/*************************************************************************/ /*! @Title Device specific kickTA routines @Copyright Copyright (c) Imagination Technologies Ltd. All Rights Reserved @License Dual MIT/GPLv2 The contents of this file are subject to the MIT license as set out below. Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. Alternatively, the contents of this file may be used under the terms of the GNU General Public License Version 2 ("GPL") in which case the provisions of GPL are applicable instead of those above. If you wish to allow use of your version of this file only under the terms of GPL, and not to allow others to use your version of this file under the terms of the MIT license, indicate your decision by deleting the provisions above and replace them with the notice and other provisions required by GPL as set out in the file called "GPL-COPYING" included in this distribution. If you do not delete the provisions above, a recipient may use your version of this file under the terms of either the MIT license or GPL. This License is also included in this distribution in the file called "MIT-COPYING". EXCEPT AS OTHERWISE STATED IN A NEGOTIATED AGREEMENT: (A) THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT; AND (B) IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */ /**************************************************************************/ #include /* For the macro offsetof() */ #include "services_headers.h" #include "sgxinfo.h" #include "sgxinfokm.h" #if defined (PDUMP) #include "sgxapi_km.h" #include "pdump_km.h" #endif #include "sgx_bridge_km.h" #include "osfunc.h" #include "pvr_debug.h" #include "sgxutils.h" #include "ttrace.h" /*! ****************************************************************************** @Function SGXDoKickKM @Description Really kicks the TA @Input hDevHandle - Device handle @Return ui32Error - success or failure ******************************************************************************/ IMG_EXPORT #if defined (SUPPORT_SID_INTERFACE) PVRSRV_ERROR SGXDoKickKM(IMG_HANDLE hDevHandle, SGX_CCB_KICK_KM *psCCBKick) #else PVRSRV_ERROR SGXDoKickKM(IMG_HANDLE hDevHandle, SGX_CCB_KICK *psCCBKick) #endif { PVRSRV_ERROR eError; PVRSRV_KERNEL_SYNC_INFO *psSyncInfo; PVRSRV_KERNEL_MEM_INFO *psCCBMemInfo = (PVRSRV_KERNEL_MEM_INFO *) psCCBKick->hCCBKernelMemInfo; SGXMKIF_CMDTA_SHARED *psTACmd; IMG_UINT32 i; IMG_HANDLE hDevMemContext = IMG_NULL; #if defined(FIX_HW_BRN_31620) hDevMemContext = psCCBKick->hDevMemContext; #endif PVR_TTRACE(PVRSRV_TRACE_GROUP_KICK, PVRSRV_TRACE_CLASS_FUNCTION_ENTER, KICK_TOKEN_DOKICK); if (!CCB_OFFSET_IS_VALID(SGXMKIF_CMDTA_SHARED, psCCBMemInfo, psCCBKick, ui32CCBOffset)) { PVR_DPF((PVR_DBG_ERROR, "SGXDoKickKM: Invalid CCB offset")); PVR_TTRACE(PVRSRV_TRACE_GROUP_KICK, PVRSRV_TRACE_CLASS_FUNCTION_EXIT, KICK_TOKEN_DOKICK); return PVRSRV_ERROR_INVALID_PARAMS; } /* override QAC warning about stricter alignment */ /* PRQA S 3305 1 */ psTACmd = CCB_DATA_FROM_OFFSET(SGXMKIF_CMDTA_SHARED, psCCBMemInfo, psCCBKick, ui32CCBOffset); PVR_TTRACE(PVRSRV_TRACE_GROUP_KICK, PVRSRV_TRACE_CLASS_CMD_START, KICK_TOKEN_DOKICK); #if defined(TTRACE) if (psCCBKick->bFirstKickOrResume) { PVR_TTRACE(PVRSRV_TRACE_GROUP_KICK, PVRSRV_TRACE_CLASS_FLAGS, KICK_TOKEN_FIRST_KICK); } if (psCCBKick->bLastInScene) { PVR_TTRACE(PVRSRV_TRACE_GROUP_KICK, PVRSRV_TRACE_CLASS_FLAGS, KICK_TOKEN_LAST_KICK); } #endif PVR_TTRACE_UI32(PVRSRV_TRACE_GROUP_KICK, PVRSRV_TRACE_CLASS_CCB, KICK_TOKEN_CCB_OFFSET, psCCBKick->ui32CCBOffset); /* TA/3D dependency */ if (psCCBKick->hTA3DSyncInfo) { psSyncInfo = (PVRSRV_KERNEL_SYNC_INFO *)psCCBKick->hTA3DSyncInfo; PVR_TTRACE_SYNC_OBJECT(PVRSRV_TRACE_GROUP_KICK, KICK_TOKEN_TA3D_SYNC, psSyncInfo, PVRSRV_SYNCOP_SAMPLE); psTACmd->sTA3DDependency.sWriteOpsCompleteDevVAddr = psSyncInfo->sWriteOpsCompleteDevVAddr; psTACmd->sTA3DDependency.ui32WriteOpsPendingVal = psSyncInfo->psSyncData->ui32WriteOpsPending; if (psCCBKick->bTADependency) { psSyncInfo->psSyncData->ui32WriteOpsPending++; } } if (psCCBKick->hTASyncInfo != IMG_NULL) { psSyncInfo = (PVRSRV_KERNEL_SYNC_INFO *)psCCBKick->hTASyncInfo; PVR_TTRACE_SYNC_OBJECT(PVRSRV_TRACE_GROUP_KICK, KICK_TOKEN_TA_SYNC, psSyncInfo, PVRSRV_SYNCOP_SAMPLE); psTACmd->sTATQSyncReadOpsCompleteDevVAddr = psSyncInfo->sReadOpsCompleteDevVAddr; psTACmd->sTATQSyncWriteOpsCompleteDevVAddr = psSyncInfo->sWriteOpsCompleteDevVAddr; psTACmd->ui32TATQSyncReadOpsPendingVal = psSyncInfo->psSyncData->ui32ReadOpsPending++; psTACmd->ui32TATQSyncWriteOpsPendingVal = psSyncInfo->psSyncData->ui32WriteOpsPending; } if (psCCBKick->h3DSyncInfo != IMG_NULL) { psSyncInfo = (PVRSRV_KERNEL_SYNC_INFO *)psCCBKick->h3DSyncInfo; PVR_TTRACE_SYNC_OBJECT(PVRSRV_TRACE_GROUP_KICK, KICK_TOKEN_3D_SYNC, psSyncInfo, PVRSRV_SYNCOP_SAMPLE); psTACmd->s3DTQSyncReadOpsCompleteDevVAddr = psSyncInfo->sReadOpsCompleteDevVAddr; psTACmd->s3DTQSyncWriteOpsCompleteDevVAddr = psSyncInfo->sWriteOpsCompleteDevVAddr; psTACmd->ui323DTQSyncReadOpsPendingVal = psSyncInfo->psSyncData->ui32ReadOpsPending++; psTACmd->ui323DTQSyncWriteOpsPendingVal = psSyncInfo->psSyncData->ui32WriteOpsPending; } psTACmd->ui32NumTAStatusVals = psCCBKick->ui32NumTAStatusVals; if (psCCBKick->ui32NumTAStatusVals != 0) { /* Copy status vals over */ for (i = 0; i < psCCBKick->ui32NumTAStatusVals; i++) { #if defined(SUPPORT_SGX_NEW_STATUS_VALS) psTACmd->sCtlTAStatusInfo[i] = psCCBKick->asTAStatusUpdate[i].sCtlStatus; #else psSyncInfo = (PVRSRV_KERNEL_SYNC_INFO *)psCCBKick->ahTAStatusSyncInfo[i]; psTACmd->sCtlTAStatusInfo[i].sStatusDevAddr = psSyncInfo->sReadOpsCompleteDevVAddr; psTACmd->sCtlTAStatusInfo[i].ui32StatusValue = psSyncInfo->psSyncData->ui32ReadOpsPending; #endif } } psTACmd->ui32Num3DStatusVals = psCCBKick->ui32Num3DStatusVals; if (psCCBKick->ui32Num3DStatusVals != 0) { /* Copy status vals over */ for (i = 0; i < psCCBKick->ui32Num3DStatusVals; i++) { #if defined(SUPPORT_SGX_NEW_STATUS_VALS) psTACmd->sCtl3DStatusInfo[i] = psCCBKick->as3DStatusUpdate[i].sCtlStatus; #else psSyncInfo = (PVRSRV_KERNEL_SYNC_INFO *)psCCBKick->ah3DStatusSyncInfo[i]; psTACmd->sCtl3DStatusInfo[i].sStatusDevAddr = psSyncInfo->sReadOpsCompleteDevVAddr; psTACmd->sCtl3DStatusInfo[i].ui32StatusValue = psSyncInfo->psSyncData->ui32ReadOpsPending; #endif } } #if defined(SUPPORT_SGX_GENERALISED_SYNCOBJECTS) /* SRC and DST sync dependencies */ psTACmd->ui32NumTASrcSyncs = psCCBKick->ui32NumTASrcSyncs; for (i=0; iui32NumTASrcSyncs; i++) { psSyncInfo = (PVRSRV_KERNEL_SYNC_INFO *) psCCBKick->ahTASrcKernelSyncInfo[i]; psTACmd->asTASrcSyncs[i].sWriteOpsCompleteDevVAddr = psSyncInfo->sWriteOpsCompleteDevVAddr; psTACmd->asTASrcSyncs[i].sReadOpsCompleteDevVAddr = psSyncInfo->sReadOpsCompleteDevVAddr; /* Get ui32ReadOpsPending snapshot and copy into the CCB - before incrementing. */ psTACmd->asTASrcSyncs[i].ui32ReadOpsPendingVal = psSyncInfo->psSyncData->ui32ReadOpsPending++; /* Copy ui32WriteOpsPending snapshot into the CCB. */ psTACmd->asTASrcSyncs[i].ui32WriteOpsPendingVal = psSyncInfo->psSyncData->ui32WriteOpsPending; } psTACmd->ui32NumTADstSyncs = psCCBKick->ui32NumTADstSyncs; for (i=0; iui32NumTADstSyncs; i++) { psSyncInfo = (PVRSRV_KERNEL_SYNC_INFO *) psCCBKick->ahTADstKernelSyncInfo[i]; psTACmd->asTADstSyncs[i].sWriteOpsCompleteDevVAddr = psSyncInfo->sWriteOpsCompleteDevVAddr; psTACmd->asTADstSyncs[i].sReadOpsCompleteDevVAddr = psSyncInfo->sReadOpsCompleteDevVAddr; /* Get ui32ReadOpsPending snapshot and copy into the CCB */ psTACmd->asTADstSyncs[i].ui32ReadOpsPendingVal = psSyncInfo->psSyncData->ui32ReadOpsPending; /* Copy ui32WriteOpsPending snapshot into the CCB - before incrementing */ psTACmd->asTADstSyncs[i].ui32WriteOpsPendingVal = psSyncInfo->psSyncData->ui32WriteOpsPending++; } psTACmd->ui32Num3DSrcSyncs = psCCBKick->ui32Num3DSrcSyncs; for (i=0; iui32Num3DSrcSyncs; i++) { psSyncInfo = (PVRSRV_KERNEL_SYNC_INFO *) psCCBKick->ah3DSrcKernelSyncInfo[i]; psTACmd->as3DSrcSyncs[i].sWriteOpsCompleteDevVAddr = psSyncInfo->sWriteOpsCompleteDevVAddr; psTACmd->as3DSrcSyncs[i].sReadOpsCompleteDevVAddr = psSyncInfo->sReadOpsCompleteDevVAddr; /* Get ui32ReadOpsPending snapshot and copy into the CCB - before incrementing. */ psTACmd->as3DSrcSyncs[i].ui32ReadOpsPendingVal = psSyncInfo->psSyncData->ui32ReadOpsPending++; /* Copy ui32WriteOpsPending snapshot into the CCB. */ psTACmd->as3DSrcSyncs[i].ui32WriteOpsPendingVal = psSyncInfo->psSyncData->ui32WriteOpsPending; } #else /* SUPPORT_SGX_GENERALISED_SYNCOBJECTS */ /* texture dependencies */ psTACmd->ui32NumSrcSyncs = psCCBKick->ui32NumSrcSyncs; for (i=0; iui32NumSrcSyncs; i++) { psSyncInfo = (PVRSRV_KERNEL_SYNC_INFO *) psCCBKick->ahSrcKernelSyncInfo[i]; PVR_TTRACE_SYNC_OBJECT(PVRSRV_TRACE_GROUP_KICK, KICK_TOKEN_SRC_SYNC, psSyncInfo, PVRSRV_SYNCOP_SAMPLE); psTACmd->asSrcSyncs[i].sWriteOpsCompleteDevVAddr = psSyncInfo->sWriteOpsCompleteDevVAddr; psTACmd->asSrcSyncs[i].sReadOpsCompleteDevVAddr = psSyncInfo->sReadOpsCompleteDevVAddr; /* Get ui32ReadOpsPending snapshot and copy into the CCB - before incrementing. */ psTACmd->asSrcSyncs[i].ui32ReadOpsPendingVal = psSyncInfo->psSyncData->ui32ReadOpsPending++; /* Copy ui32WriteOpsPending snapshot into the CCB. */ psTACmd->asSrcSyncs[i].ui32WriteOpsPendingVal = psSyncInfo->psSyncData->ui32WriteOpsPending; } #endif/* SUPPORT_SGX_GENERALISED_SYNCOBJECTS */ if (psCCBKick->bFirstKickOrResume && psCCBKick->ui32NumDstSyncObjects > 0) { PVRSRV_KERNEL_MEM_INFO *psHWDstSyncListMemInfo = (PVRSRV_KERNEL_MEM_INFO *)psCCBKick->hKernelHWSyncListMemInfo; SGXMKIF_HWDEVICE_SYNC_LIST *psHWDeviceSyncList = psHWDstSyncListMemInfo->pvLinAddrKM; IMG_UINT32 ui32NumDstSyncs = psCCBKick->ui32NumDstSyncObjects; PVR_ASSERT(((PVRSRV_KERNEL_MEM_INFO *)psCCBKick->hKernelHWSyncListMemInfo)->uAllocSize >= (sizeof(SGXMKIF_HWDEVICE_SYNC_LIST) + (sizeof(PVRSRV_DEVICE_SYNC_OBJECT) * ui32NumDstSyncs))); psHWDeviceSyncList->ui32NumSyncObjects = ui32NumDstSyncs; #if defined(PDUMP) if (PDumpIsCaptureFrameKM()) { PDUMPCOMMENT("HWDeviceSyncList for TACmd\r\n"); PDUMPMEM(IMG_NULL, psHWDstSyncListMemInfo, 0, sizeof(SGXMKIF_HWDEVICE_SYNC_LIST), 0, MAKEUNIQUETAG(psHWDstSyncListMemInfo)); } #endif for (i=0; ipahDstSyncHandles[i]; if (psSyncInfo) { psSyncInfo->psSyncData->ui64LastWrite = ui64KickCount; PVR_TTRACE_SYNC_OBJECT(PVRSRV_TRACE_GROUP_KICK, KICK_TOKEN_DST_SYNC, psSyncInfo, PVRSRV_SYNCOP_SAMPLE); psHWDeviceSyncList->asSyncData[i].sWriteOpsCompleteDevVAddr = psSyncInfo->sWriteOpsCompleteDevVAddr; psHWDeviceSyncList->asSyncData[i].sReadOpsCompleteDevVAddr = psSyncInfo->sReadOpsCompleteDevVAddr; psHWDeviceSyncList->asSyncData[i].sReadOps2CompleteDevVAddr = psSyncInfo->sReadOps2CompleteDevVAddr; psHWDeviceSyncList->asSyncData[i].ui32ReadOpsPendingVal = psSyncInfo->psSyncData->ui32ReadOpsPending; psHWDeviceSyncList->asSyncData[i].ui32WriteOpsPendingVal = psSyncInfo->psSyncData->ui32WriteOpsPending++; psHWDeviceSyncList->asSyncData[i].ui32ReadOps2PendingVal = psSyncInfo->psSyncData->ui32ReadOps2Pending; #if defined(PDUMP) if (PDumpIsCaptureFrameKM()) { IMG_UINT32 ui32ModifiedValue; IMG_UINT32 