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|
/****************************************************************************
*
* Copyright (C) 2005 - 2013 by Vivante Corp.
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the license, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but 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., 675 Mass Ave, Cambridge, MA 02139, USA.
*
*****************************************************************************/
#ifndef __gc_hal_kernel_h_
#define __gc_hal_kernel_h_
#include "gc_hal.h"
#include "gc_hal_kernel_hardware.h"
#include "gc_hal_driver.h"
#if gcdENABLE_VG
#include "gc_hal_kernel_vg.h"
#endif
#ifdef __cplusplus
extern "C" {
#endif
/*******************************************************************************
***** New MMU Defination *******************************************************/
#define gcdMMU_MTLB_SHIFT 22
#define gcdMMU_STLB_4K_SHIFT 12
#define gcdMMU_STLB_64K_SHIFT 16
#define gcdMMU_MTLB_BITS (32 - gcdMMU_MTLB_SHIFT)
#define gcdMMU_PAGE_4K_BITS gcdMMU_STLB_4K_SHIFT
#define gcdMMU_STLB_4K_BITS (32 - gcdMMU_MTLB_BITS - gcdMMU_PAGE_4K_BITS)
#define gcdMMU_PAGE_64K_BITS gcdMMU_STLB_64K_SHIFT
#define gcdMMU_STLB_64K_BITS (32 - gcdMMU_MTLB_BITS - gcdMMU_PAGE_64K_BITS)
#define gcdMMU_MTLB_ENTRY_NUM (1 << gcdMMU_MTLB_BITS)
#define gcdMMU_MTLB_SIZE (gcdMMU_MTLB_ENTRY_NUM << 2)
#define gcdMMU_STLB_4K_ENTRY_NUM (1 << gcdMMU_STLB_4K_BITS)
#define gcdMMU_STLB_4K_SIZE (gcdMMU_STLB_4K_ENTRY_NUM << 2)
#define gcdMMU_PAGE_4K_SIZE (1 << gcdMMU_STLB_4K_SHIFT)
#define gcdMMU_STLB_64K_ENTRY_NUM (1 << gcdMMU_STLB_64K_BITS)
#define gcdMMU_STLB_64K_SIZE (gcdMMU_STLB_64K_ENTRY_NUM << 2)
#define gcdMMU_PAGE_64K_SIZE (1 << gcdMMU_STLB_64K_SHIFT)
#define gcdMMU_MTLB_MASK (~((1U << gcdMMU_MTLB_SHIFT)-1))
#define gcdMMU_STLB_4K_MASK ((~0U << gcdMMU_STLB_4K_SHIFT) ^ gcdMMU_MTLB_MASK)
#define gcdMMU_PAGE_4K_MASK (gcdMMU_PAGE_4K_SIZE - 1)
#define gcdMMU_STLB_64K_MASK ((~((1U << gcdMMU_STLB_64K_SHIFT)-1)) ^ gcdMMU_MTLB_MASK)
#define gcdMMU_PAGE_64K_MASK (gcdMMU_PAGE_64K_SIZE - 1)
/* Page offset definitions. */
#define gcdMMU_OFFSET_4K_BITS (32 - gcdMMU_MTLB_BITS - gcdMMU_STLB_4K_BITS)
#define gcdMMU_OFFSET_4K_MASK ((1U << gcdMMU_OFFSET_4K_BITS) - 1)
#define gcdMMU_OFFSET_16K_BITS (32 - gcdMMU_MTLB_BITS - gcdMMU_STLB_16K_BITS)
#define gcdMMU_OFFSET_16K_MASK ((1U << gcdMMU_OFFSET_16K_BITS) - 1)
/*******************************************************************************
***** Process Secure Cache ****************************************************/
#define gcdSECURE_CACHE_LRU 1
#define gcdSECURE_CACHE_LINEAR 2
#define gcdSECURE_CACHE_HASH 3
#define gcdSECURE_CACHE_TABLE 4
typedef struct _gcskLOGICAL_CACHE * gcskLOGICAL_CACHE_PTR;
typedef struct _gcskLOGICAL_CACHE gcskLOGICAL_CACHE;
struct _gcskLOGICAL_CACHE
{
/* Logical address. */
gctPOINTER logical;
