time , the callback function
* associated with the timer will get called ' n ' ticks after xTimerReset ( ) was
* called , where ' n ' is the timers defined period .
*
* It is valid to call xTimerReset ( ) before the scheduler has been started , but
* when this is done the timer will not actually start until the scheduler is
* started , and the timers expiry time will be relative to when the scheduler is
* started , not relative to when xTimerReset ( ) was called .
*
* The configUSE_TIMERS configuration constant must be set to 1 for xTimerReset ( )
* to be available .
*
* @ param xTimer The handle of the timer being reset / started / restarted .
*
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* @ param xTicksToWait Specifies the time , in ticks , that the calling task should
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* be held in the Blocked state to wait for the reset command to be successfully
* sent to the timer command queue , should the queue already be full when
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* xTimerReset ( ) was called . xTicksToWait is ignored if xTimerReset ( ) is called
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* before the scheduler is started .
*
* @ return pdFAIL will be returned if the reset command could not be sent to
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* the timer command queue even after xTicksToWait ticks had passed . pdPASS will
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* be returned if the command was successfully sent to the timer command queue .
* When the command is actually processed will depend on the priority of the
* timer service / daemon task relative to other tasks in the system , although the
* timers expiry time is relative to when xTimerStart ( ) is actually called . The
* timer service / daemon task priority is set by the configTIMER_TASK_PRIORITY
* configuration constant .
*
* Example usage :
* @ verbatim
* // When a key is pressed, an LCD back-light is switched on. If 5 seconds pass
* // without a key being pressed, then the LCD back-light is switched off. In
* // this case, the timer is a one-shot timer.
*
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* TimerHandle_t xBacklightTimer = NULL ;
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*
* // The callback function assigned to the one-shot timer. In this case the
* // parameter is not used.
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* void vBacklightTimerCallback ( TimerHandle_t pxTimer )
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* {
* // The timer expired, therefore 5 seconds must have passed since a key
* // was pressed. Switch off the LCD back-light.
* vSetBacklightState ( BACKLIGHT_OFF ) ;
* }
*
* // The key press event handler.
* void vKeyPressEventHandler ( char cKey )
* {
* // Ensure the LCD back-light is on, then reset the timer that is
* // responsible for turning the back-light off after 5 seconds of
* // key inactivity. Wait 10 ticks for the command to be successfully sent
* // if it cannot be sent immediately.
* vSetBacklightState ( BACKLIGHT_ON ) ;
* if ( xTimerReset ( xBacklightTimer , 100 ) ! = pdPASS )
* {
* // The reset command was not executed successfully. Take appropriate
* // action here.
* }
*
* // Perform the rest of the key processing here.
* }
*
* void main ( void )
* {
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* int32_t x ;
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*
* // Create then start the one-shot timer that is responsible for turning
* // the back-light off if no keys are pressed within a 5 second period.
* xBacklightTimer = xTimerCreate ( " BacklightTimer " , // Just a text name, not used by the kernel.
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* ( 5000 / portTICK_PERIOD_MS ) , // The timer period in ticks.
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* pdFALSE , // The timer is a one-shot timer.
* 0 , // The id is not used by the callback so can take any value.
* vBacklightTimerCallback // The callback function that switches the LCD back-light off.
* ) ;
*
* if ( xBacklightTimer = = NULL )
* {
* // The timer was not created.
* }
* else
* {
* // Start the timer. No block time is specified, and even if one was
* // it would be ignored because the scheduler has not yet been
* // started.
* if ( xTimerStart ( xBacklightTimer , 0 ) ! = pdPASS )
* {
* // The timer could not be set into the Active state.
* }
* }
*
* // ...
* // Create tasks here.
* // ...
*
* // Starting the scheduler will start the timer running as it has already
* // been set into the active state.
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* vTaskStartScheduler ( ) ;
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*
* // Should not reach here.
