/*************************************************************************/ /*! @Title Services reference count debugging @Copyright Copyright (c) Imagination Technologies Ltd. All Rights Reserved @License Dual MIT/GPLv2 The contents of this file are subject to the MIT license as set out below. Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. Alternatively, the contents of this file may be used under the terms of the GNU General Public License Version 2 ("GPL") in which case the provisions of GPL are applicable instead of those above. If you wish to allow use of your version of this file only under the terms of GPL, and not to allow others to use your version of this file under the terms of the MIT license, indicate your decision by deleting the provisions above and replace them with the notice and other provisions required by GPL as set out in the file called "GPL-COPYING" included in this distribution. If you do not delete the provisions above, a recipient may use your version of this file under the terms of either the MIT license or GPL. This License is also included in this distribution in the file called "MIT-COPYING". EXCEPT AS OTHERWISE STATED IN A NEGOTIATED AGREEMENT: (A) THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT; AND (B) IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */ /**************************************************************************/ #if defined(PVRSRV_REFCOUNT_DEBUG) #include "services_headers.h" #ifndef __linux__ #warning Reference count debugging is not thread-safe on this platform #define PVRSRV_LOCK_CCB() #define PVRSRV_UNLOCK_CCB() #else /* __linux__ */ #include static DEFINE_SPINLOCK(gsCCBLock); #define PVRSRV_LOCK_CCB() \ { \ unsigned long flags; \ spin_lock_irqsave(&gsCCBLock, flags); #define PVRSRV_UNLOCK_CCB() \ spin_unlock_irqrestore(&gsCCBLock, flags); \ } #endif /* __linux__ */ #define PVRSRV_REFCOUNT_CCB_MAX 512 #define PVRSRV_REFCOUNT_CCB_MESG_MAX 80 #define PVRSRV_REFCOUNT_CCB_DEBUG_SYNCINFO (1U << 0) #define PVRSRV_REFCOUNT_CCB_DEBUG_MEMINFO (1U << 1) #define PVRSRV_REFCOUNT_CCB_DEBUG_BM_BUF (1U << 2) #define PVRSRV_REFCOUNT_CCB_DEBUG_BM_BUF2 (1U << 3) #define PVRSRV_REFCOUNT_CCB_DEBUG_BM_XPROC (1U << 4) #if defined(__linux__) #define PVRSRV_REFCOUNT_CCB_DEBUG_MMAP (1U << 16) #define PVRSRV_REFCOUNT_CCB_DEBUG_MMAP2 (1U << 17) #define PVRSRV_REFCOUNT_CCB_DEBUG_ION_SYNC (1U << 18) #define PVRSRV_REFCOUNT_CCB_DEBUG_DMABUF_SYNC (1U << 19) #else #define PVRSRV_REFCOUNT_CCB_DEBUG_MMAP 0 #define PVRSRV_REFCOUNT_CCB_DEBUG_MMAP2 0 #define PVRSRV_REFCOUNT_CCB_DEBUG_ION_SYNC 0 #define PVRSRV_REFCOUNT_CCB_DEBUG_DMABUF_SYNC 0 #endif #define PVRSRV_REFCOUNT_CCB_DEBUG_ALL ~0U /*static const IMG_UINT guiDebugMask = PVRSRV_REFCOUNT_CCB_DEBUG_ALL;*/ static const IMG_UINT guiDebugMask = PVRSRV_REFCOUNT_CCB_DEBUG_SYNCINFO | #if defined(SUPPORT_ION) PVRSRV_REFCOUNT_CCB_DEBUG_ION_SYNC | #endif #if defined(SUPPORT_DMABUF) PVRSRV_REFCOUNT_CCB_DEBUG_DMABUF_SYNC | #endif PVRSRV_REFCOUNT_CCB_DEBUG_MMAP2; typedef struct { const IMG_CHAR *pszFile; IMG_INT iLine; IMG_UINT32 ui32PID; IMG_CHAR pcMesg[PVRSRV_REFCOUNT_CCB_MESG_MAX]; } PVRSRV_REFCOUNT_CCB; static PVRSRV_REFCOUNT_CCB gsRefCountCCB[PVRSRV_REFCOUNT_CCB_MAX]; static IMG_UINT giOffset; static const IMG_CHAR gszHeader[] = /* 10 20 30 40 50 60 70 * 345678901234567890123456789012345678901234567890123456789012345678901 */ "TYPE SYNCINFO MEMINFO MEMHANDLE OTHER REF REF' SIZE PID"; /* NCINFO deadbeef deadbeef deadbeef deadbeef 1234 1234 deadbeef */ #define PVRSRV_REFCOUNT_CCB_FMT_STRING "%8.8s %8p %8p %8p %8p %.4d %.4d %.8x" IMG_INTERNAL void PVRSRVDumpRefCountCCB(void) { int i; PVRSRV_LOCK_CCB(); PVR_LOG(("%s", gszHeader)); for(i = 0; i < PVRSRV_REFCOUNT_CCB_MAX; i++) { PVRSRV_REFCOUNT_CCB *psRefCountCCBEntry = &gsRefCountCCB[(giOffset + i) % PVRSRV_REFCOUNT_CCB_MAX]; /* Early on, we won't have MAX_REFCOUNT_CCB_SIZE messages */ if(!psRefCountCCBEntry->pszFile) continue; PVR_LOG(("%s %d %s:%d", psRefCountCCBEntry->pcMesg, psRefCountCCBEntry->ui32PID, psRefCountCCBEntry->pszFile, psRefCountCCBEntry->iLine)); } PVRSRV_UNLOCK_CCB(); } IMG_INTERNAL void PVRSRVKernelSyncInfoIncRef2(const IMG_CHAR *pszFile, IMG_INT iLine, PVRSRV_KERNEL_SYNC_INFO *psKernelSyncInfo, PVRSRV_KERNEL_MEM_INFO *psKernelMemInfo) { IMG_UINT32 ui32RefValue = OSAtomicRead(psKernelSyncInfo->pvRefCount); if(!(guiDebugMask & PVRSRV_REFCOUNT_CCB_DEBUG_SYNCINFO)) goto skip; PVRSRV_LOCK_CCB(); gsRefCountCCB[giOffset].pszFile = pszFile; gsRefCountCCB[giOffset].iLine = iLine; gsRefCountCCB[giOffset].ui32PID = OSGetCurrentProcessIDKM(); snprintf(gsRefCountCCB[giOffset].pcMesg, PVRSRV_REFCOUNT_CCB_MESG_MAX - 1, PVRSRV_REFCOUNT_CCB_FMT_STRING, "SYNCINFO", psKernelSyncInfo, psKernelMemInfo, NULL, (psKernelMemInfo) ? psKernelMemInfo->sMemBlk.hOSMemHandle : NULL, ui32RefValue, ui32RefValue + 1, (psKernelMemInfo) ? psKernelMemInfo->uAllocSize : 0); gsRefCountCCB[giOffset].pcMesg[PVRSRV_REFCOUNT_CCB_MESG_MAX - 1] = 0; giOffset = (giOffset + 1) % PVRSRV_REFCOUNT_CCB_MAX; PVRSRV_UNLOCK_CCB(); skip: PVRSRVAcquireSyncInfoKM(psKernelSyncInfo); } IMG_INTERNAL void PVRSRVKernelSyncInfoDecRef2(const IMG_CHAR *pszFile, IMG_INT iLine, PVRSRV_KERNEL_SYNC_INFO *psKernelSyncInfo, PVRSRV_KERNEL_MEM_INFO *psKernelMemInfo) { IMG_UINT32 ui32RefValue = OSAtomicRead(psKernelSyncInfo->pvRefCount); if(!