gstreamer/sys/pvr2d/pvr_includes/services.h

1212 lines
35 KiB
C
Raw Normal View History

/**********************************************************************
*
* Copyright (C) Imagination Technologies Ltd. All rights reserved.
*
* This program is free software; you can redistribute it and/or modify it
* under the terms and conditions of the GNU General Public License,
* version 2, as published by the Free Software Foundation.
*
* This program is distributed in the hope it will be useful but, except
* as otherwise stated in writing, without any warranty; without even the
* implied warranty of merchantability or fitness for a particular purpose.
* See the GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License along with
* this program; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin St - Fifth Floor, Boston, MA 02110-1301 USA.
*
* The full GNU General Public License is included in this distribution in
* the file called "COPYING".
*
* Contact Information:
* Imagination Technologies Ltd. <gpl-support@imgtec.com>
* Home Park Estate, Kings Langley, Herts, WD4 8LZ, UK
*
******************************************************************************/
#ifndef __SERVICES_H__
#define __SERVICES_H__
#if defined (__cplusplus)
extern "C" {
#endif
#include "img_defs.h"
#include "servicesext.h"
#define PVRSRV_4K_PAGE_SIZE 4096UL
#define PVRSRV_MAX_CMD_SIZE 1024
#define PVRSRV_MAX_DEVICES 16
#define EVENTOBJNAME_MAXLENGTH (50)
#define PVRSRV_MEM_READ (1U<<0)
#define PVRSRV_MEM_WRITE (1U<<1)
#define PVRSRV_MEM_CACHE_CONSISTENT (1U<<2)
#define PVRSRV_MEM_NO_SYNCOBJ (1U<<3)
#define PVRSRV_MEM_INTERLEAVED (1U<<4)
#define PVRSRV_MEM_DUMMY (1U<<5)
#define PVRSRV_MEM_EDM_PROTECT (1U<<6)
#define PVRSRV_MEM_ZERO (1U<<7)
#define PVRSRV_MEM_USER_SUPPLIED_DEVVADDR (1U<<8)
#define PVRSRV_MEM_RAM_BACKED_ALLOCATION (1U<<9)
#define PVRSRV_MEM_NO_RESMAN (1U<<10)
#define PVRSRV_MEM_EXPORTED (1U<<11)
#define PVRSRV_HAP_CACHED (1U<<12)
#define PVRSRV_HAP_UNCACHED (1U<<13)
#define PVRSRV_HAP_SMART (1U<<20) /* XXX could we use CACHED|UNCACHED? */
#define PVRSRV_HAP_WRITECOMBINE (1U<<14)
#define PVRSRV_HAP_CACHETYPE_MASK (PVRSRV_HAP_CACHED|PVRSRV_HAP_UNCACHED|PVRSRV_HAP_SMART|PVRSRV_HAP_WRITECOMBINE)
#define PVRSRV_HAP_KERNEL_ONLY (1U<<15)
#define PVRSRV_HAP_SINGLE_PROCESS (1U<<16)
#define PVRSRV_HAP_MULTI_PROCESS (1U<<17)
#define PVRSRV_HAP_FROM_EXISTING_PROCESS (1U<<18)
#define PVRSRV_HAP_NO_CPU_VIRTUAL (1U<<19)
#define PVRSRV_HAP_GPU_PAGEABLE (1U<<21)
#define PVRSRV_HAP_MAPTYPE_MASK (PVRSRV_HAP_KERNEL_ONLY \
|PVRSRV_HAP_SINGLE_PROCESS \
|PVRSRV_HAP_MULTI_PROCESS \
|PVRSRV_HAP_FROM_EXISTING_PROCESS \
|PVRSRV_HAP_NO_CPU_VIRTUAL\
|PVRSRV_HAP_GPU_PAGEABLE)
#define PVRSRV_MEM_CACHED PVRSRV_HAP_CACHED
#define PVRSRV_MEM_UNCACHED PVRSRV_HAP_UNCACHED
#define PVRSRV_MEM_SMART PVRSRV_HAP_SMART
#define PVRSRV_MEM_WRITECOMBINE PVRSRV_HAP_WRITECOMBINE
#define PVRSRV_MEM_BACKINGSTORE_FIELD_SHIFT (24)
#define PVRSRV_MAP_NOUSERVIRTUAL (1UL<<27)
#define PVRSRV_MEM_XPROC (1U<<28)
#define PVRSRV_NO_CONTEXT_LOSS 0
#define PVRSRV_SEVERE_LOSS_OF_CONTEXT 1
#define PVRSRV_PRE_STATE_CHANGE_MASK 0x80
#define PVRSRV_DEFAULT_DEV_COOKIE (1)
#define PVRSRV_MISC_INFO_TIMER_PRESENT (1U<<0)
#define PVRSRV_MISC_INFO_CLOCKGATE_PRESENT (1U<<1)
#define PVRSRV_MISC_INFO_MEMSTATS_PRESENT (1U<<2)
#define PVRSRV_MISC_INFO_GLOBALEVENTOBJECT_PRESENT (1U<<3)
#define PVRSRV_MISC_INFO_DDKVERSION_PRESENT (1U<<4)
#define PVRSRV_MISC_INFO_CPUCACHEOP_PRESENT (1U<<5)
#define PVRSRV_MISC_INFO_FREEMEM_PRESENT (1U<<6)
#define PVRSRV_MISC_INFO_RESET_PRESENT (1U<<31)
#define PVRSRV_PDUMP_MAX_FILENAME_SIZE 20
#define PVRSRV_PDUMP_MAX_COMMENT_SIZE 200
#define PVRSRV_CHANGEDEVMEM_ATTRIBS_CACHECOHERENT 0x00000001
#define PVRSRV_MAPEXTMEMORY_FLAGS_ALTERNATEVA 0x00000001
#define PVRSRV_MAPEXTMEMORY_FLAGS_PHYSCONTIG 0x00000002
#define PVRSRV_MODIFYSYNCOPS_FLAGS_WO_INC 0x00000001
#define PVRSRV_MODIFYSYNCOPS_FLAGS_RO_INC 0x00000002
#define SRV_FLAGS_PERSIST 0x1
#define SRV_FLAGS_PDUMP_ACTIVE 0x2
#define PVRSRV_PDUMP_FLAGS_CONTINUOUS 0x1
