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/*
* SPDX - FileCopyrightText : 2020 Amazon . com , Inc . or its affiliates
*
* SPDX - License - Identifier : MIT
*
* SPDX - FileContributor : 2016 - 2022 Espressif Systems ( Shanghai ) CO LTD
*/
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/*
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* FreeRTOS Kernel V10 .4 .3
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* Copyright ( C ) 2020 Amazon . com , Inc . or its affiliates . All Rights Reserved .
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*
* 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
* copies or substantial portions of the Software .
*
* 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 .
*
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* https : //www.FreeRTOS.org
* https : //github.com/FreeRTOS
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*
*/
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/* Standard includes. */
# include <stdlib.h>
# include <string.h>
/* Defining MPU_WRAPPERS_INCLUDED_FROM_API_FILE prevents task.h from redefining
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* all the API functions to use the MPU wrappers . That should only be done when
* task . h is included from an application file . */
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# define MPU_WRAPPERS_INCLUDED_FROM_API_FILE
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/* FreeRTOS includes. */
# include "FreeRTOS.h"
# include "task.h"
# include "timers.h"
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# include "stack_macros.h"
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# ifdef ESP_PLATFORM
# define taskCRITICAL_MUX &xTaskQueueMutex
# undef taskENTER_CRITICAL
# undef taskEXIT_CRITICAL
# undef taskENTER_CRITICAL_ISR
# undef taskEXIT_CRITICAL_ISR
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# define taskENTER_CRITICAL( ) portENTER_CRITICAL( taskCRITICAL_MUX )
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# define taskEXIT_CRITICAL( ) portEXIT_CRITICAL( taskCRITICAL_MUX )
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# define taskENTER_CRITICAL_ISR( ) portENTER_CRITICAL_ISR( taskCRITICAL_MUX )
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# define taskEXIT_CRITICAL_ISR( ) portEXIT_CRITICAL_ISR( taskCRITICAL_MUX )
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# undef _REENT_INIT_PTR
# define _REENT_INIT_PTR esp_reent_init
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extern void esp_vApplicationTickHook ( void ) ;
extern void esp_vApplicationIdleHook ( void ) ;
# endif //ESP_PLATFORM
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/* Lint e9021, e961 and e750 are suppressed as a MISRA exception justified
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* because the MPU ports require MPU_WRAPPERS_INCLUDED_FROM_API_FILE to be defined
* for the header files above , but not in this file , in order to generate the
* correct privileged Vs unprivileged linkage and placement . */
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# undef MPU_WRAPPERS_INCLUDED_FROM_API_FILE /*lint !e961 !e750 !e9021. */
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/* Set configUSE_STATS_FORMATTING_FUNCTIONS to 2 to include the stats formatting
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* functions but without including stdio . h here . */
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# if ( configUSE_STATS_FORMATTING_FUNCTIONS == 1 )
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/* At the bottom of this file are two optional functions that can be used
* to generate human readable text from the raw data generated by the
* uxTaskGetSystemState ( ) function . Note the formatting functions are provided
* for convenience only , and are NOT considered part of the kernel . */
# include <stdio.h>
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# endif /* configUSE_STATS_FORMATTING_FUNCTIONS == 1 ) */
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# if ( configUSE_PREEMPTION == 0 )
/* If the cooperative scheduler is being used then a yield should not be
* performed just because a higher priority task has been woken . */
# define taskYIELD_IF_USING_PREEMPTION()
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# else
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# define taskYIELD_IF_USING_PREEMPTION() portYIELD_WITHIN_API()
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# endif
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/* Values that can be assigned to the ucNotifyState member of the TCB. */
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# define taskNOT_WAITING_NOTIFICATION ( ( uint8_t ) 0 ) /* Must be zero as it is the initialised value. */
# define taskWAITING_NOTIFICATION ( ( uint8_t ) 1 )
# define taskNOTIFICATION_RECEIVED ( ( uint8_t ) 2 )
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/*
* The value used to fill the stack of a task when the task is created . This
* is used purely for checking the high water mark for tasks .
*/
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# define tskSTACK_FILL_BYTE ( 0xa5U )
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/* Bits used to record how a task's stack and TCB were allocated. */
# define tskDYNAMICALLY_ALLOCATED_STACK_AND_TCB ( ( uint8_t ) 0 )
# define tskSTATICALLY_ALLOCATED_STACK_ONLY ( ( uint8_t ) 1 )
# define tskSTATICALLY_ALLOCATED_STACK_AND_TCB ( ( uint8_t ) 2 )
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/* If any of the following are set then task stacks are filled with a known
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* value so the high water mark can be determined . If none of the following are
* set then don ' t fill the stack so there is no unnecessary dependency on memset . */
# if ( ( configCHECK_FOR_STACK_OVERFLOW > 1 ) || ( configUSE_TRACE_FACILITY == 1 ) || ( INCLUDE_uxTaskGetStackHighWaterMark == 1 ) || ( INCLUDE_uxTaskGetStackHighWaterMark2 == 1 ) )
# define tskSET_NEW_STACKS_TO_KNOWN_VALUE 1
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# else
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# define tskSET_NEW_STACKS_TO_KNOWN_VALUE 0
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# endif
/*
* Macros used by vListTask to indicate which state a task is in .
*/
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# define tskRUNNING_CHAR ( 'X' )
# define tskBLOCKED_CHAR ( 'B' )
# define tskREADY_CHAR ( 'R' )
# define tskDELETED_CHAR ( 'D' )
# define tskSUSPENDED_CHAR ( 'S' )
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/*
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* Some kernel aware debuggers require the data the debugger needs access to to
* be global , rather than file scope .
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*/
# ifdef portREMOVE_STATIC_QUALIFIER
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# define static
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# endif
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/* The name allocated to the Idle task. This can be overridden by defining
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* configIDLE_TASK_NAME in FreeRTOSConfig . h . */
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# ifndef configIDLE_TASK_NAME
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# define configIDLE_TASK_NAME "IDLE"
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# endif
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# if ( configUSE_PORT_OPTIMISED_TASK_SELECTION == 0 )
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/* If configUSE_PORT_OPTIMISED_TASK_SELECTION is 0 then task selection is
* performed in a generic way that is not optimised to any particular
* microcontroller architecture . */
/* uxTopReadyPriority holds the priority of the highest priority ready
* state task . */
# define taskRECORD_READY_PRIORITY( uxPriority ) \
{ \
if ( ( uxPriority ) > uxTopReadyPriority ) \
{ \
uxTopReadyPriority = ( uxPriority ) ; \
} \
} /* taskRECORD_READY_PRIORITY */
/*-----------------------------------------------------------*/
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# ifdef ESP_PLATFORM
# define taskSELECT_HIGHEST_PRIORITY_TASK() taskSelectHighestPriorityTaskSMP()
# else //ESP_PLATFORM
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# define taskSELECT_HIGHEST_PRIORITY_TASK() \
{ \
UBaseType_t uxTopPriority = uxTopReadyPriority ; \
\
/* Find the highest priority queue that contains ready tasks. */ \
while ( listLIST_IS_EMPTY ( & ( pxReadyTasksLists [ uxTopPriority ] ) ) ) \
{ \
configASSERT ( uxTopPriority ) ; \
- - uxTopPriority ; \
} \
\
/* listGET_OWNER_OF_NEXT_ENTRY indexes through the list, so the tasks of \
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* the same priority get an equal share of the processor time . */ \
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listGET_OWNER_OF_NEXT_ENTRY ( pxCurrentTCB [ xPortGetCoreID ( ) ] , & ( pxReadyTasksLists [ uxTopPriority ] ) ) ; \
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uxTopReadyPriority = uxTopPriority ; \
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} /* taskSELECT_HIGHEST_PRIORITY_TASK */
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# endif //ESP_PLATFORM
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/*-----------------------------------------------------------*/
/* Define away taskRESET_READY_PRIORITY() and portRESET_READY_PRIORITY() as
* they are only required when a port optimised method of task selection is
* being used . */
# define taskRESET_READY_PRIORITY( uxPriority )
# define portRESET_READY_PRIORITY( uxPriority, uxTopReadyPriority )
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# else /* configUSE_PORT_OPTIMISED_TASK_SELECTION */
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/* If configUSE_PORT_OPTIMISED_TASK_SELECTION is 1 then task selection is
* performed in a way that is tailored to the particular microcontroller
* architecture being used . */
/* A port optimised version is provided. Call the port defined macros. */
# define taskRECORD_READY_PRIORITY( uxPriority ) portRECORD_READY_PRIORITY( uxPriority, uxTopReadyPriority )
/*-----------------------------------------------------------*/
# define taskSELECT_HIGHEST_PRIORITY_TASK() \
{ \
UBaseType_t uxTopPriority ; \
\
/* Find the highest priority list that contains ready tasks. */ \
portGET_HIGHEST_PRIORITY ( uxTopPriority , uxTopReadyPriority ) ; \
configASSERT ( listCURRENT_LIST_LENGTH ( & ( pxReadyTasksLists [ uxTopPriority ] ) ) > 0 ) ; \
listGET_OWNER_OF_NEXT_ENTRY ( pxCurrentTCB [ xPortGetCoreID ( ) ] , & ( pxReadyTasksLists [ uxTopPriority ] ) ) ; \
} /* taskSELECT_HIGHEST_PRIORITY_TASK() */
/*-----------------------------------------------------------*/
/* A port optimised version is provided, call it only if the TCB being reset
* is being referenced from a ready list . If it is referenced from a delayed
* or suspended list then it won ' t be in a ready list . */
# define taskRESET_READY_PRIORITY( uxPriority ) \
{ \
if ( listCURRENT_LIST_LENGTH ( & ( pxReadyTasksLists [ ( uxPriority ) ] ) ) = = ( UBaseType_t ) 0 ) \
{ \
portRESET_READY_PRIORITY ( ( uxPriority ) , ( uxTopReadyPriority ) ) ; \
} \
}
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# endif /* configUSE_PORT_OPTIMISED_TASK_SELECTION */
/*-----------------------------------------------------------*/
/* pxDelayedTaskList and pxOverflowDelayedTaskList are switched when the tick
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* count overflows . */
# define taskSWITCH_DELAYED_LISTS() \
{ \
List_t * pxTemp ; \
\
/* The delayed tasks list should be empty when the lists are switched. */ \
configASSERT ( ( listLIST_IS_EMPTY ( pxDelayedTaskList ) ) ) ; \
\
pxTemp = pxDelayedTaskList ; \
pxDelayedTaskList = pxOverflowDelayedTaskList ; \
pxOverflowDelayedTaskList = pxTemp ; \
xNumOfOverflows + + ; \
prvResetNextTaskUnblockTime ( ) ; \
}
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/*-----------------------------------------------------------*/
/*
* Place the task represented by pxTCB into the appropriate ready list for
* the task . It is inserted at the end of the list .
*/
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# define prvAddTaskToReadyList( pxTCB ) \
traceMOVED_TASK_TO_READY_STATE ( pxTCB ) ; \
taskRECORD_READY_PRIORITY ( ( pxTCB ) - > uxPriority ) ; \
vListInsertEnd ( & ( pxReadyTasksLists [ ( pxTCB ) - > uxPriority ] ) , & ( ( pxTCB ) - > xStateListItem ) ) ; \
tracePOST_MOVED_TASK_TO_READY_STATE ( pxTCB )
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/*-----------------------------------------------------------*/
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# define tskCAN_RUN_HERE( cpuid ) ( cpuid==xPortGetCoreID() || cpuid==tskNO_AFFINITY )
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/*
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* Several functions take a TaskHandle_t parameter that can optionally be NULL ,
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* where NULL is used to indicate that the handle of the currently executing
* task should be used in place of the parameter . This macro simply checks to
* see if the parameter is NULL and returns a pointer to the appropriate TCB .
*/
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# if configNUM_CORES > 1
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/* In SMP, we need to disable interrupts if getting the current task handle outside a critical section. Calling xTaskGetCurrentTaskHandle() ensures this. */
# define prvGetTCBFromHandle( pxHandle ) ( ( ( pxHandle ) == NULL ) ? xTaskGetCurrentTaskHandle() : ( (TaskHandle_t)pxHandle ) )
# else
# define prvGetTCBFromHandle( pxHandle ) ( ( ( pxHandle ) == NULL ) ? (TaskHandle_t) pxCurrentTCB[0] : ( (TaskHandle_t)pxHandle ) )
# endif
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/* The item value of the event list item is normally used to hold the priority
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* of the task to which it belongs ( coded to allow it to be held in reverse
* priority order ) . However , it is occasionally borrowed for other purposes . It
* is important its value is not updated due to a task priority change while it is
* being used for another purpose . The following bit definition is used to inform
* the scheduler that the value should not be changed - in which case it is the
* responsibility of whichever module is using the value to ensure it gets set back
* to its original value when it is released . */
# if ( configUSE_16_BIT_TICKS == 1 )
# define taskEVENT_LIST_ITEM_VALUE_IN_USE 0x8000U
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# else
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# define taskEVENT_LIST_ITEM_VALUE_IN_USE 0x80000000UL
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# endif
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/*
* Task control block . A task control block ( TCB ) is allocated for each task ,
* and stores task state information , including a pointer to the task ' s context
* ( the task ' s run time environment , including register values )
*/
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typedef struct tskTaskControlBlock /* The old naming convention is used to prevent breaking kernel aware debuggers. */
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{
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volatile StackType_t * pxTopOfStack ; /*< Points to the location of the last item placed on the tasks stack. THIS MUST BE THE FIRST MEMBER OF THE TCB STRUCT. */
# if ( portUSING_MPU_WRAPPERS == 1 )
xMPU_SETTINGS xMPUSettings ; /*< The MPU settings are defined as part of the port layer. THIS MUST BE THE SECOND MEMBER OF THE TCB STRUCT. */
# endif
ListItem_t xStateListItem ; /*< The list that the state list item of a task is reference from denotes the state of that task (Ready, Blocked, Suspended ). */
ListItem_t xEventListItem ; /*< Used to reference a task from an event list. */
UBaseType_t uxPriority ; /*< The priority of the task. 0 is the lowest priority. */
StackType_t * pxStack ; /*< Points to the start of the stack. */
char pcTaskName [ configMAX_TASK_NAME_LEN ] ; /*< Descriptive name given to the task when created. Facilitates debugging only. */ /*lint !e971 Unqualified char types are allowed for strings and single characters only. */
BaseType_t xCoreID ; /*< Core this task is pinned to */
# if ( ( portSTACK_GROWTH > 0 ) || ( configRECORD_STACK_HIGH_ADDRESS == 1 ) )
StackType_t * pxEndOfStack ; /*< Points to the highest valid address for the stack. */
# endif
# if ( portCRITICAL_NESTING_IN_TCB == 1 )
UBaseType_t uxCriticalNesting ; /*< Holds the critical section nesting depth for ports that do not maintain their own count in the port layer. */
# endif
# if ( configUSE_TRACE_FACILITY == 1 )
UBaseType_t uxTCBNumber ; /*< Stores a number that increments each time a TCB is created. It allows debuggers to determine when a task has been deleted and then recreated. */
UBaseType_t uxTaskNumber ; /*< Stores a number specifically for use by third party trace code. */
# endif
# if ( configUSE_MUTEXES == 1 )
UBaseType_t uxBasePriority ; /*< The priority last assigned to the task - used by the priority inheritance mechanism. */
UBaseType_t uxMutexesHeld ;
# endif
# if ( configUSE_APPLICATION_TASK_TAG == 1 )
TaskHookFunction_t pxTaskTag ;
# endif
# if ( configNUM_THREAD_LOCAL_STORAGE_POINTERS > 0 )
void * pvThreadLocalStoragePointers [ configNUM_THREAD_LOCAL_STORAGE_POINTERS ] ;
# if ( configTHREAD_LOCAL_STORAGE_DELETE_CALLBACKS )
TlsDeleteCallbackFunction_t pvThreadLocalStoragePointersDelCallback [ configNUM_THREAD_LOCAL_STORAGE_POINTERS ] ;
# endif
# endif
# if ( configGENERATE_RUN_TIME_STATS == 1 )
uint32_t ulRunTimeCounter ; /*< Stores the amount of time the task has spent in the Running state. */
# endif
# if ( configUSE_NEWLIB_REENTRANT == 1 )
/* Allocate a Newlib reent structure that is specific to this task.
* Note Newlib support has been included by popular demand , but is not
* used by the FreeRTOS maintainers themselves . FreeRTOS is not
* responsible for resulting newlib operation . User must be familiar with
* newlib and must provide system - wide implementations of the necessary
* stubs . Be warned that ( at the time of writing ) the current newlib design
* implements a system - wide malloc ( ) that must be provided with locks .
*
* See the third party link http : //www.nadler.com/embedded/newlibAndFreeRTOS.html
* for additional information . */
struct _reent xNewLib_reent ;
# endif
# if ( configUSE_TASK_NOTIFICATIONS == 1 )
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volatile uint32_t ulNotifiedValue [ configTASK_NOTIFICATION_ARRAY_ENTRIES ] ;
volatile uint8_t ucNotifyState [ configTASK_NOTIFICATION_ARRAY_ENTRIES ] ;
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# endif
/* See the comments in FreeRTOS.h with the definition of
* tskSTATIC_AND_DYNAMIC_ALLOCATION_POSSIBLE . */
# if ( tskSTATIC_AND_DYNAMIC_ALLOCATION_POSSIBLE != 0 ) /*lint !e731 !e9029 Macro has been consolidated for readability reasons. */
uint8_t ucStaticallyAllocated ; /*< Set to pdTRUE if the task is a statically allocated to ensure no attempt is made to free the memory. */
# endif
# if ( INCLUDE_xTaskAbortDelay == 1 )
uint8_t ucDelayAborted ;
# endif
# if ( configUSE_POSIX_ERRNO == 1 )
int iTaskErrno ;
# endif
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} tskTCB ;
/* The old tskTCB name is maintained above then typedefed to the new TCB_t name
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* below to enable the use of older kernel aware debuggers . */
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typedef tskTCB TCB_t ;
/*lint -save -e956 A manual analysis and inspection has been used to determine
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* which static variables must be declared volatile . */
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PRIVILEGED_DATA TCB_t * volatile pxCurrentTCB [ configNUM_CORES ] = { NULL } ;
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/* Lists for ready and blocked tasks. --------------------
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* xDelayedTaskList1 and xDelayedTaskList2 could be moved to function scope but
* doing so breaks some kernel aware debuggers and debuggers that rely on removing
* the static qualifier . */
PRIVILEGED_DATA static List_t pxReadyTasksLists [ configMAX_PRIORITIES ] ; /*< Prioritised ready tasks. */
PRIVILEGED_DATA static List_t xDelayedTaskList1 ; /*< Delayed tasks. */
PRIVILEGED_DATA static List_t xDelayedTaskList2 ; /*< Delayed tasks (two lists are used - one for delays that have overflowed the current tick count. */
PRIVILEGED_DATA static List_t * volatile pxDelayedTaskList ; /*< Points to the delayed task list currently being used. */
PRIVILEGED_DATA static List_t * volatile pxOverflowDelayedTaskList ; /*< Points to the delayed task list currently being used to hold tasks that have overflowed the current tick count. */
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PRIVILEGED_DATA static List_t xPendingReadyList [ configNUM_CORES ] ; /*< Tasks that have been readied while the scheduler was suspended. They will be moved to the ready list when the scheduler is resumed. */
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# ifdef ESP_PLATFORM
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PRIVILEGED_DATA static portMUX_TYPE xTaskQueueMutex = portMUX_INITIALIZER_UNLOCKED ;
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# endif // ESP_PLATFORM
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# if ( INCLUDE_vTaskDelete == 1 )
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PRIVILEGED_DATA static List_t xTasksWaitingTermination ; /*< Tasks that have been deleted - but their memory not yet freed. */
PRIVILEGED_DATA static volatile UBaseType_t uxDeletedTasksWaitingCleanUp = ( UBaseType_t ) 0U ;
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# endif
# if ( INCLUDE_vTaskSuspend == 1 )
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PRIVILEGED_DATA static List_t xSuspendedTaskList ; /*< Tasks that are currently suspended. */
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# endif
/* Global POSIX errno. Its value is changed upon context switching to match
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* the errno of the currently running task . */
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# if ( configUSE_POSIX_ERRNO == 1 )
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int FreeRTOS_errno = 0 ;
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# endif
/* Other file private variables. --------------------------------*/
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PRIVILEGED_DATA static volatile UBaseType_t uxCurrentNumberOfTasks = ( UBaseType_t ) 0U ;
PRIVILEGED_DATA static volatile TickType_t xTickCount = ( TickType_t ) configINITIAL_TICK_COUNT ;
PRIVILEGED_DATA static volatile UBaseType_t uxTopReadyPriority = tskIDLE_PRIORITY ;
PRIVILEGED_DATA static volatile BaseType_t xSchedulerRunning = pdFALSE ;
PRIVILEGED_DATA static volatile TickType_t xPendedTicks = ( TickType_t ) 0U ;
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PRIVILEGED_DATA static volatile BaseType_t xYieldPending [ configNUM_CORES ] = { pdFALSE } ;
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PRIVILEGED_DATA static volatile BaseType_t xNumOfOverflows = ( BaseType_t ) 0 ;
PRIVILEGED_DATA static UBaseType_t uxTaskNumber = ( UBaseType_t ) 0U ;
PRIVILEGED_DATA static volatile TickType_t xNextTaskUnblockTime = ( TickType_t ) 0U ; /* Initialised to portMAX_DELAY before the scheduler starts. */
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PRIVILEGED_DATA static TaskHandle_t xIdleTaskHandle [ configNUM_CORES ] = { NULL } ; /*< Holds the handle of the idle task. The idle task is created automatically when the scheduler is started. */
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/* Context switches are held pending while the scheduler is suspended. Also,
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* interrupts must not manipulate the xStateListItem of a TCB , or any of the
* lists the xStateListItem can be referenced from , if the scheduler is suspended .
* If an interrupt needs to unblock a task while the scheduler is suspended then it
* moves the task ' s event list item into the xPendingReadyList , ready for the
* kernel to move the task from the pending ready list into the real ready list
* when the scheduler is unsuspended . The pending ready list itself can only be
* accessed from a critical section . */
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PRIVILEGED_DATA static volatile UBaseType_t uxSchedulerSuspended [ configNUM_CORES ] = { ( UBaseType_t ) pdFALSE } ;
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# if ( configGENERATE_RUN_TIME_STATS == 1 )
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/* Do not move these variables to function scope as doing so prevents the
* code working with debuggers that need to remove the static qualifier . */
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PRIVILEGED_DATA static uint32_t ulTaskSwitchedInTime [ configNUM_CORES ] = { 0U } ; /*< Holds the value of a timer/counter the last time a task was switched in. */
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PRIVILEGED_DATA static uint32_t ulTotalRunTime = 0UL ; /*< Holds the total amount of execution time as defined by the run time counter clock. */
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# endif
// per-CPU flags indicating that we are doing context switch, it is used by apptrace and sysview modules
// in order to avoid calls of vPortYield from traceTASK_SWITCHED_IN/OUT when waiting
// for locks to be free or for host to read full trace buffer
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PRIVILEGED_DATA static volatile BaseType_t xSwitchingContext [ configNUM_CORES ] = { pdFALSE } ;
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/*lint -restore */
/*-----------------------------------------------------------*/
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/* Callback function prototypes. --------------------------*/
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# if( configCHECK_FOR_STACK_OVERFLOW > 0 )
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extern void vApplicationStackOverflowHook ( TaskHandle_t xTask , char * pcTaskName ) ;
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# endif
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# if( configUSE_TICK_HOOK > 0 )
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extern void vApplicationTickHook ( void ) ; /*lint !e526 Symbol not defined as it is an application callback. */
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# endif
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# if( configSUPPORT_STATIC_ALLOCATION == 1 )
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extern void vApplicationGetIdleTaskMemory ( StaticTask_t * * ppxIdleTaskTCBBuffer , StackType_t * * ppxIdleTaskStackBuffer , uint32_t * pulIdleTaskStackSize ) ; /*lint !e526 Symbol not defined as it is an application callback. */
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# endif
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/* File private functions. --------------------------------*/
/**
* Utility task that simply returns pdTRUE if the task referenced by xTask is
* currently in the Suspended state , or pdFALSE if the task referenced by xTask
* is in any other state .
*/
# if ( INCLUDE_vTaskSuspend == 1 )
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static BaseType_t prvTaskIsTaskSuspended ( const TaskHandle_t xTask ) PRIVILEGED_FUNCTION ;
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# endif /* INCLUDE_vTaskSuspend */
/*
* Utility to ready all the lists used by the scheduler . This is called
* automatically upon the creation of the first task .
*/
static void prvInitialiseTaskLists ( void ) PRIVILEGED_FUNCTION ;
/*
* The idle task , which as all tasks is implemented as a never ending loop .
* The idle task is automatically created and added to the ready lists upon
* creation of the first user task .
*
* The portTASK_FUNCTION_PROTO ( ) macro is used to allow port / compiler specific
* language extensions . The equivalent prototype for this function is :
*
* void prvIdleTask ( void * pvParameters ) ;
*
*/
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static portTASK_FUNCTION_PROTO ( prvIdleTask , pvParameters ) PRIVILEGED_FUNCTION ;
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/*
* Utility to free all memory allocated by the scheduler to hold a TCB ,
* including the stack pointed to by the TCB .
*
* This does not free memory allocated by the task itself ( i . e . memory
* allocated by calls to pvPortMalloc from within the tasks application code ) .
*/
# if ( INCLUDE_vTaskDelete == 1 )
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static void prvDeleteTCB ( TCB_t * pxTCB ) PRIVILEGED_FUNCTION ;
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# endif
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/* Function to call the Thread Local Storage Pointer Deletion Callbacks. Will be
* called during task deletion before prvDeleteTCB is called .
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*/
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# if ( configNUM_THREAD_LOCAL_STORAGE_POINTERS > 0 ) && ( configTHREAD_LOCAL_STORAGE_DELETE_CALLBACKS )
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static void prvDeleteTLS ( TCB_t * pxTCB ) ;
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# endif
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/*
* Used only by the idle task . This checks to see if anything has been placed
* in the list of tasks waiting to be deleted . If so the task is cleaned up
* and its TCB deleted .
*/
static void prvCheckTasksWaitingTermination ( void ) PRIVILEGED_FUNCTION ;
/*
* The currently executing task is entering the Blocked state . Add the task to
* either the current or the overflow delayed task list .
*/
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static void prvAddCurrentTaskToDelayedList ( const portBASE_TYPE xCoreID ,
const TickType_t xTicksToWait ) PRIVILEGED_FUNCTION ;
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/*
* Fills an TaskStatus_t structure with information on each task that is
* referenced from the pxList list ( which may be a ready list , a delayed list ,
* a suspended list , etc . ) .
*
* THIS FUNCTION IS INTENDED FOR DEBUGGING ONLY , AND SHOULD NOT BE CALLED FROM
* NORMAL APPLICATION CODE .
*/
# if ( configUSE_TRACE_FACILITY == 1 )
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static UBaseType_t prvListTasksWithinSingleList ( TaskStatus_t * pxTaskStatusArray ,
List_t * pxList ,
eTaskState eState ) PRIVILEGED_FUNCTION ;
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# endif
/*
* Searches pxList for a task with name pcNameToQuery - returning a handle to
* the task if it is found , or NULL if the task is not found .
*/
# if ( INCLUDE_xTaskGetHandle == 1 )
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static TCB_t * prvSearchForNameWithinSingleList ( List_t * pxList ,
const char pcNameToQuery [ ] ) PRIVILEGED_FUNCTION ;
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# endif
/*
* When a task is created , the stack of the task is filled with a known value .
* This function determines the ' high water mark ' of the task stack by
* determining how much of the stack remains at the original preset value .
*/
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# if ( ( configUSE_TRACE_FACILITY == 1 ) || ( INCLUDE_uxTaskGetStackHighWaterMark == 1 ) || ( INCLUDE_uxTaskGetStackHighWaterMark2 == 1 ) )
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static configSTACK_DEPTH_TYPE prvTaskCheckFreeStackSpace ( const uint8_t * pucStackByte ) PRIVILEGED_FUNCTION ;
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# endif
/*
* Return the amount of time , in ticks , that will pass before the kernel will
* next move a task from the Blocked state to the Running state .
*
* This conditional compilation should use inequality to 0 , not equality to 1.
* This is to ensure portSUPPRESS_TICKS_AND_SLEEP ( ) can be called when user
* defined low power mode implementations require configUSE_TICKLESS_IDLE to be
* set to a value other than 1.
*/
# if ( configUSE_TICKLESS_IDLE != 0 )
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static TickType_t prvGetExpectedIdleTime ( void ) PRIVILEGED_FUNCTION ;
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# endif
/*
* Set xNextTaskUnblockTime to the time at which the next Blocked state task
* will exit the Blocked state .
*/
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static void prvResetNextTaskUnblockTime ( void ) PRIVILEGED_FUNCTION ;
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# if ( ( configUSE_TRACE_FACILITY == 1 ) && ( configUSE_STATS_FORMATTING_FUNCTIONS > 0 ) )
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/*
* Helper function used to pad task names with spaces when printing out
* human readable tables of task information .
*/
static char * prvWriteNameToBuffer ( char * pcBuffer ,
const char * pcTaskName ) PRIVILEGED_FUNCTION ;
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# endif
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/*
* Called after a Task_t structure has been allocated either statically or
* dynamically to fill in the structure ' s members .
*/
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static void prvInitialiseNewTask ( TaskFunction_t pxTaskCode ,
const char * const pcName , /*lint !e971 Unqualified char types are allowed for strings and single characters only. */
const uint32_t ulStackDepth ,
void * const pvParameters ,
UBaseType_t uxPriority ,
TaskHandle_t * const pxCreatedTask ,
TCB_t * pxNewTCB ,
const MemoryRegion_t * const xRegions ,
BaseType_t xCoreID ) PRIVILEGED_FUNCTION ;
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/*
* Called after a new task has been created and initialised to place the task
* under the control of the scheduler .