/* DMAable address. */
gctUINT32 dma;
#if gcdSECURE_CACHE_METHOD == gcdSECURE_CACHE_HASH
/* Pointer to the previous and next hash tables. */
gcskLOGICAL_CACHE_PTR nextHash;
gcskLOGICAL_CACHE_PTR prevHash;
#endif
#if gcdSECURE_CACHE_METHOD != gcdSECURE_CACHE_TABLE
/* Pointer to the previous and next slot. */
gcskLOGICAL_CACHE_PTR next;
gcskLOGICAL_CACHE_PTR prev;
#endif
#if gcdSECURE_CACHE_METHOD == gcdSECURE_CACHE_LINEAR
/* Time stamp. */
gctUINT64 stamp;
#endif
};
typedef struct _gcskSECURE_CACHE * gcskSECURE_CACHE_PTR;
typedef struct _gcskSECURE_CACHE
{
/* Cache memory. */
gcskLOGICAL_CACHE cache[1 + gcdSECURE_CACHE_SLOTS];
/* Last known index for LINEAR mode. */
gcskLOGICAL_CACHE_PTR cacheIndex;
/* Current free slot for LINEAR mode. */
gctUINT32 cacheFree;
/* Time stamp for LINEAR mode. */
gctUINT64 cacheStamp;
#if gcdSECURE_CACHE_METHOD == gcdSECURE_CACHE_HASH
/* Hash table for HASH mode. */
gcskLOGICAL_CACHE hash[256];
#endif
}
gcskSECURE_CACHE;
/*******************************************************************************
***** Process Database Management *********************************************/
typedef enum _gceDATABASE_TYPE
{
gcvDB_VIDEO_MEMORY = 1, /* Video memory created. */
gcvDB_COMMAND_BUFFER, /* Command Buffer. */
gcvDB_NON_PAGED, /* Non paged memory. */
gcvDB_CONTIGUOUS, /* Contiguous memory. */
gcvDB_SIGNAL, /* Signal. */
gcvDB_VIDEO_MEMORY_LOCKED, /* Video memory locked. */
gcvDB_CONTEXT, /* Context */
gcvDB_IDLE, /* GPU idle. */
gcvDB_MAP_MEMORY, /* Map memory */
gcvDB_SHARED_INFO, /* Private data */
gcvDB_MAP_USER_MEMORY /* Map user memory */
}
gceDATABASE_TYPE;
typedef struct _gcsDATABASE_RECORD * gcsDATABASE_RECORD_PTR;
typedef struct _gcsDATABASE_RECORD
{
/* Pointer to kernel. */
gckKERNEL kernel;
/* Pointer to next database record. */
gcsDATABASE_RECORD_PTR next;
/* Type of record. */
gceDATABASE_TYPE type;
/* Data for record. */
gctPOINTER data;
gctPHYS_ADDR physical;
gctSIZE_T bytes;
}
gcsDATABASE_RECORD;
typedef struct _gcsDATABASE * gcsDATABASE_PTR;
typedef struct _gcsDATABASE
{
/* Pointer to next entry is hash list. */
gcsDATABASE_PTR next;
gctSIZE_T slot;
/* Process ID. */
gctUINT32 processID;
/* Sizes to query. */
gcsDATABASE_COUNTERS vidMem;
gcsDATABASE_COUNTERS nonPaged;
gcsDATABASE_COUNTERS contiguous;
gcsDATABASE_COUNTERS mapUserMemory;
gcsDATABASE_COUNTERS mapMemory;
/* Idle time management. */
gctUINT64 lastIdle;
gctUINT64 idle;
/* Pointer to database. */
gcsDATABASE_RECORD_PTR list[48];
#if gcdSECURE_USER
/* Secure cache. */
gcskSECURE_CACHE cache;
#endif
gctPOINTER handleDatabase;
gctPOINTER handleDatabaseMutex;
}
gcsDATABASE;
/* Create a process database that will contain all its allocations. */
gceSTATUS
gckKERNEL_CreateProcessDB(
IN gckKERNEL Kernel,
IN gctUINT32 ProcessID
);
/* Add a record to the process database. */
gceSTATUS
gckKERNEL_AddProcessDB(
IN gckKERNEL Kernel,