#define PVR_FULL_CACHE_OP_THRESHOLD (0x7D000)
typedef enum _PVRSRV_DEVICE_TYPE_
{
PVRSRV_DEVICE_TYPE_UNKNOWN = 0 ,
PVRSRV_DEVICE_TYPE_MBX1 = 1 ,
PVRSRV_DEVICE_TYPE_MBX1_LITE = 2 ,
PVRSRV_DEVICE_TYPE_M24VA = 3,
PVRSRV_DEVICE_TYPE_MVDA2 = 4,
PVRSRV_DEVICE_TYPE_MVED1 = 5,
PVRSRV_DEVICE_TYPE_MSVDX = 6,
PVRSRV_DEVICE_TYPE_SGX = 7,
PVRSRV_DEVICE_TYPE_VGX = 8,
PVRSRV_DEVICE_TYPE_EXT = 9,
PVRSRV_DEVICE_TYPE_LAST = 9,
PVRSRV_DEVICE_TYPE_FORCE_I32 = 0x7fffffff
} PVRSRV_DEVICE_TYPE;
#define HEAP_ID( _dev_ , _dev_heap_idx_ ) ( ((_dev_)<<24) | ((_dev_heap_idx_)&((1<<24)-1)) )
#define HEAP_IDX( _heap_id_ ) ( (_heap_id_)&((1<<24) - 1 ) )
#define HEAP_DEV( _heap_id_ ) ( (_heap_id_)>>24 )
#define PVRSRV_UNDEFINED_HEAP_ID (~0LU)
typedef enum
{
IMG_EGL = 0x00000001,
IMG_OPENGLES1 = 0x00000002,
IMG_OPENGLES2 = 0x00000003,
IMG_D3DM = 0x00000004,
IMG_SRV_UM = 0x00000005,
IMG_OPENVG = 0x00000006,
IMG_SRVCLIENT = 0x00000007,
IMG_VISTAKMD = 0x00000008,
IMG_VISTA3DNODE = 0x00000009,
IMG_VISTAMVIDEONODE = 0x0000000A,
IMG_VISTAVPBNODE = 0x0000000B,
IMG_OPENGL = 0x0000000C,
IMG_D3D = 0x0000000D,
#if defined(SUPPORT_GRAPHICS_HAL) || defined(SUPPORT_COMPOSER_HAL)
IMG_ANDROID_HAL = 0x0000000E,
#endif
#if defined(SUPPORT_OPENCL)
IMG_OPENCL = 0x0000000F,
#endif
} IMG_MODULE_ID;
#define APPHINT_MAX_STRING_SIZE 256
typedef enum
{
IMG_STRING_TYPE = 1,
IMG_FLOAT_TYPE ,
IMG_UINT_TYPE ,
IMG_INT_TYPE ,
IMG_FLAG_TYPE
}IMG_DATA_TYPE;
typedef struct _PVRSRV_DEV_DATA_ *PPVRSRV_DEV_DATA;
typedef struct _PVRSRV_DEVICE_IDENTIFIER_
{
PVRSRV_DEVICE_TYPE eDeviceType;
PVRSRV_DEVICE_CLASS eDeviceClass;
IMG_UINT32 ui32DeviceIndex;
IMG_CHAR *pszPDumpDevName;
IMG_CHAR *pszPDumpRegName;
} PVRSRV_DEVICE_IDENTIFIER;
typedef struct _PVRSRV_CLIENT_DEV_DATA_
{
IMG_UINT32 ui32NumDevices;
PVRSRV_DEVICE_IDENTIFIER asDevID[PVRSRV_MAX_DEVICES];
PVRSRV_ERROR (*apfnDevConnect[PVRSRV_MAX_DEVICES])(PPVRSRV_DEV_DATA);
PVRSRV_ERROR (*apfnDumpTrace[PVRSRV_MAX_DEVICES])(PPVRSRV_DEV_DATA);
} PVRSRV_CLIENT_DEV_DATA;
typedef struct _PVRSRV_CONNECTION_
{
IMG_HANDLE hServices;
IMG_UINT32 ui32ProcessID;
PVRSRV_CLIENT_DEV_DATA sClientDevData;
IMG_UINT32 ui32SrvFlags;
}PVRSRV_CONNECTION;
typedef struct _PVRSRV_DEV_DATA_
{
IMG_CONST PVRSRV_CONNECTION *psConnection;
#if defined (SUPPORT_SID_INTERFACE)
IMG_SID hDevCookie;
#else
IMG_HANDLE hDevCookie;
#endif
} PVRSRV_DEV_DATA;
typedef struct _PVRSRV_MEMUPDATE_
{
IMG_UINT32 ui32UpdateAddr;
IMG_UINT32 ui32UpdateVal;
} PVRSRV_MEMUPDATE;
typedef struct _PVRSRV_HWREG_
{
IMG_UINT32 ui32RegAddr;
IMG_UINT32 ui32RegVal;
} PVRSRV_HWREG;
typedef struct _PVRSRV_MEMBLK_
{
IMG_DEV_VIRTADDR sDevVirtAddr;
IMG_HANDLE hOSMemHandle;
IMG_HANDLE hOSWrapMem;
IMG_HANDLE hBuffer;
IMG_HANDLE hResItem;
IMG_SYS_PHYADDR *psIntSysPAddr;
} PVRSRV_MEMBLK;
typedef struct _PVRSRV_KERNEL_MEM_INFO_ *PPVRSRV_KERNEL_MEM_INFO;
typedef struct _PVRSRV_CLIENT_MEM_INFO_
{
IMG_PVOID pvLinAddr;
IMG_PVOID pvLinAddrKM;
IMG_DEV_VIRTADDR sDevVAddr;
IMG_CPU_PHYADDR sCpuPAddr;
IMG_UINT32 ui32Flags;
IMG_UINT32 ui32ClientFlags;
IMG_SIZE_T uAllocSize;
struct _PVRSRV_CLIENT_SYNC_INFO_ *psClientSyncInfo;
#if defined (SUPPORT_SID_INTERFACE)
IMG_SID hMappingInfo;
IMG_SID hKernelMemInfo;
IMG_SID hResItem;
#else
IMG_HANDLE hMappingInfo;
IMG_HANDLE hKernelMemInfo;
IMG_HANDLE hResItem;
#endif
#if defined(SUPPORT_MEMINFO_IDS)
#if !defined(USE_CODE)
IMG_UINT64 ui64Stamp;
#else
IMG_UINT32 dummy1;
IMG_UINT32 dummy2;
#endif
#endif
struct _PVRSRV_CLIENT_MEM_INFO_ *psNext;
} PVRSRV_CLIENT_MEM_INFO, *PPVRSRV_CLIENT_MEM_INFO;
#define PVRSRV_MAX_CLIENT_HEAPS (32)
typedef struct _PVRSRV_HEAP_INFO_
{
IMG_UINT32 ui32HeapID;
#if defined (SUPPORT_SID_INTERFACE)
IMG_SID hDevMemHeap;
#else
IMG_HANDLE hDevMemHeap;
#endif
IMG_DEV_VIRTADDR sDevVAddrBase;
IMG_UINT32 ui32HeapByteSize;
IMG_UINT32 ui32Attribs;
IMG_UINT32 ui32XTileStride;
}PVRSRV_HEAP_INFO;
typedef struct _PVRSRV_EVENTOBJECT_
{
IMG_CHAR szName[EVENTOBJNAME_MAXLENGTH];
#if defined (SUPPORT_SID_INTERFACE)
IMG_SID hOSEventKM;
#else
IMG_HANDLE hOSEventKM;
#endif
} PVRSRV_EVENTOBJECT;
typedef enum
{
PVRSRV_MISC_INFO_CPUCACHEOP_NONE = 0,
