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FreeRTOS-Kernel/FreeRTOS-Plus/Source/FreeRTOS-Plus-Trace/Include/trcKernelPort.h
Soren Ptak 3a2f6646f0
Use CI-CD-Github-Actions for spelling and formatting, add in the bot formatting action, update the CI-CD workflow files. Fix incorrect spelling and formatting on files. (#1083) 
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/*
* Trace Recorder for Tracealyzer v4.6.0
* Copyright 2021 Percepio AB
* www.percepio.com
*
* SPDX-License-Identifier: Apache-2.0
*
* FreeRTOS specific definitions needed by the trace recorder
*/
#ifndef TRC_KERNEL_PORT_H
#define TRC_KERNEL_PORT_H
#include <trcDefines.h>
#include <FreeRTOS.h> /* Defines configUSE_TRACE_FACILITY */
#ifdef __cplusplus
extern "C" {
#endif
#define TRC_USE_TRACEALYZER_RECORDER configUSE_TRACE_FACILITY
/* FreeRTOS version codes */
#define FREERTOS_VERSION_NOT_SET 0
#define TRC_FREERTOS_VERSION_7_3_X 1 /* v7.3 is earliest supported.*/
#define TRC_FREERTOS_VERSION_7_4_X 2
#define TRC_FREERTOS_VERSION_7_5_X 3
#define TRC_FREERTOS_VERSION_7_6_X TRC_FREERTOS_VERSION_7_5_X
#define TRC_FREERTOS_VERSION_8_X_X 4
#define TRC_FREERTOS_VERSION_9_0_0 5
#define TRC_FREERTOS_VERSION_9_0_1 6
#define TRC_FREERTOS_VERSION_9_0_2 7
#define TRC_FREERTOS_VERSION_10_0_0 8
#define TRC_FREERTOS_VERSION_10_0_1 TRC_FREERTOS_VERSION_10_0_0
#define TRC_FREERTOS_VERSION_10_1_0 TRC_FREERTOS_VERSION_10_0_0
#define TRC_FREERTOS_VERSION_10_1_1 TRC_FREERTOS_VERSION_10_0_0
#define TRC_FREERTOS_VERSION_10_2_0 TRC_FREERTOS_VERSION_10_0_0
#define TRC_FREERTOS_VERSION_10_2_1 TRC_FREERTOS_VERSION_10_0_0
#define TRC_FREERTOS_VERSION_10_3_0 9
#define TRC_FREERTOS_VERSION_10_3_1 TRC_FREERTOS_VERSION_10_3_0
#define TRC_FREERTOS_VERSION_10_4_0 10
#define TRC_FREERTOS_VERSION_10_4_1 TRC_FREERTOS_VERSION_10_4_0
/* Legacy FreeRTOS version codes for backwards compatibility with old trace configurations */
#define TRC_FREERTOS_VERSION_7_3 TRC_FREERTOS_VERSION_7_3_X
#define TRC_FREERTOS_VERSION_7_4 TRC_FREERTOS_VERSION_7_4_X
#define TRC_FREERTOS_VERSION_7_5_OR_7_6 TRC_FREERTOS_VERSION_7_5_X
#define TRC_FREERTOS_VERSION_8_X TRC_FREERTOS_VERSION_8_X_X
#if ( TRC_CFG_FREERTOS_VERSION >= TRC_FREERTOS_VERSION_10_0_0 )
#define prvGetStreamBufferType( x ) ( ( ( StreamBuffer_t * ) ( x ) )->ucFlags & sbFLAGS_IS_MESSAGE_BUFFER )
#else
#define prvGetStreamBufferType( x ) 0
#endif
/* Added mainly for our internal testing. This makes it easier to create test applications that
* runs on multiple FreeRTOS versions. */
#if ( TRC_CFG_FREERTOS_VERSION < TRC_FREERTOS_VERSION_8_X_X )
/* FreeRTOS v7.x */
#define STRING_CAST( x ) ( ( signed char * ) x )
#define TickType portTickType
#define TaskType xTaskHandle
#else
/* FreeRTOS v8.0 and later */
#define STRING_CAST( x ) x
#define TraceKernelPortTickType_t TickType_t
#define TraceKernelPortTaskHandle_t TaskHandle_t
#endif
#if ( defined( TRC_USE_TRACEALYZER_RECORDER ) ) && ( TRC_USE_TRACEALYZER_RECORDER == 1 )
#define TRC_PLATFORM_CFG "FreeRTOS"
#define TRC_PLATFORM_CFG_MAJOR 1
#define TRC_PLATFORM_CFG_MINOR 0
#define TRC_PLATFORM_CFG_PATCH 0
#if defined( TRC_CFG_ENABLE_STACK_MONITOR ) && ( TRC_CFG_ENABLE_STACK_MONITOR == 1 ) && ( TRC_CFG_SCHEDULING_ONLY == 0 )
/* Required for stack monitoring */
#undef INCLUDE_uxTaskGetStackHighWaterMark
#define INCLUDE_uxTaskGetStackHighWaterMark 1
#endif
/* INCLUDE_xTaskGetCurrentTaskHandle must be set to 1 for tracing to work properly */
#undef INCLUDE_xTaskGetCurrentTaskHandle
#define INCLUDE_xTaskGetCurrentTaskHandle 1
#if ( TRC_CFG_RECORDER_MODE == TRC_RECORDER_MODE_STREAMING )
#include <trcHeap.h>
#define TRC_KERNEL_PORT_BUFFER_SIZE ( sizeof( TraceHeapHandle_t ) + sizeof( void * ) )
#elif ( TRC_CFG_RECORDER_MODE == TRC_RECORDER_MODE_SNAPSHOT )
#define TRC_KERNEL_PORT_BUFFER_SIZE ( sizeof( TraceUnsignedBaseType_t ) )
#endif
/**
* @internal The kernel port data buffer
*/
typedef struct TraceKernelPortDataBuffer
{
uint8_t buffer[ TRC_KERNEL_PORT_BUFFER_SIZE ];
} TraceKernelPortDataBuffer_t;
/**
* @internal Initializes the kernel port
*
* @param[in] pxBuffer Kernel port data buffer
*
* @retval TRC_FAIL Failure
* @retval TRC_SUCCESS Success
*/
traceResult xTraceKernelPortInitialize( TraceKernelPortDataBuffer_t * pxBuffer );
/**
* @internal Enables the kernel port
*
* @retval TRC_FAIL Failure
* @retval TRC_SUCCESS Success
*/
traceResult xTraceKernelPortEnable( void );
/**
* @internal Calls on FreeRTOS vTaskDelay(...)
*
* @param[in] uiTicks Tick count to delay
*
* @retval TRC_FAIL Failure
* @retval TRC_SUCCESS Success
*/
traceResult xTraceKernelPortDelay( uint32_t uiTicks );
/**
* @internal Query if FreeRTOS scheduler is suspended
*
* @retval 1 Scheduler suspended
* @retval 0 Scheduler not suspended
*/
unsigned char xTraceKernelPortIsSchedulerSuspended( void );
/**
* @brief Kernel specific way to properly allocate critical sections
*/
#define TRC_KERNEL_PORT_ALLOC_CRITICAL_SECTION()
/**
* @brief Kernel specific way to properly allocate critical sections
*/
#define TRC_KERNEL_PORT_ENTER_CRITICAL_SECTION() portENTER_CRITICAL()
/**
* @brief Kernel specific way to properly allocate critical sections
*/
#define TRC_KERNEL_PORT_EXIT_CRITICAL_SECTION() portEXIT_CRITICAL()
/**
* @brief Kernel specific way to set interrupt mask
*/
#define TRC_KERNEL_PORT_SET_INTERRUPT_MASK() ( ( TraceBaseType_t ) portSET_INTERRUPT_MASK_FROM_ISR() )
#if ( TRC_CFG_FREERTOS_VERSION >= TRC_FREERTOS_VERSION_8_X_X )
/**
* @brief Kernel specific way to clear interrupt mask
*/
#define TRC_KERNEL_PORT_CLEAR_INTERRUPT_MASK( xMask ) portCLEAR_INTERRUPT_MASK_FROM_ISR( ( UBaseType_t ) ( xMask ) )
#else
/**
* @brief Kernel specific way to clear interrupt mask
*/
#define TRC_KERNEL_PORT_CLEAR_INTERRUPT_MASK( xMask ) portCLEAR_INTERRUPT_MASK_FROM_ISR( ( unsigned portBASE_TYPE ) xMask )
#endif
#if ( TRC_CFG_SCHEDULING_ONLY == 0 )
/**
* @brief Set the queue name
*
* @param[in] pvQueue Queue pointer
* @param[in] szName Queue name
*/
void vTraceSetQueueName( void * pvQueue,
const char * szName );
/**
* @brief Set the semaphore name
*
* @param[in] pvSemaphore Semaphore pointer
* @param[in] szName Semaphore name
*/
void vTraceSetSemaphoreName( void * pvSemaphore,
const char * szName );
/**
* @brief Set the mutex name
*
* @param[in] pvMutex Mutex pointer
* @param[in] szName Mutex name
*/
void vTraceSetMutexName( void * pvMutex,
const char * szName );
#if ( TRC_CFG_INCLUDE_EVENT_GROUP_EVENTS == 1 )
/**
* @brief Set the event group name
*
* @param[in] pvEventGroup Event group pointer
* @param[in] szName Event group name
*/
void vTraceSetEventGroupName( void * pvEventGroup,
const char * szName );
#else
/**
* @brief Disabled by TRC_CFG_INCLUDE_EVENT_GROUP_EVENTS
*/
#define vTraceSetEventGroupName( __pvEventGroup, __szName ) ( ( void ) ( __pvEventGroup ), ( void ) ( __szName ) )
#endif
#if ( TRC_CFG_INCLUDE_STREAM_BUFFER_EVENTS == 1 )
/**
* @brief Set the stream buffer name
*
* @param[in] pvStreamBuffer Stream buffer pointer
* @param[in] szName Stream buffer name
*/
void vTraceSetStreamBufferName( void * pvStreamBuffer,
const char * szName );
/**
* @brief Set the message buffer name
*
* @param[in] pvMessageBuffer Message buffer pointer
* @param[in] szName Message buffer name
*/
void vTraceSetMessageBufferName( void * pvMessageBuffer,
const char * szName );
#else
/**
* @brief Disabled by TRC_CFG_INCLUDE_STREAM_BUFFER_EVENTS
*/
#define vTraceSetStreamBufferName( __pvStreamBuffer, __szName ) ( ( void ) ( __pvStreamBuffer ), ( void ) ( __szName ) )
/**
* @brief Disabled by TRC_CFG_INCLUDE_STREAM_BUFFER_EVENTS
*/
#define vTraceSetMessageBufferName( __pvMessageBuffer, __szName ) ( ( void ) ( __pvMessageBuffer ), ( void ) ( __szName ) )
#endif /* if ( TRC_CFG_INCLUDE_STREAM_BUFFER_EVENTS == 1 ) */
#if defined( TRC_CFG_ENABLE_STACK_MONITOR ) && ( TRC_CFG_ENABLE_STACK_MONITOR == 1 )
/**
* @internal Retrieves the unused stack for a task
*
* @param[in] pvTask Task pointer
* @param[out] puxUnusedStack The unused stack
*
* @retval TRC_FAIL Failure
* @retval TRC_SUCCESS Success
*/
traceResult xTraceKernelPortGetUnusedStack( void * pvTask,
TraceUnsignedBaseType_t * puxUnusedStack );
#endif
#else /* if ( TRC_CFG_SCHEDULING_ONLY == 0 ) */
/**
* @brief Disabled by TRC_CFG_SCHEDULING_ONLY
*/
#define vTraceSetQueueName( __pvQueue, __szName ) ( ( void ) ( __pvQueue ), ( void ) ( __szName ) )
/**
* @brief Disabled by TRC_CFG_SCHEDULING_ONLY
*/
#define vTraceSetSemaphoreName( __pvSemaphore, __szName ) ( ( void ) ( __pvSemaphore ), ( void ) ( __szName ) )
/**
* @brief Disabled by TRC_CFG_SCHEDULING_ONLY
*/
#define vTraceSetMutexName( __pvMutex, __szName ) ( ( void ) ( __pvMutex ), ( void ) ( __szName ) )
/**
* @brief Disabled by TRC_CFG_SCHEDULING_ONLY
*/
#define vTraceSetEventGroupName( __pvEventGroup, __szName ) ( ( void ) ( __pvEventGroup ), ( void ) ( __szName ) )
/**
* @brief Disabled by TRC_CFG_SCHEDULING_ONLY
*/
#define vTraceSetStreamBufferName( __pvStreamBuffer, __szName ) ( ( void ) ( __pvStreamBuffer ), ( void ) ( __szName ) )
/**
* @brief Disabled by TRC_CFG_SCHEDULING_ONLY
*/
#define vTraceSetMessageBufferName( __pvMessageBuffer, __szName ) ( ( void ) ( __pvMessageBuffer ), ( void ) ( __szName ) )
/**
* @brief Disabled by TRC_CFG_SCHEDULING_ONLY
*/
#define xTraceKernelPortGetUnusedStack( pvTask, puxUnusedStack ) ( ( void ) ( pvTask ), ( void ) ( puxUnusedStack ) )
#endif /* if ( TRC_CFG_SCHEDULING_ONLY == 0 ) */
#if ( ( ( TRC_CFG_RECORDER_MODE == TRC_RECORDER_MODE_SNAPSHOT ) && ( TRC_CFG_INCLUDE_ISR_TRACING == 1 ) ) || ( TRC_CFG_RECORDER_MODE == TRC_RECORDER_MODE_STREAMING ) )
/* Required for ISR tracing and Streaming */
#undef INCLUDE_xTaskGetSchedulerState
#define INCLUDE_xTaskGetSchedulerState 1
#endif
/**
* @internal Legacy ID used by Tracealyzer to identify FreeRTOS traces
*/
#define TRACE_KERNEL_VERSION 0x1AA1
/**
* @internal Kernel specific tick rate frequency definition
*/
#define TRC_TICK_RATE_HZ configTICK_RATE_HZ /* Defined in "FreeRTOS.h" */
/**
* @internal Kernel specific CPU clock frequency definition
*/
#define TRACE_CPU_CLOCK_HZ configCPU_CLOCK_HZ /* Defined in "FreeRTOSConfig.h" */
/**
* @internal Kernel specific malloc definition
*/
#define TRACE_MALLOC( size ) pvPortMalloc( size )
#if ( defined( configUSE_TIMERS ) && ( configUSE_TIMERS == 1 ) )
#undef INCLUDE_xTimerGetTimerDaemonTaskHandle
#define INCLUDE_xTimerGetTimerDaemonTaskHandle 1
#endif
#if ( TRC_CFG_HARDWARE_PORT == TRC_HARDWARE_PORT_XMOS_XCOREAI )
#undef TRC_CFG_CORE_COUNT
#define TRC_CFG_CORE_COUNT configNUM_CORES
#undef TRC_CFG_GET_CURRENT_CORE
#define TRC_CFG_GET_CURRENT_CORE() rtos_core_id_get()
#endif
#if ( TRC_CFG_FREERTOS_VERSION == TRC_FREERTOS_VERSION_9_0_1 )
/**
* @brief Fix for FreeRTOS v9.0.1 to correctly identify xQueuePeek events.
*
* In FreeRTOS v9.0.1, the below trace hooks are incorrectly used from three
* different functions. This as the earlier function xQueueGenericReceive
* has been replaced by xQueuePeek, xQueueSemaphoreTake and xQueueReceive.
*
* xQueueGenericReceive had a parameter "xJustPeeking", used by the trace hooks
* to tell between xQueuePeek events and others. This is no longer present, so
* we need another way to correctly identify peek events. Since all three
* functions call the same trace macros, the context of these macro is unknown.
*
* We therefore check the __LINE__ macro inside of the trace macros. This gives
* the line number of queue.c, where the macros are used. This can be used to
* tell if the context is xQueuePeek or another function.
* __LINE__ is a standard compiler feature since ancient times, so it should
* work on all common compilers.
*
* This might seem as a quite brittle and unusual solution, but works in this
* particular case and is only for FreeRTOS v9.0.1.
* Future versions of FreeRTOS should not need this fix, as we have submitted
* a correction of queue.c with individual trace macros for each function.
*/
#define isQueueReceiveHookActuallyPeek ( __LINE__ > 1674 ) /* Half way between the closes trace points */
#elif ( TRC_CFG_FREERTOS_VERSION <= TRC_FREERTOS_VERSION_9_0_0 )
/**
* @brief Is receive actually a peek
*/
#define isQueueReceiveHookActuallyPeek xJustPeeking
#elif ( TRC_CFG_FREERTOS_VERSION > TRC_FREERTOS_VERSION_9_0_1 )
/**
* @brief Is never a peek for this FreeRTOS version
*/
#define isQueueReceiveHookActuallyPeek ( __LINE__ < 0 ) /* instead of pdFALSE to fix a warning of "constant condition" */
#endif /* if ( TRC_CFG_FREERTOS_VERSION == TRC_FREERTOS_VERSION_9_0_1 ) */
/* Helpers needed to correctly expand names */
#define TZ__CAT2( a, b ) a ## b
#define TZ__CAT( a, b ) TZ__CAT2( a, b )
/*
* The following xQueueGiveFromISR macro hacks make sure xQueueGiveFromISR also has a xCopyPosition parameter
*/
/* Expands name if this header is included... uxQueueType must be a macro that only exists in queue.c or whatever, and it must expand to nothing or to something that's valid in identifiers */
#define xQueueGiveFromISR( a, b ) TZ__CAT( xQueueGiveFromISR__, uxQueueType ) ( a, b )
/* If in queue.c, the "uxQueueType" macro expands to "pcHead". queueSEND_TO_BACK is the value we need to send in */
#define xQueueGiveFromISR__pcHead( __a, __b ) \
MyWrapper_xQueueGiveFromISR( __a, __b, const BaseType_t xCopyPosition ); \
BaseType_t xQueueGiveFromISR( __a, __b ) { return MyWrapper_xQueueGiveFromISR( xQueue, pxHigherPriorityTaskWoken, queueSEND_TO_BACK ); } \
BaseType_t MyWrapper_xQueueGiveFromISR( __a, __b, const BaseType_t xCopyPosition )
/* If not in queue.c, "uxQueueType" isn't expanded */
#define xQueueGiveFromISR__uxQueueType( __a, __b ) xQueueGiveFromISR( __a, __b )
#if ( TRC_CFG_RECORDER_MODE == TRC_RECORDER_MODE_SNAPSHOT )
/**
* @internal Kernel specific way to get current task handle
*/
#define TRACE_GET_CURRENT_TASK() prvTraceGetCurrentTaskHandle()
extern uint16_t CurrentFilterMask;
extern uint16_t CurrentFilterGroup;
/**
* @internal Get specific queue type
*
* @param[in] pvQueue Queue handle
*
* @returns uint8_t Queue type
*/
uint8_t prvTraceGetQueueType( void * pvQueue );
/**
* @internal Retrieve lower 16-bit of task number
*
* @param[in] pvTask Task handle
*
* @returns uint16_t Lower 16-bit of task number
*/
uint16_t prvTraceGetTaskNumberLow16( void * pvTask );
/**
* @internal Retrieve upper 16-bit of task number
*
* @param[in] pvTask Task handle
*
* @returns uint16_t Upper 16-bit of task number
*/
uint16_t prvTraceGetTaskNumberHigh16( void * pvTask );
/**
* @internal Set lower 16-bit of task number
*
* @param[in] pvTask Task handle
* @param[in] uiValue Value
*/
void prvTraceSetTaskNumberLow16( void * pvTask,
uint16_t uiValue );
/**
* @internal Set upper 16-bit of task number
*
* @param[in] pvTask Task handle
* @param[in] uiValue Value
*/
void prvTraceSetTaskNumberHigh16( void * pvTask,
uint16_t uiValue );
/**
* @internal Retrieve lower 16-bit of queue number
*
* @param[in] pvQueue Queue handle
*
* @returns uint16_t Lower 16-bit of queue number
*/
uint16_t prvTraceGetQueueNumberLow16( void * pvQueue );
/**
* @internal Retrieve upper 16-bit of queue number
*
* @param[in] pvQueue Queue handle
*
* @returns uint16_t Upper 16-bit of queue number
*/
uint16_t prvTraceGetQueueNumberHigh16( void * pvQueue );
/**
* @internal Set lower 16-bit of queue number
*
* @param[in] pvQueue Queue handle
* @param[in] uiValue Value
*/
void prvTraceSetQueueNumberLow16( void * pvQueue,
uint16_t uiValue );
/**
* @internal Set upper 16-bit of queue number
*
* @param[in] pvQueue Queue handle
* @param[in] uiValue Value
*/
void prvTraceSetQueueNumberHigh16( void * pvQueue,
uint16_t uiValue );
#if ( TRC_CFG_INCLUDE_TIMER_EVENTS == 1 && TRC_CFG_FREERTOS_VERSION >= TRC_FREERTOS_VERSION_10_0_0 )
/**
* @internal Retrieve lower 16-bit of timer number
*
* @param[in] pvTimer Timer handle
*
* @returns uint16_t Lower 16-bit of timer number
*/
uint16_t prvTraceGetTimerNumberLow16( void * pvTimer );
/**
* @internal Retrieve upper 16-bit of timer number
*
* @param[in] pvTimer Timer handle
*
* @returns uint16_t Upper 16-bit of timer number
*/
uint16_t prvTraceGetTimerNumberHigh16( void * pvTimer );
/**
* @internal Set lower 16-bit of timer number
*
* @param[in] pvTimer Timer handle
* @param[in] uiValue Value
*/
void prvTraceSetTimerNumberLow16( void * pvTimer,
uint16_t uiValue );
/**
* @internal Set upper 16-bit of timer number
*
* @param[in] pvTimer Timer handle
* @param[in] uiValue Value
*/
void prvTraceSetTimerNumberHigh16( void * pvTimer,
uint16_t uiValue );
#endif /* if ( TRC_CFG_INCLUDE_TIMER_EVENTS == 1 && TRC_CFG_FREERTOS_VERSION >= TRC_FREERTOS_VERSION_10_0_0 ) */
#if ( TRC_CFG_INCLUDE_EVENT_GROUP_EVENTS == 1 && TRC_CFG_FREERTOS_VERSION >= TRC_FREERTOS_VERSION_10_0_0 )
/**
* @internal Retrieve lower 16-bit of event group number
*
* @param[in] pvEventGroup Event group handle
*
* @returns uint16_t Lower 16-bit of event group number
*/
uint16_t prvTraceGetEventGroupNumberLow16( void * pvEventGroup );
/**
* @internal Retrieve upper 16-bit of event group number
*
* @param[in] pvEventGroup Event group handle
*
* @returns uint16_t Upper 16-bit of event group number
*/
uint16_t prvTraceGetEventGroupNumberHigh16( void * pvEventGroup );
/**
* @internal Set lower 16-bit of event group number
*
* @param[in] pvEventGroup Event group handle
* @param[in] uiValue Value
*/
void prvTraceSetEventGroupNumberLow16( void * pvEventGroup,
uint16_t uiValue );
/**
* @internal Set upper 16-bit of event group number
*
* @param[in] pvEventGroup Event group handle
* @param[in] uiValue Value
*/
