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|
/**********************************************************************
*
* 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
*
******************************************************************************/
#include "sysconfig.h"
#include "services_headers.h"
#include "kerneldisplay.h"
#include "oemfuncs.h"
#include "sgxinfo.h"
#include "sgxinfokm.h"
#include "syslocal.h"
#include "ocpdefs.h"
SYS_DATA* gpsSysData = (SYS_DATA*)IMG_NULL;
SYS_DATA gsSysData;
static SYS_SPECIFIC_DATA gsSysSpecificData;
SYS_SPECIFIC_DATA *gpsSysSpecificData;
static IMG_UINT32 gui32SGXDeviceID;
static SGX_DEVICE_MAP gsSGXDeviceMap;
static PVRSRV_DEVICE_NODE *gpsSGXDevNode;
#define DEVICE_SGX_INTERRUPT (1 << 0)
#if defined(NO_HARDWARE) || defined(SGX_OCP_REGS_ENABLED)
static IMG_CPU_VIRTADDR gsSGXRegsCPUVAddr;
#endif
#if defined(PVR_LINUX_DYNAMIC_SGX_RESOURCE_INFO)
extern struct platform_device *gpsPVRLDMDev;
#endif
IMG_UINT32 PVRSRV_BridgeDispatchKM(IMG_UINT32 Ioctl,
IMG_BYTE *pInBuf,
IMG_UINT32 InBufLen,
IMG_BYTE *pOutBuf,
IMG_UINT32 OutBufLen,
IMG_UINT32 *pdwBytesTransferred);
#if defined(SGX_OCP_REGS_ENABLED)
static IMG_CPU_VIRTADDR gpvOCPRegsLinAddr;
static PVRSRV_ERROR EnableSGXClocksWrap(SYS_DATA *psSysData)
{
PVRSRV_ERROR eError = EnableSGXClocks(psSysData);
#if !defined(SGX_OCP_NO_INT_BYPASS)
if(eError == PVRSRV_OK)
{
OSWriteHWReg(gpvOCPRegsLinAddr, EUR_CR_OCP_SYSCONFIG, 0x14);
OSWriteHWReg(gpvOCPRegsLinAddr, EUR_CR_OCP_DEBUG_CONFIG, EUR_CR_OCP_DEBUG_CONFIG_THALIA_INT_BYPASS_MASK);
}
#endif
return eError;
}
#else
static INLINE PVRSRV_ERROR EnableSGXClocksWrap(SYS_DATA *psSysData)
{
return EnableSGXClocks(psSysData);
}
#endif
static INLINE PVRSRV_ERROR EnableSystemClocksWrap(SYS_DATA *psSysData)
{
PVRSRV_ERROR eError = EnableSystemClocks(psSysData);
#if !defined(SUPPORT_ACTIVE_POWER_MANAGEMENT)
if(eError == PVRSRV_OK)
{
eError = EnableSGXClocksWrap(psSysData);
if (eError != PVRSRV_OK)
{
DisableSystemClocks(psSysData);
}
}
#endif
return eError;
}
static PVRSRV_ERROR SysLocateDevices(SYS_DATA *psSysData)
{
#if defined(NO_HARDWARE)
PVRSRV_ERROR eError;
IMG_CPU_PHYADDR sCpuPAddr;
#else
#if defined(PVR_LINUX_DYNAMIC_SGX_RESOURCE_INFO)
struct resource *dev_res;
int dev_irq;
#endif
#endif
PVR_UNREFERENCED_PARAMETER(psSysData);
gsSGXDeviceMap.ui32Flags = 0x0;
#if defined(NO_HARDWARE)
gsSGXDeviceMap.ui32RegsSize = SYS_OMAP4430_SGX_REGS_SIZE;
eError = OSBaseAllocContigMemory(gsSGXDeviceMap.ui32RegsSize,
&gsSGXRegsCPUVAddr,
&sCpuPAddr);
if(eError != PVRSRV_OK)
{
return eError;
}
gsSGXDeviceMap.sRegsCpuPBase = sCpuPAddr;
gsSGXDeviceMap.sRegsSysPBase = SysCpuPAddrToSysPAddr(gsSGXDeviceMap.sRegsCpuPBase);
#if defined(__linux__)