(guiDebugMask & PVRSRV_REFCOUNT_CCB_DEBUG_SYNCINFO)) goto skip; PVRSRV_LOCK_CCB(); gsRefCountCCB[giOffset].pszFile = pszFile; gsRefCountCCB[giOffset].iLine = iLine; gsRefCountCCB[giOffset].ui32PID = OSGetCurrentProcessIDKM(); snprintf(gsRefCountCCB[giOffset].pcMesg, PVRSRV_REFCOUNT_CCB_MESG_MAX - 1, PVRSRV_REFCOUNT_CCB_FMT_STRING, "SYNCINFO", psKernelSyncInfo, psKernelMemInfo, (psKernelMemInfo) ? psKernelMemInfo->sMemBlk.hOSMemHandle : NULL, NULL, ui32RefValue, ui32RefValue - 1, (psKernelMemInfo) ? psKernelMemInfo->uAllocSize : 0); gsRefCountCCB[giOffset].pcMesg[PVRSRV_REFCOUNT_CCB_MESG_MAX - 1] = 0; giOffset = (giOffset + 1) % PVRSRV_REFCOUNT_CCB_MAX; PVRSRV_UNLOCK_CCB(); skip: PVRSRVReleaseSyncInfoKM(psKernelSyncInfo); } IMG_INTERNAL void PVRSRVKernelMemInfoIncRef2(const IMG_CHAR *pszFile, IMG_INT iLine, PVRSRV_KERNEL_MEM_INFO *psKernelMemInfo) { if(!(guiDebugMask & PVRSRV_REFCOUNT_CCB_DEBUG_MEMINFO)) goto skip; PVRSRV_LOCK_CCB(); gsRefCountCCB[giOffset].pszFile = pszFile; gsRefCountCCB[giOffset].iLine = iLine; gsRefCountCCB[giOffset].ui32PID = OSGetCurrentProcessIDKM(); snprintf(gsRefCountCCB[giOffset].pcMesg, PVRSRV_REFCOUNT_CCB_MESG_MAX - 1, PVRSRV_REFCOUNT_CCB_FMT_STRING, "MEMINFO", psKernelMemInfo->psKernelSyncInfo, psKernelMemInfo, psKernelMemInfo->sMemBlk.hOSMemHandle, NULL, psKernelMemInfo->ui32RefCount, psKernelMemInfo->ui32RefCount + 1, psKernelMemInfo->uAllocSize); gsRefCountCCB[giOffset].pcMesg[PVRSRV_REFCOUNT_CCB_MESG_MAX - 1] = 0; giOffset = (giOffset + 1) % PVRSRV_REFCOUNT_CCB_MAX; PVRSRV_UNLOCK_CCB(); skip: psKernelMemInfo->ui32RefCount++; } IMG_INTERNAL void PVRSRVKernelMemInfoDecRef2(const IMG_CHAR *pszFile, IMG_INT iLine, PVRSRV_KERNEL_MEM_INFO *psKernelMemInfo) { if(!(guiDebugMask & PVRSRV_REFCOUNT_CCB_DEBUG_MEMINFO)) goto skip; PVRSRV_LOCK_CCB(); gsRefCountCCB[giOffset].pszFile = pszFile; gsRefCountCCB[giOffset].iLine = iLine; gsRefCountCCB[giOffset].ui32PID = OSGetCurrentProcessIDKM(); snprintf(gsRefCountCCB[giOffset].pcMesg, PVRSRV_REFCOUNT_CCB_MESG_MAX - 1, PVRSRV_REFCOUNT_CCB_FMT_STRING, "MEMINFO", psKernelMemInfo->psKernelSyncInfo, psKernelMemInfo, psKernelMemInfo->sMemBlk.hOSMemHandle, NULL, psKernelMemInfo->ui32RefCount, psKernelMemInfo->ui32RefCount - 1, psKernelMemInfo->uAllocSize); gsRefCountCCB[giOffset].pcMesg[PVRSRV_REFCOUNT_CCB_MESG_MAX - 1] = 0; giOffset = (giOffset + 1) % PVRSRV_REFCOUNT_CCB_MAX; PVRSRV_UNLOCK_CCB(); skip: psKernelMemInfo->ui32RefCount--; } IMG_INTERNAL void PVRSRVBMBufIncRef2(const IMG_CHAR *pszFile, IMG_INT iLine, BM_BUF *pBuf) { if(!(guiDebugMask & PVRSRV_REFCOUNT_CCB_DEBUG_BM_BUF)) goto skip; PVRSRV_LOCK_CCB(); gsRefCountCCB[giOffset].pszFile = pszFile; gsRefCountCCB[giOffset].iLine = iLine; gsRefCountCCB[giOffset].ui32PID = OSGetCurrentProcessIDKM(); snprintf(gsRefCountCCB[giOffset].pcMesg, PVRSRV_REFCOUNT_CCB_MESG_MAX - 1, PVRSRV_REFCOUNT_CCB_FMT_STRING, "BM_BUF", NULL, NULL, BM_HandleToOSMemHandle(pBuf), pBuf, pBuf->ui32RefCount, pBuf->ui32RefCount + 1, (pBuf->pMapping) ? pBuf->pMapping->uSize : 0); gsRefCountCCB[giOffset].pcMesg[PVRSRV_REFCOUNT_CCB_MESG_MAX - 1] = 0; giOffset = (giOffset + 1) % PVRSRV_REFCOUNT_CCB_MAX; PVRSRV_UNLOCK_CCB(); skip: pBuf->ui32RefCount++; } IMG_INTERNAL void PVRSRVBMBufDecRef2(const IMG_CHAR *pszFile, IMG_INT iLine, BM_BUF *pBuf) { if(!(guiDebugMask & PVRSRV_REFCOUNT_CCB_DEBUG_BM_BUF)) goto skip; PVRSRV_LOCK_CCB(); gsRefCountCCB[giOffset].pszFile = pszFile; gsRefCountCCB[giOffset].iLine = iLine; gsRefCountCCB[giOffset].ui32PID = OSGetCurrentProcessIDKM(); snprintf(gsRefCountCCB[giOffset].pcMesg, PVRSRV_REFCOUNT_CCB_MESG_MAX - 1, PVRSRV_REFCOUNT_CCB_FMT_STRING, "BM_BUF", NULL, NULL, BM_HandleToOSMemHandle(pBuf), pBuf, pBuf->ui32RefCount, pBuf->ui32RefCount - 1, (pBuf->pMapping) ? pBuf->pMapping->uSize : 0); gsRefCountCCB[giOffset].pcMesg[PVRSRV_REFCOUNT_CCB_MESG_MAX - 1] = 0; giOffset = (giOffset + 1) % PVRSRV_REFCOUNT_CCB_MAX; PVRSRV_UNLOCK_CCB(); skip: pBuf->ui32RefCount--; } IMG_INTERNAL void PVRSRVBMBufIncExport2(const IMG_CHAR *pszFile, IMG_INT iLine, BM_BUF *pBuf) { if(!(guiDebugMask & PVRSRV_REFCOUNT_CCB_DEBUG_BM_BUF2)) goto skip; PVRSRV_LOCK_CCB(); gsRefCountCCB[giOffset].pszFile = pszFile; gsRefCountCCB[giOffset].iLine = iLine; gsRefCountCCB[giOffset].ui32PID = OSGetCurrentProcessIDKM(); snprintf(gsRefCountCCB[giOffset].pcMesg, PVRSRV_REFCOUNT_CCB_MESG_MAX - 1, PVRSRV_REFCOUNT_CCB_FMT_STRING, "BM_BUF2", NULL, NULL, BM_HandleToOSMemHandle(pBuf), pBuf, pBuf->ui32ExportCount, pBuf->ui32ExportCount + 1, (pBuf->pMapping) ? pBuf->pMapping->uSize : 0); gsRefCountCCB[giOffset].pcMesg[PVRSRV_REFCOUNT_CCB_MESG_MAX - 1] = 0; giOffset = (giOffset + 1) % PVRSRV_REFCOUNT_CCB_MAX; PVRSRV_UNLOCK_CCB(); skip: pBuf->ui32ExportCount++; } IMG_INTERNAL void PVRSRVBMBufDecExport2(const IMG_CHAR *pszFile, IMG_INT iLine, BM_BUF *pBuf) { if(!