*/
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static void prvAddNewTaskToReadyList ( TCB_t * pxNewTCB ,
TaskFunction_t pxTaskCode ,
BaseType_t xCoreID ) PRIVILEGED_FUNCTION ;
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/*
* freertos_tasks_c_additions_init ( ) should only be called if the user definable
* macro FREERTOS_TASKS_C_ADDITIONS_INIT ( ) is defined , as that is the only macro
* called by the function .
*/
# ifdef FREERTOS_TASKS_C_ADDITIONS_INIT
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static void freertos_tasks_c_additions_init ( void ) PRIVILEGED_FUNCTION ;
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# endif
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/*
* This routine tries to send an interrupt to another core if needed to make it execute a task
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* of higher priority . We try to figure out if needed first by inspecting the pxTCB of the
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* other CPU first . Specifically for Xtensa , we can do this because pxTCB is an atomic pointer . It
* is possible that it is inaccurate because the other CPU just did a task switch , but in that case
* at most a superfluous interrupt is generated .
*/
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void taskYIELD_OTHER_CORE ( BaseType_t xCoreID , UBaseType_t uxPriority )
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{
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BaseType_t i ;
if ( xCoreID ! = tskNO_AFFINITY ) {
if ( pxCurrentTCB [ xCoreID ] - > uxPriority < uxPriority ) { // NOLINT(clang-analyzer-core.NullDereference) IDF-685
vPortYieldOtherCore ( xCoreID ) ;
}
}
else
{
/* The task has no affinity. See if we can find a CPU to put it on.*/
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for ( i = 0 ; i < configNUM_CORES ; i + + ) {
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if ( i ! = xPortGetCoreID ( ) & & pxCurrentTCB [ i ] - > uxPriority < uxPriority )
{
vPortYieldOtherCore ( i ) ;
break ;
}
}
}
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}
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/*-----------------------------------------------------------*/
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# if ( configSUPPORT_STATIC_ALLOCATION == 1 )
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TaskHandle_t xTaskCreateStaticPinnedToCore ( TaskFunction_t pvTaskCode ,
const char * const pcName ,
const uint32_t ulStackDepth ,
void * const pvParameters ,
UBaseType_t uxPriority ,
StackType_t * const pxStackBuffer ,
StaticTask_t * const pxTaskBuffer ,
const BaseType_t xCoreID )
{
TCB_t * pxNewTCB ;
TaskHandle_t xReturn ;
configASSERT ( portVALID_TCB_MEM ( pxTaskBuffer ) ) ;
configASSERT ( portVALID_STACK_MEM ( pxStackBuffer ) ) ;
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configASSERT ( ( xCoreID > = 0 & & xCoreID < configNUM_CORES ) | | ( xCoreID = = tskNO_AFFINITY ) ) ;
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# if ( configASSERT_DEFINED == 1 )
{
/* Sanity check that the size of the structure used to declare a
* variable of type StaticTask_t equals the size of the real task
* structure . */
volatile size_t xSize = sizeof ( StaticTask_t ) ;
configASSERT ( xSize = = sizeof ( TCB_t ) ) ;
( void ) xSize ; /* Prevent lint warning when configASSERT() is not used. */
}
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# endif /* configASSERT_DEFINED */
if ( ( pxTaskBuffer ! = NULL ) & & ( pxStackBuffer ! = NULL ) )
{
/* The memory used for the task's TCB and stack are passed into this
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* function - use them . */
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pxNewTCB = ( TCB_t * ) pxTaskBuffer ; /*lint !e740 !e9087 Unusual cast is ok as the structures are designed to have the same alignment, and the size is checked by an assert. */
pxNewTCB - > pxStack = ( StackType_t * ) pxStackBuffer ;
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# if ( tskSTATIC_AND_DYNAMIC_ALLOCATION_POSSIBLE != 0 ) /*lint !e731 !e9029 Macro has been consolidated for readability reasons. */
{
/* Tasks can be created statically or dynamically, so note this
* task was created statically in case the task is later deleted . */
pxNewTCB - > ucStaticallyAllocated = tskSTATICALLY_ALLOCATED_STACK_AND_TCB ;
}
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# endif /* tskSTATIC_AND_DYNAMIC_ALLOCATION_POSSIBLE */
prvInitialiseNewTask ( pvTaskCode , pcName , ulStackDepth , pvParameters , uxPriority , & xReturn , pxNewTCB , NULL , xCoreID ) ;
prvAddNewTaskToReadyList ( pxNewTCB , pvTaskCode , xCoreID ) ;
}
else
{
xReturn = NULL ;
}
return xReturn ;
}
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# endif /* SUPPORT_STATIC_ALLOCATION */
/*-----------------------------------------------------------*/
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# if ( ( portUSING_MPU_WRAPPERS == 1 ) && ( configSUPPORT_STATIC_ALLOCATION == 1 ) )
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BaseType_t xTaskCreateRestrictedStatic ( const TaskParameters_t * const pxTaskDefinition ,
TaskHandle_t * pxCreatedTask )
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{
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TCB_t * pxNewTCB ;
BaseType_t xReturn = errCOULD_NOT_ALLOCATE_REQUIRED_MEMORY ;
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configASSERT ( pxTaskDefinition - > puxStackBuffer ! = NULL ) ;
configASSERT ( pxTaskDefinition - > pxTaskBuffer ! = NULL ) ;
if ( ( pxTaskDefinition - > puxStackBuffer ! = NULL ) & & ( pxTaskDefinition - > pxTaskBuffer ! = NULL ) )
{
/* Allocate space for the TCB. Where the memory comes from depends
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* on the implementation of the port malloc function and whether or
* not static allocation is being used . */
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pxNewTCB = ( TCB_t * ) pxTaskDefinition - > pxTaskBuffer ;
/* Store the stack location in the TCB. */
pxNewTCB - > pxStack = pxTaskDefinition - > puxStackBuffer ;
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# if ( tskSTATIC_AND_DYNAMIC_ALLOCATION_POSSIBLE != 0 )
{
/* Tasks can be created statically or dynamically, so note this
* task was created statically in case the task is later deleted . */
pxNewTCB - > ucStaticallyAllocated = tskSTATICALLY_ALLOCATED_STACK_AND_TCB ;
}
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# endif /* tskSTATIC_AND_DYNAMIC_ALLOCATION_POSSIBLE */
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prvInitialiseNewTask ( pxTaskDefinition - > pvTaskCode ,
pxTaskDefinition - > pcName ,
( uint32_t ) pxTaskDefinition - > usStackDepth ,
pxTaskDefinition - > pvParameters ,
pxTaskDefinition - > uxPriority ,
pxCreatedTask , pxNewTCB ,
pxTaskDefinition - > xRegions ,
tskNO_AFFINITY ) ;
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prvAddNewTaskToReadyList ( pxNewTCB , pxTaskDefinition - > pvTaskCode , tskNO_AFFINITY ) ;
xReturn = pdPASS ;
}
return xReturn ;
}
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# endif /* ( portUSING_MPU_WRAPPERS == 1 ) && ( configSUPPORT_STATIC_ALLOCATION == 1 ) */
/*-----------------------------------------------------------*/
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# if ( ( portUSING_MPU_WRAPPERS == 1 ) && ( configSUPPORT_DYNAMIC_ALLOCATION == 1 ) )
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BaseType_t xTaskCreateRestricted ( const TaskParameters_t * const pxTaskDefinition ,
TaskHandle_t * pxCreatedTask )
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{
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TCB_t * pxNewTCB ;
BaseType_t xReturn = errCOULD_NOT_ALLOCATE_REQUIRED_MEMORY ;
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configASSERT ( pxTaskDefinition - > puxStackBuffer ) ;
if ( pxTaskDefinition - > puxStackBuffer ! = NULL )
{
/* Allocate space for the TCB. Where the memory comes from depends
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* on the implementation of the port malloc function and whether or
* not static allocation is being used . */
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pxNewTCB = ( TCB_t * ) pvPortMallocTcbMem ( sizeof ( TCB_t ) ) ;
if ( pxNewTCB ! = NULL )
{
/* Store the stack location in the TCB. */
pxNewTCB - > pxStack = pxTaskDefinition - > puxStackBuffer ;
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# if ( tskSTATIC_AND_DYNAMIC_ALLOCATION_POSSIBLE != 0 )
{
/* Tasks can be created statically or dynamically, so note
* this task had a statically allocated stack in case it is
* later deleted . The TCB was allocated dynamically . */
pxNewTCB - > ucStaticallyAllocated = tskSTATICALLY_ALLOCATED_STACK_ONLY ;
}
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# endif /* tskSTATIC_AND_DYNAMIC_ALLOCATION_POSSIBLE */
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prvInitialiseNewTask ( pxTaskDefinition - > pvTaskCode ,
pxTaskDefinition - > pcName ,
( uint32_t ) pxTaskDefinition - > usStackDepth ,
pxTaskDefinition - > pvParameters ,
pxTaskDefinition - > uxPriority ,
pxCreatedTask , pxNewTCB ,
pxTaskDefinition - > xRegions ,
tskNO_AFFINITY ) ;
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prvAddNewTaskToReadyList ( pxNewTCB , pxTaskDefinition - > pvTaskCode , tskNO_AFFINITY ) ;
xReturn = pdPASS ;
}
}
return xReturn ;
}
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# endif /* portUSING_MPU_WRAPPERS */
/*-----------------------------------------------------------*/
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# if ( configSUPPORT_DYNAMIC_ALLOCATION == 1 )
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BaseType_t xTaskCreatePinnedToCore ( TaskFunction_t pvTaskCode ,
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const char * const pcName , /*lint !e971 Unqualified char types are allowed for strings and single characters only. */
const uint32_t usStackDepth ,
void * const pvParameters ,
UBaseType_t uxPriority ,
TaskHandle_t * const pvCreatedTask ,
const BaseType_t xCoreID )
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{
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TCB_t * pxNewTCB ;
BaseType_t xReturn ;
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/* If the stack grows down then allocate the stack then the TCB so the stack
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* does not grow into the TCB . Likewise if the stack grows up then allocate
* the TCB then the stack . */
# if ( portSTACK_GROWTH > 0 )
{
/* Allocate space for the TCB. Where the memory comes from depends on
* the implementation of the port malloc function and whether or not static
* allocation is being used . */
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pxNewTCB = ( TCB_t * ) pvPortMallocTcbMem ( sizeof ( TCB_t ) ) ;
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if ( pxNewTCB ! = NULL )
{
/* Allocate space for the stack used by the task being created.
* The base of the stack memory stored in the TCB so the task can
* be deleted later if required . */
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pxNewTCB - > pxStack = ( StackType_t * ) pvPortMallocStackMem ( ( ( ( size_t ) usStackDepth ) * sizeof ( StackType_t ) ) ) ; /*lint !e961 MISRA exception as the casts are only redundant for some ports. */
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if ( pxNewTCB - > pxStack = = NULL )
{
/* Could not allocate the stack. Delete the allocated TCB. */
vPortFree ( pxNewTCB ) ;
pxNewTCB = NULL ;
}
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}
}
# else /* portSTACK_GROWTH */
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{
StackType_t * pxStack ;
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/* Allocate space for the stack used by the task being created. */
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pxStack = pvPortMallocStackMem ( ( ( ( size_t ) usStackDepth ) * sizeof ( StackType_t ) ) ) ; /*lint !e9079 All values returned by pvPortMalloc() have at least the alignment required by the MCU's stack and this allocation is the stack. */
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if ( pxStack ! = NULL )
{
/* Allocate space for the TCB. */
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pxNewTCB = ( TCB_t * ) pvPortMallocTcbMem ( sizeof ( TCB_t ) ) ; /*lint !e9087 !e9079 All values returned by pvPortMalloc() have at least the alignment required by the MCU's stack, and the first member of TCB_t is always a pointer to the task's stack. */
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if ( pxNewTCB ! = NULL )
{
/* Store the stack location in the TCB. */
pxNewTCB - > pxStack = pxStack ;
}
else
{
/* The stack cannot be used as the TCB was not created. Free
* it again . */
vPortFree ( pxStack ) ;
}
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}
else
{
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pxNewTCB = NULL ;
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}
}
# endif /* portSTACK_GROWTH */
if ( pxNewTCB ! = NULL )
{
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# if ( tskSTATIC_AND_DYNAMIC_ALLOCATION_POSSIBLE != 0 ) /*lint !e9029 !e731 Macro has been consolidated for readability reasons. */
{
/* Tasks can be created statically or dynamically, so note this
* task was created dynamically in case it is later deleted . */
pxNewTCB - > ucStaticallyAllocated = tskDYNAMICALLY_ALLOCATED_STACK_AND_TCB ;
}
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# endif /* tskSTATIC_AND_DYNAMIC_ALLOCATION_POSSIBLE */
prvInitialiseNewTask ( pvTaskCode , pcName , ( uint32_t ) usStackDepth , pvParameters , uxPriority , pvCreatedTask , pxNewTCB , NULL , xCoreID ) ;
prvAddNewTaskToReadyList ( pxNewTCB , pvTaskCode , xCoreID ) ;
xReturn = pdPASS ;
}
else
{
xReturn = errCOULD_NOT_ALLOCATE_REQUIRED_MEMORY ;
}
return xReturn ;
}
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# endif /* configSUPPORT_DYNAMIC_ALLOCATION */
/*-----------------------------------------------------------*/
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static void prvInitialiseNewTask ( TaskFunction_t pxTaskCode ,
const char * const pcName , /*lint !e971 Unqualified char types are allowed for strings and single characters only. */
const uint32_t ulStackDepth ,
void * const pvParameters ,
UBaseType_t uxPriority ,
TaskHandle_t * const pxCreatedTask ,
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TCB_t * pxNewTCB ,
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const MemoryRegion_t * const xRegions ,
BaseType_t xCoreID )
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{
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StackType_t * pxTopOfStack ;
UBaseType_t x ;
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# if (configNUM_CORES < 2)
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xCoreID = 0 ;
# endif
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# if ( portUSING_MPU_WRAPPERS == 1 )
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/* Should the task be created in privileged mode? */
BaseType_t xRunPrivileged ;
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if ( ( uxPriority & portPRIVILEGE_BIT ) ! = 0U )
{
xRunPrivileged = pdTRUE ;
}
else
{
xRunPrivileged = pdFALSE ;
}
uxPriority & = ~ portPRIVILEGE_BIT ;
# endif /* portUSING_MPU_WRAPPERS == 1 */
/* Avoid dependency on memset() if it is not required. */
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# if ( tskSET_NEW_STACKS_TO_KNOWN_VALUE == 1 )
{
/* Fill the stack with a known value to assist debugging. */
( void ) memset ( pxNewTCB - > pxStack , ( int ) tskSTACK_FILL_BYTE , ( size_t ) ulStackDepth * sizeof ( StackType_t ) ) ;
}
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# endif /* tskSET_NEW_STACKS_TO_KNOWN_VALUE */
# if( configUSE_TRACE_FACILITY == 1 )
{
/* Zero the uxTaskNumber TCB member to avoid random value from dynamically allocated TCBs */
pxNewTCB - > uxTaskNumber = 0 ;
}
# endif /* ( configUSE_TRACE_FACILITY == 1 ) */
/* Calculate the top of stack address. This depends on whether the stack
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* grows from high memory to low ( as per the 80 x86 ) or vice versa .
* portSTACK_GROWTH is used to make the result positive or negative as required
* by the port . */
# if ( portSTACK_GROWTH < 0 )
{
pxTopOfStack = & ( pxNewTCB - > pxStack [ ulStackDepth - ( uint32_t ) 1 ] ) ;
pxTopOfStack = ( StackType_t * ) ( ( ( portPOINTER_SIZE_TYPE ) pxTopOfStack ) & ( ~ ( ( portPOINTER_SIZE_TYPE ) portBYTE_ALIGNMENT_MASK ) ) ) ; /*lint !e923 !e9033 !e9078 MISRA exception. Avoiding casts between pointers and integers is not practical. Size differences accounted for using portPOINTER_SIZE_TYPE type. Checked by assert(). */
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/* Check the alignment of the calculated top of stack is correct. */
configASSERT ( ( ( ( portPOINTER_SIZE_TYPE ) pxTopOfStack & ( portPOINTER_SIZE_TYPE ) portBYTE_ALIGNMENT_MASK ) = = 0UL ) ) ;
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# if ( configRECORD_STACK_HIGH_ADDRESS == 1 )
{
/* Also record the stack's high address, which may assist
* debugging . */
pxNewTCB - > pxEndOfStack = pxTopOfStack ;
}
# endif /* configRECORD_STACK_HIGH_ADDRESS */
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}
# else /* portSTACK_GROWTH */
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{
pxTopOfStack = pxNewTCB - > pxStack ;
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/* Check the alignment of the stack buffer is correct. */
configASSERT ( ( ( ( portPOINTER_SIZE_TYPE ) pxNewTCB - > pxStack & ( portPOINTER_SIZE_TYPE ) portBYTE_ALIGNMENT_MASK ) = = 0UL ) ) ;
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/* The other extreme of the stack space is required if stack checking is
* performed . */
pxNewTCB - > pxEndOfStack = pxNewTCB - > pxStack + ( ulStackDepth - ( uint32_t ) 1 ) ;
}
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# endif /* portSTACK_GROWTH */
/* Store the task name in the TCB. */
if ( pcName ! = NULL )
{
for ( x = ( UBaseType_t ) 0 ; x < ( UBaseType_t ) configMAX_TASK_NAME_LEN ; x + + )
{
pxNewTCB - > pcTaskName [ x ] = pcName [ x ] ;
/* Don't copy all configMAX_TASK_NAME_LEN if the string is shorter than
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* configMAX_TASK_NAME_LEN characters just in case the memory after the
* string is not accessible ( extremely unlikely ) . */
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if ( pcName [ x ] = = ( char ) 0x00 )
{
break ;
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
}
/* Ensure the name string is terminated in the case that the string length
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* was greater or equal to configMAX_TASK_NAME_LEN . */
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pxNewTCB - > pcTaskName [ configMAX_TASK_NAME_LEN - 1 ] = ' \0 ' ;
}
else
{
/* The task has not been given a name, so just ensure there is a NULL
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* terminator when it is read out . */
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pxNewTCB - > pcTaskName [ 0 ] = 0x00 ;
}
/* This is used as an array index so must ensure it's not too large. First
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* remove the privilege bit if one is present . */
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if ( uxPriority > = ( UBaseType_t ) configMAX_PRIORITIES )
{
uxPriority = ( UBaseType_t ) configMAX_PRIORITIES - ( UBaseType_t ) 1U ;
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
pxNewTCB - > uxPriority = uxPriority ;
pxNewTCB - > xCoreID = xCoreID ;
# if ( configUSE_MUTEXES == 1 )
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{
pxNewTCB - > uxBasePriority = uxPriority ;
pxNewTCB - > uxMutexesHeld = 0 ;
}
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# endif /* configUSE_MUTEXES */
vListInitialiseItem ( & ( pxNewTCB - > xStateListItem ) ) ;
vListInitialiseItem ( & ( pxNewTCB - > xEventListItem ) ) ;
/* Set the pxNewTCB as a link back from the ListItem_t. This is so we can get
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* back to the containing TCB from a generic item in a list . */
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listSET_LIST_ITEM_OWNER ( & ( pxNewTCB - > xStateListItem ) , pxNewTCB ) ;
/* Event lists are always in priority order. */
listSET_LIST_ITEM_VALUE ( & ( pxNewTCB - > xEventListItem ) , ( TickType_t ) configMAX_PRIORITIES - ( TickType_t ) uxPriority ) ; /*lint !e961 MISRA exception as the casts are only redundant for some ports. */
listSET_LIST_ITEM_OWNER ( & ( pxNewTCB - > xEventListItem ) , pxNewTCB ) ;
# if ( portCRITICAL_NESTING_IN_TCB == 1 )
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{
pxNewTCB - > uxCriticalNesting = ( UBaseType_t ) 0U ;
}
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# endif /* portCRITICAL_NESTING_IN_TCB */
# if ( configUSE_APPLICATION_TASK_TAG == 1 )
{
pxNewTCB - > pxTaskTag = NULL ;
}
# endif /* configUSE_APPLICATION_TASK_TAG */
# if ( configGENERATE_RUN_TIME_STATS == 1 )
{
pxNewTCB - > ulRunTimeCounter = 0UL ;
}
# endif /* configGENERATE_RUN_TIME_STATS */
# if ( portUSING_MPU_WRAPPERS == 1 )
{
vPortStoreTaskMPUSettings ( & ( pxNewTCB - > xMPUSettings ) , xRegions , pxNewTCB - > pxStack , ulStackDepth ) ;
}
# else
{
/* Avoid compiler warning about unreferenced parameter. */
( void ) xRegions ;
}
# endif
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# if ( configNUM_THREAD_LOCAL_STORAGE_POINTERS != 0 )
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{
for ( x = 0 ; x < ( UBaseType_t ) configNUM_THREAD_LOCAL_STORAGE_POINTERS ; x + + )
{
pxNewTCB - > pvThreadLocalStoragePointers [ x ] = NULL ;
# if ( configTHREAD_LOCAL_STORAGE_DELETE_CALLBACKS == 1)
pxNewTCB - > pvThreadLocalStoragePointersDelCallback [ x ] = NULL ;
# endif
}
}
# endif
# if ( configUSE_TASK_NOTIFICATIONS == 1 )
{
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memset ( ( void * ) & ( pxNewTCB - > ulNotifiedValue [ 0 ] ) , 0x00 , sizeof ( pxNewTCB - > ulNotifiedValue ) ) ;
memset ( ( void * ) & ( pxNewTCB - > ucNotifyState [ 0 ] ) , 0x00 , sizeof ( pxNewTCB - > ucNotifyState ) ) ;
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}
# endif
# if ( configUSE_NEWLIB_REENTRANT == 1 )
{
/* Initialise this task's Newlib reent structure. */
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_REENT_INIT_PTR ( ( & ( pxNewTCB - > xNewLib_reent ) ) ) ;
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}
# endif
# if ( INCLUDE_xTaskAbortDelay == 1 )
{
pxNewTCB - > ucDelayAborted = pdFALSE ;
}
# endif
/* Initialize the TCB stack to look as if the task was already running,
* but had been interrupted by the scheduler . The return address is set
* to the start of the task function . Once the stack has been initialised
* the top of stack variable is updated . */
# if ( portUSING_MPU_WRAPPERS == 1 )
{
/* If the port has capability to detect stack overflow,
* pass the stack end address to the stack initialization
* function as well . */
# if ( portHAS_STACK_OVERFLOW_CHECKING == 1 )
{
# if ( portSTACK_GROWTH < 0 )
{
pxNewTCB - > pxTopOfStack = pxPortInitialiseStack ( pxTopOfStack , pxNewTCB - > pxStack , pxTaskCode , pvParameters , xRunPrivileged ) ;
}
# else /* portSTACK_GROWTH */
{
pxNewTCB - > pxTopOfStack = pxPortInitialiseStack ( pxTopOfStack , pxNewTCB - > pxEndOfStack , pxTaskCode , pvParameters , xRunPrivileged ) ;
}
# endif /* portSTACK_GROWTH */
}
# else /* portHAS_STACK_OVERFLOW_CHECKING */
{
pxNewTCB - > pxTopOfStack = pxPortInitialiseStack ( pxTopOfStack , pxTaskCode , pvParameters , xRunPrivileged ) ;
}
# endif /* portHAS_STACK_OVERFLOW_CHECKING */
}
# else /* portUSING_MPU_WRAPPERS */
{
/* If the port has capability to detect stack overflow,
* pass the stack end address to the stack initialization
* function as well . */
# if ( portHAS_STACK_OVERFLOW_CHECKING == 1 )
{
# if ( portSTACK_GROWTH < 0 )
{
pxNewTCB - > pxTopOfStack = pxPortInitialiseStack ( pxTopOfStack , pxNewTCB - > pxStack , pxTaskCode , pvParameters ) ;
}
# else /* portSTACK_GROWTH */
{
pxNewTCB - > pxTopOfStack = pxPortInitialiseStack ( pxTopOfStack , pxNewTCB - > pxEndOfStack , pxTaskCode , pvParameters ) ;
}
# endif /* portSTACK_GROWTH */
}
# else /* portHAS_STACK_OVERFLOW_CHECKING */
{
pxNewTCB - > pxTopOfStack = pxPortInitialiseStack ( pxTopOfStack , pxTaskCode , pvParameters ) ;
}
# endif /* portHAS_STACK_OVERFLOW_CHECKING */
}
# endif /* portUSING_MPU_WRAPPERS */
if ( pxCreatedTask ! = NULL )
{
/* Pass the handle out in an anonymous way. The handle can be used to
* change the created task ' s priority , delete the created task , etc . */
* pxCreatedTask = ( TaskHandle_t ) pxNewTCB ;
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
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}
/*-----------------------------------------------------------*/
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static void prvAddNewTaskToReadyList ( TCB_t * pxNewTCB ,
TaskFunction_t pxTaskCode ,
BaseType_t xCoreID )
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{
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TCB_t * curTCB , * tcb0 , * tcb1 ;
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# if (configNUM_CORES < 2)
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xCoreID = 0 ;
# endif
/* Ensure interrupts don't access the task lists while the lists are being
* updated . */
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taskENTER_CRITICAL ( ) ;
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{
uxCurrentNumberOfTasks + + ;
if ( xCoreID = = tskNO_AFFINITY )
{
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if ( configNUM_CORES = = 1 )
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{
xCoreID = 0 ;
}
else
{
// if the task has no affinity, put it on either core if nothing is currently scheduled there. Failing that,
// put it on the core where it will preempt the lowest priority running task. If neither of these are true,
// queue it on the currently running core.
tcb0 = pxCurrentTCB [ 0 ] ;
tcb1 = pxCurrentTCB [ 1 ] ;
if ( tcb0 = = NULL )
{
xCoreID = 0 ;
}
else if ( tcb1 = = NULL )
{
xCoreID = 1 ;
}
else if ( tcb0 - > uxPriority < pxNewTCB - > uxPriority & & tcb0 - > uxPriority < tcb1 - > uxPriority )
{
xCoreID = 0 ;
}
else if ( tcb1 - > uxPriority < pxNewTCB - > uxPriority )
{
xCoreID = 1 ;
}
else
{
xCoreID = xPortGetCoreID ( ) ; // Both CPU have higher priority tasks running on them, so this won't run yet
}
}
}
if ( pxCurrentTCB [ xCoreID ] = = NULL )
{
/* There are no other tasks, or all the other tasks are in
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* the suspended state - make this the current task . */
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pxCurrentTCB [ xCoreID ] = pxNewTCB ;
if ( uxCurrentNumberOfTasks = = ( UBaseType_t ) 1 )
{
/* This is the first task to be created so do the preliminary
* initialisation required . We will not recover if this call
* fails , but we will report the failure . */
prvInitialiseTaskLists ( ) ;
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
}
else
{
/* If the scheduler is not already running, make this task the
* current task if it is the highest priority task to be created
* so far . */
if ( xSchedulerRunning = = pdFALSE )
{
if ( pxCurrentTCB [ xCoreID ] = = NULL | | pxCurrentTCB [ xCoreID ] - > uxPriority < = pxNewTCB - > uxPriority )
{
pxCurrentTCB [ xCoreID ] = pxNewTCB ;
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
}
uxTaskNumber + + ;
# if ( configUSE_TRACE_FACILITY == 1 )
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{
/* Add a counter into the TCB for tracing only. */
pxNewTCB - > uxTCBNumber = uxTaskNumber ;
}
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# endif /* configUSE_TRACE_FACILITY */
traceTASK_CREATE ( pxNewTCB ) ;
prvAddTaskToReadyList ( pxNewTCB ) ;
portSETUP_TCB ( pxNewTCB ) ;
}
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taskEXIT_CRITICAL ( ) ;
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if ( xSchedulerRunning ! = pdFALSE )
{
/* If the created task is of a higher priority than the current task
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* then it should run now . */
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taskENTER_CRITICAL ( ) ;
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curTCB = pxCurrentTCB [ xCoreID ] ;
if ( curTCB = = NULL | | curTCB - > uxPriority < pxNewTCB - > uxPriority )
{
if ( xCoreID = = xPortGetCoreID ( ) )
{
taskYIELD_IF_USING_PREEMPTION ( ) ;
}
else {
taskYIELD_OTHER_CORE ( xCoreID , pxNewTCB - > uxPriority ) ;
}
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
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taskEXIT_CRITICAL ( ) ;
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}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
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}
/*-----------------------------------------------------------*/
# if ( INCLUDE_vTaskDelete == 1 )
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void vTaskDelete ( TaskHandle_t xTaskToDelete )
{
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TCB_t * pxTCB ;
TCB_t * curTCB ;
BaseType_t core ;
BaseType_t xFreeNow = 0 ;
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taskENTER_CRITICAL ( ) ;
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{
core = xPortGetCoreID ( ) ;
curTCB = pxCurrentTCB [ core ] ;
/* If null is passed in here then it is the calling task that is
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* being deleted . */
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pxTCB = prvGetTCBFromHandle ( xTaskToDelete ) ;
/* Remove task from the ready/delayed list. */
if ( uxListRemove ( & ( pxTCB - > xStateListItem ) ) = = ( UBaseType_t ) 0 )
{
taskRESET_READY_PRIORITY ( pxTCB - > uxPriority ) ;
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
/* Is the task waiting on an event also? */
if ( listLIST_ITEM_CONTAINER ( & ( pxTCB - > xEventListItem ) ) ! = NULL )
{
( void ) uxListRemove ( & ( pxTCB - > xEventListItem ) ) ;
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
/* Increment the uxTaskNumber also so kernel aware debuggers can
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* detect that the task lists need re - generating . This is done before
* portPRE_TASK_DELETE_HOOK ( ) as in the Windows port that macro will
* not return . */
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uxTaskNumber + + ;
if ( pxTCB = = curTCB | |
/* in SMP, we also can't immediately delete the task active on the other core */
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( configNUM_CORES > 1 & & pxTCB = = pxCurrentTCB [ ! core ] ) | |
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/* ... and we can't delete a non-running task pinned to the other core, as
FPU cleanup has to happen on the same core */
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( configNUM_CORES > 1 & & pxTCB - > xCoreID = = ( ! core ) ) )
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{
/* A task is deleting itself. This cannot complete within the
* task itself , as a context switch to another task is required .