gsSGXDeviceMap.pvRegsCpuVBase = gsSGXRegsCPUVAddr;
#else
gsSGXDeviceMap.pvRegsCpuVBase = IMG_NULL;
#endif
OSMemSet(gsSGXRegsCPUVAddr, 0, gsSGXDeviceMap.ui32RegsSize);
gsSGXDeviceMap.ui32IRQ = 0;
#else
#if defined(PVR_LINUX_DYNAMIC_SGX_RESOURCE_INFO)
dev_res = platform_get_resource(gpsPVRLDMDev, IORESOURCE_MEM, 0);
if (dev_res == NULL)
{
PVR_DPF((PVR_DBG_ERROR, "%s: platform_get_resource failed", __FUNCTION__));
return PVRSRV_ERROR_INVALID_DEVICE;
}
dev_irq = platform_get_irq(gpsPVRLDMDev, 0);
if (dev_irq < 0)
{
PVR_DPF((PVR_DBG_ERROR, "%s: platform_get_irq failed (%d)", __FUNCTION__, -dev_irq));
return PVRSRV_ERROR_INVALID_DEVICE;
}
gsSGXDeviceMap.sRegsSysPBase.uiAddr = dev_res->start;
gsSGXDeviceMap.sRegsCpuPBase =
SysSysPAddrToCpuPAddr(gsSGXDeviceMap.sRegsSysPBase);
PVR_TRACE(("SGX register base: 0x%lx", (unsigned long)gsSGXDeviceMap.sRegsCpuPBase.uiAddr));
gsSGXDeviceMap.ui32RegsSize = (unsigned int)(dev_res->end - dev_res->start);
PVR_TRACE(("SGX register size: %d",gsSGXDeviceMap.ui32RegsSize));
gsSGXDeviceMap.ui32IRQ = dev_irq;
PVR_TRACE(("SGX IRQ: %d", gsSGXDeviceMap.ui32IRQ));
#else
gsSGXDeviceMap.sRegsSysPBase.uiAddr = SYS_OMAP4430_SGX_REGS_SYS_PHYS_BASE;
gsSGXDeviceMap.sRegsCpuPBase = SysSysPAddrToCpuPAddr(gsSGXDeviceMap.sRegsSysPBase);
gsSGXDeviceMap.ui32RegsSize = SYS_OMAP4430_SGX_REGS_SIZE;
gsSGXDeviceMap.ui32IRQ = SYS_OMAP4430_SGX_IRQ;
#endif
#if defined(SGX_OCP_REGS_ENABLED)
gsSGXRegsCPUVAddr = OSMapPhysToLin(gsSGXDeviceMap.sRegsCpuPBase,
gsSGXDeviceMap.ui32RegsSize,
PVRSRV_HAP_UNCACHED|PVRSRV_HAP_KERNEL_ONLY,
IMG_NULL);
if (gsSGXRegsCPUVAddr == IMG_NULL)
{
PVR_DPF((PVR_DBG_ERROR,"SysLocateDevices: Failed to map SGX registers"));
return PVRSRV_ERROR_BAD_MAPPING;
}
gsSGXDeviceMap.pvRegsCpuVBase = gsSGXRegsCPUVAddr;
gpvOCPRegsLinAddr = gsSGXRegsCPUVAddr;
#endif
#endif
#if defined(PDUMP)
{
static IMG_CHAR pszPDumpDevName[] = "SGXMEM";
gsSGXDeviceMap.pszPDumpDevName = pszPDumpDevName;
}
#endif
return PVRSRV_OK;
}
static IMG_CHAR *SysCreateVersionString(void)
{
static IMG_CHAR aszVersionString[100];
SYS_DATA *psSysData;
IMG_UINT32 ui32SGXRevision;
IMG_INT32 i32Count;
#if !defined(NO_HARDWARE)
IMG_VOID *pvRegsLinAddr;
pvRegsLinAddr = OSMapPhysToLin(gsSGXDeviceMap.sRegsCpuPBase,
gsSGXDeviceMap.ui32RegsSize,
PVRSRV_HAP_UNCACHED|PVRSRV_HAP_KERNEL_ONLY,
IMG_NULL);
if(!pvRegsLinAddr)
{
return IMG_NULL;
}
ui32SGXRevision = OSReadHWReg((IMG_PVOID)((IMG_PBYTE)pvRegsLinAddr),
EUR_CR_CORE_REVISION);
#else
ui32SGXRevision = 0;
#endif
SysAcquireData(&psSysData);
i32Count = OSSNPrintf(aszVersionString, 100,
"SGX revision = %u.%u.%u",
(IMG_UINT)((ui32SGXRevision & EUR_CR_CORE_REVISION_MAJOR_MASK)
>> EUR_CR_CORE_REVISION_MAJOR_SHIFT),