PVRSRV_MISC_INFO_CPUCACHEOP_CLEAN,
PVRSRV_MISC_INFO_CPUCACHEOP_FLUSH,
PVRSRV_MISC_INFO_CPUCACHEOP_CUSTOM_FLUSH,
PVRSRV_MISC_INFO_CPUCACHEOP_CUSTOM_INV
} PVRSRV_MISC_INFO_CPUCACHEOP_TYPE;
typedef struct _PVRSRV_MISC_INFO_
{
IMG_UINT32 ui32StateRequest;
IMG_UINT32 ui32StatePresent;
IMG_VOID *pvSOCTimerRegisterKM;
IMG_VOID *pvSOCTimerRegisterUM;
#if defined (SUPPORT_SID_INTERFACE)
IMG_SID hSOCTimerRegisterOSMemHandle;
IMG_SID hSOCTimerRegisterMappingInfo;
#else
IMG_HANDLE hSOCTimerRegisterOSMemHandle;
IMG_HANDLE hSOCTimerRegisterMappingInfo;
#endif
IMG_VOID *pvSOCClockGateRegs;
IMG_UINT32 ui32SOCClockGateRegsSize;
IMG_CHAR *pszMemoryStr;
IMG_UINT32 ui32MemoryStrLen;
PVRSRV_EVENTOBJECT sGlobalEventObject;
#if defined (SUPPORT_SID_INTERFACE)
IMG_EVENTSID hOSGlobalEvent;
#else
IMG_HANDLE hOSGlobalEvent;
#endif
IMG_UINT32 aui32DDKVersion[4];
struct
{
IMG_BOOL bDeferOp;
PVRSRV_MISC_INFO_CPUCACHEOP_TYPE eCacheOpType;
#if !defined (SUPPORT_SID_INTERFACE)
union
{
PVRSRV_CLIENT_MEM_INFO *psClientMemInfo;
struct _PVRSRV_KERNEL_MEM_INFO_ *psKernelMemInfo;
} u;
#endif
IMG_VOID *pvBaseVAddr;
IMG_UINT32 ui32Length;
} sCacheOpCtl;
} PVRSRV_MISC_INFO;
typedef struct _PVRSRV_SYNC_TOKEN_
{
struct
{
#if defined (SUPPORT_SID_INTERFACE)
IMG_SID hKernelSyncInfo;
#else
IMG_HANDLE hKernelSyncInfo;
#endif
IMG_UINT32 ui32ReadOpsPendingSnapshot;
IMG_UINT32 ui32WriteOpsPendingSnapshot;
} sPrivate;
} PVRSRV_SYNC_TOKEN;
typedef enum _PVRSRV_CLIENT_EVENT_
{
PVRSRV_CLIENT_EVENT_HWTIMEOUT = 0,
} PVRSRV_CLIENT_EVENT;
IMG_IMPORT
PVRSRV_ERROR IMG_CALLCONV PVRSRVClientEvent(IMG_CONST PVRSRV_CLIENT_EVENT eEvent,
PVRSRV_DEV_DATA *psDevData,
IMG_PVOID pvData);
IMG_IMPORT
PVRSRV_ERROR IMG_CALLCONV PVRSRVConnect(PVRSRV_CONNECTION **ppsConnection, IMG_UINT32 ui32SrvFlags);
IMG_IMPORT
PVRSRV_ERROR IMG_CALLCONV PVRSRVDisconnect(IMG_CONST PVRSRV_CONNECTION *psConnection);
IMG_IMPORT
PVRSRV_ERROR IMG_CALLCONV PVRSRVEnumerateDevices(IMG_CONST PVRSRV_CONNECTION *psConnection,
IMG_UINT32 *puiNumDevices,
PVRSRV_DEVICE_IDENTIFIER *puiDevIDs);
IMG_IMPORT
PVRSRV_ERROR IMG_CALLCONV PVRSRVAcquireDeviceData(IMG_CONST PVRSRV_CONNECTION *psConnection,
IMG_UINT32 uiDevIndex,
PVRSRV_DEV_DATA *psDevData,
PVRSRV_DEVICE_TYPE eDeviceType);
IMG_IMPORT
PVRSRV_ERROR IMG_CALLCONV PVRSRVGetMiscInfo (IMG_CONST PVRSRV_CONNECTION *psConnection, PVRSRV_MISC_INFO *psMiscInfo);
IMG_IMPORT
PVRSRV_ERROR IMG_CALLCONV PVRSRVReleaseMiscInfo (IMG_CONST PVRSRV_CONNECTION *psConnection, PVRSRV_MISC_INFO *psMiscInfo);
#if 1
IMG_IMPORT
IMG_UINT32 ReadHWReg(IMG_PVOID pvLinRegBaseAddr, IMG_UINT32 ui32Offset);
IMG_IMPORT
IMG_VOID WriteHWReg(IMG_PVOID pvLinRegBaseAddr, IMG_UINT32 ui32Offset, IMG_UINT32 ui32Value);
IMG_IMPORT IMG_VOID WriteHWRegs(IMG_PVOID pvLinRegBaseAddr, IMG_UINT32 ui32Count, PVRSRV_HWREG *psHWRegs);
#endif
IMG_IMPORT
PVRSRV_ERROR PVRSRVPollForValue ( const PVRSRV_CONNECTION *psConnection,
#if defined (SUPPORT_SID_INTERFACE)
IMG_SID hOSEvent,
#else
IMG_HANDLE hOSEvent,
#endif
volatile IMG_UINT32 *pui32LinMemAddr,
IMG_UINT32 ui32Value,
IMG_UINT32 ui32Mask,
IMG_UINT32 ui32Waitus,
IMG_UINT32 ui32Tries);
IMG_IMPORT
PVRSRV_ERROR IMG_CALLCONV PVRSRVCreateDeviceMemContext(IMG_CONST PVRSRV_DEV_DATA *psDevData,
#if defined (SUPPORT_SID_INTERFACE)
IMG_SID *phDevMemContext,
#else
IMG_HANDLE *phDevMemContext,
#endif
IMG_UINT32 *pui32SharedHeapCount,
PVRSRV_HEAP_INFO *psHeapInfo);
IMG_IMPORT
PVRSRV_ERROR IMG_CALLCONV PVRSRVDestroyDeviceMemContext(IMG_CONST PVRSRV_DEV_DATA *psDevData,
#if defined (SUPPORT_SID_INTERFACE)
IMG_SID hDevMemContext);
#else
IMG_HANDLE hDevMemContext);
#endif
IMG_IMPORT
PVRSRV_ERROR IMG_CALLCONV PVRSRVGetDeviceMemHeapInfo(IMG_CONST PVRSRV_DEV_DATA *psDevData,
#if defined (SUPPORT_SID_INTERFACE)
IMG_SID hDevMemContext,
#else
IMG_HANDLE hDevMemContext,
#endif
IMG_UINT32 *pui32SharedHeapCount,
PVRSRV_HEAP_INFO *psHeapInfo);
#if defined(PVRSRV_LOG_MEMORY_ALLOCS)
#define PVRSRVAllocDeviceMem_log(psDevData, hDevMemHeap, ui32Attribs, ui32Size, ui32Alignment, ppsMemInfo, logStr) \