* Place the task in the termination list . The idle task will
* check the termination list and free up any memory allocated by
* the scheduler for the TCB and stack of the deleted task . */
vListInsertEnd ( & xTasksWaitingTermination , & ( pxTCB - > xStateListItem ) ) ;
/* Increment the ucTasksDeleted variable so the idle task knows
* there is a task that has been deleted and that it should therefore
* check the xTasksWaitingTermination list . */
+ + uxDeletedTasksWaitingCleanUp ;
/* The pre-delete hook is primarily for the Windows simulator,
* in which Windows specific clean up operations are performed ,
* after which it is not possible to yield away from this task -
* hence xYieldPending is used to latch that a context switch is
* required . */
portPRE_TASK_DELETE_HOOK ( pxTCB , & xYieldPending [ core ] ) ;
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if ( configNUM_CORES > 1 & & pxTCB = = pxCurrentTCB [ ! core ] )
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{
/* SMP case of deleting a task running on a different core. Same issue
as a task deleting itself , but we need to send a yield to this task now
before we release xTaskQueueMutex .
Specifically there is a case where the other core may already be spinning on
xTaskQueueMutex waiting to go into a blocked state . A check is added in
prvAddCurrentTaskToDelayedList ( ) to prevent it from removing itself from
xTasksWaitingTermination list in this case ( instead it will immediately
release xTaskQueueMutex again and be yielded before the FreeRTOS function
returns . ) */
vPortYieldOtherCore ( ! core ) ;
}
}
else
{
- - uxCurrentNumberOfTasks ;
xFreeNow = pdTRUE ;
/* Reset the next expected unblock time in case it referred to
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* the task that has just been deleted . */
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prvResetNextTaskUnblockTime ( ) ;
}
traceTASK_DELETE ( pxTCB ) ;
}
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taskEXIT_CRITICAL ( ) ;
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if ( xFreeNow = = pdTRUE ) {
# if ( configNUM_THREAD_LOCAL_STORAGE_POINTERS > 0 ) && ( configTHREAD_LOCAL_STORAGE_DELETE_CALLBACKS )
prvDeleteTLS ( pxTCB ) ;
# endif
prvDeleteTCB ( pxTCB ) ;
}
/* Force a reschedule if it is the currently running task that has just
* been deleted . */
if ( xSchedulerRunning ! = pdFALSE )
{
if ( pxTCB = = curTCB )
{
configASSERT ( xTaskGetSchedulerState ( ) ! = taskSCHEDULER_SUSPENDED ) ;
portYIELD_WITHIN_API ( ) ;
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
}
}
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# endif /* INCLUDE_vTaskDelete */
/*-----------------------------------------------------------*/
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# if ( INCLUDE_xTaskDelayUntil == 1 )
# ifdef ESP_PLATFORM
// backward binary compatibility - remove later
# undef vTaskDelayUntil
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void vTaskDelayUntil ( TickType_t * const pxPreviousWakeTime ,
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const TickType_t xTimeIncrement )
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{
xTaskDelayUntil ( pxPreviousWakeTime , xTimeIncrement ) ;
}
# endif // ESP_PLATFORM
BaseType_t xTaskDelayUntil ( TickType_t * const pxPreviousWakeTime ,
const TickType_t xTimeIncrement )
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{
TickType_t xTimeToWake ;
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# ifdef ESP_PLATFORM
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BaseType_t xShouldDelay = pdFALSE ;
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# else
BaseType_t xAlreadyYielded , xShouldDelay = pdFALSE ;
# endif // ESP_PLATFORM
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configASSERT ( pxPreviousWakeTime ) ;
configASSERT ( ( xTimeIncrement > 0U ) ) ;
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configASSERT ( xTaskGetSchedulerState ( ) ! = taskSCHEDULER_SUSPENDED ) ;
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# ifdef ESP_PLATFORM // IDF-3755
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taskENTER_CRITICAL ( ) ;
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# else
vTaskSuspendAll ( ) ;
# endif // ESP_PLATFORM
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{
/* Minor optimisation. The tick count cannot change in this
* block . */
const TickType_t xConstTickCount = xTickCount ;
/* Generate the tick time at which the task wants to wake. */
xTimeToWake = * pxPreviousWakeTime + xTimeIncrement ;
if ( xConstTickCount < * pxPreviousWakeTime )
{
/* The tick count has overflowed since this function was
* lasted called . In this case the only time we should ever
* actually delay is if the wake time has also overflowed ,
* and the wake time is greater than the tick time . When this
* is the case it is as if neither time had overflowed . */
if ( ( xTimeToWake < * pxPreviousWakeTime ) & & ( xTimeToWake > xConstTickCount ) )
{
xShouldDelay = pdTRUE ;
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
}
else
{
/* The tick time has not overflowed. In this case we will
* delay if either the wake time has overflowed , and / or the
* tick time is less than the wake time . */
if ( ( xTimeToWake < * pxPreviousWakeTime ) | | ( xTimeToWake > xConstTickCount ) )
{
xShouldDelay = pdTRUE ;
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
}
/* Update the wake time ready for the next call. */
* pxPreviousWakeTime = xTimeToWake ;
if ( xShouldDelay ! = pdFALSE )
{
traceTASK_DELAY_UNTIL ( ) ;
/* prvAddCurrentTaskToDelayedList() needs the block time, not
* the time to wake , so subtract the current tick count . */
prvAddCurrentTaskToDelayedList ( xPortGetCoreID ( ) , xTimeToWake - xConstTickCount ) ;
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
}
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# ifdef ESP_PLATFORM // IDF-3755
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taskEXIT_CRITICAL ( ) ;
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# else
xAlreadyYielded = xTaskResumeAll ( ) ;
# endif // ESP_PLATFORM
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/* Force a reschedule if xTaskResumeAll has not already done so, we may
* have put ourselves to sleep . */
# ifdef ESP_PLATFORM
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portYIELD_WITHIN_API ( ) ;
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# else
if ( xAlreadyYielded = = pdFALSE )
{
portYIELD_WITHIN_API ( ) ;
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
# endif // ESP_PLATFORM
return xShouldDelay ;
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}
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# endif /* INCLUDE_xTaskDelayUntil */
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/*-----------------------------------------------------------*/
# if ( INCLUDE_vTaskDelay == 1 )
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void vTaskDelay ( const TickType_t xTicksToDelay )
{
/* A delay time of zero just forces a reschedule. */
if ( xTicksToDelay > ( TickType_t ) 0U )
{
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configASSERT ( xTaskGetSchedulerState ( ) ! = taskSCHEDULER_SUSPENDED ) ;
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# ifdef ESP_PLATFORM // IDF-3755
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taskENTER_CRITICAL ( ) ;
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# else
vTaskSuspendAll ( ) ;
# endif // ESP_PLATFORM
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{
traceTASK_DELAY ( ) ;
/* A task that is removed from the event list while the
* scheduler is suspended will not get placed in the ready
* list or removed from the blocked list until the scheduler
* is resumed .
*
* This task cannot be in an event list as it is the currently
* executing task . */
prvAddCurrentTaskToDelayedList ( xPortGetCoreID ( ) , xTicksToDelay ) ;
}
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# ifdef ESP_PLATFORM // IDF-3755
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taskEXIT_CRITICAL ( ) ;
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# else
xAlreadyYielded = xTaskResumeAll ( ) ;
# endif // ESP_PLATFORM
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}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
/* Force a reschedule, we may have put ourselves to sleep. */
portYIELD_WITHIN_API ( ) ;
}
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# endif /* INCLUDE_vTaskDelay */
/*-----------------------------------------------------------*/
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# if ( ( INCLUDE_eTaskGetState == 1 ) || ( configUSE_TRACE_FACILITY == 1 ) || ( INCLUDE_xTaskAbortDelay == 1 ) )
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eTaskState eTaskGetState ( TaskHandle_t xTask )
{
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eTaskState eReturn ;
List_t const * pxStateList , * pxDelayedList , * pxOverflowedDelayedList ;
const TCB_t * const pxTCB = xTask ;
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configASSERT ( pxTCB ) ;
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taskENTER_CRITICAL ( ) ; //Need critical section incase either core context switches in between
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if ( pxTCB = = pxCurrentTCB [ xPortGetCoreID ( ) ] )
{
/* The task calling this function is querying its own state. */
eReturn = eRunning ;
}
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# if (configNUM_CORES > 1)
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else if ( pxTCB = = pxCurrentTCB [ ! xPortGetCoreID ( ) ] )
{
/* The task calling this function is querying its own state. */
eReturn = eRunning ;
}
# endif
else
{
pxStateList = listLIST_ITEM_CONTAINER ( & ( pxTCB - > xStateListItem ) ) ;
pxDelayedList = pxDelayedTaskList ;
pxOverflowedDelayedList = pxOverflowDelayedTaskList ;
if ( ( pxStateList = = pxDelayedList ) | | ( pxStateList = = pxOverflowedDelayedList ) )
{
/* The task being queried is referenced from one of the Blocked
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* lists . */
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eReturn = eBlocked ;
}
# if ( INCLUDE_vTaskSuspend == 1 )
else if ( pxStateList = = & xSuspendedTaskList )
{
/* The task being queried is referenced from the suspended
* list . Is it genuinely suspended or is it blocked
* indefinitely ? */
if ( listLIST_ITEM_CONTAINER ( & ( pxTCB - > xEventListItem ) ) = = NULL )
{
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# if ( configUSE_TASK_NOTIFICATIONS == 1 )
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{
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BaseType_t x ;
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/* The task does not appear on the event list item of
* and of the RTOS objects , but could still be in the
* blocked state if it is waiting on its notification
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* rather than waiting on an object . If not , is
* suspended . */
eReturn = eSuspended ;
for ( x = 0 ; x < configTASK_NOTIFICATION_ARRAY_ENTRIES ; x + + )
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{
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if ( pxTCB - > ucNotifyState [ x ] = = taskWAITING_NOTIFICATION )
{
eReturn = eBlocked ;
break ;
}
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}
}
# else /* if ( configUSE_TASK_NOTIFICATIONS == 1 ) */
{
eReturn = eSuspended ;
}
# endif /* if ( configUSE_TASK_NOTIFICATIONS == 1 ) */
}
else
{
eReturn = eBlocked ;
}
}
# endif /* if ( INCLUDE_vTaskSuspend == 1 ) */
# if ( INCLUDE_vTaskDelete == 1 )
else if ( ( pxStateList = = & xTasksWaitingTermination ) | | ( pxStateList = = NULL ) )
{
/* The task being queried is referenced from the deleted
* tasks list , or it is not referenced from any lists at
* all . */
eReturn = eDeleted ;
}
# endif
else /*lint !e525 Negative indentation is intended to make use of pre-processor clearer. */
{
/* If the task is not in any other state, it must be in the
* Ready ( including pending ready ) state . */
eReturn = eReady ;
}
}
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taskEXIT_CRITICAL ( ) ;
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return eReturn ;
} /*lint !e818 xTask cannot be a pointer to const because it is a typedef. */
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# endif /* INCLUDE_eTaskGetState */
/*-----------------------------------------------------------*/
# if ( INCLUDE_uxTaskPriorityGet == 1 )
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UBaseType_t uxTaskPriorityGet ( const TaskHandle_t xTask )
{
TCB_t const * pxTCB ;
UBaseType_t uxReturn ;
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taskENTER_CRITICAL ( ) ;
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{
/* If null is passed in here then it is the priority of the task
* that called uxTaskPriorityGet ( ) that is being queried . */
pxTCB = prvGetTCBFromHandle ( xTask ) ;
uxReturn = pxTCB - > uxPriority ;
}
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taskEXIT_CRITICAL ( ) ;
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return uxReturn ;
}
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# endif /* INCLUDE_uxTaskPriorityGet */
/*-----------------------------------------------------------*/
# if ( INCLUDE_uxTaskPriorityGet == 1 )
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UBaseType_t uxTaskPriorityGetFromISR ( const TaskHandle_t xTask )
{
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TCB_t const * pxTCB ;
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UBaseType_t uxReturn ;
/* RTOS ports that support interrupt nesting have the concept of a
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* maximum system call ( or maximum API call ) interrupt priority .
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* Interrupts that are above the maximum system call priority are keep
* permanently enabled , even when the RTOS kernel is in a critical section ,
* but cannot make any calls to FreeRTOS API functions . If configASSERT ( )
* is defined in FreeRTOSConfig . h then
* portASSERT_IF_INTERRUPT_PRIORITY_INVALID ( ) will result in an assertion
* failure if a FreeRTOS API function is called from an interrupt that has
* been assigned a priority above the configured maximum system call
* priority . Only FreeRTOS functions that end in FromISR can be called
* from interrupts that have been assigned a priority at or ( logically )
* below the maximum system call interrupt priority . FreeRTOS maintains a
* separate interrupt safe API to ensure interrupt entry is as fast and as
* simple as possible . More information ( albeit Cortex - M specific ) is
* provided on the following link :
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* https : //www.FreeRTOS.org/RTOS-Cortex-M3-M4.html */
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portASSERT_IF_INTERRUPT_PRIORITY_INVALID ( ) ;
portENTER_CRITICAL_ISR ( & xTaskQueueMutex ) ;
{
/* If null is passed in here then it is the priority of the calling
* task that is being queried . */
pxTCB = prvGetTCBFromHandle ( xTask ) ;
uxReturn = pxTCB - > uxPriority ;
}
portEXIT_CRITICAL_ISR ( & xTaskQueueMutex ) ;
return uxReturn ;
}
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# endif /* INCLUDE_uxTaskPriorityGet */
/*-----------------------------------------------------------*/
# if ( INCLUDE_vTaskPrioritySet == 1 )
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void vTaskPrioritySet ( TaskHandle_t xTask ,
UBaseType_t uxNewPriority )
{
TCB_t * pxTCB ;
UBaseType_t uxCurrentBasePriority , uxPriorityUsedOnEntry ;
BaseType_t xYieldRequired = pdFALSE ;
configASSERT ( ( uxNewPriority < configMAX_PRIORITIES ) ) ;
/* Ensure the new priority is valid. */
if ( uxNewPriority > = ( UBaseType_t ) configMAX_PRIORITIES )
{
uxNewPriority = ( UBaseType_t ) configMAX_PRIORITIES - ( UBaseType_t ) 1U ;
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
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taskENTER_CRITICAL ( ) ;
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{
/* If null is passed in here then it is the priority of the calling
* task that is being changed . */
pxTCB = prvGetTCBFromHandle ( xTask ) ;
traceTASK_PRIORITY_SET ( pxTCB , uxNewPriority ) ;
# if ( configUSE_MUTEXES == 1 )
{
uxCurrentBasePriority = pxTCB - > uxBasePriority ;
}
# else
{
uxCurrentBasePriority = pxTCB - > uxPriority ;
}
# endif
if ( uxCurrentBasePriority ! = uxNewPriority )
{
/* The priority change may have readied a task of higher
* priority than the calling task . */
if ( uxNewPriority > uxCurrentBasePriority )
{
if ( pxTCB ! = pxCurrentTCB [ xPortGetCoreID ( ) ] )
{
/* The priority of a task other than the currently
* running task is being raised . Is the priority being
* raised above that of the running task ? */
if ( tskCAN_RUN_HERE ( pxTCB - > xCoreID ) & & uxNewPriority > = pxCurrentTCB [ xPortGetCoreID ( ) ] - > uxPriority )
{
xYieldRequired = pdTRUE ;
}
else if ( pxTCB - > xCoreID ! = xPortGetCoreID ( ) )
{
taskYIELD_OTHER_CORE ( pxTCB - > xCoreID , uxNewPriority ) ;
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
}
else
{
/* The priority of the running task is being raised,
* but the running task must already be the highest
* priority task able to run so no yield is required . */
}
}
else if ( pxTCB = = pxCurrentTCB [ xPortGetCoreID ( ) ] )
{
/* Setting the priority of the running task down means
* there may now be another task of higher priority that
* is ready to execute . */
xYieldRequired = pdTRUE ;
}
else if ( pxTCB ! = pxCurrentTCB [ xPortGetCoreID ( ) ] )
{
/* The priority of a task other than the currently
* running task is being raised . Is the priority being
* raised above that of the running task ? */
if ( uxNewPriority > = pxCurrentTCB [ xPortGetCoreID ( ) ] - > uxPriority )
{
xYieldRequired = pdTRUE ;
}
else if ( pxTCB - > xCoreID ! = xPortGetCoreID ( ) ) //Need to check if not currently running on other core
{
taskYIELD_OTHER_CORE ( pxTCB - > xCoreID , uxNewPriority ) ;
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
}
else
{
/* Setting the priority of any other task down does not
* require a yield as the running task must be above the
* new priority of the task being modified . */
}
/* Remember the ready list the task might be referenced from
* before its uxPriority member is changed so the
* taskRESET_READY_PRIORITY ( ) macro can function correctly . */
uxPriorityUsedOnEntry = pxTCB - > uxPriority ;
# if ( configUSE_MUTEXES == 1 )
{
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/* Only change the priority being used if the task is not
* currently using an inherited priority . */
if ( pxTCB - > uxBasePriority = = pxTCB - > uxPriority )
{
pxTCB - > uxPriority = uxNewPriority ;
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
/* The base priority gets set whatever. */
pxTCB - > uxBasePriority = uxNewPriority ;
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}
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# else /* if ( configUSE_MUTEXES == 1 ) */
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{
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pxTCB - > uxPriority = uxNewPriority ;
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}
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# endif /* if ( configUSE_MUTEXES == 1 ) */
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/* Only reset the event list item value if the value is not
* being used for anything else . */
if ( ( listGET_LIST_ITEM_VALUE ( & ( pxTCB - > xEventListItem ) ) & taskEVENT_LIST_ITEM_VALUE_IN_USE ) = = 0UL )
{
listSET_LIST_ITEM_VALUE ( & ( pxTCB - > xEventListItem ) , ( ( TickType_t ) configMAX_PRIORITIES - ( TickType_t ) uxNewPriority ) ) ; /*lint !e961 MISRA exception as the casts are only redundant for some ports. */
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
/* If the task is in the blocked or suspended list we need do
* nothing more than change its priority variable . However , if
* the task is in a ready list it needs to be removed and placed
* in the list appropriate to its new priority . */
if ( listIS_CONTAINED_WITHIN ( & ( pxReadyTasksLists [ uxPriorityUsedOnEntry ] ) , & ( pxTCB - > xStateListItem ) ) ! = pdFALSE )
{
/* The task is currently in its ready list - remove before
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* adding it to its new ready list . As we are in a critical
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* section we can do this even if the scheduler is suspended . */
if ( uxListRemove ( & ( pxTCB - > xStateListItem ) ) = = ( UBaseType_t ) 0 )
{
/* It is known that the task is in its ready list so
* there is no need to check again and the port level
* reset macro can be called directly . */
portRESET_READY_PRIORITY ( uxPriorityUsedOnEntry , uxTopReadyPriority ) ;
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
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prvAddTaskToReadyList ( pxTCB ) ;
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
if ( xYieldRequired ! = pdFALSE )
{
taskYIELD_IF_USING_PREEMPTION ( ) ;
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
/* Remove compiler warning about unused variables when the port
* optimised task selection is not being used . */
( void ) uxPriorityUsedOnEntry ;
}
}
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taskEXIT_CRITICAL ( ) ;
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}
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# endif /* INCLUDE_vTaskPrioritySet */
/*-----------------------------------------------------------*/
# if ( INCLUDE_vTaskSuspend == 1 )
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void vTaskSuspend ( TaskHandle_t xTaskToSuspend )
{
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TCB_t * pxTCB ;
TCB_t * curTCB ;
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taskENTER_CRITICAL ( ) ;
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{
/* If null is passed in here then it is the running task that is
* being suspended . */
pxTCB = prvGetTCBFromHandle ( xTaskToSuspend ) ;
traceTASK_SUSPEND ( pxTCB ) ;
/* Remove task from the ready/delayed list and place in the
* suspended list . */
if ( uxListRemove ( & ( pxTCB - > xStateListItem ) ) = = ( UBaseType_t ) 0 )
{
taskRESET_READY_PRIORITY ( pxTCB - > uxPriority ) ;
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
/* Is the task waiting on an event also? */
if ( listLIST_ITEM_CONTAINER ( & ( pxTCB - > xEventListItem ) ) ! = NULL )
{
( void ) uxListRemove ( & ( pxTCB - > xEventListItem ) ) ;
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
vListInsertEnd ( & xSuspendedTaskList , & ( pxTCB - > xStateListItem ) ) ;
curTCB = pxCurrentTCB [ xPortGetCoreID ( ) ] ;
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# if ( configUSE_TASK_NOTIFICATIONS == 1 )
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{
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BaseType_t x ;
for ( x = 0 ; x < configTASK_NOTIFICATION_ARRAY_ENTRIES ; x + + )
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{
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if ( pxTCB - > ucNotifyState [ x ] = = taskWAITING_NOTIFICATION )
{
/* The task was blocked to wait for a notification, but is
* now suspended , so no notification was received . */
pxTCB - > ucNotifyState [ x ] = taskNOT_WAITING_NOTIFICATION ;
}
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}
}
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# endif /* if ( configUSE_TASK_NOTIFICATIONS == 1 ) */
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}
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taskEXIT_CRITICAL ( ) ;
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if ( xSchedulerRunning ! = pdFALSE )
{
/* Reset the next expected unblock time in case it referred to the
* task that is now in the Suspended state . */
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taskENTER_CRITICAL ( ) ;
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{
prvResetNextTaskUnblockTime ( ) ;
}
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taskEXIT_CRITICAL ( ) ;
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}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
if ( pxTCB = = curTCB )
{
if ( xSchedulerRunning ! = pdFALSE )
{
/* The current task has just been suspended. */
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taskENTER_CRITICAL ( ) ;
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BaseType_t suspended = uxSchedulerSuspended [ xPortGetCoreID ( ) ] ;
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taskEXIT_CRITICAL ( ) ;
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configASSERT ( suspended = = 0 ) ;
( void ) suspended ;
portYIELD_WITHIN_API ( ) ;
}
else
{
/* The scheduler is not running, but the task that was pointed
* to by pxCurrentTCB has just been suspended and pxCurrentTCB
* must be adjusted to point to a different task . */
if ( listCURRENT_LIST_LENGTH ( & xSuspendedTaskList ) = = uxCurrentNumberOfTasks ) /*lint !e931 Right has no side effect, just volatile. */
{
/* No other tasks are ready, so set pxCurrentTCB back to
* NULL so when the next task is created pxCurrentTCB will
* be set to point to it no matter what its relative priority
* is . */
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taskENTER_CRITICAL ( ) ;
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pxCurrentTCB [ xPortGetCoreID ( ) ] = NULL ;
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taskEXIT_CRITICAL ( ) ;
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}
else
{
vTaskSwitchContext ( ) ;
}
}
}
else
{
if ( xSchedulerRunning ! = pdFALSE )
{
/* A task other than the currently running task was suspended,
* reset the next expected unblock time in case it referred to the
* task that is now in the Suspended state . */
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taskENTER_CRITICAL ( ) ;
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{
prvResetNextTaskUnblockTime ( ) ;
}
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taskEXIT_CRITICAL ( ) ;
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}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
}
}
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# endif /* INCLUDE_vTaskSuspend */
/*-----------------------------------------------------------*/
# if ( INCLUDE_vTaskSuspend == 1 )
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static BaseType_t prvTaskIsTaskSuspended ( const TaskHandle_t xTask )
{
BaseType_t xReturn = pdFALSE ;
const TCB_t * const pxTCB = xTask ;
/* Accesses xPendingReadyList so must be called from a critical
* section . */
/* It does not make sense to check if the calling task is suspended. */
configASSERT ( xTask ) ;
/* Is the task being resumed actually in the suspended list? */
if ( listIS_CONTAINED_WITHIN ( & xSuspendedTaskList , & ( pxTCB - > xStateListItem ) ) ! = pdFALSE )
{
/* Has the task already been resumed from within an ISR? */
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if ( listIS_CONTAINED_WITHIN ( & xPendingReadyList [ xPortGetCoreID ( ) ] , & ( pxTCB - > xEventListItem ) ) = = pdFALSE & &
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listIS_CONTAINED_WITHIN ( & xPendingReadyList [ ! xPortGetCoreID ( ) ] , & ( pxTCB - > xEventListItem ) ) = = pdFALSE )
{
/* Is it in the suspended list because it is in the Suspended
* state , or because is is blocked with no timeout ? */
if ( listIS_CONTAINED_WITHIN ( NULL , & ( pxTCB - > xEventListItem ) ) ! = pdFALSE ) /*lint !e961. The cast is only redundant when NULL is used. */
{
xReturn = pdTRUE ;
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
return xReturn ;
} /*lint !e818 xTask cannot be a pointer to const because it is a typedef. */
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# endif /* INCLUDE_vTaskSuspend */
/*-----------------------------------------------------------*/
# if ( INCLUDE_vTaskSuspend == 1 )
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void vTaskResume ( TaskHandle_t xTaskToResume )
{
TCB_t * const pxTCB = xTaskToResume ;
/* It does not make sense to resume the calling task. */
configASSERT ( xTaskToResume ) ;
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taskENTER_CRITICAL ( ) ;
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/* The parameter cannot be NULL as it is impossible to resume the
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* currently executing task . */
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if ( ( pxTCB ! = pxCurrentTCB [ xPortGetCoreID ( ) ] ) & & ( pxTCB ! = NULL ) )
{
{
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if ( prvTaskIsTaskSuspended ( pxTCB ) ! = pdFALSE )
{
traceTASK_RESUME ( pxTCB ) ;
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/* The ready list can be accessed even if the scheduler is
* suspended because this is inside a critical section . */
( void ) uxListRemove ( & ( pxTCB - > xStateListItem ) ) ;
prvAddTaskToReadyList ( pxTCB ) ;
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/* We may have just resumed a higher priority task. */
if ( tskCAN_RUN_HERE ( pxTCB - > xCoreID ) & & pxTCB - > uxPriority > = pxCurrentTCB [ xPortGetCoreID ( ) ] - > uxPriority )
{
/* This yield may not cause the task just resumed to run,
* but will leave the lists in the correct state for the
* next yield . */
taskYIELD_IF_USING_PREEMPTION ( ) ;
}
else if ( pxTCB - > xCoreID ! = xPortGetCoreID ( ) )
{
taskYIELD_OTHER_CORE ( pxTCB - > xCoreID , pxTCB - > uxPriority ) ;
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
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}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
}
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
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taskEXIT_CRITICAL ( ) ;
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}
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# endif /* INCLUDE_vTaskSuspend */
/*-----------------------------------------------------------*/
# if ( ( INCLUDE_xTaskResumeFromISR == 1 ) && ( INCLUDE_vTaskSuspend == 1 ) )
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BaseType_t xTaskResumeFromISR ( TaskHandle_t xTaskToResume )
{
BaseType_t xYieldRequired = pdFALSE ;
TCB_t * const pxTCB = xTaskToResume ;
configASSERT ( xTaskToResume ) ;
/* RTOS ports that support interrupt nesting have the concept of a
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* maximum system call ( or maximum API call ) interrupt priority .
