/* * Copyright (c) 2013-2019 Arm Limited. All rights reserved. * * SPDX-License-Identifier: Apache-2.0 * * Licensed under the Apache License, Version 2.0 (the License); you may * not use this file except in compliance with the License. * You may obtain a copy of the License at * * www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an AS IS BASIS, WITHOUT * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. * * ----------------------------------------------------------------------------- * * Project: CMSIS-RTOS RTX * Title: RTX Event Recorder * * ----------------------------------------------------------------------------- */ #include "rtx_evr.h" // RTX Event Recorder definitions #include "cmsis_compiler.h" #include "hal_trace.h" #include "rtx_lib.h" #include #ifdef RTE_Compiler_EventRecorder // lint -e923 -e9074 -e9078 [MISRA Note 13] /// Event IDs for "RTX Memory Management" #define EvtRtxMemoryInit EventID(EventLevelOp, EvtRtxMemoryNo, 0x00U) #define EvtRtxMemoryAlloc EventID(EventLevelOp, EvtRtxMemoryNo, 0x01U) #define EvtRtxMemoryFree EventID(EventLevelOp, EvtRtxMemoryNo, 0x02U) #define EvtRtxMemoryBlockInit EventID(EventLevelOp, EvtRtxMemoryNo, 0x03U) #define EvtRtxMemoryBlockAlloc EventID(EventLevelOp, EvtRtxMemoryNo, 0x04U) #define EvtRtxMemoryBlockFree EventID(EventLevelOp, EvtRtxMemoryNo, 0x05U) /// Event IDs for "RTX Kernel" #define EvtRtxKernelError EventID(EventLevelError, EvtRtxKernelNo, 0x00U) #define EvtRtxKernelInitialize EventID(EventLevelAPI, EvtRtxKernelNo, 0x01U) #define EvtRtxKernelInitialized EventID(EventLevelOp, EvtRtxKernelNo, 0x02U) #define EvtRtxKernelGetInfo EventID(EventLevelAPI, EvtRtxKernelNo, 0x03U) #define EvtRtxKernelInfoRetrieved EventID(EventLevelOp, EvtRtxKernelNo, 0x04U) #define EvtRtxKernelInfoRetrieved_Detail \ EventID(EventLevelDetail, EvtRtxKernelNo, 0x05U) #define EvtRtxKernelGetState EventID(EventLevelAPI, EvtRtxKernelNo, 0x06U) #define EvtRtxKernelStart EventID(EventLevelAPI, EvtRtxKernelNo, 0x07U) #define EvtRtxKernelStarted EventID(EventLevelOp, EvtRtxKernelNo, 0x08U) #define EvtRtxKernelLock EventID(EventLevelAPI, EvtRtxKernelNo, 0x09U) #define EvtRtxKernelLocked EventID(EventLevelOp, EvtRtxKernelNo, 0x0AU) #define EvtRtxKernelUnlock EventID(EventLevelAPI, EvtRtxKernelNo, 0x0BU) #define EvtRtxKernelUnlocked EventID(EventLevelOp, EvtRtxKernelNo, 0x0CU) #define EvtRtxKernelRestoreLock EventID(EventLevelAPI, EvtRtxKernelNo, 0x0DU) #define EvtRtxKernelLockRestored EventID(EventLevelOp, EvtRtxKernelNo, 0x0EU) #define EvtRtxKernelSuspend EventID(EventLevelAPI, EvtRtxKernelNo, 0x0FU) #define EvtRtxKernelSuspended EventID(EventLevelOp, EvtRtxKernelNo, 0x10U) #define EvtRtxKernelResume EventID(EventLevelAPI, EvtRtxKernelNo, 0x11U) #define EvtRtxKernelResumed EventID(EventLevelOp, EvtRtxKernelNo, 0x12U) #define EvtRtxKernelGetTickCount EventID(EventLevelAPI, EvtRtxKernelNo, 0x13U) #define EvtRtxKernelGetTickFreq EventID(EventLevelAPI, EvtRtxKernelNo, 0x14U) #define EvtRtxKernelGetSysTimerCount \ EventID(EventLevelAPI, EvtRtxKernelNo, 0x15U) #define EvtRtxKernelGetSysTimerFreq \ EventID(EventLevelAPI, EvtRtxKernelNo, 0x16U) /// Event IDs for "RTX Thread" #define EvtRtxThreadError EventID(EventLevelError, EvtRtxThreadNo, 0x00U) #define EvtRtxThreadNew EventID(EventLevelAPI, EvtRtxThreadNo, 0x01U) #define EvtRtxThreadCreated_Addr EventID(EventLevelOp, EvtRtxThreadNo, 0x03U) #define EvtRtxThreadCreated_Name EventID(EventLevelOp, EvtRtxThreadNo, 0x2CU) #define EvtRtxThreadGetName EventID(EventLevelAPI, EvtRtxThreadNo, 0x04U) #define EvtRtxThreadGetId EventID(EventLevelAPI, EvtRtxThreadNo, 0x06U) #define EvtRtxThreadGetState EventID(EventLevelAPI, EvtRtxThreadNo, 0x07U) #define EvtRtxThreadGetStackSize EventID(EventLevelAPI, EvtRtxThreadNo, 0x08U) #define EvtRtxThreadGetStackSpace EventID(EventLevelAPI, EvtRtxThreadNo, 0x09U) #define EvtRtxThreadSetPriority EventID(EventLevelAPI, EvtRtxThreadNo, 0x0AU) #define EvtRtxThreadPriorityUpdated EventID(EventLevelOp, EvtRtxThreadNo, 0x2DU) #define EvtRtxThreadGetPriority EventID(EventLevelAPI, EvtRtxThreadNo, 0x0BU) #define EvtRtxThreadYield EventID(EventLevelAPI, EvtRtxThreadNo, 0x0CU) #define EvtRtxThreadSuspend EventID(EventLevelAPI, EvtRtxThreadNo, 0x0DU) #define EvtRtxThreadSuspended EventID(EventLevelOp, EvtRtxThreadNo, 0x0EU) #define EvtRtxThreadResume EventID(EventLevelAPI, EvtRtxThreadNo, 0x0FU) #define EvtRtxThreadResumed EventID(EventLevelOp, EvtRtxThreadNo, 0x10U) #define EvtRtxThreadDetach EventID(EventLevelAPI, EvtRtxThreadNo, 0x11U) #define EvtRtxThreadDetached EventID(EventLevelOp, EvtRtxThreadNo, 0x12U) #define EvtRtxThreadJoin EventID(EventLevelAPI, EvtRtxThreadNo, 0x13U) #define EvtRtxThreadJoinPending EventID(EventLevelOp, EvtRtxThreadNo, 0x14U) #define EvtRtxThreadJoined EventID(EventLevelOp, EvtRtxThreadNo, 0x15U) #define EvtRtxThreadBlocked EventID(EventLevelDetail, EvtRtxThreadNo, 0x16U) #define EvtRtxThreadUnblocked EventID(EventLevelDetail, EvtRtxThreadNo, 0x17U) #define EvtRtxThreadPreempted EventID(EventLevelDetail, EvtRtxThreadNo, 0x18U) #define EvtRtxThreadSwitched EventID(EventLevelOp, EvtRtxThreadNo, 0x19U) #define EvtRtxThreadExit EventID(EventLevelAPI, EvtRtxThreadNo, 0x1AU) #define EvtRtxThreadTerminate EventID(EventLevelAPI, EvtRtxThreadNo, 0x1BU) #define EvtRtxThreadDestroyed EventID(EventLevelOp, EvtRtxThreadNo, 0x1CU) #define EvtRtxThreadGetCount EventID(EventLevelAPI, EvtRtxThreadNo, 0x1DU) #define EvtRtxThreadEnumerate EventID(EventLevelAPI, EvtRtxThreadNo, 0x1EU) /// Event IDs for "RTX Thread Flags" #define EvtRtxThreadFlagsError \ EventID(EventLevelError, EvtRtxThreadFlagsNo, 0x00U) #define EvtRtxThreadFlagsSet EventID(EventLevelAPI, EvtRtxThreadFlagsNo, 0x01U) #define EvtRtxThreadFlagsSetDone \ EventID(EventLevelOp, EvtRtxThreadFlagsNo, 0x02U) #define EvtRtxThreadFlagsClear \ EventID(EventLevelAPI, EvtRtxThreadFlagsNo, 0x03U) #define EvtRtxThreadFlagsClearDone \ EventID(EventLevelOp, EvtRtxThreadFlagsNo, 0x04U) #define EvtRtxThreadFlagsGet EventID(EventLevelAPI, EvtRtxThreadFlagsNo, 0x05U) #define EvtRtxThreadFlagsWait EventID(EventLevelAPI, EvtRtxThreadFlagsNo, 0x06U) #define EvtRtxThreadFlagsWaitPending \ EventID(EventLevelOp, EvtRtxThreadFlagsNo, 0x07U) #define EvtRtxThreadFlagsWaitTimeout \ EventID(EventLevelOp, EvtRtxThreadFlagsNo, 0x08U) #define EvtRtxThreadFlagsWaitCompleted \ EventID(EventLevelOp, EvtRtxThreadFlagsNo, 0x09U) #define EvtRtxThreadFlagsWaitNotCompleted \ EventID(EventLevelOp, EvtRtxThreadFlagsNo, 0x0AU) /// Event IDs for "RTX Generic Wait" #define EvtRtxDelayError EventID(EventLevelError, EvtRtxWaitNo, 0x00U) #define EvtRtxDelay EventID(EventLevelAPI, EvtRtxWaitNo, 0x01U) #define EvtRtxDelayUntil EventID(EventLevelAPI, EvtRtxWaitNo, 0x02U) #define EvtRtxDelayStarted EventID(EventLevelOp, EvtRtxWaitNo, 0x03U) #define EvtRtxDelayUntilStarted EventID(EventLevelOp, EvtRtxWaitNo, 0x04U) #define EvtRtxDelayCompleted EventID(EventLevelOp, EvtRtxWaitNo, 0x05U) /// Event IDs for "RTX Timer" #define EvtRtxTimerError EventID(EventLevelError, EvtRtxTimerNo, 0x00U) #define EvtRtxTimerCallback EventID(EventLevelOp, EvtRtxTimerNo, 0x01U) #define EvtRtxTimerNew EventID(EventLevelAPI, EvtRtxTimerNo, 0x02U) #define EvtRtxTimerCreated EventID(EventLevelOp, EvtRtxTimerNo, 0x04U) #define EvtRtxTimerGetName EventID(EventLevelAPI, EvtRtxTimerNo, 0x05U) #define EvtRtxTimerStart EventID(EventLevelAPI, EvtRtxTimerNo, 0x07U) #define EvtRtxTimerStarted EventID(EventLevelOp, EvtRtxTimerNo, 0x08U) #define EvtRtxTimerStop EventID(EventLevelAPI, EvtRtxTimerNo, 0x09U) #define EvtRtxTimerStopped EventID(EventLevelOp, EvtRtxTimerNo, 0x0AU) #define EvtRtxTimerIsRunning EventID(EventLevelAPI, EvtRtxTimerNo, 0x0BU) #define EvtRtxTimerDelete EventID(EventLevelAPI, EvtRtxTimerNo, 0x0CU) #define EvtRtxTimerDestroyed EventID(EventLevelOp, EvtRtxTimerNo, 0x0DU) /// Event IDs for "RTX Event Flags" #define EvtRtxEventFlagsError \ EventID(EventLevelError, EvtRtxEventFlagsNo, 0x00U) #define EvtRtxEventFlagsNew EventID(EventLevelAPI, EvtRtxEventFlagsNo, 0x01U) #define EvtRtxEventFlagsCreated EventID(EventLevelOp, EvtRtxEventFlagsNo, 0x03U) #define EvtRtxEventFlagsGetName \ EventID(EventLevelAPI, EvtRtxEventFlagsNo, 0x04U) #define EvtRtxEventFlagsSet EventID(EventLevelAPI, EvtRtxEventFlagsNo, 0x06U) #define EvtRtxEventFlagsSetDone EventID(EventLevelOp, EvtRtxEventFlagsNo, 0x07U) #define EvtRtxEventFlagsClear EventID(EventLevelAPI, EvtRtxEventFlagsNo, 0x08U) #define EvtRtxEventFlagsClearDone \ EventID(EventLevelOp, EvtRtxEventFlagsNo, 0x09U) #define EvtRtxEventFlagsGet EventID(EventLevelAPI, EvtRtxEventFlagsNo, 0x0AU) #define EvtRtxEventFlagsWait EventID(EventLevelAPI, EvtRtxEventFlagsNo, 0x0BU) #define EvtRtxEventFlagsWaitPending \ EventID(EventLevelOp, EvtRtxEventFlagsNo, 0x0CU) #define EvtRtxEventFlagsWaitTimeout \ EventID(EventLevelOp, EvtRtxEventFlagsNo, 0x0DU) #define EvtRtxEventFlagsWaitCompleted \ EventID(EventLevelOp, EvtRtxEventFlagsNo, 