(IMG_UINT)((ui32SGXRevision & EUR_CR_CORE_REVISION_MINOR_MASK)
>> EUR_CR_CORE_REVISION_MINOR_SHIFT),
(IMG_UINT)((ui32SGXRevision & EUR_CR_CORE_REVISION_MAINTENANCE_MASK)
>> EUR_CR_CORE_REVISION_MAINTENANCE_SHIFT)
);
#if !defined(NO_HARDWARE)
OSUnMapPhysToLin(pvRegsLinAddr,
SYS_OMAP4430_SGX_REGS_SIZE,
PVRSRV_HAP_UNCACHED|PVRSRV_HAP_KERNEL_ONLY,
IMG_NULL);
#endif
if(i32Count == -1)
{
return IMG_NULL;
}
return aszVersionString;
}
PVRSRV_ERROR SysInitialise(IMG_VOID)
{
IMG_UINT32 i;
PVRSRV_ERROR eError;
PVRSRV_DEVICE_NODE *psDeviceNode;
#if !defined(PVR_NO_OMAP_TIMER)
IMG_CPU_PHYADDR TimerRegPhysBase;
#endif
#if !defined(SGX_DYNAMIC_TIMING_INFO)
SGX_TIMING_INFORMATION* psTimingInfo;
#endif
gpsSysData = &gsSysData;
OSMemSet(gpsSysData, 0, sizeof(SYS_DATA));
gpsSysSpecificData = &gsSysSpecificData;
OSMemSet(gpsSysSpecificData, 0, sizeof(SYS_SPECIFIC_DATA));
gpsSysData->pvSysSpecificData = gpsSysSpecificData;
eError = OSInitEnvData(&gpsSysData->pvEnvSpecificData);
if (eError != PVRSRV_OK)
{
PVR_DPF((PVR_DBG_ERROR,"SysInitialise: Failed to setup env structure"));
(IMG_VOID)SysDeinitialise(gpsSysData);
gpsSysData = IMG_NULL;
return eError;
}
SYS_SPECIFIC_DATA_SET(&gsSysSpecificData, SYS_SPECIFIC_DATA_ENABLE_ENVDATA);
gpsSysData->ui32NumDevices = SYS_DEVICE_COUNT;
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"));
(IMG_VOID)SysDeinitialise(gpsSysData);
gpsSysData = IMG_NULL;
return eError;
}
#if !defined(SGX_DYNAMIC_TIMING_INFO)
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
psTimingInfo->ui32ActivePowManLatencyms = SYS_SGX_ACTIVE_POWER_LATENCY_MS;
psTimingInfo->ui32uKernelFreq = SYS_SGX_PDS_TIMER_FREQ;
#endif
gpsSysSpecificData->ui32SrcClockDiv = 3;
eError = SysLocateDevices(gpsSysData);
if (eError != PVRSRV_OK)
{
PVR_DPF((PVR_DBG_ERROR,"SysInitialise: Failed to locate devices"));
(IMG_VOID)SysDeinitialise(gpsSysData);
gpsSysData = IMG_NULL;
return eError;
}
SYS_SPECIFIC_DATA_SET(&gsSysSpecificData, SYS_SPECIFIC_DATA_ENABLE_LOCATEDEV);
eError = SysPMRuntimeRegister();
if (eError != PVRSRV_OK)
{
PVR_DPF((PVR_DBG_ERROR,"SysInitialise: Failed to register with OSPM!"));
(IMG_VOID)SysDeinitialise(gpsSysData);
gpsSysData = IMG_NULL;
return eError;
}
SYS_SPECIFIC_DATA_SET(&gsSysSpecificData, SYS_SPECIFIC_DATA_ENABLE_PM_RUNTIME);
eError = PVRSRVRegisterDevice(gpsSysData, SGXRegisterDevice,
DEVICE_SGX_INTERRUPT, &gui32SGXDeviceID);
if (eError != PVRSRV_OK)
{
PVR_DPF((PVR_DBG_ERROR,"SysInitialise: Failed to register device!"));
(IMG_VOID)SysDeinitialise(gpsSysData);
gpsSysData = IMG_NULL;
return eError;
}
SYS_SPECIFIC_DATA_SET(&gsSysSpecificData, SYS_SPECIFIC_DATA_ENABLE_REGDEV);
psDeviceNode = gpsSysData->psDeviceNodeList;
while(psDeviceNode)
{
switch(psDeviceNode->sDevId.eDeviceType)
{
