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nest-open-source / nest-learning-thermostat / 5.2 / gpulibs / bc119e03260f07988f7e3c2e6eb000f54844f257 / . / fsl / gc400 / 1.0 / include / HAL / gc_hal_vg.h
blob: 25e7e5a2ef772c079195476250d0660bfbde7a5e [file] [log] [blame]
/****************************************************************************
*
* Copyright (c) 2005 - 2014 by Vivante Corp. All rights reserved.
*
* The material in this file is confidential and contains trade secrets
* of Vivante Corporation. This is proprietary information owned by
* Vivante Corporation. No part of this work may be disclosed,
* reproduced, copied, transmitted, or used in any way for any purpose,
* without the express written permission of Vivante Corporation.
*
*****************************************************************************/
#ifndef __gc_hal_vg_h_
#define __gc_hal_vg_h_
#ifdef __cplusplus
extern "C" {
#endif
#include "gc_hal_rename.h"
#include "gc_hal_types.h"
#include "gc_hal_enum.h"
#include "gc_hal_base.h"
#if gcdENABLE_VG
/* Thread routine type. */
#if defined(LINUX)
typedef gctINT gctTHREADFUNCRESULT;
typedef gctPOINTER gctTHREADFUNCPARAMETER;
# define gctTHREADFUNCTYPE
#elif defined(WIN32)
typedef gctUINT gctTHREADFUNCRESULT;
typedef gctPOINTER gctTHREADFUNCPARAMETER;
# define gctTHREADFUNCTYPE __stdcall
#elif defined(__QNXNTO__)
typedef void * gctTHREADFUNCRESULT;
typedef gctPOINTER gctTHREADFUNCPARAMETER;
# define gctTHREADFUNCTYPE
#endif
typedef gctTHREADFUNCRESULT (gctTHREADFUNCTYPE * gctTHREADFUNC) (
gctTHREADFUNCPARAMETER ThreadParameter
);
#if defined(gcvDEBUG)
# undef gcvDEBUG
#endif
#define gcdFORCE_DEBUG 0
#define gcdFORCE_MESSAGES 0
#if DBG || defined(DEBUG) || defined(_DEBUG) || gcdFORCE_DEBUG
# define gcvDEBUG 1
#else
# define gcvDEBUG 0
#endif
#define _gcmERROR_RETURN(prefix, func) \
status = func; \
if (gcmIS_ERROR(status)) \
{ \
prefix##PRINT_VERSION(); \
prefix##TRACE(gcvLEVEL_ERROR, \
#prefix "ERR_RETURN: status=%d(%s) @ %s(%d)", \
status, gcoOS_DebugStatus2Name(status), __FUNCTION__, __LINE__); \
return status; \
} \
do { } while (gcvFALSE)
#define gcmERROR_RETURN(func) _gcmERROR_RETURN(gcm, func)
#define gcmLOG_LOCATION()
#define gcmkIS_ERROR(status) (status < 0)
#define gcmALIGNDOWN(n, align) \
( \
(n) & ~((align) - 1) \
)
#define gcmIS_VALID_INDEX(Index, Array) \
(((gctUINT) (Index)) < gcmCOUNTOF(Array))
#define gcmIS_NAN(x) \
( \
((* (gctUINT32_PTR) &(x)) & 0x7FFFFFFF) == 0x7FFFFFFF \
)
#define gcmLERP(v1, v2, w) \
((v1) * (w) + (v2) * (1.0f - (w)))
#define gcmINTERSECT(Start1, Start2, Length) \
(gcmABS((Start1) - (Start2)) < (Length))
/*******************************************************************************
**
** gcmERR_GOTO
**
** Prints a message and terminates the current loop on error.
**
** ASSUMPTIONS:
**
** 'status' variable of gceSTATUS type must be defined.
**
** ARGUMENTS:
**
** Function
** Function to evaluate.
*/
#define gcmERR_GOTO(Function) \
status = Function; \
if (gcmIS_ERROR(status)) \
{ \
gcmTRACE( \
gcvLEVEL_ERROR, \
"gcmERR_GOTO: status=%d @ line=%d in function %s.\n", \
status, __LINE__, __FUNCTION__ \
); \
goto ErrorHandler; \
}
#if gcvDEBUG || gcdFORCE_MESSAGES
# define gcmVERIFY_BOOLEAN(Expression) \
gcmASSERT( \
( (Expression) == gcvFALSE ) || \
( (Expression) == gcvTRUE ) \
)
