IMG_HANDLE
BM_CreateHeap (IMG_HANDLE hBMContext,
DEVICE_MEMORY_HEAP_INFO *psDevMemHeapInfo)
{
BM_CONTEXT *pBMContext = (BM_CONTEXT*)hBMContext;
PVRSRV_DEVICE_NODE *psDeviceNode;
BM_HEAP *psBMHeap;
PVR_DPF((PVR_DBG_MESSAGE, "BM_CreateHeap"));
if(!pBMContext)
{
PVR_DPF((PVR_DBG_ERROR, "BM_CreateHeap: BM_CONTEXT null"));
return IMG_NULL;
}
psDeviceNode = pBMContext->psDeviceNode;
if(pBMContext->ui32RefCount > 0)
{
psBMHeap = (BM_HEAP*)List_BM_HEAP_Any_va(pBMContext->psBMHeap,
&BM_CreateHeap_AnyVaCb,
psDevMemHeapInfo);
if (psBMHeap)
{
return psBMHeap;
}
}
if (OSAllocMem(PVRSRV_OS_PAGEABLE_HEAP,
sizeof (BM_HEAP),
(IMG_PVOID *)&psBMHeap, IMG_NULL,
"Buffer Manager Heap") != PVRSRV_OK)
{
PVR_DPF((PVR_DBG_ERROR, "BM_CreateHeap: Alloc failed"));
return IMG_NULL;
}
OSMemSet (psBMHeap, 0, sizeof (BM_HEAP));
psBMHeap->sDevArena.ui32HeapID = psDevMemHeapInfo->ui32HeapID;
psBMHeap->sDevArena.pszName = psDevMemHeapInfo->pszName;
psBMHeap->sDevArena.BaseDevVAddr = psDevMemHeapInfo->sDevVAddrBase;
psBMHeap->sDevArena.ui32Size = psDevMemHeapInfo->ui32HeapSize;
psBMHeap->sDevArena.DevMemHeapType = psDevMemHeapInfo->DevMemHeapType;
psBMHeap->sDevArena.ui32DataPageSize = psDevMemHeapInfo->ui32DataPageSize;
psBMHeap->sDevArena.psDeviceMemoryHeapInfo = psDevMemHeapInfo;
psBMHeap->ui32Attribs = psDevMemHeapInfo->ui32Attribs;
psBMHeap->pBMContext = pBMContext;
psBMHeap->pMMUHeap = psDeviceNode->pfnMMUCreate (pBMContext->psMMUContext,
&psBMHeap->sDevArena,
&psBMHeap->pVMArena,
&psBMHeap->psMMUAttrib);
if (!psBMHeap->pMMUHeap)
{
PVR_DPF((PVR_DBG_ERROR, "BM_CreateHeap: MMUCreate failed"));
goto ErrorExit;
}
psBMHeap->pImportArena = RA_Create (psDevMemHeapInfo->pszBSName,
0, 0, IMG_NULL,
MAX(HOST_PAGESIZE(), psBMHeap->sDevArena.ui32DataPageSize),
&BM_ImportMemory,
&BM_FreeMemory,
IMG_NULL,
psBMHeap);
if(psBMHeap->pImportArena == IMG_NULL)
{
PVR_DPF((PVR_DBG_ERROR, "BM_CreateHeap: RA_Create failed"));
goto ErrorExit;
}
if(psBMHeap->ui32Attribs & PVRSRV_BACKINGSTORE_LOCALMEM_CONTIG)
{
psBMHeap->pLocalDevMemArena = psDevMemHeapInfo->psLocalDevMemArena;
if(psBMHeap->pLocalDevMemArena == IMG_NULL)
{
PVR_DPF((PVR_DBG_ERROR, "BM_CreateHeap: LocalDevMemArena null"));
goto ErrorExit;
}
}
List_BM_HEAP_Insert(&pBMContext->psBMHeap, psBMHeap);
return (IMG_HANDLE)psBMHeap;
ErrorExit:
if (psBMHeap->pMMUHeap != IMG_NULL)
{
psDeviceNode->pfnMMUDelete (psBMHeap->pMMUHeap);
psDeviceNode->pfnMMUFinalise (pBMContext->psMMUContext);
}
OSFreeMem(PVRSRV_OS_PAGEABLE_HEAP, sizeof(BM_HEAP), psBMHeap, IMG_NULL);
return IMG_NULL;
}
/*!