(guiDebugMask & PVRSRV_REFCOUNT_CCB_DEBUG_BM_BUF2)) goto skip; PVRSRV_LOCK_CCB(); gsRefCountCCB[giOffset].pszFile = pszFile; gsRefCountCCB[giOffset].iLine = iLine; gsRefCountCCB[giOffset].ui32PID = OSGetCurrentProcessIDKM(); snprintf(gsRefCountCCB[giOffset].pcMesg, PVRSRV_REFCOUNT_CCB_MESG_MAX - 1, PVRSRV_REFCOUNT_CCB_FMT_STRING, "BM_BUF2", NULL, NULL, BM_HandleToOSMemHandle(pBuf), pBuf, pBuf->ui32ExportCount, pBuf->ui32ExportCount - 1, (pBuf->pMapping) ? pBuf->pMapping->uSize : 0); gsRefCountCCB[giOffset].pcMesg[PVRSRV_REFCOUNT_CCB_MESG_MAX - 1] = 0; giOffset = (giOffset + 1) % PVRSRV_REFCOUNT_CCB_MAX; PVRSRV_UNLOCK_CCB(); skip: pBuf->ui32ExportCount--; } IMG_INTERNAL void PVRSRVBMXProcIncRef2(const IMG_CHAR *pszFile, IMG_INT iLine, IMG_UINT32 ui32Index) { if(!(guiDebugMask & PVRSRV_REFCOUNT_CCB_DEBUG_BM_XPROC)) goto skip; PVRSRV_LOCK_CCB(); gsRefCountCCB[giOffset].pszFile = pszFile; gsRefCountCCB[giOffset].iLine = iLine; gsRefCountCCB[giOffset].ui32PID = OSGetCurrentProcessIDKM(); snprintf(gsRefCountCCB[giOffset].pcMesg, PVRSRV_REFCOUNT_CCB_MESG_MAX - 1, PVRSRV_REFCOUNT_CCB_FMT_STRING, "BM_XPROC", NULL, NULL, gXProcWorkaroundShareData[ui32Index].hOSMemHandle, (IMG_VOID *) ui32Index, gXProcWorkaroundShareData[ui32Index].ui32RefCount, gXProcWorkaroundShareData[ui32Index].ui32RefCount + 1, gXProcWorkaroundShareData[ui32Index].ui32Size); gsRefCountCCB[giOffset].pcMesg[PVRSRV_REFCOUNT_CCB_MESG_MAX - 1] = 0; giOffset = (giOffset + 1) % PVRSRV_REFCOUNT_CCB_MAX; PVRSRV_UNLOCK_CCB(); skip: gXProcWorkaroundShareData[ui32Index].ui32RefCount++; } IMG_INTERNAL void PVRSRVBMXProcDecRef2(const IMG_CHAR *pszFile, IMG_INT iLine, IMG_UINT32 ui32Index) { if(!(guiDebugMask & PVRSRV_REFCOUNT_CCB_DEBUG_BM_XPROC)) goto skip; PVRSRV_LOCK_CCB(); gsRefCountCCB[giOffset].pszFile = pszFile; gsRefCountCCB[giOffset].iLine = iLine; gsRefCountCCB[giOffset].ui32PID = OSGetCurrentProcessIDKM(); snprintf(gsRefCountCCB[giOffset].pcMesg, PVRSRV_REFCOUNT_CCB_MESG_MAX - 1, PVRSRV_REFCOUNT_CCB_FMT_STRING, "BM_XPROC", NULL, NULL, gXProcWorkaroundShareData[ui32Index].hOSMemHandle, (IMG_VOID *) ui32Index, gXProcWorkaroundShareData[ui32Index].ui32RefCount, gXProcWorkaroundShareData[ui32Index].ui32RefCount - 1, gXProcWorkaroundShareData[ui32Index].ui32Size); gsRefCountCCB[giOffset].pcMesg[PVRSRV_REFCOUNT_CCB_MESG_MAX - 1] = 0; giOffset = (giOffset + 1) % PVRSRV_REFCOUNT_CCB_MAX; PVRSRV_UNLOCK_CCB(); skip: gXProcWorkaroundShareData[ui32Index].ui32RefCount--; } #if defined(__linux__) /* mmap refcounting is Linux specific */ IMG_INTERNAL void PVRSRVOffsetStructIncRef2(const IMG_CHAR *pszFile, IMG_INT iLine, PKV_OFFSET_STRUCT psOffsetStruct) { if(!