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* Interrupts that are above the maximum system call priority are keep
* permanently enabled , even when the RTOS kernel is in a critical section ,
* but cannot make any calls to FreeRTOS API functions . If configASSERT ( )
* is defined in FreeRTOSConfig . h then
* portASSERT_IF_INTERRUPT_PRIORITY_INVALID ( ) will result in an assertion
* failure if a FreeRTOS API function is called from an interrupt that has
* been assigned a priority above the configured maximum system call
* priority . Only FreeRTOS functions that end in FromISR can be called
* from interrupts that have been assigned a priority at or ( logically )
* below the maximum system call interrupt priority . FreeRTOS maintains a
* separate interrupt safe API to ensure interrupt entry is as fast and as
* simple as possible . More information ( albeit Cortex - M specific ) is
* provided on the following link :
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* https : //www.FreeRTOS.org/RTOS-Cortex-M3-M4.html */
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//portASSERT_IF_INTERRUPT_PRIORITY_INVALID();
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taskENTER_CRITICAL_ISR ( ) ;
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{
if ( prvTaskIsTaskSuspended ( pxTCB ) ! = pdFALSE )
{
traceTASK_RESUME_FROM_ISR ( pxTCB ) ;
/* Check the ready lists can be accessed. */
if ( uxSchedulerSuspended [ xPortGetCoreID ( ) ] = = ( UBaseType_t ) pdFALSE )
{
( void ) uxListRemove ( & ( pxTCB - > xStateListItem ) ) ;
prvAddTaskToReadyList ( pxTCB ) ;
if ( tskCAN_RUN_HERE ( pxTCB - > xCoreID ) & & pxTCB - > uxPriority > = pxCurrentTCB [ xPortGetCoreID ( ) ] - > uxPriority )
{
xYieldRequired = pdTRUE ;
}
else if ( pxTCB - > xCoreID ! = xPortGetCoreID ( ) )
{
taskYIELD_OTHER_CORE ( pxTCB - > xCoreID , pxTCB - > uxPriority ) ;
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
}
else
{
/* The delayed or ready lists cannot be accessed so the task
* is held in the pending ready list until the scheduler is
* unsuspended . */
vListInsertEnd ( & ( xPendingReadyList [ xPortGetCoreID ( ) ] ) , & ( pxTCB - > xEventListItem ) ) ;
}
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
}
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taskEXIT_CRITICAL_ISR ( ) ;
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return xYieldRequired ;
}
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# endif /* ( ( INCLUDE_xTaskResumeFromISR == 1 ) && ( INCLUDE_vTaskSuspend == 1 ) ) */
/*-----------------------------------------------------------*/
void vTaskStartScheduler ( void )
{
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BaseType_t xReturn ;
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# ifdef ESP_PLATFORM
/* Create an IDLE task for each core */
for ( BaseType_t xCoreID = 0 ; xCoreID < configNUM_CORES ; xCoreID + + )
# endif //ESP_PLATFORM
/* Add the idle task at the lowest priority. */
# if ( configSUPPORT_STATIC_ALLOCATION == 1 )
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{
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StaticTask_t * pxIdleTaskTCBBuffer = NULL ;
StackType_t * pxIdleTaskStackBuffer = NULL ;
uint32_t ulIdleTaskStackSize ;
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/* The Idle task is created using user provided RAM - obtain the
address of the RAM then create the idle task . */
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vApplicationGetIdleTaskMemory ( & pxIdleTaskTCBBuffer , & pxIdleTaskStackBuffer , & ulIdleTaskStackSize ) ;
xIdleTaskHandle [ xCoreID ] = xTaskCreateStaticPinnedToCore ( prvIdleTask ,
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configIDLE_TASK_NAME ,
ulIdleTaskStackSize ,
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( void * ) NULL , /*lint !e961. The cast is not redundant for all compilers. */
portPRIVILEGE_BIT , /* In effect ( tskIDLE_PRIORITY | portPRIVILEGE_BIT ), but tskIDLE_PRIORITY is zero. */
pxIdleTaskStackBuffer ,
pxIdleTaskTCBBuffer ,
xCoreID ) ; /*lint !e961 MISRA exception, justified as it is not a redundant explicit cast to all supported compilers. */
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if ( xIdleTaskHandle [ xCoreID ] ! = NULL )
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{
xReturn = pdPASS ;
}
else
{
xReturn = pdFAIL ;
}
}
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# else /* if ( configSUPPORT_STATIC_ALLOCATION == 1 ) */
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{
/* The Idle task is being created using dynamically allocated RAM. */
xReturn = xTaskCreatePinnedToCore ( prvIdleTask ,
configIDLE_TASK_NAME ,
configIDLE_TASK_STACK_SIZE ,
( void * ) NULL ,
portPRIVILEGE_BIT , /* In effect ( tskIDLE_PRIORITY | portPRIVILEGE_BIT ), but tskIDLE_PRIORITY is zero. */
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& xIdleTaskHandle [ xCoreID ] ,
xCoreID ) ; /*lint !e961 MISRA exception, justified as it is not a redundant explicit cast to all supported compilers. */
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if ( xIdleTaskHandle [ xCoreID ] ! = NULL )
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{
xReturn = pdPASS ;
}
else
{
xReturn = pdFAIL ;
}
}
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# endif /* configSUPPORT_STATIC_ALLOCATION */
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# if ( configUSE_TIMERS == 1 )
{
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if ( xReturn = = pdPASS )
{
xReturn = xTimerCreateTimerTask ( ) ;
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
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}
# endif /* configUSE_TIMERS */
if ( xReturn = = pdPASS )
{
/* freertos_tasks_c_additions_init() should only be called if the user
* definable macro FREERTOS_TASKS_C_ADDITIONS_INIT ( ) is defined , as that is
* the only macro called by the function . */
# ifdef FREERTOS_TASKS_C_ADDITIONS_INIT
{
freertos_tasks_c_additions_init ( ) ;
}
# endif
/* Interrupts are turned off here, to ensure a tick does not occur
* before or during the call to xPortStartScheduler ( ) . The stacks of
* the created tasks contain a status word with interrupts switched on
* so interrupts will automatically get re - enabled when the first task
* starts to run . */
portDISABLE_INTERRUPTS ( ) ;
# if ( configUSE_NEWLIB_REENTRANT == 1 )
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{
/* Switch Newlib's _impure_ptr variable to point to the _reent
* structure specific to the task that will run first .
* See the third party link http : //www.nadler.com/embedded/newlibAndFreeRTOS.html
* for additional information . */
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// _impure_ptr = &( pxCurrentTCB[xPortGetCoreID()]->xNewLib_reent );
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}
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# endif /* configUSE_NEWLIB_REENTRANT */
xNextTaskUnblockTime = portMAX_DELAY ;
xSchedulerRunning = pdTRUE ;
xTickCount = ( TickType_t ) configINITIAL_TICK_COUNT ;
/* If configGENERATE_RUN_TIME_STATS is defined then the following
* macro must be defined to configure the timer / counter used to generate
* the run time counter time base . NOTE : If configGENERATE_RUN_TIME_STATS
* is set to 0 and the following line fails to build then ensure you do not
* have portCONFIGURE_TIMER_FOR_RUN_TIME_STATS ( ) defined in your
* FreeRTOSConfig . h file . */
portCONFIGURE_TIMER_FOR_RUN_TIME_STATS ( ) ;
traceTASK_SWITCHED_IN ( ) ;
/* Setting up the timer tick is hardware specific and thus in the
* portable interface . */
if ( xPortStartScheduler ( ) ! = pdFALSE )
{
/* Should not reach here as if the scheduler is running the
* function will not return . */
}
else
{
/* Should only reach here if a task calls xTaskEndScheduler(). */
}
}
else
{
/* This line will only be reached if the kernel could not be started,
* because there was not enough FreeRTOS heap to create the idle task
* or the timer task . */
configASSERT ( xReturn ! = errCOULD_NOT_ALLOCATE_REQUIRED_MEMORY ) ;
}
/* Prevent compiler warnings if INCLUDE_xTaskGetIdleTaskHandle is set to 0,
* meaning xIdleTaskHandle is not used anywhere else . */
( void ) xIdleTaskHandle [ 0 ] ;
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}
/*-----------------------------------------------------------*/
void vTaskEndScheduler ( void )
{
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/* Stop the scheduler interrupts and call the portable scheduler end
* routine so the original ISRs can be restored if necessary . The port
* layer must ensure interrupts enable bit is left in the correct state . */
portDISABLE_INTERRUPTS ( ) ;
xSchedulerRunning = pdFALSE ;
vPortEndScheduler ( ) ;
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}
/*----------------------------------------------------------*/
void vTaskSuspendAll ( void )
{
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/* A critical section is not required as the variable is of type
* BaseType_t . Please read Richard Barry ' s reply in the following link to a
* post in the FreeRTOS support forum before reporting this as a bug ! -
* https : //goo.gl/wu4acr */
unsigned state ;
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state = portSET_INTERRUPT_MASK_FROM_ISR ( ) ;
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+ + uxSchedulerSuspended [ xPortGetCoreID ( ) ] ;
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portCLEAR_INTERRUPT_MASK_FROM_ISR ( state ) ;
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}
/*----------------------------------------------------------*/
# if ( configUSE_TICKLESS_IDLE != 0 )
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# if ( configNUM_CORES > 1 )
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static BaseType_t xHaveReadyTasks ( void )
{
for ( int i = tskIDLE_PRIORITY + 1 ; i < configMAX_PRIORITIES ; + + i )
{
if ( listCURRENT_LIST_LENGTH ( & ( pxReadyTasksLists [ i ] ) ) > 0 )
{
return pdTRUE ;
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
}
return pdFALSE ;
}
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# endif // configNUM_CORES > 1
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static TickType_t prvGetExpectedIdleTime ( void )
{
TickType_t xReturn ;
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taskENTER_CRITICAL ( ) ;
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if ( pxCurrentTCB [ xPortGetCoreID ( ) ] - > uxPriority > tskIDLE_PRIORITY )
{
xReturn = 0 ;
}
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# if configNUM_CORES > 1
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/* This function is called from Idle task; in single core case this
* means that no higher priority tasks are ready to run , and we can
* enter sleep . In SMP case , there might be ready tasks waiting for
* the other CPU , so need to check all ready lists .
*/
else if ( xHaveReadyTasks ( ) )
{
xReturn = 0 ;
}
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# endif // configNUM_CORES > 1
else if ( listCURRENT_LIST_LENGTH ( & ( pxReadyTasksLists [ tskIDLE_PRIORITY ] ) ) > configNUM_CORES )
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{
/* There are other idle priority tasks in the ready state. If
* time slicing is used then the very next tick interrupt must be
* processed . */
xReturn = 0 ;
}
else
{
xReturn = xNextTaskUnblockTime - xTickCount ;
}
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taskEXIT_CRITICAL ( ) ;
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return xReturn ;
}
2020-11-10 02:40:01 -05:00
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# endif /* configUSE_TICKLESS_IDLE */
/*----------------------------------------------------------*/
BaseType_t xTaskResumeAll ( void )
{
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TCB_t * pxTCB = NULL ;
BaseType_t xAlreadyYielded = pdFALSE ;
TickType_t xTicksToNextUnblockTime ;
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/* If scheduler state is `taskSCHEDULER_RUNNING` then this function does not match a
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* previous call to taskENTER_CRITICAL ( ) . */
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configASSERT ( xTaskGetSchedulerState ( ) ! = taskSCHEDULER_RUNNING ) ;
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/* It is possible that an ISR caused a task to be removed from an event
* list while the scheduler was suspended . If this was the case then the
* removed task will have been added to the xPendingReadyList . Once the
* scheduler has been resumed it is safe to move all the pending ready
* tasks from this list into their appropriate ready list . */
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taskENTER_CRITICAL ( ) ;
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{
- - uxSchedulerSuspended [ xPortGetCoreID ( ) ] ;
if ( uxSchedulerSuspended [ xPortGetCoreID ( ) ] = = ( UBaseType_t ) pdFALSE )
{
if ( uxCurrentNumberOfTasks > ( UBaseType_t ) 0U )
{
/* Move any readied tasks from the pending list into the
* appropriate ready list . */
while ( listLIST_IS_EMPTY ( & xPendingReadyList [ xPortGetCoreID ( ) ] ) = = pdFALSE )
{
pxTCB = listGET_OWNER_OF_HEAD_ENTRY ( ( & xPendingReadyList [ xPortGetCoreID ( ) ] ) ) ; /*lint !e9079 void * is used as this macro is used with timers and co-routines too. Alignment is known to be fine as the type of the pointer stored and retrieved is the same. */
( void ) uxListRemove ( & ( pxTCB - > xEventListItem ) ) ;
( void ) uxListRemove ( & ( pxTCB - > xStateListItem ) ) ;
prvAddTaskToReadyList ( pxTCB ) ;
/* If the moved task has a priority higher than the current
* task then a yield must be performed . */
if ( tskCAN_RUN_HERE ( pxTCB - > xCoreID ) & & pxTCB - > uxPriority > = pxCurrentTCB [ xPortGetCoreID ( ) ] - > uxPriority )
{
xYieldPending [ xPortGetCoreID ( ) ] = pdTRUE ;
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
}
if ( pxTCB ! = NULL )
{
/* A task was unblocked while the scheduler was suspended,
* which may have prevented the next unblock time from being
* re - calculated , in which case re - calculate it now . Mainly
* important for low power tickless implementations , where
* this can prevent an unnecessary exit from low power
* state . */
prvResetNextTaskUnblockTime ( ) ;
}
/* If any ticks occurred while the scheduler was suspended then
* they should be processed now . This ensures the tick count does
* not slip , and that any delayed tasks are resumed at the correct
* time . */
while ( xPendedTicks > ( TickType_t ) 0 )
{
/* Calculate how far into the future the next task will
* leave the Blocked state because its timeout expired . If
* there are no tasks due to leave the blocked state between
* the time now and the time at which the tick count overflows
* then xNextTaskUnblockTime will the tick overflow time .
* This means xNextTaskUnblockTime can never be less than
* xTickCount , and the following can therefore not
* underflow . */
configASSERT ( xNextTaskUnblockTime > = xTickCount ) ;
xTicksToNextUnblockTime = xNextTaskUnblockTime - xTickCount ;
/* Don't want to move the tick count more than the number
of ticks that are pending , so cap if necessary . */
if ( xTicksToNextUnblockTime > xPendedTicks )
{
xTicksToNextUnblockTime = xPendedTicks ;
}
if ( xTicksToNextUnblockTime = = 0 )
{
/* xTicksToNextUnblockTime could be zero if the tick
* count is about to overflow and xTicksToNetUnblockTime
* holds the time at which the tick count will overflow
* ( rather than the time at which the next task will
* unblock ) . Set to 1 otherwise xPendedTicks won ' t be
* decremented below . */
xTicksToNextUnblockTime = ( TickType_t ) 1 ;
}
else if ( xTicksToNextUnblockTime > ( TickType_t ) 1 )
{
/* Move the tick count one short of the next unblock
* time , then call xTaskIncrementTick ( ) to move the tick
* count up to the next unblock time to unblock the task ,
* if any . This will also swap the blocked task and
* overflow blocked task lists if necessary . */
xTickCount + = ( xTicksToNextUnblockTime - ( TickType_t ) 1 ) ;
}
xYieldPending [ xPortGetCoreID ( ) ] | = xTaskIncrementTick ( ) ;
/* Adjust for the number of ticks just added to
xTickCount and go around the loop again if
xTicksToCatchUp is still greater than 0. */
xPendedTicks - = xTicksToNextUnblockTime ;
}
if ( xYieldPending [ xPortGetCoreID ( ) ] ! = pdFALSE )
{
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# if ( configUSE_PREEMPTION != 0 )
{
xAlreadyYielded = pdTRUE ;
}
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# endif
taskYIELD_IF_USING_PREEMPTION ( ) ;
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
}
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
}
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taskEXIT_CRITICAL ( ) ;
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return xAlreadyYielded ;
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}
/*-----------------------------------------------------------*/
TickType_t xTaskGetTickCount ( void )
{
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TickType_t xTicks ;
2019-11-28 13:27:47 -05:00
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xTicks = xTickCount ;
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return xTicks ;
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}
/*-----------------------------------------------------------*/
TickType_t xTaskGetTickCountFromISR ( void )
{
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TickType_t xReturn ;
UBaseType_t uxSavedInterruptStatus ;
/* RTOS ports that support interrupt nesting have the concept of a maximum
* system call ( or maximum API call ) interrupt priority . Interrupts that are
* above the maximum system call priority are kept permanently enabled , even
* when the RTOS kernel is in a critical section , but cannot make any calls to
* FreeRTOS API functions . If configASSERT ( ) is defined in FreeRTOSConfig . h
* then portASSERT_IF_INTERRUPT_PRIORITY_INVALID ( ) will result in an assertion
* failure if a FreeRTOS API function is called from an interrupt that has been
* assigned a priority above the configured maximum system call priority .
* Only FreeRTOS functions that end in FromISR can be called from interrupts
* that have been assigned a priority at or ( logically ) below the maximum
* system call interrupt priority . FreeRTOS maintains a separate interrupt
* safe API to ensure interrupt entry is as fast and as simple as possible .
* More information ( albeit Cortex - M specific ) is provided on the following
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* link : https : //www.FreeRTOS.org/RTOS-Cortex-M3-M4.html */
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portASSERT_IF_INTERRUPT_PRIORITY_INVALID ( ) ;
uxSavedInterruptStatus = portTICK_TYPE_SET_INTERRUPT_MASK_FROM_ISR ( ) ;
{
xReturn = xTickCount ;
}
portTICK_TYPE_CLEAR_INTERRUPT_MASK_FROM_ISR ( uxSavedInterruptStatus ) ;
return xReturn ;
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}
/*-----------------------------------------------------------*/
UBaseType_t uxTaskGetNumberOfTasks ( void )
{
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/* A critical section is not required because the variables are of type
* BaseType_t . */
return uxCurrentNumberOfTasks ;
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}
/*-----------------------------------------------------------*/
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char * pcTaskGetName ( TaskHandle_t xTaskToQuery ) /*lint !e971 Unqualified char types are allowed for strings and single characters only. */
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{
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TCB_t * pxTCB ;
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/* If null is passed in here then the name of the calling task is being
* queried . */
pxTCB = prvGetTCBFromHandle ( xTaskToQuery ) ;
configASSERT ( pxTCB ) ;
return & ( pxTCB - > pcTaskName [ 0 ] ) ;
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}
/*-----------------------------------------------------------*/
# if ( INCLUDE_xTaskGetHandle == 1 )
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static TCB_t * prvSearchForNameWithinSingleList ( List_t * pxList ,
const char pcNameToQuery [ ] )
{
TCB_t * pxNextTCB , * pxFirstTCB , * pxReturn = NULL ;
UBaseType_t x ;
char cNextChar ;
BaseType_t xBreakLoop ;
/* This function is called with the scheduler suspended. */
if ( listCURRENT_LIST_LENGTH ( pxList ) > ( UBaseType_t ) 0 )
{
listGET_OWNER_OF_NEXT_ENTRY ( pxFirstTCB , pxList ) ; /*lint !e9079 void * is used as this macro is used with timers and co-routines too. Alignment is known to be fine as the type of the pointer stored and retrieved is the same. */
do
{
listGET_OWNER_OF_NEXT_ENTRY ( pxNextTCB , pxList ) ; /*lint !e9079 void * is used as this macro is used with timers and co-routines too. Alignment is known to be fine as the type of the pointer stored and retrieved is the same. */
/* Check each character in the name looking for a match or
* mismatch . */
xBreakLoop = pdFALSE ;
for ( x = ( UBaseType_t ) 0 ; x < ( UBaseType_t ) configMAX_TASK_NAME_LEN ; x + + )
{
cNextChar = pxNextTCB - > pcTaskName [ x ] ;
if ( cNextChar ! = pcNameToQuery [ x ] )
{
/* Characters didn't match. */
xBreakLoop = pdTRUE ;
}
else if ( cNextChar = = ( char ) 0x00 )
{
/* Both strings terminated, a match must have been
* found . */
pxReturn = pxNextTCB ;
xBreakLoop = pdTRUE ;
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
if ( xBreakLoop ! = pdFALSE )
{
break ;
}
}
if ( pxReturn ! = NULL )
{
/* The handle has been found. */
break ;
}
} while ( pxNextTCB ! = pxFirstTCB ) ;
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
return pxReturn ;
}
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# endif /* INCLUDE_xTaskGetHandle */
/*-----------------------------------------------------------*/
# if ( INCLUDE_xTaskGetHandle == 1 )
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TaskHandle_t xTaskGetHandle ( const char * pcNameToQuery ) /*lint !e971 Unqualified char types are allowed for strings and single characters only. */
{
UBaseType_t uxQueue = configMAX_PRIORITIES ;
TCB_t * pxTCB ;
/* Task names will be truncated to configMAX_TASK_NAME_LEN - 1 bytes. */
configASSERT ( strlen ( pcNameToQuery ) < configMAX_TASK_NAME_LEN ) ;
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# ifdef ESP_PLATFORM // IDF-3755
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taskENTER_CRITICAL ( ) ;
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# else
vTaskSuspendAll ( ) ;
# endif // ESP_PLATFORM
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{
/* Search the ready lists. */
do
{
uxQueue - - ;
pxTCB = prvSearchForNameWithinSingleList ( ( List_t * ) & ( pxReadyTasksLists [ uxQueue ] ) , pcNameToQuery ) ;
if ( pxTCB ! = NULL )
{
/* Found the handle. */
break ;
}
} while ( uxQueue > ( UBaseType_t ) tskIDLE_PRIORITY ) ; /*lint !e961 MISRA exception as the casts are only redundant for some ports. */
/* Search the delayed lists. */
if ( pxTCB = = NULL )
{
pxTCB = prvSearchForNameWithinSingleList ( ( List_t * ) pxDelayedTaskList , pcNameToQuery ) ;
}
if ( pxTCB = = NULL )
{
pxTCB = prvSearchForNameWithinSingleList ( ( List_t * ) pxOverflowDelayedTaskList , pcNameToQuery ) ;
}
# if ( INCLUDE_vTaskSuspend == 1 )
{
if ( pxTCB = = NULL )
{
/* Search the suspended list. */
pxTCB = prvSearchForNameWithinSingleList ( & xSuspendedTaskList , pcNameToQuery ) ;
}
}
# endif
# if ( INCLUDE_vTaskDelete == 1 )
{
if ( pxTCB = = NULL )
{
/* Search the deleted list. */
pxTCB = prvSearchForNameWithinSingleList ( & xTasksWaitingTermination , pcNameToQuery ) ;
}
}
# endif
}
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# ifdef ESP_PLATFORM // IDF-3755
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taskEXIT_CRITICAL ( ) ;
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# else
( void ) xTaskResumeAll ( ) ;
# endif // ESP_PLATFORM
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return pxTCB ;
}
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# endif /* INCLUDE_xTaskGetHandle */
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/*-----------------------------------------------------------*/
# if ( configUSE_TRACE_FACILITY == 1 )
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UBaseType_t uxTaskGetSystemState ( TaskStatus_t * const pxTaskStatusArray ,
const UBaseType_t uxArraySize ,
uint32_t * const pulTotalRunTime )
{
UBaseType_t uxTask = 0 , uxQueue = configMAX_PRIORITIES ;
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# ifdef ESP_PLATFORM // IDF-3755
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taskENTER_CRITICAL ( ) ;
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# else
vTaskSuspendAll ( ) ;
# endif // ESP_PLATFORM
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{
/* Is there a space in the array for each task in the system? */
if ( uxArraySize > = uxCurrentNumberOfTasks )
{
/* Fill in an TaskStatus_t structure with information on each
* task in the Ready state . */
do
{
uxQueue - - ;
uxTask + = prvListTasksWithinSingleList ( & ( pxTaskStatusArray [ uxTask ] ) , & ( pxReadyTasksLists [ uxQueue ] ) , eReady ) ;
} while ( uxQueue > ( UBaseType_t ) tskIDLE_PRIORITY ) ; /*lint !e961 MISRA exception as the casts are only redundant for some ports. */
/* Fill in an TaskStatus_t structure with information on each
* task in the Blocked state . */
uxTask + = prvListTasksWithinSingleList ( & ( pxTaskStatusArray [ uxTask ] ) , ( List_t * ) pxDelayedTaskList , eBlocked ) ;
uxTask + = prvListTasksWithinSingleList ( & ( pxTaskStatusArray [ uxTask ] ) , ( List_t * ) pxOverflowDelayedTaskList , eBlocked ) ;
# if ( INCLUDE_vTaskDelete == 1 )
{
/* Fill in an TaskStatus_t structure with information on
* each task that has been deleted but not yet cleaned up . */
uxTask + = prvListTasksWithinSingleList ( & ( pxTaskStatusArray [ uxTask ] ) , & xTasksWaitingTermination , eDeleted ) ;
}
# endif
# if ( INCLUDE_vTaskSuspend == 1 )
{
/* Fill in an TaskStatus_t structure with information on
* each task in the Suspended state . */
uxTask + = prvListTasksWithinSingleList ( & ( pxTaskStatusArray [ uxTask ] ) , & xSuspendedTaskList , eSuspended ) ;
}
# endif
# if ( configGENERATE_RUN_TIME_STATS == 1 )
{
if ( pulTotalRunTime ! = NULL )
{
# ifdef portALT_GET_RUN_TIME_COUNTER_VALUE
portALT_GET_RUN_TIME_COUNTER_VALUE ( ( * pulTotalRunTime ) ) ;
# else
* pulTotalRunTime = portGET_RUN_TIME_COUNTER_VALUE ( ) ;
# endif
}
}
# else /* if ( configGENERATE_RUN_TIME_STATS == 1 ) */
{
if ( pulTotalRunTime ! = NULL )
{
* pulTotalRunTime = 0 ;
}
}
# endif /* if ( configGENERATE_RUN_TIME_STATS == 1 ) */
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
}
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# ifdef ESP_PLATFORM // IDF-3755
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taskEXIT_CRITICAL ( ) ;
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# else
( void ) xTaskResumeAll ( ) ;
# endif // ESP_PLATFORM
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return uxTask ;
}
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# endif /* configUSE_TRACE_FACILITY */
/*----------------------------------------------------------*/
# if ( INCLUDE_xTaskGetIdleTaskHandle == 1 )
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TaskHandle_t xTaskGetIdleTaskHandle ( void )
{
/* If xTaskGetIdleTaskHandle() is called before the scheduler has been
* started , then xIdleTaskHandle will be NULL . */
configASSERT ( ( xIdleTaskHandle [ xPortGetCoreID ( ) ] ! = NULL ) ) ;
return xIdleTaskHandle [ xPortGetCoreID ( ) ] ;
}
TaskHandle_t xTaskGetIdleTaskHandleForCPU ( UBaseType_t cpuid )
{
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configASSERT ( cpuid < configNUM_CORES ) ;
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configASSERT ( ( xIdleTaskHandle [ cpuid ] ! = NULL ) ) ;
return xIdleTaskHandle [ cpuid ] ;
}
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# endif /* INCLUDE_xTaskGetIdleTaskHandle */
/*----------------------------------------------------------*/
/* This conditional compilation should use inequality to 0, not equality to 1.
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* This is to ensure vTaskStepTick ( ) is available when user defined low power mode
* implementations require configUSE_TICKLESS_IDLE to be set to a value other than
* 1. */
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# if ( configUSE_TICKLESS_IDLE != 0 )
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void vTaskStepTick ( const TickType_t xTicksToJump )
{
/* Correct the tick count value after a period during which the tick
* was suppressed . Note this does * not * call the tick hook function for
* each stepped tick . */
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taskENTER_CRITICAL ( ) ;
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configASSERT ( ( xTickCount + xTicksToJump ) < = xNextTaskUnblockTime ) ;
xTickCount + = xTicksToJump ;
traceINCREASE_TICK_COUNT ( xTicksToJump ) ;
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taskEXIT_CRITICAL ( ) ;
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}
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# endif /* configUSE_TICKLESS_IDLE */
/*----------------------------------------------------------*/
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BaseType_t xTaskCatchUpTicks ( TickType_t xTicksToCatchUp )
{
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# ifdef ESP_PLATFORM
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BaseType_t xYieldRequired = pdFALSE ;
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# else
BaseType_t xYieldOccurred ;
# endif // ESP_PLATFORM
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/* Must not be called with the scheduler suspended as the implementation
* relies on xPendedTicks being wound down to 0 in xTaskResumeAll ( ) . */
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configASSERT ( xTaskGetSchedulerState ( ) ! = taskSCHEDULER_SUSPENDED ) ;
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/* Use xPendedTicks to mimic xTicksToCatchUp number of ticks occuring when
* the scheduler is suspended so the ticks are executed in xTaskResumeAll ( ) . */
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# ifdef ESP_PLATFORM // IDF-3755
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taskENTER_CRITICAL ( ) ;
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# else
vTaskSuspendAll ( ) ;
# endif // ESP_PLATFORM
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xPendedTicks + = xTicksToCatchUp ;
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# ifdef ESP_PLATFORM // IDF-3755
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taskEXIT_CRITICAL ( ) ;
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return xYieldRequired ;
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# else
xYieldOccurred = xTaskResumeAll ( ) ;
return xYieldOccurred ;
# endif // ESP_PLATFORM
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}
/*----------------------------------------------------------*/
# if ( INCLUDE_xTaskAbortDelay == 1 )
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BaseType_t xTaskAbortDelay ( TaskHandle_t xTask )
{
TCB_t * pxTCB = xTask ;
BaseType_t xReturn ;
configASSERT ( pxTCB ) ;
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# ifdef ESP_PLATFORM // IDF-3755
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taskENTER_CRITICAL ( ) ;
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# else
vTaskSuspendAll ( ) ;
# endif // ESP_PLATFORM
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{
/* A task can only be prematurely removed from the Blocked state if
* it is actually in the Blocked state . */
if ( eTaskGetState ( xTask ) = = eBlocked )
{
xReturn = pdPASS ;
/* Remove the reference to the task from the blocked list. An
* interrupt won ' t touch the xStateListItem because the
* scheduler is suspended . */
( void ) uxListRemove ( & ( pxTCB - > xStateListItem ) ) ;
/* Is the task waiting on an event also? If so remove it from
* the event list too . Interrupts can touch the event list item ,
* even though the scheduler is suspended , so a critical section
* is used . */
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taskENTER_CRITICAL ( ) ;
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{
if ( listLIST_ITEM_CONTAINER ( & ( pxTCB - > xEventListItem ) ) ! = NULL )
{
( void ) uxListRemove ( & ( pxTCB - > xEventListItem ) ) ;
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/* This lets the task know it was forcibly removed from the
* blocked state so it should not re - evaluate its block time and
* then block again . */
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pxTCB - > ucDelayAborted = pdTRUE ;
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
}
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taskEXIT_CRITICAL ( ) ;
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/* Place the unblocked task into the appropriate ready list. */
prvAddTaskToReadyList ( pxTCB ) ;
/* A task being unblocked cannot cause an immediate context
* switch if preemption is turned off . */
# if ( configUSE_PREEMPTION == 1 )
{
/* Preemption is on, but a context switch should only be
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* performed if the unblocked task has a priority that is
* equal to or higher than the currently executing task . */
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if ( tskCAN_RUN_HERE ( pxTCB - > xCoreID ) & & pxTCB - > uxPriority > = pxCurrentTCB [ xPortGetCoreID ( ) ] - > uxPriority )
{
/* Pend the yield to be performed when the scheduler
* is unsuspended . */
xYieldPending [ xPortGetCoreID ( ) ] = pdTRUE ;
}
else if ( pxTCB - > xCoreID ! = xPortGetCoreID ( ) )
{
taskYIELD_OTHER_CORE ( pxTCB - > xCoreID , pxTCB - > uxPriority ) ;
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
}
# endif /* configUSE_PREEMPTION */
}
else
{
xReturn = pdFAIL ;
}
}
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# ifdef ESP_PLATFORM // IDF-3755
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taskEXIT_CRITICAL ( ) ;
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# else
( void ) xTaskResumeAll ( ) ;
# endif // ESP_PLATFORM
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return xReturn ;
}
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# endif /* INCLUDE_xTaskAbortDelay */
/*----------------------------------------------------------*/
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BaseType_t xTaskIncrementTick ( void )
{
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TCB_t * pxTCB ;
TickType_t xItemValue ;
BaseType_t xSwitchRequired = pdFALSE ;
/* Only allow core 0 increase the tick count in the case of xPortSysTickHandler processing. */
/* And allow core 0 and core 1 to unwind uxPendedTicks during xTaskResumeAll. */
if ( xPortInIsrContext ( ) )
{
# if ( configUSE_TICK_HOOK == 1 )
vApplicationTickHook ( ) ;
# endif /* configUSE_TICK_HOOK */
esp_vApplicationTickHook ( ) ;
if ( xPortGetCoreID ( ) ! = 0 )
{
return pdTRUE ;
}
}
/* Called by the portable layer each time a tick interrupt occurs.