case PVRSRV_DEVICE_TYPE_SGX:
{
DEVICE_MEMORY_INFO *psDevMemoryInfo;
DEVICE_MEMORY_HEAP_INFO *psDeviceMemoryHeap;
psDeviceNode->psLocalDevMemArena = IMG_NULL;
psDevMemoryInfo = &psDeviceNode->sDevMemoryInfo;
psDeviceMemoryHeap = psDevMemoryInfo->psDeviceMemoryHeap;
for(i=0; i<psDevMemoryInfo->ui32HeapCount; i++)
{
psDeviceMemoryHeap[i].ui32Attribs |= PVRSRV_BACKINGSTORE_SYSMEM_NONCONTIG;
}
gpsSGXDevNode = psDeviceNode;
gsSysSpecificData.psSGXDevNode = psDeviceNode;
break;
}
default:
PVR_DPF((PVR_DBG_ERROR,"SysInitialise: Failed to find SGX device node!"));
return PVRSRV_ERROR_INIT_FAILURE;
}
psDeviceNode = psDeviceNode->psNext;
}
eError = EnableSystemClocksWrap(gpsSysData);
if (eError != PVRSRV_OK)
{
PVR_DPF((PVR_DBG_ERROR,"SysInitialise: Failed to Enable system clocks (%d)", eError));
(IMG_VOID)SysDeinitialise(gpsSysData);
gpsSysData = IMG_NULL;
return eError;
}
SYS_SPECIFIC_DATA_SET(&gsSysSpecificData, SYS_SPECIFIC_DATA_ENABLE_SYSCLOCKS);
#if defined(SUPPORT_ACTIVE_POWER_MANAGEMENT)
eError = EnableSGXClocksWrap(gpsSysData);
if (eError != PVRSRV_OK)
{
PVR_DPF((PVR_DBG_ERROR,"SysInitialise: Failed to Enable SGX clocks (%d)", eError));
(IMG_VOID)SysDeinitialise(gpsSysData);
gpsSysData = IMG_NULL;
return eError;
}
#endif
eError = PVRSRVInitialiseDevice(gui32SGXDeviceID);
if (eError != PVRSRV_OK)
{
PVR_DPF((PVR_DBG_ERROR,"SysInitialise: Failed to initialise device!"));
(IMG_VOID)SysDeinitialise(gpsSysData);
gpsSysData = IMG_NULL;
return eError;
}
SYS_SPECIFIC_DATA_SET(&gsSysSpecificData, SYS_SPECIFIC_DATA_ENABLE_INITDEV);
#if defined(SUPPORT_ACTIVE_POWER_MANAGEMENT)
DisableSGXClocks(gpsSysData);
#endif
#if !defined(PVR_NO_OMAP_TIMER)
#if defined(PVR_OMAP_TIMER_BASE_IN_SYS_SPEC_DATA)
TimerRegPhysBase = gsSysSpecificData.sTimerRegPhysBase;
#else
TimerRegPhysBase.uiAddr = SYS_OMAP4430_GP11TIMER_REGS_SYS_PHYS_BASE;
#endif
gpsSysData->pvSOCTimerRegisterKM = IMG_NULL;
gpsSysData->hSOCTimerRegisterOSMemHandle = 0;
if (TimerRegPhysBase.uiAddr != 0)
{
OSReservePhys(TimerRegPhysBase,
4,
PVRSRV_HAP_MULTI_PROCESS|PVRSRV_HAP_UNCACHED,
(IMG_VOID **)&gpsSysData->pvSOCTimerRegisterKM,
&gpsSysData->hSOCTimerRegisterOSMemHandle);
}
#endif
return PVRSRV_OK;
}
PVRSRV_ERROR SysFinalise(IMG_VOID)
{
PVRSRV_ERROR eError = PVRSRV_OK;
#if defined(SUPPORT_ACTIVE_POWER_MANAGEMENT)
eError = EnableSGXClocksWrap(gpsSysData);
if (eError != PVRSRV_OK)
{
PVR_DPF((PVR_DBG_ERROR,"SysFinalise: Failed to Enable SGX clocks (%d)", eError));
return eError;
}
#endif
eError = OSInstallMISR(gpsSysData);
if (eError != PVRSRV_OK)
{
PVR_DPF((PVR_DBG_ERROR,"SysFinalise: Failed to install MISR"));
return eError;
}
SYS_SPECIFIC_DATA_SET(&gsSysSpecificData, SYS_SPECIFIC_DATA_ENABLE_MISR);
#if defined(SYS_USING_INTERRUPTS)