******************************************************************************
@Function SysInitialise
@Description Initialises kernel services at 'driver load' time
@Return PVRSRV_ERROR :
******************************************************************************/
PVRSRV_ERROR SysInitialise(IMG_VOID)
{
IMG_UINT32 i;
PVRSRV_ERROR eError;
PVRSRV_DEVICE_NODE *psDeviceNode;
SGX_TIMING_INFORMATION* psTimingInfo;
gpsSysData = &gsSysData;
OSMemSet(gpsSysData, 0, sizeof(SYS_DATA));
gpsSysData->pvSysSpecificData = &gsSysSpecificData;
gsSysSpecificData.ui32SysSpecificData = 0;
#if defined(LDM_PCI) || defined(SUPPORT_DRI_DRM)
/* Save the pci_dev structure pointer from module.c */
PVR_ASSERT(gpsPVRLDMDev != IMG_NULL);
gsSysSpecificData.psPCIDev = gpsPVRLDMDev;
#endif
eError = OSInitEnvData(&gpsSysData->pvEnvSpecificData);
if (eError != PVRSRV_OK)
{
PVR_DPF((PVR_DBG_ERROR,"SysInitialise: Failed to setup env structure"));
SysDeinitialise(gpsSysData);
gpsSysData = IMG_NULL;
return eError;
}
SYS_SPECIFIC_DATA_SET(&gsSysSpecificData, SYS_SPECIFIC_DATA_ENABLE_ENVDATA);
/* Set up timing information*/
psTimingInfo = &gsSGXDeviceMap.sTimingInfo;
psTimingInfo->ui32CoreClockSpeed = SYS_SGX_CLOCK_SPEED;
psTimingInfo->ui32HWRecoveryFreq = SYS_SGX_HWRECOVERY_TIMEOUT_FREQ;
#if defined(SUPPORT_ACTIVE_POWER_MANAGEMENT)
psTimingInfo->bEnableActivePM = IMG_TRUE;
#else
psTimingInfo->bEnableActivePM = IMG_FALSE;
#endif /* SUPPORT_ACTIVE_POWER_MANAGEMENT */
psTimingInfo->ui32ActivePowManLatencyms = SYS_SGX_ACTIVE_POWER_LATENCY_MS;
psTimingInfo->ui32uKernelFreq = SYS_SGX_PDS_TIMER_FREQ;
#ifdef __linux__
eError = PCIInitDev(gpsSysData);
if (eError != PVRSRV_OK)
{
SysDeinitialise(gpsSysData);
gpsSysData = IMG_NULL;
return eError;
}
SYS_SPECIFIC_DATA_SET(&gsSysSpecificData, SYS_SPECIFIC_DATA_ENABLE_PCINIT);
#endif
gpsSysData->ui32NumDevices = SYS_DEVICE_COUNT;
/* init device ID's */
for(i=0; i<SYS_DEVICE_COUNT; i++)
{
gpsSysData->sDeviceID[i].uiID = i;
gpsSysData->sDeviceID[i].bInUse = IMG_FALSE;
}
gpsSysData->psDeviceNodeList = IMG_NULL;
gpsSysData->psQueueList = IMG_NULL;
eError = SysInitialiseCommon(gpsSysData);
if (eError != PVRSRV_OK)
{
PVR_DPF((PVR_DBG_ERROR,"SysInitialise: Failed in SysInitialiseCommon"));
SysDeinitialise(gpsSysData);
gpsSysData = IMG_NULL;
return eError;
}
/*
Locate the devices within the system, specifying
the physical addresses of each devices components
(regs, mem, ports etc.)
*/
eError = SysLocateDevices(gpsSysData);
if (eError != PVRSRV_OK)
{
PVR_DPF((PVR_DBG_ERROR,"SysInitialise: Failed to locate devices"));
SysDeinitialise(gpsSysData);
gpsSysData = IMG_NULL;
return eError;
}
SYS_SPECIFIC_DATA_SET(&gsSysSpecificData, SYS_SPECIFIC_DATA_ENABLE_LOCATEDEV);
/*
Map the Atlas and PDP registers.