void prvTraceSetEventGroupNumberHigh16( void * handle,
uint16_t value );
#endif /* if ( TRC_CFG_INCLUDE_EVENT_GROUP_EVENTS == 1 && TRC_CFG_FREERTOS_VERSION >= TRC_FREERTOS_VERSION_10_0_0 ) */
#if ( TRC_CFG_INCLUDE_STREAM_BUFFER_EVENTS == 1 && TRC_CFG_FREERTOS_VERSION >= TRC_FREERTOS_VERSION_10_0_0 )
/**
* @internal Retrieve lower 16-bit of stream buffer number
*
* @param[in] pvStreamBuffer Stream buffer handle
*
* @returns uint16_t Lower 16-bit of stream buffer number
*/
uint16_t prvTraceGetStreamBufferNumberLow16( void * pvStreamBuffer );
/**
* @internal Retrieve upper 16-bit of stream buffer number
*
* @param[in] pvStreamBuffer Stream buffer handle
*
* @returns uint16_t Upper 16-bit of stream buffer number
*/
uint16_t prvTraceGetStreamBufferNumberHigh16( void * pvStreamBuffer );
/**
* @internal Set lower 16-bit of stream buffer number
*
* @param[in] pvStreamBuffer Stream buffer handle
* @param[in] uiValue Value
*/
void prvTraceSetStreamBufferNumberLow16( void * pvStreamBuffer,
uint16_t uiValue );
/**
* @internal Set upper 16-bit of stream buffer number
*
* @param[in] pvStreamBuffer Stream buffer handle
* @param[in] uiValue Value
*/
void prvTraceSetStreamBufferNumberHigh16( void * pvStreamBuffer,
uint16_t uiValue );
#endif /* if ( TRC_CFG_INCLUDE_STREAM_BUFFER_EVENTS == 1 && TRC_CFG_FREERTOS_VERSION >= TRC_FREERTOS_VERSION_10_0_0 ) */
/**
* @brief Retrieve filter of task
*
* @param[in] pxTask Task handle
*
* @returns uint16_t Task filter
*/
#define TRACE_GET_TASK_FILTER( pxTask ) prvTraceGetTaskNumberHigh16( ( void * ) pxTask )
/**
* @brief Set filter of task
*
* @param[in] pxTask Task handle
* @param[in] group Group
*/
#define TRACE_SET_TASK_FILTER( pxTask, group ) prvTraceSetTaskNumberHigh16( ( void * ) pxTask, group )
/**
* @brief Retrieve filter of queue
*
* @param[in] pxQueue Queue handle
*
* @returns uint16_t Queue filter
*/
#define TRACE_GET_QUEUE_FILTER( pxQueue ) prvTraceGetQueueNumberHigh16( ( void * ) pxQueue )
/**
* @brief Set filter of queue
*
* @param[in] pxQueue Queue handle
* @param[in] group Group
*/
#define TRACE_SET_QUEUE_FILTER( pxQueue, group ) prvTraceSetQueueNumberHigh16( ( void * ) pxQueue, group )
#if ( TRC_CFG_FREERTOS_VERSION >= TRC_FREERTOS_VERSION_10_0_0 )
/**
* @brief Retrieve filter of event group
*
* @param[in] pxEventGroup Queue handle
*
* @returns uint16_t Queue filter
*/
#define TRACE_GET_EVENTGROUP_FILTER( pxEventGroup ) prvTraceGetEventGroupNumberHigh16( ( void * ) pxEventGroup )
/**
* @brief Set filter of event group
*
* @param[in] pxEventGroup Queue handle
* @param[in] group Group
*/
#define TRACE_SET_EVENTGROUP_FILTER( pxEventGroup, group ) prvTraceSetEventGroupNumberHigh16( ( void * ) pxEventGroup, group )
#else
/**
* @brief Disabled by TRC_CFG_FREERTOS_VERSION
*/
#define TRACE_GET_EVENTGROUP_FILTER( pxEventGroup ) ( ( void ) ( pxEventGroup ), 1 )
/**
* @brief Disabled by TRC_CFG_FREERTOS_VERSION
*/
#define TRACE_SET_EVENTGROUP_FILTER( pxEventGroup, group ) ( ( void ) ( pxEventGroup ), ( void ) ( group ) )
#endif /* if ( TRC_CFG_FREERTOS_VERSION >= TRC_FREERTOS_VERSION_10_0_0 ) */
#if ( TRC_CFG_FREERTOS_VERSION >= TRC_FREERTOS_VERSION_10_0_0 )
/**
* @brief Retrieve filter of timer
*
* @param[in] pxEventGroup Timer handle
*
* @returns uint16_t Timer filter
*/
#define TRACE_GET_TIMER_FILTER( pxTimer ) prvTraceGetTimerNumberHigh16( ( void * ) pxTimer )
/**
* @brief Set filter of timer
*
* @param[in] pxTimer Timer handle
* @param[in] group Group
*/
#define TRACE_SET_TIMER_FILTER( pxTimer, group ) prvTraceSetTimerNumberHigh16( ( void * ) pxTimer, group )
#else
/**
* @brief Disabled by TRC_CFG_FREERTOS_VERSION
*/
#define TRACE_GET_TIMER_FILTER( pxTimer ) ( ( void ) ( pxTimer ), 1 )
/**
* @brief Disabled by TRC_CFG_FREERTOS_VERSION
*/
#define TRACE_SET_TIMER_FILTER( pxTimer, group ) ( ( void ) ( pxTimer ), ( void ) ( group ) )
#endif /* if ( TRC_CFG_FREERTOS_VERSION >= TRC_FREERTOS_VERSION_10_0_0 ) */
/**
* @brief Retrieve filter of stream buffer
*
* @param[in] pxStreamBuffer Stream buffer handle
*
* @returns uint16_t Timer filter
*/
#define TRACE_GET_STREAMBUFFER_FILTER( pxStreamBuffer ) prvTraceGetStreamBufferNumberHigh16( ( void * ) pxStreamBuffer )
/**
* @brief Set filter of stream buffer
*
* @param[in] pxStreamBuffer Stream buffer handle
* @param[in] group Group
*/
#define TRACE_SET_STREAMBUFFER_FILTER( pxStreamBuffer, group ) prvTraceSetStreamBufferNumberHigh16( ( void * ) pxStreamBuffer, group )
#if ( TRC_CFG_FREERTOS_VERSION >= TRC_FREERTOS_VERSION_8_X_X )
/**
* @internal Get object filter
*/
#define TRACE_GET_OBJECT_FILTER( CLASS, pxObject ) TRACE_GET_ ## CLASS ## _FILTER( pxObject )
/**
* @internal Set object filter
*/
#define TRACE_SET_OBJECT_FILTER( CLASS, pxObject, group ) TRACE_SET_ ## CLASS ## _FILTER( pxObject, group )
#else
/**
* @internal Disabled by TRC_CFG_FREERTOS_VERSION
*/
#define TRACE_GET_OBJECT_FILTER( CLASS, pxObject ) 0xFFFF
/**
* @internal Disabled by TRC_CFG_FREERTOS_VERSION
*/
#define TRACE_SET_OBJECT_FILTER( CLASS, pxObject, group )
#endif /* if ( TRC_CFG_FREERTOS_VERSION >= TRC_FREERTOS_VERSION_8_X_X ) */
/* The object classes */
#define TRACE_NCLASSES 9
#define TRACE_CLASS_QUEUE ( ( traceObjectClass ) 0 )
#define TRACE_CLASS_SEMAPHORE ( ( traceObjectClass ) 1 )
#define TRACE_CLASS_MUTEX ( ( traceObjectClass ) 2 )
#define TRACE_CLASS_TASK ( ( traceObjectClass ) 3 )
#define TRACE_CLASS_ISR ( ( traceObjectClass ) 4 )
#define TRACE_CLASS_TIMER ( ( traceObjectClass ) 5 )
#define TRACE_CLASS_EVENTGROUP ( ( traceObjectClass ) 6 )
#define TRACE_CLASS_STREAMBUFFER ( ( traceObjectClass ) 7 )
#define TRACE_CLASS_MESSAGEBUFFER ( ( traceObjectClass ) 8 )
/* Definitions for Object Table */
#define TRACE_KERNEL_OBJECT_COUNT ( ( TRC_CFG_NQUEUE ) + ( TRC_CFG_NSEMAPHORE ) + ( TRC_CFG_NMUTEX ) + ( TRC_CFG_NTASK ) + ( TRC_CFG_NISR ) + ( TRC_CFG_NTIMER ) + ( TRC_CFG_NEVENTGROUP ) + ( TRC_CFG_NSTREAMBUFFER ) + ( TRC_CFG_NMESSAGEBUFFER ) )
/* Queue properties (except name): current number of message in queue */
#define PropertyTableSizeQueue ( ( TRC_CFG_NAME_LEN_QUEUE ) +1 )
/* Semaphore properties (except name): state (signaled = 1, cleared = 0) */
#define PropertyTableSizeSemaphore ( ( TRC_CFG_NAME_LEN_SEMAPHORE ) +1 )
/* Mutex properties (except name): owner (task handle, 0 = free) */
#define PropertyTableSizeMutex ( ( TRC_CFG_NAME_LEN_MUTEX ) +1 )
/* Task properties (except name): Byte 0: Current priority
* Byte 1: state (if already active)
* Byte 2: legacy, not used
* Byte 3: legacy, not used */
#define PropertyTableSizeTask ( ( TRC_CFG_NAME_LEN_TASK ) +4 )
/* ISR properties: Byte 0: priority
* Byte 1: state (if already active) */
#define PropertyTableSizeISR ( ( TRC_CFG_NAME_LEN_ISR ) +2 )
/* TRC_CFG_NTIMER properties: Byte 0: state (unused for now) */
#define PropertyTableSizeTimer ( ( TRC_CFG_NAME_LEN_TIMER ) +1 )
/* TRC_CFG_NEVENTGROUP properties: Byte 0-3: state (unused for now)*/
#define PropertyTableSizeEventGroup ( ( TRC_CFG_NAME_LEN_EVENTGROUP ) +4 )
/* TRC_CFG_NSTREAMBUFFER properties: Byte 0-3: state (unused for now)*/
#define PropertyTableSizeStreamBuffer ( ( TRC_CFG_NAME_LEN_STREAMBUFFER ) +4 )
/* TRC_CFG_NMESSAGEBUFFER properties: Byte 0-3: state (unused for now)*/
#define PropertyTableSizeMessageBuffer ( ( TRC_CFG_NAME_LEN_MESSAGEBUFFER ) +4 )
/* The layout of the byte array representing the Object Property Table */
#define StartIndexQueue ( 0 )
#define StartIndexSemaphore ( StartIndexQueue + ( TRC_CFG_NQUEUE ) *PropertyTableSizeQueue )
#define StartIndexMutex ( StartIndexSemaphore + ( TRC_CFG_NSEMAPHORE ) *PropertyTableSizeSemaphore )
#define StartIndexTask ( StartIndexMutex + ( TRC_CFG_NMUTEX ) *PropertyTableSizeMutex )
#define StartIndexISR ( StartIndexTask + ( TRC_CFG_NTASK ) *PropertyTableSizeTask )
#define StartIndexTimer ( StartIndexISR + ( TRC_CFG_NISR ) *PropertyTableSizeISR )
#define StartIndexEventGroup ( StartIndexTimer + ( TRC_CFG_NTIMER ) *PropertyTableSizeTimer )
#define StartIndexStreamBuffer ( StartIndexEventGroup + ( TRC_CFG_NEVENTGROUP ) *PropertyTableSizeEventGroup )
#define StartIndexMessageBuffer ( StartIndexStreamBuffer + ( TRC_CFG_NSTREAMBUFFER ) *PropertyTableSizeStreamBuffer )
/* Number of bytes used by the object table */
#define TRACE_OBJECT_TABLE_SIZE ( StartIndexMessageBuffer + ( TRC_CFG_NMESSAGEBUFFER ) *PropertyTableSizeMessageBuffer )
/* Flag to tell the context of tracePEND_FUNC_CALL_FROM_ISR */
extern int uiInEventGroupSetBitsFromISR;
/**
* @internal Initialized the object property table
*/
traceResult xTraceKernelPortInitObjectPropertyTable( void );
/**
* @internal Initialized the object handle stack
*/
traceResult xTraceKernelPortInitObjectHandleStack( void );
/**
* @internal Retrieve error string
*/
const char * pszTraceGetErrorNotEnoughHandles( traceObjectClass objectclass );
/**
* @internal Retrieve current task handle
*/
void * prvTraceGetCurrentTaskHandle( void );
extern traceObjectClass TraceQueueClassTable[ 5 ];
/*** Event codes for snapshot mode - must match Tracealyzer config files ******/
#define NULL_EVENT ( 0x00UL )
/*******************************************************************************
* EVENTGROUP_DIV
*
* Miscellaneous events.
******************************************************************************/
#define EVENTGROUP_DIV ( NULL_EVENT + 1UL ) /*0x01*/
#define DIV_XPS ( EVENTGROUP_DIV + 0UL ) /*0x01*/
#define DIV_TASK_READY ( EVENTGROUP_DIV + 1UL ) /*0x02*/
#define DIV_NEW_TIME ( EVENTGROUP_DIV + 2UL ) /*0x03*/
/*******************************************************************************
* EVENTGROUP_TS
*
* Events for storing task-switches and interrupts. The RESUME events are
* generated if the task/interrupt is already marked active.
******************************************************************************/
#define EVENTGROUP_TS ( EVENTGROUP_DIV + 3UL ) /*0x04*/
#define TS_ISR_BEGIN ( EVENTGROUP_TS + 0UL ) /*0x04*/
#define TS_ISR_RESUME ( EVENTGROUP_TS + 1UL ) /*0x05*/
#define TS_TASK_BEGIN ( EVENTGROUP_TS + 2UL ) /*0x06*/
#define TS_TASK_RESUME ( EVENTGROUP_TS + 3UL ) /*0x07*/
/*******************************************************************************
* EVENTGROUP_OBJCLOSE_NAME
*
* About Close Events
* When an object is evicted from the object property table (object close), two
* internal events are stored (EVENTGROUP_OBJCLOSE_NAME and
* EVENTGROUP_OBJCLOSE_PROP), containing the handle-name mapping and object
* properties valid up to this point.
******************************************************************************/
#define EVENTGROUP_OBJCLOSE_NAME_TRCSUCCESS ( EVENTGROUP_TS + 4UL ) /*0x08*/
/*******************************************************************************
* EVENTGROUP_OBJCLOSE_PROP
*
* The internal event carrying properties of deleted objects
* The handle and object class of the closed object is not stored in this event,
* but is assumed to be the same as in the preceding CLOSE event. Thus, these
* two events must be generated from within a critical section.
* When queues are closed, arg1 is the "state" property (i.e., number of
* buffered messages/signals).
* When actors are closed, arg1 is priority, arg2 is handle of the "instance
* finish" event, and arg3 is event code of the "instance finish" event.
* In this case, the lower three bits is the object class of the instance finish
* handle. The lower three bits are not used (always zero) when queues are
* closed since the queue type is given in the previous OBJCLOSE_NAME event.
******************************************************************************/
#define EVENTGROUP_OBJCLOSE_PROP_TRCSUCCESS ( EVENTGROUP_OBJCLOSE_NAME_TRCSUCCESS + 8UL ) /*0x10*/
/*******************************************************************************
* EVENTGROUP_CREATE
*
* The events in this group are used to log Kernel object creations.
* The lower three bits in the event code gives the object class, i.e., type of
* create operation (task, queue, semaphore, etc).
******************************************************************************/
#define EVENTGROUP_CREATE_OBJ_TRCSUCCESS ( EVENTGROUP_OBJCLOSE_PROP_TRCSUCCESS + 8UL ) /*0x18*/
/*******************************************************************************
* EVENTGROUP_SEND
*
* The events in this group are used to log Send/Give events on queues,
* semaphores and mutexes The lower three bits in the event code gives the
* object class, i.e., what type of object that is operated on (queue, semaphore
* or mutex).
******************************************************************************/
#define EVENTGROUP_SEND_TRCSUCCESS ( EVENTGROUP_CREATE_OBJ_TRCSUCCESS + 8UL ) /*0x20*/
/*******************************************************************************
* EVENTGROUP_RECEIVE
*
* The events in this group are used to log Receive/Take events on queues,
* semaphores and mutexes. The lower three bits in the event code gives the
* object class, i.e., what type of object that is operated on (queue, semaphore
* or mutex).
******************************************************************************/
#define EVENTGROUP_RECEIVE_TRCSUCCESS ( EVENTGROUP_SEND_TRCSUCCESS + 8UL ) /*0x28*/
/* Send/Give operations, from ISR */
#define EVENTGROUP_SEND_FROM_ISR_TRCSUCCESS \
( EVENTGROUP_RECEIVE_TRCSUCCESS + 8UL ) /*0x30*/
/* Receive/Take operations, from ISR */
#define EVENTGROUP_RECEIVE_FROM_ISR_TRCSUCCESS \
( EVENTGROUP_SEND_FROM_ISR_TRCSUCCESS + 8UL ) /*0x38*/
/* "Failed" event type versions of above (timeout, failed allocation, etc) */
#define EVENTGROUP_KSE_TRCFAILED \
( EVENTGROUP_RECEIVE_FROM_ISR_TRCSUCCESS + 8UL ) /*0x40*/
/* Failed create calls - memory allocation failed */
#define EVENTGROUP_CREATE_OBJ_TRCFAILED ( EVENTGROUP_KSE_TRCFAILED ) /*0x40*/
/* Failed send/give - timeout! */
#define EVENTGROUP_SEND_TRCFAILED ( EVENTGROUP_CREATE_OBJ_TRCFAILED + 8UL ) /*0x48*/
/* Failed receive/take - timeout! */
#define EVENTGROUP_RECEIVE_TRCFAILED ( EVENTGROUP_SEND_TRCFAILED + 8UL ) /*0x50*/
/* Failed non-blocking send/give - queue full */
#define EVENTGROUP_SEND_FROM_ISR_TRCFAILED ( EVENTGROUP_RECEIVE_TRCFAILED + 8UL ) /*0x58*/
/* Failed non-blocking receive/take - queue empty */
#define EVENTGROUP_RECEIVE_FROM_ISR_TRCFAILED \
( EVENTGROUP_SEND_FROM_ISR_TRCFAILED + 8UL ) /*0x60*/
/* Events when blocking on receive/take */
#define EVENTGROUP_RECEIVE_TRCBLOCK \
( EVENTGROUP_RECEIVE_FROM_ISR_TRCFAILED + 8UL ) /*0x68*/
/* Events when blocking on send/give */
#define EVENTGROUP_SEND_TRCBLOCK ( EVENTGROUP_RECEIVE_TRCBLOCK + 8UL ) /*0x70*/
/* Events on queue peek (receive) */
#define EVENTGROUP_PEEK_TRCSUCCESS ( EVENTGROUP_SEND_TRCBLOCK + 8UL ) /*0x78*/
/* Events on object delete (vTaskDelete or vQueueDelete) */
#define EVENTGROUP_DELETE_OBJ_TRCSUCCESS ( EVENTGROUP_PEEK_TRCSUCCESS + 8UL ) /*0x80*/
/* Other events - object class is implied: TASK */
#define EVENTGROUP_OTHERS ( EVENTGROUP_DELETE_OBJ_TRCSUCCESS + 8UL ) /*0x88*/
#define TASK_DELAY_UNTIL ( EVENTGROUP_OTHERS + 0UL ) /*0x88*/
#define TASK_DELAY ( EVENTGROUP_OTHERS + 1UL ) /*0x89*/
#define TASK_SUSPEND ( EVENTGROUP_OTHERS + 2UL ) /*0x8A*/
#define TASK_RESUME ( EVENTGROUP_OTHERS + 3UL ) /*0x8B*/
#define TASK_RESUME_FROM_ISR ( EVENTGROUP_OTHERS + 4UL ) /*0x8C*/
#define TASK_PRIORITY_SET ( EVENTGROUP_OTHERS + 5UL ) /*0x8D*/
#define TASK_PRIORITY_INHERIT ( EVENTGROUP_OTHERS + 6UL ) /*0x8E*/
#define TASK_PRIORITY_DISINHERIT ( EVENTGROUP_OTHERS + 7UL ) /*0x8F*/
#define EVENTGROUP_MISC_PLACEHOLDER ( EVENTGROUP_OTHERS + 8UL ) /*0x90*/
#define PEND_FUNC_CALL ( EVENTGROUP_MISC_PLACEHOLDER + 0UL ) /*0x90*/
#define PEND_FUNC_CALL_FROM_ISR ( EVENTGROUP_MISC_PLACEHOLDER + 1UL ) /*0x91*/
#define PEND_FUNC_CALL_TRCFAILED ( EVENTGROUP_MISC_PLACEHOLDER + 2UL ) /*0x92*/
#define PEND_FUNC_CALL_FROM_ISR_TRCFAILED ( EVENTGROUP_MISC_PLACEHOLDER + 3UL ) /*0x93*/
#define MEM_MALLOC_SIZE ( EVENTGROUP_MISC_PLACEHOLDER + 4UL ) /*0x94*/
#define MEM_MALLOC_ADDR ( EVENTGROUP_MISC_PLACEHOLDER + 5UL ) /*0x95*/
#define MEM_FREE_SIZE ( EVENTGROUP_MISC_PLACEHOLDER + 6UL ) /*0x96*/
#define MEM_FREE_ADDR ( EVENTGROUP_MISC_PLACEHOLDER + 7UL ) /*0x97*/
/* User events */
#define EVENTGROUP_USEREVENT ( EVENTGROUP_MISC_PLACEHOLDER + 8UL ) /*0x98*/
#define USER_EVENT ( EVENTGROUP_USEREVENT + 0UL )
/* Allow for 0-15 arguments (the number of args is added to event code) */
#define USER_EVENT_LAST ( EVENTGROUP_USEREVENT + 15UL ) /*0xA7*/
/*******************************************************************************
* XTS Event - eXtended TimeStamp events
* The timestamps used in the recorder are "differential timestamps" (DTS), i.e.
* the time since the last stored event. The DTS fields are either 1 or 2 bytes
* in the other events, depending on the bytes available in the event struct.
* If the time since the last event (the DTS) is larger than allowed for by
* the DTS field of the current event, an XTS event is inserted immediately
* before the original event. The XTS event contains up to 3 additional bytes
* of the DTS value - the higher bytes of the true DTS value. The lower 1-2
* bytes are stored in the normal DTS field.
* There are two types of XTS events, XTS8 and XTS16. An XTS8 event is stored
* when there is only room for 1 byte (8 bit) DTS data in the original event,
* which means a limit of 0xFF (255UL). The XTS16 is used when the original event
* has a 16 bit DTS field and thereby can handle values up to 0xFFFF (65535UL).
*
* Using a very high frequency time base can result in many XTS events.