0x0EU) #define EvtRtxEventFlagsWaitNotCompleted \ EventID(EventLevelOp, EvtRtxEventFlagsNo, 0x0FU) #define EvtRtxEventFlagsDelete EventID(EventLevelAPI, EvtRtxEventFlagsNo, 0x10U) #define EvtRtxEventFlagsDestroyed \ EventID(EventLevelOp, EvtRtxEventFlagsNo, 0x11U) /// Event IDs for "RTX Mutex" #define EvtRtxMutexError EventID(EventLevelError, EvtRtxMutexNo, 0x00U) #define EvtRtxMutexNew EventID(EventLevelAPI, EvtRtxMutexNo, 0x01U) #define EvtRtxMutexCreated EventID(EventLevelOp, EvtRtxMutexNo, 0x03U) #define EvtRtxMutexGetName EventID(EventLevelAPI, EvtRtxMutexNo, 0x04U) #define EvtRtxMutexAcquire EventID(EventLevelAPI, EvtRtxMutexNo, 0x06U) #define EvtRtxMutexAcquirePending EventID(EventLevelOp, EvtRtxMutexNo, 0x07U) #define EvtRtxMutexAcquireTimeout EventID(EventLevelOp, EvtRtxMutexNo, 0x08U) #define EvtRtxMutexAcquired EventID(EventLevelOp, EvtRtxMutexNo, 0x09U) #define EvtRtxMutexNotAcquired EventID(EventLevelOp, EvtRtxMutexNo, 0x0AU) #define EvtRtxMutexRelease EventID(EventLevelAPI, EvtRtxMutexNo, 0x0BU) #define EvtRtxMutexReleased EventID(EventLevelOp, EvtRtxMutexNo, 0x0CU) #define EvtRtxMutexGetOwner EventID(EventLevelAPI, EvtRtxMutexNo, 0x0DU) #define EvtRtxMutexDelete EventID(EventLevelAPI, EvtRtxMutexNo, 0x0EU) #define EvtRtxMutexDestroyed EventID(EventLevelOp, EvtRtxMutexNo, 0x0FU) /// Event IDs for "RTX Semaphore" #define EvtRtxSemaphoreError EventID(EventLevelError, EvtRtxSemaphoreNo, 0x00U) #define EvtRtxSemaphoreNew EventID(EventLevelAPI, EvtRtxSemaphoreNo, 0x01U) #define EvtRtxSemaphoreCreated EventID(EventLevelOp, EvtRtxSemaphoreNo, 0x03U) #define EvtRtxSemaphoreGetName EventID(EventLevelAPI, EvtRtxSemaphoreNo, 0x04U) #define EvtRtxSemaphoreAcquire EventID(EventLevelAPI, EvtRtxSemaphoreNo, 0x06U) #define EvtRtxSemaphoreAcquirePending \ EventID(EventLevelOp, EvtRtxSemaphoreNo, 0x07U) #define EvtRtxSemaphoreAcquireTimeout \ EventID(EventLevelOp, EvtRtxSemaphoreNo, 0x08U) #define EvtRtxSemaphoreAcquired EventID(EventLevelOp, EvtRtxSemaphoreNo, 0x09U) #define EvtRtxSemaphoreNotAcquired \ EventID(EventLevelOp, EvtRtxSemaphoreNo, 0x0AU) #define EvtRtxSemaphoreRelease EventID(EventLevelAPI, EvtRtxSemaphoreNo, 0x0BU) #define EvtRtxSemaphoreReleased EventID(EventLevelOp, EvtRtxSemaphoreNo, 0x0CU) #define EvtRtxSemaphoreGetCount EventID(EventLevelAPI, EvtRtxSemaphoreNo, 0x0DU) #define EvtRtxSemaphoreDelete EventID(EventLevelAPI, EvtRtxSemaphoreNo, 0x0EU) #define EvtRtxSemaphoreDestroyed EventID(EventLevelOp, EvtRtxSemaphoreNo, 0x0FU) /// Event IDs for "RTX Memory Pool" #define EvtRtxMemoryPoolError \ EventID(EventLevelError, EvtRtxMemoryPoolNo, 0x00U) #define EvtRtxMemoryPoolNew EventID(EventLevelAPI, EvtRtxMemoryPoolNo, 0x01U) #define EvtRtxMemoryPoolCreated EventID(EventLevelOp, EvtRtxMemoryPoolNo, 0x03U) #define EvtRtxMemoryPoolGetName \ EventID(EventLevelAPI, EvtRtxMemoryPoolNo, 0x04U) #define EvtRtxMemoryPoolAlloc EventID(EventLevelAPI, EvtRtxMemoryPoolNo, 0x06U) #define EvtRtxMemoryPoolAllocPending \ EventID(EventLevelOp, EvtRtxMemoryPoolNo, 0x07U) #define EvtRtxMemoryPoolAllocTimeout \ EventID(EventLevelOp, EvtRtxMemoryPoolNo, 0x08U) #define EvtRtxMemoryPoolAllocated \ EventID(EventLevelOp, EvtRtxMemoryPoolNo, 0x09U) #define EvtRtxMemoryPoolAllocFailed \ EventID(EventLevelOp, EvtRtxMemoryPoolNo, 0x0AU) #define EvtRtxMemoryPoolFree EventID(EventLevelAPI, EvtRtxMemoryPoolNo, 0x0BU) #define EvtRtxMemoryPoolDeallocated \ EventID(EventLevelOp, EvtRtxMemoryPoolNo, 0x0CU) #define EvtRtxMemoryPoolFreeFailed \ EventID(EventLevelOp, EvtRtxMemoryPoolNo, 0x0DU) #define EvtRtxMemoryPoolGetCapacity \ EventID(EventLevelAPI, EvtRtxMemoryPoolNo, 0x0EU) #define EvtRtxMemoryPoolGetBlockSize \ EventID(EventLevelAPI, EvtRtxMemoryPoolNo, 0x0FU) #define EvtRtxMemoryPoolGetCount \ EventID(EventLevelAPI, EvtRtxMemoryPoolNo, 0x10U) #define EvtRtxMemoryPoolGetSpace \ EventID(EventLevelAPI, EvtRtxMemoryPoolNo, 0x11U) #define EvtRtxMemoryPoolDelete EventID(EventLevelAPI, EvtRtxMemoryPoolNo, 0x12U) #define EvtRtxMemoryPoolDestroyed \ EventID(EventLevelOp, EvtRtxMemoryPoolNo, 0x13U) /// Event IDs for "RTX Message Queue" #define EvtRtxMessageQueueError \ EventID(EventLevelError, EvtRtxMessageQueueNo, 0x00U) #define EvtRtxMessageQueueNew \ EventID(EventLevelAPI, EvtRtxMessageQueueNo, 0x01U) #define EvtRtxMessageQueueCreated \ EventID(EventLevelOp, EvtRtxMessageQueueNo, 0x03U) #define EvtRtxMessageQueueGetName \ EventID(EventLevelAPI, EvtRtxMessageQueueNo, 0x04U) #define EvtRtxMessageQueuePut \ EventID(EventLevelAPI, EvtRtxMessageQueueNo, 0x06U) #define EvtRtxMessageQueuePutPending \ EventID(EventLevelOp, EvtRtxMessageQueueNo, 0x07U) #define EvtRtxMessageQueuePutTimeout \ EventID(EventLevelOp, EvtRtxMessageQueueNo, 0x08U) #define EvtRtxMessageQueueInsertPending \ EventID(EventLevelOp, EvtRtxMessageQueueNo, 0x09U) #define EvtRtxMessageQueueInserted \ EventID(EventLevelOp, EvtRtxMessageQueueNo, 0x0AU) #define EvtRtxMessageQueueNotInserted \ EventID(EventLevelOp, EvtRtxMessageQueueNo, 0x0BU) #define EvtRtxMessageQueueGet \ EventID(EventLevelAPI, EvtRtxMessageQueueNo, 0x0CU) #define EvtRtxMessageQueueGetPending \ EventID(EventLevelOp, EvtRtxMessageQueueNo, 0x0DU) #define EvtRtxMessageQueueGetTimeout \ EventID(EventLevelOp, EvtRtxMessageQueueNo, 0x0EU) #define EvtRtxMessageQueueRetrieved \ EventID(EventLevelOp, EvtRtxMessageQueueNo, 0x0FU) #define EvtRtxMessageQueueNotRetrieved \ EventID(EventLevelOp, EvtRtxMessageQueueNo, 0x10U) #define EvtRtxMessageQueueGetCapacity \ EventID(EventLevelAPI, EvtRtxMessageQueueNo, 0x11U) #define EvtRtxMessageQueueGetMsgSize \ EventID(EventLevelAPI, EvtRtxMessageQueueNo, 0x12U) #define EvtRtxMessageQueueGetCount \ EventID(EventLevelAPI, EvtRtxMessageQueueNo, 0x13U) #define EvtRtxMessageQueueGetSpace \ EventID(EventLevelAPI, EvtRtxMessageQueueNo, 0x14U) #define EvtRtxMessageQueueReset \ EventID(EventLevelAPI, EvtRtxMessageQueueNo, 0x15U) #define EvtRtxMessageQueueResetDone \ EventID(EventLevelOp, EvtRtxMessageQueueNo, 0x16U) #define EvtRtxMessageQueueDelete \ EventID(EventLevelAPI, EvtRtxMessageQueueNo, 0x17U) #define EvtRtxMessageQueueDestroyed \ EventID(EventLevelOp, EvtRtxMessageQueueNo, 0x18U) #endif // RTE_Compiler_EventRecorder // lint -esym(522, EvrRtx*) "Functions 'EvrRtx*' can be overridden (do not lack // side-effects)" // ==== Memory Events ==== #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_MEMORY != 0) && \ !defined(EVR_RTX_MEMORY_INIT_DISABLE)) __WEAK void EvrRtxMemoryInit(void *mem, uint32_t size, uint32_t result) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord4(EvtRtxMemoryInit, (uint32_t)mem, size, result, 0U); #else (void)mem; (void)size; (void)result; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_MEMORY != 0) && \ !defined(EVR_RTX_MEMORY_ALLOC_DISABLE)) __WEAK void EvrRtxMemoryAlloc(void *mem, uint32_t size, uint32_t type, void *block) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord4(EvtRtxMemoryAlloc, (uint32_t)mem, size, type, (uint32_t)block); #else (void)mem; (void)size; (void)type; (void)block; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_MEMORY != 0) && \ !defined(EVR_RTX_MEMORY_FREE_DISABLE)) __WEAK void EvrRtxMemoryFree(void *mem, void *block, uint32_t result) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord4(EvtRtxMemoryFree, (uint32_t)mem, (uint32_t)block, result, 0U); #else (void)mem; (void)block; (void)result; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_MEMORY != 0) && \ !defined(EVR_RTX_MEMORY_BLOCK_INIT_DISABLE)) __WEAK void EvrRtxMemoryBlockInit(osRtxMpInfo_t *mp_info, uint32_t block_count, uint32_t block_size, void *block_mem) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord4(EvtRtxMemoryBlockInit, (uint32_t)mp_info, block_count, block_size, (uint32_t)block_mem); #else (void)mp_info; (void)block_count; (void)block_size; (void)block_mem; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_MEMORY != 0) && \ !defined(EVR_RTX_MEMORY_BLOCK_ALLOC_DISABLE)) __WEAK void EvrRtxMemoryBlockAlloc(osRtxMpInfo_t *mp_info, void *block) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxMemoryBlockAlloc, (uint32_t)mp_info, (uint32_t)block); #else (void)mp_info; (void)block; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_MEMORY != 0) && \ !defined(EVR_RTX_MEMORY_BLOCK_FREE_DISABLE)) __WEAK void EvrRtxMemoryBlockFree(osRtxMpInfo_t *mp_info, void *block, int32_t status) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord4(EvtRtxMemoryBlockFree, (uint32_t)mp_info, (uint32_t)block, (uint32_t)status, 0U); #else (void)mp_info; (void)block; (void)status; #endif } #endif // ==== Kernel Events ==== #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_KERNEL != 0) && \ !defined(EVR_RTX_KERNEL_ERROR_DISABLE)) __WEAK void EvrRtxKernelError(int32_t status) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxKernelError, (uint32_t)status, 0U); #else (void)status; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_KERNEL != 0) && \ !defined(EVR_RTX_KERNEL_INITIALIZE_DISABLE)) __WEAK