(PVR_TRACE(("PVRSRVAllocDeviceMem(" #psDevData "," #hDevMemHeap "," #ui32Attribs "," #ui32Size "," #ui32Alignment "," #ppsMemInfo ")" \
": " logStr " (size = 0x%lx)", ui32Size)), \
PVRSRVAllocDeviceMem(psDevData, hDevMemHeap, ui32Attribs, ui32Size, ui32Alignment, ppsMemInfo))
#else
#define PVRSRVAllocDeviceMem_log(psDevData, hDevMemHeap, ui32Attribs, ui32Size, ui32Alignment, ppsMemInfo, logStr) \
PVRSRVAllocDeviceMem(psDevData, hDevMemHeap, ui32Attribs, ui32Size, ui32Alignment, ppsMemInfo)
#endif
IMG_IMPORT
PVRSRV_ERROR IMG_CALLCONV PVRSRVAllocDeviceMem(IMG_CONST PVRSRV_DEV_DATA *psDevData,
#if defined (SUPPORT_SID_INTERFACE)
IMG_SID hDevMemHeap,
#else
IMG_HANDLE hDevMemHeap,
#endif
IMG_UINT32 ui32Attribs,
IMG_SIZE_T ui32Size,
IMG_SIZE_T ui32Alignment,
PVRSRV_CLIENT_MEM_INFO **ppsMemInfo);
IMG_IMPORT
PVRSRV_ERROR IMG_CALLCONV PVRSRVFreeDeviceMem(IMG_CONST PVRSRV_DEV_DATA *psDevData,
PVRSRV_CLIENT_MEM_INFO *psMemInfo);
IMG_IMPORT
PVRSRV_ERROR IMG_CALLCONV PVRSRVRemapToDev(IMG_CONST PVRSRV_DEV_DATA *psDevData,
PVRSRV_CLIENT_MEM_INFO *psMemInfo);
IMG_IMPORT
PVRSRV_ERROR IMG_CALLCONV PVRSRVUnmapFromDev(IMG_CONST PVRSRV_DEV_DATA *psDevData,
PVRSRV_CLIENT_MEM_INFO *psMemInfo);
IMG_IMPORT
PVRSRV_ERROR IMG_CALLCONV PVRSRVExportDeviceMem(IMG_CONST PVRSRV_DEV_DATA *psDevData,
PVRSRV_CLIENT_MEM_INFO *psMemInfo,
#if defined (SUPPORT_SID_INTERFACE)
IMG_SID *phMemInfo);
#else
IMG_HANDLE *phMemInfo);
#endif
IMG_IMPORT
PVRSRV_ERROR IMG_CALLCONV PVRSRVReserveDeviceVirtualMem(IMG_CONST PVRSRV_DEV_DATA *psDevData,
#if defined (SUPPORT_SID_INTERFACE)
IMG_SID hDevMemHeap,
#else
IMG_HANDLE hDevMemHeap,
#endif
IMG_DEV_VIRTADDR *psDevVAddr,
IMG_SIZE_T ui32Size,
IMG_SIZE_T ui32Alignment,
PVRSRV_CLIENT_MEM_INFO **ppsMemInfo);
IMG_IMPORT
PVRSRV_ERROR IMG_CALLCONV PVRSRVFreeDeviceVirtualMem(IMG_CONST PVRSRV_DEV_DATA *psDevData,
PVRSRV_CLIENT_MEM_INFO *psMemInfo);
IMG_IMPORT
PVRSRV_ERROR IMG_CALLCONV PVRSRVMapDeviceMemory (IMG_CONST PVRSRV_DEV_DATA *psDevData,
#if defined (SUPPORT_SID_INTERFACE)
IMG_SID hKernelMemInfo,
IMG_SID hDstDevMemHeap,
#else
IMG_HANDLE hKernelMemInfo,
IMG_HANDLE hDstDevMemHeap,
#endif
PVRSRV_CLIENT_MEM_INFO **ppsDstMemInfo);
IMG_IMPORT
PVRSRV_ERROR IMG_CALLCONV PVRSRVUnmapDeviceMemory (IMG_CONST PVRSRV_DEV_DATA *psDevData,
PVRSRV_CLIENT_MEM_INFO *psMemInfo);
IMG_IMPORT
PVRSRV_ERROR IMG_CALLCONV PVRSRVMapExtMemory (IMG_CONST PVRSRV_DEV_DATA *psDevData,
PVRSRV_CLIENT_MEM_INFO *psMemInfo,
IMG_SYS_PHYADDR *psSysPAddr,
IMG_UINT32 ui32Flags);
IMG_IMPORT
PVRSRV_ERROR IMG_CALLCONV PVRSRVUnmapExtMemory (IMG_CONST PVRSRV_DEV_DATA *psDevData,
PVRSRV_CLIENT_MEM_INFO *psMemInfo,
IMG_UINT32 ui32Flags);
IMG_IMPORT
PVRSRV_ERROR IMG_CALLCONV PVRSRVWrapExtMemory(IMG_CONST PVRSRV_DEV_DATA *psDevData,
#if defined (SUPPORT_SID_INTERFACE)
IMG_SID hDevMemContext,
#else
IMG_HANDLE hDevMemContext,
#endif
IMG_SIZE_T ui32ByteSize,
IMG_SIZE_T ui32PageOffset,
IMG_BOOL bPhysContig,
IMG_SYS_PHYADDR *psSysPAddr,
IMG_VOID *pvLinAddr,
IMG_UINT32 ui32Flags,
PVRSRV_CLIENT_MEM_INFO **ppsMemInfo);
IMG_IMPORT
PVRSRV_ERROR IMG_CALLCONV PVRSRVUnwrapExtMemory (IMG_CONST PVRSRV_DEV_DATA *psDevData,
PVRSRV_CLIENT_MEM_INFO *psMemInfo);
PVRSRV_ERROR PVRSRVChangeDeviceMemoryAttributes(IMG_CONST PVRSRV_DEV_DATA *psDevData,
PVRSRV_CLIENT_MEM_INFO *psClientMemInfo,
IMG_UINT32 ui32Attribs);
IMG_IMPORT
PVRSRV_ERROR IMG_CALLCONV PVRSRVMapDeviceClassMemory (IMG_CONST PVRSRV_DEV_DATA *psDevData,
#if defined (SUPPORT_SID_INTERFACE)
IMG_SID hDevMemContext,
IMG_SID hDeviceClassBuffer,
#else
IMG_HANDLE hDevMemContext,
IMG_HANDLE hDeviceClassBuffer,
#endif
PVRSRV_CLIENT_MEM_INFO **ppsMemInfo);
IMG_IMPORT
PVRSRV_ERROR IMG_CALLCONV PVRSRVUnmapDeviceClassMemory (IMG_CONST PVRSRV_DEV_DATA *psDevData,
PVRSRV_CLIENT_MEM_INFO *psMemInfo);
IMG_IMPORT
PVRSRV_ERROR IMG_CALLCONV PVRSRVMapPhysToUserSpace(IMG_CONST PVRSRV_DEV_DATA *psDevData,
IMG_SYS_PHYADDR sSysPhysAddr,
IMG_UINT32 uiSizeInBytes,
IMG_PVOID *ppvUserAddr,
IMG_UINT32 *puiActualSize,
IMG_PVOID *ppvProcess);
IMG_IMPORT
PVRSRV_ERROR IMG_CALLCONV PVRSRVUnmapPhysToUserSpace(IMG_CONST PVRSRV_DEV_DATA *psDevData,