ui32SyncOffset = offsetof(SGXMKIF_HWDEVICE_SYNC_LIST, asSyncData) + (i * sizeof(PVRSRV_DEVICE_SYNC_OBJECT)); IMG_UINT32 ui32WOpsOffset = ui32SyncOffset + offsetof(PVRSRV_DEVICE_SYNC_OBJECT, ui32WriteOpsPendingVal); IMG_UINT32 ui32ROpsOffset = ui32SyncOffset + offsetof(PVRSRV_DEVICE_SYNC_OBJECT, ui32ReadOpsPendingVal); IMG_UINT32 ui32ROps2Offset = ui32SyncOffset + offsetof(PVRSRV_DEVICE_SYNC_OBJECT, ui32ReadOps2PendingVal); PDUMPCOMMENT("HWDeviceSyncObject for RT: %i\r\n", i); PDUMPMEM(IMG_NULL, psHWDstSyncListMemInfo, ui32SyncOffset, sizeof(PVRSRV_DEVICE_SYNC_OBJECT), 0, MAKEUNIQUETAG(psHWDstSyncListMemInfo)); if ((psSyncInfo->psSyncData->ui32LastOpDumpVal == 0) && (psSyncInfo->psSyncData->ui32LastReadOpDumpVal == 0)) { /* * Init the ROpsComplete value to 0. */ PDUMPCOMMENT("Init RT ROpsComplete\r\n"); PDUMPMEM(&psSyncInfo->psSyncData->ui32LastReadOpDumpVal, psSyncInfo->psSyncDataMemInfoKM, offsetof(PVRSRV_SYNC_DATA, ui32ReadOpsComplete), sizeof(psSyncInfo->psSyncData->ui32ReadOpsComplete), 0, MAKEUNIQUETAG(psSyncInfo->psSyncDataMemInfoKM)); /* * Init the WOpsComplete value to 0. */ PDUMPCOMMENT("Init RT WOpsComplete\r\n"); PDUMPMEM(&psSyncInfo->psSyncData->ui32LastOpDumpVal, psSyncInfo->psSyncDataMemInfoKM, offsetof(PVRSRV_SYNC_DATA, ui32WriteOpsComplete), sizeof(psSyncInfo->psSyncData->ui32WriteOpsComplete), 0, MAKEUNIQUETAG(psSyncInfo->psSyncDataMemInfoKM)); } psSyncInfo->psSyncData->ui32LastOpDumpVal++; ui32ModifiedValue = psSyncInfo->psSyncData->ui32LastOpDumpVal - 1; PDUMPCOMMENT("Modify RT %d WOpPendingVal in HWDevSyncList\r\n", i); PDUMPMEM(&ui32ModifiedValue, psHWDstSyncListMemInfo, ui32WOpsOffset, sizeof(IMG_UINT32), 0, MAKEUNIQUETAG(psHWDstSyncListMemInfo)); ui32ModifiedValue = 0; PDUMPCOMMENT("Modify RT %d ROpsPendingVal in HWDevSyncList\r\n", i); PDUMPMEM(&psSyncInfo->psSyncData->ui32LastReadOpDumpVal, psHWDstSyncListMemInfo, ui32ROpsOffset, sizeof(IMG_UINT32), 0, MAKEUNIQUETAG(psHWDstSyncListMemInfo)); /* * Force the ROps2Complete value to 0. */ PDUMPCOMMENT("Modify RT %d ROps2PendingVal in HWDevSyncList\r\n", i); PDUMPMEM(&ui32ModifiedValue, psHWDstSyncListMemInfo, ui32ROps2Offset, sizeof(IMG_UINT32), 0, MAKEUNIQUETAG(psHWDstSyncListMemInfo)); } #endif /* defined(PDUMP) */ } else { psHWDeviceSyncList->asSyncData[i].sWriteOpsCompleteDevVAddr.uiAddr = 0; psHWDeviceSyncList->asSyncData[i].sReadOpsCompleteDevVAddr.uiAddr = 0; psHWDeviceSyncList->asSyncData[i].sReadOps2CompleteDevVAddr.uiAddr = 0; psHWDeviceSyncList->asSyncData[i].ui32ReadOpsPendingVal = 0; psHWDeviceSyncList->asSyncData[i].ui32ReadOps2PendingVal = 0; psHWDeviceSyncList->asSyncData[i].ui32WriteOpsPendingVal = 0; } } } /* NOTE: THIS MUST BE THE LAST THING WRITTEN TO THE TA COMMAND! Set the ready for so the uKernel will process the command. */ psTACmd->ui32CtrlFlags |= SGXMKIF_CMDTA_CTRLFLAGS_READY; #if defined(PDUMP) if (PDumpIsCaptureFrameKM()) { PDUMPCOMMENT("Shared part of TA command\r\n"); PDUMPMEM(psTACmd, psCCBMemInfo, psCCBKick->ui32CCBDumpWOff, sizeof(SGXMKIF_CMDTA_SHARED), 0, MAKEUNIQUETAG(psCCBMemInfo)); #if defined(SUPPORT_SGX_GENERALISED_SYNCOBJECTS) for (i=0; iui32NumTASrcSyncs; i++) { IMG_UINT32 ui32ModifiedValue; psSyncInfo = (PVRSRV_KERNEL_SYNC_INFO *) psCCBKick->ahTASrcKernelSyncInfo[i]; if ((psSyncInfo->psSyncData->ui32LastOpDumpVal == 0) && (psSyncInfo->psSyncData->ui32LastReadOpDumpVal == 0)) { /* * Init the ROpsComplete value to 0. */ PDUMPCOMMENT("Init RT TA-SRC ROpsComplete\r\n", i); PDUMPMEM(&psSyncInfo->psSyncData->ui32LastReadOpDumpVal, psSyncInfo->psSyncDataMemInfoKM, offsetof(PVRSRV_SYNC_DATA, ui32ReadOpsComplete), sizeof(psSyncInfo->psSyncData->ui32ReadOpsComplete), 0, MAKEUNIQUETAG(psSyncInfo->psSyncDataMemInfoKM)); /* * Init