* Preferably, the time between two OS ticks should fit in 16 bits, i.e.,
* at most 65535. If your time base has a higher frequency, you can define
* the TRACE
******************************************************************************/
#define EVENTGROUP_SYS ( EVENTGROUP_USEREVENT + 16UL ) /*0xA8*/
#define XTS8 ( EVENTGROUP_SYS + 0UL ) /*0xA8*/
#define XTS16 ( EVENTGROUP_SYS + 1UL ) /*0xA9*/
#define EVENT_BEING_WRITTEN ( EVENTGROUP_SYS + 2UL ) /*0xAA*/
#define RESERVED_DUMMY_CODE ( EVENTGROUP_SYS + 3UL ) /*0xAB*/
#define LOW_POWER_BEGIN ( EVENTGROUP_SYS + 4UL ) /*0xAC*/
#define LOW_POWER_END ( EVENTGROUP_SYS + 5UL ) /*0xAD*/
#define XID ( EVENTGROUP_SYS + 6UL ) /*0xAE*/
#define XTS16L ( EVENTGROUP_SYS + 7UL ) /*0xAF*/
#define EVENTGROUP_TIMER ( EVENTGROUP_SYS + 8UL ) /*0xB0*/
#define TIMER_CREATE ( EVENTGROUP_TIMER + 0UL ) /*0xB0*/
#define TIMER_START ( EVENTGROUP_TIMER + 1UL ) /*0xB1*/
#define TIMER_RST ( EVENTGROUP_TIMER + 2UL ) /*0xB2*/
#define TIMER_STOP ( EVENTGROUP_TIMER + 3UL ) /*0xB3*/
#define TIMER_CHANGE_PERIOD ( EVENTGROUP_TIMER + 4UL ) /*0xB4*/
#define TIMER_DELETE_OBJ ( EVENTGROUP_TIMER + 5UL ) /*0xB5*/
#define TIMER_START_FROM_ISR ( EVENTGROUP_TIMER + 6UL ) /*0xB6*/
#define TIMER_RESET_FROM_ISR ( EVENTGROUP_TIMER + 7UL ) /*0xB7*/
#define TIMER_STOP_FROM_ISR ( EVENTGROUP_TIMER + 8UL ) /*0xB8*/
#define TIMER_CREATE_TRCFAILED ( EVENTGROUP_TIMER + 9UL ) /*0xB9*/
#define TIMER_START_TRCFAILED ( EVENTGROUP_TIMER + 10UL ) /*0xBA*/
#define TIMER_RESET_TRCFAILED ( EVENTGROUP_TIMER + 11UL ) /*0xBB*/
#define TIMER_STOP_TRCFAILED ( EVENTGROUP_TIMER + 12UL ) /*0xBC*/
#define TIMER_CHANGE_PERIOD_TRCFAILED ( EVENTGROUP_TIMER + 13UL ) /*0xBD*/
#define TIMER_DELETE_TRCFAILED ( EVENTGROUP_TIMER + 14UL ) /*0xBE*/
#define TIMER_START_FROM_ISR_TRCFAILED ( EVENTGROUP_TIMER + 15UL ) /*0xBF*/
#define TIMER_RESET_FROM_ISR_TRCFAILED ( EVENTGROUP_TIMER + 16UL ) /*0xC0*/
#define TIMER_STOP_FROM_ISR_TRCFAILED ( EVENTGROUP_TIMER + 17UL ) /*0xC1*/
#define EVENTGROUP_EG ( EVENTGROUP_TIMER + 18UL ) /*0xC2*/
#define EVENT_GROUP_CREATE ( EVENTGROUP_EG + 0UL ) /*0xC2*/
#define EVENT_GROUP_CREATE_TRCFAILED ( EVENTGROUP_EG + 1UL ) /*0xC3*/
#define EVENT_GROUP_SYNC_TRCBLOCK ( EVENTGROUP_EG + 2UL ) /*0xC4*/
#define EVENT_GROUP_SYNC_END ( EVENTGROUP_EG + 3UL ) /*0xC5*/
#define EVENT_GROUP_WAIT_BITS_TRCBLOCK ( EVENTGROUP_EG + 4UL ) /*0xC6*/
#define EVENT_GROUP_WAIT_BITS_END ( EVENTGROUP_EG + 5UL ) /*0xC7*/
#define EVENT_GROUP_CLEAR_BITS ( EVENTGROUP_EG + 6UL ) /*0xC8*/
#define EVENT_GROUP_CLEAR_BITS_FROM_ISR ( EVENTGROUP_EG + 7UL ) /*0xC9*/
#define EVENT_GROUP_SET_BITS ( EVENTGROUP_EG + 8UL ) /*0xCA*/
#define EVENT_GROUP_DELETE_OBJ ( EVENTGROUP_EG + 9UL ) /*0xCB*/
#define EVENT_GROUP_SYNC_END_TRCFAILED ( EVENTGROUP_EG + 10UL ) /*0xCC*/
#define EVENT_GROUP_WAIT_BITS_END_TRCFAILED ( EVENTGROUP_EG + 11UL ) /*0xCD*/
#define EVENT_GROUP_SET_BITS_FROM_ISR ( EVENTGROUP_EG + 12UL ) /*0xCE*/
#define EVENT_GROUP_SET_BITS_FROM_ISR_TRCFAILED ( EVENTGROUP_EG + 13UL ) /*0xCF*/
#define TASK_INSTANCE_FINISHED_NEXT_KSE ( EVENTGROUP_EG + 14UL ) /*0xD0*/
#define TASK_INSTANCE_FINISHED_DIRECT ( EVENTGROUP_EG + 15UL ) /*0xD1*/
#define TRACE_TASK_NOTIFY_GROUP ( EVENTGROUP_EG + 16UL ) /*0xD2*/
#define TRACE_TASK_NOTIFY ( TRACE_TASK_NOTIFY_GROUP + 0UL ) /*0xD2*/
#define TRACE_TASK_NOTIFY_TAKE ( TRACE_TASK_NOTIFY_GROUP + 1UL ) /*0xD3*/
#define TRACE_TASK_NOTIFY_TAKE_TRCBLOCK ( TRACE_TASK_NOTIFY_GROUP + 2UL ) /*0xD4*/
#define TRACE_TASK_NOTIFY_TAKE_TRCFAILED ( TRACE_TASK_NOTIFY_GROUP + 3UL ) /*0xD5*/
#define TRACE_TASK_NOTIFY_WAIT ( TRACE_TASK_NOTIFY_GROUP + 4UL ) /*0xD6*/
#define TRACE_TASK_NOTIFY_WAIT_TRCBLOCK ( TRACE_TASK_NOTIFY_GROUP + 5UL ) /*0xD7*/
#define TRACE_TASK_NOTIFY_WAIT_TRCFAILED ( TRACE_TASK_NOTIFY_GROUP + 6UL ) /*0xD8*/
#define TRACE_TASK_NOTIFY_FROM_ISR ( TRACE_TASK_NOTIFY_GROUP + 7UL ) /*0xD9*/
#define TRACE_TASK_NOTIFY_GIVE_FROM_ISR ( TRACE_TASK_NOTIFY_GROUP + 8UL ) /*0xDA*/
#define TIMER_EXPIRED ( TRACE_TASK_NOTIFY_GROUP + 9UL ) /*0xDB*/
/* Events on queue peek (receive) */
#define EVENTGROUP_PEEK_TRCBLOCK ( TRACE_TASK_NOTIFY_GROUP + 10UL ) /*0xDC*/
/* peek block on queue: 0xDC */
/* peek block on semaphore: 0xDD */
/* peek block on mutex: 0xDE */
/* Events on queue peek (receive) */
#define EVENTGROUP_PEEK_TRCFAILED ( EVENTGROUP_PEEK_TRCBLOCK + 3UL ) /*0xDF*/
/* peek failed on queue: 0xDF */
/* peek failed on semaphore: 0xE0 */
/* peek failed on mutex: 0xE1 */
#define EVENTGROUP_STREAMBUFFER_DIV ( EVENTGROUP_PEEK_TRCFAILED + 3UL ) /*0xE2*/
#define TRACE_STREAMBUFFER_RESET ( EVENTGROUP_STREAMBUFFER_DIV + 0 ) /*0xE2*/
#define TRACE_MESSAGEBUFFER_RESET ( EVENTGROUP_STREAMBUFFER_DIV + 1UL ) /*0xE3*/
#define TRACE_STREAMBUFFER_OBJCLOSE_NAME_TRCSUCCESS ( EVENTGROUP_STREAMBUFFER_DIV + 2UL ) /*0xE4*/
#define TRACE_MESSAGEBUFFER_OBJCLOSE_NAME_TRCSUCCESS ( EVENTGROUP_STREAMBUFFER_DIV + 3UL ) /*0xE5*/
#define TRACE_STREAMBUFFER_OBJCLOSE_PROP_TRCSUCCESS ( EVENTGROUP_STREAMBUFFER_DIV + 4UL ) /*0xE6*/
#define TRACE_MESSAGEBUFFER_OBJCLOSE_PROP_TRCSUCCESS ( EVENTGROUP_STREAMBUFFER_DIV + 5UL ) /*0xE7*/
#define EVENTGROUP_MALLOC_FAILED ( EVENTGROUP_STREAMBUFFER_DIV + 6UL ) /*0xE8*/
#define MEM_MALLOC_SIZE_TRCFAILED ( EVENTGROUP_MALLOC_FAILED + 0UL ) /*0xE8*/
#define MEM_MALLOC_ADDR_TRCFAILED ( EVENTGROUP_MALLOC_FAILED + 1UL ) /*0xE9*/
/* The following are using previously "lost" event codes */
#define TRACE_STREAMBUFFER_CREATE_OBJ_TRCSUCCESS ( EVENTGROUP_CREATE_OBJ_TRCSUCCESS + 4UL ) /*0x1C*/
#define TRACE_STREAMBUFFER_CREATE_OBJ_TRCFAILED ( EVENTGROUP_CREATE_OBJ_TRCFAILED + 4UL ) /*0x44*/
#define TRACE_STREAMBUFFER_DELETE_OBJ_TRCSUCCESS ( EVENTGROUP_DELETE_OBJ_TRCSUCCESS + 4UL ) /*0x84*/
#define TRACE_STREAMBUFFER_SEND_TRCSUCCESS ( EVENTGROUP_SEND_TRCSUCCESS + 3UL ) /*0x23*/
#define TRACE_STREAMBUFFER_SEND_TRCBLOCK ( EVENTGROUP_SEND_TRCBLOCK + 3UL ) /*0x73*/
#define TRACE_STREAMBUFFER_SEND_TRCFAILED ( EVENTGROUP_SEND_TRCFAILED + 3UL ) /*0x4B*/
#define TRACE_STREAMBUFFER_RECEIVE_TRCSUCCESS ( EVENTGROUP_RECEIVE_TRCSUCCESS + 3UL ) /*0x2B*/
#define TRACE_STREAMBUFFER_RECEIVE_TRCBLOCK ( EVENTGROUP_RECEIVE_TRCBLOCK + 3UL ) /*0x6B*/
#define TRACE_STREAMBUFFER_RECEIVE_TRCFAILED ( EVENTGROUP_RECEIVE_TRCFAILED + 3UL ) /*0x53*/
#define TRACE_STREAMBUFFER_SEND_FROM_ISR_TRCSUCCESS ( EVENTGROUP_SEND_FROM_ISR_TRCSUCCESS + 3UL ) /*0x33*/
#define TRACE_STREAMBUFFER_SEND_FROM_ISR_TRCFAILED ( EVENTGROUP_SEND_FROM_ISR_TRCFAILED + 3UL ) /*0x5B*/
#define TRACE_STREAMBUFFER_RECEIVE_FROM_ISR_TRCSUCCESS ( EVENTGROUP_RECEIVE_FROM_ISR_TRCSUCCESS + 3UL ) /*0x3B*/
#define TRACE_STREAMBUFFER_RECEIVE_FROM_ISR_TRCFAILED ( EVENTGROUP_RECEIVE_FROM_ISR_TRCFAILED + 3UL ) /*0x63*/
/* The following are using previously "lost" event codes. These macros aren't even directly referenced, instead we do (equivalent STREAMBUFFER code) + 1. */
#define TRACE_MESSAGEBUFFER_CREATE_OBJ_TRCSUCCESS ( EVENTGROUP_CREATE_OBJ_TRCSUCCESS + 5UL ) /*0x1D*/
#define TRACE_MESSAGEBUFFER_CREATE_OBJ_TRCFAILED ( EVENTGROUP_CREATE_OBJ_TRCFAILED + 5UL ) /*0x45*/
#define TRACE_MESSAGEBUFFER_DELETE_OBJ_TRCSUCCESS ( EVENTGROUP_DELETE_OBJ_TRCSUCCESS + 5UL ) /*0x85*/
#define TRACE_MESSAGEBUFFER_SEND_TRCSUCCESS ( EVENTGROUP_SEND_TRCSUCCESS + 4UL ) /*0x24*/
#define TRACE_MESSAGEBUFFER_SEND_TRCBLOCK ( EVENTGROUP_SEND_TRCBLOCK + 4UL ) /*0x74*/
#define TRACE_MESSAGEBUFFER_SEND_TRCFAILED ( EVENTGROUP_SEND_TRCFAILED + 4UL ) /*0x4C*/
#define TRACE_MESSAGEBUFFER_RECEIVE_TRCSUCCESS ( EVENTGROUP_RECEIVE_TRCSUCCESS + 4UL ) /*0x2C*/
#define TRACE_MESSAGEBUFFER_RECEIVE_TRCBLOCK ( EVENTGROUP_RECEIVE_TRCBLOCK + 4UL ) /*0x6C*/
#define TRACE_MESSAGEBUFFER_RECEIVE_TRCFAILED ( EVENTGROUP_RECEIVE_TRCFAILED + 4UL ) /*0x54*/
#define TRACE_MESSAGEBUFFER_SEND_FROM_ISR_TRCSUCCESS ( EVENTGROUP_SEND_FROM_ISR_TRCSUCCESS + 4UL ) /*0x34*/
#define TRACE_MESSAGEBUFFER_SEND_FROM_ISR_TRCFAILED ( EVENTGROUP_SEND_FROM_ISR_TRCFAILED + 4UL ) /*0x5C*/
#define TRACE_MESSAGEBUFFER_RECEIVE_FROM_ISR_TRCSUCCESS ( EVENTGROUP_RECEIVE_FROM_ISR_TRCSUCCESS + 4UL ) /*0x3C*/
#define TRACE_MESSAGEBUFFER_RECEIVE_FROM_ISR_TRCFAILED ( EVENTGROUP_RECEIVE_FROM_ISR_TRCFAILED + 4UL ) /*0x64*/
#define TRACE_QUEUE_SEND_TO_FRONT_TRCSUCCESS ( EVENTGROUP_SEND_TRCSUCCESS + 5UL ) /*0x25*/
#define TRACE_QUEUE_SEND_TO_FRONT_TRCBLOCK ( EVENTGROUP_SEND_TRCBLOCK + 5UL ) /*0x75*/
#define TRACE_QUEUE_SEND_TO_FRONT_TRCFAILED ( EVENTGROUP_SEND_TRCFAILED + 5UL ) /*0x4D*/
#define TRACE_QUEUE_SEND_TO_FRONT_FROM_ISR_TRCSUCCESS ( EVENTGROUP_SEND_FROM_ISR_TRCSUCCESS + 5UL ) /*0x35*/
#define TRACE_QUEUE_SEND_TO_FRONT_FROM_ISR_TRCFAILED ( EVENTGROUP_SEND_FROM_ISR_TRCFAILED + 5UL ) /*0x5D*/
#define TRACE_UNUSED_STACK ( EVENTGROUP_MALLOC_FAILED + 2UL ) /*0xEA*/
/* LAST EVENT (0xEA) */
/****************************
* MACROS TO GET TRACE CLASS *
****************************/
#define TRACE_GET_TRACE_CLASS_FROM_TASK_CLASS( kernelClass ) ( TRACE_CLASS_TASK )
#define TRACE_GET_TRACE_CLASS_FROM_TASK_OBJECT( pxObject ) ( TRACE_CLASS_TASK )
#define TRACE_GET_TRACE_CLASS_FROM_QUEUE_CLASS( kernelClass ) TraceQueueClassTable[ kernelClass ]
#define TRACE_GET_TRACE_CLASS_FROM_QUEUE_OBJECT( pxObject ) TRACE_GET_TRACE_CLASS_FROM_QUEUE_CLASS( prvTraceGetQueueType( pxObject ) )
#define TRACE_GET_TRACE_CLASS_FROM_TIMER_CLASS( kernelClass ) ( TRACE_CLASS_TIMER )
#define TRACE_GET_TRACE_CLASS_FROM_TIMER_OBJECT( pxObject ) ( TRACE_CLASS_TIMER )
#define TRACE_GET_TRACE_CLASS_FROM_EVENTGROUP_CLASS( kernelClass ) ( TRACE_CLASS_EVENTGROUP )
#define TRACE_GET_TRACE_CLASS_FROM_EVENTGROUP_OBJECT( pxObject ) ( TRACE_CLASS_EVENTGROUP )
/* TRACE_GET_TRACE_CLASS_FROM_STREAMBUFFER_CLASS can only be accessed with a parameter indicating if it is a MessageBuffer */
#define TRACE_GET_TRACE_CLASS_FROM_STREAMBUFFER_CLASS( xIsMessageBuffer ) ( xIsMessageBuffer == 1 ? TRACE_CLASS_MESSAGEBUFFER : TRACE_CLASS_STREAMBUFFER )
#define TRACE_GET_TRACE_CLASS_FROM_STREAMBUFFER_OBJECT( pxObject ) ( prvGetStreamBufferType( pxObject ) == 1 ? TRACE_CLASS_MESSAGEBUFFER : TRACE_CLASS_STREAMBUFFER )
/* Generic versions */
#define TRACE_GET_CLASS_TRACE_CLASS( CLASS, kernelClass ) TRACE_GET_TRACE_CLASS_FROM_ ## CLASS ## _CLASS( kernelClass )
#define TRACE_GET_OBJECT_TRACE_CLASS( CLASS, pxObject ) TRACE_GET_TRACE_CLASS_FROM_ ## CLASS ## _OBJECT( pxObject )
/******************************
* MACROS TO GET OBJECT NUMBER *
******************************/
#define TRACE_GET_TASK_NUMBER( pxTCB ) ( traceHandle ) ( prvTraceGetTaskNumberLow16( pxTCB ) )
#define TRACE_SET_TASK_NUMBER( pxTCB ) prvTraceSetTaskNumberLow16( pxTCB, prvTraceGetObjectHandle( TRACE_GET_OBJECT_TRACE_CLASS( TASK, pxTCB ) ) );
#define TRACE_GET_QUEUE_NUMBER( queue ) ( ( traceHandle ) prvTraceGetQueueNumberLow16( queue ) )
#define TRACE_SET_QUEUE_NUMBER( queue ) prvTraceSetQueueNumberLow16( queue, ( uint16_t ) prvTraceGetObjectHandle( TRACE_GET_OBJECT_TRACE_CLASS( QUEUE, queue ) ) );
#if ( TRC_CFG_FREERTOS_VERSION >= TRC_FREERTOS_VERSION_10_0_0 )
#define TRACE_GET_TIMER_NUMBER( tmr ) ( ( traceHandle ) prvTraceGetTimerNumberLow16( tmr ) )
#define TRACE_SET_TIMER_NUMBER( tmr ) prvTraceSetTimerNumberLow16( tmr, ( uint16_t ) prvTraceGetObjectHandle( TRACE_GET_OBJECT_TRACE_CLASS( TIMER, tmr ) ) );
#else /* (TRC_CFG_FREERTOS_VERSION >= TRC_FREERTOS_VERSION_10_0_0) */
#define TRACE_GET_TIMER_NUMBER( tmr ) ( ( traceHandle ) ( ( Timer_t * ) tmr )->uxTimerNumber )
#define TRACE_SET_TIMER_NUMBER( tmr ) ( ( Timer_t * ) tmr )->uxTimerNumber = prvTraceGetObjectHandle( TRACE_GET_OBJECT_TRACE_CLASS( TIMER, tmr ) );
#endif /* (TRC_CFG_FREERTOS_VERSION >= TRC_FREERTOS_VERSION_10_0_0) */
#if ( TRC_CFG_FREERTOS_VERSION >= TRC_FREERTOS_VERSION_10_0_0 )
#define TRACE_GET_EVENTGROUP_NUMBER( eg ) ( ( traceHandle ) prvTraceGetEventGroupNumberLow16( eg ) )
#define TRACE_SET_EVENTGROUP_NUMBER( eg ) prvTraceSetEventGroupNumberLow16( eg, ( uint16_t ) prvTraceGetObjectHandle( TRACE_GET_OBJECT_TRACE_CLASS( EVENTGROUP, eg ) ) );
#else /* (TRC_CFG_FREERTOS_VERSION >= TRC_FREERTOS_VERSION_10_0_0) */
#define TRACE_GET_EVENTGROUP_NUMBER( eg ) ( ( traceHandle ) uxEventGroupGetNumber( eg ) )
#define TRACE_SET_EVENTGROUP_NUMBER( eg ) ( ( EventGroup_t * ) eg )->uxEventGroupNumber = prvTraceGetObjectHandle( TRACE_GET_OBJECT_TRACE_CLASS( EVENTGROUP, eg ) );
#endif /* (TRC_CFG_FREERTOS_VERSION >= TRC_FREERTOS_VERSION_10_0_0) */
#define TRACE_GET_STREAMBUFFER_NUMBER( sb ) ( ( traceHandle ) prvTraceGetStreamBufferNumberLow16( sb ) )
#define TRACE_SET_STREAMBUFFER_NUMBER( sb ) prvTraceSetStreamBufferNumberLow16( sb, ( uint16_t ) prvTraceGetObjectHandle( TRACE_GET_OBJECT_TRACE_CLASS( STREAMBUFFER, sb ) ) );
/* Generic versions */
#define TRACE_GET_OBJECT_NUMBER( CLASS, pxObject ) TRACE_GET_ ## CLASS ## _NUMBER( pxObject )
#define TRACE_SET_OBJECT_NUMBER( CLASS, pxObject ) TRACE_SET_ ## CLASS ## _NUMBER( pxObject )
/******************************
* MACROS TO GET EVENT CODES *
******************************/
#define TRACE_GET_TASK_CLASS_EVENT_CODE( SERVICE, RESULT, kernelClass ) ( uint8_t ) ( EVENTGROUP_ ## SERVICE ## _ ## RESULT + TRACE_GET_CLASS_TRACE_CLASS( TASK, kernelClass ) )
#define TRACE_GET_QUEUE_CLASS_EVENT_CODE( SERVICE, RESULT, kernelClass ) ( uint8_t ) ( EVENTGROUP_ ## SERVICE ## _ ## RESULT + TRACE_GET_CLASS_TRACE_CLASS( QUEUE, kernelClass ) )
#define TRACE_GET_TIMER_CLASS_EVENT_CODE( SERVICE, RESULT, kernelClass ) -- THIS IS NOT USED--
#define TRACE_GET_EVENTGROUP_CLASS_EVENT_CODE( SERVICE, RESULT, kernelClass ) -- THIS IS NOT USED--
#define TRACE_GET_STREAMBUFFER_CLASS_EVENT_CODE( SERVICE, RESULT, isMessageBuffer ) ( uint8_t ) ( TRACE_STREAMBUFFER_ ## SERVICE ## _ ## RESULT + ( uint8_t ) isMessageBuffer )
#define TRACE_GET_TASK_OBJECT_EVENT_CODE( SERVICE, RESULT, pxTCB ) ( uint8_t ) ( EVENTGROUP_ ## SERVICE ## _ ## RESULT + TRACE_CLASS_TASK )
#define TRACE_GET_QUEUE_OBJECT_EVENT_CODE( SERVICE, RESULT, pxObject ) ( uint8_t ) ( EVENTGROUP_ ## SERVICE ## _ ## RESULT + TRACE_GET_OBJECT_TRACE_CLASS( QUEUE, pxObject ) )
#define TRACE_GET_TIMER_OBJECT_EVENT_CODE( SERVICE, RESULT, UNUSED ) -- THIS IS NOT USED--
#define TRACE_GET_EVENTGROUP_OBJECT_EVENT_CODE( SERVICE, RESULT, UNUSED ) -- THIS IS NOT USED--
#define TRACE_GET_STREAMBUFFER_OBJECT_EVENT_CODE( SERVICE, RESULT, pxObject ) ( uint8_t ) ( TRACE_STREAMBUFFER_ ## SERVICE ## _ ## RESULT + prvGetStreamBufferType( pxObject ) )
/* Generic versions */
#define TRACE_GET_CLASS_EVENT_CODE( SERVICE, RESULT, CLASS, kernelClass ) TRACE_GET_ ## CLASS ## _CLASS_EVENT_CODE( SERVICE, RESULT, kernelClass )
#define TRACE_GET_OBJECT_EVENT_CODE( SERVICE, RESULT, CLASS, pxObject ) TRACE_GET_ ## CLASS ## _OBJECT_EVENT_CODE( SERVICE, RESULT, pxObject )
/******************************
* SPECIAL MACROS FOR TASKS *
******************************/
#define TRACE_GET_TASK_PRIORITY( pxTCB ) ( ( uint8_t ) pxTCB->uxPriority )
#define TRACE_GET_TASK_NAME( pxTCB ) ( ( char * ) pxTCB->pcTaskName )
/*** The trace macros for snapshot mode **************************************/
/* A macro that will update the tick count when returning from tickless idle */
#undef traceINCREASE_TICK_COUNT
#define traceINCREASE_TICK_COUNT( xCount )
/* Called for each task that becomes ready */
#undef traceMOVED_TASK_TO_READY_STATE
#define traceMOVED_TASK_TO_READY_STATE( pxTCB ) \
trcKERNEL_HOOKS_MOVED_TASK_TO_READY_STATE( pxTCB );
/* Called on each OS tick. Will call uiPortGetTimestamp to make sure it is called at least once every OS tick. */
#undef traceTASK_INCREMENT_TICK
#if ( TRC_CFG_FREERTOS_VERSION >= TRC_FREERTOS_VERSION_10_3_0 )