IMG_PVOID pvUserAddr,
IMG_PVOID pvProcess);
#if defined(LINUX)
IMG_IMPORT
PVRSRV_ERROR IMG_CALLCONV PVRSRVExportDeviceMem2(IMG_CONST PVRSRV_DEV_DATA *psDevData,
PVRSRV_CLIENT_MEM_INFO *psMemInfo,
IMG_INT *iFd);
IMG_IMPORT
PVRSRV_ERROR IMG_CALLCONV PVRSRVMapDeviceMemory2(IMG_CONST PVRSRV_DEV_DATA *psDevData,
IMG_INT iFd,
#if defined (SUPPORT_SID_INTERFACE)
IMG_SID hDstDevMemHeap,
#else
IMG_HANDLE hDstDevMemHeap,
#endif
PVRSRV_CLIENT_MEM_INFO **ppsDstMemInfo);
#endif
typedef enum _PVRSRV_SYNCVAL_MODE_
{
PVRSRV_SYNCVAL_READ = IMG_TRUE,
PVRSRV_SYNCVAL_WRITE = IMG_FALSE,
} PVRSRV_SYNCVAL_MODE, *PPVRSRV_SYNCVAL_MODE;
typedef IMG_UINT32 PVRSRV_SYNCVAL;
IMG_IMPORT PVRSRV_ERROR PVRSRVWaitForOpsComplete(PPVRSRV_CLIENT_MEM_INFO psMemInfo,
PVRSRV_SYNCVAL_MODE eMode, PVRSRV_SYNCVAL OpRequired);
IMG_IMPORT PVRSRV_ERROR PVRSRVWaitForAllOpsComplete(PPVRSRV_CLIENT_MEM_INFO psMemInfo,
PVRSRV_SYNCVAL_MODE eMode);
IMG_IMPORT IMG_BOOL PVRSRVTestOpsComplete(PPVRSRV_CLIENT_MEM_INFO psMemInfo,
PVRSRV_SYNCVAL_MODE eMode, PVRSRV_SYNCVAL OpRequired);
IMG_IMPORT IMG_BOOL PVRSRVTestAllOpsComplete(PPVRSRV_CLIENT_MEM_INFO psMemInfo,
PVRSRV_SYNCVAL_MODE eMode);
IMG_IMPORT IMG_BOOL PVRSRVTestOpsNotComplete(PPVRSRV_CLIENT_MEM_INFO psMemInfo,
PVRSRV_SYNCVAL_MODE eMode, PVRSRV_SYNCVAL OpRequired);
IMG_IMPORT IMG_BOOL PVRSRVTestAllOpsNotComplete(PPVRSRV_CLIENT_MEM_INFO psMemInfo,
PVRSRV_SYNCVAL_MODE eMode);
IMG_IMPORT PVRSRV_SYNCVAL PVRSRVGetPendingOpSyncVal(PPVRSRV_CLIENT_MEM_INFO psMemInfo,
PVRSRV_SYNCVAL_MODE eMode);
IMG_IMPORT
PVRSRV_ERROR IMG_CALLCONV PVRSRVEnumerateDeviceClass(IMG_CONST PVRSRV_CONNECTION *psConnection,
PVRSRV_DEVICE_CLASS DeviceClass,
IMG_UINT32 *pui32DevCount,
IMG_UINT32 *pui32DevID);
IMG_IMPORT
IMG_HANDLE IMG_CALLCONV PVRSRVOpenDCDevice(IMG_CONST PVRSRV_DEV_DATA *psDevData,
IMG_UINT32 ui32DeviceID);
IMG_IMPORT
PVRSRV_ERROR IMG_CALLCONV PVRSRVCloseDCDevice(IMG_CONST PVRSRV_CONNECTION *psConnection, IMG_HANDLE hDevice);
IMG_IMPORT
PVRSRV_ERROR IMG_CALLCONV PVRSRVEnumDCFormats (IMG_HANDLE hDevice,
IMG_UINT32 *pui32Count,
DISPLAY_FORMAT *psFormat);
IMG_IMPORT
PVRSRV_ERROR IMG_CALLCONV PVRSRVEnumDCDims (IMG_HANDLE hDevice,
IMG_UINT32 *pui32Count,
DISPLAY_FORMAT *psFormat,
DISPLAY_DIMS *psDims);
IMG_IMPORT
PVRSRV_ERROR IMG_CALLCONV PVRSRVGetDCSystemBuffer(IMG_HANDLE hDevice,
#if defined (SUPPORT_SID_INTERFACE)
IMG_SID *phBuffer);
#else
IMG_HANDLE *phBuffer);
#endif
IMG_IMPORT
PVRSRV_ERROR IMG_CALLCONV PVRSRVGetDCInfo(IMG_HANDLE hDevice,
DISPLAY_INFO* psDisplayInfo);
IMG_IMPORT
PVRSRV_ERROR IMG_CALLCONV PVRSRVCreateDCSwapChain (IMG_HANDLE hDevice,
IMG_UINT32 ui32Flags,
DISPLAY_SURF_ATTRIBUTES *psDstSurfAttrib,
DISPLAY_SURF_ATTRIBUTES *psSrcSurfAttrib,
IMG_UINT32 ui32BufferCount,
IMG_UINT32 ui32OEMFlags,
IMG_UINT32 *pui32SwapChainID,
#if defined (SUPPORT_SID_INTERFACE)
IMG_SID *phSwapChain);
#else
IMG_HANDLE *phSwapChain);
#endif
IMG_IMPORT
PVRSRV_ERROR IMG_CALLCONV PVRSRVDestroyDCSwapChain (IMG_HANDLE hDevice,
#if defined (SUPPORT_SID_INTERFACE)
IMG_SID hSwapChain);
#else
IMG_HANDLE hSwapChain);
#endif
IMG_IMPORT
PVRSRV_ERROR IMG_CALLCONV PVRSRVSetDCDstRect (IMG_HANDLE hDevice,
#if defined (SUPPORT_SID_INTERFACE)
IMG_SID hSwapChain,
#else
IMG_HANDLE hSwapChain,
#endif
IMG_RECT *psDstRect);
IMG_IMPORT
PVRSRV_ERROR IMG_CALLCONV PVRSRVSetDCSrcRect (IMG_HANDLE hDevice,
#if defined (SUPPORT_SID_INTERFACE)
IMG_SID hSwapChain,
#else
IMG_HANDLE hSwapChain,
#endif
IMG_RECT *psSrcRect);
IMG_IMPORT
PVRSRV_ERROR IMG_CALLCONV PVRSRVSetDCDstColourKey (IMG_HANDLE hDevice,
#if defined (SUPPORT_SID_INTERFACE)
IMG_SID hSwapChain,
#else
IMG_HANDLE hSwapChain,
#endif
IMG_UINT32 ui32CKColour);
IMG_IMPORT
PVRSRV_ERROR IMG_CALLCONV PVRSRVSetDCSrcColourKey (IMG_HANDLE hDevice,
#if defined (SUPPORT_SID_INTERFACE)
IMG_SID hSwapChain,
#else
IMG_HANDLE hSwapChain,
#endif
IMG_UINT32 ui32CKColour);
IMG_IMPORT
PVRSRV_ERROR IMG_CALLCONV PVRSRVGetDCBuffers(IMG_HANDLE hDevice,
#if defined (SUPPORT_SID_INTERFACE)
IMG_SID hSwapChain,
IMG_SID *phBuffer);
#else
IMG_HANDLE hSwapChain,
IMG_HANDLE *phBuffer);
#endif