IN gctUINT32 ProcessID,
IN gceDATABASE_TYPE Type,
IN gctPOINTER Pointer,
IN gctPHYS_ADDR Physical,
IN gctSIZE_T Size
);
/* Remove a record to the process database. */
gceSTATUS
gckKERNEL_RemoveProcessDB(
IN gckKERNEL Kernel,
IN gctUINT32 ProcessID,
IN gceDATABASE_TYPE Type,
IN gctPOINTER Pointer
);
/* Destroy the process database. */
gceSTATUS
gckKERNEL_DestroyProcessDB(
IN gckKERNEL Kernel,
IN gctUINT32 ProcessID
);
/* Find a record to the process database. */
gceSTATUS
gckKERNEL_FindProcessDB(
IN gckKERNEL Kernel,
IN gctUINT32 ProcessID,
IN gctUINT32 ThreadID,
IN gceDATABASE_TYPE Type,
IN gctPOINTER Pointer,
OUT gcsDATABASE_RECORD_PTR Record
);
/* Query the process database. */
gceSTATUS
gckKERNEL_QueryProcessDB(
IN gckKERNEL Kernel,
IN gctUINT32 ProcessID,
IN gctBOOL LastProcessID,
IN gceDATABASE_TYPE Type,
OUT gcuDATABASE_INFO * Info
);
/* Dump the process database. */
gceSTATUS
gckKERNEL_DumpProcessDB(
IN gckKERNEL Kernel
);
/* ID database */
gceSTATUS
gckKERNEL_CreateIntegerDatabase(
IN gckKERNEL Kernel,
OUT gctPOINTER * Database
);
gceSTATUS
gckKERNEL_DestroyIntegerDatabase(
IN gckKERNEL Kernel,
IN gctPOINTER Database
);
gceSTATUS
gckKERNEL_AllocateIntegerId(
IN gctPOINTER Database,
IN gctPOINTER Pointer,
OUT gctUINT32 * Id
);
gceSTATUS
gckKERNEL_FreeIntegerId(
IN gctPOINTER Database,
IN gctUINT32 Id
);
gceSTATUS
gckKERNEL_QueryIntegerId(
IN gctPOINTER Database,
IN gctUINT32 Id,
OUT gctPOINTER * Pointer
);
gctUINT32
gckKERNEL_AllocateNameFromPointer(
IN gckKERNEL Kernel,
IN gctPOINTER Pointer
);
gctPOINTER
gckKERNEL_QueryPointerFromName(
IN gckKERNEL Kernel,
IN gctUINT32 Name
);
gceSTATUS
gckKERNEL_DeleteName(
IN gckKERNEL Kernel,
IN gctUINT32 Name
);
#if gcdSECURE_USER
/* Get secure cache from the process database. */
gceSTATUS
gckKERNEL_GetProcessDBCache(
IN gckKERNEL Kernel,
IN gctUINT32 ProcessID,
OUT gcskSECURE_CACHE_PTR * Cache
);
#endif
/*******************************************************************************
********* Timer Management ****************************************************/
typedef struct _gcsTIMER * gcsTIMER_PTR;
typedef struct _gcsTIMER
{
/* Start and Stop time holders. */
gctUINT64 startTime;
gctUINT64 stopTime;
}
gcsTIMER;
/******************************************************************************\
********************************** Structures **********************************
\******************************************************************************/
/* gckDB object. */
struct _gckDB
{
/* Database management. */
gcsDATABASE_PTR db[16];
gctPOINTER dbMutex;
gcsDATABASE_PTR freeDatabase;
gcsDATABASE_RECORD_PTR freeRecord;
gcsDATABASE_PTR lastDatabase;
gctUINT32 lastProcessID;
gctUINT64 lastIdle;
gctUINT64 idleTime;
gctUINT64 lastSlowdown;
gctUINT64 lastSlowdownIdle;
/* ID - Pointer database*/
gctPOINTER pointerDatabase;
gctPOINTER pointerDatabaseMutex;
};
#if gcdVIRTUAL_COMMAND_BUFFER