eError = OSInstallDeviceLISR(gpsSysData, gsSGXDeviceMap.ui32IRQ, "SGX ISR", gpsSGXDevNode);
if (eError != PVRSRV_OK)
{
PVR_DPF((PVR_DBG_ERROR,"SysFinalise: Failed to install ISR"));
return eError;
}
SYS_SPECIFIC_DATA_SET(&gsSysSpecificData, SYS_SPECIFIC_DATA_ENABLE_LISR);
#endif
#if defined(__linux__)
gpsSysData->pszVersionString = SysCreateVersionString();
if (!gpsSysData->pszVersionString)
{
PVR_DPF((PVR_DBG_ERROR,"SysFinalise: Failed to create a system version string"));
}
else
{
PVR_TRACE(("SysFinalise: Version string: %s", gpsSysData->pszVersionString));
}
#endif
#if defined(SUPPORT_ACTIVE_POWER_MANAGEMENT)
DisableSGXClocks(gpsSysData);
#endif
gpsSysSpecificData->bSGXInitComplete = IMG_TRUE;
return eError;
}
PVRSRV_ERROR SysDeinitialise (SYS_DATA *psSysData)
{
PVRSRV_ERROR eError;
if(gpsSysData->pvSOCTimerRegisterKM)
{
OSUnReservePhys(gpsSysData->pvSOCTimerRegisterKM,
4,
PVRSRV_HAP_MULTI_PROCESS|PVRSRV_HAP_UNCACHED,
gpsSysData->hSOCTimerRegisterOSMemHandle);
}
#if defined(SYS_USING_INTERRUPTS)
if (SYS_SPECIFIC_DATA_TEST(gpsSysSpecificData, SYS_SPECIFIC_DATA_ENABLE_LISR))
{
eError = OSUninstallDeviceLISR(psSysData);
if (eError != PVRSRV_OK)
{
PVR_DPF((PVR_DBG_ERROR,"SysDeinitialise: OSUninstallDeviceLISR failed"));
return eError;
}
}
#endif
if (SYS_SPECIFIC_DATA_TEST(gpsSysSpecificData, SYS_SPECIFIC_DATA_ENABLE_MISR))
{
eError = OSUninstallMISR(psSysData);
if (eError != PVRSRV_OK)
{
PVR_DPF((PVR_DBG_ERROR,"SysDeinitialise: OSUninstallMISR failed"));
return eError;
}
}
if (SYS_SPECIFIC_DATA_TEST(gpsSysSpecificData, SYS_SPECIFIC_DATA_ENABLE_INITDEV))
{
#if defined(SUPPORT_ACTIVE_POWER_MANAGEMENT)
PVR_ASSERT(SYS_SPECIFIC_DATA_TEST(gpsSysSpecificData, SYS_SPECIFIC_DATA_ENABLE_SYSCLOCKS));
eError = EnableSGXClocksWrap(gpsSysData);
if (eError != PVRSRV_OK)
{
PVR_DPF((PVR_DBG_ERROR,"SysDeinitialise: EnableSGXClocks failed"));
return eError;
}
#endif
eError = PVRSRVDeinitialiseDevice (gui32SGXDeviceID);
if (eError != PVRSRV_OK)
{
PVR_DPF((PVR_DBG_ERROR,"SysDeinitialise: failed to de-init the device"));
return eError;
}
}
if (SYS_SPECIFIC_DATA_TEST(gpsSysSpecificData, SYS_SPECIFIC_DATA_ENABLE_PM_RUNTIME))
{
eError = SysPMRuntimeUnregister();
if (eError != PVRSRV_OK)
{
PVR_DPF((PVR_DBG_ERROR,"SysDeinitialise: Failed to unregister with OSPM!"));
gpsSysData = IMG_NULL;
return eError;
}
}
if (SYS_SPECIFIC_DATA_TEST(gpsSysSpecificData, SYS_SPECIFIC_DATA_ENABLE_SYSCLOCKS))
{
DisableSystemClocks(gpsSysData);
}
if (SYS_SPECIFIC_DATA_TEST(gpsSysSpecificData, SYS_SPECIFIC_DATA_ENABLE_ENVDATA))
{
eError = OSDeInitEnvData(gpsSysData->pvEnvSpecificData);
if (eError != PVRSRV_OK)
{
PVR_DPF((PVR_DBG_ERROR,"SysDeinitialise: failed to de-init env structure"));
return eError;