#define traceTASK_INCREMENT_TICK( xTickCount ) \
if( uxSchedulerSuspended == ( unsigned portBASE_TYPE ) pdTRUE || xPendedTicks == 0 ) { trcKERNEL_HOOKS_INCREMENT_TICK(); } \
if( uxSchedulerSuspended == ( unsigned portBASE_TYPE ) pdFALSE ) { trcKERNEL_HOOKS_NEW_TIME( DIV_NEW_TIME, xTickCount + 1 ); }
#elif ( TRC_CFG_FREERTOS_VERSION >= TRC_FREERTOS_VERSION_7_5_X )
#define traceTASK_INCREMENT_TICK( xTickCount ) \
if( uxSchedulerSuspended == ( unsigned portBASE_TYPE ) pdTRUE || uxPendedTicks == 0 ) { trcKERNEL_HOOKS_INCREMENT_TICK(); } \
if( uxSchedulerSuspended == ( unsigned portBASE_TYPE ) pdFALSE ) { trcKERNEL_HOOKS_NEW_TIME( DIV_NEW_TIME, xTickCount + 1 ); }
#else /* if ( TRC_CFG_FREERTOS_VERSION >= TRC_FREERTOS_VERSION_10_3_0 ) */
#define traceTASK_INCREMENT_TICK( xTickCount ) \
if( uxSchedulerSuspended == ( unsigned portBASE_TYPE ) pdTRUE || uxMissedTicks == 0 ) { trcKERNEL_HOOKS_INCREMENT_TICK(); } \
if( uxSchedulerSuspended == ( unsigned portBASE_TYPE ) pdFALSE ) { trcKERNEL_HOOKS_NEW_TIME( DIV_NEW_TIME, xTickCount + 1 ); }
#endif /* if ( TRC_CFG_FREERTOS_VERSION >= TRC_FREERTOS_VERSION_10_3_0 ) */
extern volatile uint32_t uiTraceSystemState;
/* Called on each task-switch */
#undef traceTASK_SWITCHED_IN
#define traceTASK_SWITCHED_IN() \
uiTraceSystemState = TRC_STATE_IN_TASKSWITCH; \
trcKERNEL_HOOKS_TASK_SWITCH( TRACE_GET_CURRENT_TASK() ); \
uiTraceSystemState = TRC_STATE_IN_APPLICATION;
/* Called on vTaskCreate */
#undef traceTASK_CREATE
#define traceTASK_CREATE( pxNewTCB ) \
if( pxNewTCB != 0 ) \
{ \
trcKERNEL_HOOKS_TASK_CREATE( TRACE_GET_OBJECT_EVENT_CODE( CREATE_OBJ, TRCSUCCESS, TASK, pxNewTCB ), TASK, pxNewTCB ); \
prvAddTaskToStackMonitor( pxNewTCB ); \
}
/* Called in vTaskCreate, if it fails (typically if the stack can not be allocated) */
#undef traceTASK_CREATE_FAILED
#define traceTASK_CREATE_FAILED() \
trcKERNEL_HOOKS_OBJECT_CREATE_FAILED( TRACE_GET_CLASS_EVENT_CODE( CREATE_OBJ, TRCFAILED, TASK, NOT_USED ), TRACE_GET_CLASS_TRACE_CLASS( TASK, NOT_USED ) )
/* Called on vTaskDelete */
#undef traceTASK_DELETE
#define traceTASK_DELETE( pxTaskToDelete ) \
{ TRACE_ALLOC_CRITICAL_SECTION(); \
TRACE_ENTER_CRITICAL_SECTION(); \
trcKERNEL_HOOKS_TASK_DELETE( TRACE_GET_OBJECT_EVENT_CODE( DELETE_OBJ, TRCSUCCESS, TASK, pxTaskToDelete ), TRACE_GET_OBJECT_EVENT_CODE( OBJCLOSE_NAME, TRCSUCCESS, TASK, pxTaskToDelete ), TRACE_GET_OBJECT_EVENT_CODE( OBJCLOSE_PROP, TRCSUCCESS, TASK, pxTaskToDelete ), pxTaskToDelete ); \
prvRemoveTaskFromStackMonitor( pxTaskToDelete ); \
TRACE_EXIT_CRITICAL_SECTION(); }
#if ( TRC_CFG_SCHEDULING_ONLY == 0 )
#if defined( configUSE_TICKLESS_IDLE ) && ( configUSE_TICKLESS_IDLE != 0 )
#undef traceLOW_POWER_IDLE_BEGIN
#define traceLOW_POWER_IDLE_BEGIN() \
{ \
extern uint32_t trace_disable_timestamp; \
prvTraceStoreLowPower( 0 ); \
trace_disable_timestamp = 1; \
}
#undef traceLOW_POWER_IDLE_END
#define traceLOW_POWER_IDLE_END() \
{ \
extern uint32_t trace_disable_timestamp; \
trace_disable_timestamp = 0; \
prvTraceStoreLowPower( 1 ); \
}
#endif /* if defined( configUSE_TICKLESS_IDLE ) && ( configUSE_TICKLESS_IDLE != 0 ) */
/* Called on vTaskSuspend */
#undef traceTASK_SUSPEND
#define traceTASK_SUSPEND( pxTaskToSuspend ) \
trcKERNEL_HOOKS_TASK_SUSPEND( TASK_SUSPEND, pxTaskToSuspend );
/* Called from special case with timer only */
#undef traceTASK_DELAY_SUSPEND
#define traceTASK_DELAY_SUSPEND( pxTaskToSuspend ) \
trcKERNEL_HOOKS_TASK_SUSPEND( TASK_SUSPEND, pxTaskToSuspend ); \
trcKERNEL_HOOKS_SET_TASK_INSTANCE_FINISHED();
/* Called on vTaskDelay - note the use of FreeRTOS variable xTicksToDelay */
#undef traceTASK_DELAY
#define traceTASK_DELAY() \
trcKERNEL_HOOKS_TASK_DELAY( TASK_DELAY, pxCurrentTCB, xTicksToDelay ); \
trcKERNEL_HOOKS_SET_TASK_INSTANCE_FINISHED();
/* Called on vTaskDelayUntil - note the use of FreeRTOS variable xTimeToWake */
#undef traceTASK_DELAY_UNTIL
#if ( TRC_CFG_FREERTOS_VERSION >= TRC_FREERTOS_VERSION_9_0_0 )
#define traceTASK_DELAY_UNTIL( xTimeToWake ) \
trcKERNEL_HOOKS_TASK_DELAY( TASK_DELAY_UNTIL, pxCurrentTCB, xTimeToWake ); \
trcKERNEL_HOOKS_SET_TASK_INSTANCE_FINISHED();
#else
#define traceTASK_DELAY_UNTIL() \
trcKERNEL_HOOKS_TASK_DELAY( TASK_DELAY_UNTIL, pxCurrentTCB, xTimeToWake ); \
trcKERNEL_HOOKS_SET_TASK_INSTANCE_FINISHED();
#endif
/* Called in xQueueCreate, and thereby for all other object based on queues, such as semaphores. */
#undef traceQUEUE_CREATE
#define traceQUEUE_CREATE( pxNewQueue ) \
trcKERNEL_HOOKS_OBJECT_CREATE( TRACE_GET_OBJECT_EVENT_CODE( CREATE_OBJ, TRCSUCCESS, QUEUE, pxNewQueue ), QUEUE, pxNewQueue );
/* Called in xQueueCreate, if the queue creation fails */
#undef traceQUEUE_CREATE_FAILED
#define traceQUEUE_CREATE_FAILED( queueType ) \
trcKERNEL_HOOKS_OBJECT_CREATE_FAILED( TRACE_GET_CLASS_EVENT_CODE( CREATE_OBJ, TRCFAILED, QUEUE, queueType ), TRACE_GET_CLASS_TRACE_CLASS( QUEUE, queueType ) )
/* Called on vQueueDelete */
#undef traceQUEUE_DELETE
#define traceQUEUE_DELETE( pxQueue ) \
{ TRACE_ALLOC_CRITICAL_SECTION(); \
TRACE_ENTER_CRITICAL_SECTION(); \
trcKERNEL_HOOKS_OBJECT_DELETE( TRACE_GET_OBJECT_EVENT_CODE( DELETE_OBJ, TRCSUCCESS, QUEUE, pxQueue ), TRACE_GET_OBJECT_EVENT_CODE( OBJCLOSE_NAME, TRCSUCCESS, QUEUE, pxQueue ), TRACE_GET_OBJECT_EVENT_CODE( OBJCLOSE_PROP, TRCSUCCESS, QUEUE, pxQueue ), QUEUE, pxQueue ); \
TRACE_EXIT_CRITICAL_SECTION(); }
/* This macro is not necessary as of FreeRTOS v9.0.0 */
#if ( TRC_CFG_FREERTOS_VERSION < TRC_FREERTOS_VERSION_9_0_0 )
/* Called in xQueueCreateMutex, and thereby also from xSemaphoreCreateMutex and xSemaphoreCreateRecursiveMutex */
#undef traceCREATE_MUTEX
#define traceCREATE_MUTEX( pxNewQueue ) \
trcKERNEL_HOOKS_OBJECT_CREATE( TRACE_GET_OBJECT_EVENT_CODE( CREATE_OBJ, TRCSUCCESS, QUEUE, pxNewQueue ), QUEUE, pxNewQueue );
/* Called in xQueueCreateMutex when the operation fails (when memory allocation fails) */
#undef traceCREATE_MUTEX_FAILED
#define traceCREATE_MUTEX_FAILED() \
trcKERNEL_HOOKS_KERNEL_SERVICE_WITH_NUMERIC_PARAM_ONLY( TRACE_GET_CLASS_EVENT_CODE( CREATE_OBJ, TRCFAILED, QUEUE, queueQUEUE_TYPE_MUTEX ), 0 );
#endif /* if ( TRC_CFG_FREERTOS_VERSION < TRC_FREERTOS_VERSION_9_0_0 ) */
/* Called when the Mutex can not be given, since not holder */
#undef traceGIVE_MUTEX_RECURSIVE_FAILED
#define traceGIVE_MUTEX_RECURSIVE_FAILED( pxMutex ) \
trcKERNEL_HOOKS_KERNEL_SERVICE( TRACE_GET_OBJECT_EVENT_CODE( SEND, TRCFAILED, QUEUE, pxMutex ), QUEUE, pxMutex );
/* Called when a message is sent to a queue */ /* CS IS NEW ! */
#undef traceQUEUE_SEND
#define traceQUEUE_SEND( pxQueue ) \
trcKERNEL_HOOKS_KERNEL_SERVICE( xCopyPosition == queueSEND_TO_BACK ? ( TRACE_GET_OBJECT_EVENT_CODE( SEND, TRCSUCCESS, QUEUE, pxQueue ) ) : TRACE_QUEUE_SEND_TO_FRONT_TRCSUCCESS, QUEUE, pxQueue ); \
trcKERNEL_HOOKS_SET_OBJECT_STATE( QUEUE, pxQueue, TRACE_GET_OBJECT_TRACE_CLASS( QUEUE, pxQueue ) == TRACE_CLASS_MUTEX ? ( uint8_t ) 0 : ( uint8_t ) ( pxQueue->uxMessagesWaiting + 1 ) );
/* Called when a message is sent to a queue set */
#undef traceQUEUE_SET_SEND
#define traceQUEUE_SET_SEND( pxQueue ) \
trcKERNEL_HOOKS_KERNEL_SERVICE( TRACE_GET_OBJECT_EVENT_CODE( SEND, TRCSUCCESS, QUEUE, pxQueue ), QUEUE, pxQueue ); \
trcKERNEL_HOOKS_SET_OBJECT_STATE( QUEUE, pxQueue, ( uint8_t ) ( pxQueue->uxMessagesWaiting + 1 ) );
/* Called when a message failed to be sent to a queue (timeout) */
#undef traceQUEUE_SEND_FAILED
#define traceQUEUE_SEND_FAILED( pxQueue ) \
trcKERNEL_HOOKS_KERNEL_SERVICE( xCopyPosition == queueSEND_TO_BACK ? ( TRACE_GET_OBJECT_EVENT_CODE( SEND, TRCFAILED, QUEUE, pxQueue ) ) : TRACE_QUEUE_SEND_TO_FRONT_TRCFAILED, QUEUE, pxQueue );
/* Called when the task is blocked due to a send operation on a full queue */
#undef traceBLOCKING_ON_QUEUE_SEND
#define traceBLOCKING_ON_QUEUE_SEND( pxQueue ) \
trcKERNEL_HOOKS_KERNEL_SERVICE( xCopyPosition == queueSEND_TO_BACK ? ( TRACE_GET_OBJECT_EVENT_CODE( SEND, TRCBLOCK, QUEUE, pxQueue ) ) : TRACE_QUEUE_SEND_TO_FRONT_TRCBLOCK, QUEUE, pxQueue );
/* Called when a message is received from a queue */
#undef traceQUEUE_RECEIVE
#define traceQUEUE_RECEIVE( pxQueue ) \
if( isQueueReceiveHookActuallyPeek ) \
{ \
trcKERNEL_HOOKS_KERNEL_SERVICE( TRACE_GET_OBJECT_EVENT_CODE( PEEK, TRCSUCCESS, QUEUE, pxQueue ), QUEUE, pxQueue ); \
} \
else \
{ \
trcKERNEL_HOOKS_KERNEL_SERVICE( TRACE_GET_OBJECT_EVENT_CODE( RECEIVE, TRCSUCCESS, QUEUE, pxQueue ), QUEUE, pxQueue ); \
} \
trcKERNEL_HOOKS_SET_OBJECT_STATE( QUEUE, pxQueue, TRACE_GET_OBJECT_TRACE_CLASS( QUEUE, pxQueue ) == TRACE_CLASS_MUTEX ? ( uint8_t ) TRACE_GET_TASK_NUMBER( TRACE_GET_CURRENT_TASK() ) : ( uint8_t ) ( pxQueue->uxMessagesWaiting - 1 ) );
/* Called when a receive operation on a queue fails (timeout) */
#undef traceQUEUE_RECEIVE_FAILED
#define traceQUEUE_RECEIVE_FAILED( pxQueue ) \
if( isQueueReceiveHookActuallyPeek ) \
{ \
trcKERNEL_HOOKS_KERNEL_SERVICE( TRACE_GET_OBJECT_EVENT_CODE( PEEK, TRCFAILED, QUEUE, pxQueue ), QUEUE, pxQueue ); \
} \
else \
{ \
trcKERNEL_HOOKS_KERNEL_SERVICE( TRACE_GET_OBJECT_EVENT_CODE( RECEIVE, TRCFAILED, QUEUE, pxQueue ), QUEUE, pxQueue ); \
}
/* Called when the task is blocked due to a receive operation on an empty queue */
#undef traceBLOCKING_ON_QUEUE_RECEIVE
#define traceBLOCKING_ON_QUEUE_RECEIVE( pxQueue ) \
if( isQueueReceiveHookActuallyPeek ) \
{ \
trcKERNEL_HOOKS_KERNEL_SERVICE( TRACE_GET_OBJECT_EVENT_CODE( PEEK, TRCBLOCK, QUEUE, pxQueue ), QUEUE, pxQueue ); \
} \
else \
{ \
trcKERNEL_HOOKS_KERNEL_SERVICE( TRACE_GET_OBJECT_EVENT_CODE( RECEIVE, TRCBLOCK, QUEUE, pxQueue ), QUEUE, pxQueue ); \
} \
if( TRACE_GET_OBJECT_TRACE_CLASS( QUEUE, pxQueue ) != TRACE_CLASS_MUTEX ) \
{ \
trcKERNEL_HOOKS_SET_TASK_INSTANCE_FINISHED(); \
}
/* Called on xQueuePeek */
#undef traceQUEUE_PEEK
#define traceQUEUE_PEEK( pxQueue ) \
trcKERNEL_HOOKS_KERNEL_SERVICE( TRACE_GET_OBJECT_EVENT_CODE( PEEK, TRCSUCCESS, QUEUE, pxQueue ), QUEUE, pxQueue );
/* Called on xQueuePeek fail/timeout (added in FreeRTOS v9.0.2) */
#undef traceQUEUE_PEEK_FAILED
#define traceQUEUE_PEEK_FAILED( pxQueue ) \
trcKERNEL_HOOKS_KERNEL_SERVICE( TRACE_GET_OBJECT_EVENT_CODE( PEEK, TRCFAILED, QUEUE, pxQueue ), QUEUE, pxQueue );
/* Called on xQueuePeek blocking (added in FreeRTOS v9.0.2) */
#undef traceBLOCKING_ON_QUEUE_PEEK
#define traceBLOCKING_ON_QUEUE_PEEK( pxQueue ) \
trcKERNEL_HOOKS_KERNEL_SERVICE( TRACE_GET_OBJECT_EVENT_CODE( PEEK, TRCBLOCK, QUEUE, pxQueue ), QUEUE, pxQueue ); \
if( TRACE_GET_OBJECT_TRACE_CLASS( QUEUE, pxQueue ) != TRACE_CLASS_MUTEX ) \
{ \
trcKERNEL_HOOKS_SET_TASK_INSTANCE_FINISHED(); \
}
/* Called when a message is sent from interrupt context, e.g., using xQueueSendFromISR */
#undef traceQUEUE_SEND_FROM_ISR
#define traceQUEUE_SEND_FROM_ISR( pxQueue ) \
trcKERNEL_HOOKS_KERNEL_SERVICE_FROM_ISR( xCopyPosition == queueSEND_TO_BACK ? ( TRACE_GET_OBJECT_EVENT_CODE( SEND_FROM_ISR, TRCSUCCESS, QUEUE, pxQueue ) ) : TRACE_QUEUE_SEND_TO_FRONT_FROM_ISR_TRCSUCCESS, QUEUE, pxQueue ); \
trcKERNEL_HOOKS_SET_OBJECT_STATE( QUEUE, pxQueue, ( uint8_t ) ( pxQueue->uxMessagesWaiting + 1 ) );
/* Called when a message send from interrupt context fails (since the queue was full) */
#undef traceQUEUE_SEND_FROM_ISR_FAILED
#define traceQUEUE_SEND_FROM_ISR_FAILED( pxQueue ) \
trcKERNEL_HOOKS_KERNEL_SERVICE_FROM_ISR( xCopyPosition == queueSEND_TO_BACK ? ( TRACE_GET_OBJECT_EVENT_CODE( SEND_FROM_ISR, TRCFAILED, QUEUE, pxQueue ) ) : TRACE_QUEUE_SEND_TO_FRONT_FROM_ISR_TRCFAILED, QUEUE, pxQueue );
/* Called when a message is received in interrupt context, e.g., using xQueueReceiveFromISR */
#undef traceQUEUE_RECEIVE_FROM_ISR
#define traceQUEUE_RECEIVE_FROM_ISR( pxQueue ) \
trcKERNEL_HOOKS_KERNEL_SERVICE_FROM_ISR( TRACE_GET_OBJECT_EVENT_CODE( RECEIVE_FROM_ISR, TRCSUCCESS, QUEUE, pxQueue ), QUEUE, pxQueue ); \
trcKERNEL_HOOKS_SET_OBJECT_STATE( QUEUE, pxQueue, ( uint8_t ) ( pxQueue->uxMessagesWaiting - 1 ) );
/* Called when a message receive from interrupt context fails (since the queue was empty) */
#undef traceQUEUE_RECEIVE_FROM_ISR_FAILED
#define traceQUEUE_RECEIVE_FROM_ISR_FAILED( pxQueue ) \
trcKERNEL_HOOKS_KERNEL_SERVICE_FROM_ISR( TRACE_GET_OBJECT_EVENT_CODE( RECEIVE_FROM_ISR, TRCFAILED, QUEUE, pxQueue ), QUEUE, pxQueue );
#undef traceQUEUE_REGISTRY_ADD
#define traceQUEUE_REGISTRY_ADD( object, name ) prvTraceSetObjectName( TRACE_GET_OBJECT_TRACE_CLASS( QUEUE, object ), TRACE_GET_OBJECT_NUMBER( QUEUE, object ), name );
/* Called in vTaskPrioritySet */
#undef traceTASK_PRIORITY_SET
#define traceTASK_PRIORITY_SET( pxTask, uxNewPriority ) \
trcKERNEL_HOOKS_TASK_PRIORITY_CHANGE( TASK_PRIORITY_SET, pxTask, uxNewPriority );
/* Called in vTaskPriorityInherit, which is called by Mutex operations */
#undef traceTASK_PRIORITY_INHERIT
#define traceTASK_PRIORITY_INHERIT( pxTask, uxNewPriority ) \
trcKERNEL_HOOKS_TASK_PRIORITY_CHANGE( TASK_PRIORITY_INHERIT, pxTask, uxNewPriority );
/* Called in vTaskPriorityDisinherit, which is called by Mutex operations */
#undef traceTASK_PRIORITY_DISINHERIT
#define traceTASK_PRIORITY_DISINHERIT( pxTask, uxNewPriority ) \
trcKERNEL_HOOKS_TASK_PRIORITY_CHANGE( TASK_PRIORITY_DISINHERIT, pxTask, uxNewPriority );
/* Called in vTaskResume */
#undef traceTASK_RESUME
#define traceTASK_RESUME( pxTaskToResume ) \
trcKERNEL_HOOKS_TASK_RESUME( TASK_RESUME, pxTaskToResume );
/* Called in vTaskResumeFromISR */
#undef traceTASK_RESUME_FROM_ISR
#define traceTASK_RESUME_FROM_ISR( pxTaskToResume ) \
trcKERNEL_HOOKS_TASK_RESUME_FROM_ISR( TASK_RESUME_FROM_ISR, pxTaskToResume );
#if ( TRC_CFG_FREERTOS_VERSION >= TRC_FREERTOS_VERSION_8_X_X )
#if ( TRC_CFG_INCLUDE_MEMMANG_EVENTS == 1 )
extern void vTraceStoreMemMangEvent( uint32_t ecode,
uint32_t address,
int32_t size );
/* MALLOC and FREE are always stored, no matter if they happen inside filtered task */
#undef traceMALLOC
#define traceMALLOC( pvAddress, uiSize ) \
if( pvAddress != 0 ) \
{ \
vTraceStoreMemMangEvent( MEM_MALLOC_SIZE, ( uint32_t ) pvAddress, ( int32_t ) uiSize ); \
} \
else \
{ \
vTraceStoreMemMangEvent( MEM_MALLOC_SIZE_TRCFAILED, ( uint32_t ) pvAddress, ( int32_t ) uiSize ); \
}
#undef traceFREE
#define traceFREE( pvAddress, uiSize ) \
vTraceStoreMemMangEvent( MEM_FREE_SIZE, ( uint32_t ) pvAddress, -( ( int32_t ) uiSize ) );
#endif /* if ( TRC_CFG_INCLUDE_MEMMANG_EVENTS == 1 ) */
#if ( TRC_CFG_INCLUDE_TIMER_EVENTS == 1 )
/* Called in timer.c - xTimerCreate */
#undef traceTIMER_CREATE
#define traceTIMER_CREATE( tmr ) \
trcKERNEL_HOOKS_OBJECT_CREATE( TIMER_CREATE, TIMER, tmr );
#undef traceTIMER_CREATE_FAILED
#define traceTIMER_CREATE_FAILED() \
trcKERNEL_HOOKS_OBJECT_CREATE_FAILED( TIMER_CREATE_TRCFAILED, TRACE_GET_CLASS_TRACE_CLASS( TIMER, NOT_USED ) )
/* Note that xCommandID can never be tmrCOMMAND_EXECUTE_CALLBACK (-1) since the trace macro is not called in that case */
#undef traceTIMER_COMMAND_SEND
#define traceTIMER_COMMAND_SEND( tmr, xCommandID, xOptionalValue, xReturn ) \
if( xCommandID > tmrCOMMAND_START_DONT_TRACE ) \
{ \
if( xCommandID == tmrCOMMAND_CHANGE_PERIOD ) \
{ \
if( xReturn == pdPASS ) { \
trcKERNEL_HOOKS_KERNEL_SERVICE_WITH_PARAM( TIMER_CHANGE_PERIOD, TIMER, tmr, xOptionalValue ); \
} \
else \
{ \
trcKERNEL_HOOKS_KERNEL_SERVICE_WITH_PARAM( TIMER_CHANGE_PERIOD_TRCFAILED, TIMER, tmr, xOptionalValue ); \
} \
} \
else if( ( xCommandID == tmrCOMMAND_DELETE ) && ( xReturn == pdPASS ) ) \
{ \
trcKERNEL_HOOKS_OBJECT_DELETE( TIMER_DELETE_OBJ, EVENTGROUP_OBJCLOSE_NAME_TRCSUCCESS + TRACE_GET_OBJECT_TRACE_CLASS( TIMER, tmr ), EVENTGROUP_OBJCLOSE_PROP_TRCSUCCESS + TRACE_GET_OBJECT_TRACE_CLASS( TIMER, tmr ), TIMER, tmr ); \