the WOpsComplete value to 0. */ PDUMPCOMMENT("Init RT TA-SRC WOpsComplete\r\n"); PDUMPMEM(&psSyncInfo->psSyncData->ui32LastOpDumpVal, psSyncInfo->psSyncDataMemInfoKM, offsetof(PVRSRV_SYNC_DATA, ui32WriteOpsComplete), sizeof(psSyncInfo->psSyncData->ui32WriteOpsComplete), 0, MAKEUNIQUETAG(psSyncInfo->psSyncDataMemInfoKM)); } psSyncInfo->psSyncData->ui32LastReadOpDumpVal++; ui32ModifiedValue = psSyncInfo->psSyncData->ui32LastReadOpDumpVal - 1; PDUMPCOMMENT("Modify TA SrcSync %d ROpsPendingVal\r\n", i); PDUMPMEM(&ui32ModifiedValue, psCCBMemInfo, psCCBKick->ui32CCBDumpWOff + offsetof(SGXMKIF_CMDTA_SHARED, asTASrcSyncs) + (i * sizeof(PVRSRV_DEVICE_SYNC_OBJECT)) + offsetof(PVRSRV_DEVICE_SYNC_OBJECT, ui32ReadOpsPendingVal), sizeof(IMG_UINT32), 0, MAKEUNIQUETAG(psCCBMemInfo)); PDUMPCOMMENT("Modify TA SrcSync %d WOpPendingVal\r\n", i); PDUMPMEM(&psSyncInfo->psSyncData->ui32LastOpDumpVal, psCCBMemInfo, psCCBKick->ui32CCBDumpWOff + offsetof(SGXMKIF_CMDTA_SHARED, asTASrcSyncs) + (i * sizeof(PVRSRV_DEVICE_SYNC_OBJECT)) + offsetof(PVRSRV_DEVICE_SYNC_OBJECT, ui32WriteOpsPendingVal), sizeof(IMG_UINT32), 0, MAKEUNIQUETAG(psCCBMemInfo)); } for (i=0; iui32NumTADstSyncs; i++) { IMG_UINT32 ui32ModifiedValue; psSyncInfo = (PVRSRV_KERNEL_SYNC_INFO *) psCCBKick->ahTADstKernelSyncInfo[i]; if ((psSyncInfo->psSyncData->ui32LastOpDumpVal == 0) && (psSyncInfo->psSyncData->ui32LastReadOpDumpVal == 0)) { /* * Init the ROpsComplete value to 0. */ PDUMPCOMMENT("Init RT TA-DST ROpsComplete\r\n", i); PDUMPMEM(&psSyncInfo->psSyncData->ui32LastReadOpDumpVal, psSyncInfo->psSyncDataMemInfoKM, offsetof(PVRSRV_SYNC_DATA, ui32ReadOpsComplete), sizeof(psSyncInfo->psSyncData->ui32ReadOpsComplete), 0, MAKEUNIQUETAG(psSyncInfo->psSyncDataMemInfoKM)); /* * Init the WOpsComplete value to 0. */ PDUMPCOMMENT("Init RT TA-DST WOpsComplete\r\n"); PDUMPMEM(&psSyncInfo->psSyncData->ui32LastOpDumpVal, psSyncInfo->psSyncDataMemInfoKM, offsetof(PVRSRV_SYNC_DATA, ui32WriteOpsComplete), sizeof(psSyncInfo->psSyncData->ui32WriteOpsComplete), 0, MAKEUNIQUETAG(psSyncInfo->psSyncDataMemInfoKM)); } psSyncInfo->psSyncData->ui32LastOpDumpVal++; ui32ModifiedValue = psSyncInfo->psSyncData->ui32LastOpDumpVal - 1; PDUMPCOMMENT("Modify TA DstSync %d WOpPendingVal\r\n", i); PDUMPMEM(&ui32ModifiedValue, psCCBMemInfo, psCCBKick->ui32CCBDumpWOff + offsetof(SGXMKIF_CMDTA_SHARED, asTADstSyncs) + (i * sizeof(PVRSRV_DEVICE_SYNC_OBJECT)) + offsetof(PVRSRV_DEVICE_SYNC_OBJECT, ui32WriteOpsPendingVal), sizeof(IMG_UINT32), 0, MAKEUNIQUETAG(psCCBMemInfo)); PDUMPCOMMENT("Modify TA DstSync %d ROpsPendingVal\r\n", i); PDUMPMEM(&psSyncInfo->psSyncData->ui32LastReadOpDumpVal, psCCBMemInfo, psCCBKick->ui32CCBDumpWOff + offsetof(SGXMKIF_CMDTA_SHARED, asTADstSyncs) + (i * sizeof(PVRSRV_DEVICE_SYNC_OBJECT)) + offsetof(PVRSRV_DEVICE_SYNC_OBJECT, ui32ReadOpsPendingVal), sizeof(IMG_UINT32), 0, MAKEUNIQUETAG(psCCBMemInfo)); } for (i=0; iui32Num3DSrcSyncs; i++) { IMG_UINT32 ui32ModifiedValue; psSyncInfo = (PVRSRV_KERNEL_SYNC_INFO *) psCCBKick->ah3DSrcKernelSyncInfo[i]; if ((psSyncInfo->psSyncData->ui32LastOpDumpVal == 0) && (psSyncInfo->psSyncData->ui32LastReadOpDumpVal == 0)) { /* * Init the ROpsComplete value to 0. */ PDUMPCOMMENT("Init RT 3D-SRC ROpsComplete\r\n", i); PDUMPMEM(&psSyncInfo->psSyncData->ui32LastReadOpDumpVal, psSyncInfo->psSyncDataMemInfoKM, offsetof(PVRSRV_SYNC_DATA, ui32ReadOpsComplete), sizeof(psSyncInfo->psSyncData->ui32ReadOpsComplete), 0, MAKEUNIQUETAG(psSyncInfo->psSyncDataMemInfoKM)); /* * Init the WOpsComplete value to 0. */ PDUMPCOMMENT("Init RT 3D-SRC WOpsComplete\r\n"); PDUMPMEM(&psSyncInfo->psSyncData->ui32LastOpDumpVal, psSyncInfo->psSyncDataMemInfoKM, offsetof(PVRSRV_SYNC_DATA, ui32WriteOpsComplete), sizeof(psSyncInfo->psSyncData->ui32WriteOpsComplete), 