typedef struct _gckVIRTUAL_COMMAND_BUFFER * gckVIRTUAL_COMMAND_BUFFER_PTR;
typedef struct _gckVIRTUAL_COMMAND_BUFFER
{
gctPHYS_ADDR physical;
gctPOINTER userLogical;
gctPOINTER kernelLogical;
gctSIZE_T pageCount;
gctPOINTER pageTable;
gctUINT32 gpuAddress;
gctUINT pid;
gckVIRTUAL_COMMAND_BUFFER_PTR next;
gckVIRTUAL_COMMAND_BUFFER_PTR prev;
gckKERNEL kernel;
}
gckVIRTUAL_COMMAND_BUFFER;
#endif
/* gckKERNEL object. */
struct _gckKERNEL
{
/* Object. */
gcsOBJECT object;
/* Pointer to gckOS object. */
gckOS os;
/* Core */
gceCORE core;
/* Pointer to gckHARDWARE object. */
gckHARDWARE hardware;
/* Pointer to gckCOMMAND object. */
gckCOMMAND command;
/* Pointer to gckEVENT object. */
gckEVENT eventObj;
/* Pointer to context. */
gctPOINTER context;
/* Pointer to gckMMU object. */
gckMMU mmu;
/* Arom holding number of clients. */
gctPOINTER atomClients;
#if VIVANTE_PROFILER
/* Enable profiling */
gctBOOL profileEnable;
/* The profile file name */
gctCHAR profileFileName[gcdMAX_PROFILE_FILE_NAME];
/* Clear profile register or not*/
gctBOOL profileCleanRegister;
#endif
#ifdef QNX_SINGLE_THREADED_DEBUGGING
gctPOINTER debugMutex;
#endif
/* Database management. */
gckDB db;
gctBOOL dbCreated;
#if gcdENABLE_RECOVERY
gctPOINTER resetFlagClearTimer;
gctPOINTER resetAtom;
gctUINT64 resetTimeStamp;
#endif
/* Pointer to gckEVENT object. */
gcsTIMER timers[8];
gctUINT32 timeOut;
#if gcdENABLE_VG
gckVGKERNEL vg;
#endif
#if gcdVIRTUAL_COMMAND_BUFFER
gckVIRTUAL_COMMAND_BUFFER_PTR virtualBufferHead;
gckVIRTUAL_COMMAND_BUFFER_PTR virtualBufferTail;
gctPOINTER virtualBufferLock;
#endif
#if gcdDVFS
gckDVFS dvfs;
#endif
};
struct _FrequencyHistory
{
gctUINT32 frequency;
gctUINT32 count;
};
/* gckDVFS object. */
struct _gckDVFS
{
gckOS os;
gckHARDWARE hardware;
gctPOINTER timer;
gctUINT32 pollingTime;
gctBOOL stop;
gctUINT32 totalConfig;
gctUINT32 loads[8];
gctUINT8 currentScale;
struct _FrequencyHistory frequencyHistory[16];
};
/* gckCOMMAND object. */
struct _gckCOMMAND
{
/* Object. */
gcsOBJECT object;
/* Pointer to required object. */
gckKERNEL kernel;
gckOS os;
/* Number of bytes per page. */
gctSIZE_T pageSize;
/* Current pipe select. */
gcePIPE_SELECT pipeSelect;
/* Command queue running flag. */
gctBOOL running;
/* Idle flag and commit stamp. */
gctBOOL idle;
gctUINT64 commitStamp;
/* Command queue mutex. */
gctPOINTER mutexQueue;
/* Context switching mutex. */
gctPOINTER mutexContext;
/* Command queue power semaphore. */
gctPOINTER powerSemaphore;
/* Current command queue. */
struct _gcskCOMMAND_QUEUE
{
gctSIGNAL signal;
gctPHYS_ADDR physical;
gctPOINTER logical;
}
queues[gcdCOMMAND_QUEUES];
gctPHYS_ADDR physical;
gctPOINTER logical;
gctUINT32 offset;
gctINT index;
#if gcmIS_DEBUG(gcdDEBUG_TRACE)
gctUINT wrapCount;
#endif
/* The command queue is new. */
gctBOOL newQueue;
/* Context management. */
gckCONTEXT currContext;