* for ( ; ; ) ;
* }
* @ endverbatim
*/
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# define xTimerReset( xTimer, xTicksToWait ) xTimerGenericCommand( ( xTimer ), tmrCOMMAND_RESET, ( xTaskGetTickCount() ), NULL, ( xTicksToWait ) )
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/**
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* BaseType_t xTimerStartFromISR ( TimerHandle_t xTimer ,
* BaseType_t * pxHigherPriorityTaskWoken ) ;
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*
* A version of xTimerStart ( ) that can be called from an interrupt service
* routine .
*
* @ param xTimer The handle of the timer being started / restarted .
*
* @ param pxHigherPriorityTaskWoken The timer service / daemon task spends most
* of its time in the Blocked state , waiting for messages to arrive on the timer
* command queue . Calling xTimerStartFromISR ( ) writes a message to the timer
* command queue , so has the potential to transition the timer service / daemon
* task out of the Blocked state . If calling xTimerStartFromISR ( ) causes the
* timer service / daemon task to leave the Blocked state , and the timer service /
* daemon task has a priority equal to or greater than the currently executing
* task ( the task that was interrupted ) , then * pxHigherPriorityTaskWoken will
* get set to pdTRUE internally within the xTimerStartFromISR ( ) function . If
* xTimerStartFromISR ( ) sets this value to pdTRUE then a context switch should
* be performed before the interrupt exits .
*
* @ return pdFAIL will be returned if the start command could not be sent to
* the timer command queue . pdPASS will be returned if the command was
* successfully sent to the timer command queue . When the command is actually
* processed will depend on the priority of the timer service / daemon task
* relative to other tasks in the system , although the timers expiry time is
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* relative to when xTimerStartFromISR ( ) is actually called . The timer
* service / daemon task priority is set by the configTIMER_TASK_PRIORITY
* configuration constant .
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*
* Example usage :
* @ verbatim
* // This scenario assumes xBacklightTimer has already been created. When a
* // key is pressed, an LCD back-light is switched on. If 5 seconds pass
* // without a key being pressed, then the LCD back-light is switched off. In
* // this case, the timer is a one-shot timer, and unlike the example given for
* // the xTimerReset() function, the key press event handler is an interrupt
* // service routine.
*
* // The callback function assigned to the one-shot timer. In this case the
* // parameter is not used.
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* void vBacklightTimerCallback ( TimerHandle_t pxTimer )
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* {
* // The timer expired, therefore 5 seconds must have passed since a key
* // was pressed. Switch off the LCD back-light.
* vSetBacklightState ( BACKLIGHT_OFF ) ;
* }
*
* // The key press interrupt service routine.
* void vKeyPressEventInterruptHandler ( void )
* {
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* BaseType_t xHigherPriorityTaskWoken = pdFALSE ;
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*
* // Ensure the LCD back-light is on, then restart the timer that is
* // responsible for turning the back-light off after 5 seconds of
* // key inactivity. This is an interrupt service routine so can only
* // call FreeRTOS API functions that end in "FromISR".
* vSetBacklightState ( BACKLIGHT_ON ) ;
*
* // xTimerStartFromISR() or xTimerResetFromISR() could be called here
* // as both cause the timer to re-calculate its expiry time.
* // xHigherPriorityTaskWoken was initialised to pdFALSE when it was
* // declared (in this function).
* if ( xTimerStartFromISR ( xBacklightTimer , & xHigherPriorityTaskWoken ) ! = pdPASS )
* {
* // The start command was not executed successfully. Take appropriate
* // action here.
* }
*
* // Perform the rest of the key processing here.
*
* // If xHigherPriorityTaskWoken equals pdTRUE, then a context switch
* // should be performed. The syntax required to perform a context switch
* // from inside an ISR varies from port to port, and from compiler to
* // compiler. Inspect the demos for the port you are using to find the
* // actual syntax required.