}
}
SysDeinitialiseCommon(gpsSysData);
#if defined(NO_HARDWARE) || defined(SGX_OCP_REGS_ENABLED)
if(gsSGXRegsCPUVAddr != IMG_NULL)
{
#if defined(NO_HARDWARE)
OSBaseFreeContigMemory(SYS_OMAP4430_SGX_REGS_SIZE, gsSGXRegsCPUVAddr, gsSGXDeviceMap.sRegsCpuPBase);
#else
#if defined(SGX_OCP_REGS_ENABLED)
OSUnMapPhysToLin(gsSGXRegsCPUVAddr,
gsSGXDeviceMap.ui32RegsSize,
PVRSRV_HAP_UNCACHED|PVRSRV_HAP_KERNEL_ONLY,
IMG_NULL);
gpvOCPRegsLinAddr = IMG_NULL;
#endif
#endif
gsSGXRegsCPUVAddr = IMG_NULL;
gsSGXDeviceMap.pvRegsCpuVBase = gsSGXRegsCPUVAddr;
}
#endif
gpsSysSpecificData->ui32SysSpecificData = 0;
gpsSysSpecificData->bSGXInitComplete = IMG_FALSE;
gpsSysData = IMG_NULL;
return PVRSRV_OK;
}
PVRSRV_ERROR SysGetDeviceMemoryMap(PVRSRV_DEVICE_TYPE eDeviceType,
IMG_VOID **ppvDeviceMap)
{
switch(eDeviceType)
{
case PVRSRV_DEVICE_TYPE_SGX:
{
*ppvDeviceMap = (IMG_VOID*)&gsSGXDeviceMap;
break;
}
default:
{
PVR_DPF((PVR_DBG_ERROR,"SysGetDeviceMemoryMap: unsupported device type"));
}
}
return PVRSRV_OK;
}
IMG_DEV_PHYADDR SysCpuPAddrToDevPAddr(PVRSRV_DEVICE_TYPE eDeviceType,
IMG_CPU_PHYADDR CpuPAddr)
{
IMG_DEV_PHYADDR DevPAddr;
PVR_UNREFERENCED_PARAMETER(eDeviceType);
DevPAddr.uiAddr = CpuPAddr.uiAddr;
return DevPAddr;
}
IMG_CPU_PHYADDR SysSysPAddrToCpuPAddr (IMG_SYS_PHYADDR sys_paddr)
{
IMG_CPU_PHYADDR cpu_paddr;
cpu_paddr.uiAddr = sys_paddr.uiAddr;
return cpu_paddr;
}
IMG_SYS_PHYADDR SysCpuPAddrToSysPAddr (IMG_CPU_PHYADDR cpu_paddr)
{
IMG_SYS_PHYADDR sys_paddr;
sys_paddr.uiAddr = cpu_paddr.uiAddr;
return sys_paddr;
}
IMG_DEV_PHYADDR SysSysPAddrToDevPAddr(PVRSRV_DEVICE_TYPE eDeviceType, IMG_SYS_PHYADDR SysPAddr)
{
IMG_DEV_PHYADDR DevPAddr;
PVR_UNREFERENCED_PARAMETER(eDeviceType);
DevPAddr.uiAddr = SysPAddr.uiAddr;
return DevPAddr;
}
IMG_SYS_PHYADDR SysDevPAddrToSysPAddr(PVRSRV_DEVICE_TYPE eDeviceType, IMG_DEV_PHYADDR DevPAddr)
{
IMG_SYS_PHYADDR SysPAddr;
PVR_UNREFERENCED_PARAMETER(eDeviceType);
SysPAddr.uiAddr = DevPAddr.uiAddr;
return SysPAddr;
}
IMG_VOID SysRegisterExternalDevice(PVRSRV_DEVICE_NODE *psDeviceNode)
{
PVR_UNREFERENCED_PARAMETER(psDeviceNode);
}
IMG_VOID SysRemoveExternalDevice(PVRSRV_DEVICE_NODE *psDeviceNode)
{
PVR_UNREFERENCED_PARAMETER(psDeviceNode);
}
IMG_UINT32 SysGetInterruptSource(SYS_DATA *psSysData,
PVRSRV_DEVICE_NODE *psDeviceNode)
{
PVR_UNREFERENCED_PARAMETER(psSysData);
#if defined(NO_HARDWARE)
return 0xFFFFFFFF;
#else
return psDeviceNode->ui32SOCInterruptBit;
#endif
}
IMG_VOID SysClearInterrupts(SYS_DATA* psSysData, IMG_UINT32 ui32ClearBits)
{
PVR_UNREFERENCED_PARAMETER(ui32ClearBits);
#if defined(NO_HARDWARE)
PVR_UNREFERENCED_PARAMETER(psSysData);
#else
#if defined(SGX_OCP_NO_INT_BYPASS)
OSWriteHWReg(gpvOCPRegsLinAddr, EUR_CR_OCP_IRQSTATUS_2, 0x1);