/* Pointer to last WAIT command. */
gctPHYS_ADDR waitPhysical;
gctPOINTER waitLogical;
gctSIZE_T waitSize;
/* Command buffer alignment. */
gctSIZE_T alignment;
gctSIZE_T reservedHead;
gctSIZE_T reservedTail;
/* Commit counter. */
gctPOINTER atomCommit;
/* Kernel process ID. */
gctUINT32 kernelProcessID;
/* End Event signal. */
gctSIGNAL endEventSignal;
#if gcdSECURE_USER
/* Hint array copy buffer. */
gctBOOL hintArrayAllocated;
gctUINT hintArraySize;
gctUINT32_PTR hintArray;
#endif
};
typedef struct _gcsEVENT * gcsEVENT_PTR;
/* Structure holding one event to be processed. */
typedef struct _gcsEVENT
{
/* Pointer to next event in queue. */
gcsEVENT_PTR next;
/* Event information. */
gcsHAL_INTERFACE info;
/* Process ID owning the event. */
gctUINT32 processID;
#ifdef __QNXNTO__
/* Kernel. */
gckKERNEL kernel;
#endif
gctBOOL fromKernel;
}
gcsEVENT;
/* Structure holding a list of events to be processed by an interrupt. */
typedef struct _gcsEVENT_QUEUE * gcsEVENT_QUEUE_PTR;
typedef struct _gcsEVENT_QUEUE
{
/* Time stamp. */
gctUINT64 stamp;
/* Source of the event. */
gceKERNEL_WHERE source;
/* Pointer to head of event queue. */
gcsEVENT_PTR head;
/* Pointer to tail of event queue. */
gcsEVENT_PTR tail;
/* Next list of events. */
gcsEVENT_QUEUE_PTR next;
}
gcsEVENT_QUEUE;
/*
gcdREPO_LIST_COUNT defines the maximum number of event queues with different
hardware module sources that may coexist at the same time. Only two sources
are supported - gcvKERNEL_COMMAND and gcvKERNEL_PIXEL. gcvKERNEL_COMMAND
source is used only for managing the kernel command queue and is only issued
when the current command queue gets full. Since we commit event queues every
time we commit command buffers, in the worst case we can have up to three
pending event queues:
- gcvKERNEL_PIXEL
- gcvKERNEL_COMMAND (queue overflow)
- gcvKERNEL_PIXEL
*/
#define gcdREPO_LIST_COUNT 3
/* gckEVENT object. */
struct _gckEVENT
{
/* The object. */
gcsOBJECT object;
/* Pointer to required objects. */
gckOS os;
gckKERNEL kernel;
/* Time stamp. */
gctUINT64 stamp;
gctUINT64 lastCommitStamp;
/* Queue mutex. */
gctPOINTER eventQueueMutex;
/* Array of event queues. */
gcsEVENT_QUEUE queues[30];
gctUINT8 lastID;
gctPOINTER freeAtom;
/* Pending events. */
#if gcdSMP
gctPOINTER pending;
#else
volatile gctUINT pending;
#endif
/* List of free event structures and its mutex. */
gcsEVENT_PTR freeEventList;
gctSIZE_T freeEventCount;
gctPOINTER freeEventMutex;
/* Event queues. */
gcsEVENT_QUEUE_PTR queueHead;
gcsEVENT_QUEUE_PTR queueTail;
gcsEVENT_QUEUE_PTR freeList;
gcsEVENT_QUEUE repoList[gcdREPO_LIST_COUNT];
gctPOINTER eventListMutex;
gctPOINTER submitTimer;
};
/* Free all events belonging to a process. */
gceSTATUS
gckEVENT_FreeProcess(
IN gckEVENT Event,
IN gctUINT32 ProcessID
);
gceSTATUS
gckEVENT_Stop(
IN gckEVENT Event,
IN gctUINT32 ProcessID,
IN gctPHYS_ADDR Handle,