* if ( xHigherPriorityTaskWoken ! = pdFALSE )
* {
* // Call the interrupt safe yield function here (actual function
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* // depends on the FreeRTOS port being used).
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* }
* }
* @ endverbatim
*/
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# define xTimerStartFromISR( xTimer, pxHigherPriorityTaskWoken ) xTimerGenericCommand( ( xTimer ), tmrCOMMAND_START_FROM_ISR, ( xTaskGetTickCountFromISR() ), ( pxHigherPriorityTaskWoken ), 0U )
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/**
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* BaseType_t xTimerStopFromISR ( TimerHandle_t xTimer ,
* BaseType_t * pxHigherPriorityTaskWoken ) ;
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*
* A version of xTimerStop ( ) that can be called from an interrupt service
* routine .
*
* @ param xTimer The handle of the timer being stopped .
*
* @ param pxHigherPriorityTaskWoken The timer service / daemon task spends most
* of its time in the Blocked state , waiting for messages to arrive on the timer
* command queue . Calling xTimerStopFromISR ( ) writes a message to the timer
* command queue , so has the potential to transition the timer service / daemon
* task out of the Blocked state . If calling xTimerStopFromISR ( ) causes the
* timer service / daemon task to leave the Blocked state , and the timer service /
* daemon task has a priority equal to or greater than the currently executing
* task ( the task that was interrupted ) , then * pxHigherPriorityTaskWoken will
* get set to pdTRUE internally within the xTimerStopFromISR ( ) function . If
* xTimerStopFromISR ( ) sets this value to pdTRUE then a context switch should
* be performed before the interrupt exits .
*
* @ return pdFAIL will be returned if the stop command could not be sent to
* the timer command queue . pdPASS will be returned if the command was
* successfully sent to the timer command queue . When the command is actually
* processed will depend on the priority of the timer service / daemon task
* relative to other tasks in the system . The timer service / daemon task
* priority is set by the configTIMER_TASK_PRIORITY configuration constant .
*
* Example usage :
* @ verbatim
* // This scenario assumes xTimer has already been created and started. When
* // an interrupt occurs, the timer should be simply stopped.
*
* // The interrupt service routine that stops the timer.
* void vAnExampleInterruptServiceRoutine ( void )
* {
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* BaseType_t xHigherPriorityTaskWoken = pdFALSE ;
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*
* // The interrupt has occurred - simply stop the timer.
* // xHigherPriorityTaskWoken was set to pdFALSE where it was defined
* // (within this function). As this is an interrupt service routine, only
* // FreeRTOS API functions that end in "FromISR" can be used.
* if ( xTimerStopFromISR ( xTimer , & xHigherPriorityTaskWoken ) ! = pdPASS )
* {
* // The stop command was not executed successfully. Take appropriate
* // action here.
* }
*
* // If xHigherPriorityTaskWoken equals pdTRUE, then a context switch
* // should be performed. The syntax required to perform a context switch
* // from inside an ISR varies from port to port, and from compiler to
* // compiler. Inspect the demos for the port you are using to find the
* // actual syntax required.
* if ( xHigherPriorityTaskWoken ! = pdFALSE )
* {
* // Call the interrupt safe yield function here (actual function
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* // depends on the FreeRTOS port being used).
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* }
* }
* @ endverbatim
*/
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# define xTimerStopFromISR( xTimer, pxHigherPriorityTaskWoken ) xTimerGenericCommand( ( xTimer ), tmrCOMMAND_STOP_FROM_ISR, 0, ( pxHigherPriorityTaskWoken ), 0U )
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/**
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* BaseType_t xTimerChangePeriodFromISR ( TimerHandle_t xTimer ,
* TickType_t xNewPeriod ,
* BaseType_t * pxHigherPriorityTaskWoken ) ;
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*
* A version of xTimerChangePeriod ( ) that can be called from an interrupt
* service routine .
*
* @ param xTimer The handle of the timer that is having its period changed .
