/*************************************************************************/ /*! @Title PVR Bridge Functionality @Copyright Copyright (c) Imagination Technologies Ltd. All Rights Reserved @Description Header for the PVR Bridge code @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. */ /**************************************************************************/ #ifndef __PVR_BRIDGE_KM_H_ #define __PVR_BRIDGE_KM_H_ #if defined (__cplusplus) extern "C" { #endif #include "pvr_bridge.h" #include "perproc.h" /****************************************************************************** * Function prototypes *****************************************************************************/ #if defined(__linux__) PVRSRV_ERROR LinuxBridgeInit(IMG_VOID); IMG_VOID LinuxBridgeDeInit(IMG_VOID); #if defined(SUPPORT_MEMINFO_IDS) extern IMG_UINT64 g_ui64MemInfoID; #endif #endif IMG_IMPORT IMG_VOID IMG_CALLCONV PVRSRVCompatCheckKM(PVRSRV_BRIDGE_IN_COMPAT_CHECK *psUserModeDDKDetails, PVRSRV_BRIDGE_RETURN *psRetOUT); IMG_IMPORT PVRSRV_ERROR IMG_CALLCONV PVRSRVEnumerateDevicesKM(IMG_UINT32 *pui32NumDevices, PVRSRV_DEVICE_IDENTIFIER *psDevIdList); IMG_IMPORT PVRSRV_ERROR IMG_CALLCONV PVRSRVAcquireDeviceDataKM(IMG_UINT32 uiDevIndex, PVRSRV_DEVICE_TYPE eDeviceType, IMG_HANDLE *phDevCookie); IMG_IMPORT PVRSRV_ERROR IMG_CALLCONV PVRSRVCreateCommandQueueKM(IMG_SIZE_T uQueueSize, PVRSRV_QUEUE_INFO **ppsQueueInfo); IMG_IMPORT PVRSRV_ERROR IMG_CALLCONV PVRSRVDestroyCommandQueueKM(PVRSRV_QUEUE_INFO *psQueueInfo); IMG_IMPORT PVRSRV_ERROR IMG_CALLCONV PVRSRVGetDeviceMemHeapsKM(IMG_HANDLE hDevCookie, PVRSRV_HEAP_INFO *psHeapInfo); IMG_IMPORT PVRSRV_ERROR IMG_CALLCONV PVRSRVCreateDeviceMemContextKM(IMG_HANDLE hDevCookie, PVRSRV_PER_PROCESS_DATA *psPerProc, IMG_HANDLE *phDevMemContext, IMG_UINT32 *pui32ClientHeapCount, PVRSRV_HEAP_INFO *psHeapInfo, IMG_BOOL *pbCreated, IMG_BOOL *pbShared); IMG_IMPORT PVRSRV_ERROR IMG_CALLCONV PVRSRVDestroyDeviceMemContextKM(IMG_HANDLE hDevCookie, IMG_HANDLE hDevMemContext, IMG_BOOL *pbDestroyed); IMG_IMPORT PVRSRV_ERROR IMG_CALLCONV PVRSRVGetDeviceMemHeapInfoKM(IMG_HANDLE hDevCookie, IMG_HANDLE hDevMemContext, IMG_UINT32 *pui32ClientHeapCount, PVRSRV_HEAP_INFO *psHeapInfo, IMG_BOOL *pbShared ); IMG_IMPORT PVRSRV_ERROR IMG_CALLCONV _PVRSRVAllocDeviceMemKM(IMG_HANDLE hDevCookie, PVRSRV_PER_PROCESS_DATA *psPerProc, IMG_HANDLE hDevMemHeap, IMG_UINT32 ui32Flags, IMG_SIZE_T