IN gctPOINTER Logical,
IN gctSIGNAL Signal,
IN OUT gctSIZE_T * waitSize
);
/* gcuVIDMEM_NODE structure. */
typedef union _gcuVIDMEM_NODE
{
/* Allocated from gckVIDMEM. */
struct _gcsVIDMEM_NODE_VIDMEM
{
/* Owner of this node. */
gckVIDMEM memory;
/* Dual-linked list of nodes. */
gcuVIDMEM_NODE_PTR next;
gcuVIDMEM_NODE_PTR prev;
/* Dual linked list of free nodes. */
gcuVIDMEM_NODE_PTR nextFree;
gcuVIDMEM_NODE_PTR prevFree;
/* Information for this node. */
gctUINT32 offset;
gctSIZE_T bytes;
gctUINT32 alignment;
#ifdef __QNXNTO__
/* Client/server vaddr (mapped using mmap_join). */
gctPOINTER logical;
#endif
/* Locked counter. */
gctINT32 locked;
/* Memory pool. */
gcePOOL pool;
gctUINT32 physical;
/* Process ID owning this memory. */
gctUINT32 processID;
/* Prevent compositor from freeing until client unlocks. */
gctBOOL freePending;
/* */
gcsVIDMEM_NODE_SHARED_INFO sharedInfo;
#if gcdDYNAMIC_MAP_RESERVED_MEMORY && gcdENABLE_VG
gctPOINTER kernelVirtual;
#endif
}
VidMem;
/* Allocated from gckOS. */
struct _gcsVIDMEM_NODE_VIRTUAL
{
/* Pointer to gckKERNEL object. */
gckKERNEL kernel;
/* Information for this node. */
/* Contiguously allocated? */
gctBOOL contiguous;
/* mdl record pointer... a kmalloc address. Process agnostic. */
gctPHYS_ADDR physical;
gctSIZE_T bytes;
/* do_mmap_pgoff address... mapped per-process. */
gctPOINTER logical;
/* Page table information. */
/* Used only when node is not contiguous */
gctSIZE_T pageCount;
/* Used only when node is not contiguous */
gctPOINTER pageTables[gcdMAX_GPU_COUNT];
/* Pointer to gckKERNEL object who lock this. */
gckKERNEL lockKernels[gcdMAX_GPU_COUNT];
/* Actual physical address */
gctUINT32 addresses[gcdMAX_GPU_COUNT];
/* Mutex. */
gctPOINTER mutex;
/* Locked counter. */
gctINT32 lockeds[gcdMAX_GPU_COUNT];
#ifdef __QNXNTO__
/* Single linked list of nodes. */
gcuVIDMEM_NODE_PTR next;
/* Unlock pending flag. */
gctBOOL unlockPendings[gcdMAX_GPU_COUNT];
/* Free pending flag. */
gctBOOL freePending;
#endif
/* Process ID owning this memory. */
gctUINT32 processID;
/* Owner process sets freed to true
* when it trys to free a locked
* node */
gctBOOL freed;
/* */
gcsVIDMEM_NODE_SHARED_INFO sharedInfo;
}
Virtual;
}
gcuVIDMEM_NODE;
/* gckVIDMEM object. */
struct _gckVIDMEM
{
/* Object. */
gcsOBJECT object;
/* Pointer to gckOS object. */
gckOS os;
/* Information for this video memory heap. */
gctUINT32 baseAddress;
gctSIZE_T bytes;
gctSIZE_T freeBytes;
/* Mapping for each type of surface. */
gctINT mapping[gcvSURF_NUM_TYPES];
/* Sentinel nodes for up to 8 banks. */
gcuVIDMEM_NODE sentinel[8];
/* Allocation threshold. */
gctSIZE_T threshold;
/* The heap mutex. */
gctPOINTER mutex;
#if gcdUSE_VIDMEM_PER_PID
/* The Pid this VidMem belongs to. */
gctUINT32 pid;
struct _gckVIDMEM* next;
#endif
};
/* gckMMU object. */
struct _gckMMU
{
/* The object. */
gcsOBJECT object;
/* Pointer to gckOS object. */