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* Increments the tick then checks to see if the new tick value will cause any
* tasks to be unblocked . */
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traceTASK_INCREMENT_TICK ( xTickCount ) ;
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if ( uxSchedulerSuspended [ xPortGetCoreID ( ) ] = = ( UBaseType_t ) pdFALSE )
{
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taskENTER_CRITICAL_ISR ( ) ;
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/* Minor optimisation. The tick count cannot change in this
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* block . */
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const TickType_t xConstTickCount = xTickCount + ( TickType_t ) 1 ;
/* Increment the RTOS tick, switching the delayed and overflowed
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* delayed lists if it wraps to 0. */
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xTickCount = xConstTickCount ;
if ( xConstTickCount = = ( TickType_t ) 0U ) /*lint !e774 'if' does not always evaluate to false as it is looking for an overflow. */
{
taskSWITCH_DELAYED_LISTS ( ) ;
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
/* See if this tick has made a timeout expire. Tasks are stored in
* the queue in the order of their wake time - meaning once one task
* has been found whose block time has not expired there is no need to
* look any further down the list . */
if ( xConstTickCount > = xNextTaskUnblockTime )
{
for ( ; ; )
{
if ( listLIST_IS_EMPTY ( pxDelayedTaskList ) ! = pdFALSE )
{
/* The delayed list is empty. Set xNextTaskUnblockTime
* to the maximum possible value so it is extremely
* unlikely that the
* if ( xTickCount > = xNextTaskUnblockTime ) test will pass
* next time through . */
xNextTaskUnblockTime = portMAX_DELAY ; /*lint !e961 MISRA exception as the casts are only redundant for some ports. */
break ;
}
else
{
/* The delayed list is not empty, get the value of the
* item at the head of the delayed list . This is the time
* at which the task at the head of the delayed list must
* be removed from the Blocked state . */
pxTCB = listGET_OWNER_OF_HEAD_ENTRY ( pxDelayedTaskList ) ; /*lint !e9079 void * is used as this macro is used with timers and co-routines too. Alignment is known to be fine as the type of the pointer stored and retrieved is the same. */
xItemValue = listGET_LIST_ITEM_VALUE ( & ( pxTCB - > xStateListItem ) ) ;
if ( xConstTickCount < xItemValue )
{
/* It is not time to unblock this item yet, but the
* item value is the time at which the task at the head
* of the blocked list must be removed from the Blocked
* state - so record the item value in
* xNextTaskUnblockTime . */
xNextTaskUnblockTime = xItemValue ;
break ; /*lint !e9011 Code structure here is deemed easier to understand with multiple breaks. */
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
/* It is time to remove the item from the Blocked state. */
( void ) uxListRemove ( & ( pxTCB - > xStateListItem ) ) ;
/* Is the task waiting on an event also? If so remove
* it from the event list . */
if ( listLIST_ITEM_CONTAINER ( & ( pxTCB - > xEventListItem ) ) ! = NULL )
{
( void ) uxListRemove ( & ( pxTCB - > xEventListItem ) ) ;
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
/* Place the unblocked task into the appropriate ready
* list . */
prvAddTaskToReadyList ( pxTCB ) ;
/* A task being unblocked cannot cause an immediate
* context switch if preemption is turned off . */
# if ( configUSE_PREEMPTION == 1 )
{
/* Preemption is on, but a context switch should
* only be performed if the unblocked task has a
* priority that is equal to or higher than the
* currently executing task . */
if ( pxTCB - > uxPriority > = pxCurrentTCB [ xPortGetCoreID ( ) ] - > uxPriority )
{
xSwitchRequired = pdTRUE ;
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
}
# endif /* configUSE_PREEMPTION */
}
}
}
/* Tasks of equal priority to the currently running task will share
* processing time ( time slice ) if preemption is on , and the application
* writer has not explicitly turned time slicing off . */
# if ( ( configUSE_PREEMPTION == 1 ) && ( configUSE_TIME_SLICING == 1 ) )
{
if ( listCURRENT_LIST_LENGTH ( & ( pxReadyTasksLists [ pxCurrentTCB [ xPortGetCoreID ( ) ] - > uxPriority ] ) ) > ( UBaseType_t ) 1 )
{
xSwitchRequired = pdTRUE ;
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
}
# endif /* ( ( configUSE_PREEMPTION == 1 ) && ( configUSE_TIME_SLICING == 1 ) ) */
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taskEXIT_CRITICAL_ISR ( ) ;
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}
else
{
+ + xPendedTicks ;
}
# if ( configUSE_PREEMPTION == 1 )
{
if ( xYieldPending [ xPortGetCoreID ( ) ] ! = pdFALSE )
{
xSwitchRequired = pdTRUE ;
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
}
# endif /* configUSE_PREEMPTION */
return xSwitchRequired ;
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}
/*-----------------------------------------------------------*/
# if ( configUSE_APPLICATION_TASK_TAG == 1 )
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void vTaskSetApplicationTaskTag ( TaskHandle_t xTask , TaskHookFunction_t pxHookFunction )
{
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TCB_t * xTCB ;
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/* If xTask is NULL then it is the task hook of the calling task that is
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* getting set . */
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if ( xTask = = NULL )
{
xTCB = ( TCB_t * ) pxCurrentTCB [ xPortGetCoreID ( ) ] ;
}
else
{
xTCB = xTask ;
}
/* Save the hook function in the TCB. A critical section is required as
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* the value can be accessed from an interrupt . */
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taskENTER_CRITICAL ( ) ;
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{
xTCB - > pxTaskTag = pxHookFunction ;
}
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taskEXIT_CRITICAL ( ) ;
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}
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# endif /* configUSE_APPLICATION_TASK_TAG */
/*-----------------------------------------------------------*/
# if ( configUSE_APPLICATION_TASK_TAG == 1 )
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TaskHookFunction_t xTaskGetApplicationTaskTag ( TaskHandle_t xTask )
{
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TCB_t * pxTCB ;
TaskHookFunction_t xReturn ;
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/* If xTask is NULL then set the calling task's hook. */
pxTCB = prvGetTCBFromHandle ( xTask ) ;
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/* Save the hook function in the TCB. A critical section is required as
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* the value can be accessed from an interrupt . */
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taskENTER_CRITICAL ( ) ;
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{
xReturn = pxTCB - > pxTaskTag ;
}
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taskEXIT_CRITICAL ( ) ;
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return xReturn ;
}
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# endif /* configUSE_APPLICATION_TASK_TAG */
/*-----------------------------------------------------------*/
# if ( configUSE_APPLICATION_TASK_TAG == 1 )
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TaskHookFunction_t xTaskGetApplicationTaskTagFromISR ( TaskHandle_t xTask )
{
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TCB_t * pxTCB ;
TaskHookFunction_t xReturn ;
UBaseType_t uxSavedInterruptStatus ;
2019-11-28 13:27:47 -05:00
2021-08-09 17:13:43 -04:00
/* If xTask is NULL then set the calling task's hook. */
pxTCB = prvGetTCBFromHandle ( xTask ) ;
2016-08-17 11:08:22 -04:00
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/* Save the hook function in the TCB. A critical section is required as
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* the value can be accessed from an interrupt . */
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portENTER_CRITICAL_ISR ( & xTaskQueueMutex ) ;
{
xReturn = pxTCB - > pxTaskTag ;
}
portEXIT_CRITICAL_ISR ( & xTaskQueueMutex ) ;
2016-08-17 11:08:22 -04:00
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return xReturn ;
}
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# endif /* configUSE_APPLICATION_TASK_TAG */
/*-----------------------------------------------------------*/
# if ( configUSE_APPLICATION_TASK_TAG == 1 )
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BaseType_t xTaskCallApplicationTaskHook ( TaskHandle_t xTask ,
void * pvParameter )
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{
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TCB_t * xTCB ;
BaseType_t xReturn ;
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/* If xTask is NULL then we are calling our own task hook. */
if ( xTask = = NULL )
{
xTCB = xTaskGetCurrentTaskHandle ( ) ;
}
else
{
xTCB = xTask ;
}
if ( xTCB - > pxTaskTag ! = NULL )
{
xReturn = xTCB - > pxTaskTag ( pvParameter ) ;
}
else
{
xReturn = pdFAIL ;
}
return xReturn ;
}
2016-08-17 11:08:22 -04:00
# endif /* configUSE_APPLICATION_TASK_TAG */
/*-----------------------------------------------------------*/
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# ifdef ESP_PLATFORM
# if ( configUSE_PORT_OPTIMISED_TASK_SELECTION == 0 )
static void taskSelectHighestPriorityTaskSMP ( void )
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{
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/* This function is called from a critical section. So some optimizations are made */
BaseType_t uxCurPriority ;
BaseType_t xTaskScheduled = pdFALSE ;
BaseType_t xNewTopPrioritySet = pdFALSE ;
BaseType_t xCoreID = xPortGetCoreID ( ) ; /* Optimization: Read once */
/* Search for tasks, starting form the highest ready priority. If nothing is
* found , we eventually default to the IDLE tasks at priority 0 */
for ( uxCurPriority = uxTopReadyPriority ; uxCurPriority > = 0 & & xTaskScheduled = = pdFALSE ; uxCurPriority - - )
{
/* Check if current priority has one or more ready tasks. Skip if none */
if ( listLIST_IS_EMPTY ( & ( pxReadyTasksLists [ uxCurPriority ] ) ) )
{
continue ;
}
/* Save a copy of highest priority that has a ready state task */
if ( xNewTopPrioritySet = = pdFALSE )
{
xNewTopPrioritySet = pdTRUE ;
uxTopReadyPriority = uxCurPriority ;
}
/* We now search this priority's ready task list for a runnable task.
* We always start searching from the head of the list , so we reset
* pxIndex to point to the tail so that we start walking the list from
* the first item */
pxReadyTasksLists [ uxCurPriority ] . pxIndex = ( ListItem_t * ) & ( pxReadyTasksLists [ uxCurPriority ] . xListEnd ) ;
2021-08-09 17:13:43 -04:00
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/* Get the first item on the list */
TCB_t * pxTCBCur ;
TCB_t * pxTCBFirst ;
listGET_OWNER_OF_NEXT_ENTRY ( pxTCBCur , & ( pxReadyTasksLists [ uxCurPriority ] ) ) ;
pxTCBFirst = pxTCBCur ;
do
{
/* Check if the current task is currently being executed. However, if
* it ' s being executed by the current core , we can still schedule it .
* Todo : Each task can store a xTaskRunState , instead of needing to
* check each core */
UBaseType_t ux ;
for ( ux = 0 ; ux < ( UBaseType_t ) configNUM_CORES ; ux + + )
{
if ( ux = = xCoreID )
{
continue ;
}
else if ( pxCurrentTCB [ ux ] = = pxTCBCur )
{
/* Current task is already being executed. Get the next task */
goto get_next_task ;
}
}
/* Check if the current task has a compatible affinity */
if ( ( pxTCBCur - > xCoreID ! = xCoreID ) & & ( pxTCBCur - > xCoreID ! = tskNO_AFFINITY ) )
{
goto get_next_task ;
}
/* The current task is runnable. Schedule it */
pxCurrentTCB [ xCoreID ] = pxTCBCur ;
xTaskScheduled = pdTRUE ;
/* Move the current tasks list item to the back of the list in order
* to implement best effort round robin . To do this , we need to reset
* the pxIndex to point to the tail again . */
pxReadyTasksLists [ uxCurPriority ] . pxIndex = ( ListItem_t * ) & ( pxReadyTasksLists [ uxCurPriority ] . xListEnd ) ;
uxListRemove ( & ( pxTCBCur - > xStateListItem ) ) ;
vListInsertEnd ( & ( pxReadyTasksLists [ uxCurPriority ] ) , & ( pxTCBCur - > xStateListItem ) ) ;
break ;
get_next_task :
/* The current task cannot be scheduled. Get the next task in the list */
listGET_OWNER_OF_NEXT_ENTRY ( pxTCBCur , & ( pxReadyTasksLists [ uxCurPriority ] ) ) ;
} while ( pxTCBCur ! = pxTCBFirst ) ; /* Check to see if we've walked the entire list */
}
assert ( xTaskScheduled = = pdTRUE ) ; /* At this point, a task MUST have been scheduled */
}
# endif /* configUSE_PORT_OPTIMISED_TASK_SELECTION */
# endif //ESP_PLATFORM
void vTaskSwitchContext ( void )
{
# ifdef ESP_PLATFORM
/* vTaskSwitchContext is called either from:
* - ISR dispatcher when return from an ISR ( interrupts will already be disabled )
* - vTaskSuspend ( ) which is not in a critical section
* Therefore , we enter a critical section ISR version to ensure safety */
taskENTER_CRITICAL_ISR ( ) ;
# endif // ESP_PLATFORM
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if ( uxSchedulerSuspended [ xPortGetCoreID ( ) ] ! = ( UBaseType_t ) pdFALSE )
{
/* The scheduler is currently suspended - do not allow a context
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* switch . */
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xYieldPending [ xPortGetCoreID ( ) ] = pdTRUE ;
}
else
{
xYieldPending [ xPortGetCoreID ( ) ] = pdFALSE ;
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# ifdef ESP_PLATFORM
2017-03-21 23:07:37 -04:00
xSwitchingContext [ xPortGetCoreID ( ) ] = pdTRUE ;
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# endif // ESP_PLATFORM
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traceTASK_SWITCHED_OUT ( ) ;
# if ( configGENERATE_RUN_TIME_STATS == 1 )
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{
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# ifdef portALT_GET_RUN_TIME_COUNTER_VALUE
portALT_GET_RUN_TIME_COUNTER_VALUE ( ulTotalRunTime ) ;
# else
ulTotalRunTime = portGET_RUN_TIME_COUNTER_VALUE ( ) ;
# endif
/* Add the amount of time the task has been running to the
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* accumulated time so far . The time the task started running was
* stored in ulTaskSwitchedInTime . Note that there is no overflow
* protection here so count values are only valid until the timer
* overflows . The guard against negative values is to protect
* against suspect run time stat counter implementations - which
* are provided by the application , not the kernel . */
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if ( ulTotalRunTime > ulTaskSwitchedInTime [ xPortGetCoreID ( ) ] )
{
pxCurrentTCB [ xPortGetCoreID ( ) ] - > ulRunTimeCounter + = ( ulTotalRunTime - ulTaskSwitchedInTime [ xPortGetCoreID ( ) ] ) ;
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
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ulTaskSwitchedInTime [ xPortGetCoreID ( ) ] = ulTotalRunTime ;
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}
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# endif /* configGENERATE_RUN_TIME_STATS */
/* Check for stack overflow, if configured. */
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# ifdef ESP_PLATFORM
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taskFIRST_CHECK_FOR_STACK_OVERFLOW ( ) ;
taskSECOND_CHECK_FOR_STACK_OVERFLOW ( ) ;
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# else
taskCHECK_FOR_STACK_OVERFLOW ( ) ;
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/* Before the currently running task is switched out, save its errno. */
# if ( configUSE_POSIX_ERRNO == 1 )
{
pxCurrentTCB - > iTaskErrno = FreeRTOS_errno ;
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}
# endif
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# endif // ESP_PLATFORM
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/* Select a new task to run using either the generic C or port
* optimised asm code . */
taskSELECT_HIGHEST_PRIORITY_TASK ( ) ; /*lint !e9079 void * is used as this macro is used with timers and co-routines too. Alignment is known to be fine as the type of the pointer stored and retrieved is the same. */
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traceTASK_SWITCHED_IN ( ) ;
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# ifdef ESP_PLATFORM
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xSwitchingContext [ xPortGetCoreID ( ) ] = pdFALSE ;
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# if CONFIG_FREERTOS_WATCHPOINT_END_OF_STACK
vPortSetStackWatchpoint ( pxCurrentTCB [ xPortGetCoreID ( ) ] - > pxStack ) ;
# endif
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# else
/* After the new task is switched in, update the global errno. */
# if ( configUSE_POSIX_ERRNO == 1 )
{
FreeRTOS_errno = pxCurrentTCB - > iTaskErrno ;
}
# endif
2017-01-09 03:42:45 -05:00
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# if ( configUSE_NEWLIB_REENTRANT == 1 )
{
/* Switch Newlib's _impure_ptr variable to point to the _reent
* structure specific to this task .
* See the third party link http : //www.nadler.com/embedded/newlibAndFreeRTOS.html
* for additional information . */
_impure_ptr = & ( pxCurrentTCB - > xNewLib_reent ) ;
}
# endif /* configUSE_NEWLIB_REENTRANT */
# endif // ESP_PLATFORM
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}
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# ifdef ESP_PLATFORM
/* Exit the critical section previously entered */
taskEXIT_CRITICAL_ISR ( ) ;
# endif // ESP_PLATFORM
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}
/*-----------------------------------------------------------*/
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void vTaskPlaceOnEventList ( List_t * const pxEventList ,
const TickType_t xTicksToWait )
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{
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configASSERT ( pxEventList ) ;
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taskENTER_CRITICAL ( ) ;
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/* THIS FUNCTION MUST BE CALLED WITH EITHER INTERRUPTS DISABLED OR THE
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* SCHEDULER SUSPENDED AND THE QUEUE BEING ACCESSED LOCKED . */
2019-11-28 13:27:47 -05:00
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/* Place the event list item of the TCB in the appropriate event list.
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* This is placed in the list in priority order so the highest priority task
* is the first to be woken by the event . The queue that contains the event
* list is locked , preventing simultaneous access from interrupts . */
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vListInsert ( pxEventList , & ( pxCurrentTCB [ xPortGetCoreID ( ) ] - > xEventListItem ) ) ;
2016-08-17 11:08:22 -04:00
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prvAddCurrentTaskToDelayedList ( xPortGetCoreID ( ) , xTicksToWait ) ;
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taskEXIT_CRITICAL ( ) ;
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}
/*-----------------------------------------------------------*/
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void vTaskPlaceOnUnorderedEventList ( List_t * pxEventList ,
const TickType_t xItemValue ,
const TickType_t xTicksToWait )
2016-08-17 11:08:22 -04:00
{
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configASSERT ( pxEventList ) ;
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taskENTER_CRITICAL ( ) ;
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/* Store the item value in the event list item. It is safe to access the
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* event list item here as interrupts won ' t access the event list item of a
* task that is not in the Blocked state . */
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listSET_LIST_ITEM_VALUE ( & ( pxCurrentTCB [ xPortGetCoreID ( ) ] - > xEventListItem ) , xItemValue | taskEVENT_LIST_ITEM_VALUE_IN_USE ) ;
/* Place the event list item of the TCB at the end of the appropriate event
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* list . It is safe to access the event list here because it is part of an
* event group implementation - and interrupts don ' t access event groups
* directly ( instead they access them indirectly by pending function calls to
* the task level ) . */
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vListInsertEnd ( pxEventList , & ( pxCurrentTCB [ xPortGetCoreID ( ) ] - > xEventListItem ) ) ;
prvAddCurrentTaskToDelayedList ( xPortGetCoreID ( ) , xTicksToWait ) ;
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taskEXIT_CRITICAL ( ) ;
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}
/*-----------------------------------------------------------*/
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# if ( configUSE_TIMERS == 1 )
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void vTaskPlaceOnEventListRestricted ( List_t * const pxEventList , TickType_t xTicksToWait , const BaseType_t xWaitIndefinitely )
{
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taskENTER_CRITICAL ( ) ;
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configASSERT ( pxEventList ) ;
2016-08-17 11:08:22 -04:00
2021-08-09 17:13:43 -04:00
/* This function should not be called by application code hence the
2021-08-26 01:45:51 -04:00
* ' Restricted ' in its name . It is not part of the public API . It is
* designed for use by kernel code , and has special calling requirements -
* it should be called with the scheduler suspended . */
2016-08-17 11:08:22 -04:00
2021-08-09 17:13:43 -04:00
/* Place the event list item of the TCB in the appropriate event list.
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* In this case it is assume that this is the only task that is going to
* be waiting on this event list , so the faster vListInsertEnd ( ) function
* can be used in place of vListInsert . */
2021-08-09 17:13:43 -04:00
vListInsertEnd ( pxEventList , & ( pxCurrentTCB [ xPortGetCoreID ( ) ] - > xEventListItem ) ) ;
2016-08-17 11:08:22 -04:00
2021-08-09 17:13:43 -04:00
/* If the task should block indefinitely then set the block time to a
2021-08-26 01:45:51 -04:00
* value that will be recognised as an indefinite delay inside the
* prvAddCurrentTaskToDelayedList ( ) function . */
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if ( xWaitIndefinitely ! = pdFALSE )
{
xTicksToWait = portMAX_DELAY ;
}
2016-08-17 11:08:22 -04:00
2021-08-09 17:13:43 -04:00
traceTASK_DELAY_UNTIL ( ) ;
prvAddCurrentTaskToDelayedList ( xPortGetCoreID ( ) , xTicksToWait ) ;
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taskEXIT_CRITICAL ( ) ;
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}
2016-08-17 11:08:22 -04:00
# endif /* configUSE_TIMERS */
/*-----------------------------------------------------------*/
BaseType_t xTaskRemoveFromEventList ( const List_t * const pxEventList )
{
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TCB_t * pxUnblockedTCB ;
BaseType_t xReturn ;
BaseType_t xTaskCanBeReady ;
UBaseType_t i , uxTargetCPU ;
2016-08-17 11:08:22 -04:00
2021-08-30 02:45:31 -04:00
taskENTER_CRITICAL_ISR ( ) ;
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/* THIS FUNCTION MUST BE CALLED FROM A CRITICAL SECTION. It can also be
2021-08-26 01:45:51 -04:00
* called from a critical section within an ISR . */
2021-08-09 17:13:43 -04:00
/* The event list is sorted in priority order, so the first in the list can
2021-08-26 01:45:51 -04:00
* be removed as it is known to be the highest priority . Remove the TCB from
* the delayed list , and add it to the ready list .
*
* If an event is for a queue that is locked then this function will never
* get called - the lock count on the queue will get modified instead . This
* means exclusive access to the event list is guaranteed here .
*
* This function assumes that a check has already been made to ensure that
* pxEventList is not empty . */
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if ( ( listLIST_IS_EMPTY ( pxEventList ) ) = = pdFALSE )
{
pxUnblockedTCB = listGET_OWNER_OF_HEAD_ENTRY ( pxEventList ) ; /*lint !e9079 void * is used as this macro is used with timers and co-routines too. Alignment is known to be fine as the type of the pointer stored and retrieved is the same. */
configASSERT ( pxUnblockedTCB ) ;
( void ) uxListRemove ( & ( pxUnblockedTCB - > xEventListItem ) ) ;
}
else
{
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taskEXIT_CRITICAL_ISR ( ) ;
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return pdFALSE ;
}
xTaskCanBeReady = pdFALSE ;
if ( pxUnblockedTCB - > xCoreID = = tskNO_AFFINITY )
{
uxTargetCPU = xPortGetCoreID ( ) ;
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for ( i = 0 ; i < configNUM_CORES ; i + + )
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{
if ( uxSchedulerSuspended [ i ] = = ( UBaseType_t ) pdFALSE )
{
xTaskCanBeReady = pdTRUE ;
break ;
}
}
}
else
{
uxTargetCPU = pxUnblockedTCB - > xCoreID ;
xTaskCanBeReady = uxSchedulerSuspended [ uxTargetCPU ] = = ( UBaseType_t ) pdFALSE ;
}
if ( xTaskCanBeReady )
{
( void ) uxListRemove ( & ( pxUnblockedTCB - > xStateListItem ) ) ;
prvAddTaskToReadyList ( pxUnblockedTCB ) ;
}
else
{
/* The delayed and ready lists cannot be accessed, so hold this task
2021-08-26 01:45:51 -04:00
* pending until the scheduler is resumed on this CPU . */
2021-08-09 17:13:43 -04:00
vListInsertEnd ( & ( xPendingReadyList [ uxTargetCPU ] ) , & ( pxUnblockedTCB - > xEventListItem ) ) ;
}
if ( tskCAN_RUN_HERE ( pxUnblockedTCB - > xCoreID ) & & pxUnblockedTCB - > uxPriority > = pxCurrentTCB [ xPortGetCoreID ( ) ] - > uxPriority )
{
/* Return true if the task removed from the event list has a higher
2021-08-26 01:45:51 -04:00
* priority than the calling task . This allows the calling task to know if
* it should force a context switch now . */
2021-08-09 17:13:43 -04:00
xReturn = pdTRUE ;
/* Mark that a yield is pending in case the user is not using the
2021-08-26 01:45:51 -04:00
* " xHigherPriorityTaskWoken " parameter to an ISR safe FreeRTOS function . */
2021-08-09 17:13:43 -04:00
xYieldPending [ xPortGetCoreID ( ) ] = pdTRUE ;
}
else if ( pxUnblockedTCB - > xCoreID ! = xPortGetCoreID ( ) )
{
taskYIELD_OTHER_CORE ( pxUnblockedTCB - > xCoreID , pxUnblockedTCB - > uxPriority ) ;
xReturn = pdFALSE ;
}
else
{
xReturn = pdFALSE ;
}
# if( configUSE_TICKLESS_IDLE != 0 )
{
/* If a task is blocked on a kernel object then xNextTaskUnblockTime
might be set to the blocked task ' s time out time . If the task is
unblocked for a reason other than a timeout xNextTaskUnblockTime is
normally left unchanged , because it is automatically reset to a new
value when the tick count equals xNextTaskUnblockTime . However if
tickless idling is used it might be more important to enter sleep mode
at the earliest possible time - so reset xNextTaskUnblockTime here to
ensure it is updated at the earliest possible time . */
prvResetNextTaskUnblockTime ( ) ;
}
# endif
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taskEXIT_CRITICAL_ISR ( ) ;
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return xReturn ;
2016-08-17 11:08:22 -04:00
}
/*-----------------------------------------------------------*/
2022-06-28 12:58:08 -04:00
# ifdef ESP_PLATFORM
void vTaskTakeEventListLock ( void )
{
/* We call the tasks.c critical section macro to take xTaskQueueMutex */
taskENTER_CRITICAL ( ) ;
}
void vTaskReleaseEventListLock ( void )
{
/* We call the tasks.c critical section macro to release xTaskQueueMutex */
taskEXIT_CRITICAL ( ) ;
}
# endif // ESP_PLATFORM
2021-09-09 02:13:07 -04:00
void vTaskRemoveFromUnorderedEventList ( ListItem_t * pxEventListItem ,
const TickType_t xItemValue )
2016-08-17 11:08:22 -04:00
{
2021-08-26 01:45:51 -04:00
TCB_t * pxUnblockedTCB ;
2016-08-17 11:08:22 -04:00
2021-08-30 02:45:31 -04:00
taskENTER_CRITICAL ( ) ;
2021-08-09 17:13:43 -04:00
/* Store the new item value in the event list. */
listSET_LIST_ITEM_VALUE ( pxEventListItem , xItemValue | taskEVENT_LIST_ITEM_VALUE_IN_USE ) ;
/* Remove the event list form the event flag. Interrupts do not access
2021-08-26 01:45:51 -04:00
* event flags . */
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pxUnblockedTCB = ( TCB_t * ) listGET_LIST_ITEM_OWNER ( pxEventListItem ) ;
configASSERT ( pxUnblockedTCB ) ;
( void ) uxListRemove ( pxEventListItem ) ;
/* Remove the task from the delayed list and add it to the ready list. The
2021-08-26 01:45:51 -04:00
* scheduler is suspended so interrupts will not be accessing the ready
* lists . */
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( void ) uxListRemove ( & ( pxUnblockedTCB - > xStateListItem ) ) ;
prvAddTaskToReadyList ( pxUnblockedTCB ) ;
if ( tskCAN_RUN_HERE ( pxUnblockedTCB - > xCoreID ) & & pxUnblockedTCB - > uxPriority > = pxCurrentTCB [ xPortGetCoreID ( ) ] - > uxPriority )
{
/* Mark that a yield is pending in case the user is not using the
2021-08-26 01:45:51 -04:00
* " xHigherPriorityTaskWoken " parameter to an ISR safe FreeRTOS function . */
2021-08-09 17:13:43 -04:00
xYieldPending [ xPortGetCoreID ( ) ] = pdTRUE ;
}
else if ( pxUnblockedTCB - > xCoreID ! = xPortGetCoreID ( ) )
{
taskYIELD_OTHER_CORE ( pxUnblockedTCB - > xCoreID , pxUnblockedTCB - > uxPriority ) ;
}
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taskEXIT_CRITICAL ( ) ;
2016-08-17 11:08:22 -04:00
}
/*-----------------------------------------------------------*/
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void vTaskSetTimeOutState ( TimeOut_t * const pxTimeOut )
{
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configASSERT ( pxTimeOut ) ;
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taskENTER_CRITICAL ( ) ;
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{
pxTimeOut - > xOverflowCount = xNumOfOverflows ;
pxTimeOut - > xTimeOnEntering = xTickCount ;
}
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taskEXIT_CRITICAL ( ) ;
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}
/*-----------------------------------------------------------*/
void vTaskInternalSetTimeOutState ( TimeOut_t * const pxTimeOut )
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{
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/* For internal use only as it does not use a critical section. */
pxTimeOut - > xOverflowCount = xNumOfOverflows ;
pxTimeOut - > xTimeOnEntering = xTickCount ;
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}
/*-----------------------------------------------------------*/
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BaseType_t xTaskCheckForTimeOut ( TimeOut_t * const pxTimeOut ,
TickType_t * const pxTicksToWait )
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{
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BaseType_t xReturn ;
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configASSERT ( pxTimeOut ) ;
configASSERT ( pxTicksToWait ) ;
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taskENTER_CRITICAL ( ) ;
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{
/* Minor optimisation. The tick count cannot change in this block. */
const TickType_t xConstTickCount = xTickCount ;
const TickType_t xElapsedTime = xConstTickCount - pxTimeOut - > xTimeOnEntering ;
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# if ( INCLUDE_xTaskAbortDelay == 1 )
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if ( pxCurrentTCB [ xPortGetCoreID ( ) ] - > ucDelayAborted ! = ( uint8_t ) pdFALSE )
{
/* The delay was aborted, which is not the same as a time out,
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* but has the same result . */
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pxCurrentTCB [ xPortGetCoreID ( ) ] - > ucDelayAborted = pdFALSE ;
xReturn = pdTRUE ;
}
else
# endif
# if ( INCLUDE_vTaskSuspend == 1 )
if ( * pxTicksToWait = = portMAX_DELAY )
{
/* If INCLUDE_vTaskSuspend is set to 1 and the block time
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* specified is the maximum block time then the task should block
* indefinitely , and therefore never time out . */
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xReturn = pdFALSE ;
}
else
# endif
if ( ( xNumOfOverflows ! = pxTimeOut - > xOverflowCount ) & & ( xConstTickCount > = pxTimeOut - > xTimeOnEntering ) ) /*lint !e525 Indentation preferred as is to make code within pre-processor directives clearer. */
{
/* The tick count is greater than the time at which
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* vTaskSetTimeout ( ) was called , but has also overflowed since
* vTaskSetTimeOut ( ) was called . It must have wrapped all the way
* around and gone past again . This passed since vTaskSetTimeout ( )
* was called . */
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xReturn = pdTRUE ;
}
else if ( xElapsedTime < * pxTicksToWait ) /*lint !e961 Explicit casting is only redundant with some compilers, whereas others require it to prevent integer conversion errors. */
{
/* Not a genuine timeout. Adjust parameters for time remaining. */
* pxTicksToWait - = xElapsedTime ;
vTaskInternalSetTimeOutState ( pxTimeOut ) ;
xReturn = pdFALSE ;
}
else
{
* pxTicksToWait = 0 ;
xReturn = pdTRUE ;
}
}
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taskEXIT_CRITICAL ( ) ;
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return xReturn ;
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}
/*-----------------------------------------------------------*/
void vTaskMissedYield ( void )
{
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xYieldPending [ xPortGetCoreID ( ) ] = pdTRUE ;
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}
/*-----------------------------------------------------------*/
# if ( configUSE_TRACE_FACILITY == 1 )
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UBaseType_t uxTaskGetTaskNumber ( TaskHandle_t xTask )
{
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UBaseType_t uxReturn ;
TCB_t const * pxTCB ;
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if ( xTask ! = NULL )
{
pxTCB = xTask ;
uxReturn = pxTCB - > uxTaskNumber ;
}
else
{
uxReturn = 0U ;
}
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return uxReturn ;
}
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# endif /* configUSE_TRACE_FACILITY */
/*-----------------------------------------------------------*/
# if ( configUSE_TRACE_FACILITY == 1 )
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void vTaskSetTaskNumber ( TaskHandle_t xTask ,
const UBaseType_t uxHandle )
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{
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TCB_t * pxTCB ;
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if ( xTask ! = NULL )
{
pxTCB = xTask ;
pxTCB - > uxTaskNumber = uxHandle ;
}
}
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# endif /* configUSE_TRACE_FACILITY */
/*
* - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
* The Idle task .
* - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
*
* The portTASK_FUNCTION ( ) macro is used to allow port / compiler specific
* language extensions . The equivalent prototype for this function is :
*
* void prvIdleTask ( void * pvParameters ) ;
*
*/
static portTASK_FUNCTION ( prvIdleTask , pvParameters )
{
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/* Stop warnings. */
( void ) pvParameters ;
/** THIS IS THE RTOS IDLE TASK - WHICH IS CREATED AUTOMATICALLY WHEN THE
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* SCHEDULER IS STARTED . * */
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/* In case a task that has a secure context deletes itself, in which case
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* the idle task is responsible for deleting the task ' s secure context , if
* any . */
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portALLOCATE_SECURE_CONTEXT ( configMINIMAL_SECURE_STACK_SIZE ) ;
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for ( ; ; )
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{
/* See if any tasks have deleted themselves - if so then the idle task
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* is responsible for freeing the deleted task ' s TCB and stack . */
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prvCheckTasksWaitingTermination ( ) ;
# if ( configUSE_PREEMPTION == 0 )
{
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/* If we are not using preemption we keep forcing a task switch to
* see if any other task has become available . If we are using
* preemption we don ' t need to do this as any task becoming available
* will automatically get the processor anyway . */
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taskYIELD ( ) ;
}
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# endif /* configUSE_PREEMPTION */
# if ( ( configUSE_PREEMPTION == 1 ) && ( configIDLE_SHOULD_YIELD == 1 ) )
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{
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/* When using preemption tasks of equal priority will be
* timesliced . If a task that is sharing the idle priority is ready
* to run then the idle task should yield before the end of the
* timeslice .
*
* A critical region is not required here as we are just reading from
* the list , and an occasional incorrect value will not matter . If
* the ready list at the idle priority contains more than one task
* then a task other than the idle task is ready to execute . */
if ( listCURRENT_LIST_LENGTH ( & ( pxReadyTasksLists [ tskIDLE_PRIORITY ] ) ) > ( UBaseType_t ) 1 )
{
taskYIELD ( ) ;
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
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}
# endif /* ( ( configUSE_PREEMPTION == 1 ) && ( configIDLE_SHOULD_YIELD == 1 ) ) */
# if ( configUSE_IDLE_HOOK == 1 )
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{
extern void vApplicationIdleHook ( void ) ;
/* Call the user defined function from within the idle task. This
* allows the application designer to add background functionality
* without the overhead of a separate task .
* NOTE : vApplicationIdleHook ( ) MUST NOT , UNDER ANY CIRCUMSTANCES ,
* CALL A FUNCTION THAT MIGHT BLOCK . */
vApplicationIdleHook ( ) ;
}
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# endif /* configUSE_IDLE_HOOK */
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# ifdef ESP_PLATFORM
/* Call the esp-idf idle hook system */
esp_vApplicationIdleHook ( ) ;
# endif // ESP_PLATFORM
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/* This conditional compilation should use inequality to 0, not equality
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* to 1. This is to ensure portSUPPRESS_TICKS_AND_SLEEP ( ) is called when
* user defined low power mode implementations require
* configUSE_TICKLESS_IDLE to be set to a value other than 1. */
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# if ( configUSE_TICKLESS_IDLE != 0 )
{
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TickType_t xExpectedIdleTime ;
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/* It is not desirable to suspend then resume the scheduler on
* each iteration of the idle task . Therefore , a preliminary
* test of the expected idle time is performed without the
* scheduler suspended . The result here is not necessarily
* valid . */
xExpectedIdleTime = prvGetExpectedIdleTime ( ) ;
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if ( xExpectedIdleTime > = configEXPECTED_IDLE_TIME_BEFORE_SLEEP )
{
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# ifdef ESP_PLATFORM // IDF-3755
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taskENTER_CRITICAL ( ) ;
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# else
vTaskSuspendAll ( ) ;
# endif // ESP_PLATFORM
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{
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/* Now the scheduler is suspended, the expected idle
* time can be sampled again , and this time its value can
* be used . */
configASSERT ( xNextTaskUnblockTime > = xTickCount ) ;
xExpectedIdleTime = prvGetExpectedIdleTime ( ) ;
/* Define the following macro to set xExpectedIdleTime to 0
* if the application does not want
* portSUPPRESS_TICKS_AND_SLEEP ( ) to be called . */
configPRE_SUPPRESS_TICKS_AND_SLEEP_PROCESSING ( xExpectedIdleTime ) ;
if ( xExpectedIdleTime > = configEXPECTED_IDLE_TIME_BEFORE_SLEEP )
{
traceLOW_POWER_IDLE_BEGIN ( ) ;
portSUPPRESS_TICKS_AND_SLEEP ( xExpectedIdleTime ) ;
traceLOW_POWER_IDLE_END ( ) ;
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
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}
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# ifdef ESP_PLATFORM // IDF-3755
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taskEXIT_CRITICAL ( ) ;
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# else
( void ) xTaskResumeAll ( ) ;
# endif // ESP_PLATFORM
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}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
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}
}
# endif /* configUSE_TICKLESS_IDLE */
}
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}
/*-----------------------------------------------------------*/
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# if ( configUSE_TICKLESS_IDLE != 0 )
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eSleepModeStatus eTaskConfirmSleepModeStatus ( void )
{
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/* The idle task exists in addition to the application tasks. */
const UBaseType_t uxNonApplicationTasks = 1 ;
eSleepModeStatus eReturn = eStandardSleep ;
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taskENTER_CRITICAL ( ) ;
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if ( listCURRENT_LIST_LENGTH ( & xPendingReadyList [ xPortGetCoreID ( ) ] ) ! = 0 )
{
/* A task was made ready while the scheduler was suspended. */
eReturn = eAbortSleep ;
}
else if ( xYieldPending [ xPortGetCoreID ( ) ] ! = pdFALSE )
{
/* A yield was pended while the scheduler was suspended. */
eReturn = eAbortSleep ;
}
else
{
/* If all the tasks are in the suspended list (which might mean they
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* have an infinite block time rather than actually being suspended )
* then it is safe to turn all clocks off and just wait for external
* interrupts . */
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if ( listCURRENT_LIST_LENGTH ( & xSuspendedTaskList ) = = ( uxCurrentNumberOfTasks - uxNonApplicationTasks ) )
{
eReturn = eNoTasksWaitingTimeout ;
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
}
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taskEXIT_CRITICAL ( ) ;
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return eReturn ;
}
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# endif /* configUSE_TICKLESS_IDLE */
/*-----------------------------------------------------------*/
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# if ( configNUM_THREAD_LOCAL_STORAGE_POINTERS != 0 )
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# if ( configTHREAD_LOCAL_STORAGE_DELETE_CALLBACKS )
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void vTaskSetThreadLocalStoragePointerAndDelCallback ( TaskHandle_t xTaskToSet , BaseType_t xIndex , void * pvValue , TlsDeleteCallbackFunction_t xDelCallback )
{
TCB_t * pxTCB ;
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if ( xIndex < configNUM_THREAD_LOCAL_STORAGE_POINTERS )
{
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taskENTER_CRITICAL ( ) ;
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pxTCB = prvGetTCBFromHandle ( xTaskToSet ) ;
pxTCB - > pvThreadLocalStoragePointers [ xIndex ] = pvValue ;
pxTCB - > pvThreadLocalStoragePointersDelCallback [ xIndex ] = xDelCallback ;
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taskEXIT_CRITICAL ( ) ;
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}
}
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void vTaskSetThreadLocalStoragePointer ( TaskHandle_t xTaskToSet , BaseType_t xIndex , void * pvValue )
{
vTaskSetThreadLocalStoragePointerAndDelCallback ( xTaskToSet , xIndex , pvValue , ( TlsDeleteCallbackFunction_t ) NULL ) ;
}
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# else
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void vTaskSetThreadLocalStoragePointer ( TaskHandle_t xTaskToSet ,
BaseType_t xIndex ,
void * pvValue )
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{
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TCB_t * pxTCB ;
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if ( xIndex < configNUM_THREAD_LOCAL_STORAGE_POINTERS )
{
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taskENTER_CRITICAL ( ) ;
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pxTCB = prvGetTCBFromHandle ( xTaskToSet ) ;
pxTCB - > pvThreadLocalStoragePointers [ xIndex ] = pvValue ;
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taskEXIT_CRITICAL ( ) ;
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}
}
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# endif /* configTHREAD_LOCAL_STORAGE_DELETE_CALLBACKS */
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# endif /* configNUM_THREAD_LOCAL_STORAGE_POINTERS */
/*-----------------------------------------------------------*/
# if ( configNUM_THREAD_LOCAL_STORAGE_POINTERS != 0 )
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void * pvTaskGetThreadLocalStoragePointer ( TaskHandle_t xTaskToQuery ,
BaseType_t xIndex )
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{
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void * pvReturn = NULL ;
TCB_t * pxTCB ;
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if ( xIndex < configNUM_THREAD_LOCAL_STORAGE_POINTERS )
{
pxTCB = prvGetTCBFromHandle ( xTaskToQuery ) ;
pvReturn = pxTCB - > pvThreadLocalStoragePointers [ xIndex ] ;
}
else
{
pvReturn = NULL ;
}
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return pvReturn ;
}
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# endif /* configNUM_THREAD_LOCAL_STORAGE_POINTERS */
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/*-----------------------------------------------------------*/
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# if ( portUSING_MPU_WRAPPERS == 1 )
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void vTaskAllocateMPURegions ( TaskHandle_t xTaskToModify ,
const MemoryRegion_t * const xRegions )
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{
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TCB_t * pxTCB ;
2016-08-17 11:08:22 -04:00
2021-08-09 17:13:43 -04:00
/* If null is passed in here then we are modifying the MPU settings of
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* the calling task . */
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pxTCB = prvGetTCBFromHandle ( xTaskToModify ) ;
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vPortStoreTaskMPUSettings ( & ( pxTCB - > xMPUSettings ) , xRegions , NULL , 0 ) ;
}
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# endif /* portUSING_MPU_WRAPPERS */
/*-----------------------------------------------------------*/
static void prvInitialiseTaskLists ( void )
{
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UBaseType_t uxPriority ;
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for ( uxPriority = ( UBaseType_t ) 0U ; uxPriority < ( UBaseType_t ) configMAX_PRIORITIES ; uxPriority + + )
{
vListInitialise ( & ( pxReadyTasksLists [ uxPriority ] ) ) ;
}
vListInitialise ( & xDelayedTaskList1 ) ;
vListInitialise ( & xDelayedTaskList2 ) ;
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# if ( configNUM_CORES > 1 )
for ( BaseType_t i = 0 ; i < configNUM_CORES ; i + + ) {
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vListInitialise ( & xPendingReadyList [ i ] ) ;
}
# else
vListInitialise ( & xPendingReadyList [ xPortGetCoreID ( ) ] ) ;
# endif
# if ( INCLUDE_vTaskDelete == 1 )
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{
vListInitialise ( & xTasksWaitingTermination ) ;
}
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# endif /* INCLUDE_vTaskDelete */
# if ( INCLUDE_vTaskSuspend == 1 )
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{
vListInitialise ( & xSuspendedTaskList ) ;
}
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# endif /* INCLUDE_vTaskSuspend */
/* Start with pxDelayedTaskList using list1 and the pxOverflowDelayedTaskList
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* using list2 . */
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pxDelayedTaskList = & xDelayedTaskList1 ;
pxOverflowDelayedTaskList = & xDelayedTaskList2 ;
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}
/*-----------------------------------------------------------*/
static void prvCheckTasksWaitingTermination ( void )
{
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/** THIS FUNCTION IS CALLED FROM THE RTOS IDLE TASK **/
# if ( INCLUDE_vTaskDelete == 1 )
{
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BaseType_t xListIsEmpty ;
BaseType_t core = xPortGetCoreID ( ) ;
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/* uxDeletedTasksWaitingCleanUp is used to prevent taskENTER_CRITICAL()
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* being called too often in the idle task . */
while ( uxDeletedTasksWaitingCleanUp > ( UBaseType_t ) 0U )
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{
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TCB_t * pxTCB = NULL ;
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taskENTER_CRITICAL ( ) ;
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{
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xListIsEmpty = listLIST_IS_EMPTY ( & xTasksWaitingTermination ) ;
if ( xListIsEmpty = = pdFALSE )
{
/* We only want to kill tasks that ran on this core because e.g. _xt_coproc_release needs to
be called on the core the process is pinned on , if any */
ListItem_t * target = listGET_HEAD_ENTRY ( & xTasksWaitingTermination ) ;
for ( ; target ! = listGET_END_MARKER ( & xTasksWaitingTermination ) ; target = listGET_NEXT ( target ) ) { //Walk the list
TCB_t * tgt_tcb = ( TCB_t * ) listGET_LIST_ITEM_OWNER ( target ) ;
int affinity = tgt_tcb - > xCoreID ;
//Self deleting tasks are added to Termination List before they switch context. Ensure they aren't still currently running
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if ( pxCurrentTCB [ core ] = = tgt_tcb | | ( configNUM_CORES > 1 & & pxCurrentTCB [ ! core ] = = tgt_tcb ) ) {
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continue ; //Can't free memory of task that is still running
}
if ( affinity = = core | | affinity = = tskNO_AFFINITY ) { //Find first item not pinned to other core
pxTCB = tgt_tcb ;
break ;
}
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}
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if ( pxTCB ! = NULL ) {
( void ) uxListRemove ( target ) ; //Remove list item from list
- - uxCurrentNumberOfTasks ;
- - uxDeletedTasksWaitingCleanUp ;
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}
}
}
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taskEXIT_CRITICAL ( ) ; //Need to call deletion callbacks outside critical section
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if ( pxTCB ! = NULL ) { //Call deletion callbacks and free TCB memory
# if ( configNUM_THREAD_LOCAL_STORAGE_POINTERS > 0 ) && ( configTHREAD_LOCAL_STORAGE_DELETE_CALLBACKS )
prvDeleteTLS ( pxTCB ) ;
# endif
prvDeleteTCB ( pxTCB ) ;
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
break ; //No TCB found that could be freed by this core, break out of loop
}
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}
}
# endif /* INCLUDE_vTaskDelete */
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}
/*-----------------------------------------------------------*/
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# if ( configUSE_TRACE_FACILITY == 1 )
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2021-08-26 01:45:51 -04:00
void vTaskGetInfo ( TaskHandle_t xTask ,
TaskStatus_t * pxTaskStatus ,
BaseType_t xGetFreeStackSpace ,
eTaskState eState )
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{
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TCB_t * pxTCB ;
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/* xTask is NULL then get the state of the calling task. */
pxTCB = prvGetTCBFromHandle ( xTask ) ;
pxTaskStatus - > xHandle = ( TaskHandle_t ) pxTCB ;
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pxTaskStatus - > pcTaskName = ( const char * ) & ( pxTCB - > pcTaskName [ 0 ] ) ;
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pxTaskStatus - > uxCurrentPriority = pxTCB - > uxPriority ;
pxTaskStatus - > pxStackBase = pxTCB - > pxStack ;
pxTaskStatus - > xTaskNumber = pxTCB - > uxTCBNumber ;
# if ( configTASKLIST_INCLUDE_COREID == 1 )
pxTaskStatus - > xCoreID = pxTCB - > xCoreID ;
# endif /* configTASKLIST_INCLUDE_COREID */
# if ( configUSE_MUTEXES == 1 )
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{
pxTaskStatus - > uxBasePriority = pxTCB - > uxBasePriority ;
}
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# else
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{
pxTaskStatus - > uxBasePriority = 0 ;
}
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# endif
# if ( configGENERATE_RUN_TIME_STATS == 1 )
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{
pxTaskStatus - > ulRunTimeCounter = pxTCB - > ulRunTimeCounter ;
}
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# else
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{
pxTaskStatus - > ulRunTimeCounter = 0 ;
}
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# endif
/* Obtaining the task state is a little fiddly, so is only done if the
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* value of eState passed into this function is eInvalid - otherwise the
* state is just set to whatever is passed in . */
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if ( eState ! = eInvalid )
{
if ( pxTCB = = pxCurrentTCB [ xPortGetCoreID ( ) ] )
{
pxTaskStatus - > eCurrentState = eRunning ;
}
else
{
pxTaskStatus - > eCurrentState = eState ;
# if ( INCLUDE_vTaskSuspend == 1 )
{
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/* If the task is in the suspended list then there is a
* chance it is actually just blocked indefinitely - so really
* it should be reported as being in the Blocked state . */
if ( eState = = eSuspended )
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{
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# ifdef ESP_PLATFORM // IDF-3755
taskENTER_CRITICAL ( ) ;
# else
vTaskSuspendAll ( ) ;
# endif // ESP_PLATFORM
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{
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if ( listLIST_ITEM_CONTAINER ( & ( pxTCB - > xEventListItem ) ) ! = NULL )
{
pxTaskStatus - > eCurrentState = eBlocked ;
}
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}
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# ifdef ESP_PLATFORM // IDF-3755
taskEXIT_CRITICAL ( ) ;
# else
( void ) xTaskResumeAll ( ) ;
# endif // ESP_PLATFORM
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}
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}
# endif /* INCLUDE_vTaskSuspend */
}
}
else
{
pxTaskStatus - > eCurrentState = eTaskGetState ( pxTCB ) ;
}
/* Obtaining the stack space takes some time, so the xGetFreeStackSpace
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* parameter is provided to allow it to be skipped . */
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if ( xGetFreeStackSpace ! = pdFALSE )
{
# if ( portSTACK_GROWTH > 0 )
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{
pxTaskStatus - > usStackHighWaterMark = prvTaskCheckFreeStackSpace ( ( uint8_t * ) pxTCB - > pxEndOfStack ) ;
}
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# else
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{
pxTaskStatus - > usStackHighWaterMark = prvTaskCheckFreeStackSpace ( ( uint8_t * ) pxTCB - > pxStack ) ;
}
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# endif
}
else
{
pxTaskStatus - > usStackHighWaterMark = 0 ;
}
}
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# endif /* configUSE_TRACE_FACILITY */
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/*-----------------------------------------------------------*/
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BaseType_t xTaskGetAffinity ( TaskHandle_t xTask )
{
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TCB_t * pxTCB ;
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pxTCB = prvGetTCBFromHandle ( xTask ) ;
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return pxTCB - > xCoreID ;
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}
/*-----------------------------------------------------------*/
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# if ( configUSE_TRACE_FACILITY == 1 )
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static UBaseType_t prvListTasksWithinSingleList ( TaskStatus_t * pxTaskStatusArray ,
List_t * pxList ,
eTaskState eState )
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{
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configLIST_VOLATILE TCB_t * pxNextTCB , * pxFirstTCB ;
UBaseType_t uxTask = 0 ;
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if ( listCURRENT_LIST_LENGTH ( pxList ) > ( UBaseType_t ) 0 )
{
listGET_OWNER_OF_NEXT_ENTRY ( pxFirstTCB , pxList ) ; /*lint !e9079 void * is used as this macro is used with timers and co-routines too. Alignment is known to be fine as the type of the pointer stored and retrieved is the same. */
/* Populate an TaskStatus_t structure within the
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* pxTaskStatusArray array for each task that is referenced from
* pxList . See the definition of TaskStatus_t in task . h for the
* meaning of each TaskStatus_t structure member . */
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do
{
listGET_OWNER_OF_NEXT_ENTRY ( pxNextTCB , pxList ) ; /*lint !e9079 void * is used as this macro is used with timers and co-routines too. Alignment is known to be fine as the type of the pointer stored and retrieved is the same. */
vTaskGetInfo ( ( TaskHandle_t ) pxNextTCB , & ( pxTaskStatusArray [ uxTask ] ) , pdTRUE , eState ) ;
uxTask + + ;
} while ( pxNextTCB ! = pxFirstTCB ) ;
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
return uxTask ;
}
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# endif /* configUSE_TRACE_FACILITY */
/*-----------------------------------------------------------*/
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# if ( ( configUSE_TRACE_FACILITY == 1 ) || ( INCLUDE_uxTaskGetStackHighWaterMark == 1 ) || ( INCLUDE_uxTaskGetStackHighWaterMark2 == 1 ) )
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static configSTACK_DEPTH_TYPE prvTaskCheckFreeStackSpace ( const uint8_t * pucStackByte )
{
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uint32_t ulCount = 0U ;
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while ( * pucStackByte = = ( uint8_t ) tskSTACK_FILL_BYTE )
{
pucStackByte - = portSTACK_GROWTH ;
ulCount + + ;
}
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ulCount / = ( uint32_t ) sizeof ( StackType_t ) ; /*lint !e961 Casting is not redundant on smaller architectures. */
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return ( configSTACK_DEPTH_TYPE ) ulCount ;
}
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# endif /* ( ( configUSE_TRACE_FACILITY == 1 ) || ( INCLUDE_uxTaskGetStackHighWaterMark == 1 ) || ( INCLUDE_uxTaskGetStackHighWaterMark2 == 1 ) ) */
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/*-----------------------------------------------------------*/
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# if ( INCLUDE_uxTaskGetStackHighWaterMark2 == 1 )
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/* uxTaskGetStackHighWaterMark() and uxTaskGetStackHighWaterMark2() are the
* same except for their return type . Using configSTACK_DEPTH_TYPE allows the
* user to determine the return type . It gets around the problem of the value
* overflowing on 8 - bit types without breaking backward compatibility for
* applications that expect an 8 - bit return type . */
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configSTACK_DEPTH_TYPE uxTaskGetStackHighWaterMark2 ( TaskHandle_t xTask )
{
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TCB_t * pxTCB ;
uint8_t * pucEndOfStack ;
configSTACK_DEPTH_TYPE uxReturn ;
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/* uxTaskGetStackHighWaterMark() and uxTaskGetStackHighWaterMark2() are
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* the same except for their return type . Using configSTACK_DEPTH_TYPE
* allows the user to determine the return type . It gets around the
* problem of the value overflowing on 8 - bit types without breaking
* backward compatibility for applications that expect an 8 - bit return
* type . */
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pxTCB = prvGetTCBFromHandle ( xTask ) ;
# if portSTACK_GROWTH < 0
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{
pucEndOfStack = ( uint8_t * ) pxTCB - > pxStack ;
}
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# else
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{
pucEndOfStack = ( uint8_t * ) pxTCB - > pxEndOfStack ;
}
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# endif
uxReturn = prvTaskCheckFreeStackSpace ( pucEndOfStack ) ;
return uxReturn ;
}
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# endif /* INCLUDE_uxTaskGetStackHighWaterMark2 */
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/*-----------------------------------------------------------*/
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# if ( INCLUDE_uxTaskGetStackHighWaterMark == 1 )
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UBaseType_t uxTaskGetStackHighWaterMark ( TaskHandle_t xTask )
{
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TCB_t * pxTCB ;
uint8_t * pucEndOfStack ;
UBaseType_t uxReturn ;
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pxTCB = prvGetTCBFromHandle ( xTask ) ;
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# if portSTACK_GROWTH < 0
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{
pucEndOfStack = ( uint8_t * ) pxTCB - > pxStack ;
}
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# else
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{
pucEndOfStack = ( uint8_t * ) pxTCB - > pxEndOfStack ;
}
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# endif
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uxReturn = ( UBaseType_t ) prvTaskCheckFreeStackSpace ( pucEndOfStack ) ;
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return uxReturn ;
}
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# endif /* INCLUDE_uxTaskGetStackHighWaterMark */
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/*-----------------------------------------------------------*/
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# if (INCLUDE_pxTaskGetStackStart == 1)
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uint8_t * pxTaskGetStackStart ( TaskHandle_t xTask )
{
TCB_t * pxTCB ;
uint8_t * uxReturn ;
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pxTCB = prvGetTCBFromHandle ( xTask ) ;
uxReturn = ( uint8_t * ) pxTCB - > pxStack ;
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return uxReturn ;
}
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# endif /* INCLUDE_pxTaskGetStackStart */
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# if ( INCLUDE_vTaskDelete == 1 )
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static void prvDeleteTCB ( TCB_t * pxTCB )
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{
/* This call is required specifically for the TriCore port. It must be
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* above the vPortFree ( ) calls . The call is also used by ports / demos that
* want to allocate and clean RAM statically . */
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portCLEAN_UP_TCB ( pxTCB ) ;
/* Free up the memory allocated by the scheduler for the task. It is up
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* to the task to free any memory allocated at the application level .