(guiDebugMask & PVRSRV_REFCOUNT_CCB_DEBUG_MMAP)) goto skip; PVRSRV_LOCK_CCB(); gsRefCountCCB[giOffset].pszFile = pszFile; gsRefCountCCB[giOffset].iLine = iLine; gsRefCountCCB[giOffset].ui32PID = OSGetCurrentProcessIDKM(); snprintf(gsRefCountCCB[giOffset].pcMesg, PVRSRV_REFCOUNT_CCB_MESG_MAX - 1, PVRSRV_REFCOUNT_CCB_FMT_STRING, "MMAP", NULL, NULL, psOffsetStruct->psLinuxMemArea, psOffsetStruct, psOffsetStruct->ui32RefCount, psOffsetStruct->ui32RefCount + 1, psOffsetStruct->uiRealByteSize); gsRefCountCCB[giOffset].pcMesg[PVRSRV_REFCOUNT_CCB_MESG_MAX - 1] = 0; giOffset = (giOffset + 1) % PVRSRV_REFCOUNT_CCB_MAX; PVRSRV_UNLOCK_CCB(); skip: psOffsetStruct->ui32RefCount++; } IMG_INTERNAL void PVRSRVOffsetStructDecRef2(const IMG_CHAR *pszFile, IMG_INT iLine, PKV_OFFSET_STRUCT psOffsetStruct) { if(!(guiDebugMask & PVRSRV_REFCOUNT_CCB_DEBUG_MMAP)) goto skip; PVRSRV_LOCK_CCB(); gsRefCountCCB[giOffset].pszFile = pszFile; gsRefCountCCB[giOffset].iLine = iLine; gsRefCountCCB[giOffset].ui32PID = OSGetCurrentProcessIDKM(); snprintf(gsRefCountCCB[giOffset].pcMesg, PVRSRV_REFCOUNT_CCB_MESG_MAX - 1, PVRSRV_REFCOUNT_CCB_FMT_STRING, "MMAP", NULL, NULL, psOffsetStruct->psLinuxMemArea, psOffsetStruct, psOffsetStruct->ui32RefCount, psOffsetStruct->ui32RefCount - 1, psOffsetStruct->uiRealByteSize); gsRefCountCCB[giOffset].pcMesg[PVRSRV_REFCOUNT_CCB_MESG_MAX - 1] = 0; giOffset = (giOffset + 1) % PVRSRV_REFCOUNT_CCB_MAX; PVRSRV_UNLOCK_CCB(); skip: psOffsetStruct->ui32RefCount--; } IMG_INTERNAL void PVRSRVOffsetStructIncMapped2(const IMG_CHAR *pszFile, IMG_INT iLine, PKV_OFFSET_STRUCT psOffsetStruct) { if(!(guiDebugMask & PVRSRV_REFCOUNT_CCB_DEBUG_MMAP2)) goto skip; PVRSRV_LOCK_CCB(); gsRefCountCCB[giOffset].pszFile = pszFile; gsRefCountCCB[giOffset].iLine = iLine; gsRefCountCCB[giOffset].ui32PID = OSGetCurrentProcessIDKM(); snprintf(gsRefCountCCB[giOffset].pcMesg, PVRSRV_REFCOUNT_CCB_MESG_MAX - 1, PVRSRV_REFCOUNT_CCB_FMT_STRING, "MMAP2", NULL, NULL, psOffsetStruct->psLinuxMemArea, psOffsetStruct, psOffsetStruct->ui32Mapped, psOffsetStruct->ui32Mapped + 1, psOffsetStruct->uiRealByteSize); gsRefCountCCB[giOffset].pcMesg[PVRSRV_REFCOUNT_CCB_MESG_MAX - 1] = 0; giOffset = (giOffset + 1) % PVRSRV_REFCOUNT_CCB_MAX; PVRSRV_UNLOCK_CCB(); skip: psOffsetStruct->ui32Mapped++; } IMG_INTERNAL void PVRSRVOffsetStructDecMapped2(const IMG_CHAR *pszFile, IMG_INT iLine, PKV_OFFSET_STRUCT psOffsetStruct) { if(!