gckOS os;
/* Pointer to gckHARDWARE object. */
gckHARDWARE hardware;
/* The page table mutex. */
gctPOINTER pageTableMutex;
/* Page table information. */
gctSIZE_T pageTableSize;
gctPHYS_ADDR pageTablePhysical;
gctUINT32_PTR pageTableLogical;
gctUINT32 pageTableEntries;
/* Master TLB information. */
gctSIZE_T mtlbSize;
gctPHYS_ADDR mtlbPhysical;
gctUINT32_PTR mtlbLogical;
gctUINT32 mtlbEntries;
/* Free entries. */
gctUINT32 heapList;
gctBOOL freeNodes;
gctPOINTER staticSTLB;
gctBOOL enabled;
gctUINT32 dynamicMappingStart;
#ifdef __QNXNTO__
/* Single linked list of all allocated nodes. */
gctPOINTER nodeMutex;
gcuVIDMEM_NODE_PTR nodeList;
#endif
};
#if gcdVIRTUAL_COMMAND_BUFFER
gceSTATUS
gckOS_CreateKernelVirtualMapping(
IN gctPHYS_ADDR Physical,
OUT gctSIZE_T * PageCount,
OUT gctPOINTER * Logical
);
gceSTATUS
gckOS_DestroyKernelVirtualMapping(
IN gctPOINTER Logical
);
gceSTATUS
gckKERNEL_AllocateVirtualCommandBuffer(
IN gckKERNEL Kernel,
IN gctBOOL InUserSpace,
IN OUT gctSIZE_T * Bytes,
OUT gctPHYS_ADDR * Physical,
OUT gctPOINTER * Logical
);
gceSTATUS
gckKERNEL_DestroyVirtualCommandBuffer(
IN gckKERNEL Kernel,
IN gctSIZE_T Bytes,
IN gctPHYS_ADDR Physical,
IN gctPOINTER Logical
);
gceSTATUS
gckKERNEL_GetGPUAddress(
IN gckKERNEL Kernel,
IN gctPOINTER Logical,
OUT gctUINT32 * Address
);
gceSTATUS
gckKERNEL_QueryGPUAddress(
IN gckKERNEL Kernel,
IN gctUINT32 GpuAddress,
OUT gckVIRTUAL_COMMAND_BUFFER_PTR * Buffer
);
#endif
gceSTATUS
gckKERNEL_AttachProcess(
IN gckKERNEL Kernel,
IN gctBOOL Attach
);
gceSTATUS
gckKERNEL_AttachProcessEx(
IN gckKERNEL Kernel,
IN gctBOOL Attach,
IN gctUINT32 PID
);
#if gcdSECURE_USER
gceSTATUS
gckKERNEL_MapLogicalToPhysical(
IN gckKERNEL Kernel,
IN gcskSECURE_CACHE_PTR Cache,
IN OUT gctPOINTER * Data
);
gceSTATUS
gckKERNEL_FlushTranslationCache(
IN gckKERNEL Kernel,
IN gcskSECURE_CACHE_PTR Cache,
IN gctPOINTER Logical,
IN gctSIZE_T Bytes
);
#endif
gceSTATUS
gckHARDWARE_QueryIdle(
IN gckHARDWARE Hardware,
OUT gctBOOL_PTR IsIdle
);
/******************************************************************************\
******************************* gckCONTEXT Object *******************************
\******************************************************************************/
gceSTATUS
gckCONTEXT_Construct(
IN gckOS Os,
IN gckHARDWARE Hardware,
IN gctUINT32 ProcessID,
OUT gckCONTEXT * Context
);
gceSTATUS
gckCONTEXT_Destroy(
IN gckCONTEXT Context
);
gceSTATUS
gckCONTEXT_Update(
IN gckCONTEXT Context,
IN gctUINT32 ProcessID,
IN gcsSTATE_DELTA_PTR StateDelta
);
#if gcdLINK_QUEUE_SIZE
void
gckLINKQUEUE_Enqueue(
IN gckLINKQUEUE LinkQueue,
IN gctUINT32 start,
IN gctUINT32 end
);
void
gckLINKQUEUE_GetData(
IN gckLINKQUEUE LinkQueue,
IN gctUINT32 Index,
OUT gckLINKDATA * Data
);
#endif
#ifdef __cplusplus
}
#endif
#endif /* __gc_hal_kernel_h_ */
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