#else
# define gcmVERIFY_BOOLEAN(Expression)
#endif
/*******************************************************************************
**
** gcmVERIFYFIELDFIT
**
** Verify whether the value fits in the field.
**
** ARGUMENTS:
**
** data Data value.
** reg Name of register.
** field Name of field within register.
** value Value for field.
*/
#define gcmVERIFYFIELDFIT(reg, field, value) \
gcmASSERT( \
(value) <= gcmFIELDMAX(reg, field) \
)
/*******************************************************************************
**
** gcmFIELDMAX
**
** Get field maximum value.
**
** ARGUMENTS:
**
** reg Name of register.
** field Name of field within register.
*/
#define gcmFIELDMAX(reg, field) \
( \
(gctUINT32) \
( \
(__gcmGETSIZE(reg##_##field) == 32) \
? ~0 \
: (~(~0 << __gcmGETSIZE(reg##_##field))) \
) \
)
/* ANSI C does not have the 'f' functions, define replacements here. */
#define gcmSINF(x) ((gctFLOAT) sin(x))
#define gcmCOSF(x) ((gctFLOAT) cos(x))
#define gcmASINF(x) ((gctFLOAT) asin(x))
#define gcmACOSF(x) ((gctFLOAT) acos(x))
#define gcmSQRTF(x) ((gctFLOAT) sqrt(x))
#define gcmFABSF(x) ((gctFLOAT) fabs(x))
#define gcmFMODF(x, y) ((gctFLOAT) fmod((x), (y)))
#define gcmCEILF(x) ((gctFLOAT) ceil(x))
#define gcmFLOORF(x) ((gctFLOAT) floor(x))
/* Fixed point constants. */
#define gcvZERO_X ((gctFIXED_POINT) 0x00000000)
#define gcvHALF_X ((gctFIXED_POINT) 0x00008000)
#define gcvONE_X ((gctFIXED_POINT) 0x00010000)
#define gcvNEGONE_X ((gctFIXED_POINT) 0xFFFF0000)
#define gcvTWO_X ((gctFIXED_POINT) 0x00020000)
/* Integer constants. */
#define gcvMAX_POS_INT ((gctINT) 0x7FFFFFFF)
#define gcvMAX_NEG_INT ((gctINT) 0x80000000)
/* Float constants. */
#define gcvMAX_POS_FLOAT ((gctFLOAT) 3.4028235e+038)
#define gcvMAX_NEG_FLOAT ((gctFLOAT) -3.4028235e+038)
/******************************************************************************\
***************************** Miscellaneous Macro ******************************
\******************************************************************************/
#define gcmKB2BYTES(Kilobyte) \
( \
(Kilobyte) << 10 \
)
#define gcmMB2BYTES(Megabyte) \
( \
(Megabyte) << 20 \
)
#define gcmMAT(Matrix, Row, Column) \
( \
(Matrix) [(Row) * 3 + (Column)] \
)
#define gcmMAKE2CHAR(Char1, Char2) \
( \
((gctUINT16) (gctUINT8) (Char1) << 0) | \
((gctUINT16) (gctUINT8) (Char2) << 8) \
)
#define gcmMAKE4CHAR(Char1, Char2, Char3, Char4) \
( \
((gctUINT32)(gctUINT8) (Char1) << 0) | \
((gctUINT32)(gctUINT8) (Char2) << 8) | \
((gctUINT32)(gctUINT8) (Char3) << 16) | \
((gctUINT32)(gctUINT8) (Char4) << 24) \
)
/* some platforms need to fix the physical address for HW to access*/
#define gcmFIXADDRESS(address) \
(\
(address)\
)
#define gcmkFIXADDRESS(address) \
(\
(address)\
)
/******************************************************************************\
****************************** Kernel Debug Macro ******************************
\******************************************************************************/
/* Set signal to signaled state for specified process. */
gceSTATUS
gckOS_SetSignal(
IN gckOS Os,
IN gctHANDLE Process,
IN gctSIGNAL Signal
);
/* Return the kernel logical pointer for the given physical one. */
gceSTATUS
gckOS_GetKernelLogical(
IN gckOS Os,
IN gctUINT32 Address,
OUT gctPOINTER * KernelPointer
);
/* Return the kernel logical pointer for the given physical one. */
gceSTATUS
gckOS_GetKernelLogicalEx(
IN gckOS Os,
IN gceCORE Core,
IN gctUINT32 Address,