0, MAKEUNIQUETAG(psSyncInfo->psSyncDataMemInfoKM)); } psSyncInfo->psSyncData->ui32LastReadOpDumpVal++; ui32ModifiedValue = psSyncInfo->psSyncData->ui32LastReadOpDumpVal - 1; PDUMPCOMMENT("Modify 3D SrcSync %d ROpsPendingVal\r\n", i); PDUMPMEM(&ui32ModifiedValue, psCCBMemInfo, psCCBKick->ui32CCBDumpWOff + offsetof(SGXMKIF_CMDTA_SHARED, as3DSrcSyncs) + (i * sizeof(PVRSRV_DEVICE_SYNC_OBJECT)) + offsetof(PVRSRV_DEVICE_SYNC_OBJECT, ui32ReadOpsPendingVal), sizeof(IMG_UINT32), 0, MAKEUNIQUETAG(psCCBMemInfo)); PDUMPCOMMENT("Modify 3D SrcSync %d WOpPendingVal\r\n", i); PDUMPMEM(&psSyncInfo->psSyncData->ui32LastOpDumpVal, psCCBMemInfo, psCCBKick->ui32CCBDumpWOff + offsetof(SGXMKIF_CMDTA_SHARED, as3DSrcSyncs) + (i * sizeof(PVRSRV_DEVICE_SYNC_OBJECT)) + offsetof(PVRSRV_DEVICE_SYNC_OBJECT, ui32WriteOpsPendingVal), sizeof(IMG_UINT32), 0, MAKEUNIQUETAG(psCCBMemInfo)); } #else/* SUPPORT_SGX_GENERALISED_SYNCOBJECTS */ for (i=0; iui32NumSrcSyncs; i++) { IMG_UINT32 ui32ModifiedValue; psSyncInfo = (PVRSRV_KERNEL_SYNC_INFO *) psCCBKick->ahSrcKernelSyncInfo[i]; if ((psSyncInfo->psSyncData->ui32LastOpDumpVal == 0) && (psSyncInfo->psSyncData->ui32LastReadOpDumpVal == 0)) { /* * Init the ROpsComplete value to 0. */ PDUMPCOMMENT("Init RT ROpsComplete\r\n"); PDUMPMEM(&psSyncInfo->psSyncData->ui32LastReadOpDumpVal, psSyncInfo->psSyncDataMemInfoKM, offsetof(PVRSRV_SYNC_DATA, ui32ReadOpsComplete), sizeof(psSyncInfo->psSyncData->ui32ReadOpsComplete), 0, MAKEUNIQUETAG(psSyncInfo->psSyncDataMemInfoKM)); /* * Init the WOpsComplete value to 0. */ PDUMPCOMMENT("Init RT WOpsComplete\r\n"); PDUMPMEM(&psSyncInfo->psSyncData->ui32LastOpDumpVal, psSyncInfo->psSyncDataMemInfoKM, offsetof(PVRSRV_SYNC_DATA, ui32WriteOpsComplete), sizeof(psSyncInfo->psSyncData->ui32WriteOpsComplete), 0, MAKEUNIQUETAG(psSyncInfo->psSyncDataMemInfoKM)); /* * Init the ROps2Complete value to 0. */ PDUMPCOMMENT("Init RT WOpsComplete\r\n"); PDUMPMEM(&psSyncInfo->psSyncData->ui32LastReadOpDumpVal, psSyncInfo->psSyncDataMemInfoKM, offsetof(PVRSRV_SYNC_DATA, ui32ReadOps2Complete), sizeof(psSyncInfo->psSyncData->ui32ReadOps2Complete), 0, MAKEUNIQUETAG(psSyncInfo->psSyncDataMemInfoKM)); } psSyncInfo->psSyncData->ui32LastReadOpDumpVal++; ui32ModifiedValue = psSyncInfo->psSyncData->ui32LastReadOpDumpVal - 1; PDUMPCOMMENT("Modify SrcSync %d ROpsPendingVal\r\n", i); PDUMPMEM(&ui32ModifiedValue, psCCBMemInfo, psCCBKick->ui32CCBDumpWOff + offsetof(SGXMKIF_CMDTA_SHARED, asSrcSyncs) + (i * sizeof(PVRSRV_DEVICE_SYNC_OBJECT)) + offsetof(PVRSRV_DEVICE_SYNC_OBJECT, ui32ReadOpsPendingVal), sizeof(IMG_UINT32), 0, MAKEUNIQUETAG(psCCBMemInfo)); PDUMPCOMMENT("Modify SrcSync %d WOpPendingVal\r\n", i); PDUMPMEM(&psSyncInfo->psSyncData->ui32LastOpDumpVal, psCCBMemInfo, psCCBKick->ui32CCBDumpWOff + offsetof(SGXMKIF_CMDTA_SHARED, asSrcSyncs) + (i * sizeof(PVRSRV_DEVICE_SYNC_OBJECT)) + offsetof(PVRSRV_DEVICE_SYNC_OBJECT, ui32WriteOpsPendingVal), sizeof(IMG_UINT32), 0, MAKEUNIQUETAG(psCCBMemInfo)); } if (psCCBKick->hTASyncInfo != IMG_NULL) { psSyncInfo = (PVRSRV_KERNEL_SYNC_INFO *)psCCBKick->hTASyncInfo; PDUMPCOMMENT("Modify TA/TQ ROpPendingVal\r\n"); PDUMPMEM(&psSyncInfo->psSyncData->ui32LastReadOpDumpVal, psCCBMemInfo, psCCBKick->ui32CCBDumpWOff + offsetof(SGXMKIF_CMDTA_SHARED, ui32TATQSyncReadOpsPendingVal), sizeof(IMG_UINT32), 0, MAKEUNIQUETAG(psCCBMemInfo)); psSyncInfo->psSyncData->ui32LastReadOpDumpVal++; } if (psCCBKick->h3DSyncInfo != IMG_NULL) { psSyncInfo = (PVRSRV_KERNEL_SYNC_INFO *)psCCBKick->h3DSyncInfo; PDUMPCOMMENT("Modify 3D/TQ ROpPendingVal\r\n"); PDUMPMEM(&psSyncInfo->psSyncData->ui32LastReadOpDumpVal, psCCBMemInfo, psCCBKick->ui32CCBDumpWOff + offsetof(SGXMKIF_CMDTA_SHARED, ui323DTQSyncReadOpsPendingVal), sizeof(IMG_UINT32), 0, MAKEUNIQUETAG(psCCBMemInfo)); psSyncInfo->psSyncData->ui32LastReadOpDumpVal++; } #endif/* SUPPORT_SGX_GENERALISED_SYNCOBJECTS */ for (i = 0; i < psCCBKick->ui32NumTAStatusVals; i++) { #if !defined(SUPPORT_SGX_NEW_STATUS_VALS) psSyncInfo = (PVRSRV_KERNEL_SYNC_INFO *)psCCBKick->ahTAStatusSyncInfo[i]; PDUMPCOMMENT("Modify TA status value in TA cmd\r\n"); PDUMPMEM(&psSyncInfo->psSyncData->ui32LastOpDumpVal, psCCBMemInfo, psCCBKick->ui32CCBDumpWOff + (IMG_UINT32)offsetof(SGXMKIF_CMDTA_SHARED, sCtlTAStatusInfo[i].ui32StatusValue), sizeof(IMG_UINT32), 0, MAKEUNIQUETAG(psCCBMemInfo)); #endif } for (i = 0; i < psCCBKick->ui32Num3DStatusVals; i++) { #if !defined(SUPPORT_SGX_NEW_STATUS_VALS) psSyncInfo = (PVRSRV_KERNEL_SYNC_INFO *)psCCBKick->ah3DStatusSyncInfo[i]; PDUMPCOMMENT("Modify 3D status value in TA cmd\r\n"); PDUMPMEM(&psSyncInfo->psSyncData->ui32LastOpDumpVal, psCCBMemInfo, psCCBKick->ui32CCBDumpWOff + (IMG_UINT32)offsetof(SGXMKIF_CMDTA_SHARED, sCtl3DStatusInfo[i].ui32StatusValue), sizeof(IMG_UINT32), 0, MAKEUNIQUETAG(psCCBMemInfo)); #endif } } #endif /* defined(PDUMP) */ PVR_TTRACE(PVRSRV_TRACE_GROUP_KICK, PVRSRV_TRACE_CLASS_CMD_END, KICK_TOKEN_DOKICK); eError = SGXScheduleCCBCommandKM(hDevHandle, SGXMKIF_CMD_TA, &psCCBKick->sCommand, KERNEL_ID, 0, hDevMemContext, psCCBKick->bLastInScene); if (eError == PVRSRV_ERROR_RETRY) { if (psCCBKick->bFirstKickOrResume && psCCBKick->ui32NumDstSyncObjects > 0) { for (i=0; i < psCCBKick->ui32NumDstSyncObjects; i++) { /* Client will retry, so undo the write ops pending increment done above. */ psSyncInfo = (PVRSRV_KERNEL_SYNC_INFO *)psCCBKick->pahDstSyncHandles[i]; if (psSyncInfo) { psSyncInfo->psSyncData->ui32WriteOpsPending--; #if defined(PDUMP) if (PDumpIsCaptureFrameKM()) { psSyncInfo->psSyncData->ui32LastOpDumpVal--; } #endif } } } #if defined(SUPPORT_SGX_GENERALISED_SYNCOBJECTS) for (i=0; iui32NumTASrcSyncs; i++) { psSyncInfo = (PVRSRV_KERNEL_SYNC_INFO *) psCCBKick->ahTASrcKernelSyncInfo[i]; psSyncInfo->psSyncData->ui32ReadOpsPending--; } for (i=0; iui32NumTADstSyncs; i++) { psSyncInfo = (PVRSRV_KERNEL_SYNC_INFO *) psCCBKick->ahTADstKernelSyncInfo[i]; psSyncInfo->psSyncData->ui32WriteOpsPending--; } for (i=0; iui32Num3DSrcSyncs; i++) { psSyncInfo = (PVRSRV_KERNEL_SYNC_INFO *) psCCBKick->ah3DSrcKernelSyncInfo[i]; psSyncInfo->psSyncData->ui32ReadOpsPending--; } #else/* SUPPORT_SGX_GENERALISED_SYNCOBJECTS */ for (i=0; iui32NumSrcSyncs; i++) { psSyncInfo = (PVRSRV_KERNEL_SYNC_INFO *) psCCBKick->ahSrcKernelSyncInfo[i]; psSyncInfo->psSyncData->ui32ReadOpsPending--; } #endif/* SUPPORT_SGX_GENERALISED_SYNCOBJECTS */ if (psCCBKick->hTA3DSyncInfo) { psSyncInfo = (PVRSRV_KERNEL_SYNC_INFO *)psCCBKick->hTA3DSyncInfo; psSyncInfo->psSyncData->ui32ReadOpsPending--; } if (psCCBKick->hTASyncInfo) { psSyncInfo = (PVRSRV_KERNEL_SYNC_INFO *)psCCBKick->hTASyncInfo; psSyncInfo->psSyncData->ui32ReadOpsPending--; } if (psCCBKick->h3DSyncInfo) { psSyncInfo = (PVRSRV_KERNEL_SYNC_INFO *)psCCBKick->h3DSyncInfo; psSyncInfo->psSyncData->ui32ReadOpsPending--; } PVR_TTRACE(PVRSRV_TRACE_GROUP_KICK, PVRSRV_TRACE_CLASS_FUNCTION_EXIT, KICK_TOKEN_DOKICK); return eError; } else if (PVRSRV_OK != eError) { PVR_DPF((PVR_DBG_ERROR, "SGXDoKickKM: SGXScheduleCCBCommandKM failed.")); PVR_TTRACE(PVRSRV_TRACE_GROUP_KICK, PVRSRV_TRACE_CLASS_FUNCTION_EXIT, KICK_TOKEN_DOKICK); return eError; } #if defined(NO_HARDWARE) /* TA/3D dependency */ if (psCCBKick->hTA3DSyncInfo) { psSyncInfo = (PVRSRV_KERNEL_SYNC_INFO *)psCCBKick->hTA3DSyncInfo; if (psCCBKick->bTADependency) { psSyncInfo->psSyncData->ui32WriteOpsComplete = psSyncInfo->psSyncData->ui32WriteOpsPending; } } if (psCCBKick->hTASyncInfo != IMG_NULL) { psSyncInfo = (PVRSRV_KERNEL_SYNC_INFO *)psCCBKick->hTASyncInfo; psSyncInfo->psSyncData->ui32ReadOpsComplete = psSyncInfo->psSyncData->ui32ReadOpsPending; } if (psCCBKick->h3DSyncInfo != IMG_NULL) { psSyncInfo = (PVRSRV_KERNEL_SYNC_INFO *)psCCBKick->h3DSyncInfo; psSyncInfo->psSyncData->ui32ReadOpsComplete = psSyncInfo->psSyncData->ui32ReadOpsPending; } /* Copy status vals over */ for (i = 0; i < psCCBKick->ui32NumTAStatusVals; i++) { #if defined(SUPPORT_SGX_NEW_STATUS_VALS) PVRSRV_KERNEL_MEM_INFO *psKernelMemInfo = (PVRSRV_KERNEL_MEM_INFO*)psCCBKick->asTAStatusUpdate[i].hKernelMemInfo; /* derive offset into meminfo and write the status value */ *(IMG_UINT32*)((IMG_UINTPTR_T)psKernelMemInfo->pvLinAddrKM + (psTACmd->sCtlTAStatusInfo[i].sStatusDevAddr.uiAddr - psKernelMemInfo->sDevVAddr.uiAddr)) = psTACmd->sCtlTAStatusInfo[i].ui32StatusValue; #else psSyncInfo = (PVRSRV_KERNEL_SYNC_INFO *)psCCBKick->ahTAStatusSyncInfo[i]; psSyncInfo->psSyncData->ui32ReadOpsComplete = psTACmd->sCtlTAStatusInfo[i].ui32StatusValue; #endif } #if defined(SUPPORT_SGX_GENERALISED_SYNCOBJECTS) /* SRC and DST dependencies */ for (i=0; iui32NumTASrcSyncs; i++) { psSyncInfo = (PVRSRV_KERNEL_SYNC_INFO *) psCCBKick->ahTASrcKernelSyncInfo[i]; psSyncInfo->psSyncData->ui32ReadOpsComplete = psSyncInfo->psSyncData->ui32ReadOpsPending; } for (i=0; iui32NumTADstSyncs; i++) { psSyncInfo = (PVRSRV_KERNEL_SYNC_INFO *) psCCBKick->ahTADstKernelSyncInfo[i]; psSyncInfo->psSyncData->ui32WriteOpsComplete = psSyncInfo->psSyncData->ui32WriteOpsPending; } for (i=0; iui32Num3DSrcSyncs; i++) { psSyncInfo = (PVRSRV_KERNEL_SYNC_INFO *) psCCBKick->ah3DSrcKernelSyncInfo[i]; psSyncInfo->psSyncData->ui32ReadOpsComplete = psSyncInfo->psSyncData->ui32ReadOpsPending; } #else/* SUPPORT_SGX_GENERALISED_SYNCOBJECTS */ /* texture dependencies */ for (i=0; iui32NumSrcSyncs; i++) { psSyncInfo = (PVRSRV_KERNEL_SYNC_INFO *) psCCBKick->ahSrcKernelSyncInfo[i]; psSyncInfo->psSyncData->ui32ReadOpsComplete = psSyncInfo->psSyncData->ui32ReadOpsPending; } #endif/* SUPPORT_SGX_GENERALISED_SYNCOBJECTS */ if (psCCBKick->bTerminateOrAbort) { if (psCCBKick->ui32NumDstSyncObjects > 0) { PVRSRV_KERNEL_MEM_INFO *psHWDstSyncListMemInfo = (PVRSRV_KERNEL_MEM_INFO *)psCCBKick->hKernelHWSyncListMemInfo; SGXMKIF_HWDEVICE_SYNC_LIST *psHWDeviceSyncList = psHWDstSyncListMemInfo->pvLinAddrKM; for (i=0; iui32NumDstSyncObjects; i++) { psSyncInfo = (PVRSRV_KERNEL_SYNC_INFO *)psCCBKick->pahDstSyncHandles[i]; if (psSyncInfo) psSyncInfo->psSyncData->ui32WriteOpsComplete = psHWDeviceSyncList->asSyncData[i].ui32WriteOpsPendingVal+1; } } /* Copy status vals over */ for (i = 0; i < psCCBKick->ui32Num3DStatusVals; i++) { #if defined(SUPPORT_SGX_NEW_STATUS_VALS) PVRSRV_KERNEL_MEM_INFO *psKernelMemInfo = (PVRSRV_KERNEL_MEM_INFO*)psCCBKick->as3DStatusUpdate[i].hKernelMemInfo; /* derive offset into meminfo and write the status value */ *(IMG_UINT32*)((IMG_UINTPTR_T)psKernelMemInfo->pvLinAddrKM + (psTACmd->sCtl3DStatusInfo[i].sStatusDevAddr.uiAddr - psKernelMemInfo->sDevVAddr.uiAddr)) = psTACmd->sCtl3DStatusInfo[i].ui32StatusValue; #else psSyncInfo = (PVRSRV_KERNEL_SYNC_INFO *)psCCBKick->ah3DStatusSyncInfo[i]; psSyncInfo->psSyncData->ui32ReadOpsComplete = psTACmd->sCtl3DStatusInfo[i].ui32StatusValue; #endif } } #endif PVR_TTRACE(PVRSRV_TRACE_GROUP_KICK, PVRSRV_TRACE_CLASS_FUNCTION_EXIT, KICK_TOKEN_DOKICK); return eError; } /****************************************************************************** End of file (sgxkick.c) ******************************************************************************/