*/
gpsSysData->pvSOCRegsBase = OSMapPhysToLin(gsSOCRegsCpuPBase,
SYS_ATLAS_REG_REGION_SIZE,
PVRSRV_HAP_UNCACHED|PVRSRV_HAP_KERNEL_ONLY,
IMG_NULL);
/*
Do some initial register setup
*/
eError = SysInitRegisters();
if (eError != PVRSRV_OK)
{
PVR_DPF((PVR_DBG_ERROR,"SysInitRegisters: Failed to initialise registers"));
SysDeinitialise(gpsSysData);
gpsSysData = IMG_NULL;
return eError;
}
SYS_SPECIFIC_DATA_SET(&gsSysSpecificData, SYS_SPECIFIC_DATA_ENABLE_INITREG);
#if defined(READ_TCF_HOST_MEM_SIGNATURE)
SysTestTCFHostMemSig(gsSGXDeviceMap.sRegsCpuPBase,
gsSGXDeviceMap.sLocalMemCpuPBase);
#endif
/*
Register devices with the system
This also sets up their memory maps/heaps
*/
eError = PVRSRVRegisterDevice(gpsSysData, SGXRegisterDevice,
SysGetSGXInterruptBit(), &gui32SGXDeviceID);
if (eError != PVRSRV_OK)
{
PVR_DPF((PVR_DBG_ERROR,"SysInitialise: Failed to register device!"));
SysDeinitialise(gpsSysData);
gpsSysData = IMG_NULL;
return eError;
}
SYS_SPECIFIC_DATA_SET(&gsSysSpecificData, SYS_SPECIFIC_DATA_ENABLE_REGDEV);
/*
A given SOC may have 0 to n local device memory blocks.
It is assumed device local memory blocks will be either
specific to each device or shared among one or more services
managed devices.
Note: no provision is made for a single device having more
than one local device memory blocks. If required we must
add new types,
e.g.PVRSRV_BACKINGSTORE_LOCALMEM_NONCONTIG0
PVRSRV_BACKINGSTORE_LOCALMEM_NONCONTIG1
*/
/*
Create Local Device Page Managers for each device memory block.
We'll use an RA to do the management
(only one for the emulator)
*/
gpsSysData->apsLocalDevMemArena[0] = RA_Create ("TestChipDeviceMemory",
gsSGXDeviceMap.sLocalMemSysPBase.uiAddr,
gsSGXDeviceMap.ui32LocalMemSize,
IMG_NULL,
HOST_PAGESIZE(),
IMG_NULL,
IMG_NULL,
IMG_NULL,
IMG_NULL);
if (gpsSysData->apsLocalDevMemArena[0] == IMG_NULL)
{
PVR_DPF((PVR_DBG_ERROR,"SysInitialise: Failed to create local dev mem allocator!"));
SysDeinitialise(gpsSysData);
gpsSysData = IMG_NULL;
return eError;
}
SYS_SPECIFIC_DATA_SET(&gsSysSpecificData, SYS_SPECIFIC_DATA_ENABLE_RA_ARENA);
/*
Once all devices are registered, specify the backing store
and, if required, customise the memory heap config
*/
psDeviceNode = gpsSysData->psDeviceNodeList;
while(psDeviceNode)
{
/* perform any OEM SOC address space customisations here */
switch(psDeviceNode->sDevId.eDeviceType)
{
case PVRSRV_DEVICE_TYPE_SGX:
{
DEVICE_MEMORY_INFO *psDevMemoryInfo;
DEVICE_MEMORY_HEAP_INFO *psDeviceMemoryHeap;
/* specify the backing store to use for the device's MMU PT/PDs */
psDeviceNode->psLocalDevMemArena = gpsSysData->apsLocalDevMemArena[0];
/* useful pointers */
psDevMemoryInfo = &psDeviceNode->sDevMemoryInfo;
psDeviceMemoryHeap = psDevMemoryInfo->psDeviceMemoryHeap;
/* specify the backing store for all SGX heaps */
for(i=0; i<psDevMemoryInfo->ui32HeapCount; i++)
{
/*
specify the backing store type
(all local device mem noncontig) for test chip
*/
psDeviceMemoryHeap[i].ui32Attribs |= PVRSRV_BACKINGSTORE_LOCALMEM_CONTIG;
/*
map the device memory allocator(s) onto