OUT gctPOINTER * KernelPointer
);
/*----------------------------------------------------------------------------*/
/*----------------------------- Semaphore Object -----------------------------*/
/* Increment the value of a semaphore. */
gceSTATUS
gckOS_IncrementSemaphore(
IN gckOS Os,
IN gctSEMAPHORE Semaphore
);
/* Decrement the value of a semaphore (waiting might occur). */
gceSTATUS
gckOS_DecrementSemaphore(
IN gckOS Os,
IN gctSEMAPHORE Semaphore
);
/*----------------------------------------------------------------------------*/
/*------------------------------- Thread Object ------------------------------*/
/* Start a thread. */
gceSTATUS
gckOS_StartThread(
IN gckOS Os,
IN gctTHREADFUNC ThreadFunction,
IN gctPOINTER ThreadParameter,
OUT gctTHREAD * Thread
);
/* Stop a thread. */
gceSTATUS
gckOS_StopThread(
IN gckOS Os,
IN gctTHREAD Thread
);
/* Verify whether the thread is still running. */
gceSTATUS
gckOS_VerifyThread(
IN gckOS Os,
IN gctTHREAD Thread
);
/* Construct a new gckVGKERNEL object. */
gceSTATUS
gckVGKERNEL_Construct(
IN gckOS Os,
IN gctPOINTER Context,
IN gckKERNEL inKernel,
OUT gckVGKERNEL * Kernel
);
/* Destroy an gckVGKERNEL object. */
gceSTATUS
gckVGKERNEL_Destroy(
IN gckVGKERNEL Kernel
);
/* Allocate linear video memory. */
gceSTATUS
gckVGKERNEL_AllocateLinearMemory(
IN gckKERNEL Kernel,
IN OUT gcePOOL * Pool,
IN gctSIZE_T Bytes,
IN gctUINT32 Alignment,
IN gceSURF_TYPE Type,
OUT gcuVIDMEM_NODE_PTR * Node
);
/* Unmap memory. */
gceSTATUS
gckKERNEL_UnmapMemory(
IN gckKERNEL Kernel,
IN gctPHYS_ADDR Physical,
IN gctSIZE_T Bytes,
IN gctPOINTER Logical
);
/* Dispatch a user-level command. */
gceSTATUS
gckVGKERNEL_Dispatch(
IN gckKERNEL Kernel,
IN gctBOOL FromUser,
IN OUT struct _gcsHAL_INTERFACE * Interface
);
/* Query command buffer requirements. */
gceSTATUS
gckKERNEL_QueryCommandBuffer(
IN gckKERNEL Kernel,
OUT gcsCOMMAND_BUFFER_INFO_PTR Information
);
/******************************************************************************\
******************************* gckVGHARDWARE Object ******************************
\******************************************************************************/
/* Construct a new gckVGHARDWARE object. */
gceSTATUS
gckVGHARDWARE_Construct(
IN gckOS Os,
OUT gckVGHARDWARE * Hardware
);
/* Destroy an gckVGHARDWARE object. */
gceSTATUS
gckVGHARDWARE_Destroy(
IN gckVGHARDWARE Hardware
);
/* Query system memory requirements. */
gceSTATUS
gckVGHARDWARE_QuerySystemMemory(
IN gckVGHARDWARE Hardware,
OUT gctSIZE_T * SystemSize,
OUT gctUINT32 * SystemBaseAddress
);
/* Build virtual address. */
gceSTATUS
gckVGHARDWARE_BuildVirtualAddress(
IN gckVGHARDWARE Hardware,
IN gctUINT32 Index,
IN gctUINT32 Offset,
OUT gctUINT32 * Address
);
/* Kickstart the command processor. */
gceSTATUS
gckVGHARDWARE_Execute(
IN gckVGHARDWARE Hardware,
IN gctUINT32 Address,
IN gctUINT32 Count
);
/* Query the available memory. */
gceSTATUS
gckVGHARDWARE_QueryMemory(
IN gckVGHARDWARE Hardware,
OUT gctSIZE_T * InternalSize,
OUT gctUINT32 * InternalBaseAddress,
OUT gctUINT32 * InternalAlignment,
OUT gctSIZE_T * ExternalSize,
OUT gctUINT32 * ExternalBaseAddress,
OUT gctUINT32 * ExternalAlignment,
OUT gctUINT32 * HorizontalTileSize,
OUT gctUINT32 * VerticalTileSize
);
/* Query the identity of the hardware. */
gceSTATUS
gckVGHARDWARE_QueryChipIdentity(
IN gckVGHARDWARE Hardware,
OUT gceCHIPMODEL* ChipModel,
OUT gctUINT32* ChipRevision,
OUT gctUINT32* ChipFeatures,