*
* @ param xNewPeriod The new period for xTimer . Timer periods are specified in
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* tick periods , so the constant portTICK_PERIOD_MS can be used to convert a time
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* that has been specified in milliseconds . For example , if the timer must
* expire after 100 ticks , then xNewPeriod should be set to 100. Alternatively ,
* if the timer must expire after 500 ms , then xNewPeriod can be set to
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* ( 500 / portTICK_PERIOD_MS ) provided configTICK_RATE_HZ is less than
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* or equal to 1000.
*
* @ param pxHigherPriorityTaskWoken The timer service / daemon task spends most
* of its time in the Blocked state , waiting for messages to arrive on the timer
* command queue . Calling xTimerChangePeriodFromISR ( ) writes a message to the
* timer command queue , so has the potential to transition the timer service /
* daemon task out of the Blocked state . If calling xTimerChangePeriodFromISR ( )
* causes the timer service / daemon task to leave the Blocked state , and the
* timer service / daemon task has a priority equal to or greater than the
* currently executing task ( the task that was interrupted ) , then
* * pxHigherPriorityTaskWoken will get set to pdTRUE internally within the
* xTimerChangePeriodFromISR ( ) function . If xTimerChangePeriodFromISR ( ) sets
* this value to pdTRUE then a context switch should be performed before the
* interrupt exits .
*
* @ return pdFAIL will be returned if the command to change the timers period
* could not be sent to the timer command queue . pdPASS will be returned if the
* command was successfully sent to the timer command queue . When the command
* is actually processed will depend on the priority of the timer service / daemon
* task relative to other tasks in the system . The timer service / daemon task
* priority is set by the configTIMER_TASK_PRIORITY configuration constant .
*
* Example usage :
* @ verbatim
* // This scenario assumes xTimer has already been created and started. When
* // an interrupt occurs, the period of xTimer should be changed to 500ms.
*
* // The interrupt service routine that changes the period of xTimer.
* void vAnExampleInterruptServiceRoutine ( void )
* {
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* BaseType_t xHigherPriorityTaskWoken = pdFALSE ;
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*
* // The interrupt has occurred - change the period of xTimer to 500ms.
* // xHigherPriorityTaskWoken was set to pdFALSE where it was defined
* // (within this function). As this is an interrupt service routine, only
* // FreeRTOS API functions that end in "FromISR" can be used.
* if ( xTimerChangePeriodFromISR ( xTimer , & xHigherPriorityTaskWoken ) ! = pdPASS )
* {
* // The command to change the timers period was not executed
* // successfully. Take appropriate action here.
* }
*
* // If xHigherPriorityTaskWoken equals pdTRUE, then a context switch
* // should be performed. The syntax required to perform a context switch
* // from inside an ISR varies from port to port, and from compiler to
* // compiler. Inspect the demos for the port you are using to find the
* // actual syntax required.
* if ( xHigherPriorityTaskWoken ! = pdFALSE )
* {
* // Call the interrupt safe yield function here (actual function
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* // depends on the FreeRTOS port being used).
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* }
* }
* @ endverbatim
*/
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# define xTimerChangePeriodFromISR( xTimer, xNewPeriod, pxHigherPriorityTaskWoken ) xTimerGenericCommand( ( xTimer ), tmrCOMMAND_CHANGE_PERIOD_FROM_ISR, ( xNewPeriod ), ( pxHigherPriorityTaskWoken ), 0U )
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/**
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* BaseType_t xTimerResetFromISR ( TimerHandle_t xTimer ,
* BaseType_t * pxHigherPriorityTaskWoken ) ;
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*
* A version of xTimerReset ( ) that can be called from an interrupt service
* routine .
*
* @ param xTimer The handle of the timer that is to be started , reset , or
* restarted .