#endif
OSReadHWReg(((PVRSRV_SGXDEV_INFO *)gpsSGXDevNode->pvDevice)->pvRegsBaseKM, EUR_CR_EVENT_HOST_CLEAR);
#endif
}
#if defined(SGX_OCP_NO_INT_BYPASS)
IMG_VOID SysEnableSGXInterrupts(SYS_DATA *psSysData)
{
SYS_SPECIFIC_DATA *psSysSpecData = (SYS_SPECIFIC_DATA *)psSysData->pvSysSpecificData;
if (SYS_SPECIFIC_DATA_TEST(psSysSpecData, SYS_SPECIFIC_DATA_ENABLE_LISR) && !SYS_SPECIFIC_DATA_TEST(psSysSpecData, SYS_SPECIFIC_DATA_IRQ_ENABLED))
{
OSWriteHWReg(gpvOCPRegsLinAddr, EUR_CR_OCP_IRQSTATUS_2, 0x1);
OSWriteHWReg(gpvOCPRegsLinAddr, EUR_CR_OCP_IRQENABLE_SET_2, 0x1);
SYS_SPECIFIC_DATA_SET(psSysSpecData, SYS_SPECIFIC_DATA_IRQ_ENABLED);
}
}
IMG_VOID SysDisableSGXInterrupts(SYS_DATA *psSysData)
{
SYS_SPECIFIC_DATA *psSysSpecData = (SYS_SPECIFIC_DATA *)psSysData->pvSysSpecificData;
if (SYS_SPECIFIC_DATA_TEST(psSysSpecData, SYS_SPECIFIC_DATA_IRQ_ENABLED))
{
OSWriteHWReg(gpvOCPRegsLinAddr, EUR_CR_OCP_IRQENABLE_CLR_2, 0x1);
SYS_SPECIFIC_DATA_CLEAR(psSysSpecData, SYS_SPECIFIC_DATA_IRQ_ENABLED);
}
}
#endif
PVRSRV_ERROR SysSystemPrePowerState(PVRSRV_SYS_POWER_STATE eNewPowerState)
{
PVRSRV_ERROR eError = PVRSRV_OK;
if (eNewPowerState == PVRSRV_SYS_POWER_STATE_D3)
{
PVR_TRACE(("SysSystemPrePowerState: Entering state D3"));
#if defined(SYS_USING_INTERRUPTS)
if (SYS_SPECIFIC_DATA_TEST(&gsSysSpecificData, SYS_SPECIFIC_DATA_ENABLE_LISR))
{
#if defined(SYS_CUSTOM_POWERLOCK_WRAP)
IMG_BOOL bWrapped = WrapSystemPowerChange(&gsSysSpecificData);
#endif
eError = OSUninstallDeviceLISR(gpsSysData);
#if defined(SYS_CUSTOM_POWERLOCK_WRAP)
if (bWrapped)
{
UnwrapSystemPowerChange(&gsSysSpecificData);
}
#endif
if (eError != PVRSRV_OK)
{
PVR_DPF((PVR_DBG_ERROR,"SysSystemPrePowerState: OSUninstallDeviceLISR failed (%d)", eError));
return eError;
}
SYS_SPECIFIC_DATA_SET(&gsSysSpecificData, SYS_SPECIFIC_DATA_PM_UNINSTALL_LISR);
SYS_SPECIFIC_DATA_CLEAR(&gsSysSpecificData, SYS_SPECIFIC_DATA_ENABLE_LISR);
}
#endif
if (SYS_SPECIFIC_DATA_TEST(&gsSysSpecificData, SYS_SPECIFIC_DATA_ENABLE_SYSCLOCKS))
{
DisableSystemClocks(gpsSysData);
SYS_SPECIFIC_DATA_SET(&gsSysSpecificData, SYS_SPECIFIC_DATA_PM_DISABLE_SYSCLOCKS);
SYS_SPECIFIC_DATA_CLEAR(&gsSysSpecificData, SYS_SPECIFIC_DATA_ENABLE_SYSCLOCKS);
}
}
return eError;
}
PVRSRV_ERROR SysSystemPostPowerState(PVRSRV_SYS_POWER_STATE eNewPowerState)
{
PVRSRV_ERROR eError = PVRSRV_OK;
if (eNewPowerState == PVRSRV_SYS_POWER_STATE_D0)
{
PVR_TRACE(("SysSystemPostPowerState: Entering state D0"));
if (SYS_SPECIFIC_DATA_TEST(&gsSysSpecificData, SYS_SPECIFIC_DATA_PM_DISABLE_SYSCLOCKS))
{
eError = EnableSystemClocksWrap(gpsSysData);
if (eError != PVRSRV_OK)
{
PVR_DPF((PVR_DBG_ERROR,"SysSystemPostPowerState: EnableSystemClocksWrap failed (%d)", eError));