OUT gctUINT32* ChipMinorFeatures,
OUT gctUINT32* ChipMinorFeatures1
);
/* Convert an API format. */
gceSTATUS
gckVGHARDWARE_ConvertFormat(
IN gckVGHARDWARE Hardware,
IN gceSURF_FORMAT Format,
OUT gctUINT32 * BitsPerPixel,
OUT gctUINT32 * BytesPerTile
);
/* Split a harwdare specific address into API stuff. */
gceSTATUS
gckVGHARDWARE_SplitMemory(
IN gckVGHARDWARE Hardware,
IN gctUINT32 Address,
OUT gcePOOL * Pool,
OUT gctUINT32 * Offset
);
/* Align size to tile boundary. */
gceSTATUS
gckVGHARDWARE_AlignToTile(
IN gckVGHARDWARE Hardware,
IN gceSURF_TYPE Type,
IN OUT gctUINT32_PTR Width,
IN OUT gctUINT32_PTR Height
);
/* Convert logical address to hardware specific address. */
gceSTATUS
gckVGHARDWARE_ConvertLogical(
IN gckVGHARDWARE Hardware,
IN gctPOINTER Logical,
IN gctBOOL InUserSpace,
OUT gctUINT32 * Address
);
/* Program MMU. */
gceSTATUS
gckVGHARDWARE_SetMMU(
IN gckVGHARDWARE Hardware,
IN gctPOINTER Logical
);
/* Flush the MMU. */
gceSTATUS
gckVGHARDWARE_FlushMMU(
IN gckVGHARDWARE Hardware
);
/* Get idle register. */
gceSTATUS
gckVGHARDWARE_GetIdle(
IN gckVGHARDWARE Hardware,
OUT gctUINT32 * Data
);
/* Flush the caches. */
gceSTATUS
gckVGHARDWARE_Flush(
IN gckVGHARDWARE Hardware,
IN gceKERNEL_FLUSH Flush,
IN gctPOINTER Logical,
IN OUT gctSIZE_T * Bytes
);
/* Enable/disable fast clear. */
gceSTATUS
gckVGHARDWARE_SetFastClear(
IN gckVGHARDWARE Hardware,
IN gctINT Enable
);
gceSTATUS
gckVGHARDWARE_ReadInterrupt(
IN gckVGHARDWARE Hardware,
OUT gctUINT32_PTR IDs
);
/* Power management. */
gceSTATUS
gckVGHARDWARE_SetPowerManagementState(
IN gckVGHARDWARE Hardware,
IN gceCHIPPOWERSTATE State
);
gceSTATUS
gckVGHARDWARE_QueryPowerManagementState(
IN gckVGHARDWARE Hardware,
OUT gceCHIPPOWERSTATE* State
);
gceSTATUS
gckVGHARDWARE_SetPowerManagement(
IN gckVGHARDWARE Hardware,
IN gctBOOL PowerManagement
);
gceSTATUS
gckVGHARDWARE_SetPowerOffTimeout(
IN gckVGHARDWARE Hardware,
IN gctUINT32 Timeout
);
gceSTATUS
gckVGHARDWARE_QueryPowerOffTimeout(
IN gckVGHARDWARE Hardware,
OUT gctUINT32* Timeout
);
gceSTATUS
gckVGHARDWARE_QueryIdle(
IN gckVGHARDWARE Hardware,
OUT gctBOOL_PTR IsIdle
);
/******************************************************************************\
*************************** Command Buffer Structures **************************
\******************************************************************************/
/* Vacant command buffer marker. */
#define gcvVACANT_BUFFER ((gcsCOMPLETION_SIGNAL_PTR) ((gctSIZE_T)1))
/* Command buffer header. */
typedef struct _gcsCMDBUFFER * gcsCMDBUFFER_PTR;
typedef struct _gcsCMDBUFFER
{
/* Pointer to the completion signal. */
gcsCOMPLETION_SIGNAL_PTR completion;
/* The user sets this to the node of the container buffer whitin which
this particular command buffer resides. The kernel sets this to the
node of the internally allocated buffer. */
gcuVIDMEM_NODE_PTR node;
/* Command buffer hardware address. */
gctUINT32 address;
/* The offset of the buffer from the beginning of the header. */
gctUINT32 bufferOffset;
/* Size of the area allocated for the data portion of this particular
command buffer (headers and tail reserves are excluded). */
gctUINT32 size;
/* Offset into the buffer [0..size]; reflects exactly how much data has
been put into the command buffer. */
gctUINT offset;
/* The number of command units in the buffer for the hardware to
execute. */
gctUINT32 dataCount;
/* MANAGED BY : user HAL (gcoBUFFER object).