IMG_IMPORT
PVRSRV_ERROR IMG_CALLCONV PVRSRVSwapToDCBuffer (IMG_HANDLE hDevice,
#if defined (SUPPORT_SID_INTERFACE)
IMG_SID hBuffer,
#else
IMG_HANDLE hBuffer,
#endif
IMG_UINT32 ui32ClipRectCount,
IMG_RECT *psClipRect,
IMG_UINT32 ui32SwapInterval,
#if defined (SUPPORT_SID_INTERFACE)
IMG_SID hPrivateTag);
#else
IMG_HANDLE hPrivateTag);
#endif
IMG_IMPORT
PVRSRV_ERROR IMG_CALLCONV PVRSRVSwapToDCSystem (IMG_HANDLE hDevice,
#if defined (SUPPORT_SID_INTERFACE)
IMG_SID hSwapChain);
#else
IMG_HANDLE hSwapChain);
#endif
IMG_IMPORT
IMG_HANDLE IMG_CALLCONV PVRSRVOpenBCDevice(IMG_CONST PVRSRV_DEV_DATA *psDevData,
IMG_UINT32 ui32DeviceID);
IMG_IMPORT
PVRSRV_ERROR IMG_CALLCONV PVRSRVCloseBCDevice(IMG_CONST PVRSRV_CONNECTION *psConnection,
IMG_HANDLE hDevice);
IMG_IMPORT
PVRSRV_ERROR IMG_CALLCONV PVRSRVGetBCBufferInfo(IMG_HANDLE hDevice,
BUFFER_INFO *psBuffer);
IMG_IMPORT
PVRSRV_ERROR IMG_CALLCONV PVRSRVGetBCBuffer(IMG_HANDLE hDevice,
IMG_UINT32 ui32BufferIndex,
#if defined (SUPPORT_SID_INTERFACE)
IMG_SID *phBuffer);
#else
IMG_HANDLE *phBuffer);
#endif
IMG_IMPORT
PVRSRV_ERROR IMG_CALLCONV PVRSRVPDumpInit(IMG_CONST PVRSRV_CONNECTION *psConnection);
IMG_IMPORT
PVRSRV_ERROR IMG_CALLCONV PVRSRVPDumpStartInitPhase(IMG_CONST PVRSRV_CONNECTION *psConnection);
IMG_IMPORT
PVRSRV_ERROR IMG_CALLCONV PVRSRVPDumpStopInitPhase(IMG_CONST PVRSRV_CONNECTION *psConnection);
IMG_IMPORT
PVRSRV_ERROR IMG_CALLCONV PVRSRVPDumpSyncPol(IMG_CONST PVRSRV_CONNECTION *psConnection,
#if defined (SUPPORT_SID_INTERFACE)
IMG_SID hKernelSyncInfo,
#else
PVRSRV_CLIENT_SYNC_INFO *psClientSyncInfo,
#endif
IMG_BOOL bIsRead,
IMG_UINT32 ui32Value,
IMG_UINT32 ui32Mask);
IMG_IMPORT
PVRSRV_ERROR IMG_CALLCONV PVRSRVPDumpSyncPol2(IMG_CONST PVRSRV_CONNECTION *psConnection,
#if defined (SUPPORT_SID_INTERFACE)
IMG_SID hKernelSyncInfo,
#else
PVRSRV_CLIENT_SYNC_INFO *psClientSyncInfo,
#endif
IMG_BOOL bIsRead);
IMG_IMPORT
PVRSRV_ERROR IMG_CALLCONV PVRSRVPDumpMem(IMG_CONST PVRSRV_CONNECTION *psConnection,
IMG_PVOID pvAltLinAddr,
PVRSRV_CLIENT_MEM_INFO *psMemInfo,
IMG_UINT32 ui32Offset,
IMG_UINT32 ui32Bytes,
IMG_UINT32 ui32Flags);
IMG_IMPORT
PVRSRV_ERROR IMG_CALLCONV PVRSRVPDumpSync(IMG_CONST PVRSRV_CONNECTION *psConnection,
IMG_PVOID pvAltLinAddr,
PVRSRV_CLIENT_SYNC_INFO *psClientSyncInfo,
IMG_UINT32 ui32Offset,
IMG_UINT32 ui32Bytes);
IMG_IMPORT
PVRSRV_ERROR IMG_CALLCONV PVRSRVPDumpReg(IMG_CONST PVRSRV_DEV_DATA *psDevData,
IMG_CHAR *pszRegRegion,
IMG_UINT32 ui32RegAddr,
IMG_UINT32 ui32RegValue,
IMG_UINT32 ui32Flags);
IMG_IMPORT
PVRSRV_ERROR IMG_CALLCONV PVRSRVPDumpRegPolWithFlags(const PVRSRV_DEV_DATA *psDevData,
IMG_CHAR *pszRegRegion,
IMG_UINT32 ui32RegAddr,
IMG_UINT32 ui32RegValue,
IMG_UINT32 ui32Mask,
IMG_UINT32 ui32Flags);
IMG_IMPORT
PVRSRV_ERROR IMG_CALLCONV PVRSRVPDumpRegPol(const PVRSRV_DEV_DATA *psDevData,
IMG_CHAR *pszRegRegion,
IMG_UINT32 ui32RegAddr,
IMG_UINT32 ui32RegValue,
IMG_UINT32 ui32Mask);
IMG_IMPORT
PVRSRV_ERROR IMG_CALLCONV PVRSRVPDumpPDReg(IMG_CONST PVRSRV_CONNECTION *psConnection,
IMG_UINT32 ui32RegAddr,
IMG_UINT32 ui32RegValue);
IMG_IMPORT
PVRSRV_ERROR IMG_CALLCONV PVRSRVPDumpPDDevPAddr(IMG_CONST PVRSRV_CONNECTION *psConnection,
PVRSRV_CLIENT_MEM_INFO *psMemInfo,
IMG_UINT32 ui32Offset,
IMG_DEV_PHYADDR sPDDevPAddr);
#if !defined(USE_CODE)
IMG_IMPORT
PVRSRV_ERROR IMG_CALLCONV PVRSRVPDumpMemPages(IMG_CONST PVRSRV_DEV_DATA *psDevData,
#if defined (SUPPORT_SID_INTERFACE)
IMG_SID hKernelMemInfo,
#else
IMG_HANDLE hKernelMemInfo,
#endif
IMG_DEV_PHYADDR *pPages,
IMG_UINT32 ui32NumPages,
IMG_DEV_VIRTADDR sDevVAddr,
IMG_UINT32 ui32Start,
IMG_UINT32 ui32Length,
IMG_UINT32 ui32Flags);
#endif
IMG_IMPORT
PVRSRV_ERROR IMG_CALLCONV PVRSRVPDumpSetFrame(IMG_CONST PVRSRV_CONNECTION *psConnection,
IMG_UINT32 ui32Frame);
IMG_IMPORT
PVRSRV_ERROR IMG_CALLCONV PVRSRVPDumpComment(IMG_CONST PVRSRV_CONNECTION *psConnection,
IMG_CONST IMG_CHAR *pszComment,
IMG_BOOL bContinuous);
IMG_IMPORT
PVRSRV_ERROR IMG_CALLCONV PVRSRVPDumpCommentf(IMG_CONST PVRSRV_CONNECTION *psConnection,
IMG_BOOL bContinuous,
IMG_CONST IMG_CHAR *pszFormat, ...)