void EvrRtxKernelInitialize(void) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxKernelInitialize, 0U, 0U); #else #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_KERNEL != 0) && \ !defined(EVR_RTX_KERNEL_INITIALIZED_DISABLE)) __WEAK void EvrRtxKernelInitialized(void) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxKernelInitialized, 0U, 0U); #else #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_KERNEL != 0) && \ !defined(EVR_RTX_KERNEL_GET_INFO_DISABLE)) __WEAK void EvrRtxKernelGetInfo(osVersion_t *version, char *id_buf, uint32_t id_size) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord4(EvtRtxKernelGetInfo, (uint32_t)version, (uint32_t)id_buf, id_size, 0U); #else (void)version; (void)id_buf; (void)id_size; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_KERNEL != 0) && \ !defined(EVR_RTX_KERNEL_INFO_RETRIEVED_DISABLE)) __WEAK void EvrRtxKernelInfoRetrieved(const osVersion_t *version, const char *id_buf, uint32_t id_size) { #if defined(RTE_Compiler_EventRecorder) if (version != NULL) { (void)EventRecord2(EvtRtxKernelInfoRetrieved, version->api, version->kernel); } if (id_buf != NULL) { (void)EventRecordData(EvtRtxKernelInfoRetrieved_Detail, id_buf, id_size); } #else (void)version; (void)id_buf; (void)id_size; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_KERNEL != 0) && \ !defined(EVR_RTX_KERNEL_GET_STATE_DISABLE)) __WEAK void EvrRtxKernelGetState(osKernelState_t state) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxKernelGetState, (uint32_t)state, 0U); #else (void)state; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_KERNEL != 0) && \ !defined(EVR_RTX_KERNEL_START_DISABLE)) __WEAK void EvrRtxKernelStart(void) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxKernelStart, 0U, 0U); #else #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_KERNEL != 0) && \ !defined(EVR_RTX_KERNEL_STARTED_DISABLE)) __WEAK void EvrRtxKernelStarted(void) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxKernelStarted, 0U, 0U); #else #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_KERNEL != 0) && \ !defined(EVR_RTX_KERNEL_LOCK_DISABLE)) __WEAK void EvrRtxKernelLock(void) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxKernelLock, 0U, 0U); #else #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_KERNEL != 0) && \ !defined(EVR_RTX_KERNEL_LOCKED_DISABLE)) __WEAK void EvrRtxKernelLocked(int32_t lock) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxKernelLocked, (uint32_t)lock, 0U); #else (void)lock; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_KERNEL != 0) && \ !defined(EVR_RTX_KERNEL_UNLOCK_DISABLE)) __WEAK void EvrRtxKernelUnlock(void) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxKernelUnlock, 0U, 0U); #else #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_KERNEL != 0) && \ !defined(EVR_RTX_KERNEL_UNLOCKED_DISABLE)) __WEAK void EvrRtxKernelUnlocked(int32_t lock) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxKernelUnlocked, (uint32_t)lock, 0U); #else (void)lock; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_KERNEL != 0) && \ !defined(EVR_RTX_KERNEL_RESTORE_LOCK_DISABLE)) __WEAK void EvrRtxKernelRestoreLock(int32_t lock) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxKernelRestoreLock, (uint32_t)lock, 0U); #else (void)lock; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_KERNEL != 0) && \ !defined(EVR_RTX_KERNEL_LOCK_RESTORED_DISABLE)) __WEAK void EvrRtxKernelLockRestored(int32_t lock) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxKernelLockRestored, (uint32_t)lock, 0U); #else (void)lock; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_KERNEL != 0) && \ !defined(EVR_RTX_KERNEL_SUSPEND_DISABLE)) __WEAK void EvrRtxKernelSuspend(void) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxKernelSuspend, 0U, 0U); #else #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_KERNEL != 0) && \ !defined(EVR_RTX_KERNEL_SUSPENDED_DISABLE)) __WEAK void EvrRtxKernelSuspended(uint32_t sleep_ticks) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxKernelSuspended, sleep_ticks, 0U); #else (void)sleep_ticks; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_KERNEL != 0) && \ !defined(EVR_RTX_KERNEL_RESUME_DISABLE)) __WEAK void EvrRtxKernelResume(uint32_t sleep_ticks) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxKernelResume, sleep_ticks, 0U); #else (void)sleep_ticks; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_KERNEL != 0) && \ !defined(EVR_RTX_KERNEL_RESUMED_DISABLE)) __WEAK void EvrRtxKernelResumed(void) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxKernelResumed, 0U, 0U); #else #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_KERNEL != 0) && \ !defined(EVR_RTX_KERNEL_GET_TICK_COUNT_DISABLE)) __WEAK void EvrRtxKernelGetTickCount(uint32_t count) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxKernelGetTickCount, count, 0U); #else (void)count; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_KERNEL != 0) && \ !defined(EVR_RTX_KERNEL_GET_TICK_FREQ_DISABLE)) __WEAK void EvrRtxKernelGetTickFreq(uint32_t freq) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxKernelGetTickFreq, freq, 0U); #else (void)freq; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_KERNEL != 0) && \ !defined(EVR_RTX_KERNEL_GET_SYS_TIMER_COUNT_DISABLE)) __WEAK void EvrRtxKernelGetSysTimerCount(uint32_t count) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxKernelGetSysTimerCount, count, 0U); #else (void)count; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_KERNEL != 0) && \ !defined(EVR_RTX_KERNEL_GET_SYS_TIMER_FREQ_DISABLE)) __WEAK void EvrRtxKernelGetSysTimerFreq(uint32_t freq) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxKernelGetSysTimerFreq, freq, 0U); #else (void)freq; #endif } #endif // ==== Thread Events ==== #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_THREAD != 0) && \ !defined(EVR_RTX_THREAD_ERROR_DISABLE)) __WEAK void EvrRtxThreadError(osThreadId_t thread_id, int32_t status) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxThreadError, (uint32_t)thread_id, (uint32_t)status); #else os_thread_t *thread = osRtxThreadId(thread_id); TRACE(2, "EvrRtxThreadError, thread name:%s, status:%d", thread ? thread->name : "NULL", status); #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_THREAD != 0) && \ !defined(EVR_RTX_THREAD_NEW_DISABLE)) __WEAK void EvrRtxThreadNew(osThreadFunc_t func, void *argument, const osThreadAttr_t *attr) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord4(EvtRtxThreadNew, (uint32_t)func, (uint32_t)argument, (uint32_t)attr, 0U); #else (void)func; (void)argument; (void)attr; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_THREAD != 0) && \ !defined(EVR_RTX_THREAD_CREATED_DISABLE)) __WEAK void EvrRtxThreadCreated(osThreadId_t thread_id, uint32_t thread_addr, const char *name) { #if defined(RTE_Compiler_EventRecorder) if (name != NULL) { (void)EventRecord2(EvtRtxThreadCreated_Name, (uint32_t)thread_id, (uint32_t)name); } else { (void)EventRecord2(EvtRtxThreadCreated_Addr, (uint32_t)thread_id, thread_addr); } #else (void)thread_id; (void)thread_addr; (void)name; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_THREAD != 0) && \ !defined(EVR_RTX_THREAD_GET_NAME_DISABLE)) __WEAK void EvrRtxThreadGetName(osThreadId_t thread_id, const char *name) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxThreadGetName, (uint32_t)thread_id, (uint32_t)name); #else (void)thread_id; (void)name; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_THREAD != 0) && \ !defined(EVR_RTX_THREAD_GET_ID_DISABLE)) __WEAK void EvrRtxThreadGetId(osThreadId_t thread_id) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxThreadGetId, (uint32_t)thread_id, 0U); #else (void)thread_id; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_THREAD != 0) && \ !defined(EVR_RTX_THREAD_GET_STATE_DISABLE)) __WEAK void EvrRtxThreadGetState(osThreadId_t thread_id, osThreadState_t state) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxThreadGetState, (uint32_t)thread_id, (uint32_t)state); #else (void)thread_id; (void)state; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_THREAD != 0) && \ !defined(EVR_RTX_THREAD_GET_STACK_SIZE_DISABLE)) __WEAK void EvrRtxThreadGetStackSize(osThreadId_t thread_id, uint32_t stack_size) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxThreadGetStackSize, (uint32_t)thread_id, stack_size); #else (void)thread_id; (void)stack_size; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_THREAD != 0) && \ !defined(EVR_RTX_THREAD_GET_STACK_SPACE_DISABLE)) __WEAK void EvrRtxThreadGetStackSpace(osThreadId_t thread_id, uint32_t stack_space) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxThreadGetStackSpace, (uint32_t)thread_id, stack_space); #else (void)thread_id; (void)stack_space; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_THREAD != 0) && \ !defined(EVR_RTX_THREAD_SET_PRIORITY_DISABLE)) __WEAK void EvrRtxThreadSetPriority(osThreadId_t