return eError;
}
SYS_SPECIFIC_DATA_SET(&gsSysSpecificData, SYS_SPECIFIC_DATA_ENABLE_SYSCLOCKS);
SYS_SPECIFIC_DATA_CLEAR(&gsSysSpecificData, SYS_SPECIFIC_DATA_PM_DISABLE_SYSCLOCKS);
}
#if defined(SYS_USING_INTERRUPTS)
if (SYS_SPECIFIC_DATA_TEST(&gsSysSpecificData, SYS_SPECIFIC_DATA_PM_UNINSTALL_LISR))
{
#if defined(SYS_CUSTOM_POWERLOCK_WRAP)
IMG_BOOL bWrapped = WrapSystemPowerChange(&gsSysSpecificData);
#endif
eError = OSInstallDeviceLISR(gpsSysData, gsSGXDeviceMap.ui32IRQ, "SGX ISR", gpsSGXDevNode);
#if defined(SYS_CUSTOM_POWERLOCK_WRAP)
if (bWrapped)
{
UnwrapSystemPowerChange(&gsSysSpecificData);
}
#endif
if (eError != PVRSRV_OK)
{
PVR_DPF((PVR_DBG_ERROR,"SysSystemPostPowerState: OSInstallDeviceLISR failed to install ISR (%d)", eError));
return eError;
}
SYS_SPECIFIC_DATA_SET(&gsSysSpecificData, SYS_SPECIFIC_DATA_ENABLE_LISR);
SYS_SPECIFIC_DATA_CLEAR(&gsSysSpecificData, SYS_SPECIFIC_DATA_PM_UNINSTALL_LISR);
}
#endif
}
return eError;
}
PVRSRV_ERROR SysDevicePrePowerState(IMG_UINT32 ui32DeviceIndex,
PVRSRV_DEV_POWER_STATE eNewPowerState,
PVRSRV_DEV_POWER_STATE eCurrentPowerState)
{
PVR_UNREFERENCED_PARAMETER(eCurrentPowerState);
if (ui32DeviceIndex != gui32SGXDeviceID)
{
return PVRSRV_OK;
}
#if defined(SUPPORT_ACTIVE_POWER_MANAGEMENT)
if (eNewPowerState == PVRSRV_DEV_POWER_STATE_OFF)
{
PVR_DPF((PVR_DBG_MESSAGE, "SysDevicePrePowerState: SGX Entering state D3"));
DisableSGXClocks(gpsSysData);
}
#else
PVR_UNREFERENCED_PARAMETER(eNewPowerState );
#endif
return PVRSRV_OK;
}
PVRSRV_ERROR SysDevicePostPowerState(IMG_UINT32 ui32DeviceIndex,
PVRSRV_DEV_POWER_STATE eNewPowerState,
PVRSRV_DEV_POWER_STATE eCurrentPowerState)
{
PVRSRV_ERROR eError = PVRSRV_OK;
PVR_UNREFERENCED_PARAMETER(eNewPowerState);
if (ui32DeviceIndex != gui32SGXDeviceID)
{
return eError;
}
#if defined(SUPPORT_ACTIVE_POWER_MANAGEMENT)
if (eCurrentPowerState == PVRSRV_DEV_POWER_STATE_OFF)
{
PVR_DPF((PVR_DBG_MESSAGE, "SysDevicePostPowerState: SGX Leaving state D3"));
eError = EnableSGXClocksWrap(gpsSysData);
}
#else
PVR_UNREFERENCED_PARAMETER(eCurrentPowerState);
#endif
return eError;
}
PVRSRV_ERROR SysOEMFunction ( IMG_UINT32 ui32ID,
IMG_VOID *pvIn,
IMG_UINT32 ulInSize,
IMG_VOID *pvOut,
IMG_UINT32 ulOutSize)
{
PVR_UNREFERENCED_PARAMETER(ui32ID);
PVR_UNREFERENCED_PARAMETER(pvIn);
PVR_UNREFERENCED_PARAMETER(ulInSize);
PVR_UNREFERENCED_PARAMETER(pvOut);
PVR_UNREFERENCED_PARAMETER(ulOutSize);
if ((ui32ID == OEM_GET_EXT_FUNCS) &&
(ulOutSize == sizeof(PVRSRV_DC_OEM_JTABLE)))
{
PVRSRV_DC_OEM_JTABLE *psOEMJTable = (PVRSRV_DC_OEM_JTABLE*) pvOut;
psOEMJTable->pfnOEMBridgeDispatch = &PVRSRV_BridgeDispatchKM;
return PVRSRV_OK;
}
return PVRSRV_ERROR_INVALID_PARAMS;
}
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