} \
else \
{ \
trcKERNEL_HOOKS_KERNEL_SERVICE_WITH_PARAM( EVENTGROUP_TIMER + ( uint32_t ) xCommandID + ( ( xReturn == pdPASS ) ? 0 : ( TIMER_CREATE_TRCFAILED - TIMER_CREATE ) ), TIMER, tmr, xOptionalValue ); \
} \
}
#undef traceTIMER_EXPIRED
#define traceTIMER_EXPIRED( tmr ) \
trcKERNEL_HOOKS_KERNEL_SERVICE( TIMER_EXPIRED, TIMER, tmr );
#endif /* if ( TRC_CFG_INCLUDE_TIMER_EVENTS == 1 ) */
#if ( TRC_CFG_INCLUDE_PEND_FUNC_CALL_EVENTS == 1 )
#undef tracePEND_FUNC_CALL
#define tracePEND_FUNC_CALL( func, arg1, arg2, ret ) \
if( ret == pdPASS ) { \
trcKERNEL_HOOKS_KERNEL_SERVICE( PEND_FUNC_CALL, TASK, xTimerGetTimerDaemonTaskHandle() ); \
} \
else \
{ \
trcKERNEL_HOOKS_KERNEL_SERVICE( PEND_FUNC_CALL_TRCFAILED, TASK, xTimerGetTimerDaemonTaskHandle() ); \
}
#undef tracePEND_FUNC_CALL_FROM_ISR
#define tracePEND_FUNC_CALL_FROM_ISR( func, arg1, arg2, ret ) \
if( !uiInEventGroupSetBitsFromISR ) \
prvTraceStoreKernelCall( PEND_FUNC_CALL_FROM_ISR, TRACE_CLASS_TASK, TRACE_GET_TASK_NUMBER( xTimerGetTimerDaemonTaskHandle() ) ); \
uiInEventGroupSetBitsFromISR = 0;
#endif /* if ( TRC_CFG_INCLUDE_PEND_FUNC_CALL_EVENTS == 1 ) */
#endif /* if ( TRC_CFG_FREERTOS_VERSION >= TRC_FREERTOS_VERSION_8_X_X ) */
#if ( TRC_CFG_INCLUDE_EVENT_GROUP_EVENTS == 1 )
#undef traceEVENT_GROUP_CREATE
#define traceEVENT_GROUP_CREATE( eg ) \
trcKERNEL_HOOKS_OBJECT_CREATE( EVENT_GROUP_CREATE, EVENTGROUP, eg )
#undef traceEVENT_GROUP_CREATE_FAILED
#define traceEVENT_GROUP_CREATE_FAILED() \
trcKERNEL_HOOKS_OBJECT_CREATE_FAILED( EVENT_GROUP_CREATE_TRCFAILED, TRACE_GET_CLASS_TRACE_CLASS( EVENTGROUP, NOT_USED ) )
#undef traceEVENT_GROUP_DELETE
#define traceEVENT_GROUP_DELETE( eg ) \
{ TRACE_ALLOC_CRITICAL_SECTION(); \
TRACE_ENTER_CRITICAL_SECTION(); \
trcKERNEL_HOOKS_OBJECT_DELETE( EVENT_GROUP_DELETE_OBJ, EVENTGROUP_OBJCLOSE_NAME_TRCSUCCESS + TRACE_GET_OBJECT_TRACE_CLASS( EVENTGROUP, eg ), EVENTGROUP_OBJCLOSE_NAME_TRCSUCCESS + TRACE_GET_OBJECT_TRACE_CLASS( EVENTGROUP, eg ), EVENTGROUP, eg ); \
TRACE_EXIT_CRITICAL_SECTION(); }
#undef traceEVENT_GROUP_SYNC_BLOCK
#define traceEVENT_GROUP_SYNC_BLOCK( eg, bitsToSet, bitsToWaitFor ) \
trcKERNEL_HOOKS_KERNEL_SERVICE_WITH_PARAM( EVENT_GROUP_SYNC_TRCBLOCK, EVENTGROUP, eg, bitsToWaitFor );
#undef traceEVENT_GROUP_SYNC_END
#define traceEVENT_GROUP_SYNC_END( eg, bitsToSet, bitsToWaitFor, wasTimeout ) \
if( wasTimeout ) \
{ \
trcKERNEL_HOOKS_KERNEL_SERVICE_WITH_PARAM( EVENT_GROUP_SYNC_END_TRCFAILED, EVENTGROUP, eg, bitsToWaitFor ); \
} \
else \
{ \
trcKERNEL_HOOKS_KERNEL_SERVICE_WITH_PARAM( EVENT_GROUP_SYNC_END, EVENTGROUP, eg, bitsToWaitFor ); \
}
#undef traceEVENT_GROUP_WAIT_BITS_BLOCK
#define traceEVENT_GROUP_WAIT_BITS_BLOCK( eg, bitsToWaitFor ) \
trcKERNEL_HOOKS_KERNEL_SERVICE_WITH_PARAM( EVENT_GROUP_WAIT_BITS_TRCBLOCK, EVENTGROUP, eg, bitsToWaitFor ); \
trcKERNEL_HOOKS_SET_TASK_INSTANCE_FINISHED();
#undef traceEVENT_GROUP_WAIT_BITS_END
#define traceEVENT_GROUP_WAIT_BITS_END( eg, bitsToWaitFor, wasTimeout ) \
if( wasTimeout ) \
{ \
trcKERNEL_HOOKS_KERNEL_SERVICE_WITH_PARAM( EVENT_GROUP_WAIT_BITS_END_TRCFAILED, EVENTGROUP, eg, bitsToWaitFor ); \
} \
else \
{ \
trcKERNEL_HOOKS_KERNEL_SERVICE_WITH_PARAM( EVENT_GROUP_WAIT_BITS_END, EVENTGROUP, eg, bitsToWaitFor ); \
}
#undef traceEVENT_GROUP_CLEAR_BITS
#define traceEVENT_GROUP_CLEAR_BITS( eg, bitsToClear ) \
trcKERNEL_HOOKS_KERNEL_SERVICE_WITH_PARAM( EVENT_GROUP_CLEAR_BITS, EVENTGROUP, eg, bitsToClear );
#undef traceEVENT_GROUP_CLEAR_BITS_FROM_ISR
#define traceEVENT_GROUP_CLEAR_BITS_FROM_ISR( eg, bitsToClear ) \
trcKERNEL_HOOKS_KERNEL_SERVICE_WITH_PARAM_FROM_ISR( EVENT_GROUP_CLEAR_BITS_FROM_ISR, EVENTGROUP, eg, bitsToClear );
#undef traceEVENT_GROUP_SET_BITS
#define traceEVENT_GROUP_SET_BITS( eg, bitsToSet ) \
trcKERNEL_HOOKS_KERNEL_SERVICE_WITH_PARAM( EVENT_GROUP_SET_BITS, EVENTGROUP, eg, bitsToSet );
#undef traceEVENT_GROUP_SET_BITS_FROM_ISR
#define traceEVENT_GROUP_SET_BITS_FROM_ISR( eg, bitsToSet ) \
trcKERNEL_HOOKS_KERNEL_SERVICE_WITH_PARAM_FROM_ISR( EVENT_GROUP_SET_BITS_FROM_ISR, EVENTGROUP, eg, bitsToSet ); \
uiInEventGroupSetBitsFromISR = 1;
#endif /* if ( TRC_CFG_INCLUDE_EVENT_GROUP_EVENTS == 1 ) */
#undef traceTASK_NOTIFY_TAKE
#if ( TRC_CFG_FREERTOS_VERSION < TRC_FREERTOS_VERSION_9_0_0 )
#define traceTASK_NOTIFY_TAKE() \
if( pxCurrentTCB->eNotifyState == eNotified ) { \
trcKERNEL_HOOKS_KERNEL_SERVICE_WITH_PARAM( TRACE_TASK_NOTIFY_TAKE, TASK, pxCurrentTCB, xTicksToWait ); \
} \
else{ \
trcKERNEL_HOOKS_KERNEL_SERVICE_WITH_PARAM( TRACE_TASK_NOTIFY_TAKE_TRCFAILED, TASK, pxCurrentTCB, xTicksToWait ); \
}
#elif ( TRC_CFG_FREERTOS_VERSION < TRC_FREERTOS_VERSION_10_4_0 )
#define traceTASK_NOTIFY_TAKE() \
if( pxCurrentTCB->ucNotifyState == taskNOTIFICATION_RECEIVED ) { \
trcKERNEL_HOOKS_KERNEL_SERVICE_WITH_PARAM( TRACE_TASK_NOTIFY_TAKE, TASK, pxCurrentTCB, xTicksToWait ); \
} \
else{ \
trcKERNEL_HOOKS_KERNEL_SERVICE_WITH_PARAM( TRACE_TASK_NOTIFY_TAKE_TRCFAILED, TASK, pxCurrentTCB, xTicksToWait ); }
#else /* if ( TRC_CFG_FREERTOS_VERSION < TRC_FREERTOS_VERSION_9_0_0 ) */
#define traceTASK_NOTIFY_TAKE( index ) \
if( pxCurrentTCB->ucNotifyState[ index ] == taskNOTIFICATION_RECEIVED ) { \
trcKERNEL_HOOKS_KERNEL_SERVICE_WITH_PARAM( TRACE_TASK_NOTIFY_TAKE, TASK, pxCurrentTCB, xTicksToWait ); \
} \
else{ \
trcKERNEL_HOOKS_KERNEL_SERVICE_WITH_PARAM( TRACE_TASK_NOTIFY_TAKE_TRCFAILED, TASK, pxCurrentTCB, xTicksToWait ); }
#endif /* if ( TRC_CFG_FREERTOS_VERSION < TRC_FREERTOS_VERSION_9_0_0 ) */
#undef traceTASK_NOTIFY_TAKE_BLOCK
#if ( TRC_CFG_FREERTOS_VERSION < TRC_FREERTOS_VERSION_10_4_0 )
#define traceTASK_NOTIFY_TAKE_BLOCK() \
trcKERNEL_HOOKS_KERNEL_SERVICE_WITH_PARAM( TRACE_TASK_NOTIFY_TAKE_TRCBLOCK, TASK, pxCurrentTCB, xTicksToWait ); \
trcKERNEL_HOOKS_SET_TASK_INSTANCE_FINISHED();
#else
#define traceTASK_NOTIFY_TAKE_BLOCK( index ) \
trcKERNEL_HOOKS_KERNEL_SERVICE_WITH_PARAM( TRACE_TASK_NOTIFY_TAKE_TRCBLOCK, TASK, pxCurrentTCB, xTicksToWait ); \
trcKERNEL_HOOKS_SET_TASK_INSTANCE_FINISHED();
#endif
#undef traceTASK_NOTIFY_WAIT
#if ( TRC_CFG_FREERTOS_VERSION < TRC_FREERTOS_VERSION_9_0_0 )
#define traceTASK_NOTIFY_WAIT() \
if( TRACE_GET_OBJECT_FILTER( TASK, pxCurrentTCB ) & CurrentFilterMask ) \
{ \
if( pxCurrentTCB->eNotifyState == eNotified ) \
prvTraceStoreKernelCallWithParam( TRACE_TASK_NOTIFY_WAIT, TRACE_CLASS_TASK, TRACE_GET_TASK_NUMBER( pxCurrentTCB ), xTicksToWait ); \
else \
prvTraceStoreKernelCallWithParam( TRACE_TASK_NOTIFY_WAIT_TRCFAILED, TRACE_CLASS_TASK, TRACE_GET_TASK_NUMBER( pxCurrentTCB ), xTicksToWait ); \
}
#elif ( TRC_CFG_FREERTOS_VERSION < TRC_FREERTOS_VERSION_10_4_0 )
#define traceTASK_NOTIFY_WAIT() \
if( TRACE_GET_OBJECT_FILTER( TASK, pxCurrentTCB ) & CurrentFilterMask ) \
{ \
if( pxCurrentTCB->ucNotifyState == taskNOTIFICATION_RECEIVED ) \
prvTraceStoreKernelCallWithParam( TRACE_TASK_NOTIFY_WAIT, TRACE_CLASS_TASK, TRACE_GET_TASK_NUMBER( pxCurrentTCB ), xTicksToWait ); \
else \
prvTraceStoreKernelCallWithParam( TRACE_TASK_NOTIFY_WAIT_TRCFAILED, TRACE_CLASS_TASK, TRACE_GET_TASK_NUMBER( pxCurrentTCB ), xTicksToWait ); \
}
#else /* if ( TRC_CFG_FREERTOS_VERSION < TRC_FREERTOS_VERSION_9_0_0 ) */
#define traceTASK_NOTIFY_WAIT( index ) \
if( TRACE_GET_OBJECT_FILTER( TASK, pxCurrentTCB ) & CurrentFilterMask ) \
{ \
if( pxCurrentTCB->ucNotifyState[ index ] == taskNOTIFICATION_RECEIVED ) \
prvTraceStoreKernelCallWithParam( TRACE_TASK_NOTIFY_WAIT, TRACE_CLASS_TASK, TRACE_GET_TASK_NUMBER( pxCurrentTCB ), xTicksToWait ); \
else \
prvTraceStoreKernelCallWithParam( TRACE_TASK_NOTIFY_WAIT_TRCFAILED, TRACE_CLASS_TASK, TRACE_GET_TASK_NUMBER( pxCurrentTCB ), xTicksToWait ); \
}
#endif /* if ( TRC_CFG_FREERTOS_VERSION < TRC_FREERTOS_VERSION_9_0_0 ) */
#undef traceTASK_NOTIFY_WAIT_BLOCK
#if ( TRC_CFG_FREERTOS_VERSION < TRC_FREERTOS_VERSION_10_4_0 )
#define traceTASK_NOTIFY_WAIT_BLOCK() \
if( TRACE_GET_OBJECT_FILTER( TASK, pxCurrentTCB ) & CurrentFilterMask ) \
prvTraceStoreKernelCallWithParam( TRACE_TASK_NOTIFY_WAIT_TRCBLOCK, TRACE_CLASS_TASK, TRACE_GET_TASK_NUMBER( pxCurrentTCB ), xTicksToWait ); \
trcKERNEL_HOOKS_SET_TASK_INSTANCE_FINISHED();
#else
#define traceTASK_NOTIFY_WAIT_BLOCK( index ) \
if( TRACE_GET_OBJECT_FILTER( TASK, pxCurrentTCB ) & CurrentFilterMask ) \
prvTraceStoreKernelCallWithParam( TRACE_TASK_NOTIFY_WAIT_TRCBLOCK, TRACE_CLASS_TASK, TRACE_GET_TASK_NUMBER( pxCurrentTCB ), xTicksToWait ); \
trcKERNEL_HOOKS_SET_TASK_INSTANCE_FINISHED();
#endif /* if ( TRC_CFG_FREERTOS_VERSION < TRC_FREERTOS_VERSION_10_4_0 ) */
#undef traceTASK_NOTIFY
#if ( TRC_CFG_FREERTOS_VERSION < TRC_FREERTOS_VERSION_10_4_0 )
#define traceTASK_NOTIFY() \
if( TRACE_GET_OBJECT_FILTER( TASK, TRACE_GET_CURRENT_TASK() ) & CurrentFilterMask ) \
if( TRACE_GET_OBJECT_FILTER( TASK, xTaskToNotify ) & CurrentFilterMask ) \
prvTraceStoreKernelCall( TRACE_TASK_NOTIFY, TRACE_CLASS_TASK, TRACE_GET_TASK_NUMBER( xTaskToNotify ) );
#else
#define traceTASK_NOTIFY( index ) \
if( TRACE_GET_OBJECT_FILTER( TASK, TRACE_GET_CURRENT_TASK() ) & CurrentFilterMask ) \
if( TRACE_GET_OBJECT_FILTER( TASK, xTaskToNotify ) & CurrentFilterMask ) \
prvTraceStoreKernelCall( TRACE_TASK_NOTIFY, TRACE_CLASS_TASK, TRACE_GET_TASK_NUMBER( xTaskToNotify ) );
#endif /* if ( TRC_CFG_FREERTOS_VERSION < TRC_FREERTOS_VERSION_10_4_0 ) */
#undef traceTASK_NOTIFY_FROM_ISR
#if ( TRC_CFG_FREERTOS_VERSION < TRC_FREERTOS_VERSION_10_4_0 )
#define traceTASK_NOTIFY_FROM_ISR() \
if( TRACE_GET_OBJECT_FILTER( TASK, xTaskToNotify ) & CurrentFilterMask ) \
prvTraceStoreKernelCall( TRACE_TASK_NOTIFY_FROM_ISR, TRACE_CLASS_TASK, TRACE_GET_TASK_NUMBER( xTaskToNotify ) );
#else
#define traceTASK_NOTIFY_FROM_ISR( index ) \
if( TRACE_GET_OBJECT_FILTER( TASK, xTaskToNotify ) & CurrentFilterMask ) \
prvTraceStoreKernelCall( TRACE_TASK_NOTIFY_FROM_ISR, TRACE_CLASS_TASK, TRACE_GET_TASK_NUMBER( xTaskToNotify ) );
#endif
#undef traceTASK_NOTIFY_GIVE_FROM_ISR
#if ( TRC_CFG_FREERTOS_VERSION < TRC_FREERTOS_VERSION_10_4_0 )
#define traceTASK_NOTIFY_GIVE_FROM_ISR() \
if( TRACE_GET_OBJECT_FILTER( TASK, xTaskToNotify ) & CurrentFilterMask ) \
prvTraceStoreKernelCall( TRACE_TASK_NOTIFY_GIVE_FROM_ISR, TRACE_CLASS_TASK, TRACE_GET_TASK_NUMBER( xTaskToNotify ) );
#else
#define traceTASK_NOTIFY_GIVE_FROM_ISR( index ) \
if( TRACE_GET_OBJECT_FILTER( TASK, xTaskToNotify ) & CurrentFilterMask ) \
prvTraceStoreKernelCall( TRACE_TASK_NOTIFY_GIVE_FROM_ISR, TRACE_CLASS_TASK, TRACE_GET_TASK_NUMBER( xTaskToNotify ) );
#endif
#if ( TRC_CFG_INCLUDE_STREAM_BUFFER_EVENTS == 1 )
#undef traceSTREAM_BUFFER_CREATE
#define traceSTREAM_BUFFER_CREATE( pxStreamBuffer, xIsMessageBuffer ) \
trcKERNEL_HOOKS_OBJECT_CREATE( TRACE_GET_OBJECT_EVENT_CODE( CREATE_OBJ, TRCSUCCESS, STREAMBUFFER, pxStreamBuffer ), STREAMBUFFER, pxStreamBuffer );
#undef traceSTREAM_BUFFER_CREATE_FAILED
#define traceSTREAM_BUFFER_CREATE_FAILED( xIsMessageBuffer ) \
trcKERNEL_HOOKS_OBJECT_CREATE_FAILED( TRACE_GET_CLASS_EVENT_CODE( CREATE_OBJ, TRCFAILED, STREAMBUFFER, xIsMessageBuffer ), TRACE_GET_CLASS_TRACE_CLASS( STREAMBUFFER, xIsMessageBuffer ) )
#undef traceSTREAM_BUFFER_CREATE_STATIC_FAILED
#define traceSTREAM_BUFFER_CREATE_STATIC_FAILED( xReturn, xIsMessageBuffer ) \
traceSTREAM_BUFFER_CREATE_FAILED( xIsMessageBuffer )
#undef traceSTREAM_BUFFER_DELETE
#define traceSTREAM_BUFFER_DELETE( xStreamBuffer ) \
trcKERNEL_HOOKS_OBJECT_DELETE( TRACE_GET_OBJECT_EVENT_CODE( DELETE_OBJ, TRCSUCCESS, STREAMBUFFER, xStreamBuffer ), TRACE_GET_OBJECT_EVENT_CODE( OBJCLOSE_NAME, TRCSUCCESS, STREAMBUFFER, xStreamBuffer ), TRACE_GET_OBJECT_EVENT_CODE( OBJCLOSE_PROP, TRCSUCCESS, STREAMBUFFER, xStreamBuffer ), STREAMBUFFER, xStreamBuffer );
#undef traceSTREAM_BUFFER_RESET
#define traceSTREAM_BUFFER_RESET( xStreamBuffer ) \
trcKERNEL_HOOKS_KERNEL_SERVICE( prvGetStreamBufferType( xStreamBuffer ) > 0 ? TRACE_MESSAGEBUFFER_RESET : TRACE_STREAMBUFFER_RESET, STREAMBUFFER, xStreamBuffer ); \
trcKERNEL_HOOKS_SET_OBJECT_STATE( STREAMBUFFER, xStreamBuffer, 0 );
#undef traceSTREAM_BUFFER_SEND
#define traceSTREAM_BUFFER_SEND( xStreamBuffer, xReturn ) \
trcKERNEL_HOOKS_KERNEL_SERVICE( TRACE_GET_OBJECT_EVENT_CODE( SEND, TRCSUCCESS, STREAMBUFFER, xStreamBuffer ), STREAMBUFFER, xStreamBuffer ); \
trcKERNEL_HOOKS_SET_OBJECT_STATE( STREAMBUFFER, xStreamBuffer, prvBytesInBuffer( xStreamBuffer ) );
#undef traceBLOCKING_ON_STREAM_BUFFER_SEND
#define traceBLOCKING_ON_STREAM_BUFFER_SEND( xStreamBuffer ) \
trcKERNEL_HOOKS_KERNEL_SERVICE( TRACE_GET_OBJECT_EVENT_CODE( SEND, TRCBLOCK, STREAMBUFFER, xStreamBuffer ), STREAMBUFFER, xStreamBuffer );
#undef traceSTREAM_BUFFER_SEND_FAILED
#define traceSTREAM_BUFFER_SEND_FAILED( xStreamBuffer ) \
trcKERNEL_HOOKS_KERNEL_SERVICE( TRACE_GET_OBJECT_EVENT_CODE( SEND, TRCFAILED, STREAMBUFFER, xStreamBuffer ), STREAMBUFFER, xStreamBuffer );
#undef traceSTREAM_BUFFER_RECEIVE
#define traceSTREAM_BUFFER_RECEIVE( xStreamBuffer, xReceivedLength ) \
trcKERNEL_HOOKS_KERNEL_SERVICE( TRACE_GET_OBJECT_EVENT_CODE( RECEIVE, TRCSUCCESS, STREAMBUFFER, xStreamBuffer ), STREAMBUFFER, xStreamBuffer ); \
trcKERNEL_HOOKS_SET_OBJECT_STATE( STREAMBUFFER, xStreamBuffer, prvBytesInBuffer( xStreamBuffer ) );
#undef traceBLOCKING_ON_STREAM_BUFFER_RECEIVE
#define traceBLOCKING_ON_STREAM_BUFFER_RECEIVE( xStreamBuffer ) \
trcKERNEL_HOOKS_KERNEL_SERVICE( TRACE_GET_OBJECT_EVENT_CODE( RECEIVE, TRCBLOCK, STREAMBUFFER, xStreamBuffer ), STREAMBUFFER, xStreamBuffer );
#undef traceSTREAM_BUFFER_RECEIVE_FAILED
#define traceSTREAM_BUFFER_RECEIVE_FAILED( xStreamBuffer ) \
trcKERNEL_HOOKS_KERNEL_SERVICE( TRACE_GET_OBJECT_EVENT_CODE( RECEIVE, TRCFAILED, STREAMBUFFER, xStreamBuffer ), STREAMBUFFER, xStreamBuffer );
#undef traceSTREAM_BUFFER_SEND_FROM_ISR
#define traceSTREAM_BUFFER_SEND_FROM_ISR( xStreamBuffer, xReturn ) \
if( xReturn > ( size_t ) 0 ) \
{ \
trcKERNEL_HOOKS_KERNEL_SERVICE_FROM_ISR( TRACE_GET_OBJECT_EVENT_CODE( SEND_FROM_ISR, TRCSUCCESS, STREAMBUFFER, xStreamBuffer ), STREAMBUFFER, xStreamBuffer ); \
trcKERNEL_HOOKS_SET_OBJECT_STATE( STREAMBUFFER, xStreamBuffer, prvBytesInBuffer( xStreamBuffer ) ); \
} \
else \
{ \
trcKERNEL_HOOKS_KERNEL_SERVICE_FROM_ISR( TRACE_GET_OBJECT_EVENT_CODE( SEND_FROM_ISR, TRCFAILED, STREAMBUFFER, xStreamBuffer ), STREAMBUFFER, xStreamBuffer ); \
}
#undef traceSTREAM_BUFFER_RECEIVE_FROM_ISR
#define traceSTREAM_BUFFER_RECEIVE_FROM_ISR( xStreamBuffer, xReceivedLength ) \
if( xReceivedLength > ( size_t ) 0 ) \
{ \
trcKERNEL_HOOKS_KERNEL_SERVICE_FROM_ISR( TRACE_GET_OBJECT_EVENT_CODE( RECEIVE_FROM_ISR, TRCSUCCESS, STREAMBUFFER, xStreamBuffer ), STREAMBUFFER, xStreamBuffer ); \
trcKERNEL_HOOKS_SET_OBJECT_STATE( STREAMBUFFER, xStreamBuffer, prvBytesInBuffer( xStreamBuffer ) ); \
} \
else \
{ \
trcKERNEL_HOOKS_KERNEL_SERVICE_FROM_ISR( TRACE_GET_OBJECT_EVENT_CODE( RECEIVE_FROM_ISR, TRCFAILED, STREAMBUFFER, xStreamBuffer ), STREAMBUFFER, xStreamBuffer ); \
}
#endif /* if ( TRC_CFG_INCLUDE_STREAM_BUFFER_EVENTS == 1 ) */
#endif /* if ( TRC_CFG_SCHEDULING_ONLY == 0 ) */
#endif /* if ( TRC_CFG_RECORDER_MODE == TRC_RECORDER_MODE_SNAPSHOT ) */
#if ( TRC_CFG_RECORDER_MODE == TRC_RECORDER_MODE_STREAMING )
TraceHeapHandle_t xTraceKernelPortGetSystemHeapHandle( void );
/*************************************************************************/
/* KERNEL SPECIFIC OBJECT CONFIGURATION */
/*************************************************************************/
/*******************************************************************************
* The event codes - should match the offline config file.