thread_id, osPriority_t priority) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxThreadSetPriority, (uint32_t)thread_id, (uint32_t)priority); #else (void)thread_id; (void)priority; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_THREAD != 0) && \ !defined(EVR_RTX_THREAD_PRIORITY_UPDATED_DISABLE)) __WEAK void EvrRtxThreadPriorityUpdated(osThreadId_t thread_id, osPriority_t priority) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxThreadPriorityUpdated, (uint32_t)thread_id, (uint32_t)priority); #else (void)thread_id; (void)priority; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_THREAD != 0) && \ !defined(EVR_RTX_THREAD_GET_PRIORITY_DISABLE)) __WEAK void EvrRtxThreadGetPriority(osThreadId_t thread_id, osPriority_t priority) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxThreadGetPriority, (uint32_t)thread_id, (uint32_t)priority); #else (void)thread_id; (void)priority; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_THREAD != 0) && \ !defined(EVR_RTX_THREAD_YIELD_DISABLE)) __WEAK void EvrRtxThreadYield(void) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxThreadYield, 0U, 0U); #else #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_THREAD != 0) && \ !defined(EVR_RTX_THREAD_SUSPEND_DISABLE)) __WEAK void EvrRtxThreadSuspend(osThreadId_t thread_id) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxThreadSuspend, (uint32_t)thread_id, 0U); #else (void)thread_id; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_THREAD != 0) && \ !defined(EVR_RTX_THREAD_SUSPENDED_DISABLE)) __WEAK void EvrRtxThreadSuspended(osThreadId_t thread_id) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxThreadSuspended, (uint32_t)thread_id, 0U); #else (void)thread_id; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_THREAD != 0) && \ !defined(EVR_RTX_THREAD_RESUME_DISABLE)) __WEAK void EvrRtxThreadResume(osThreadId_t thread_id) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxThreadResume, (uint32_t)thread_id, 0U); #else (void)thread_id; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_THREAD != 0) && \ !defined(EVR_RTX_THREAD_RESUMED_DISABLE)) __WEAK void EvrRtxThreadResumed(osThreadId_t thread_id) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxThreadResumed, (uint32_t)thread_id, 0U); #else (void)thread_id; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_THREAD != 0) && \ !defined(EVR_RTX_THREAD_DETACH_DISABLE)) __WEAK void EvrRtxThreadDetach(osThreadId_t thread_id) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxThreadDetach, (uint32_t)thread_id, 0U); #else (void)thread_id; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_THREAD != 0) && \ !defined(EVR_RTX_THREAD_DETACHED_DISABLE)) __WEAK void EvrRtxThreadDetached(osThreadId_t thread_id) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxThreadDetached, (uint32_t)thread_id, 0U); #else (void)thread_id; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_THREAD != 0) && \ !defined(EVR_RTX_THREAD_JOIN_DISABLE)) __WEAK void EvrRtxThreadJoin(osThreadId_t thread_id) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxThreadJoin, (uint32_t)thread_id, 0U); #else (void)thread_id; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_THREAD != 0) && \ !defined(EVR_RTX_THREAD_JOIN_PENDING_DISABLE)) __WEAK void EvrRtxThreadJoinPending(osThreadId_t thread_id) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxThreadJoinPending, (uint32_t)thread_id, 0U); #else (void)thread_id; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_THREAD != 0) && \ !defined(EVR_RTX_THREAD_JOINED_DISABLE)) __WEAK void EvrRtxThreadJoined(osThreadId_t thread_id) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxThreadJoined, (uint32_t)thread_id, 0U); #else (void)thread_id; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_THREAD != 0) && \ !defined(EVR_RTX_THREAD_BLOCKED_DISABLE)) __WEAK void EvrRtxThreadBlocked(osThreadId_t thread_id, uint32_t timeout) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxThreadBlocked, (uint32_t)thread_id, timeout); #else (void)thread_id; (void)timeout; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_THREAD != 0) && \ !defined(EVR_RTX_THREAD_UNBLOCKED_DISABLE)) __WEAK void EvrRtxThreadUnblocked(osThreadId_t thread_id, uint32_t ret_val) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxThreadUnblocked, (uint32_t)thread_id, ret_val); #else (void)thread_id; (void)ret_val; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_THREAD != 0) && \ !defined(EVR_RTX_THREAD_PREEMPTED_DISABLE)) __WEAK void EvrRtxThreadPreempted(osThreadId_t thread_id) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxThreadPreempted, (uint32_t)thread_id, 0U); #else (void)thread_id; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_THREAD != 0) && \ !defined(EVR_RTX_THREAD_SWITCHED_DISABLE)) __WEAK void EvrRtxThreadSwitched(osThreadId_t thread_id) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxThreadSwitched, (uint32_t)thread_id, 0U); #else (void)thread_id; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_THREAD != 0) && \ !defined(EVR_RTX_THREAD_EXIT_DISABLE)) __WEAK void EvrRtxThreadExit(void) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxThreadExit, 0U, 0U); #else #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_THREAD != 0) && \ !defined(EVR_RTX_THREAD_TERMINATE_DISABLE)) __WEAK void EvrRtxThreadTerminate(osThreadId_t thread_id) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxThreadTerminate, (uint32_t)thread_id, 0U); #else (void)thread_id; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_THREAD != 0) && \ !defined(EVR_RTX_THREAD_DESTROYED_DISABLE)) __WEAK void EvrRtxThreadDestroyed(osThreadId_t thread_id) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxThreadDestroyed, (uint32_t)thread_id, 0U); #else (void)thread_id; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_THREAD != 0) && \ !defined(EVR_RTX_THREAD_GET_COUNT_DISABLE)) __WEAK void EvrRtxThreadGetCount(uint32_t count) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxThreadGetCount, count, 0U); #else (void)count; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_THREAD != 0) && \ !defined(EVR_RTX_THREAD_ENUMERATE_DISABLE)) __WEAK void EvrRtxThreadEnumerate(osThreadId_t *thread_array, uint32_t array_items, uint32_t count) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord4(EvtRtxThreadEnumerate, (uint32_t)thread_array, array_items, count, 0U); #else (void)thread_array; (void)array_items; (void)count; #endif } #endif // ==== Thread Flags Events ==== #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_THFLAGS != 0) && \ !defined(EVR_RTX_THREAD_FLAGS_ERROR_DISABLE)) __WEAK void EvrRtxThreadFlagsError(osThreadId_t thread_id, int32_t status) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxThreadFlagsError, (uint32_t)thread_id, (uint32_t)status); #else (void)thread_id; (void)status; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_THFLAGS != 0) && \ !defined(EVR_RTX_THREAD_FLAGS_SET_DISABLE)) __WEAK void EvrRtxThreadFlagsSet(osThreadId_t thread_id, uint32_t flags) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxThreadFlagsSet, (uint32_t)thread_id, flags); #else (void)thread_id; (void)flags; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_THFLAGS != 0) && \ !defined(EVR_RTX_THREAD_FLAGS_SET_DONE_DISABLE)) __WEAK void EvrRtxThreadFlagsSetDone(osThreadId_t thread_id, uint32_t thread_flags) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxThreadFlagsSetDone, (uint32_t)thread_id, thread_flags); #else (void)thread_id; (void)thread_flags; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_THFLAGS != 0) && \ !defined(EVR_RTX_THREAD_FLAGS_CLEAR_DISABLE)) __WEAK void EvrRtxThreadFlagsClear(uint32_t flags) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxThreadFlagsClear, flags, 0U); #else (void)flags; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_THFLAGS != 0) && \ !defined(EVR_RTX_THREAD_FLAGS_CLEAR_DONE_DISABLE)) __WEAK void EvrRtxThreadFlagsClearDone(uint32_t thread_flags) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxThreadFlagsClearDone, thread_flags, 0U); #else (void)thread_flags; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_THFLAGS != 0) && \ !defined(EVR_RTX_THREAD_FLAGS_GET_DISABLE)) __WEAK void EvrRtxThreadFlagsGet(uint32_t thread_flags) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxThreadFlagsGet, thread_flags, 0U); #else (void)thread_flags; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_THFLAGS != 0) && \ !defined(EVR_RTX_THREAD_FLAGS_WAIT_DISABLE)) __WEAK void EvrRtxThreadFlagsWait(uint32_t flags, uint32_t options, uint32_t timeout) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord4(EvtRtxThreadFlagsWait, flags, options, timeout, 0U); #else (void)flags; (void)options; (void)timeout; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_THFLAGS != 0) && \ !defined(EVR_RTX_THREAD_FLAGS_WAIT_PENDING_DISABLE)) __WEAK void EvrRtxThreadFlagsWaitPending(uint32_t flags, uint32_t