USED BY : user HAL (gcoBUFFER object).
Points to the immediate next allocated command buffer. */
gcsCMDBUFFER_PTR nextAllocated;
/* MANAGED BY : user layers (HAL and drivers).
USED BY : kernel HAL (gcoBUFFER object).
Points to the next subbuffer if any. A family of subbuffers are chained
together and are meant to be executed inseparably as a unit. Meaning
that context switching cannot occur while a chain of subbuffers is being
executed. */
gcsCMDBUFFER_PTR nextSubBuffer;
}
gcsCMDBUFFER;
/* Command queue element. */
typedef struct _gcsVGCMDQUEUE
{
/* Pointer to the command buffer header. */
gcsCMDBUFFER_PTR commandBuffer;
/* Dynamic vs. static command buffer state. */
gctBOOL dynamic;
}
gcsVGCMDQUEUE;
/* Context map entry. */
typedef struct _gcsVGCONTEXT_MAP
{
/* State index. */
gctUINT32 index;
/* New state value. */
gctUINT32 data;
/* Points to the next entry in the mod list. */
gcsVGCONTEXT_MAP_PTR next;
}
gcsVGCONTEXT_MAP;
/* gcsVGCONTEXT structure that holds the current context. */
typedef struct _gcsVGCONTEXT
{
/* Context ID. */
gctUINT64 id;
/* State caching ebable flag. */
gctBOOL stateCachingEnabled;
/* Current pipe. */
gctUINT32 currentPipe;
/* State map/mod buffer. */
gctUINT32 mapFirst;
gctUINT32 mapLast;
gcsVGCONTEXT_MAP_PTR mapContainer;
gcsVGCONTEXT_MAP_PTR mapPrev;
gcsVGCONTEXT_MAP_PTR mapCurr;
gcsVGCONTEXT_MAP_PTR firstPrevMap;
gcsVGCONTEXT_MAP_PTR firstCurrMap;
/* Main context buffer. */
gcsCMDBUFFER_PTR header;
gctUINT32_PTR buffer;
/* Completion signal. */
gctHANDLE process;
gctSIGNAL signal;
#if defined(__QNXNTO__)
gctINT32 coid;
gctINT32 rcvid;
#endif
}
gcsVGCONTEXT;
/* User space task header. */
typedef struct _gcsTASK * gcsTASK_PTR;
typedef struct _gcsTASK
{
/* Pointer to the next task for the same interrupt in user space. */
gcsTASK_PTR next;
/* Size of the task data that immediately follows the structure. */
gctUINT size;
/* Task data starts here. */
/* ... */
}
gcsTASK;
/* User space task master table entry. */
typedef struct _gcsTASK_MASTER_ENTRY * gcsTASK_MASTER_ENTRY_PTR;
typedef struct _gcsTASK_MASTER_ENTRY
{
/* Pointers to the head and to the tail of the task chain. */
gcsTASK_PTR head;
gcsTASK_PTR tail;
}
gcsTASK_MASTER_ENTRY;
/* User space task master table entry. */
typedef struct _gcsTASK_MASTER_TABLE
{
/* Table with one entry per block. */
gcsTASK_MASTER_ENTRY table[gcvBLOCK_COUNT];
/* The total number of tasks sckeduled. */
gctUINT count;
/* The total size of event data in bytes. */
gctUINT size;
#if defined(__QNXNTO__)
gctINT32 coid;
gctINT32 rcvid;
#endif
}
gcsTASK_MASTER_TABLE;
/******************************************************************************\
***************************** gckVGINTERRUPT Object ******************************
\******************************************************************************/
typedef struct _gckVGINTERRUPT * gckVGINTERRUPT;
typedef gceSTATUS (* gctINTERRUPT_HANDLER)(
IN gckVGKERNEL Kernel
);
gceSTATUS
gckVGINTERRUPT_Construct(
IN gckVGKERNEL Kernel,
OUT gckVGINTERRUPT * Interrupt
);