*
* @ param pxHigherPriorityTaskWoken The timer service / daemon task spends most
* of its time in the Blocked state , waiting for messages to arrive on the timer
* command queue . Calling xTimerResetFromISR ( ) writes a message to the timer
* command queue , so has the potential to transition the timer service / daemon
* task out of the Blocked state . If calling xTimerResetFromISR ( ) causes the
* timer service / daemon task to leave the Blocked state , and the timer service /
* daemon task has a priority equal to or greater than the currently executing
* task ( the task that was interrupted ) , then * pxHigherPriorityTaskWoken will
* get set to pdTRUE internally within the xTimerResetFromISR ( ) function . If
* xTimerResetFromISR ( ) sets this value to pdTRUE then a context switch should
* be performed before the interrupt exits .
*
* @ return pdFAIL will be returned if the reset command could not be sent to
* the timer command queue . pdPASS will be returned if the command was
* successfully sent to the timer command queue . When the command is actually
* processed will depend on the priority of the timer service / daemon task
* relative to other tasks in the system , although the timers expiry time is
* relative to when xTimerResetFromISR ( ) is actually called . The timer service / daemon
* task priority is set by the configTIMER_TASK_PRIORITY configuration constant .
*
* Example usage :
* @ verbatim
* // This scenario assumes xBacklightTimer has already been created. When a
* // key is pressed, an LCD back-light is switched on. If 5 seconds pass
* // without a key being pressed, then the LCD back-light is switched off. In
* // this case, the timer is a one-shot timer, and unlike the example given for
* // the xTimerReset() function, the key press event handler is an interrupt
* // service routine.
*
* // The callback function assigned to the one-shot timer. In this case the
* // parameter is not used.
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* void vBacklightTimerCallback ( TimerHandle_t pxTimer )
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* {
* // The timer expired, therefore 5 seconds must have passed since a key
* // was pressed. Switch off the LCD back-light.
* vSetBacklightState ( BACKLIGHT_OFF ) ;
* }
*
* // The key press interrupt service routine.
* void vKeyPressEventInterruptHandler ( void )
* {
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* BaseType_t xHigherPriorityTaskWoken = pdFALSE ;
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*
* // Ensure the LCD back-light is on, then reset the timer that is
* // responsible for turning the back-light off after 5 seconds of
* // key inactivity. This is an interrupt service routine so can only
* // call FreeRTOS API functions that end in "FromISR".
* vSetBacklightState ( BACKLIGHT_ON ) ;
*
* // xTimerStartFromISR() or xTimerResetFromISR() could be called here
* // as both cause the timer to re-calculate its expiry time.
* // xHigherPriorityTaskWoken was initialised to pdFALSE when it was
* // declared (in this function).
* if ( xTimerResetFromISR ( xBacklightTimer , & xHigherPriorityTaskWoken ) ! = pdPASS )
* {
* // The reset command was not executed successfully. Take appropriate
* // action here.
* }
*
* // Perform the rest of the key processing here.
*
* // If xHigherPriorityTaskWoken equals pdTRUE, then a context switch
* // should be performed. The syntax required to perform a context switch
* // from inside an ISR varies from port to port, and from compiler to
* // compiler. Inspect the demos for the port you are using to find the
* // actual syntax required.
* if ( xHigherPriorityTaskWoken ! = pdFALSE )
* {
* // Call the interrupt safe yield function here (actual function
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* // depends on the FreeRTOS port being used).
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* }
* }
* @ endverbatim
*/
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# define xTimerResetFromISR( xTimer, pxHigherPriorityTaskWoken ) xTimerGenericCommand( ( xTimer ), tmrCOMMAND_RESET_FROM_ISR, ( xTaskGetTickCountFromISR() ), ( pxHigherPriorityTaskWoken ), 0U )
/**
* BaseType_t xTimerPendFunctionCallFromISR ( PendedFunction_t xFunctionToPend ,
* void * pvParameter1 ,
* uint32_t ulParameter2 ,
* BaseType_t * pxHigherPriorityTaskWoken ) ;
*
*
* Used from application interrupt service routines to defer the execution of a
* function to the RTOS daemon task ( the timer service task , hence this function
* is implemented in timers . c and is prefixed with ' Timer ' ) .