the device memory heaps as required
*/
psDeviceMemoryHeap[i].psLocalDevMemArena = gpsSysData->apsLocalDevMemArena[0];
#ifdef OEM_CUSTOMISE
/* if required, modify the memory config */
#endif
}
break;
}
default:
break;
}
/* advance to next device */
psDeviceNode = psDeviceNode->psNext;
}
/*
Initialise all devices 'managed' by services:
*/
eError = PVRSRVInitialiseDevice (gui32SGXDeviceID);
if (eError != PVRSRV_OK)
{
PVR_DPF((PVR_DBG_ERROR,"SysInitialise: Failed to initialise device!"));
SysDeinitialise(gpsSysData);
gpsSysData = IMG_NULL;
return eError;
}
SYS_SPECIFIC_DATA_SET(&gsSysSpecificData, SYS_SPECIFIC_DATA_ENABLE_INITDEV);
return PVRSRV_OK;
}
void *BM_CreateHeap(void *hBMContext,
struct DEVICE_MEMORY_HEAP_INFO *psDevMemHeapInfo)
{
struct BM_CONTEXT *pBMContext = (struct BM_CONTEXT *)hBMContext;
struct PVRSRV_DEVICE_NODE *psDeviceNode = pBMContext->psDeviceNode;
struct BM_HEAP *psBMHeap;
PVR_DPF(PVR_DBG_MESSAGE, "BM_CreateHeap");
if (pBMContext->ui32RefCount > 0) {
psBMHeap = pBMContext->psBMHeap;
while (psBMHeap) {
if (psBMHeap->sDevArena.ui32HeapID ==
psDevMemHeapInfo->ui32HeapID)
return psBMHeap;
psBMHeap = psBMHeap->psNext;
}
}
if (OSAllocMem(PVRSRV_OS_PAGEABLE_HEAP, sizeof(struct BM_HEAP),
(void **) &psBMHeap, NULL) != PVRSRV_OK) {
PVR_DPF(PVR_DBG_ERROR, "BM_CreateHeap: Alloc failed");
return NULL;
}
OSMemSet(psBMHeap, 0, sizeof(struct BM_HEAP));
psBMHeap->sDevArena.ui32HeapID = psDevMemHeapInfo->ui32HeapID;
psBMHeap->sDevArena.pszName = psDevMemHeapInfo->pszName;
psBMHeap->sDevArena.BaseDevVAddr = psDevMemHeapInfo->sDevVAddrBase;
psBMHeap->sDevArena.ui32Size = psDevMemHeapInfo->ui32HeapSize;
psBMHeap->sDevArena.DevMemHeapType = psDevMemHeapInfo->DevMemHeapType;
psBMHeap->sDevArena.ui32DataPageSize =
psDevMemHeapInfo->ui32DataPageSize;
psBMHeap->sDevArena.psDeviceMemoryHeapInfo = psDevMemHeapInfo;
psBMHeap->ui32Attribs = psDevMemHeapInfo->ui32Attribs;
psBMHeap->pBMContext = pBMContext;
psBMHeap->pMMUHeap =
psDeviceNode->pfnMMUCreate(pBMContext->psMMUContext,
&psBMHeap->sDevArena,
&psBMHeap->pVMArena);
if (!psBMHeap->pMMUHeap) {
PVR_DPF(PVR_DBG_ERROR, "BM_CreateHeap: MMUCreate failed");
goto ErrorExit;
}
psBMHeap->pImportArena = RA_Create(psDevMemHeapInfo->pszBSName,
0, 0, NULL,
psBMHeap->sDevArena.ui32DataPageSize,
BM_ImportMemory,
BM_FreeMemory, NULL, psBMHeap);
if (psBMHeap->pImportArena == NULL) {
PVR_DPF(PVR_DBG_ERROR, "BM_CreateHeap: RA_Create failed");
goto ErrorExit;
}
if (psBMHeap->ui32Attribs & PVRSRV_BACKINGSTORE_LOCALMEM_CONTIG) {
psBMHeap->pLocalDevMemArena =
psDevMemHeapInfo->psLocalDevMemArena;
if (psBMHeap->pLocalDevMemArena == NULL) {
PVR_DPF(PVR_DBG_ERROR,
"BM_CreateHeap: LocalDevMemArena null");
goto ErrorExit;
}
}
psBMHeap->psNext = pBMContext->psBMHeap;
pBMContext->psBMHeap = psBMHeap;
return (void *)psBMHeap;
ErrorExit:
if (psBMHeap->pMMUHeap != NULL) {
psDeviceNode->pfnMMUDelete(psBMHeap->pMMUHeap);
psDeviceNode->pfnMMUFinalise(pBMContext->psMMUContext);
}
OSFreeMem(PVRSRV_OS_PAGEABLE_HEAP, sizeof(struct BM_HEAP),
psBMHeap, NULL);
return NULL;
}