gceSTATUS
gckVGINTERRUPT_Destroy(
IN gckVGINTERRUPT Interrupt
);
gceSTATUS
gckVGINTERRUPT_Enable(
IN gckVGINTERRUPT Interrupt,
IN OUT gctINT32_PTR Id,
IN gctINTERRUPT_HANDLER Handler
);
gceSTATUS
gckVGINTERRUPT_Disable(
IN gckVGINTERRUPT Interrupt,
IN gctINT32 Id
);
#ifndef __QNXNTO__
gceSTATUS
gckVGINTERRUPT_Enque(
IN gckVGINTERRUPT Interrupt
);
#else
gceSTATUS
gckVGINTERRUPT_Enque(
IN gckVGINTERRUPT Interrupt,
OUT gckOS *Os,
OUT gctSEMAPHORE *Semaphore
);
#endif
gceSTATUS
gckVGINTERRUPT_DumpState(
IN gckVGINTERRUPT Interrupt
);
/******************************************************************************\
******************************* gckVGCOMMAND Object *******************************
\******************************************************************************/
typedef struct _gckVGCOMMAND * gckVGCOMMAND;
/* Construct a new gckVGCOMMAND object. */
gceSTATUS
gckVGCOMMAND_Construct(
IN gckVGKERNEL Kernel,
IN gctUINT TaskGranularity,
IN gctUINT QueueSize,
OUT gckVGCOMMAND * Command
);
/* Destroy an gckVGCOMMAND object. */
gceSTATUS
gckVGCOMMAND_Destroy(
IN gckVGCOMMAND Command
);
/* Query command buffer attributes. */
gceSTATUS
gckVGCOMMAND_QueryCommandBuffer(
IN gckVGCOMMAND Command,
OUT gcsCOMMAND_BUFFER_INFO_PTR Information
);
/* Allocate a command queue. */
gceSTATUS
gckVGCOMMAND_Allocate(
IN gckVGCOMMAND Command,
IN gctSIZE_T Size,
OUT gcsCMDBUFFER_PTR * CommandBuffer,
OUT gctPOINTER * Data
);
/* Release memory held by the command queue. */
gceSTATUS
gckVGCOMMAND_Free(
IN gckVGCOMMAND Command,
IN gcsCMDBUFFER_PTR CommandBuffer
);
/* Schedule the command queue for execution. */
gceSTATUS
gckVGCOMMAND_Execute(
IN gckVGCOMMAND Command,
IN gcsCMDBUFFER_PTR CommandBuffer
);
/* Commit a buffer to the command queue. */
gceSTATUS
gckVGCOMMAND_Commit(
IN gckVGCOMMAND Command,
IN gcsVGCONTEXT_PTR Context,
IN gcsVGCMDQUEUE_PTR Queue,
IN gctUINT EntryCount,
IN gcsTASK_MASTER_TABLE_PTR TaskTable
);
/******************************************************************************\
********************************* gckVGMMU Object ********************************
\******************************************************************************/
typedef struct _gckVGMMU * gckVGMMU;
/* Construct a new gckVGMMU object. */
gceSTATUS
gckVGMMU_Construct(
IN gckVGKERNEL Kernel,
IN gctUINT32 MmuSize,
OUT gckVGMMU * Mmu
);
/* Destroy an gckVGMMU object. */
gceSTATUS
gckVGMMU_Destroy(
IN gckVGMMU Mmu
);
/* Allocate pages inside the MMU. */
gceSTATUS
gckVGMMU_AllocatePages(
IN gckVGMMU Mmu,
IN gctSIZE_T PageCount,
OUT gctPOINTER * PageTable,
OUT gctUINT32 * Address
);
/* Remove a page table from the MMU. */
gceSTATUS
gckVGMMU_FreePages(
IN gckVGMMU Mmu,
IN gctPOINTER PageTable,
IN gctSIZE_T PageCount
);
/* Set the MMU page with info. */
gceSTATUS
gckVGMMU_SetPage(
IN gckVGMMU Mmu,
IN gctUINT32 PageAddress,
IN gctUINT32 *PageEntry
);
/* Flush MMU */
gceSTATUS
gckVGMMU_Flush(
IN gckVGMMU Mmu
);
#endif /* gcdENABLE_VG */
#ifdef __cplusplus
} /* extern "C" */
#endif
#endif /* __gc_hal_h_ */