*
* Ideally an interrupt service routine ( ISR ) is kept as short as possible , but
* sometimes an ISR either has a lot of processing to do , or needs to perform
* processing that is not deterministic . In these cases
* xTimerPendFunctionCallFromISR ( ) can be used to defer processing of a function
* to the RTOS daemon task .
*
* A mechanism is provided that allows the interrupt to return directly to the
* task that will subsequently execute the pended callback function . This
* allows the callback function to execute contiguously in time with the
* interrupt - just as if the callback had executed in the interrupt itself .
*
* @ param xFunctionToPend The function to execute from the timer service /
* daemon task . The function must conform to the PendedFunction_t
* prototype .
*
* @ param pvParameter1 The value of the callback function ' s first parameter .
* The parameter has a void * type to allow it to be used to pass any type .
* For example , unsigned longs can be cast to a void * , or the void * can be
* used to point to a structure .
*
* @ param ulParameter2 The value of the callback function ' s second parameter .
*
* @ param pxHigherPriorityTaskWoken As mentioned above , calling this function
* will result in a message being sent to the timer daemon task . If the
* priority of the timer daemon task ( which is set using
* configTIMER_TASK_PRIORITY in FreeRTOSConfig . h ) is higher than the priority of
* the currently running task ( the task the interrupt interrupted ) then
* * pxHigherPriorityTaskWoken will be set to pdTRUE within
* xTimerPendFunctionCallFromISR ( ) , indicating that a context switch should be
* requested before the interrupt exits . For that reason
* * pxHigherPriorityTaskWoken must be initialised to pdFALSE . See the
* example code below .
*
* @ return pdPASS is returned if the message was successfully sent to the
* timer daemon task , otherwise pdFALSE is returned .
*
* Example usage :
* @ verbatim
*
* // The callback function that will execute in the context of the daemon task.
* // Note callback functions must all use this same prototype.
* void vProcessInterface ( void * pvParameter1 , uint32_t ulParameter2 )
* {
* BaseType_t xInterfaceToService ;
*
* // The interface that requires servicing is passed in the second
* // parameter. The first parameter is not used in this case.
* xInterfaceToService = ( BaseType_t ) ulParameter2 ;
*
* // ...Perform the processing here...
* }
*
* // An ISR that receives data packets from multiple interfaces
* void vAnISR ( void )
* {
* BaseType_t xInterfaceToService , xHigherPriorityTaskWoken ;
*
* // Query the hardware to determine which interface needs processing.
* xInterfaceToService = prvCheckInterfaces ( ) ;
*
* // The actual processing is to be deferred to a task. Request the
* // vProcessInterface() callback function is executed, passing in the
* // number of the interface that needs processing. The interface to
* // service is passed in the second parameter. The first parameter is
* // not used in this case.
* xHigherPriorityTaskWoken = pdFALSE ;
* xTimerPendFunctionCallFromISR ( vProcessInterface , NULL , ( uint32_t ) xInterfaceToService , & xHigherPriorityTaskWoken ) ;
*
* // If xHigherPriorityTaskWoken is now set to pdTRUE then a context
* // switch should be requested. The macro used is port specific and will
* // be either portYIELD_FROM_ISR() or portEND_SWITCHING_ISR() - refer to
* // the documentation page for the port being used.