#if !defined(USE_CODE)
IMG_FORMAT_PRINTF(3, 4)
#endif
;
IMG_IMPORT
PVRSRV_ERROR IMG_CALLCONV PVRSRVPDumpCommentWithFlagsf(IMG_CONST PVRSRV_CONNECTION *psConnection,
IMG_UINT32 ui32Flags,
IMG_CONST IMG_CHAR *pszFormat, ...)
#if !defined(USE_CODE)
IMG_FORMAT_PRINTF(3, 4)
#endif
;
IMG_IMPORT
PVRSRV_ERROR IMG_CALLCONV PVRSRVPDumpDriverInfo(IMG_CONST PVRSRV_CONNECTION *psConnection,
IMG_CHAR *pszString,
IMG_BOOL bContinuous);
IMG_IMPORT
PVRSRV_ERROR IMG_CALLCONV PVRSRVPDumpIsCapturing(IMG_CONST PVRSRV_CONNECTION *psConnection,
IMG_BOOL *pbIsCapturing);
IMG_IMPORT
PVRSRV_ERROR IMG_CALLCONV PVRSRVPDumpRegRead(IMG_CONST PVRSRV_DEV_DATA *psDevData,
IMG_CONST IMG_CHAR *pszRegRegion,
IMG_CONST IMG_CHAR *pszFileName,
IMG_UINT32 ui32FileOffset,
IMG_UINT32 ui32Address,
IMG_UINT32 ui32Size,
IMG_UINT32 ui32PDumpFlags);
IMG_IMPORT
IMG_BOOL IMG_CALLCONV PVRSRVPDumpIsCapturingTest(IMG_CONST PVRSRV_CONNECTION *psConnection);
IMG_IMPORT
PVRSRV_ERROR IMG_CALLCONV PVRSRVPDumpCycleCountRegRead(IMG_CONST PVRSRV_DEV_DATA *psDevData,
IMG_UINT32 ui32RegOffset,
IMG_BOOL bLastFrame);
IMG_IMPORT IMG_HANDLE PVRSRVLoadLibrary(const IMG_CHAR *pszLibraryName);
IMG_IMPORT PVRSRV_ERROR PVRSRVUnloadLibrary(IMG_HANDLE hExtDrv);
IMG_IMPORT PVRSRV_ERROR PVRSRVGetLibFuncAddr(IMG_HANDLE hExtDrv, const IMG_CHAR *pszFunctionName, IMG_VOID **ppvFuncAddr);
IMG_IMPORT IMG_UINT32 PVRSRVClockus (void);
IMG_IMPORT IMG_VOID PVRSRVWaitus (IMG_UINT32 ui32Timeus);
IMG_IMPORT IMG_VOID PVRSRVReleaseThreadQuanta (void);
IMG_IMPORT IMG_UINT32 IMG_CALLCONV PVRSRVGetCurrentProcessID(void);
IMG_IMPORT IMG_CHAR * IMG_CALLCONV PVRSRVSetLocale(const IMG_CHAR *pszLocale);
IMG_IMPORT IMG_VOID IMG_CALLCONV PVRSRVCreateAppHintState(IMG_MODULE_ID eModuleID,
const IMG_CHAR *pszAppName,
IMG_VOID **ppvState);
IMG_IMPORT IMG_VOID IMG_CALLCONV PVRSRVFreeAppHintState(IMG_MODULE_ID eModuleID,
IMG_VOID *pvHintState);
IMG_IMPORT IMG_BOOL IMG_CALLCONV PVRSRVGetAppHint(IMG_VOID *pvHintState,
const IMG_CHAR *pszHintName,
IMG_DATA_TYPE eDataType,
const IMG_VOID *pvDefault,
IMG_VOID *pvReturn);
IMG_IMPORT IMG_PVOID IMG_CALLCONV PVRSRVAllocUserModeMem (IMG_SIZE_T ui32Size);
IMG_IMPORT IMG_PVOID IMG_CALLCONV PVRSRVCallocUserModeMem (IMG_SIZE_T ui32Size);
IMG_IMPORT IMG_PVOID IMG_CALLCONV PVRSRVReallocUserModeMem (IMG_PVOID pvBase, IMG_SIZE_T uNewSize);
IMG_IMPORT IMG_VOID IMG_CALLCONV PVRSRVFreeUserModeMem (IMG_PVOID pvMem);
IMG_IMPORT IMG_VOID PVRSRVMemCopy(IMG_VOID *pvDst, const IMG_VOID *pvSrc, IMG_SIZE_T ui32Size);
IMG_IMPORT IMG_VOID PVRSRVMemSet(IMG_VOID *pvDest, IMG_UINT8 ui8Value, IMG_SIZE_T ui32Size);
struct _PVRSRV_MUTEX_OPAQUE_STRUCT_;
typedef struct _PVRSRV_MUTEX_OPAQUE_STRUCT_ *PVRSRV_MUTEX_HANDLE;
IMG_IMPORT PVRSRV_ERROR IMG_CALLCONV PVRSRVCreateMutex(PVRSRV_MUTEX_HANDLE *phMutex);
IMG_IMPORT PVRSRV_ERROR IMG_CALLCONV PVRSRVDestroyMutex(PVRSRV_MUTEX_HANDLE hMutex);
IMG_IMPORT IMG_VOID IMG_CALLCONV PVRSRVLockMutex(PVRSRV_MUTEX_HANDLE hMutex);
IMG_IMPORT IMG_VOID IMG_CALLCONV PVRSRVUnlockMutex(PVRSRV_MUTEX_HANDLE hMutex);
IMG_IMPORT IMG_VOID IMG_CALLCONV PVRSRVLockProcessGlobalMutex(void);
IMG_IMPORT IMG_VOID IMG_CALLCONV PVRSRVUnlockProcessGlobalMutex(void);
struct _PVRSRV_SEMAPHORE_OPAQUE_STRUCT_;
typedef struct _PVRSRV_SEMAPHORE_OPAQUE_STRUCT_ *PVRSRV_SEMAPHORE_HANDLE;
#define IMG_SEMAPHORE_WAIT_INFINITE ((IMG_UINT64)0xFFFFFFFFFFFFFFFFull)
#if !defined(USE_CODE)
#ifdef INLINE_IS_PRAGMA
#pragma inline(PVRSRVCreateSemaphore)
#endif
static INLINE PVRSRV_ERROR PVRSRVCreateSemaphore(PVRSRV_SEMAPHORE_HANDLE *phSemaphore, IMG_INT iInitialCount)
{
PVR_UNREFERENCED_PARAMETER(iInitialCount);
*phSemaphore = 0;
return PVRSRV_OK;
}
#ifdef INLINE_IS_PRAGMA
#pragma inline(PVRSRVDestroySemaphore)
#endif
static INLINE PVRSRV_ERROR PVRSRVDestroySemaphore(PVRSRV_SEMAPHORE_HANDLE hSemaphore)
{