ui32Size, IMG_SIZE_T ui32Alignment, IMG_PVOID pvPrivData, IMG_UINT32 ui32PrivDataLength, IMG_UINT32 ui32ChunkSize, IMG_UINT32 ui32NumVirtChunks, IMG_UINT32 ui32NumPhysChunks, IMG_BOOL *pabMapChunk, PVRSRV_KERNEL_MEM_INFO **ppsMemInfo); #if defined(PVRSRV_LOG_MEMORY_ALLOCS) #define PVRSRVAllocDeviceMemKM(devCookie, perProc, devMemHeap, flags, size, alignment, privdata, privdatalength, \ chunksize, numvirtchunks, numphyschunks, mapchunk, memInfo, logStr) \ (PVR_TRACE(("PVRSRVAllocDeviceMemKM(" #devCookie ", " #perProc ", " #devMemHeap ", " #flags ", " #size \ ", " #alignment "," #memInfo "): " logStr " (size = 0x%x)", size)),\ _PVRSRVAllocDeviceMemKM(devCookie, perProc, devMemHeap, flags, size, alignment, privdata, privdatalength, \ chunksize, numvirtchunks, numphyschunks, mapchunk, memInfo)) #else #define PVRSRVAllocDeviceMemKM(devCookie, perProc, devMemHeap, flags, size, alignment, privdata, privdatalength, \ chunksize, numvirtchunks, numphyschunks, mapchunk, memInfo, logStr) \ _PVRSRVAllocDeviceMemKM(devCookie, perProc, devMemHeap, flags, size, alignment, privdata, privdatalength, \ chunksize, numvirtchunks, numphyschunks, mapchunk, memInfo) #endif IMG_IMPORT PVRSRV_ERROR IMG_CALLCONV PVRSRVFreeDeviceMemKM(IMG_HANDLE hDevCookie, PVRSRV_KERNEL_MEM_INFO *psMemInfo); #if defined(SUPPORT_ION) IMG_IMPORT PVRSRV_ERROR PVRSRVMapIonHandleKM(PVRSRV_PER_PROCESS_DATA *psPerProc, IMG_HANDLE hDevCookie, IMG_HANDLE hDevMemHeap, IMG_UINT32 ui32NumFDs, IMG_INT32 *pai32BufferFDs, IMG_UINT32 ui32Flags, IMG_UINT32 ui32ChunkCount, IMG_SIZE_T *pauiOffset, IMG_SIZE_T *pauiSize, IMG_SIZE_T *puiIonBufferSize, PVRSRV_KERNEL_MEM_INFO **ppsKernelMemInfo, IMG_UINT64 *pui64Stamp); IMG_IMPORT PVRSRV_ERROR IMG_CALLCONV PVRSRVUnmapIonHandleKM(PVRSRV_KERNEL_MEM_INFO *psMemInfo); #endif /* SUPPORT_ION */ #if defined(SUPPORT_DMABUF) IMG_IMPORT PVRSRV_ERROR PVRSRVMapDmaBufKM(PVRSRV_PER_PROCESS_DATA *psPerProc, IMG_HANDLE hDevCookie, IMG_HANDLE hDevMemHeap, IMG_UINT32 ui32Flags, IMG_INT32 ui32DmaBufFD, IMG_SIZE_T uiDmaBufOffset, IMG_SIZE_T uiDmaBufSize, PVRSRV_KERNEL_MEM_INFO **ppsKernelMemInfo, IMG_SIZE_T *puiSize, IMG_SIZE_T *puiMemInfoOffset, IMG_UINT64 *pui64Stamp); IMG_IMPORT PVRSRV_ERROR IMG_CALLCONV PVRSRVUnmapDmaBufKM(PVRSRV_KERNEL_MEM_INFO *psMemInfo); #endif /* SUPPORT_DMABUF */ IMG_IMPORT PVRSRV_ERROR IMG_CALLCONV PVRSRVDissociateDeviceMemKM(IMG_HANDLE hDevCookie, PVRSRV_KERNEL_MEM_INFO *psMemInfo); IMG_IMPORT PVRSRV_ERROR IMG_CALLCONV PVRSRVReserveDeviceVirtualMemKM(IMG_HANDLE hDevMemHeap, IMG_DEV_VIRTADDR *psDevVAddr, IMG_SIZE_T ui32Size, IMG_SIZE_T ui32Alignment, PVRSRV_KERNEL_MEM_INFO **ppsMemInfo); IMG_IMPORT PVRSRV_ERROR IMG_CALLCONV PVRSRVFreeDeviceVirtualMemKM(PVRSRV_KERNEL_MEM_INFO *psMemInfo); IMG_IMPORT PVRSRV_ERROR IMG_CALLCONV PVRSRVMapDeviceMemoryKM(PVRSRV_PER_PROCESS_DATA *psPerProc, PVRSRV_KERNEL_MEM_INFO *psSrcMemInfo, IMG_HANDLE hDstDevMemHeap, PVRSRV_KERNEL_MEM_INFO **ppsDstMemInfo); IMG_IMPORT PVRSRV_ERROR IMG_CALLCONV PVRSRVUnmapDeviceMemoryKM(PVRSRV_KERNEL_MEM_INFO *psMemInfo); IMG_IMPORT PVRSRV_ERROR IMG_CALLCONV PVRSRVWrapExtMemoryKM(IMG_HANDLE hDevCookie, PVRSRV_PER_PROCESS_DATA *psPerProc, IMG_HANDLE hDevMemContext, IMG_SIZE_T ui32ByteSize, IMG_SIZE_T ui32PageOffset, IMG_BOOL bPhysContig, IMG_SYS_PHYADDR *psSysAddr, IMG_VOID *pvLinAddr, IMG_UINT32 ui32Flags, PVRSRV_KERNEL_MEM_INFO **ppsMemInfo); IMG_IMPORT PVRSRV_ERROR IMG_CALLCONV PVRSRVUnwrapExtMemoryKM(PVRSRV_KERNEL_MEM_INFO *psMemInfo); #if defined(SUPPORT_PVRSRV_DEVICE_CLASS) IMG_IMPORT PVRSRV_ERROR PVRSRVEnumerateDCKM(PVRSRV_DEVICE_CLASS DeviceClass, IMG_UINT32 *pui32DevCount, IMG_UINT32 *pui32DevID ); IMG_IMPORT PVRSRV_ERROR PVRSRVOpenDCDeviceKM(PVRSRV_PER_PROCESS_DATA *psPerProc, IMG_UINT32 ui32DeviceID, IMG_HANDLE hDevCookie, IMG_HANDLE *phDeviceKM); IMG_IMPORT PVRSRV_ERROR PVRSRVCloseDCDeviceKM(IMG_HANDLE hDeviceKM); IMG_IMPORT PVRSRV_ERROR PVRSRVEnumDCFormatsKM(IMG_HANDLE hDeviceKM, IMG_UINT32 *pui32Count, DISPLAY_FORMAT *psFormat); IMG_IMPORT PVRSRV_ERROR PVRSRVEnumDCDimsKM(IMG_HANDLE hDeviceKM, DISPLAY_FORMAT *psFormat, IMG_UINT32 *pui32Count, DISPLAY_DIMS *psDim); IMG_IMPORT PVRSRV_ERROR PVRSRVGetDCSystemBufferKM(IMG_HANDLE hDeviceKM, IMG_HANDLE *phBuffer); IMG_IMPORT PVRSRV_ERROR PVRSRVGetDCInfoKM(IMG_HANDLE hDeviceKM, DISPLAY_INFO *psDisplayInfo); IMG_IMPORT PVRSRV_ERROR PVRSRVCreateDCSwapChainKM(PVRSRV_PER_PROCESS_DATA *psPerProc, IMG_HANDLE hDeviceKM, IMG_UINT32 ui32Flags, DISPLAY_SURF_ATTRIBUTES *psDstSurfAttrib, DISPLAY_SURF_ATTRIBUTES *psSrcSurfAttrib, IMG_UINT32 ui32BufferCount, IMG_UINT32 ui32OEMFlags, IMG_HANDLE *phSwapChain, IMG_UINT32 *pui32SwapChainID #if defined(PVR_ANDROID_NATIVE_WINDOW_HAS_FENCE) ,IMG_INT32 i32TimelineFd #endif ); IMG_IMPORT PVRSRV_ERROR PVRSRVDestroyDCSwapChainKM(IMG_HANDLE hSwapChain); IMG_IMPORT PVRSRV_ERROR PVRSRVSetDCDstRectKM(IMG_HANDLE