* portYIELD_FROM_ISR ( xHigherPriorityTaskWoken ) ;
*
* }
* @ endverbatim
*/
BaseType_t xTimerPendFunctionCallFromISR ( PendedFunction_t xFunctionToPend , void * pvParameter1 , uint32_t ulParameter2 , BaseType_t * pxHigherPriorityTaskWoken ) PRIVILEGED_FUNCTION ;
/**
* BaseType_t xTimerPendFunctionCall ( PendedFunction_t xFunctionToPend ,
* void * pvParameter1 ,
* uint32_t ulParameter2 ,
* TickType_t xTicksToWait ) ;
*
*
* Used to defer the execution of a function to the RTOS daemon task ( the timer
* service task , hence this function is implemented in timers . c and is prefixed
* with ' Timer ' ) .
*
* @ param xFunctionToPend The function to execute from the timer service /
* daemon task . The function must conform to the PendedFunction_t
* prototype .
*
* @ param pvParameter1 The value of the callback function ' s first parameter .
* The parameter has a void * type to allow it to be used to pass any type .
* For example , unsigned longs can be cast to a void * , or the void * can be
* used to point to a structure .
*
* @ param ulParameter2 The value of the callback function ' s second parameter .
*
* @ param xTicksToWait Calling this function will result in a message being
* sent to the timer daemon task on a queue . xTicksToWait is the amount of
* time the calling task should remain in the Blocked state ( so not using any
* processing time ) for space to become available on the timer queue if the
* queue is found to be full .
*
* @ return pdPASS is returned if the message was successfully sent to the
* timer daemon task , otherwise pdFALSE is returned .
*
*/
BaseType_t xTimerPendFunctionCall ( PendedFunction_t xFunctionToPend , void * pvParameter1 , uint32_t ulParameter2 , TickType_t xTicksToWait ) PRIVILEGED_FUNCTION ;
/**
* const char * const pcTimerGetName ( TimerHandle_t xTimer ) ;
*
* Returns the name that was assigned to a timer when the timer was created .
*
* @ param xTimer The handle of the timer being queried .
*
* @ return The name assigned to the timer specified by the xTimer parameter .
*/
const char * pcTimerGetName ( TimerHandle_t xTimer ) PRIVILEGED_FUNCTION ; /*lint !e971 Unqualified char types are allowed for strings and single characters only. */
/**
* TickType_t xTimerGetPeriod ( TimerHandle_t xTimer ) ;
*
* Returns the period of a timer .
*
* @ param xTimer The handle of the timer being queried .
*
* @ return The period of the timer in ticks .
*/
TickType_t xTimerGetPeriod ( TimerHandle_t xTimer ) PRIVILEGED_FUNCTION ;
/**
* TickType_t xTimerGetExpiryTime ( TimerHandle_t xTimer ) ;
*
* Returns the time in ticks at which the timer will expire . If this is less
* than the current tick count then the expiry time has overflowed from the
* current time .
*
* @ param xTimer The handle of the timer being queried .
*
* @ return If the timer is running then the time in ticks at which the timer
* will next expire is returned . If the timer is not running then the return
* value is undefined .
*/
TickType_t xTimerGetExpiryTime ( TimerHandle_t xTimer ) PRIVILEGED_FUNCTION ;
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/*
* Functions beyond this part are not part of the public API and are intended
* for use by the kernel only .
*/
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BaseType_t xTimerCreateTimerTask ( void ) PRIVILEGED_FUNCTION ;
BaseType_t xTimerGenericCommand ( TimerHandle_t xTimer , const BaseType_t xCommandID , const TickType_t xOptionalValue , BaseType_t * const pxHigherPriorityTaskWoken , const TickType_t xTicksToWait ) PRIVILEGED_FUNCTION ;
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# if( configUSE_TRACE_FACILITY == 1 )
void vTimerSetTimerNumber ( TimerHandle_t xTimer , UBaseType_t uxTimerNumber ) PRIVILEGED_FUNCTION ;
UBaseType_t uxTimerGetTimerNumber ( TimerHandle_t xTimer ) PRIVILEGED_FUNCTION ;
# endif
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# ifdef __cplusplus
}
# endif
# endif /* TIMERS_H */