PVR_UNREFERENCED_PARAMETER(hSemaphore);
return PVRSRV_OK;
}
#ifdef INLINE_IS_PRAGMA
#pragma inline(PVRSRVWaitSemaphore)
#endif
static INLINE PVRSRV_ERROR PVRSRVWaitSemaphore(PVRSRV_SEMAPHORE_HANDLE hSemaphore, IMG_UINT64 ui64TimeoutMicroSeconds)
{
PVR_UNREFERENCED_PARAMETER(hSemaphore);
PVR_UNREFERENCED_PARAMETER(ui64TimeoutMicroSeconds);
return PVRSRV_ERROR_INVALID_PARAMS;
}
#ifdef INLINE_IS_PRAGMA
#pragma inline(PVRSRVPostSemaphore)
#endif
static INLINE IMG_VOID PVRSRVPostSemaphore(PVRSRV_SEMAPHORE_HANDLE hSemaphore, IMG_INT iPostCount)
{
PVR_UNREFERENCED_PARAMETER(hSemaphore);
PVR_UNREFERENCED_PARAMETER(iPostCount);
}
#endif
#if (defined(DEBUG) && defined(__linux__))
IMG_IMPORT IMG_PVOID IMG_CALLCONV PVRSRVAllocUserModeMemTracking(IMG_SIZE_T ui32Size, IMG_CHAR *pszFileName, IMG_UINT32 ui32LineNumber);
IMG_IMPORT IMG_PVOID IMG_CALLCONV PVRSRVCallocUserModeMemTracking(IMG_SIZE_T ui32Size, IMG_CHAR *pszFileName, IMG_UINT32 ui32LineNumber);
IMG_IMPORT IMG_VOID IMG_CALLCONV PVRSRVFreeUserModeMemTracking(IMG_VOID *pvMem);
IMG_IMPORT IMG_PVOID IMG_CALLCONV PVRSRVReallocUserModeMemTracking(IMG_VOID *pvMem, IMG_SIZE_T ui32NewSize,
IMG_CHAR *pszFileName, IMG_UINT32 ui32LineNumber);
#endif
IMG_IMPORT PVRSRV_ERROR PVRSRVEventObjectWait(const PVRSRV_CONNECTION *psConnection,
#if defined (SUPPORT_SID_INTERFACE)
IMG_EVENTSID hOSEvent);
#else
IMG_HANDLE hOSEvent);
#endif
IMG_IMPORT
PVRSRV_ERROR IMG_CALLCONV PVRSRVCreateSyncInfoModObj(const PVRSRV_CONNECTION *psConnection,
#if defined (SUPPORT_SID_INTERFACE)
IMG_SID *phKernelSyncInfoModObj);
#else
IMG_HANDLE *phKernelSyncInfoModObj);
#endif
IMG_IMPORT
PVRSRV_ERROR IMG_CALLCONV PVRSRVDestroySyncInfoModObj(const PVRSRV_CONNECTION *psConnection,
#if defined (SUPPORT_SID_INTERFACE)
IMG_SID hKernelSyncInfoModObj);
#else
IMG_HANDLE hKernelSyncInfoModObj);
#endif
IMG_IMPORT
PVRSRV_ERROR IMG_CALLCONV PVRSRVModifyPendingSyncOps(const PVRSRV_CONNECTION *psConnection,
#if defined (SUPPORT_SID_INTERFACE)
IMG_SID hKernelSyncInfoModObj,
#else
IMG_HANDLE hKernelSyncInfoModObj,
#endif
PVRSRV_CLIENT_SYNC_INFO *psSyncInfo,
IMG_UINT32 ui32ModifyFlags,
IMG_UINT32 *pui32ReadOpsPending,
IMG_UINT32 *pui32WriteOpsPending);
IMG_IMPORT
PVRSRV_ERROR IMG_CALLCONV PVRSRVModifyCompleteSyncOps(const PVRSRV_CONNECTION *psConnection,
#if defined (SUPPORT_SID_INTERFACE)
IMG_SID hKernelSyncInfoModObj);
#else
IMG_HANDLE hKernelSyncInfoModObj);
#endif
IMG_IMPORT
PVRSRV_ERROR IMG_CALLCONV PVRSRVSyncOpsTakeToken(const PVRSRV_CONNECTION *psConnection,
#if defined (SUPPORT_SID_INTERFACE)
const IMG_SID hKernelSyncInfo,
#else
const PVRSRV_CLIENT_SYNC_INFO *psSyncInfo,
#endif
PVRSRV_SYNC_TOKEN *psSyncToken);
IMG_IMPORT
PVRSRV_ERROR IMG_CALLCONV PVRSRVSyncOpsFlushToToken(const PVRSRV_CONNECTION *psConnection,
#if defined (SUPPORT_SID_INTERFACE)
const IMG_SID hKernelSyncInfo,
#else
const PVRSRV_CLIENT_SYNC_INFO *psSyncInfo,
#endif
const PVRSRV_SYNC_TOKEN *psSyncToken,
IMG_BOOL bWait);
IMG_IMPORT
PVRSRV_ERROR IMG_CALLCONV PVRSRVSyncOpsFlushToModObj(const PVRSRV_CONNECTION *psConnection,
#if defined (SUPPORT_SID_INTERFACE)
IMG_SID hKernelSyncInfoModObj,
#else
IMG_HANDLE hKernelSyncInfoModObj,
#endif
IMG_BOOL bWait);
IMG_IMPORT
PVRSRV_ERROR IMG_CALLCONV PVRSRVSyncOpsFlushToDelta(const PVRSRV_CONNECTION *psConnection,
PVRSRV_CLIENT_SYNC_INFO *psClientSyncInfo,
IMG_UINT32 ui32Delta,
IMG_BOOL bWait);
IMG_IMPORT
PVRSRV_ERROR IMG_CALLCONV PVRSRVAllocSyncInfo(IMG_CONST PVRSRV_DEV_DATA *psDevData,
PVRSRV_CLIENT_SYNC_INFO **ppsSyncInfo);
IMG_IMPORT
PVRSRV_ERROR IMG_CALLCONV PVRSRVFreeSyncInfo(IMG_CONST PVRSRV_DEV_DATA *psDevData,
PVRSRV_CLIENT_SYNC_INFO *psSyncInfo);
IMG_IMPORT
const IMG_CHAR *PVRSRVGetErrorString(PVRSRV_ERROR eError);
#define TIME_NOT_PASSED_UINT32(a,b,c) (((a) - (b)) < (c))
#if defined (__cplusplus)
}
#endif
#endif