(guiDebugMask & PVRSRV_REFCOUNT_CCB_DEBUG_MMAP2)) goto skip; PVRSRV_LOCK_CCB(); gsRefCountCCB[giOffset].pszFile = pszFile; gsRefCountCCB[giOffset].iLine = iLine; gsRefCountCCB[giOffset].ui32PID = OSGetCurrentProcessIDKM(); snprintf(gsRefCountCCB[giOffset].pcMesg, PVRSRV_REFCOUNT_CCB_MESG_MAX - 1, PVRSRV_REFCOUNT_CCB_FMT_STRING, "MMAP2", NULL, NULL, psOffsetStruct->psLinuxMemArea, psOffsetStruct, psOffsetStruct->ui32Mapped, psOffsetStruct->ui32Mapped - 1, psOffsetStruct->uiRealByteSize); gsRefCountCCB[giOffset].pcMesg[PVRSRV_REFCOUNT_CCB_MESG_MAX - 1] = 0; giOffset = (giOffset + 1) % PVRSRV_REFCOUNT_CCB_MAX; PVRSRV_UNLOCK_CCB(); skip: psOffsetStruct->ui32Mapped--; } #if defined(SUPPORT_ION) PVRSRV_ERROR PVRSRVIonBufferSyncInfoIncRef2(const IMG_CHAR *pszFile, IMG_INT iLine, IMG_HANDLE hUnique, IMG_HANDLE hDevCookie, IMG_HANDLE hDevMemContext, PVRSRV_ION_SYNC_INFO **ppsIonSyncInfo, PVRSRV_KERNEL_MEM_INFO *psKernelMemInfo) { PVRSRV_ERROR eError; /* We have to do the call 1st as we need to Ion syninfo which it returns */ eError = PVRSRVIonBufferSyncAcquire(hUnique, hDevCookie, hDevMemContext, ppsIonSyncInfo); if (eError == PVRSRV_OK) { if(!(guiDebugMask & PVRSRV_REFCOUNT_CCB_DEBUG_ION_SYNC)) goto skip; PVRSRV_LOCK_CCB(); gsRefCountCCB[giOffset].pszFile = pszFile; gsRefCountCCB[giOffset].iLine = iLine; gsRefCountCCB[giOffset].ui32PID = OSGetCurrentProcessIDKM(); snprintf(gsRefCountCCB[giOffset].pcMesg, PVRSRV_REFCOUNT_CCB_MESG_MAX - 1, PVRSRV_REFCOUNT_CCB_FMT_STRING, "ION_SYNC", (*ppsIonSyncInfo)->psSyncInfo, psKernelMemInfo, NULL, *ppsIonSyncInfo, (*ppsIonSyncInfo)->ui32RefCount - 1, (*ppsIonSyncInfo)->ui32RefCount, 0); gsRefCountCCB[giOffset].pcMesg[PVRSRV_REFCOUNT_CCB_MESG_MAX - 1] = 0; giOffset = (giOffset + 1) % PVRSRV_REFCOUNT_CCB_MAX; PVRSRV_UNLOCK_CCB(); } skip: return eError; } void PVRSRVIonBufferSyncInfoDecRef2(const IMG_CHAR *pszFile, IMG_INT iLine, PVRSRV_ION_SYNC_INFO *psIonSyncInfo, PVRSRV_KERNEL_MEM_INFO *psKernelMemInfo) { if(!