******************************************************************************/
/*** Event codes for streaming - should match the Tracealyzer config file *****/
#define PSF_EVENT_NULL_EVENT 0x00
#define PSF_EVENT_TRACE_START 0x01
#define PSF_EVENT_TS_CONFIG 0x02
#define PSF_EVENT_OBJ_NAME 0x03
#define PSF_EVENT_TASK_PRIORITY 0x04
#define PSF_EVENT_TASK_PRIO_INHERIT 0x05
#define PSF_EVENT_TASK_PRIO_DISINHERIT 0x06
#define PSF_EVENT_DEFINE_ISR 0x07
#define PSF_EVENT_TASK_CREATE 0x10
#define PSF_EVENT_QUEUE_CREATE 0x11
#define PSF_EVENT_SEMAPHORE_BINARY_CREATE 0x12
#define PSF_EVENT_MUTEX_CREATE 0x13
#define PSF_EVENT_TIMER_CREATE 0x14
#define PSF_EVENT_EVENTGROUP_CREATE 0x15
#define PSF_EVENT_SEMAPHORE_COUNTING_CREATE 0x16
#define PSF_EVENT_MUTEX_RECURSIVE_CREATE 0x17
#define PSF_EVENT_STREAMBUFFER_CREATE 0x18
#define PSF_EVENT_MESSAGEBUFFER_CREATE 0x19
#define PSF_EVENT_TASK_DELETE 0x20
#define PSF_EVENT_QUEUE_DELETE 0x21
#define PSF_EVENT_SEMAPHORE_DELETE 0x22
#define PSF_EVENT_MUTEX_DELETE 0x23
#define PSF_EVENT_TIMER_DELETE 0x24
#define PSF_EVENT_EVENTGROUP_DELETE 0x25
#define PSF_EVENT_STREAMBUFFER_DELETE 0x28
#define PSF_EVENT_MESSAGEBUFFER_DELETE 0x29
#define PSF_EVENT_TASK_READY 0x30
#define PSF_EVENT_NEW_TIME 0x31
#define PSF_EVENT_NEW_TIME_SCHEDULER_SUSPENDED 0x32
#define PSF_EVENT_ISR_BEGIN 0x33
#define PSF_EVENT_ISR_RESUME 0x34
#define PSF_EVENT_TS_BEGIN 0x35
#define PSF_EVENT_TS_RESUME 0x36
#define PSF_EVENT_TASK_ACTIVATE 0x37
#define PSF_EVENT_MALLOC 0x38
#define PSF_EVENT_FREE 0x39
#define PSF_EVENT_LOWPOWER_BEGIN 0x3A
#define PSF_EVENT_LOWPOWER_END 0x3B
#define PSF_EVENT_IFE_NEXT 0x3C
#define PSF_EVENT_IFE_DIRECT 0x3D
#define PSF_EVENT_TASK_CREATE_FAILED 0x40
#define PSF_EVENT_QUEUE_CREATE_FAILED 0x41
#define PSF_EVENT_SEMAPHORE_BINARY_CREATE_FAILED 0x42
#define PSF_EVENT_MUTEX_CREATE_FAILED 0x43
#define PSF_EVENT_TIMER_CREATE_FAILED 0x44
#define PSF_EVENT_EVENTGROUP_CREATE_FAILED 0x45
#define PSF_EVENT_SEMAPHORE_COUNTING_CREATE_FAILED 0x46
#define PSF_EVENT_MUTEX_RECURSIVE_CREATE_FAILED 0x47
#define PSF_EVENT_STREAMBUFFER_CREATE_FAILED 0x49
#define PSF_EVENT_MESSAGEBUFFER_CREATE_FAILED 0x4A
#define PSF_EVENT_TIMER_DELETE_FAILED 0x48
#define PSF_EVENT_QUEUE_SEND 0x50
#define PSF_EVENT_SEMAPHORE_GIVE 0x51
#define PSF_EVENT_MUTEX_GIVE 0x52
#define PSF_EVENT_QUEUE_SEND_FAILED 0x53
#define PSF_EVENT_SEMAPHORE_GIVE_FAILED 0x54
#define PSF_EVENT_MUTEX_GIVE_FAILED 0x55
#define PSF_EVENT_QUEUE_SEND_BLOCK 0x56
#define PSF_EVENT_SEMAPHORE_GIVE_BLOCK 0x57
#define PSF_EVENT_MUTEX_GIVE_BLOCK 0x58
#define PSF_EVENT_QUEUE_SEND_FROMISR 0x59
#define PSF_EVENT_SEMAPHORE_GIVE_FROMISR 0x5A
#define PSF_EVENT_QUEUE_SEND_FROMISR_FAILED 0x5C
#define PSF_EVENT_SEMAPHORE_GIVE_FROMISR_FAILED 0x5D
#define PSF_EVENT_QUEUE_RECEIVE 0x60
#define PSF_EVENT_SEMAPHORE_TAKE 0x61
#define PSF_EVENT_MUTEX_TAKE 0x62
#define PSF_EVENT_QUEUE_RECEIVE_FAILED 0x63
#define PSF_EVENT_SEMAPHORE_TAKE_FAILED 0x64
#define PSF_EVENT_MUTEX_TAKE_FAILED 0x65
#define PSF_EVENT_QUEUE_RECEIVE_BLOCK 0x66
#define PSF_EVENT_SEMAPHORE_TAKE_BLOCK 0x67
#define PSF_EVENT_MUTEX_TAKE_BLOCK 0x68
#define PSF_EVENT_QUEUE_RECEIVE_FROMISR 0x69
#define PSF_EVENT_SEMAPHORE_TAKE_FROMISR 0x6A
#define PSF_EVENT_QUEUE_RECEIVE_FROMISR_FAILED 0x6C
#define PSF_EVENT_SEMAPHORE_TAKE_FROMISR_FAILED 0x6D
#define PSF_EVENT_QUEUE_PEEK 0x70
#define PSF_EVENT_SEMAPHORE_PEEK 0x71
#define PSF_EVENT_MUTEX_PEEK 0x72
#define PSF_EVENT_QUEUE_PEEK_FAILED 0x73
#define PSF_EVENT_SEMAPHORE_PEEK_FAILED 0x74
#define PSF_EVENT_MUTEX_PEEK_FAILED 0x75
#define PSF_EVENT_QUEUE_PEEK_BLOCK 0x76
#define PSF_EVENT_SEMAPHORE_PEEK_BLOCK 0x77
#define PSF_EVENT_MUTEX_PEEK_BLOCK 0x78
#define PSF_EVENT_TASK_DELAY_UNTIL 0x79
#define PSF_EVENT_TASK_DELAY 0x7A
#define PSF_EVENT_TASK_SUSPEND 0x7B
#define PSF_EVENT_TASK_RESUME 0x7C
#define PSF_EVENT_TASK_RESUME_FROMISR 0x7D
#define PSF_EVENT_TIMER_PENDFUNCCALL 0x80
#define PSF_EVENT_TIMER_PENDFUNCCALL_FROMISR 0x81
#define PSF_EVENT_TIMER_PENDFUNCCALL_FAILED 0x82
#define PSF_EVENT_TIMER_PENDFUNCCALL_FROMISR_FAILED 0x83
#define PSF_EVENT_USER_EVENT 0x90
#define PSF_EVENT_TIMER_START 0xA0
#define PSF_EVENT_TIMER_RESET 0xA1
#define PSF_EVENT_TIMER_STOP 0xA2
#define PSF_EVENT_TIMER_CHANGEPERIOD 0xA3
#define PSF_EVENT_TIMER_START_FROMISR 0xA4
#define PSF_EVENT_TIMER_RESET_FROMISR 0xA5
#define PSF_EVENT_TIMER_STOP_FROMISR 0xA6
#define PSF_EVENT_TIMER_CHANGEPERIOD_FROMISR 0xA7
#define PSF_EVENT_TIMER_START_FAILED 0xA8
#define PSF_EVENT_TIMER_RESET_FAILED 0xA9
#define PSF_EVENT_TIMER_STOP_FAILED 0xAA
#define PSF_EVENT_TIMER_CHANGEPERIOD_FAILED 0xAB
#define PSF_EVENT_TIMER_START_FROMISR_FAILED 0xAC
#define PSF_EVENT_TIMER_RESET_FROMISR_FAILED 0xAD
#define PSF_EVENT_TIMER_STOP_FROMISR_FAILED 0xAE
#define PSF_EVENT_TIMER_CHANGEPERIOD_FROMISR_FAILED 0xAF
#define PSF_EVENT_EVENTGROUP_SYNC 0xB0
#define PSF_EVENT_EVENTGROUP_WAITBITS 0xB1
#define PSF_EVENT_EVENTGROUP_CLEARBITS 0xB2
#define PSF_EVENT_EVENTGROUP_CLEARBITS_FROMISR 0xB3
#define PSF_EVENT_EVENTGROUP_SETBITS 0xB4
#define PSF_EVENT_EVENTGROUP_SETBITS_FROMISR 0xB5
#define PSF_EVENT_EVENTGROUP_SYNC_BLOCK 0xB6
#define PSF_EVENT_EVENTGROUP_WAITBITS_BLOCK 0xB7
#define PSF_EVENT_EVENTGROUP_SYNC_FAILED 0xB8
#define PSF_EVENT_EVENTGROUP_WAITBITS_FAILED 0xB9
#define PSF_EVENT_QUEUE_SEND_FRONT 0xC0
#define PSF_EVENT_QUEUE_SEND_FRONT_FAILED 0xC1
#define PSF_EVENT_QUEUE_SEND_FRONT_BLOCK 0xC2
#define PSF_EVENT_QUEUE_SEND_FRONT_FROMISR 0xC3
#define PSF_EVENT_QUEUE_SEND_FRONT_FROMISR_FAILED 0xC4
#define PSF_EVENT_MUTEX_GIVE_RECURSIVE 0xC5
#define PSF_EVENT_MUTEX_GIVE_RECURSIVE_FAILED 0xC6
#define PSF_EVENT_MUTEX_TAKE_RECURSIVE 0xC7
#define PSF_EVENT_MUTEX_TAKE_RECURSIVE_FAILED 0xC8
#define PSF_EVENT_TASK_NOTIFY 0xC9
#define PSF_EVENT_TASK_NOTIFY_WAIT 0xCA
#define PSF_EVENT_TASK_NOTIFY_WAIT_BLOCK 0xCB
#define PSF_EVENT_TASK_NOTIFY_WAIT_FAILED 0xCC
#define PSF_EVENT_TASK_NOTIFY_FROM_ISR 0xCD
#define PSF_EVENT_TIMER_EXPIRED 0xD2
#define PSF_EVENT_STREAMBUFFER_SEND 0xD3
#define PSF_EVENT_STREAMBUFFER_SEND_BLOCK 0xD4
#define PSF_EVENT_STREAMBUFFER_SEND_FAILED 0xD5
#define PSF_EVENT_STREAMBUFFER_RECEIVE 0xD6
#define PSF_EVENT_STREAMBUFFER_RECEIVE_BLOCK 0xD7
#define PSF_EVENT_STREAMBUFFER_RECEIVE_FAILED 0xD8
#define PSF_EVENT_STREAMBUFFER_SEND_FROM_ISR 0xD9
#define PSF_EVENT_STREAMBUFFER_SEND_FROM_ISR_FAILED 0xDA
#define PSF_EVENT_STREAMBUFFER_RECEIVE_FROM_ISR 0xDB
#define PSF_EVENT_STREAMBUFFER_RECEIVE_FROM_ISR_FAILED 0xDC
#define PSF_EVENT_STREAMBUFFER_RESET 0xDD
#define PSF_EVENT_MESSAGEBUFFER_SEND 0xDE
#define PSF_EVENT_MESSAGEBUFFER_SEND_BLOCK 0xDF
#define PSF_EVENT_MESSAGEBUFFER_SEND_FAILED 0xE0
#define PSF_EVENT_MESSAGEBUFFER_RECEIVE 0xE1
#define PSF_EVENT_MESSAGEBUFFER_RECEIVE_BLOCK 0xE2
#define PSF_EVENT_MESSAGEBUFFER_RECEIVE_FAILED 0xE3
#define PSF_EVENT_MESSAGEBUFFER_SEND_FROM_ISR 0xE4
#define PSF_EVENT_MESSAGEBUFFER_SEND_FROM_ISR_FAILED 0xE5
#define PSF_EVENT_MESSAGEBUFFER_RECEIVE_FROM_ISR 0xE6
#define PSF_EVENT_MESSAGEBUFFER_RECEIVE_FROM_ISR_FAILED 0xE7
#define PSF_EVENT_MESSAGEBUFFER_RESET 0xE8
#define PSF_EVENT_MALLOC_FAILED 0xE9
#define PSF_EVENT_FREE_FAILED 0xEA
#define PSF_EVENT_UNUSED_STACK 0xEB
#define PSF_EVENT_STATEMACHINE_STATE_CREATE 0xEC
#define PSF_EVENT_STATEMACHINE_CREATE 0xED
#define PSF_EVENT_STATEMACHINE_STATECHANGE 0xEE
#define PSF_EVENT_INTERVAL_CREATE 0xEF
#define PSF_EVENT_INTERVAL_STATECHANGE 0xF0
#define PSF_EVENT_EXTENSION_CREATE 0xF1
#define PSF_EVENT_HEAP_CREATE 0xF2
#define PSF_EVENT_COUNTER_CREATE 0xF3
#define PSF_EVENT_COUNTER_CHANGE 0xF4
#define PSF_EVENT_COUNTER_LIMIT_EXCEEDED 0xF5
#define PSF_EVENT_MUTEX_TAKE_RECURSIVE_BLOCK 0xF6
#define TRC_EVENT_LAST_ID PSF_EVENT_COUNTER_LIMIT_EXCEEDED
/*** The trace macros for streaming ******************************************/
/* A macro that will update the tick count when returning from tickless idle */
#undef traceINCREASE_TICK_COUNT
/* Note: This can handle time adjustments of max 2^32 ticks, i.e., 35 seconds at 120 MHz. Thus, tick-less idle periods longer than 2^32 ticks will appear "compressed" on the time line.*/
#define traceINCREASE_TICK_COUNT( xCount ) { uint32_t uiTraceTickCount; xTraceTimestampGetOsTickCount( &uiTraceTickCount ); xTraceTimestampSetOsTickCount( uiTraceTickCount + ( xCount ) ); }
#if ( TRC_CFG_INCLUDE_OSTICK_EVENTS == 1 )
#define OS_TICK_EVENT( uxSchedulerSuspended, xTickCount ) if( ( uxSchedulerSuspended ) == ( unsigned portBASE_TYPE ) pdFALSE ) { prvTraceStoreEvent_Param( PSF_EVENT_NEW_TIME, ( uint32_t ) ( xTickCount ) ); }
#else
#define OS_TICK_EVENT( uxSchedulerSuspended, xTickCount )
#endif
/* Called on each OS tick. Will call uiPortGetTimestamp to make sure it is called at least once every OS tick. */
#undef traceTASK_INCREMENT_TICK
#if TRC_CFG_FREERTOS_VERSION >= TRC_FREERTOS_VERSION_10_3_0
#define traceTASK_INCREMENT_TICK( xTickCount ) \
if( uxSchedulerSuspended == ( unsigned portBASE_TYPE ) pdTRUE || xPendedTicks == 0 ) { xTraceTimestampSetOsTickCount( ( xTickCount ) + 1 ); } \
OS_TICK_EVENT( uxSchedulerSuspended, ( xTickCount ) + 1 )
#elif TRC_CFG_FREERTOS_VERSION >= TRC_FREERTOS_VERSION_7_5_X
#define traceTASK_INCREMENT_TICK( xTickCount ) \
if( uxSchedulerSuspended == ( unsigned portBASE_TYPE ) pdTRUE || uxPendedTicks == 0 ) { xTraceTimestampSetOsTickCount( xTickCount + 1 ); } \
OS_TICK_EVENT( uxSchedulerSuspended, xTickCount + 1 )
#else /* if TRC_CFG_FREERTOS_VERSION >= TRC_FREERTOS_VERSION_10_3_0 */
#define traceTASK_INCREMENT_TICK( xTickCount ) \
if( uxSchedulerSuspended == ( unsigned portBASE_TYPE ) pdTRUE || uxMissedTicks == 0 ) { xTraceTimestampSetOsTickCount( xTickCount + 1 ); } \
OS_TICK_EVENT( uxSchedulerSuspended, xTickCount + 1 )
#endif /* if TRC_CFG_FREERTOS_VERSION >= TRC_FREERTOS_VERSION_10_3_0 */
/* Called on each task-switch */
#undef traceTASK_SWITCHED_IN
#define traceTASK_SWITCHED_IN() \
xTraceTaskSwitch( pxCurrentTCB, pxCurrentTCB->uxPriority )
/* Called for each task that becomes ready */
#undef traceMOVED_TASK_TO_READY_STATE
#define traceMOVED_TASK_TO_READY_STATE( pxTCB ) \
xTraceTaskReady( pxTCB )
#undef traceTASK_CREATE
#if TRC_CFG_FREERTOS_VERSION >= TRC_FREERTOS_VERSION_9_0_0
#define traceTASK_CREATE( pxNewTCB ) \
if( ( pxNewTCB ) != 0 ) \
{ \
xTraceTaskRegisterWithoutHandle( ( void * ) ( pxNewTCB ), ( pxNewTCB )->pcTaskName, ( pxNewTCB )->uxPriority ); \
}
#else
#define traceTASK_CREATE( pxNewTCB ) \
if( pxNewTCB != 0 ) \
{ \
xTraceTaskRegisterWithoutHandle( ( void * ) pxNewTCB, ( const char * ) pcName, ( uint32_t ) uxPriority ); \
}
#endif /* if TRC_CFG_FREERTOS_VERSION >= TRC_FREERTOS_VERSION_9_0_0 */
/* Called in vTaskCreate, if it fails (typically if the stack can not be allocated) */
#undef traceTASK_CREATE_FAILED
#define traceTASK_CREATE_FAILED() \
prvTraceStoreEvent_None( PSF_EVENT_TASK_CREATE_FAILED )
/* Called on vTaskDelete */
#undef traceTASK_DELETE /* We don't allow for filtering out "delete" events. They are important and not very frequent. Moreover, we can't exclude create events, so this should be symmetrical. */
#define traceTASK_DELETE( pxTaskToDelete ) \
xTraceTaskUnregisterWithoutHandle( pxTaskToDelete, ( pxTaskToDelete )->uxPriority )
#if ( TRC_CFG_SCHEDULING_ONLY == 0 )
#if ( defined( configUSE_TICKLESS_IDLE ) && configUSE_TICKLESS_IDLE != 0 )
#undef traceLOW_POWER_IDLE_BEGIN
#define traceLOW_POWER_IDLE_BEGIN() \
prvTraceStoreEvent_Param( PSF_EVENT_LOWPOWER_BEGIN, xExpectedIdleTime )
#undef traceLOW_POWER_IDLE_END
#define traceLOW_POWER_IDLE_END() \
prvTraceStoreEvent_None( PSF_EVENT_LOWPOWER_END )
#endif
/* Called on vTaskSuspend */
#undef traceTASK_SUSPEND
#define traceTASK_SUSPEND( pxTaskToSuspend ) \
prvTraceStoreEvent_Handle( PSF_EVENT_TASK_SUSPEND, pxTaskToSuspend )
/* Called on vTaskDelay - note the use of FreeRTOS variable xTicksToDelay */
#undef traceTASK_DELAY
#define traceTASK_DELAY() \
prvTraceStoreEvent_Param( PSF_EVENT_TASK_DELAY, xTicksToDelay )
/* Called on vTaskDelayUntil - note the use of FreeRTOS variable xTimeToWake */
#undef traceTASK_DELAY_UNTIL
#if TRC_CFG_FREERTOS_VERSION >= TRC_FREERTOS_VERSION_9_0_0
#define traceTASK_DELAY_UNTIL( xTimeToWake ) \
prvTraceStoreEvent_Param( PSF_EVENT_TASK_DELAY_UNTIL, ( xTimeToWake ) )
#else
#define traceTASK_DELAY_UNTIL() \
prvTraceStoreEvent_Param( PSF_EVENT_TASK_DELAY_UNTIL, xTimeToWake )
#endif
#if ( TRC_CFG_FREERTOS_VERSION >= TRC_FREERTOS_VERSION_9_0_0 )
#define traceQUEUE_CREATE_HELPER() \
case queueQUEUE_TYPE_MUTEX: \
xTraceObjectRegisterWithoutHandle( PSF_EVENT_MUTEX_CREATE, ( void * ) pxNewQueue, "", 0 ); \
break; \
case queueQUEUE_TYPE_RECURSIVE_MUTEX: \
xTraceObjectRegisterWithoutHandle( PSF_EVENT_MUTEX_RECURSIVE_CREATE, ( void * ) pxNewQueue, "", 0 ); \
break;
#else /* if ( TRC_CFG_FREERTOS_VERSION >= TRC_FREERTOS_VERSION_9_0_0 ) */
#define traceQUEUE_CREATE_HELPER()
#endif /* if ( TRC_CFG_FREERTOS_VERSION >= TRC_FREERTOS_VERSION_9_0_0 ) */
/* Called in xQueueCreate, and thereby for all other object based on queues, such as semaphores. */
#undef traceQUEUE_CREATE
#define traceQUEUE_CREATE( pxNewQueue ) \
switch( ( pxNewQueue )->ucQueueType ) \
{ \
case queueQUEUE_TYPE_BASE: \
xTraceObjectRegisterWithoutHandle( PSF_EVENT_QUEUE_CREATE, ( void * ) ( pxNewQueue ), "", ( uint32_t ) uxQueueLength ); \
break; \
case queueQUEUE_TYPE_BINARY_SEMAPHORE: \
xTraceObjectRegisterWithoutHandle( PSF_EVENT_SEMAPHORE_BINARY_CREATE, ( void * ) ( pxNewQueue ), "", 0 ); \
break; \
traceQUEUE_CREATE_HELPER() \
}
#if ( TRC_CFG_FREERTOS_VERSION >= TRC_FREERTOS_VERSION_9_0_0 )
#define traceQUEUE_CREATE_FAILED_HELPER() \
case queueQUEUE_TYPE_MUTEX: \
prvTraceStoreEvent_HandleParam( PSF_EVENT_MUTEX_CREATE_FAILED, 0, 0 ); \
break; \
case queueQUEUE_TYPE_RECURSIVE_MUTEX: \
prvTraceStoreEvent_HandleParam( PSF_EVENT_MUTEX_RECURSIVE_CREATE_FAILED, 0, 0 ); \
break;
#else /* if ( TRC_CFG_FREERTOS_VERSION >= TRC_FREERTOS_VERSION_9_0_0 ) */
#define traceQUEUE_CREATE_FAILED_HELPER()
#endif /* if ( TRC_CFG_FREERTOS_VERSION >= TRC_FREERTOS_VERSION_9_0_0 ) */
/* Called in xQueueCreate, if the queue creation fails */
#undef traceQUEUE_CREATE_FAILED
#define traceQUEUE_CREATE_FAILED( queueType ) \
switch( queueType ) \
{ \
case queueQUEUE_TYPE_BASE: \
prvTraceStoreEvent_HandleParam( PSF_EVENT_QUEUE_CREATE_FAILED, 0, uxQueueLength ); \
break; \
case queueQUEUE_TYPE_BINARY_SEMAPHORE: \
prvTraceStoreEvent_HandleParam( PSF_EVENT_SEMAPHORE_BINARY_CREATE_FAILED, 0, 0 ); \
break; \
traceQUEUE_CREATE_FAILED_HELPER() \
}
#undef traceQUEUE_DELETE /* We don't allow for filtering out "delete" events. They are important and not very frequent. Moreover, we can't exclude create events, so this should be symmetrical. */
#define traceQUEUE_DELETE( pxQueue ) \
switch( ( pxQueue )->ucQueueType ) \
{ \
case queueQUEUE_TYPE_BASE: \
xTraceObjectUnregisterWithoutHandle( PSF_EVENT_QUEUE_DELETE, ( void * ) ( pxQueue ), ( pxQueue )->uxMessagesWaiting ); \
break; \
case queueQUEUE_TYPE_MUTEX: \
case queueQUEUE_TYPE_RECURSIVE_MUTEX: \
xTraceObjectUnregisterWithoutHandle( PSF_EVENT_MUTEX_DELETE, ( void * ) ( pxQueue ), ( pxQueue )->uxMessagesWaiting ); \
break; \
case queueQUEUE_TYPE_COUNTING_SEMAPHORE: \