options, uint32_t timeout) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord4(EvtRtxThreadFlagsWaitPending, flags, options, timeout, 0U); #else (void)flags; (void)options; (void)timeout; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_THFLAGS != 0) && \ !defined(EVR_RTX_THREAD_FLAGS_WAIT_TIMEOUT_DISABLE)) __WEAK void EvrRtxThreadFlagsWaitTimeout(osThreadId_t thread_id) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxThreadFlagsWaitTimeout, (uint32_t)thread_id, 0U); #else (void)thread_id; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_THFLAGS != 0) && \ !defined(EVR_RTX_THREAD_FLAGS_WAIT_COMPLETED_DISABLE)) __WEAK void EvrRtxThreadFlagsWaitCompleted(uint32_t flags, uint32_t options, uint32_t thread_flags, osThreadId_t thread_id) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord4(EvtRtxThreadFlagsWaitCompleted, flags, options, thread_flags, (uint32_t)thread_id); #else (void)flags; (void)options; (void)thread_flags; (void)thread_id; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_THFLAGS != 0) && \ !defined(EVR_RTX_THREAD_FLAGS_WAIT_NOT_COMPLETED_DISABLE)) __WEAK void EvrRtxThreadFlagsWaitNotCompleted(uint32_t flags, uint32_t options) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxThreadFlagsWaitNotCompleted, flags, options); #else (void)flags; (void)options; #endif } #endif // ==== Generic Wait Events ==== #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_WAIT != 0) && \ !defined(EVR_RTX_DELAY_ERROR_DISABLE)) __WEAK void EvrRtxDelayError(int32_t status) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxDelayError, (uint32_t)status, 0U); #else (void)status; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_WAIT != 0) && \ !defined(EVR_RTX_DELAY_DISABLE)) __WEAK void EvrRtxDelay(uint32_t ticks) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxDelay, ticks, 0U); #else (void)ticks; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_WAIT != 0) && \ !defined(EVR_RTX_DELAY_UNTIL_DISABLE)) __WEAK void EvrRtxDelayUntil(uint32_t ticks) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxDelayUntil, ticks, 0U); #else (void)ticks; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_WAIT != 0) && \ !defined(EVR_RTX_DELAY_STARTED_DISABLE)) __WEAK void EvrRtxDelayStarted(uint32_t ticks) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxDelayStarted, ticks, 0U); #else (void)ticks; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_WAIT != 0) && \ !defined(EVR_RTX_DELAY_UNTIL_STARTED_DISABLE)) __WEAK void EvrRtxDelayUntilStarted(uint32_t ticks) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxDelayUntilStarted, ticks, 0U); #else (void)ticks; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_WAIT != 0) && \ !defined(EVR_RTX_DELAY_COMPLETED_DISABLE)) __WEAK void EvrRtxDelayCompleted(osThreadId_t thread_id) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxDelayCompleted, (uint32_t)thread_id, 0U); #else (void)thread_id; #endif } #endif // ==== Timer Events ==== #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_TIMER != 0) && \ !defined(EVR_RTX_TIMER_ERROR_DISABLE)) __WEAK void EvrRtxTimerError(osTimerId_t timer_id, int32_t status) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxTimerError, (uint32_t)timer_id, (uint32_t)status); #else (void)timer_id; (void)status; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_TIMER != 0) && \ !defined(EVR_RTX_TIMER_CALLBACK_DISABLE)) __WEAK void EvrRtxTimerCallback(osTimerFunc_t func, void *argument) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxTimerCallback, (uint32_t)func, (uint32_t)argument); #else (void)func; (void)argument; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_TIMER != 0) && \ !defined(EVR_RTX_TIMER_NEW_DISABLE)) __WEAK void EvrRtxTimerNew(osTimerFunc_t func, osTimerType_t type, void *argument, const osTimerAttr_t *attr) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord4(EvtRtxTimerNew, (uint32_t)func, (uint32_t)type, (uint32_t)argument, (uint32_t)attr); #else (void)func; (void)type; (void)argument; (void)attr; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_TIMER != 0) && \ !defined(EVR_RTX_TIMER_CREATED_DISABLE)) __WEAK void EvrRtxTimerCreated(osTimerId_t timer_id, const char *name) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxTimerCreated, (uint32_t)timer_id, (uint32_t)name); #else (void)timer_id; (void)name; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_TIMER != 0) && \ !defined(EVR_RTX_TIMER_GET_NAME_DISABLE)) __WEAK void EvrRtxTimerGetName(osTimerId_t timer_id, const char *name) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxTimerGetName, (uint32_t)timer_id, (uint32_t)name); #else (void)timer_id; (void)name; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_TIMER != 0) && \ !defined(EVR_RTX_TIMER_START_DISABLE)) __WEAK void EvrRtxTimerStart(osTimerId_t timer_id, uint32_t ticks) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxTimerStart, (uint32_t)timer_id, ticks); #else (void)timer_id; (void)ticks; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_TIMER != 0) && \ !defined(EVR_RTX_TIMER_STARTED_DISABLE)) __WEAK void EvrRtxTimerStarted(osTimerId_t timer_id) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxTimerStarted, (uint32_t)timer_id, 0U); #else (void)timer_id; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_TIMER != 0) && \ !defined(EVR_RTX_TIMER_STOP_DISABLE)) __WEAK void EvrRtxTimerStop(osTimerId_t timer_id) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxTimerStop, (uint32_t)timer_id, 0U); #else (void)timer_id; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_TIMER != 0) && \ !defined(EVR_RTX_TIMER_STOPPED_DISABLE)) __WEAK void EvrRtxTimerStopped(osTimerId_t timer_id) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxTimerStopped, (uint32_t)timer_id, 0U); #else (void)timer_id; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_TIMER != 0) && \ !defined(EVR_RTX_TIMER_IS_RUNNING_DISABLE)) __WEAK void EvrRtxTimerIsRunning(osTimerId_t timer_id, uint32_t running) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxTimerIsRunning, (uint32_t)timer_id, running); #else (void)timer_id; (void)running; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_TIMER != 0) && \ !defined(EVR_RTX_TIMER_DELETE_DISABLE)) __WEAK void EvrRtxTimerDelete(osTimerId_t timer_id) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxTimerDelete, (uint32_t)timer_id, 0U); #else (void)timer_id; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_TIMER != 0) && \ !defined(EVR_RTX_TIMER_DESTROYED_DISABLE)) __WEAK void EvrRtxTimerDestroyed(osTimerId_t timer_id) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxTimerDestroyed, (uint32_t)timer_id, 0U); #else (void)timer_id; #endif } #endif // ==== Event Flags Events ==== #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_EVFLAGS != 0) && \ !defined(EVR_RTX_EVENT_FLAGS_ERROR_DISABLE)) __WEAK void EvrRtxEventFlagsError(osEventFlagsId_t ef_id, int32_t status) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxEventFlagsError, (uint32_t)ef_id, (uint32_t)status); #else (void)ef_id; (void)status; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_EVFLAGS != 0) && \ !defined(EVR_RTX_EVENT_FLAGS_NEW_DISABLE)) __WEAK void EvrRtxEventFlagsNew(const osEventFlagsAttr_t *attr) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxEventFlagsNew, (uint32_t)attr, 0U); #else (void)attr; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_EVFLAGS != 0) && \ !defined(EVR_RTX_EVENT_FLAGS_CREATED_DISABLE)) __WEAK void EvrRtxEventFlagsCreated(osEventFlagsId_t ef_id, const char *name) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxEventFlagsCreated, (uint32_t)ef_id, (uint32_t)name); #else (void)ef_id; (void)name; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_EVFLAGS != 0) && \ !defined(EVR_RTX_EVENT_FLAGS_GET_NAME_DISABLE)) __WEAK void EvrRtxEventFlagsGetName(osEventFlagsId_t ef_id, const char *name) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxEventFlagsGetName, (uint32_t)ef_id, (uint32_t)name); #else (void)ef_id; (void)name; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_EVFLAGS != 0) && \ !defined(EVR_RTX_EVENT_FLAGS_SET_DISABLE)) __WEAK void EvrRtxEventFlagsSet(osEventFlagsId_t ef_id, uint32_t flags) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxEventFlagsSet, (uint32_t)ef_id, flags); #else (void)ef_id; (void)flags; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_EVFLAGS != 0) && \ !defined(EVR_RTX_EVENT_FLAGS_SET_DONE_DISABLE)) __WEAK void EvrRtxEventFlagsSetDone(osEventFlagsId_t ef_id, uint32_t event_flags) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxEventFlagsSetDone, (uint32_t)ef_id, event_flags); #else (void)ef_id; (void)event_flags; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_EVFLAGS != 0) && \ !defined(EVR_RTX_EVENT_FLAGS_CLEAR_DISABLE)) __WEAK void EvrRtxEventFlagsClear(osEventFlagsId_t ef_id, uint32_t flags) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxEventFlagsClear, (uint32_t)ef_id, flags); #else (void)ef_id; (void)flags; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_EVFLAGS != 0) && \ !defined(EVR_RTX_EVENT_FLAGS_CLEAR_DONE_DISABLE)) __WEAK void EvrRtxEventFlagsClearDone(osEventFlagsId_t ef_id, uint32_t event_flags) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxEventFlagsClearDone, (uint32_t)ef_id, event_flags); #else (void)ef_id; (void)event_flags; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_EVFLAGS != 0) && \ !defined(EVR_RTX_EVENT_FLAGS_GET_DISABLE)) __WEAK void EvrRtxEventFlagsGet(osEventFlagsId_t ef_id, uint32_t event_flags) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxEventFlagsGet, (uint32_t)ef_id, event_flags); #else (void)ef_id; (void)event_flags; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_EVFLAGS != 0) && \ !defined(EVR_RTX_EVENT_FLAGS_WAIT_DISABLE)) __WEAK void EvrRtxEventFlagsWait(osEventFlagsId_t ef_id, uint32_t flags, uint32_t options, uint32_t timeout) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord4(EvtRtxEventFlagsWait, (uint32_t)ef_id, flags, options, timeout); #else (void)ef_id; (void)flags; (void)options; (void)timeout; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_EVFLAGS != 0) && \ !defined(EVR_RTX_EVENT_FLAGS_WAIT_PENDING_DISABLE)) __WEAK void EvrRtxEventFlagsWaitPending(osEventFlagsId_t ef_id, uint32_t flags, uint32_t options, uint32_t timeout) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord4(EvtRtxEventFlagsWaitPending, (uint32_t)ef_id, flags, options, timeout); #else (void)ef_id; (void)flags; (void)options; (void)timeout; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_EVFLAGS != 0) && \ !defined(EVR_RTX_EVENT_FLAGS_WAIT_TIMEOUT_DISABLE)) __WEAK void EvrRtxEventFlagsWaitTimeout(osEventFlagsId_t ef_id) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxEventFlagsWaitTimeout, (uint32_t)ef_id, 0U); #else (void)ef_id; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_EVFLAGS != 0) && \ !defined(EVR_RTX_EVENT_FLAGS_WAIT_COMPLETED_DISABLE)) __WEAK void EvrRtxEventFlagsWaitCompleted(osEventFlagsId_t ef_id, uint32_t flags, uint32_t options, uint32_t event_flags) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord4(EvtRtxEventFlagsWaitCompleted, (uint32_t)ef_id, flags, options, event_flags); #else (void)ef_id; (void)flags; (void)options; (void)event_flags; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_EVFLAGS != 0) && \ !defined(EVR_RTX_EVENT_FLAGS_WAIT_NOT_COMPLETED_DISABLE)) __WEAK void EvrRtxEventFlagsWaitNotCompleted(osEventFlagsId_t ef_id, uint32_t flags, uint32_t options) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord4(EvtRtxEventFlagsWaitNotCompleted, (uint32_t)ef_id, flags, options, 0U); #else (void)ef_id; (void)flags; (void)options; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_EVFLAGS != 0) && \ !defined(EVR_RTX_EVENT_FLAGS_DELETE_DISABLE)) __WEAK void EvrRtxEventFlagsDelete(osEventFlagsId_t ef_id) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxEventFlagsDelete, (uint32_t)ef_id, 0U); #else (void)ef_id; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_EVFLAGS != 0) && \ !defined(EVR_RTX_EVENT_FLAGS_DESTROYED_DISABLE)) __WEAK void EvrRtxEventFlagsDestroyed(osEventFlagsId_t ef_id) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxEventFlagsDestroyed, (uint32_t)ef_id, 0U); #else (void)ef_id; #endif } #endif // ==== Mutex Events ==== #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_MUTEX != 0) && \ !defined(EVR_RTX_MUTEX_ERROR_DISABLE)) __WEAK void EvrRtxMutexError(osMutexId_t mutex_id, int32_t status) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxMutexError, (uint32_t)mutex_id, (uint32_t)status); #else (void)mutex_id; (void)status; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_MUTEX != 0) && \ !defined(EVR_RTX_MUTEX_NEW_DISABLE)) __WEAK void EvrRtxMutexNew(const osMutexAttr_t *attr) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxMutexNew, (uint32_t)attr, 0U); #else (void)attr; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_MUTEX != 0) && \ !defined(EVR_RTX_MUTEX_CREATED_DISABLE)) __WEAK void EvrRtxMutexCreated(osMutexId_t mutex_id, const char *name) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxMutexCreated, (uint32_t)mutex_id, (uint32_t)name); #else (void)mutex_id; (void)name; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_MUTEX != 0) && \ !defined(EVR_RTX_MUTEX_GET_NAME_DISABLE)) __WEAK void EvrRtxMutexGetName(osMutexId_t mutex_id, const char *name) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxMutexGetName, (uint32_t)mutex_id, (uint32_t)name); #else (void)mutex_id; (void)name; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_MUTEX != 0) && \ !defined(EVR_RTX_MUTEX_ACQUIRE_DISABLE)) __WEAK void EvrRtxMutexAcquire(osMutexId_t mutex_id, uint32_t timeout) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxMutexAcquire, (uint32_t)mutex_id, timeout); #else (void)mutex_id; (void)timeout; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_MUTEX != 0) && \ !defined(EVR_RTX_MUTEX_ACQUIRE_PENDING_DISABLE)) __WEAK void EvrRtxMutexAcquirePending(osMutexId_t mutex_id, uint32_t timeout) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxMutexAcquirePending, (uint32_t)mutex_id, timeout); #else (void)mutex_id; (void)timeout; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_MUTEX != 0) && \ !defined(EVR_RTX_MUTEX_ACQUIRE_TIMEOUT_DISABLE)) __WEAK void EvrRtxMutexAcquireTimeout(osMutexId_t mutex_id) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxMutexAcquireTimeout, (uint32_t)mutex_id, 0U); #else (void)mutex_id; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_MUTEX != 0) && \ !defined(EVR_RTX_MUTEX_ACQUIRED_DISABLE)) __WEAK void EvrRtxMutexAcquired(osMutexId_t mutex_id, uint32_t lock) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxMutexAcquired, (uint32_t)mutex_id, lock); #else (void)mutex_id; (void)lock; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_MUTEX != 0) && \ !defined(EVR_RTX_MUTEX_NOT_ACQUIRED_DISABLE)) __WEAK void EvrRtxMutexNotAcquired(osMutexId_t mutex_id) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxMutexNotAcquired, (uint32_t)mutex_id, 0U); #else (void)mutex_id; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_MUTEX != 0) && \ !defined(EVR_RTX_MUTEX_RELEASE_DISABLE)) __WEAK void EvrRtxMutexRelease(osMutexId_t mutex_id) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxMutexRelease, (uint32_t)mutex_id, 0U); #else (void)mutex_id; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_MUTEX != 0) && \ !defined(EVR_RTX_MUTEX_RELEASED_DISABLE)) __WEAK void EvrRtxMutexReleased(osMutexId_t mutex_id, uint32_t lock) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxMutexReleased, (uint32_t)mutex_id, lock); #else (void)mutex_id; (void)lock; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_MUTEX != 0) && \ !defined(EVR_RTX_MUTEX_GET_OWNER_DISABLE)) __WEAK void EvrRtxMutexGetOwner(osMutexId_t mutex_id, osThreadId_t thread_id) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxMutexGetOwner, (uint32_t)mutex_id, (uint32_t)thread_id); #else (void)mutex_id; (void)thread_id; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_MUTEX != 0) && \ !defined(EVR_RTX_MUTEX_DELETE_DISABLE)) __WEAK void EvrRtxMutexDelete(osMutexId_t mutex_id) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxMutexDelete, (uint32_t)mutex_id, 0U); #else (void)mutex_id; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_MUTEX != 0) && \ !defined(EVR_RTX_MUTEX_DESTROYED_DISABLE)) __WEAK void EvrRtxMutexDestroyed(osMutexId_t mutex_id) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxMutexDestroyed, (uint32_t)mutex_id, 0U); #else (void)mutex_id; #endif } #endif // ==== Semaphore Events ==== #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_SEMAPHORE != 0) && \ !defined(EVR_RTX_SEMAPHORE_ERROR_DISABLE)) __WEAK void EvrRtxSemaphoreError(osSemaphoreId_t semaphore_id, int32_t status) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxSemaphoreError, (uint32_t)semaphore_id, (uint32_t)status); #else (void)semaphore_id; (void)status; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_SEMAPHORE != 0) && \ !defined(EVR_RTX_SEMAPHORE_NEW_DISABLE)) __WEAK void EvrRtxSemaphoreNew(uint32_t max_count, uint32_t initial_count, const osSemaphoreAttr_t *attr) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord4(EvtRtxSemaphoreNew, max_count, initial_count, (uint32_t)attr, 0U); #else (void)max_count; (void)initial_count; (void)attr; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_SEMAPHORE != 0) && \ !defined(EVR_RTX_SEMAPHORE_CREATED_DISABLE)) __WEAK void EvrRtxSemaphoreCreated(osSemaphoreId_t semaphore_id, const char *name) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxSemaphoreCreated, (uint32_t)semaphore_id, (uint32_t)name); #else (void)semaphore_id; (void)name; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_SEMAPHORE != 0) && \ !defined(EVR_RTX_SEMAPHORE_GET_NAME_DISABLE)) __WEAK void