* See the third party link http : //www.nadler.com/embedded/newlibAndFreeRTOS.html
* for additional information . */
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# if ( configUSE_NEWLIB_REENTRANT == 1 )
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{
_reclaim_reent ( & ( pxTCB - > xNewLib_reent ) ) ;
}
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# endif /* configUSE_NEWLIB_REENTRANT */
# if ( portUSING_MPU_WRAPPERS == 1 )
vPortReleaseTaskMPUSettings ( & ( pxTCB - > xMPUSettings ) ) ;
# endif
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# if ( ( configSUPPORT_DYNAMIC_ALLOCATION == 1 ) && ( configSUPPORT_STATIC_ALLOCATION == 0 ) && ( portUSING_MPU_WRAPPERS == 0 ) )
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{
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/* The task can only have been allocated dynamically - free both
* the stack and TCB . */
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vPortFree ( pxTCB - > pxStack ) ;
vPortFree ( pxTCB ) ;
}
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# elif ( tskSTATIC_AND_DYNAMIC_ALLOCATION_POSSIBLE != 0 ) /*lint !e731 !e9029 Macro has been consolidated for readability reasons. */
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{
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/* The task could have been allocated statically or dynamically, so
* check what was statically allocated before trying to free the
* memory . */
if ( pxTCB - > ucStaticallyAllocated = = tskDYNAMICALLY_ALLOCATED_STACK_AND_TCB )
{
/* Both the stack and TCB were allocated dynamically, so both
* must be freed . */
vPortFree ( pxTCB - > pxStack ) ;
vPortFree ( pxTCB ) ;
}
else if ( pxTCB - > ucStaticallyAllocated = = tskSTATICALLY_ALLOCATED_STACK_ONLY )
{
/* Only the stack was statically allocated, so the TCB is the
* only memory that must be freed . */
vPortFree ( pxTCB ) ;
}
else
{
/* Neither the stack nor the TCB were allocated dynamically, so
* nothing needs to be freed . */
configASSERT ( pxTCB - > ucStaticallyAllocated = = tskSTATICALLY_ALLOCATED_STACK_AND_TCB ) ;
mtCOVERAGE_TEST_MARKER ( ) ;
}
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}
# endif /* configSUPPORT_DYNAMIC_ALLOCATION */
}
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# endif /* INCLUDE_vTaskDelete */
/*-----------------------------------------------------------*/
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# if ( configNUM_THREAD_LOCAL_STORAGE_POINTERS > 0 ) && ( configTHREAD_LOCAL_STORAGE_DELETE_CALLBACKS )
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static void prvDeleteTLS ( TCB_t * pxTCB )
{
configASSERT ( pxTCB ) ;
for ( int x = 0 ; x < configNUM_THREAD_LOCAL_STORAGE_POINTERS ; x + + )
{
if ( pxTCB - > pvThreadLocalStoragePointersDelCallback [ x ] ! = NULL ) //If del cb is set
{
pxTCB - > pvThreadLocalStoragePointersDelCallback [ x ] ( x , pxTCB - > pvThreadLocalStoragePointers [ x ] ) ; //Call del cb
}
}
}
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# endif /* ( configNUM_THREAD_LOCAL_STORAGE_POINTERS > 0 ) && ( configTHREAD_LOCAL_STORAGE_DELETE_CALLBACKS ) */
/*-----------------------------------------------------------*/
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static void prvResetNextTaskUnblockTime ( void )
{
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TCB_t * pxTCB ;
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if ( listLIST_IS_EMPTY ( pxDelayedTaskList ) ! = pdFALSE )
{
/* The new current delayed list is empty. Set xNextTaskUnblockTime to
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* the maximum possible value so it is extremely unlikely that the
* if ( xTickCount > = xNextTaskUnblockTime ) test will pass until
* there is an item in the delayed list . */
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xNextTaskUnblockTime = portMAX_DELAY ;
}
else
{
/* The new current delayed list is not empty, get the value of
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* the item at the head of the delayed list . This is the time at
* which the task at the head of the delayed list should be removed
* from the Blocked state . */
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( pxTCB ) = listGET_OWNER_OF_HEAD_ENTRY ( pxDelayedTaskList ) ; /*lint !e9079 void * is used as this macro is used with timers and co-routines too. Alignment is known to be fine as the type of the pointer stored and retrieved is the same. */
xNextTaskUnblockTime = listGET_LIST_ITEM_VALUE ( & ( ( pxTCB ) - > xStateListItem ) ) ;
}
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}
/*-----------------------------------------------------------*/
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# if ( ( INCLUDE_xTaskGetCurrentTaskHandle == 1 ) || ( configUSE_MUTEXES == 1 ) || (configNUM_CORES > 1) )
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TaskHandle_t xTaskGetCurrentTaskHandle ( void )
{
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TaskHandle_t xReturn ;
unsigned state ;
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state = portSET_INTERRUPT_MASK_FROM_ISR ( ) ;
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xReturn = pxCurrentTCB [ xPortGetCoreID ( ) ] ;
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portCLEAR_INTERRUPT_MASK_FROM_ISR ( state ) ;
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return xReturn ;
}
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TaskHandle_t xTaskGetCurrentTaskHandleForCPU ( BaseType_t cpuid )
{
TaskHandle_t xReturn = NULL ;
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//Xtensa-specific: the pxCurrentPCB pointer is atomic so we shouldn't need a lock.
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if ( cpuid < configNUM_CORES ) {
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xReturn = pxCurrentTCB [ cpuid ] ;
}
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return xReturn ;
}
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# endif /* ( ( INCLUDE_xTaskGetCurrentTaskHandle == 1 ) || ( configUSE_MUTEXES == 1 ) ) */
/*-----------------------------------------------------------*/
# if ( ( INCLUDE_xTaskGetSchedulerState == 1 ) || ( configUSE_TIMERS == 1 ) )
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BaseType_t xTaskGetSchedulerState ( void )
{
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BaseType_t xReturn ;
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unsigned state ;
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state = portSET_INTERRUPT_MASK_FROM_ISR ( ) ;
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if ( xSchedulerRunning = = pdFALSE )
{
xReturn = taskSCHEDULER_NOT_STARTED ;
}
else
{
if ( uxSchedulerSuspended [ xPortGetCoreID ( ) ] = = ( UBaseType_t ) pdFALSE )
{
xReturn = taskSCHEDULER_RUNNING ;
}
else
{
xReturn = taskSCHEDULER_SUSPENDED ;
}
}
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portCLEAR_INTERRUPT_MASK_FROM_ISR ( state ) ;
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return xReturn ;
}
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# endif /* ( ( INCLUDE_xTaskGetSchedulerState == 1 ) || ( configUSE_TIMERS == 1 ) ) */
/*-----------------------------------------------------------*/
# if ( configUSE_MUTEXES == 1 )
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BaseType_t xTaskPriorityInherit ( TaskHandle_t const pxMutexHolder )
{
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TCB_t * const pxMutexHolderTCB = pxMutexHolder ;
BaseType_t xReturn = pdFALSE ;
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taskENTER_CRITICAL ( ) ;
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/* If the mutex was given back by an interrupt while the queue was
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* locked then the mutex holder might now be NULL . _RB_ Is this still
* needed as interrupts can no longer use mutexes ? */
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if ( pxMutexHolder ! = NULL )
{
/* If the holder of the mutex has a priority below the priority of
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* the task attempting to obtain the mutex then it will temporarily
* inherit the priority of the task attempting to obtain the mutex . */
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if ( pxMutexHolderTCB - > uxPriority < pxCurrentTCB [ xPortGetCoreID ( ) ] - > uxPriority )
{
/* Adjust the mutex holder state to account for its new
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* priority . Only reset the event list item value if the value is
* not being used for anything else . */
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if ( ( listGET_LIST_ITEM_VALUE ( & ( pxMutexHolderTCB - > xEventListItem ) ) & taskEVENT_LIST_ITEM_VALUE_IN_USE ) = = 0UL )
{
listSET_LIST_ITEM_VALUE ( & ( pxMutexHolderTCB - > xEventListItem ) , ( TickType_t ) configMAX_PRIORITIES - ( TickType_t ) pxCurrentTCB [ xPortGetCoreID ( ) ] - > uxPriority ) ; /*lint !e961 MISRA exception as the casts are only redundant for some ports. */
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
/* If the task being modified is in the ready state it will need
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* to be moved into a new list . */
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if ( listIS_CONTAINED_WITHIN ( & ( pxReadyTasksLists [ pxMutexHolderTCB - > uxPriority ] ) , & ( pxMutexHolderTCB - > xStateListItem ) ) ! = pdFALSE )
{
if ( uxListRemove ( & ( pxMutexHolderTCB - > xStateListItem ) ) = = ( UBaseType_t ) 0 )
{
/* It is known that the task is in its ready list so
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* there is no need to check again and the port level
* reset macro can be called directly . */
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portRESET_READY_PRIORITY ( pxMutexHolderTCB - > uxPriority , uxTopReadyPriority ) ;
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
/* Inherit the priority before being moved into the new list. */
pxMutexHolderTCB - > uxPriority = pxCurrentTCB [ xPortGetCoreID ( ) ] - > uxPriority ;
prvAddTaskToReadyList ( pxMutexHolderTCB ) ;
}
else
{
/* Just inherit the priority. */
pxMutexHolderTCB - > uxPriority = pxCurrentTCB [ xPortGetCoreID ( ) ] - > uxPriority ;
}
traceTASK_PRIORITY_INHERIT ( pxMutexHolderTCB , pxCurrentTCB [ xPortGetCoreID ( ) ] - > uxPriority ) ;
/* Inheritance occurred. */
xReturn = pdTRUE ;
}
else
{
if ( pxMutexHolderTCB - > uxBasePriority < pxCurrentTCB [ xPortGetCoreID ( ) ] - > uxPriority )
{
/* The base priority of the mutex holder is lower than the
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* priority of the task attempting to take the mutex , but the
* current priority of the mutex holder is not lower than the
* priority of the task attempting to take the mutex .
* Therefore the mutex holder must have already inherited a
* priority , but inheritance would have occurred if that had
* not been the case . */
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xReturn = pdTRUE ;
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
}
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
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taskEXIT_CRITICAL ( ) ;
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return xReturn ;
}
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# endif /* configUSE_MUTEXES */
/*-----------------------------------------------------------*/
# if ( configUSE_MUTEXES == 1 )
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BaseType_t xTaskPriorityDisinherit ( TaskHandle_t const pxMutexHolder )
{
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TCB_t * const pxTCB = pxMutexHolder ;
BaseType_t xReturn = pdFALSE ;
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taskENTER_CRITICAL ( ) ;
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if ( pxMutexHolder ! = NULL )
{
/* A task can only have an inherited priority if it holds the mutex.
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* If the mutex is held by a task then it cannot be given from an
* interrupt , and if a mutex is given by the holding task then it must
* be the running state task . */
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configASSERT ( pxTCB = = pxCurrentTCB [ xPortGetCoreID ( ) ] ) ;
configASSERT ( pxTCB - > uxMutexesHeld ) ;
( pxTCB - > uxMutexesHeld ) - - ;
/* Has the holder of the mutex inherited the priority of another
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* task ? */
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if ( pxTCB - > uxPriority ! = pxTCB - > uxBasePriority )
{
/* Only disinherit if no other mutexes are held. */
if ( pxTCB - > uxMutexesHeld = = ( UBaseType_t ) 0 )
{
/* A task can only have an inherited priority if it holds
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* the mutex . If the mutex is held by a task then it cannot be
* given from an interrupt , and if a mutex is given by the
* holding task then it must be the running state task . Remove
* the holding task from the ready list . */
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if ( uxListRemove ( & ( pxTCB - > xStateListItem ) ) = = ( UBaseType_t ) 0 )
{
taskRESET_READY_PRIORITY ( pxTCB - > uxPriority ) ;
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
/* Disinherit the priority before adding the task into the
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* new ready list . */
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traceTASK_PRIORITY_DISINHERIT ( pxTCB , pxTCB - > uxBasePriority ) ;
pxTCB - > uxPriority = pxTCB - > uxBasePriority ;
/* Reset the event list item value. It cannot be in use for
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* any other purpose if this task is running , and it must be
* running to give back the mutex . */
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listSET_LIST_ITEM_VALUE ( & ( pxTCB - > xEventListItem ) , ( TickType_t ) configMAX_PRIORITIES - ( TickType_t ) pxTCB - > uxPriority ) ; /*lint !e961 MISRA exception as the casts are only redundant for some ports. */
prvAddTaskToReadyList ( pxTCB ) ;
/* Return true to indicate that a context switch is required.
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* This is only actually required in the corner case whereby
* multiple mutexes were held and the mutexes were given back
* in an order different to that in which they were taken .
* If a context switch did not occur when the first mutex was
* returned , even if a task was waiting on it , then a context
* switch should occur when the last mutex is returned whether
* a task is waiting on it or not . */
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xReturn = pdTRUE ;
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
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taskEXIT_CRITICAL ( ) ;
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return xReturn ;
}
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# endif /* configUSE_MUTEXES */
/*-----------------------------------------------------------*/
# if ( configUSE_MUTEXES == 1 )
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void vTaskPriorityDisinheritAfterTimeout ( TaskHandle_t const pxMutexHolder ,
UBaseType_t uxHighestPriorityWaitingTask )
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{
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TCB_t * const pxTCB = pxMutexHolder ;
UBaseType_t uxPriorityUsedOnEntry , uxPriorityToUse ;
const UBaseType_t uxOnlyOneMutexHeld = ( UBaseType_t ) 1 ;
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taskENTER_CRITICAL ( ) ;
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if ( pxMutexHolder ! = NULL )
{
/* If pxMutexHolder is not NULL then the holder must hold at least
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* one mutex . */
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configASSERT ( pxTCB - > uxMutexesHeld ) ;
/* Determine the priority to which the priority of the task that
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* holds the mutex should be set . This will be the greater of the
* holding task ' s base priority and the priority of the highest
* priority task that is waiting to obtain the mutex . */
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if ( pxTCB - > uxBasePriority < uxHighestPriorityWaitingTask )
{
uxPriorityToUse = uxHighestPriorityWaitingTask ;
}
else
{
uxPriorityToUse = pxTCB - > uxBasePriority ;
}
/* Does the priority need to change? */
if ( pxTCB - > uxPriority ! = uxPriorityToUse )
{
/* Only disinherit if no other mutexes are held. This is a
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* simplification in the priority inheritance implementation . If
* the task that holds the mutex is also holding other mutexes then
* the other mutexes may have caused the priority inheritance . */
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if ( pxTCB - > uxMutexesHeld = = uxOnlyOneMutexHeld )
{
/* If a task has timed out because it already holds the
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* mutex it was trying to obtain then it cannot of inherited
* its own priority . */
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configASSERT ( pxTCB ! = pxCurrentTCB [ xPortGetCoreID ( ) ] ) ;
/* Disinherit the priority, remembering the previous
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* priority to facilitate determining the subject task ' s
* state . */
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traceTASK_PRIORITY_DISINHERIT ( pxTCB , pxTCB - > uxBasePriority ) ;
uxPriorityUsedOnEntry = pxTCB - > uxPriority ;
pxTCB - > uxPriority = uxPriorityToUse ;
/* Only reset the event list item value if the value is not
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* being used for anything else . */
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if ( ( listGET_LIST_ITEM_VALUE ( & ( pxTCB - > xEventListItem ) ) & taskEVENT_LIST_ITEM_VALUE_IN_USE ) = = 0UL )
{
listSET_LIST_ITEM_VALUE ( & ( pxTCB - > xEventListItem ) , ( TickType_t ) configMAX_PRIORITIES - ( TickType_t ) uxPriorityToUse ) ; /*lint !e961 MISRA exception as the casts are only redundant for some ports. */
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
/* If the running task is not the task that holds the mutex
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* then the task that holds the mutex could be in either the
* Ready , Blocked or Suspended states . Only remove the task
* from its current state list if it is in the Ready state as
* the task ' s priority is going to change and there is one
* Ready list per priority . */
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if ( listIS_CONTAINED_WITHIN ( & ( pxReadyTasksLists [ uxPriorityUsedOnEntry ] ) , & ( pxTCB - > xStateListItem ) ) ! = pdFALSE )
{
if ( uxListRemove ( & ( pxTCB - > xStateListItem ) ) = = ( UBaseType_t ) 0 )
{
/* It is known that the task is in its ready list so
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* there is no need to check again and the port level
* reset macro can be called directly . */
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portRESET_READY_PRIORITY ( pxTCB - > uxPriority , uxTopReadyPriority ) ;
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
prvAddTaskToReadyList ( pxTCB ) ;
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
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taskEXIT_CRITICAL ( ) ;
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}
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# endif /* configUSE_MUTEXES */
/*-----------------------------------------------------------*/
# if ( portCRITICAL_NESTING_IN_TCB == 1 )
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void vTaskEnterCritical ( void )
{
portDISABLE_INTERRUPTS ( ) ;
if ( xSchedulerRunning ! = pdFALSE )
{
( pxCurrentTCB [ xPortGetCoreID ( ) ] - > uxCriticalNesting ) + + ;
/* This is not the interrupt safe version of the enter critical
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* function so assert ( ) if it is being called from an interrupt
* context . Only API functions that end in " FromISR " can be used in an
* interrupt . Only assert if the critical nesting count is 1 to
* protect against recursive calls if the assert function also uses a
* critical section . */
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if ( pxCurrentTCB [ xPortGetCoreID ( ) ] - > uxCriticalNesting = = 1 )
{
portASSERT_IF_IN_ISR ( ) ;
}
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
}
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# endif /* portCRITICAL_NESTING_IN_TCB */
/*-----------------------------------------------------------*/
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# if ( portCRITICAL_NESTING_IN_TCB == 1 )
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void vTaskExitCritical ( void )
{
if ( xSchedulerRunning ! = pdFALSE )
{
if ( pxCurrentTCB [ xPortGetCoreID ( ) ] - > uxCriticalNesting > 0U )
{
( pxCurrentTCB [ xPortGetCoreID ( ) ] - > uxCriticalNesting ) - - ;
if ( pxCurrentTCB [ xPortGetCoreID ( ) ] - > uxCriticalNesting = = 0U )
{
portENABLE_INTERRUPTS ( ) ;
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
}
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# endif /* portCRITICAL_NESTING_IN_TCB */
/*-----------------------------------------------------------*/
# if ( ( configUSE_TRACE_FACILITY == 1 ) && ( configUSE_STATS_FORMATTING_FUNCTIONS > 0 ) )
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static char * prvWriteNameToBuffer ( char * pcBuffer ,
const char * pcTaskName )
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{
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size_t x ;
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/* Start by copying the entire string. */
strcpy ( pcBuffer , pcTaskName ) ;
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/* Pad the end of the string with spaces to ensure columns line up when
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* printed out . */
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for ( x = strlen ( pcBuffer ) ; x < ( size_t ) ( configMAX_TASK_NAME_LEN - 1 ) ; x + + )
{
pcBuffer [ x ] = ' ' ;
}
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/* Terminate. */
pcBuffer [ x ] = ( char ) 0x00 ;
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/* Return the new end of string. */
return & ( pcBuffer [ x ] ) ;
}
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# endif /* ( configUSE_TRACE_FACILITY == 1 ) && ( configUSE_STATS_FORMATTING_FUNCTIONS > 0 ) */
/*-----------------------------------------------------------*/
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# if ( ( configUSE_TRACE_FACILITY == 1 ) && ( configUSE_STATS_FORMATTING_FUNCTIONS > 0 ) && ( configSUPPORT_DYNAMIC_ALLOCATION == 1 ) )
2016-08-17 11:08:22 -04:00
2021-08-09 17:13:43 -04:00
void vTaskList ( char * pcWriteBuffer )
{
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TaskStatus_t * pxTaskStatusArray ;
UBaseType_t uxArraySize , x ;
char cStatus ;
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/*
* PLEASE NOTE :
*
* This function is provided for convenience only , and is used by many
* of the demo applications . Do not consider it to be part of the
* scheduler .
*
* vTaskList ( ) calls uxTaskGetSystemState ( ) , then formats part of the
* uxTaskGetSystemState ( ) output into a human readable table that
* displays task names , states and stack usage .
*
* vTaskList ( ) has a dependency on the sprintf ( ) C library function that
* might bloat the code size , use a lot of stack , and provide different
* results on different platforms . An alternative , tiny , third party ,
* and limited functionality implementation of sprintf ( ) is provided in
* many of the FreeRTOS / Demo sub - directories in a file called
* printf - stdarg . c ( note printf - stdarg . c does not provide a full
* snprintf ( ) implementation ! ) .
*
* It is recommended that production systems call uxTaskGetSystemState ( )
* directly to get access to raw stats data , rather than indirectly
* through a call to vTaskList ( ) .
*/
/* Make sure the write buffer does not contain a string. */
* pcWriteBuffer = ( char ) 0x00 ;
/* Take a snapshot of the number of tasks in case it changes while this
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* function is executing . */
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uxArraySize = uxCurrentNumberOfTasks ;
/* Allocate an array index for each task. NOTE! if
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* configSUPPORT_DYNAMIC_ALLOCATION is set to 0 then pvPortMalloc ( ) will
* equate to NULL . */
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pxTaskStatusArray = pvPortMalloc ( uxCurrentNumberOfTasks * sizeof ( TaskStatus_t ) ) ; /*lint !e9079 All values returned by pvPortMalloc() have at least the alignment required by the MCU's stack and this allocation allocates a struct that has the alignment requirements of a pointer. */
if ( pxTaskStatusArray ! = NULL )
{
/* Generate the (binary) data. */
uxArraySize = uxTaskGetSystemState ( pxTaskStatusArray , uxArraySize , NULL ) ;
/* Create a human readable table from the binary data. */
for ( x = 0 ; x < uxArraySize ; x + + )
{
switch ( pxTaskStatusArray [ x ] . eCurrentState )
{
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case eRunning :
cStatus = tskRUNNING_CHAR ;
break ;
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case eReady :
cStatus = tskREADY_CHAR ;
break ;
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case eBlocked :
cStatus = tskBLOCKED_CHAR ;
break ;
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case eSuspended :
cStatus = tskSUSPENDED_CHAR ;
break ;
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case eDeleted :
cStatus = tskDELETED_CHAR ;
break ;
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case eInvalid : /* Fall through. */
default : /* Should not get here, but it is included
* to prevent static checking errors . */
cStatus = ( char ) 0x00 ;
break ;
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}
/* Write the task name to the string, padding with spaces so it
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* can be printed in tabular form more easily . */
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pcWriteBuffer = prvWriteNameToBuffer ( pcWriteBuffer , pxTaskStatusArray [ x ] . pcTaskName ) ;
/* Write the rest of the string. */
2020-11-09 21:07:39 -05:00
# if configTASKLIST_INCLUDE_COREID
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sprintf ( pcWriteBuffer , " \t %c \t %u \t %u \t %u \t %hd \r \n " , cStatus , ( unsigned int ) pxTaskStatusArray [ x ] . uxCurrentPriority , ( unsigned int ) pxTaskStatusArray [ x ] . usStackHighWaterMark , ( unsigned int ) pxTaskStatusArray [ x ] . xTaskNumber , ( int ) pxTaskStatusArray [ x ] . xCoreID ) ;
2020-11-09 21:07:39 -05:00
# else
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sprintf ( pcWriteBuffer , " \t %c \t %u \t %u \t %u \r \n " , cStatus , ( unsigned int ) pxTaskStatusArray [ x ] . uxCurrentPriority , ( unsigned int ) pxTaskStatusArray [ x ] . usStackHighWaterMark , ( unsigned int ) pxTaskStatusArray [ x ] . xTaskNumber ) ; /*lint !e586 sprintf() allowed as this is compiled with many compilers and this is a utility function only - not part of the core kernel implementation. */
2020-11-09 21:07:39 -05:00
# endif
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pcWriteBuffer + = strlen ( pcWriteBuffer ) ; /*lint !e9016 Pointer arithmetic ok on char pointers especially as in this case where it best denotes the intent of the code. */
}
/* Free the array again. NOTE! If configSUPPORT_DYNAMIC_ALLOCATION
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* is 0 then vPortFree ( ) will be # defined to nothing . */
2021-08-09 17:13:43 -04:00
vPortFree ( pxTaskStatusArray ) ;
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
}
2016-08-17 11:08:22 -04:00
2019-11-28 13:27:47 -05:00
# endif /* ( ( configUSE_TRACE_FACILITY == 1 ) && ( configUSE_STATS_FORMATTING_FUNCTIONS > 0 ) && ( configSUPPORT_DYNAMIC_ALLOCATION == 1 ) ) */
2016-08-17 11:08:22 -04:00
/*----------------------------------------------------------*/
2019-11-28 13:27:47 -05:00
# if ( ( configGENERATE_RUN_TIME_STATS == 1 ) && ( configUSE_STATS_FORMATTING_FUNCTIONS > 0 ) && ( configSUPPORT_DYNAMIC_ALLOCATION == 1 ) )
2016-08-17 11:08:22 -04:00
2021-08-26 01:45:51 -04:00
void vTaskGetRunTimeStats ( char * pcWriteBuffer )
2021-08-09 17:13:43 -04:00
{
2021-08-26 01:45:51 -04:00
TaskStatus_t * pxTaskStatusArray ;
UBaseType_t uxArraySize , x ;
uint32_t ulTotalTime , ulStatsAsPercentage ;
2021-08-09 17:13:43 -04:00
2021-08-26 01:45:51 -04:00
# if ( configUSE_TRACE_FACILITY != 1 )
{
# error configUSE_TRACE_FACILITY must also be set to 1 in FreeRTOSConfig.h to use vTaskGetRunTimeStats().
}
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# endif
/*
* PLEASE NOTE :
*
* This function is provided for convenience only , and is used by many
* of the demo applications . Do not consider it to be part of the
* scheduler .
*
* vTaskGetRunTimeStats ( ) calls uxTaskGetSystemState ( ) , then formats part
* of the uxTaskGetSystemState ( ) output into a human readable table that
* displays the amount of time each task has spent in the Running state
* in both absolute and percentage terms .
*
* vTaskGetRunTimeStats ( ) has a dependency on the sprintf ( ) C library
* function that might bloat the code size , use a lot of stack , and
* provide different results on different platforms . An alternative ,
* tiny , third party , and limited functionality implementation of
* sprintf ( ) is provided in many of the FreeRTOS / Demo sub - directories in
* a file called printf - stdarg . c ( note printf - stdarg . c does not provide
* a full snprintf ( ) implementation ! ) .
*
* It is recommended that production systems call uxTaskGetSystemState ( )
* directly to get access to raw stats data , rather than indirectly
* through a call to vTaskGetRunTimeStats ( ) .
*/
/* Make sure the write buffer does not contain a string. */
* pcWriteBuffer = ( char ) 0x00 ;
/* Take a snapshot of the number of tasks in case it changes while this
2021-08-26 01:45:51 -04:00
* function is executing . */
2021-08-09 17:13:43 -04:00
uxArraySize = uxCurrentNumberOfTasks ;
/* Allocate an array index for each task. NOTE! If
2021-08-26 01:45:51 -04:00
* configSUPPORT_DYNAMIC_ALLOCATION is set to 0 then pvPortMalloc ( ) will
* equate to NULL . */
2021-08-09 17:13:43 -04:00
pxTaskStatusArray = pvPortMalloc ( uxCurrentNumberOfTasks * sizeof ( TaskStatus_t ) ) ; /*lint !e9079 All values returned by pvPortMalloc() have at least the alignment required by the MCU's stack and this allocation allocates a struct that has the alignment requirements of a pointer. */
if ( pxTaskStatusArray ! = NULL )
{
/* Generate the (binary) data. */
uxArraySize = uxTaskGetSystemState ( pxTaskStatusArray , uxArraySize , & ulTotalTime ) ;
/* For percentage calculations. */
ulTotalTime / = 100UL ;
/* Avoid divide by zero errors. */
if ( ulTotalTime > 0UL )
{
/* Create a human readable table from the binary data. */
for ( x = 0 ; x < uxArraySize ; x + + )
{
/* What percentage of the total run time has the task used?
2021-08-26 01:45:51 -04:00
* This will always be rounded down to the nearest integer .
