ref: 9d25161f40c3759e04a0d3c35ff990d53320135a
dir: /codec/common/src/memory_align.cpp/
/*! * \copy * Copyright (c) 2013, Cisco Systems * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * * Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in * the documentation and/or other materials provided with the * distribution. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS * FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE * COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN * ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. * */ #include <stdlib.h> #include <string.h> #include "memory_align.h" #include "macros.h" namespace WelsCommon { #ifdef MEMORY_CHECK static FILE* fpMemChkPoint; static uint32_t nCountRequestNum; static int32_t g_iMemoryLength; #endif CMemoryAlign::CMemoryAlign (const uint32_t kuiCacheLineSize) #ifdef MEMORY_MONITOR : m_nMemoryUsageInBytes (0) #endif//MEMORY_MONITOR { if ((kuiCacheLineSize == 0) || (kuiCacheLineSize & 0x0f)) m_nCacheLineSize = 0x10; else m_nCacheLineSize = kuiCacheLineSize; } CMemoryAlign::~CMemoryAlign() { #ifdef MEMORY_MONITOR assert (m_nMemoryUsageInBytes == 0); #endif//MEMORY_MONITOR } void* WelsMalloc (const uint32_t kuiSize, const char* kpTag, const uint32_t kiAlign) { const int32_t kiSizeOfVoidPointer = sizeof (void**); const int32_t kiSizeOfInt = sizeof (int32_t); const int32_t kiAlignedBytes = kiAlign - 1; const int32_t kiTrialRequestedSize = kuiSize + kiAlignedBytes + kiSizeOfVoidPointer + kiSizeOfInt; const int32_t kiActualRequestedSize = kiTrialRequestedSize; const uint32_t kiPayloadSize = kuiSize; uint8_t* pBuf = (uint8_t*) malloc (kiActualRequestedSize); #ifdef MEMORY_CHECK if (fpMemChkPoint == NULL) { fpMemChkPoint = fopen ("./enc_mem_check_point.txt", "at+"); nCountRequestNum = 0; } if (fpMemChkPoint != NULL) { if (kpTag != NULL) fprintf (fpMemChkPoint, "WelsMalloc(), 0x%x : actual uiSize:\t%d\tbytes, input uiSize: %d bytes, %d - %s\n", (void*)pBuf, kiActualRequestedSize, kuiSize, nCountRequestNum++, kpTag); else fprintf (fpMemChkPoint, "WelsMalloc(), 0x%x : actual uiSize:\t%d\tbytes, input uiSize: %d bytes, %d \n", (void*)pBuf, kiActualRequestedSize, kuiSize, nCountRequestNum++); fflush (fpMemChkPoint); } #endif uint8_t* pAlignedBuffer; if (NULL == pBuf) return NULL; pAlignedBuffer = pBuf + kiAlignedBytes + kiSizeOfVoidPointer + kiSizeOfInt; pAlignedBuffer -= ((uintptr_t) pAlignedBuffer & kiAlignedBytes); * ((void**) (pAlignedBuffer - kiSizeOfVoidPointer)) = pBuf; * ((int32_t*) (pAlignedBuffer - (kiSizeOfVoidPointer + kiSizeOfInt))) = kiPayloadSize; return pAlignedBuffer; } void WelsFree (void* pPointer, const char* kpTag) { if (pPointer) { #ifdef MEMORY_CHECK if (fpMemChkPoint != NULL) { if (kpTag != NULL) fprintf (fpMemChkPoint, "WelsFree(), 0x%x - %s: \t%d\t bytes \n", (void*) (* (((void**) pPointer) - 1)), kpTag, g_iMemoryLength); else fprintf (fpMemChkPoint, "WelsFree(), 0x%x \n", (void*) (* (((void**) pPointer) - 1))); fflush (fpMemChkPoint); } #endif free (* (((void**) pPointer) - 1)); } } void* CMemoryAlign::WelsMallocz (const uint32_t kuiSize, const char* kpTag) { void* pPointer = WelsMalloc (kuiSize, kpTag); if (NULL == pPointer) { return NULL; } // zero memory memset (pPointer, 0, kuiSize); return pPointer; } void* CMemoryAlign::WelsMalloc (const uint32_t kuiSize, const char* kpTag) { void* pPointer = WelsCommon::WelsMalloc (kuiSize, kpTag, m_nCacheLineSize); #ifdef MEMORY_MONITOR if (pPointer != NULL) { const int32_t kiMemoryLength = * ((int32_t*) ((uint8_t*)pPointer - sizeof (void**) - sizeof ( int32_t))) + m_nCacheLineSize - 1 + sizeof (void**) + sizeof (int32_t); m_nMemoryUsageInBytes += kiMemoryLength; #ifdef MEMORY_CHECK g_iMemoryLength = kiMemoryLength; #endif } #endif//MEMORY_MONITOR return pPointer; } void CMemoryAlign::WelsFree (void* pPointer, const char* kpTag) { #ifdef MEMORY_MONITOR if (pPointer) { const int32_t kiMemoryLength = * ((int32_t*) ((uint8_t*)pPointer - sizeof (void**) - sizeof ( int32_t))) + m_nCacheLineSize - 1 + sizeof (void**) + sizeof (int32_t); m_nMemoryUsageInBytes -= kiMemoryLength; #ifdef MEMORY_CHECK g_iMemoryLength = kiMemoryLength; #endif } #endif//MEMORY_MONITOR WelsCommon::WelsFree (pPointer, kpTag); } void* WelsMallocz (const uint32_t kuiSize, const char* kpTag) { void* pPointer = WelsMalloc (kuiSize, kpTag, 16); if (NULL == pPointer) { return NULL; } memset (pPointer, 0, kuiSize); return pPointer; } const uint32_t CMemoryAlign::WelsGetCacheLineSize() const { return m_nCacheLineSize; } const uint32_t CMemoryAlign::WelsGetMemoryUsage() const { return m_nMemoryUsageInBytes; } } // end of namespace WelsCommon