case queueQUEUE_TYPE_BINARY_SEMAPHORE: \
xTraceObjectUnregisterWithoutHandle( PSF_EVENT_SEMAPHORE_DELETE, ( void * ) ( pxQueue ), ( pxQueue )->uxMessagesWaiting ); \
break; \
}
/* Called in xQueueCreateCountingSemaphore, if the queue creation fails */
#undef traceCREATE_COUNTING_SEMAPHORE
#if ( TRC_CFG_FREERTOS_VERSION >= TRC_FREERTOS_VERSION_8_X_X )
#define traceCREATE_COUNTING_SEMAPHORE() \
xTraceObjectRegisterWithoutHandle( PSF_EVENT_SEMAPHORE_COUNTING_CREATE, ( void * ) xHandle, "", ( uint32_t ) uxMaxCount )
#elif ( TRC_CFG_FREERTOS_VERSION >= TRC_FREERTOS_VERSION_7_5_X )
#define traceCREATE_COUNTING_SEMAPHORE() \
xTraceObjectRegisterWithoutHandle( PSF_EVENT_SEMAPHORE_COUNTING_CREATE, ( void * ) xHandle, "", uxInitialCount )
#elif ( TRC_CFG_FREERTOS_VERSION >= TRC_FREERTOS_VERSION_7_4_X )
#define traceCREATE_COUNTING_SEMAPHORE() \
xTraceObjectRegisterWithoutHandle( PSF_EVENT_SEMAPHORE_COUNTING_CREATE, ( void * ) xHandle, "", uxCountValue )
#else /* if ( TRC_CFG_FREERTOS_VERSION >= TRC_FREERTOS_VERSION_8_X_X ) */
#define traceCREATE_COUNTING_SEMAPHORE() \
xTraceObjectRegisterWithoutHandle( PSF_EVENT_SEMAPHORE_COUNTING_CREATE, ( void * ) pxHandle, "", uxCountValue )
#endif /* if ( TRC_CFG_FREERTOS_VERSION >= TRC_FREERTOS_VERSION_8_X_X ) */
#undef traceCREATE_COUNTING_SEMAPHORE_FAILED
#if ( TRC_CFG_FREERTOS_VERSION >= TRC_FREERTOS_VERSION_8_X_X )
#define traceCREATE_COUNTING_SEMAPHORE_FAILED() \
prvTraceStoreEvent_HandleParam( PSF_EVENT_SEMAPHORE_COUNTING_CREATE_FAILED, 0, uxMaxCount )
#elif ( TRC_CFG_FREERTOS_VERSION >= TRC_FREERTOS_VERSION_7_5_X )
#define traceCREATE_COUNTING_SEMAPHORE_FAILED() \
prvTraceStoreEvent_HandleParam( PSF_EVENT_SEMAPHORE_COUNTING_CREATE_FAILED, 0, uxInitialCount )
#elif ( TRC_CFG_FREERTOS_VERSION >= TRC_FREERTOS_VERSION_7_4_X )
#define traceCREATE_COUNTING_SEMAPHORE_FAILED() \
prvTraceStoreEvent_HandleParam( PSF_EVENT_SEMAPHORE_COUNTING_CREATE_FAILED, 0, uxCountValue )
#else /* if ( TRC_CFG_FREERTOS_VERSION >= TRC_FREERTOS_VERSION_8_X_X ) */
#define traceCREATE_COUNTING_SEMAPHORE_FAILED() \
prvTraceStoreEvent_HandleParam( PSF_EVENT_SEMAPHORE_COUNTING_CREATE_FAILED, 0, uxCountValue )
#endif /* if ( TRC_CFG_FREERTOS_VERSION >= TRC_FREERTOS_VERSION_8_X_X ) */
/* This macro is not necessary as of FreeRTOS v9.0.0 */
#if ( TRC_CFG_FREERTOS_VERSION < TRC_FREERTOS_VERSION_9_0_0 )
/* Called in xQueueCreateMutex, and thereby also from xSemaphoreCreateMutex and xSemaphoreCreateRecursiveMutex */
#undef traceCREATE_MUTEX
#define traceCREATE_MUTEX( pxNewQueue ) \
switch( pxNewQueue->ucQueueType ) \
{ \
case queueQUEUE_TYPE_MUTEX: \
xTraceObjectRegisterWithoutHandle( PSF_EVENT_MUTEX_CREATE, ( void * ) ( pxNewQueue ), "", 0 ); \
break; \
case queueQUEUE_TYPE_RECURSIVE_MUTEX: \
xTraceObjectRegisterWithoutHandle( PSF_EVENT_MUTEX_RECURSIVE_CREATE, ( void * ) ( pxNewQueue ), "", 0 ); \
break; \
}
/* Called in xQueueCreateMutex when the operation fails (when memory allocation fails) */
#undef traceCREATE_MUTEX_FAILED
#define traceCREATE_MUTEX_FAILED() \
prvTraceStoreEvent_HandleParam( PSF_EVENT_MUTEX_CREATE_FAILED, 0, 0 )
#endif /* (TRC_CFG_FREERTOS_VERSION < TRC_FREERTOS_VERSION_9_0_0) */
/* Called when the Mutex can not be given, since not holder */
#undef traceGIVE_MUTEX_RECURSIVE_FAILED
#define traceGIVE_MUTEX_RECURSIVE_FAILED( pxMutex ) \
prvTraceStoreEvent_Handle( PSF_EVENT_MUTEX_GIVE_RECURSIVE_FAILED, ( void * ) ( pxMutex ) )
/* Called when a message is sent to a queue */ /* CS IS NEW ! */
#undef traceQUEUE_SEND
#define traceQUEUE_SEND( pxQueue ) \
switch( ( pxQueue )->ucQueueType ) \
{ \
case queueQUEUE_TYPE_BASE: \
prvTraceStoreEvent_HandleParam( xCopyPosition == queueSEND_TO_BACK ? PSF_EVENT_QUEUE_SEND : PSF_EVENT_QUEUE_SEND_FRONT, ( void * ) ( pxQueue ), ( pxQueue )->uxMessagesWaiting + 1 ); \
break; \
case queueQUEUE_TYPE_BINARY_SEMAPHORE: \
case queueQUEUE_TYPE_COUNTING_SEMAPHORE: \
prvTraceStoreEvent_HandleParam( PSF_EVENT_SEMAPHORE_GIVE, ( void * ) ( pxQueue ), ( pxQueue )->uxMessagesWaiting + 1 ); \
break; \
case queueQUEUE_TYPE_MUTEX: \
prvTraceStoreEvent_Handle( PSF_EVENT_MUTEX_GIVE, ( void * ) ( pxQueue ) ); \
break; \
case queueQUEUE_TYPE_RECURSIVE_MUTEX: \
prvTraceStoreEvent_Handle( PSF_EVENT_MUTEX_GIVE_RECURSIVE, ( void * ) ( pxQueue ) ); \
break; \
}
#undef traceQUEUE_SET_SEND
#define traceQUEUE_SET_SEND( pxQueue ) \
prvTraceStoreEvent_HandleParam( PSF_EVENT_QUEUE_SEND, ( void * ) ( pxQueue ), ( pxQueue )->uxMessagesWaiting + 1 )
/* Called when a message failed to be sent to a queue (timeout) */
#undef traceQUEUE_SEND_FAILED
#define traceQUEUE_SEND_FAILED( pxQueue ) \
switch( ( pxQueue )->ucQueueType ) \
{ \
case queueQUEUE_TYPE_BASE: \
prvTraceStoreEvent_HandleParam( xCopyPosition == queueSEND_TO_BACK ? PSF_EVENT_QUEUE_SEND_FAILED : PSF_EVENT_QUEUE_SEND_FRONT_FAILED, ( void * ) ( pxQueue ), ( pxQueue )->uxMessagesWaiting ); \
break; \
case queueQUEUE_TYPE_BINARY_SEMAPHORE: \
case queueQUEUE_TYPE_COUNTING_SEMAPHORE: \
prvTraceStoreEvent_HandleParam( PSF_EVENT_SEMAPHORE_GIVE_FAILED, ( void * ) ( pxQueue ), ( pxQueue )->uxMessagesWaiting ); \
break; \
case queueQUEUE_TYPE_MUTEX: \
case queueQUEUE_TYPE_RECURSIVE_MUTEX: \
prvTraceStoreEvent_Handle( PSF_EVENT_MUTEX_GIVE_FAILED, ( void * ) ( pxQueue ) ); \
break; \
}
/* Called when the task is blocked due to a send operation on a full queue */
#undef traceBLOCKING_ON_QUEUE_SEND
#define traceBLOCKING_ON_QUEUE_SEND( pxQueue ) \
switch( ( pxQueue )->ucQueueType ) \
{ \
case queueQUEUE_TYPE_BASE: \
prvTraceStoreEvent_HandleParam( xCopyPosition == queueSEND_TO_BACK ? PSF_EVENT_QUEUE_SEND_BLOCK : PSF_EVENT_QUEUE_SEND_FRONT_BLOCK, ( void * ) ( pxQueue ), ( pxQueue )->uxMessagesWaiting ); \
break; \
case queueQUEUE_TYPE_BINARY_SEMAPHORE: \
case queueQUEUE_TYPE_COUNTING_SEMAPHORE: \
prvTraceStoreEvent_HandleParam( PSF_EVENT_SEMAPHORE_GIVE_BLOCK, ( void * ) ( pxQueue ), ( pxQueue )->uxMessagesWaiting ); \
break; \
case queueQUEUE_TYPE_MUTEX: \
case queueQUEUE_TYPE_RECURSIVE_MUTEX: \
prvTraceStoreEvent_Handle( PSF_EVENT_MUTEX_GIVE_BLOCK, ( void * ) ( pxQueue ) ); \
break; \
}
/* Called when a message is sent from interrupt context, e.g., using xQueueSendFromISR */
#undef traceQUEUE_SEND_FROM_ISR
#define traceQUEUE_SEND_FROM_ISR( pxQueue ) \
switch( ( pxQueue )->ucQueueType ) \
{ \
case queueQUEUE_TYPE_BASE: \
prvTraceStoreEvent_HandleParam( xCopyPosition == queueSEND_TO_BACK ? PSF_EVENT_QUEUE_SEND_FROMISR : PSF_EVENT_QUEUE_SEND_FRONT_FROMISR, ( void * ) ( pxQueue ), ( pxQueue )->uxMessagesWaiting + 1 ); \
break; \
case queueQUEUE_TYPE_BINARY_SEMAPHORE: \
case queueQUEUE_TYPE_COUNTING_SEMAPHORE: \
prvTraceStoreEvent_HandleParam( PSF_EVENT_SEMAPHORE_GIVE_FROMISR, ( void * ) ( pxQueue ), ( pxQueue )->uxMessagesWaiting + 1 ); \
break; \
}
/* Called when a message send from interrupt context fails (since the queue was full) */
#undef traceQUEUE_SEND_FROM_ISR_FAILED
#define traceQUEUE_SEND_FROM_ISR_FAILED( pxQueue ) \
switch( ( pxQueue )->ucQueueType ) \
{ \
case queueQUEUE_TYPE_BASE: \
prvTraceStoreEvent_HandleParam( xCopyPosition == queueSEND_TO_BACK ? PSF_EVENT_QUEUE_SEND_FROMISR_FAILED : PSF_EVENT_QUEUE_SEND_FRONT_FROMISR_FAILED, ( void * ) ( pxQueue ), ( pxQueue )->uxMessagesWaiting ); \
break; \
case queueQUEUE_TYPE_BINARY_SEMAPHORE: \
case queueQUEUE_TYPE_COUNTING_SEMAPHORE: \
prvTraceStoreEvent_HandleParam( PSF_EVENT_SEMAPHORE_GIVE_FROMISR_FAILED, ( void * ) ( pxQueue ), ( pxQueue )->uxMessagesWaiting ); \
break; \
}
/* Called when a message is received from a queue */
#undef traceQUEUE_RECEIVE
#define traceQUEUE_RECEIVE( pxQueue ) \
switch( ( pxQueue )->ucQueueType ) \
{ \
case queueQUEUE_TYPE_BASE: \
if( isQueueReceiveHookActuallyPeek ) \
{ \
prvTraceStoreEvent_HandleParamParam( PSF_EVENT_QUEUE_PEEK, ( void * ) ( pxQueue ), xTicksToWait, ( pxQueue )->uxMessagesWaiting - 1 ); \
} \
else \
{ \
prvTraceStoreEvent_HandleParamParam( PSF_EVENT_QUEUE_RECEIVE, ( void * ) ( pxQueue ), xTicksToWait, ( pxQueue )->uxMessagesWaiting - 1 ); \
} \
break; \
case queueQUEUE_TYPE_BINARY_SEMAPHORE: \
case queueQUEUE_TYPE_COUNTING_SEMAPHORE: \
if( isQueueReceiveHookActuallyPeek ) \
{ \
prvTraceStoreEvent_HandleParamParam( PSF_EVENT_SEMAPHORE_PEEK, ( void * ) ( pxQueue ), xTicksToWait, ( pxQueue )->uxMessagesWaiting - 1 ); \
} \
else \
{ \
prvTraceStoreEvent_HandleParamParam( PSF_EVENT_SEMAPHORE_TAKE, ( void * ) ( pxQueue ), xTicksToWait, ( pxQueue )->uxMessagesWaiting - 1 ); \
} \
break; \
case queueQUEUE_TYPE_MUTEX: \
prvTraceStoreEvent_HandleParam( isQueueReceiveHookActuallyPeek ? PSF_EVENT_MUTEX_PEEK : PSF_EVENT_MUTEX_TAKE, ( void * ) ( pxQueue ), xTicksToWait ); \
break; \
case queueQUEUE_TYPE_RECURSIVE_MUTEX: \
prvTraceStoreEvent_HandleParam( isQueueReceiveHookActuallyPeek ? PSF_EVENT_MUTEX_PEEK : PSF_EVENT_MUTEX_TAKE_RECURSIVE, ( void * ) ( pxQueue ), xTicksToWait ); \
break; \
}
/* Called when a receive operation on a queue fails (timeout) */
#undef traceQUEUE_RECEIVE_FAILED
#define traceQUEUE_RECEIVE_FAILED( pxQueue ) \
switch( ( pxQueue )->ucQueueType ) \
{ \
case queueQUEUE_TYPE_BASE: \
prvTraceStoreEvent_HandleParamParam( isQueueReceiveHookActuallyPeek ? PSF_EVENT_QUEUE_PEEK_FAILED : PSF_EVENT_QUEUE_RECEIVE_FAILED, ( void * ) ( pxQueue ), xTicksToWait, ( pxQueue )->uxMessagesWaiting ); \
break; \
case queueQUEUE_TYPE_BINARY_SEMAPHORE: \
case queueQUEUE_TYPE_COUNTING_SEMAPHORE: \
prvTraceStoreEvent_HandleParamParam( isQueueReceiveHookActuallyPeek ? PSF_EVENT_SEMAPHORE_PEEK_FAILED : PSF_EVENT_SEMAPHORE_TAKE_FAILED, ( void * ) ( pxQueue ), xTicksToWait, ( pxQueue )->uxMessagesWaiting ); \
break; \
case queueQUEUE_TYPE_MUTEX: \
prvTraceStoreEvent_HandleParam( isQueueReceiveHookActuallyPeek ? PSF_EVENT_MUTEX_PEEK_FAILED : PSF_EVENT_MUTEX_TAKE_FAILED, ( void * ) ( pxQueue ), xTicksToWait ); \
break; \
case queueQUEUE_TYPE_RECURSIVE_MUTEX: \
prvTraceStoreEvent_HandleParam( isQueueReceiveHookActuallyPeek ? PSF_EVENT_MUTEX_PEEK_FAILED : PSF_EVENT_MUTEX_TAKE_RECURSIVE_FAILED, ( void * ) ( pxQueue ), xTicksToWait ); \
break; \
}
/* Called when the task is blocked due to a receive operation on an empty queue */
#undef traceBLOCKING_ON_QUEUE_RECEIVE
#define traceBLOCKING_ON_QUEUE_RECEIVE( pxQueue ) \
switch( ( pxQueue )->ucQueueType ) \
{ \
case queueQUEUE_TYPE_BASE: \
prvTraceStoreEvent_HandleParamParam( isQueueReceiveHookActuallyPeek ? PSF_EVENT_QUEUE_PEEK_BLOCK : PSF_EVENT_QUEUE_RECEIVE_BLOCK, ( void * ) ( pxQueue ), xTicksToWait, ( pxQueue )->uxMessagesWaiting ); \
break; \
case queueQUEUE_TYPE_BINARY_SEMAPHORE: \
case queueQUEUE_TYPE_COUNTING_SEMAPHORE: \
prvTraceStoreEvent_HandleParamParam( isQueueReceiveHookActuallyPeek ? PSF_EVENT_SEMAPHORE_PEEK_BLOCK : PSF_EVENT_SEMAPHORE_TAKE_BLOCK, ( void * ) ( pxQueue ), xTicksToWait, ( pxQueue )->uxMessagesWaiting ); \
break; \
case queueQUEUE_TYPE_MUTEX: \
prvTraceStoreEvent_HandleParam( isQueueReceiveHookActuallyPeek ? PSF_EVENT_MUTEX_PEEK_BLOCK : PSF_EVENT_MUTEX_TAKE_BLOCK, ( void * ) ( pxQueue ), xTicksToWait ); \
break; \
case queueQUEUE_TYPE_RECURSIVE_MUTEX: \
prvTraceStoreEvent_HandleParam( isQueueReceiveHookActuallyPeek ? PSF_EVENT_MUTEX_PEEK_BLOCK : PSF_EVENT_MUTEX_TAKE_RECURSIVE_BLOCK, ( void * ) ( pxQueue ), xTicksToWait ); \
break; \
}
#if ( TRC_CFG_FREERTOS_VERSION > TRC_FREERTOS_VERSION_9_0_1 )
/* Called when a peek operation on a queue fails (timeout) */
#undef traceQUEUE_PEEK_FAILED
#define traceQUEUE_PEEK_FAILED( pxQueue ) \
switch( ( pxQueue )->ucQueueType ) \
{ \
case queueQUEUE_TYPE_BASE: \
prvTraceStoreEvent_HandleParamParam( PSF_EVENT_QUEUE_PEEK_FAILED, ( void * ) ( pxQueue ), xTicksToWait, ( pxQueue )->uxMessagesWaiting ); \
break; \
case queueQUEUE_TYPE_BINARY_SEMAPHORE: \
case queueQUEUE_TYPE_COUNTING_SEMAPHORE: \
prvTraceStoreEvent_HandleParamParam( PSF_EVENT_SEMAPHORE_PEEK_FAILED, ( void * ) ( pxQueue ), xTicksToWait, ( pxQueue )->uxMessagesWaiting ); \
break; \
case queueQUEUE_TYPE_MUTEX: \
case queueQUEUE_TYPE_RECURSIVE_MUTEX: \
prvTraceStoreEvent_HandleParam( PSF_EVENT_MUTEX_PEEK_FAILED, ( void * ) ( pxQueue ), xTicksToWait ); \
break; \
}
/* Called when the task is blocked due to a peek operation on an empty queue */
#undef traceBLOCKING_ON_QUEUE_PEEK
#define traceBLOCKING_ON_QUEUE_PEEK( pxQueue ) \
switch( ( pxQueue )->ucQueueType ) \
{ \
case queueQUEUE_TYPE_BASE: \
prvTraceStoreEvent_HandleParamParam( PSF_EVENT_QUEUE_PEEK_BLOCK, ( void * ) ( pxQueue ), xTicksToWait, ( pxQueue )->uxMessagesWaiting ); \
break; \
case queueQUEUE_TYPE_BINARY_SEMAPHORE: \
case queueQUEUE_TYPE_COUNTING_SEMAPHORE: \
prvTraceStoreEvent_HandleParamParam( PSF_EVENT_SEMAPHORE_PEEK_BLOCK, ( void * ) ( pxQueue ), xTicksToWait, ( pxQueue )->uxMessagesWaiting ); \
break; \
case queueQUEUE_TYPE_MUTEX: \
case queueQUEUE_TYPE_RECURSIVE_MUTEX: \
prvTraceStoreEvent_HandleParam( PSF_EVENT_MUTEX_PEEK_BLOCK, ( void * ) ( pxQueue ), xTicksToWait ); \
break; \
}
#endif /* if ( TRC_CFG_FREERTOS_VERSION > TRC_FREERTOS_VERSION_9_0_1 ) */
/* Called when a message is received in interrupt context, e.g., using xQueueReceiveFromISR */
#undef traceQUEUE_RECEIVE_FROM_ISR
#define traceQUEUE_RECEIVE_FROM_ISR( pxQueue ) \
switch( ( pxQueue )->ucQueueType ) \
{ \
case queueQUEUE_TYPE_BASE: \
prvTraceStoreEvent_HandleParam( PSF_EVENT_QUEUE_RECEIVE_FROMISR, ( void * ) ( pxQueue ), ( pxQueue )->uxMessagesWaiting - 1 ); \
break; \
case queueQUEUE_TYPE_BINARY_SEMAPHORE: \
case queueQUEUE_TYPE_COUNTING_SEMAPHORE: \
prvTraceStoreEvent_HandleParam( PSF_EVENT_SEMAPHORE_TAKE_FROMISR, ( void * ) ( pxQueue ), ( pxQueue )->uxMessagesWaiting - 1 ); \
break; \
}
/* Called when a message receive from interrupt context fails (since the queue was empty) */
#undef traceQUEUE_RECEIVE_FROM_ISR_FAILED
#define traceQUEUE_RECEIVE_FROM_ISR_FAILED( pxQueue ) \
switch( ( pxQueue )->ucQueueType ) \
{ \
case queueQUEUE_TYPE_BASE: \
prvTraceStoreEvent_HandleParam( PSF_EVENT_QUEUE_RECEIVE_FROMISR_FAILED, ( void * ) ( pxQueue ), ( pxQueue )->uxMessagesWaiting ); \
break; \
case queueQUEUE_TYPE_BINARY_SEMAPHORE: \
case queueQUEUE_TYPE_COUNTING_SEMAPHORE: \
prvTraceStoreEvent_HandleParam( PSF_EVENT_SEMAPHORE_TAKE_FROMISR_FAILED, ( void * ) ( pxQueue ), ( pxQueue )->uxMessagesWaiting ); \
break; \
}
/* Called on xQueuePeek */
#undef traceQUEUE_PEEK
#define traceQUEUE_PEEK( pxQueue ) \
switch( ( pxQueue )->ucQueueType ) \
{ \
case queueQUEUE_TYPE_BASE: \
prvTraceStoreEvent_HandleParamParam( PSF_EVENT_QUEUE_PEEK, ( void * ) ( pxQueue ), xTicksToWait, ( pxQueue )->uxMessagesWaiting ); \
break; \
case queueQUEUE_TYPE_BINARY_SEMAPHORE: \
case queueQUEUE_TYPE_COUNTING_SEMAPHORE: \
prvTraceStoreEvent_HandleParamParam( PSF_EVENT_SEMAPHORE_PEEK, ( void * ) ( pxQueue ), xTicksToWait, ( pxQueue )->uxMessagesWaiting ); \
break; \
case queueQUEUE_TYPE_MUTEX: \
case queueQUEUE_TYPE_RECURSIVE_MUTEX: \
prvTraceStoreEvent_HandleParam( PSF_EVENT_MUTEX_PEEK, ( void * ) ( pxQueue ), xTicksToWait ); \
break; \
}
/* Called in vTaskPrioritySet */
#undef traceTASK_PRIORITY_SET
#define traceTASK_PRIORITY_SET( pxTask, uxNewPriority ) \
xTraceTaskSetPriorityWithoutHandle( pxTask, uxNewPriority )
/* Called in vTaskPriorityInherit, which is called by Mutex operations */