EvrRtxSemaphoreGetName(osSemaphoreId_t semaphore_id, const char *name) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxSemaphoreGetName, (uint32_t)semaphore_id, (uint32_t)name); #else #endif (void)semaphore_id; (void)name; } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_SEMAPHORE != 0) && \ !defined(EVR_RTX_SEMAPHORE_ACQUIRE_DISABLE)) __WEAK void EvrRtxSemaphoreAcquire(osSemaphoreId_t semaphore_id, uint32_t timeout) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxSemaphoreAcquire, (uint32_t)semaphore_id, timeout); #else (void)semaphore_id; (void)timeout; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_SEMAPHORE != 0) && \ !defined(EVR_RTX_SEMAPHORE_ACQUIRE_PENDING_DISABLE)) __WEAK void EvrRtxSemaphoreAcquirePending(osSemaphoreId_t semaphore_id, uint32_t timeout) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxSemaphoreAcquirePending, (uint32_t)semaphore_id, (uint32_t)timeout); #else (void)semaphore_id; (void)timeout; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_SEMAPHORE != 0) && \ !defined(EVR_RTX_SEMAPHORE_ACQUIRE_TIMEOUT_DISABLE)) __WEAK void EvrRtxSemaphoreAcquireTimeout(osSemaphoreId_t semaphore_id) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxSemaphoreAcquireTimeout, (uint32_t)semaphore_id, 0U); #else (void)semaphore_id; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_SEMAPHORE != 0) && \ !defined(EVR_RTX_SEMAPHORE_ACQUIRED_DISABLE)) __WEAK void EvrRtxSemaphoreAcquired(osSemaphoreId_t semaphore_id, uint32_t tokens) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxSemaphoreAcquired, (uint32_t)semaphore_id, tokens); #else (void)semaphore_id; (void)tokens; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_SEMAPHORE != 0) && \ !defined(EVR_RTX_SEMAPHORE_NOT_ACQUIRED_DISABLE)) __WEAK void EvrRtxSemaphoreNotAcquired(osSemaphoreId_t semaphore_id) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxSemaphoreNotAcquired, (uint32_t)semaphore_id, 0U); #else (void)semaphore_id; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_SEMAPHORE != 0) && \ !defined(EVR_RTX_SEMAPHORE_RELEASE_DISABLE)) __WEAK void EvrRtxSemaphoreRelease(osSemaphoreId_t semaphore_id) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxSemaphoreRelease, (uint32_t)semaphore_id, 0U); #else (void)semaphore_id; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_SEMAPHORE != 0) && \ !defined(EVR_RTX_SEMAPHORE_RELEASED_DISABLE)) __WEAK void EvrRtxSemaphoreReleased(osSemaphoreId_t semaphore_id, uint32_t tokens) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxSemaphoreReleased, (uint32_t)semaphore_id, tokens); #else (void)semaphore_id; (void)tokens; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_SEMAPHORE != 0) && \ !defined(EVR_RTX_SEMAPHORE_GET_COUNT_DISABLE)) __WEAK void EvrRtxSemaphoreGetCount(osSemaphoreId_t semaphore_id, uint32_t count) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxSemaphoreGetCount, (uint32_t)semaphore_id, count); #else (void)semaphore_id; (void)count; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_SEMAPHORE != 0) && \ !defined(EVR_RTX_SEMAPHORE_DELETE_DISABLE)) __WEAK void EvrRtxSemaphoreDelete(osSemaphoreId_t semaphore_id) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxSemaphoreDelete, (uint32_t)semaphore_id, 0U); #else (void)semaphore_id; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_SEMAPHORE != 0) && \ !defined(EVR_RTX_SEMAPHORE_DESTROYED_DISABLE)) __WEAK void EvrRtxSemaphoreDestroyed(osSemaphoreId_t semaphore_id) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxSemaphoreDestroyed, (uint32_t)semaphore_id, 0U); #else (void)semaphore_id; #endif } #endif // ==== Memory Pool Events ==== #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_MEMPOOL != 0) && \ !defined(EVR_RTX_MEMORY_POOL_ERROR_DISABLE)) __WEAK void EvrRtxMemoryPoolError(osMemoryPoolId_t mp_id, int32_t status) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxMemoryPoolError, (uint32_t)mp_id, (uint32_t)status); #else (void)mp_id; (void)status; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_MEMPOOL != 0) && \ !defined(EVR_RTX_MEMORY_POOL_NEW_DISABLE)) __WEAK void EvrRtxMemoryPoolNew(uint32_t block_count, uint32_t block_size, const osMemoryPoolAttr_t *attr) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord4(EvtRtxMemoryPoolNew, block_count, block_size, (uint32_t)attr, 0U); #else (void)block_count; (void)block_size; (void)attr; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_MEMPOOL != 0) && \ !defined(EVR_RTX_MEMORY_POOL_CREATED_DISABLE)) __WEAK void EvrRtxMemoryPoolCreated(osMemoryPoolId_t mp_id, const char *name) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxMemoryPoolCreated, (uint32_t)mp_id, (uint32_t)name); #else (void)mp_id; (void)name; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_MEMPOOL != 0) && \ !defined(EVR_RTX_MEMORY_POOL_GET_NAME_DISABLE)) __WEAK void EvrRtxMemoryPoolGetName(osMemoryPoolId_t mp_id, const char *name) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxMemoryPoolGetName, (uint32_t)mp_id, (uint32_t)name); #else (void)mp_id; (void)name; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_MEMPOOL != 0) && \ !defined(EVR_RTX_MEMORY_POOL_ALLOC_DISABLE)) __WEAK void EvrRtxMemoryPoolAlloc(osMemoryPoolId_t mp_id, uint32_t timeout) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxMemoryPoolAlloc, (uint32_t)mp_id, timeout); #else (void)mp_id; (void)timeout; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_MEMPOOL != 0) && \ !defined(EVR_RTX_MEMORY_POOL_ALLOC_PENDING_DISABLE)) __WEAK void EvrRtxMemoryPoolAllocPending(osMemoryPoolId_t mp_id, uint32_t timeout) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxMemoryPoolAllocPending, (uint32_t)mp_id, timeout); #else (void)mp_id; (void)timeout; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_MEMPOOL != 0) && \ !defined(EVR_RTX_MEMORY_POOL_ALLOC_TIMEOUT_DISABLE)) __WEAK void EvrRtxMemoryPoolAllocTimeout(osMemoryPoolId_t mp_id) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxMemoryPoolAllocTimeout, (uint32_t)mp_id, 0U); #else (void)mp_id; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_MEMPOOL != 0) && \ !defined(EVR_RTX_MEMORY_POOL_ALLOCATED_DISABLE)) __WEAK void EvrRtxMemoryPoolAllocated(osMemoryPoolId_t mp_id, void *block) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxMemoryPoolAllocated, (uint32_t)mp_id, (uint32_t)block); #else (void)mp_id; (void)block; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_MEMPOOL != 0) && \ !defined(EVR_RTX_MEMORY_POOL_ALLOC_FAILED_DISABLE)) __WEAK void EvrRtxMemoryPoolAllocFailed(osMemoryPoolId_t mp_id) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxMemoryPoolAllocFailed, (uint32_t)mp_id, 0U); #else (void)mp_id; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_MEMPOOL != 0) && \ !defined(EVR_RTX_MEMORY_POOL_FREE_DISABLE)) __WEAK void EvrRtxMemoryPoolFree(osMemoryPoolId_t mp_id, void *block) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxMemoryPoolFree, (uint32_t)mp_id, (uint32_t)block); #else (void)mp_id; (void)block; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_MEMPOOL != 0) && \ !defined(EVR_RTX_MEMORY_POOL_DEALLOCATED_DISABLE)) __WEAK void EvrRtxMemoryPoolDeallocated(osMemoryPoolId_t mp_id, void *block) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxMemoryPoolDeallocated, (uint32_t)mp_id, (uint32_t)block); #else (void)mp_id; (void)block; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_MEMPOOL != 0) && \ !defined(EVR_RTX_MEMORY_POOL_FREE_FAILED_DISABLE)) __WEAK void EvrRtxMemoryPoolFreeFailed(osMemoryPoolId_t mp_id, void *block) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxMemoryPoolFreeFailed, (uint32_t)mp_id, (uint32_t)block); #else (void)mp_id; (void)block; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_MEMPOOL != 0) && \ !defined(EVR_RTX_MEMORY_POOL_GET_CAPACITY_DISABLE)) __WEAK void EvrRtxMemoryPoolGetCapacity(osMemoryPoolId_t mp_id, uint32_t capacity) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxMemoryPoolGetCapacity, (uint32_t)mp_id, capacity); #else (void)mp_id; (void)capacity; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_MEMPOOL != 0) && \ !defined(EVR_RTX_MEMORY_POOL_GET_BLOCK_SZIE_DISABLE)) __WEAK void EvrRtxMemoryPoolGetBlockSize(osMemoryPoolId_t mp_id, uint32_t block_size) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxMemoryPoolGetBlockSize, (uint32_t)mp_id, block_size); #else (void)mp_id; (void)block_size; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_MEMPOOL != 0) && \ !defined(EVR_RTX_MEMORY_POOL_GET_COUNT_DISABLE)) __WEAK void EvrRtxMemoryPoolGetCount(osMemoryPoolId_t mp_id, uint32_t count) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxMemoryPoolGetCount, (uint32_t)mp_id, count); #else (void)mp_id; (void)count; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_MEMPOOL != 0) && \ !defined(EVR_RTX_MEMORY_POOL_GET_SPACE_DISABLE)) __WEAK void EvrRtxMemoryPoolGetSpace(osMemoryPoolId_t mp_id, uint32_t space) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxMemoryPoolGetSpace, (uint32_t)mp_id, space); #else (void)mp_id; (void)space; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_MEMPOOL != 0) && \ !defined(EVR_RTX_MEMORY_POOL_DELETE_DISABLE)) __WEAK void EvrRtxMemoryPoolDelete(osMemoryPoolId_t mp_id) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxMemoryPoolDelete, (uint32_t)mp_id, 0U); #else (void)mp_id; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_MEMPOOL != 0) && \ !defined(EVR_RTX_MEMORY_POOL_DESTROYED_DISABLE)) __WEAK void EvrRtxMemoryPoolDestroyed(osMemoryPoolId_t mp_id) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxMemoryPoolDestroyed, (uint32_t)mp_id, 0U); #else (void)mp_id; #endif } #endif // ==== Message Queue Events ==== #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_MSGQUEUE != 0) && \ !defined(EVR_RTX_MESSAGE_QUEUE_ERROR_DISABLE)) __WEAK void EvrRtxMessageQueueError(osMessageQueueId_t mq_id, int32_t status) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxMessageQueueError, (uint32_t)mq_id, (uint32_t)status); #else (void)mq_id; (void)status; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_MSGQUEUE != 0) && \ !defined(EVR_RTX_MESSAGE_QUEUE_NEW_DISABLE)) __WEAK void EvrRtxMessageQueueNew(uint32_t msg_count, uint32_t msg_size, const osMessageQueueAttr_t *attr) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord4(EvtRtxMessageQueueNew, msg_count, msg_size, (uint32_t)attr, 0U); #else (void)msg_count; (void)msg_size; (void)attr; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_MSGQUEUE != 0) && \ !defined(EVR_RTX_MESSAGE_QUEUE_CREATED_DISABLE)) __WEAK void EvrRtxMessageQueueCreated(osMessageQueueId_t mq_id, const char *name) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxMessageQueueCreated, (uint32_t)mq_id, (uint32_t)name); #else (void)mq_id; (void)name; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_MSGQUEUE != 0) && \ !defined(EVR_RTX_MESSAGE_QUEUE_GET_NAME_DISABLE)) __WEAK void EvrRtxMessageQueueGetName(osMessageQueueId_t mq_id, const char *name) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxMessageQueueGetName, (uint32_t)mq_id, (uint32_t)name); #else (void)mq_id; (void)name; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_MSGQUEUE != 0) && \ !defined(EVR_RTX_MESSAGE_QUEUE_PUT_DISABLE)) __WEAK void EvrRtxMessageQueuePut(osMessageQueueId_t mq_id, const void *msg_ptr, uint8_t msg_prio, uint32_t timeout) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord4(EvtRtxMessageQueuePut, (uint32_t)mq_id, (uint32_t)msg_ptr, (uint32_t)msg_prio, timeout); #else (void)mq_id; (void)msg_ptr; (void)msg_prio; (void)timeout; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_MSGQUEUE != 0) && \ !defined(EVR_RTX_MESSAGE_QUEUE_PUT_PENDING_DISABLE)) __WEAK void EvrRtxMessageQueuePutPending(osMessageQueueId_t mq_id, const void *msg_ptr, uint32_t timeout) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord4(EvtRtxMessageQueuePutPending, (uint32_t)mq_id, (uint32_t)msg_ptr, timeout, 0U); #else (void)mq_id; (void)msg_ptr; (void)timeout; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_MSGQUEUE != 0) && \ !defined(EVR_RTX_MESSAGE_QUEUE_PUT_TIMEOUT_DISABLE)) __WEAK void EvrRtxMessageQueuePutTimeout(osMessageQueueId_t mq_id) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxMessageQueuePutTimeout, (uint32_t)mq_id, 0U); #else (void)mq_id; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_MSGQUEUE != 0) && \ !defined(EVR_RTX_MESSAGE_QUEUE_INSERT_PENDING_DISABLE)) __WEAK void EvrRtxMessageQueueInsertPending(osMessageQueueId_t mq_id, const void *msg_ptr) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxMessageQueueInsertPending, (uint32_t)mq_id, (uint32_t)msg_ptr); #else (void)mq_id; (void)msg_ptr; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_MSGQUEUE != 0) && \ !defined(EVR_RTX_MESSAGE_QUEUE_INSERTED_DISABLE)) __WEAK void EvrRtxMessageQueueInserted(osMessageQueueId_t mq_id, const void *msg_ptr) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxMessageQueueInserted, (uint32_t)mq_id, (uint32_t)msg_ptr); #else (void)mq_id; (void)msg_ptr; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_MSGQUEUE != 0) && \ !defined(EVR_RTX_MESSAGE_QUEUE_NOT_INSERTED_DISABLE)) __WEAK void EvrRtxMessageQueueNotInserted(osMessageQueueId_t mq_id, const void *msg_ptr) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxMessageQueueNotInserted, (uint32_t)mq_id, (uint32_t)msg_ptr); #else (void)mq_id; (void)msg_ptr; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_MSGQUEUE != 0) && \ !defined(EVR_RTX_MESSAGE_QUEUE_GET_DISABLE)) __WEAK void EvrRtxMessageQueueGet(osMessageQueueId_t mq_id, void *msg_ptr, uint8_t *msg_prio, uint32_t timeout) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord4(EvtRtxMessageQueueGet, (uint32_t)mq_id, (uint32_t)msg_ptr, (uint32_t)msg_prio, timeout); #else (void)mq_id; (void)msg_ptr; (void)msg_prio; (void)timeout; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_MSGQUEUE != 0) && \ !defined(EVR_RTX_MESSAGE_QUEUE_GET_PENDING_DISABLE)) __WEAK void EvrRtxMessageQueueGetPending(osMessageQueueId_t mq_id, void *msg_ptr, uint32_t timeout) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord4(EvtRtxMessageQueueGetPending, (uint32_t)mq_id, (uint32_t)msg_ptr, timeout, 0U); #else (void)mq_id; (void)msg_ptr; (void)timeout; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_MSGQUEUE != 0) && \ !defined(EVR_RTX_MESSAGE_QUEUE_GET_TIMEOUT_DISABLE)) __WEAK void EvrRtxMessageQueueGetTimeout(osMessageQueueId_t mq_id) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxMessageQueueGetTimeout, (uint32_t)mq_id, 0U); #else (void)mq_id; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_MSGQUEUE != 0) && \ !defined(EVR_RTX_MESSAGE_QUEUE_RETRIEVED_DISABLE)) __WEAK void EvrRtxMessageQueueRetrieved(osMessageQueueId_t mq_id, void *msg_ptr) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxMessageQueueRetrieved, (uint32_t)mq_id, (uint32_t)msg_ptr); #else (void)mq_id; (void)msg_ptr; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_MSGQUEUE != 0) && \ !defined(EVR_RTX_MESSAGE_QUEUE_NOT_RETRIEVED_DISABLE)) __WEAK void EvrRtxMessageQueueNotRetrieved(osMessageQueueId_t mq_id, void *msg_ptr) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxMessageQueueNotRetrieved, (uint32_t)mq_id, (uint32_t)msg_ptr); #else (void)mq_id; (void)msg_ptr; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_MSGQUEUE != 0) && \ !defined(EVR_RTX_MESSAGE_QUEUE_GET_CAPACITY_DISABLE)) __WEAK void EvrRtxMessageQueueGetCapacity(osMessageQueueId_t mq_id, uint32_t capacity) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxMessageQueueGetCapacity, (uint32_t)mq_id, capacity); #else (void)mq_id; (void)capacity; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_MSGQUEUE != 0) && \ !defined(EVR_RTX_MESSAGE_QUEUE_GET_MSG_SIZE_DISABLE)) __WEAK void EvrRtxMessageQueueGetMsgSize(osMessageQueueId_t mq_id, uint32_t msg_size) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxMessageQueueGetMsgSize, (uint32_t)mq_id, msg_size); #else (void)mq_id; (void)msg_size; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_MSGQUEUE != 0) && \ !defined(EVR_RTX_MESSAGE_QUEUE_GET_COUNT_DISABLE)) __WEAK void EvrRtxMessageQueueGetCount(osMessageQueueId_t mq_id, uint32_t count) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxMessageQueueGetCount, (uint32_t)mq_id, count); #else (void)mq_id; (void)count; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_MSGQUEUE != 0) && \ !defined(EVR_RTX_MESSAGE_QUEUE_GET_SPACE_DISABLE)) __WEAK void EvrRtxMessageQueueGetSpace(osMessageQueueId_t mq_id, uint32_t space) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxMessageQueueGetSpace, (uint32_t)mq_id, space); #else (void)mq_id; (void)space; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_MSGQUEUE != 0) && \ !defined(EVR_RTX_MESSAGE_QUEUE_RESET_DISABLE)) __WEAK void EvrRtxMessageQueueReset(osMessageQueueId_t mq_id) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxMessageQueueReset, (uint32_t)mq_id, 0U); #else (void)mq_id; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_MSGQUEUE != 0) && \ !defined(EVR_RTX_MESSAGE_QUEUE_RESET_DONE_DISABLE)) __WEAK void EvrRtxMessageQueueResetDone(osMessageQueueId_t mq_id) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxMessageQueueResetDone, (uint32_t)mq_id, 0U); #else (void)mq_id; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_MSGQUEUE != 0) && \ !defined(EVR_RTX_MESSAGE_QUEUE_DELETE_DISABLE)) __WEAK void EvrRtxMessageQueueDelete(osMessageQueueId_t mq_id) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxMessageQueueDelete, (uint32_t)mq_id, 0U); #else (void)mq_id; #endif } #endif #if (!defined(EVR_RTX_DISABLE) && (OS_EVR_MSGQUEUE != 0) && \ !defined(EVR_RTX_MESSAGE_QUEUE_DESTROYED_DISABLE)) __WEAK void EvrRtxMessageQueueDestroyed(osMessageQueueId_t mq_id) { #if defined(RTE_Compiler_EventRecorder) (void)EventRecord2(EvtRtxMessageQueueDestroyed, (uint32_t)mq_id, 0U); #else (void)mq_id; #endif } #endif