hDeviceKM, IMG_HANDLE hSwapChain, IMG_RECT *psRect); IMG_IMPORT PVRSRV_ERROR PVRSRVSetDCSrcRectKM(IMG_HANDLE hDeviceKM, IMG_HANDLE hSwapChain, IMG_RECT *psRect); IMG_IMPORT PVRSRV_ERROR PVRSRVSetDCDstColourKeyKM(IMG_HANDLE hDeviceKM, IMG_HANDLE hSwapChain, IMG_UINT32 ui32CKColour); IMG_IMPORT PVRSRV_ERROR PVRSRVSetDCSrcColourKeyKM(IMG_HANDLE hDeviceKM, IMG_HANDLE hSwapChain, IMG_UINT32 ui32CKColour); IMG_IMPORT PVRSRV_ERROR PVRSRVGetDCBuffersKM(IMG_HANDLE hDeviceKM, IMG_HANDLE hSwapChain, IMG_UINT32 *pui32BufferCount, IMG_HANDLE *phBuffer, IMG_SYS_PHYADDR *psPhyAddr); IMG_IMPORT PVRSRV_ERROR PVRSRVSwapToDCBufferKM(IMG_HANDLE hDeviceKM, IMG_HANDLE hBuffer, IMG_UINT32 ui32SwapInterval, IMG_HANDLE hPrivateTag, IMG_UINT32 ui32ClipRectCount, IMG_RECT *psClipRect); IMG_IMPORT PVRSRV_ERROR PVRSRVSwapToDCBuffer2KM(IMG_HANDLE hDeviceKM, IMG_HANDLE hBuffer, IMG_UINT32 ui32SwapInterval, PVRSRV_KERNEL_MEM_INFO **ppsMemInfos, PVRSRV_KERNEL_SYNC_INFO **ppsSyncInfos, IMG_UINT32 ui32NumMemSyncInfos, IMG_PVOID pvPrivData, IMG_UINT32 ui32PrivDataLength, IMG_HANDLE *phFence); IMG_IMPORT PVRSRV_ERROR PVRSRVSwapToDCSystemKM(IMG_HANDLE hDeviceKM, IMG_HANDLE hSwapChain); IMG_IMPORT PVRSRV_ERROR PVRSRVOpenBCDeviceKM(PVRSRV_PER_PROCESS_DATA *psPerProc, IMG_UINT32 ui32DeviceID, IMG_HANDLE hDevCookie, IMG_HANDLE *phDeviceKM); IMG_IMPORT PVRSRV_ERROR PVRSRVCloseBCDeviceKM(IMG_HANDLE hDeviceKM); IMG_IMPORT PVRSRV_ERROR PVRSRVGetBCInfoKM(IMG_HANDLE hDeviceKM, BUFFER_INFO *psBufferInfo); IMG_IMPORT PVRSRV_ERROR PVRSRVGetBCBufferKM(IMG_HANDLE hDeviceKM, IMG_UINT32 ui32BufferIndex, IMG_HANDLE *phBuffer); IMG_IMPORT PVRSRV_ERROR IMG_CALLCONV PVRSRVMapDeviceClassMemoryKM(PVRSRV_PER_PROCESS_DATA *psPerProc, IMG_HANDLE hDevMemContext, IMG_HANDLE hDeviceClassBuffer, PVRSRV_KERNEL_MEM_INFO **ppsMemInfo, IMG_HANDLE *phOSMapInfo); IMG_IMPORT PVRSRV_ERROR IMG_CALLCONV PVRSRVUnmapDeviceClassMemoryKM(PVRSRV_KERNEL_MEM_INFO *psMemInfo); #endif /* defined(SUPPORT_PVRSRV_DEVICE_CLASS) */ IMG_EXPORT PVRSRV_ERROR IMG_CALLCONV PVRSRVChangeDeviceMemoryAttributesKM(IMG_HANDLE hKernelMemInfo, IMG_UINT32 ui32Attribs); IMG_IMPORT PVRSRV_ERROR IMG_CALLCONV PVRSRVGetFreeDeviceMemKM(IMG_UINT32 ui32Flags, IMG_SIZE_T *pui32Total, IMG_SIZE_T *pui32Free, IMG_SIZE_T *pui32LargestBlock); IMG_IMPORT PVRSRV_ERROR IMG_CALLCONV PVRSRVAllocSyncInfoKM(IMG_HANDLE hDevCookie, IMG_HANDLE hDevMemContext, PVRSRV_KERNEL_SYNC_INFO **ppsKernelSyncInfo); IMG_IMPORT IMG_VOID IMG_CALLCONV PVRSRVAcquireSyncInfoKM(PVRSRV_KERNEL_SYNC_INFO *psKernelSyncInfo); IMG_IMPORT IMG_VOID IMG_CALLCONV PVRSRVReleaseSyncInfoKM(PVRSRV_KERNEL_SYNC_INFO *psKernelSyncInfo); IMG_IMPORT PVRSRV_ERROR IMG_CALLCONV PVRSRVGetMiscInfoKM(PVRSRV_MISC_INFO *psMiscInfo); /*! * ***************************************************************************** * @brief Allocates memory on behalf of a userspace process that is addressable * by ther kernel. The memory is suitable for mapping into * user space and it is possible to entirely dissociate the memory * from the userspace process via PVRSRVDissociateSharedSysMemoryKM. * * @param psPerProc * @param ui32Flags * @param ui32Size * @param ppsKernelMemInfo * * @return PVRSRV_ERROR ********************************************************************************/ IMG_IMPORT PVRSRV_ERROR PVRSRVAllocSharedSysMemoryKM(PVRSRV_PER_PROCESS_DATA *psPerProc, IMG_UINT32 ui32Flags, IMG_SIZE_T ui32Size, PVRSRV_KERNEL_MEM_INFO **ppsKernelMemInfo); /*! * ***************************************************************************** * @brief Frees memory allocated via PVRSRVAllocSharedSysMemoryKM (Note you must * be sure any additional kernel references you created have been * removed before freeing the memory) * * @param psKernelMemInfo * * @return PVRSRV_ERROR ********************************************************************************/ IMG_IMPORT PVRSRV_ERROR PVRSRVFreeSharedSysMemoryKM(PVRSRV_KERNEL_MEM_INFO *psKernelMemInfo); /*! ****************************************************************************** @brief Dissociates memory from the process that allocates it. Intended for transfering the ownership of system memory from a particular process to the kernel. Unlike PVRSRVDissociateDeviceMemKM, ownership is not transfered to the kernel context, so the Resource Manager will not automatically clean up such memory. @param psKernelMemInfo: @return PVRSRV_ERROR: ******************************************************************************/ IMG_IMPORT PVRSRV_ERROR PVRSRVDissociateMemFromResmanKM(PVRSRV_KERNEL_MEM_INFO *psKernelMemInfo); #if defined (__cplusplus) } #endif #endif /* __PVR_BRIDGE_KM_H_ */ /****************************************************************************** End of file (pvr_bridge_km.h) ******************************************************************************/