(guiDebugMask & PVRSRV_REFCOUNT_CCB_DEBUG_ION_SYNC)) goto skip; PVRSRV_LOCK_CCB(); gsRefCountCCB[giOffset].pszFile = pszFile; gsRefCountCCB[giOffset].iLine = iLine; gsRefCountCCB[giOffset].ui32PID = OSGetCurrentProcessIDKM(); snprintf(gsRefCountCCB[giOffset].pcMesg, PVRSRV_REFCOUNT_CCB_MESG_MAX - 1, PVRSRV_REFCOUNT_CCB_FMT_STRING, "ION_SYNC", psIonSyncInfo->psSyncInfo, psKernelMemInfo, NULL, psIonSyncInfo, psIonSyncInfo->ui32RefCount, psIonSyncInfo->ui32RefCount - 1, 0); gsRefCountCCB[giOffset].pcMesg[PVRSRV_REFCOUNT_CCB_MESG_MAX - 1] = 0; giOffset = (giOffset + 1) % PVRSRV_REFCOUNT_CCB_MAX; PVRSRV_UNLOCK_CCB(); skip: PVRSRVIonBufferSyncRelease(psIonSyncInfo); } #endif /* defined (SUPPORT_ION) */ #if defined(SUPPORT_DMABUF) PVRSRV_ERROR PVRSRVDmaBufSyncInfoIncRef2(const IMG_CHAR *pszFile, IMG_INT iLine, IMG_HANDLE hUnique, IMG_HANDLE hPriv, IMG_HANDLE hDevCookie, IMG_HANDLE hDevMemContext, PVRSRV_DMABUF_SYNC_INFO **ppsDmaBufSyncInfo, PVRSRV_KERNEL_MEM_INFO *psKernelMemInfo) { PVRSRV_ERROR eError; eError = PVRSRVDmaBufSyncAcquire(hUnique, hPriv, hDevCookie, hDevMemContext, ppsDmaBufSyncInfo); if (eError == PVRSRV_OK) { if(!(guiDebugMask & PVRSRV_REFCOUNT_CCB_DEBUG_DMABUF_SYNC)) goto skip; PVRSRV_LOCK_CCB(); gsRefCountCCB[giOffset].pszFile = pszFile; gsRefCountCCB[giOffset].iLine = iLine; gsRefCountCCB[giOffset].ui32PID = OSGetCurrentProcessIDKM(); snprintf(gsRefCountCCB[giOffset].pcMesg, PVRSRV_REFCOUNT_CCB_MESG_MAX - 1, PVRSRV_REFCOUNT_CCB_FMT_STRING, "DMA-BUF_SYNC", (*ppsDmaBufSyncInfo)->psSyncInfo, psKernelMemInfo, NULL, *ppsDmaBufSyncInfo, (*ppsDmaBufSyncInfo)->ui32RefCount - 1, (*ppsDmaBufSyncInfo)->ui32RefCount, 0); gsRefCountCCB[giOffset].pcMesg[PVRSRV_REFCOUNT_CCB_MESG_MAX - 1] = 0; giOffset = (giOffset + 1) % PVRSRV_REFCOUNT_CCB_MAX; PVRSRV_UNLOCK_CCB(); } skip: return eError; } void PVRSRVDmaBufSyncInfoDecRef2(const IMG_CHAR *pszFile, IMG_INT iLine, PVRSRV_DMABUF_SYNC_INFO *psDmaBufSyncInfo, PVRSRV_KERNEL_MEM_INFO *psKernelMemInfo) { if(!(guiDebugMask & PVRSRV_REFCOUNT_CCB_DEBUG_DMABUF_SYNC)) goto skip; PVRSRV_LOCK_CCB(); gsRefCountCCB[giOffset].pszFile = pszFile; gsRefCountCCB[giOffset].iLine = iLine; gsRefCountCCB[giOffset].ui32PID = OSGetCurrentProcessIDKM(); snprintf(gsRefCountCCB[giOffset].pcMesg, PVRSRV_REFCOUNT_CCB_MESG_MAX - 1, PVRSRV_REFCOUNT_CCB_FMT_STRING, "DMA-BUF_SYNC", psDmaBufSyncInfo->psSyncInfo, psKernelMemInfo, NULL, psDmaBufSyncInfo, psDmaBufSyncInfo->ui32RefCount, psDmaBufSyncInfo->ui32RefCount - 1, 0); gsRefCountCCB[giOffset].pcMesg[PVRSRV_REFCOUNT_CCB_MESG_MAX - 1] = 0; giOffset = (giOffset + 1) % PVRSRV_REFCOUNT_CCB_MAX; PVRSRV_UNLOCK_CCB(); skip: PVRSRVDmaBufSyncRelease(psDmaBufSyncInfo); } #endif /* defined (SUPPORT_DMABUF) */ #endif /* defined(__linux__) */ #endif /* defined(PVRSRV_REFCOUNT_DEBUG) */