* ulTotalRunTimeDiv100 has already been divided by 100. */
2021-08-09 17:13:43 -04:00
ulStatsAsPercentage = pxTaskStatusArray [ x ] . ulRunTimeCounter / ulTotalTime ;
/* Write the task name to the string, padding with
2021-08-26 01:45:51 -04:00
* spaces so it can be printed in tabular form more
* easily . */
2021-08-09 17:13:43 -04:00
pcWriteBuffer = prvWriteNameToBuffer ( pcWriteBuffer , pxTaskStatusArray [ x ] . pcTaskName ) ;
if ( ulStatsAsPercentage > 0UL )
{
# ifdef portLU_PRINTF_SPECIFIER_REQUIRED
2021-08-26 01:45:51 -04:00
{
sprintf ( pcWriteBuffer , " \t %lu \t \t %lu%% \r \n " , pxTaskStatusArray [ x ] . ulRunTimeCounter , ulStatsAsPercentage ) ;
}
2021-08-09 17:13:43 -04:00
# else
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{
/* sizeof( int ) == sizeof( long ) so a smaller
* printf ( ) library can be used . */
sprintf ( pcWriteBuffer , " \t %u \t \t %u%% \r \n " , ( unsigned int ) pxTaskStatusArray [ x ] . ulRunTimeCounter , ( unsigned int ) ulStatsAsPercentage ) ; /*lint !e586 sprintf() allowed as this is compiled with many compilers and this is a utility function only - not part of the core kernel implementation. */
}
2021-08-09 17:13:43 -04:00
# endif
}
else
{
/* If the percentage is zero here then the task has
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* consumed less than 1 % of the total run time . */
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# ifdef portLU_PRINTF_SPECIFIER_REQUIRED
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{
sprintf ( pcWriteBuffer , " \t %lu \t \t <1%% \r \n " , pxTaskStatusArray [ x ] . ulRunTimeCounter ) ;
}
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# else
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{
/* sizeof( int ) == sizeof( long ) so a smaller
* printf ( ) library can be used . */
sprintf ( pcWriteBuffer , " \t %u \t \t <1%% \r \n " , ( unsigned int ) pxTaskStatusArray [ x ] . ulRunTimeCounter ) ; /*lint !e586 sprintf() allowed as this is compiled with many compilers and this is a utility function only - not part of the core kernel implementation. */
}
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# endif
}
pcWriteBuffer + = strlen ( pcWriteBuffer ) ; /*lint !e9016 Pointer arithmetic ok on char pointers especially as in this case where it best denotes the intent of the code. */
}
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
/* Free the array again. NOTE! If configSUPPORT_DYNAMIC_ALLOCATION
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* is 0 then vPortFree ( ) will be # defined to nothing . */
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vPortFree ( pxTaskStatusArray ) ;
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
}
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# endif /* ( ( configGENERATE_RUN_TIME_STATS == 1 ) && ( configUSE_STATS_FORMATTING_FUNCTIONS > 0 ) && ( configSUPPORT_STATIC_ALLOCATION == 1 ) ) */
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/*-----------------------------------------------------------*/
TickType_t uxTaskResetEventItemValue ( void )
{
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TickType_t uxReturn ;
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taskENTER_CRITICAL ( ) ;
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uxReturn = listGET_LIST_ITEM_VALUE ( & ( pxCurrentTCB [ xPortGetCoreID ( ) ] - > xEventListItem ) ) ;
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/* Reset the event list item to its normal value - so it can be used with
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* queues and semaphores . */
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listSET_LIST_ITEM_VALUE ( & ( pxCurrentTCB [ xPortGetCoreID ( ) ] - > xEventListItem ) , ( ( TickType_t ) configMAX_PRIORITIES - ( TickType_t ) pxCurrentTCB [ xPortGetCoreID ( ) ] - > uxPriority ) ) ; /*lint !e961 MISRA exception as the casts are only redundant for some ports. */
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taskEXIT_CRITICAL ( ) ;
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return uxReturn ;
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}
/*-----------------------------------------------------------*/
# if ( configUSE_MUTEXES == 1 )
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TaskHandle_t pvTaskIncrementMutexHeldCount ( void )
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{
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TCB_t * curTCB ;
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/* If xSemaphoreCreateMutex() is called before any tasks have been created
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* then pxCurrentTCB will be NULL . */
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taskENTER_CRITICAL ( ) ;
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if ( pxCurrentTCB [ xPortGetCoreID ( ) ] ! = NULL )
{
( pxCurrentTCB [ xPortGetCoreID ( ) ] - > uxMutexesHeld ) + + ;
}
curTCB = pxCurrentTCB [ xPortGetCoreID ( ) ] ;
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taskEXIT_CRITICAL ( ) ;
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return curTCB ;
}
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# endif /* configUSE_MUTEXES */
/*-----------------------------------------------------------*/
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# if ( configUSE_TASK_NOTIFICATIONS == 1 )
# ifdef ESP_PLATFORM // IDF-3851
// included here for backward binary compatibility
# undef ulTaskNotifyTake
uint32_t ulTaskNotifyTake ( BaseType_t xClearCountOnExit ,
TickType_t xTicksToWait )
{
return ulTaskGenericNotifyTake ( tskDEFAULT_INDEX_TO_NOTIFY , xClearCountOnExit , xTicksToWait ) ;
}
# endif // ESP-PLATFORM
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uint32_t ulTaskGenericNotifyTake ( UBaseType_t uxIndexToWait ,
BaseType_t xClearCountOnExit ,
TickType_t xTicksToWait )
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{
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uint32_t ulReturn ;
configASSERT ( uxIndexToWait < configTASK_NOTIFICATION_ARRAY_ENTRIES ) ;
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taskENTER_CRITICAL ( ) ;
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{
/* Only block if the notification count is not already non-zero. */
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if ( pxCurrentTCB [ xPortGetCoreID ( ) ] - > ulNotifiedValue [ uxIndexToWait ] = = 0UL )
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{
/* Mark this task as waiting for a notification. */
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pxCurrentTCB [ xPortGetCoreID ( ) ] - > ucNotifyState [ uxIndexToWait ] = taskWAITING_NOTIFICATION ;
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if ( xTicksToWait > ( TickType_t ) 0 )
{
prvAddCurrentTaskToDelayedList ( xPortGetCoreID ( ) , xTicksToWait ) ;
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traceTASK_NOTIFY_TAKE_BLOCK ( uxIndexToWait ) ;
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/* All ports are written to allow a yield in a critical
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* section ( some will yield immediately , others wait until the
* critical section exits ) - but it is not something that
* application code should ever do . */
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portYIELD_WITHIN_API ( ) ;
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
}
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taskEXIT_CRITICAL ( ) ;
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taskENTER_CRITICAL ( ) ;
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{
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traceTASK_NOTIFY_TAKE ( uxIndexToWait ) ;
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ulReturn = pxCurrentTCB [ xPortGetCoreID ( ) ] - > ulNotifiedValue [ uxIndexToWait ] ;
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if ( ulReturn ! = 0UL )
{
if ( xClearCountOnExit ! = pdFALSE )
{
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pxCurrentTCB [ xPortGetCoreID ( ) ] - > ulNotifiedValue [ uxIndexToWait ] = 0UL ;
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}
else
{
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pxCurrentTCB [ xPortGetCoreID ( ) ] - > ulNotifiedValue [ uxIndexToWait ] = ulReturn - ( uint32_t ) 1 ;
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}
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
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pxCurrentTCB [ xPortGetCoreID ( ) ] - > ucNotifyState [ uxIndexToWait ] = taskNOT_WAITING_NOTIFICATION ;
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}
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taskEXIT_CRITICAL ( ) ;
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return ulReturn ;
}
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# endif /* configUSE_TASK_NOTIFICATIONS */
/*-----------------------------------------------------------*/
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# if ( configUSE_TASK_NOTIFICATIONS == 1 )
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# ifdef ESP_PLATFORM // IDF-3851
// included for backward compatibility
# undef xTaskNotifyWait
BaseType_t xTaskNotifyWait ( uint32_t ulBitsToClearOnEntry ,
uint32_t ulBitsToClearOnExit ,
uint32_t * pulNotificationValue ,
TickType_t xTicksToWait )
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{
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return xTaskGenericNotifyWait ( tskDEFAULT_INDEX_TO_NOTIFY , ulBitsToClearOnEntry , ulBitsToClearOnExit , pulNotificationValue , xTicksToWait ) ;
}
# endif // ESP-PLATFORM
BaseType_t xTaskGenericNotifyWait ( UBaseType_t uxIndexToWait ,
uint32_t ulBitsToClearOnEntry ,
uint32_t ulBitsToClearOnExit ,
uint32_t * pulNotificationValue ,
TickType_t xTicksToWait )
{
BaseType_t xReturn ;
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configASSERT ( uxIndexToWait < configTASK_NOTIFICATION_ARRAY_ENTRIES ) ;
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taskENTER_CRITICAL ( ) ;
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{
/* Only block if a notification is not already pending. */
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if ( pxCurrentTCB [ xPortGetCoreID ( ) ] - > ucNotifyState [ uxIndexToWait ] ! = taskNOTIFICATION_RECEIVED )
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{
/* Clear bits in the task's notification value as bits may get
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* set by the notifying task or interrupt . This can be used to
* clear the value to zero . */
pxCurrentTCB [ xPortGetCoreID ( ) ] - > ulNotifiedValue [ uxIndexToWait ] & = ~ ulBitsToClearOnEntry ;
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/* Mark this task as waiting for a notification. */
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pxCurrentTCB [ xPortGetCoreID ( ) ] - > ucNotifyState [ uxIndexToWait ] = taskWAITING_NOTIFICATION ;
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if ( xTicksToWait > ( TickType_t ) 0 )
{
prvAddCurrentTaskToDelayedList ( xPortGetCoreID ( ) , xTicksToWait ) ;
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traceTASK_NOTIFY_WAIT_BLOCK ( uxIndexToWait ) ;
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/* All ports are written to allow a yield in a critical
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* section ( some will yield immediately , others wait until the
* critical section exits ) - but it is not something that
* application code should ever do . */
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portYIELD_WITHIN_API ( ) ;
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
}
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taskEXIT_CRITICAL ( ) ;
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taskENTER_CRITICAL ( ) ;
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{
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traceTASK_NOTIFY_WAIT ( uxIndexToWait ) ;
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if ( pulNotificationValue ! = NULL )
{
/* Output the current notification value, which may or may not
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* have changed . */
* pulNotificationValue = pxCurrentTCB [ xPortGetCoreID ( ) ] - > ulNotifiedValue [ uxIndexToWait ] ;
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}
/* If ucNotifyValue is set then either the task never entered the
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* blocked state ( because a notification was already pending ) or the
* task unblocked because of a notification . Otherwise the task
* unblocked because of a timeout . */
if ( pxCurrentTCB [ xPortGetCoreID ( ) ] - > ucNotifyState [ uxIndexToWait ] ! = taskNOTIFICATION_RECEIVED )
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{
/* A notification was not received. */
xReturn = pdFALSE ;
}
else
{
/* A notification was already pending or a notification was
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* received while the task was waiting . */
pxCurrentTCB [ xPortGetCoreID ( ) ] - > ulNotifiedValue [ uxIndexToWait ] & = ~ ulBitsToClearOnExit ;
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xReturn = pdTRUE ;
}
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pxCurrentTCB [ xPortGetCoreID ( ) ] - > ucNotifyState [ uxIndexToWait ] = taskNOT_WAITING_NOTIFICATION ;
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}
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taskEXIT_CRITICAL ( ) ;
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return xReturn ;
}
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# endif /* configUSE_TASK_NOTIFICATIONS */
/*-----------------------------------------------------------*/
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# if ( configUSE_TASK_NOTIFICATIONS == 1 )
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BaseType_t xTaskGenericNotify ( TaskHandle_t xTaskToNotify ,
UBaseType_t uxIndexToNotify ,
uint32_t ulValue ,
eNotifyAction eAction ,
uint32_t * pulPreviousNotificationValue )
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{
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TCB_t * pxTCB ;
BaseType_t xReturn = pdPASS ;
uint8_t ucOriginalNotifyState ;
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configASSERT ( uxIndexToNotify < configTASK_NOTIFICATION_ARRAY_ENTRIES ) ;
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configASSERT ( xTaskToNotify ) ;
pxTCB = xTaskToNotify ;
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taskENTER_CRITICAL ( ) ;
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{
if ( pulPreviousNotificationValue ! = NULL )
{
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* pulPreviousNotificationValue = pxTCB - > ulNotifiedValue [ uxIndexToNotify ] ;
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}
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ucOriginalNotifyState = pxTCB - > ucNotifyState [ uxIndexToNotify ] ;
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pxTCB - > ucNotifyState [ uxIndexToNotify ] = taskNOTIFICATION_RECEIVED ;
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switch ( eAction )
{
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case eSetBits :
pxTCB - > ulNotifiedValue [ uxIndexToNotify ] | = ulValue ;
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break ;
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case eIncrement :
( pxTCB - > ulNotifiedValue [ uxIndexToNotify ] ) + + ;
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break ;
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case eSetValueWithOverwrite :
pxTCB - > ulNotifiedValue [ uxIndexToNotify ] = ulValue ;
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break ;
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case eSetValueWithoutOverwrite :
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if ( ucOriginalNotifyState ! = taskNOTIFICATION_RECEIVED )
{
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pxTCB - > ulNotifiedValue [ uxIndexToNotify ] = ulValue ;
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}
else
{
/* The value could not be written to the task. */
xReturn = pdFAIL ;
}
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break ;
case eNoAction :
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/* The task is being notified without its notify value being
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* updated . */
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break ;
default :
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/* Should not get here if all enums are handled.
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* Artificially force an assert by testing a value the
* compiler can ' t assume is const . */
configASSERT ( pxTCB - > ulNotifiedValue [ uxIndexToNotify ] = = ~ 0UL ) ;
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break ;
}
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traceTASK_NOTIFY ( uxIndexToNotify ) ;
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/* If the task is in the blocked state specifically to wait for a
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* notification then unblock it now . */
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if ( ucOriginalNotifyState = = taskWAITING_NOTIFICATION )
{
( void ) uxListRemove ( & ( pxTCB - > xStateListItem ) ) ;
prvAddTaskToReadyList ( pxTCB ) ;
/* The task should not have been on an event list. */
configASSERT ( listLIST_ITEM_CONTAINER ( & ( pxTCB - > xEventListItem ) ) = = NULL ) ;
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# if ( configUSE_TICKLESS_IDLE != 0 )
{
/* If a task is blocked waiting for a notification then
* xNextTaskUnblockTime might be set to the blocked task ' s time
* out time . If the task is unblocked for a reason other than
* a timeout xNextTaskUnblockTime is normally left unchanged ,
* because it will automatically get reset to a new value when
* the tick count equals xNextTaskUnblockTime . However if
* tickless idling is used it might be more important to enter
* sleep mode at the earliest possible time - so reset
* xNextTaskUnblockTime here to ensure it is updated at the
* earliest possible time . */
prvResetNextTaskUnblockTime ( ) ;
}
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# endif
if ( tskCAN_RUN_HERE ( pxTCB - > xCoreID ) & & pxTCB - > uxPriority > pxCurrentTCB [ xPortGetCoreID ( ) ] - > uxPriority )
{
/* The notified task has a priority above the currently
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* executing task so a yield is required . */
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portYIELD_WITHIN_API ( ) ;
}
else if ( pxTCB - > xCoreID ! = xPortGetCoreID ( ) )
{
taskYIELD_OTHER_CORE ( pxTCB - > xCoreID , pxTCB - > uxPriority ) ;
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
}
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taskEXIT_CRITICAL ( ) ;
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return xReturn ;
}
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# endif /* configUSE_TASK_NOTIFICATIONS */
/*-----------------------------------------------------------*/
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# if ( configUSE_TASK_NOTIFICATIONS == 1 )
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BaseType_t xTaskGenericNotifyFromISR ( TaskHandle_t xTaskToNotify ,
UBaseType_t uxIndexToNotify ,
uint32_t ulValue ,
eNotifyAction eAction ,
uint32_t * pulPreviousNotificationValue ,
BaseType_t * pxHigherPriorityTaskWoken )
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{
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TCB_t * pxTCB ;
uint8_t ucOriginalNotifyState ;
BaseType_t xReturn = pdPASS ;
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configASSERT ( xTaskToNotify ) ;
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configASSERT ( uxIndexToNotify < configTASK_NOTIFICATION_ARRAY_ENTRIES ) ;
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/* RTOS ports that support interrupt nesting have the concept of a
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* maximum system call ( or maximum API call ) interrupt priority .
* Interrupts that are above the maximum system call priority are keep
* permanently enabled , even when the RTOS kernel is in a critical section ,
* but cannot make any calls to FreeRTOS API functions . If configASSERT ( )
* is defined in FreeRTOSConfig . h then
* portASSERT_IF_INTERRUPT_PRIORITY_INVALID ( ) will result in an assertion
* failure if a FreeRTOS API function is called from an interrupt that has
* been assigned a priority above the configured maximum system call
* priority . Only FreeRTOS functions that end in FromISR can be called
* from interrupts that have been assigned a priority at or ( logically )
* below the maximum system call interrupt priority . FreeRTOS maintains a
* separate interrupt safe API to ensure interrupt entry is as fast and as
* simple as possible . More information ( albeit Cortex - M specific ) is
* provided on the following link :
* https : //www.FreeRTOS.org/RTOS-Cortex-M3-M4.html */
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portASSERT_IF_INTERRUPT_PRIORITY_INVALID ( ) ;
pxTCB = xTaskToNotify ;
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taskENTER_CRITICAL_ISR ( ) ;
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{
if ( pulPreviousNotificationValue ! = NULL )
{
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* pulPreviousNotificationValue = pxTCB - > ulNotifiedValue [ uxIndexToNotify ] ;
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}
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ucOriginalNotifyState = pxTCB - > ucNotifyState [ uxIndexToNotify ] ;
pxTCB - > ucNotifyState [ uxIndexToNotify ] = taskNOTIFICATION_RECEIVED ;
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switch ( eAction )
{
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case eSetBits :
pxTCB - > ulNotifiedValue [ uxIndexToNotify ] | = ulValue ;
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break ;
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case eIncrement :
( pxTCB - > ulNotifiedValue [ uxIndexToNotify ] ) + + ;
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break ;
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case eSetValueWithOverwrite :
pxTCB - > ulNotifiedValue [ uxIndexToNotify ] = ulValue ;
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break ;
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case eSetValueWithoutOverwrite :
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if ( ucOriginalNotifyState ! = taskNOTIFICATION_RECEIVED )
{
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pxTCB - > ulNotifiedValue [ uxIndexToNotify ] = ulValue ;
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}
else
{
/* The value could not be written to the task. */
xReturn = pdFAIL ;
}
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2021-08-09 17:13:43 -04:00
break ;
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case eNoAction :
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/* The task is being notified without its notify value being
2021-09-06 00:46:14 -04:00
* updated . */
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break ;
default :
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2021-08-09 17:13:43 -04:00
/* Should not get here if all enums are handled.
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* Artificially force an assert by testing a value the
* compiler can ' t assume is const . */
configASSERT ( pxTCB - > ulNotifiedValue [ uxIndexToNotify ] = = ~ 0UL ) ;
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break ;
}
2021-09-07 03:57:50 -04:00
traceTASK_NOTIFY_FROM_ISR ( uxIndexToNotify ) ;
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/* If the task is in the blocked state specifically to wait for a
2021-09-06 00:46:14 -04:00
* notification then unblock it now . */
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if ( ucOriginalNotifyState = = taskWAITING_NOTIFICATION )
{
/* The task should not have been on an event list. */
configASSERT ( listLIST_ITEM_CONTAINER ( & ( pxTCB - > xEventListItem ) ) = = NULL ) ;
if ( uxSchedulerSuspended [ xPortGetCoreID ( ) ] = = ( UBaseType_t ) pdFALSE )
{
( void ) uxListRemove ( & ( pxTCB - > xStateListItem ) ) ;
prvAddTaskToReadyList ( pxTCB ) ;
}
else
{
/* The delayed and ready lists cannot be accessed, so hold
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* this task pending until the scheduler is resumed . */
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vListInsertEnd ( & ( xPendingReadyList [ xPortGetCoreID ( ) ] ) , & ( pxTCB - > xEventListItem ) ) ;
}
if ( tskCAN_RUN_HERE ( pxTCB - > xCoreID ) & & pxTCB - > uxPriority > pxCurrentTCB [ xPortGetCoreID ( ) ] - > uxPriority )
{
/* The notified task has a priority above the currently
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* executing task so a yield is required . */
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if ( pxHigherPriorityTaskWoken ! = NULL )
{
* pxHigherPriorityTaskWoken = pdTRUE ;
}
}
else if ( pxTCB - > xCoreID ! = xPortGetCoreID ( ) )
{
taskYIELD_OTHER_CORE ( pxTCB - > xCoreID , pxTCB - > uxPriority ) ;
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
}
}
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taskEXIT_CRITICAL_ISR ( ) ;
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return xReturn ;
}
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# endif /* configUSE_TASK_NOTIFICATIONS */
/*-----------------------------------------------------------*/
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# if ( configUSE_TASK_NOTIFICATIONS == 1 )
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void vTaskGenericNotifyGiveFromISR ( TaskHandle_t xTaskToNotify ,
UBaseType_t uxIndexToNotify ,
BaseType_t * pxHigherPriorityTaskWoken )
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{
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TCB_t * pxTCB ;
uint8_t ucOriginalNotifyState ;
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configASSERT ( xTaskToNotify ) ;
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configASSERT ( uxIndexToNotify < configTASK_NOTIFICATION_ARRAY_ENTRIES ) ;
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/* RTOS ports that support interrupt nesting have the concept of a
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* maximum system call ( or maximum API call ) interrupt priority .
* Interrupts that are above the maximum system call priority are keep
* permanently enabled , even when the RTOS kernel is in a critical section ,
* but cannot make any calls to FreeRTOS API functions . If configASSERT ( )
* is defined in FreeRTOSConfig . h then
* portASSERT_IF_INTERRUPT_PRIORITY_INVALID ( ) will result in an assertion
* failure if a FreeRTOS API function is called from an interrupt that has
* been assigned a priority above the configured maximum system call
* priority . Only FreeRTOS functions that end in FromISR can be called
* from interrupts that have been assigned a priority at or ( logically )
* below the maximum system call interrupt priority . FreeRTOS maintains a
* separate interrupt safe API to ensure interrupt entry is as fast and as
* simple as possible . More information ( albeit Cortex - M specific ) is
* provided on the following link :
* https : //www.FreeRTOS.org/RTOS-Cortex-M3-M4.html */
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portASSERT_IF_INTERRUPT_PRIORITY_INVALID ( ) ;
pxTCB = xTaskToNotify ;
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taskENTER_CRITICAL_ISR ( ) ;
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{
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ucOriginalNotifyState = pxTCB - > ucNotifyState [ uxIndexToNotify ] ;
pxTCB - > ucNotifyState [ uxIndexToNotify ] = taskNOTIFICATION_RECEIVED ;
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/* 'Giving' is equivalent to incrementing a count in a counting
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* semaphore . */
( pxTCB - > ulNotifiedValue [ uxIndexToNotify ] ) + + ;
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traceTASK_NOTIFY_GIVE_FROM_ISR ( uxIndexToNotify ) ;
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/* If the task is in the blocked state specifically to wait for a
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* notification then unblock it now . */
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if ( ucOriginalNotifyState = = taskWAITING_NOTIFICATION )
{
/* The task should not have been on an event list. */
configASSERT ( listLIST_ITEM_CONTAINER ( & ( pxTCB - > xEventListItem ) ) = = NULL ) ;
if ( uxSchedulerSuspended [ xPortGetCoreID ( ) ] = = ( UBaseType_t ) pdFALSE )
{
( void ) uxListRemove ( & ( pxTCB - > xStateListItem ) ) ;
prvAddTaskToReadyList ( pxTCB ) ;
}
else
{
/* The delayed and ready lists cannot be accessed, so hold
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* this task pending until the scheduler is resumed . */
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vListInsertEnd ( & ( xPendingReadyList [ xPortGetCoreID ( ) ] ) , & ( pxTCB - > xEventListItem ) ) ;
}
if ( tskCAN_RUN_HERE ( pxTCB - > xCoreID ) & & pxTCB - > uxPriority > pxCurrentTCB [ xPortGetCoreID ( ) ] - > uxPriority )
{
/* The notified task has a priority above the currently
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* executing task so a yield is required . */
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if ( pxHigherPriorityTaskWoken ! = NULL )
{
* pxHigherPriorityTaskWoken = pdTRUE ;
}
}
else if ( pxTCB - > xCoreID ! = xPortGetCoreID ( ) )
{
taskYIELD_OTHER_CORE ( pxTCB - > xCoreID , pxTCB - > uxPriority ) ;
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
}
}
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taskEXIT_CRITICAL_ISR ( ) ;
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}
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# endif /* configUSE_TASK_NOTIFICATIONS */
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/*-----------------------------------------------------------*/
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# if ( configUSE_TASK_NOTIFICATIONS == 1 )
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BaseType_t xTaskGenericNotifyStateClear ( TaskHandle_t xTask ,
UBaseType_t uxIndexToClear )
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{
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TCB_t * pxTCB ;
BaseType_t xReturn ;
configASSERT ( uxIndexToClear < configTASK_NOTIFICATION_ARRAY_ENTRIES ) ;
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/* If null is passed in here then it is the calling task that is having
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* its notification state cleared . */
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pxTCB = prvGetTCBFromHandle ( xTask ) ;
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taskENTER_CRITICAL ( ) ;
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{
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if ( pxTCB - > ucNotifyState [ uxIndexToClear ] = = taskNOTIFICATION_RECEIVED )
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{
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pxTCB - > ucNotifyState [ uxIndexToClear ] = taskNOT_WAITING_NOTIFICATION ;
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xReturn = pdPASS ;
}
else
{
xReturn = pdFAIL ;
}
}
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taskEXIT_CRITICAL ( ) ;
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return xReturn ;
}
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# endif /* configUSE_TASK_NOTIFICATIONS */
/*-----------------------------------------------------------*/
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# if ( configUSE_TASK_NOTIFICATIONS == 1 )
uint32_t ulTaskGenericNotifyValueClear ( TaskHandle_t xTask ,
UBaseType_t uxIndexToClear ,
uint32_t ulBitsToClear )
{
TCB_t * pxTCB ;
uint32_t ulReturn ;
/* If null is passed in here then it is the calling task that is having
* its notification state cleared . */
pxTCB = prvGetTCBFromHandle ( xTask ) ;
taskENTER_CRITICAL ( ) ;
{
/* Return the notification as it was before the bits were cleared,
* then clear the bit mask . */
ulReturn = pxTCB - > ulNotifiedValue [ uxIndexToClear ] ;
pxTCB - > ulNotifiedValue [ uxIndexToClear ] & = ~ ulBitsToClear ;
}
taskEXIT_CRITICAL ( ) ;
return ulReturn ;
}
# endif /* configUSE_TASK_NOTIFICATIONS */
/*-----------------------------------------------------------*/
# if ( ( configGENERATE_RUN_TIME_STATS == 1 ) && ( INCLUDE_xTaskGetIdleTaskHandle == 1 ) )
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uint32_t ulTaskGetIdleRunTimeCounter ( void )
{
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taskENTER_CRITICAL ( ) ;
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tskTCB * pxTCB = ( tskTCB * ) xIdleTaskHandle [ xPortGetCoreID ( ) ] ;
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taskEXIT_CRITICAL ( ) ;
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return pxTCB - > ulRunTimeCounter ;
}
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# endif
/*-----------------------------------------------------------*/
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static void prvAddCurrentTaskToDelayedList ( const portBASE_TYPE xCoreID , const TickType_t xTicksToWait )
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{
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TickType_t xTimeToWake ;
const TickType_t xConstTickCount = xTickCount ;
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if ( configNUM_CORES > 1 & & listIS_CONTAINED_WITHIN ( & xTasksWaitingTermination , & ( pxCurrentTCB [ xCoreID ] - > xStateListItem ) ) ) {
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/* vTaskDelete() has been called to delete this task. This would have happened from the other core while this task was spinning on xTaskQueueMutex,
so don ' t move the running task to the delayed list - as soon as this core re - enables interrupts this task will
be suspended permanently */
return ;
}
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# if ( INCLUDE_xTaskAbortDelay == 1 )
{
/* About to enter a delayed list, so ensure the ucDelayAborted flag is
* reset to pdFALSE so it can be detected as having been set to pdTRUE
* when the task leaves the Blocked state . */
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pxCurrentTCB [ xCoreID ] - > ucDelayAborted = pdFALSE ;
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}
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# endif
/* Remove the task from the ready list before adding it to the blocked list
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* as the same list item is used for both lists . */
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if ( uxListRemove ( & ( pxCurrentTCB [ xCoreID ] - > xStateListItem ) ) = = ( UBaseType_t ) 0 )
{
/* The current task must be in a ready list, so there is no need to
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* check , and the port reset macro can be called directly . */
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portRESET_READY_PRIORITY ( pxCurrentTCB [ xCoreID ] - > uxPriority , uxTopReadyPriority ) ; /*lint !e931 pxCurrentTCB[xPortGetCoreID()] cannot change as it is the calling task. pxCurrentTCB->uxPriority and uxTopReadyPriority cannot change as called with scheduler suspended or in a critical section. */
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
# if ( INCLUDE_vTaskSuspend == 1 )
{
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if ( ( xTicksToWait = = portMAX_DELAY ) )
{
/* Add the task to the suspended task list instead of a delayed task
* list to ensure it is not woken by a timing event . It will block
* indefinitely . */
vListInsertEnd ( & xSuspendedTaskList , & ( pxCurrentTCB [ xCoreID ] - > xStateListItem ) ) ;
}
else
{
/* Calculate the time at which the task should be woken if the event
* does not occur . This may overflow but this doesn ' t matter , the
* kernel will manage it correctly . */
xTimeToWake = xConstTickCount + xTicksToWait ;
/* The list item will be inserted in wake time order. */
listSET_LIST_ITEM_VALUE ( & ( pxCurrentTCB [ xCoreID ] - > xStateListItem ) , xTimeToWake ) ;
if ( xTimeToWake < xConstTickCount )
{
/* Wake time has overflowed. Place this item in the overflow
* list . */
vListInsert ( pxOverflowDelayedTaskList , & ( pxCurrentTCB [ xCoreID ] - > xStateListItem ) ) ;
}
else
{
/* The wake time has not overflowed, so the current block list
* is used . */
vListInsert ( pxDelayedTaskList , & ( pxCurrentTCB [ xCoreID ] - > xStateListItem ) ) ;
/* If the task entering the blocked state was placed at the
* head of the list of blocked tasks then xNextTaskUnblockTime
* needs to be updated too . */
if ( xTimeToWake < xNextTaskUnblockTime )
{
xNextTaskUnblockTime = xTimeToWake ;
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
}
}
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}
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# else /* INCLUDE_vTaskSuspend */
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{
/* Calculate the time at which the task should be woken if the event
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* does not occur . This may overflow but this doesn ' t matter , the kernel
* will manage it correctly . */
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xTimeToWake = xConstTickCount + xTicksToWait ;
/* The list item will be inserted in wake time order. */
listSET_LIST_ITEM_VALUE ( & ( pxCurrentTCB [ xCoreID ] - > xStateListItem ) , xTimeToWake ) ;
if ( xTimeToWake < xConstTickCount )
{
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/* Wake time has overflowed. Place this item in the overflow list. */
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vListInsert ( pxOverflowDelayedTaskList , & ( pxCurrentTCB [ xCoreID ] - > xStateListItem ) ) ;
}
else
{
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/* The wake time has not overflowed, so the current block list is used. */
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vListInsert ( pxDelayedTaskList , & ( pxCurrentTCB [ xCoreID ] - > xStateListItem ) ) ;
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/* If the task entering the blocked state was placed at the head of the
* list of blocked tasks then xNextTaskUnblockTime needs to be updated
* too . */
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if ( xTimeToWake < xNextTaskUnblockTime )
{
xNextTaskUnblockTime = xTimeToWake ;
}
else
{
mtCOVERAGE_TEST_MARKER ( ) ;
}
}
}
# endif /* INCLUDE_vTaskSuspend */
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}
/* Code below here allows additional code to be inserted into this source file,
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* especially where access to file scope functions and data is needed ( for example
* when performing module tests ) . */
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# ifdef FREERTOS_MODULE_TEST
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# include "tasks_test_access_functions.h"
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# endif
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# if ( configINCLUDE_FREERTOS_TASK_C_ADDITIONS_H == 1 )
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# include "freertos_tasks_c_additions.h"
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# ifdef FREERTOS_TASKS_C_ADDITIONS_INIT
static void freertos_tasks_c_additions_init ( void )
{
FREERTOS_TASKS_C_ADDITIONS_INIT ( ) ;
}
# endif
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# endif /* if ( configINCLUDE_FREERTOS_TASK_C_ADDITIONS_H == 1 ) */
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/* If timers.c is not referenced anywhere, don't create the timer task to save RAM */
BaseType_t __attribute__ ( ( weak ) ) xTimerCreateTimerTask ( void )
{
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return pdPASS ;
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}