#undef traceTASK_PRIORITY_INHERIT
#define traceTASK_PRIORITY_INHERIT( pxTask, uxNewPriority ) \
prvTraceStoreEvent_HandleParam( PSF_EVENT_TASK_PRIO_INHERIT, ( void * ) ( pxTask ), uxNewPriority )
/* Called in vTaskPriorityDisinherit, which is called by Mutex operations */
#undef traceTASK_PRIORITY_DISINHERIT
#define traceTASK_PRIORITY_DISINHERIT( pxTask, uxNewPriority ) \
prvTraceStoreEvent_HandleParam( PSF_EVENT_TASK_PRIO_DISINHERIT, ( void * ) ( pxTask ), uxNewPriority )
/* Called in vTaskResume */
#undef traceTASK_RESUME
#define traceTASK_RESUME( pxTaskToResume ) \
prvTraceStoreEvent_Handle( PSF_EVENT_TASK_RESUME, ( void * ) ( pxTaskToResume ) )
/* Called in vTaskResumeFromISR */
#undef traceTASK_RESUME_FROM_ISR
#define traceTASK_RESUME_FROM_ISR( pxTaskToResume ) \
prvTraceStoreEvent_Handle( PSF_EVENT_TASK_RESUME_FROMISR, ( void * ) ( pxTaskToResume ) )
#if ( TRC_CFG_INCLUDE_MEMMANG_EVENTS == 1 )
#undef traceMALLOC
#define traceMALLOC( pvAddress, uiSize ) \
if( xTraceIsRecorderEnabled() ) \
{ \
xTraceHeapAlloc( xTraceKernelPortGetSystemHeapHandle(), pvAddress, uiSize ); \
}
#undef traceFREE
#define traceFREE( pvAddress, uiSize ) \
if( xTraceIsRecorderEnabled() ) \
{ \
xTraceHeapFree( xTraceKernelPortGetSystemHeapHandle(), pvAddress, uiSize ); \
}
#endif /* if ( TRC_CFG_INCLUDE_MEMMANG_EVENTS == 1 ) */
#if ( TRC_CFG_INCLUDE_TIMER_EVENTS == 1 )
/* Called in timer.c - xTimerCreate */
#undef traceTIMER_CREATE
#define traceTIMER_CREATE( tmr ) \
xTraceObjectRegisterWithoutHandle( PSF_EVENT_TIMER_CREATE, ( void * ) ( tmr ), ( const char * ) ( tmr )->pcTimerName, ( uint32_t ) ( tmr )->xTimerPeriodInTicks )
#undef traceTIMER_CREATE_FAILED
#define traceTIMER_CREATE_FAILED() \
prvTraceStoreEvent_None( PSF_EVENT_TIMER_CREATE_FAILED );
#if ( TRC_CFG_FREERTOS_VERSION >= TRC_FREERTOS_VERSION_8_X_X )
#define traceTIMER_COMMAND_SEND_8_0_CASES( tmr ) \
case tmrCOMMAND_RESET: \
prvTraceStoreEvent_HandleParam( ( xReturn == pdPASS ) ? PSF_EVENT_TIMER_RESET : PSF_EVENT_TIMER_RESET_FAILED, ( void * ) ( tmr ), xOptionalValue ); \
break; \
case tmrCOMMAND_START_FROM_ISR: \
prvTraceStoreEvent_HandleParam( ( xReturn == pdPASS ) ? PSF_EVENT_TIMER_START_FROMISR : PSF_EVENT_TIMER_START_FROMISR_FAILED, ( void * ) ( tmr ), xOptionalValue ); \
break; \
case tmrCOMMAND_RESET_FROM_ISR: \
prvTraceStoreEvent_HandleParam( ( xReturn == pdPASS ) ? PSF_EVENT_TIMER_RESET_FROMISR : PSF_EVENT_TIMER_RESET_FROMISR_FAILED, ( void * ) ( tmr ), xOptionalValue ); \
break; \
case tmrCOMMAND_STOP_FROM_ISR: \
prvTraceStoreEvent_HandleParam( ( xReturn == pdPASS ) ? PSF_EVENT_TIMER_STOP_FROMISR : PSF_EVENT_TIMER_STOP_FROMISR_FAILED, ( void * ) ( tmr ), xOptionalValue ); \
break; \
case tmrCOMMAND_CHANGE_PERIOD_FROM_ISR: \
prvTraceStoreEvent_HandleParam( ( xReturn == pdPASS ) ? PSF_EVENT_TIMER_CHANGEPERIOD_FROMISR : PSF_EVENT_TIMER_CHANGEPERIOD_FROMISR_FAILED, ( void * ) ( tmr ), xOptionalValue ); \
break;
#else /* if ( TRC_CFG_FREERTOS_VERSION >= TRC_FREERTOS_VERSION_8_X_X ) */
#define traceTIMER_COMMAND_SEND_8_0_CASES( tmr )
#endif /* if ( TRC_CFG_FREERTOS_VERSION >= TRC_FREERTOS_VERSION_8_X_X ) */
/* Note that xCommandID can never be tmrCOMMAND_EXECUTE_CALLBACK (-1) since the trace macro is not called in that case */
#undef traceTIMER_COMMAND_SEND
#define traceTIMER_COMMAND_SEND( tmr, xCommandID, xOptionalValue, xReturn ) \
switch( xCommandID ) \
{ \
case tmrCOMMAND_START: \
prvTraceStoreEvent_Handle( ( ( xReturn ) == pdPASS ) ? PSF_EVENT_TIMER_START : PSF_EVENT_TIMER_START_FAILED, ( void * ) ( tmr ) ); \
break; \
case tmrCOMMAND_STOP: \
prvTraceStoreEvent_Handle( ( ( xReturn ) == pdPASS ) ? PSF_EVENT_TIMER_STOP : PSF_EVENT_TIMER_STOP_FAILED, ( void * ) ( tmr ) ); \
break; \
case tmrCOMMAND_CHANGE_PERIOD: \
prvTraceStoreEvent_HandleParam( ( ( xReturn ) == pdPASS ) ? PSF_EVENT_TIMER_CHANGEPERIOD : PSF_EVENT_TIMER_CHANGEPERIOD_FAILED, ( void * ) ( tmr ), xOptionalValue ); \
break; \
case tmrCOMMAND_DELETE: \
xTraceObjectUnregisterWithoutHandle( ( ( xReturn ) == pdPASS ) ? PSF_EVENT_TIMER_DELETE : PSF_EVENT_TIMER_DELETE_FAILED, ( void * ) ( tmr ), 0 ); \
break; \
traceTIMER_COMMAND_SEND_8_0_CASES( tmr ) \
}
#undef traceTIMER_EXPIRED
#define traceTIMER_EXPIRED( tmr ) \
prvTraceStoreEvent_HandleParam( PSF_EVENT_TIMER_EXPIRED, ( void * ) ( tmr ), ( uint32_t ) ( ( tmr )->pxCallbackFunction ) )
#endif /* if ( TRC_CFG_INCLUDE_TIMER_EVENTS == 1 ) */
#if ( TRC_CFG_INCLUDE_PEND_FUNC_CALL_EVENTS == 1 )
#undef tracePEND_FUNC_CALL
#define tracePEND_FUNC_CALL( func, arg1, arg2, ret ) \
prvTraceStoreEvent_Param( ( ( ret ) == pdPASS ) ? PSF_EVENT_TIMER_PENDFUNCCALL : PSF_EVENT_TIMER_PENDFUNCCALL_FAILED, ( uint32_t ) ( func ) )
#undef tracePEND_FUNC_CALL_FROM_ISR
#define tracePEND_FUNC_CALL_FROM_ISR( func, arg1, arg2, ret ) \
prvTraceStoreEvent_Param( ( ( ret ) == pdPASS ) ? PSF_EVENT_TIMER_PENDFUNCCALL_FROMISR : PSF_EVENT_TIMER_PENDFUNCCALL_FROMISR_FAILED, ( uint32_t ) ( func ) )
#endif
#if ( TRC_CFG_INCLUDE_EVENT_GROUP_EVENTS == 1 )
#undef traceEVENT_GROUP_CREATE
#define traceEVENT_GROUP_CREATE( eg ) \
xTraceObjectRegisterWithoutHandle( PSF_EVENT_EVENTGROUP_CREATE, ( void * ) ( eg ), 0, ( uint32_t ) ( eg )->uxEventBits )
#undef traceEVENT_GROUP_DELETE
#define traceEVENT_GROUP_DELETE( eg ) \
xTraceObjectUnregisterWithoutHandle( PSF_EVENT_EVENTGROUP_DELETE, ( void * ) ( eg ), ( uint32_t ) ( eg )->uxEventBits )
#undef traceEVENT_GROUP_CREATE_FAILED
#define traceEVENT_GROUP_CREATE_FAILED() \
prvTraceStoreEvent_None( PSF_EVENT_EVENTGROUP_CREATE_FAILED )
#undef traceEVENT_GROUP_SYNC_BLOCK
#define traceEVENT_GROUP_SYNC_BLOCK( eg, bitsToSet, bitsToWaitFor ) \
prvTraceStoreEvent_HandleParam( PSF_EVENT_EVENTGROUP_SYNC_BLOCK, ( void * ) ( eg ), bitsToWaitFor )
#undef traceEVENT_GROUP_SYNC_END
#define traceEVENT_GROUP_SYNC_END( eg, bitsToSet, bitsToWaitFor, wasTimeout ) \
prvTraceStoreEvent_HandleParam( ( ( wasTimeout ) != pdTRUE ) ? PSF_EVENT_EVENTGROUP_SYNC : PSF_EVENT_EVENTGROUP_SYNC_FAILED, ( void * ) ( eg ), bitsToWaitFor )
#undef traceEVENT_GROUP_WAIT_BITS_BLOCK
#define traceEVENT_GROUP_WAIT_BITS_BLOCK( eg, bitsToWaitFor ) \
prvTraceStoreEvent_HandleParam( PSF_EVENT_EVENTGROUP_WAITBITS_BLOCK, ( void * ) ( eg ), bitsToWaitFor )
#undef traceEVENT_GROUP_WAIT_BITS_END
#define traceEVENT_GROUP_WAIT_BITS_END( eg, bitsToWaitFor, wasTimeout ) \
prvTraceStoreEvent_HandleParam( ( ( wasTimeout ) != pdTRUE ) ? PSF_EVENT_EVENTGROUP_WAITBITS : PSF_EVENT_EVENTGROUP_WAITBITS_FAILED, ( void * ) ( eg ), bitsToWaitFor )
#undef traceEVENT_GROUP_CLEAR_BITS
#define traceEVENT_GROUP_CLEAR_BITS( eg, bitsToClear ) \
prvTraceStoreEvent_HandleParam( PSF_EVENT_EVENTGROUP_CLEARBITS, ( void * ) ( eg ), bitsToClear )
#undef traceEVENT_GROUP_CLEAR_BITS_FROM_ISR
#define traceEVENT_GROUP_CLEAR_BITS_FROM_ISR( eg, bitsToClear ) \
prvTraceStoreEvent_HandleParam( PSF_EVENT_EVENTGROUP_CLEARBITS_FROMISR, ( void * ) ( eg ), bitsToClear )
#undef traceEVENT_GROUP_SET_BITS
#define traceEVENT_GROUP_SET_BITS( eg, bitsToSet ) \
prvTraceStoreEvent_HandleParam( PSF_EVENT_EVENTGROUP_SETBITS, ( void * ) ( eg ), bitsToSet )
#undef traceEVENT_GROUP_SET_BITS_FROM_ISR
#define traceEVENT_GROUP_SET_BITS_FROM_ISR( eg, bitsToSet ) \
prvTraceStoreEvent_HandleParam( PSF_EVENT_EVENTGROUP_SETBITS_FROMISR, ( void * ) ( eg ), bitsToSet )
#endif /* if ( TRC_CFG_INCLUDE_EVENT_GROUP_EVENTS == 1 ) */
#undef traceTASK_NOTIFY
#if ( TRC_CFG_FREERTOS_VERSION >= TRC_FREERTOS_VERSION_10_4_0 )
#define traceTASK_NOTIFY( index ) \
prvTraceStoreEvent_Handle( PSF_EVENT_TASK_NOTIFY, ( void * ) xTaskToNotify )
#else
#define traceTASK_NOTIFY() \
prvTraceStoreEvent_Handle( PSF_EVENT_TASK_NOTIFY, ( void * ) xTaskToNotify )
#endif
#undef traceTASK_NOTIFY_FROM_ISR
#if ( TRC_CFG_FREERTOS_VERSION >= TRC_FREERTOS_VERSION_10_4_0 )
#define traceTASK_NOTIFY_FROM_ISR( index ) \
prvTraceStoreEvent_Handle( PSF_EVENT_TASK_NOTIFY_FROM_ISR, ( void * ) xTaskToNotify )
#else
#define traceTASK_NOTIFY_FROM_ISR() \
prvTraceStoreEvent_Handle( PSF_EVENT_TASK_NOTIFY_FROM_ISR, ( void * ) xTaskToNotify )
#endif
/* NOTIFY and NOTIFY_GIVE will be handled identically */
#undef traceTASK_NOTIFY_GIVE_FROM_ISR
#define traceTASK_NOTIFY_GIVE_FROM_ISR traceTASK_NOTIFY_FROM_ISR
#undef traceTASK_NOTIFY_WAIT
#if ( TRC_CFG_FREERTOS_VERSION >= TRC_FREERTOS_VERSION_10_4_0 )
#define traceTASK_NOTIFY_WAIT( index ) \
prvTraceStoreEvent_HandleParam( pxCurrentTCB->ucNotifyState[ index ] == taskNOTIFICATION_RECEIVED ? PSF_EVENT_TASK_NOTIFY_WAIT : PSF_EVENT_TASK_NOTIFY_WAIT_FAILED, ( void * ) pxCurrentTCB, xTicksToWait )
#elif ( TRC_CFG_FREERTOS_VERSION >= TRC_FREERTOS_VERSION_9_0_0 )
#define traceTASK_NOTIFY_WAIT() \
prvTraceStoreEvent_HandleParam( pxCurrentTCB->ucNotifyState == taskNOTIFICATION_RECEIVED ? PSF_EVENT_TASK_NOTIFY_WAIT : PSF_EVENT_TASK_NOTIFY_WAIT_FAILED, ( void * ) pxCurrentTCB, xTicksToWait )
#else
#define traceTASK_NOTIFY_WAIT() \
prvTraceStoreEvent_HandleParam( pxCurrentTCB->eNotifyState == eNotified ? PSF_EVENT_TASK_NOTIFY_WAIT : PSF_EVENT_TASK_NOTIFY_WAIT_FAILED, ( void * ) pxCurrentTCB, xTicksToWait )
#endif /* if ( TRC_CFG_FREERTOS_VERSION >= TRC_FREERTOS_VERSION_10_4_0 ) */
/* WAIT and TAKE will be handled identically */
#undef traceTASK_NOTIFY_TAKE
#define traceTASK_NOTIFY_TAKE traceTASK_NOTIFY_WAIT
#undef traceTASK_NOTIFY_WAIT_BLOCK
#if ( TRC_CFG_FREERTOS_VERSION >= TRC_FREERTOS_VERSION_10_4_0 )
#define traceTASK_NOTIFY_WAIT_BLOCK( index ) \
prvTraceStoreEvent_HandleParam( PSF_EVENT_TASK_NOTIFY_WAIT_BLOCK, ( void * ) pxCurrentTCB, xTicksToWait )
#else
#define traceTASK_NOTIFY_WAIT_BLOCK() \
prvTraceStoreEvent_HandleParam( PSF_EVENT_TASK_NOTIFY_WAIT_BLOCK, ( void * ) pxCurrentTCB, xTicksToWait )
#endif
/* WAIT_BLOCK and TAKE_BLOCK will be handled identically */
#undef traceTASK_NOTIFY_TAKE_BLOCK
#define traceTASK_NOTIFY_TAKE_BLOCK traceTASK_NOTIFY_WAIT_BLOCK
#undef traceQUEUE_REGISTRY_ADD
#define traceQUEUE_REGISTRY_ADD( object, name ) \
xTraceObjectSetNameWithoutHandle( object, ( const char * ) ( name ) );
#if ( TRC_CFG_INCLUDE_STREAM_BUFFER_EVENTS == 1 )
#undef traceSTREAM_BUFFER_CREATE
#define traceSTREAM_BUFFER_CREATE( pxStreamBuffer, xIsMessageBuffer ) \
xTraceObjectRegisterWithoutHandle( ( xIsMessageBuffer ) == 1 ? PSF_EVENT_MESSAGEBUFFER_CREATE : PSF_EVENT_STREAMBUFFER_CREATE, ( void * ) ( pxStreamBuffer ), "", ( uint32_t ) xBufferSizeBytes )
#undef traceSTREAM_BUFFER_CREATE_FAILED
#define traceSTREAM_BUFFER_CREATE_FAILED( xIsMessageBuffer ) \
prvTraceStoreEvent_HandleParam( ( xIsMessageBuffer ) == 1 ? PSF_EVENT_MESSAGEBUFFER_CREATE_FAILED : PSF_EVENT_STREAMBUFFER_CREATE_FAILED, 0, xBufferSizeBytes )
#undef traceSTREAM_BUFFER_CREATE_STATIC_FAILED
#define traceSTREAM_BUFFER_CREATE_STATIC_FAILED( xReturn, xIsMessageBuffer ) \
traceSTREAM_BUFFER_CREATE_FAILED( xIsMessageBuffer )
#undef traceSTREAM_BUFFER_DELETE
#define traceSTREAM_BUFFER_DELETE( xStreamBuffer ) \
xTraceObjectUnregisterWithoutHandle( prvGetStreamBufferType( xStreamBuffer ) > 0 ? PSF_EVENT_MESSAGEBUFFER_DELETE : PSF_EVENT_STREAMBUFFER_DELETE, ( void * ) ( xStreamBuffer ), prvBytesInBuffer( xStreamBuffer ) );
#undef traceSTREAM_BUFFER_RESET
#define traceSTREAM_BUFFER_RESET( xStreamBuffer ) \
prvTraceStoreEvent_HandleParam( prvGetStreamBufferType( xStreamBuffer ) > 0 ? PSF_EVENT_MESSAGEBUFFER_RESET : PSF_EVENT_STREAMBUFFER_RESET, ( void * ) ( xStreamBuffer ), 0 )
#undef traceSTREAM_BUFFER_SEND
#define traceSTREAM_BUFFER_SEND( xStreamBuffer, xReturn ) \
prvTraceStoreEvent_HandleParam( prvGetStreamBufferType( xStreamBuffer ) > 0 ? PSF_EVENT_MESSAGEBUFFER_SEND : PSF_EVENT_STREAMBUFFER_SEND, ( void * ) ( xStreamBuffer ), prvBytesInBuffer( xStreamBuffer ) )
#undef traceBLOCKING_ON_STREAM_BUFFER_SEND
#define traceBLOCKING_ON_STREAM_BUFFER_SEND( xStreamBuffer ) \
prvTraceStoreEvent_Handle( prvGetStreamBufferType( xStreamBuffer ) > 0 ? PSF_EVENT_MESSAGEBUFFER_SEND_BLOCK : PSF_EVENT_STREAMBUFFER_SEND_BLOCK, ( void * ) ( xStreamBuffer ) )
#undef traceSTREAM_BUFFER_SEND_FAILED
#define traceSTREAM_BUFFER_SEND_FAILED( xStreamBuffer ) \
prvTraceStoreEvent_Handle( prvGetStreamBufferType( xStreamBuffer ) > 0 ? PSF_EVENT_MESSAGEBUFFER_SEND_FAILED : PSF_EVENT_STREAMBUFFER_SEND_FAILED, ( void * ) ( xStreamBuffer ) )
#undef traceSTREAM_BUFFER_RECEIVE
#define traceSTREAM_BUFFER_RECEIVE( xStreamBuffer, xReceivedLength ) \
prvTraceStoreEvent_HandleParam( prvGetStreamBufferType( xStreamBuffer ) > 0 ? PSF_EVENT_MESSAGEBUFFER_RECEIVE : PSF_EVENT_STREAMBUFFER_RECEIVE, ( void * ) ( xStreamBuffer ), prvBytesInBuffer( xStreamBuffer ) )
#undef traceBLOCKING_ON_STREAM_BUFFER_RECEIVE
#define traceBLOCKING_ON_STREAM_BUFFER_RECEIVE( xStreamBuffer ) \
prvTraceStoreEvent_Handle( prvGetStreamBufferType( xStreamBuffer ) > 0 ? PSF_EVENT_MESSAGEBUFFER_RECEIVE_BLOCK : PSF_EVENT_STREAMBUFFER_RECEIVE_BLOCK, ( void * ) ( xStreamBuffer ) )
#undef traceSTREAM_BUFFER_RECEIVE_FAILED
#define traceSTREAM_BUFFER_RECEIVE_FAILED( xStreamBuffer ) \
prvTraceStoreEvent_Handle( prvGetStreamBufferType( xStreamBuffer ) > 0 ? PSF_EVENT_MESSAGEBUFFER_RECEIVE_FAILED : PSF_EVENT_STREAMBUFFER_RECEIVE_FAILED, ( void * ) ( xStreamBuffer ) )
#undef traceSTREAM_BUFFER_SEND_FROM_ISR
#define traceSTREAM_BUFFER_SEND_FROM_ISR( xStreamBuffer, xReturn ) \
if( ( xReturn ) > ( size_t ) 0 ) \
{ \
prvTraceStoreEvent_HandleParam( prvGetStreamBufferType( xStreamBuffer ) > 0 ? PSF_EVENT_MESSAGEBUFFER_SEND_FROM_ISR : PSF_EVENT_STREAMBUFFER_SEND_FROM_ISR, ( void * ) ( xStreamBuffer ), prvBytesInBuffer( xStreamBuffer ) ); \
} \
else \
{ \
prvTraceStoreEvent_Handle( prvGetStreamBufferType( xStreamBuffer ) > 0 ? PSF_EVENT_MESSAGEBUFFER_SEND_FROM_ISR_FAILED : PSF_EVENT_STREAMBUFFER_SEND_FROM_ISR_FAILED, ( void * ) ( xStreamBuffer ) ); \
}
#undef traceSTREAM_BUFFER_RECEIVE_FROM_ISR
#define traceSTREAM_BUFFER_RECEIVE_FROM_ISR( xStreamBuffer, xReceivedLength ) \
if( ( xReceivedLength ) > ( size_t ) 0 ) \
{ \
prvTraceStoreEvent_HandleParam( prvGetStreamBufferType( xStreamBuffer ) > 0 ? PSF_EVENT_MESSAGEBUFFER_RECEIVE_FROM_ISR : PSF_EVENT_STREAMBUFFER_RECEIVE_FROM_ISR, ( void * ) ( xStreamBuffer ), prvBytesInBuffer( xStreamBuffer ) ); \
} \
else \
{ \
prvTraceStoreEvent_Handle( prvGetStreamBufferType( xStreamBuffer ) > 0 ? PSF_EVENT_MESSAGEBUFFER_RECEIVE_FROM_ISR_FAILED : PSF_EVENT_STREAMBUFFER_RECEIVE_FROM_ISR_FAILED, ( void * ) ( xStreamBuffer ) ); \
}
#endif /* if ( TRC_CFG_INCLUDE_STREAM_BUFFER_EVENTS == 1 ) */
#endif /* if ( TRC_CFG_SCHEDULING_ONLY == 0 ) */
#endif /* if ( TRC_CFG_RECORDER_MODE == TRC_RECORDER_MODE_STREAMING ) */
#else /* if ( defined( TRC_USE_TRACEALYZER_RECORDER ) ) && ( TRC_USE_TRACEALYZER_RECORDER == 1 ) */
/* When recorder is disabled */
#define vTraceSetQueueName( object, name )
#define vTraceSetSemaphoreName( object, name )
#define vTraceSetMutexName( object, name )
#define vTraceSetEventGroupName( object, name )
#define vTraceSetStreamBufferName( object, name )
#define vTraceSetMessageBufferName( object, name )
#endif /* if ( defined( TRC_USE_TRACEALYZER_RECORDER ) ) && ( TRC_USE_TRACEALYZER_RECORDER == 1 ) */
#ifdef __cplusplus
}
#endif
#endif /* TRC_KERNEL_PORT_H */
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