/* * SPDX-FileCopyrightText: Copyright (c) 2014-2022 NVIDIA CORPORATION & AFFILIATES. All rights reserved. * SPDX-License-Identifier: MIT * * 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. * * 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. 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. */ #ifndef __NVKMS_KAPI_INTERNAL_H__ #define __NVKMS_KAPI_INTERNAL_H__ #include "unix_rm_handle.h" #include "nvkms-utils.h" #include "nvkms-kapi-private.h" //XXX Decouple functions like nvEvoLog used for logging from NVKMS #define nvKmsKapiLogDebug(__format...) \ nvEvoLogDebug(EVO_LOG_INFO, "[kapi] "__format) #define nvKmsKapiLogDeviceDebug(__device, __format, ...) \ nvEvoLogDebug(EVO_LOG_INFO, "[kapi][GPU Id 0x%08x] "__format, \ device->gpuId, ##__VA_ARGS__) struct NvKmsKapiDevice { NvU32 gpuId; nvkms_sema_handle_t *pSema; /* RM handles */ NvU32 hRmClient; NvU32 hRmDevice, hRmSubDevice; NvU32 deviceInstance; NVUnixRmHandleAllocatorRec handleAllocator; /* NVKMS handles */ struct nvkms_per_open *pKmsOpen; NvKmsDeviceHandle hKmsDevice; NvKmsDispHandle hKmsDisp; NvU32 dispIdx; NvU32 subDeviceMask; NvBool isSOC; NvKmsDispIOCoherencyModes isoIOCoherencyModes; NvKmsDispIOCoherencyModes nisoIOCoherencyModes; NvBool supportsSyncpts; /* Device capabilities */ struct { struct NvKmsCompositionCapabilities cursorCompositionCaps; struct NvKmsCompositionCapabilities overlayCompositionCaps; NvU16 validLayerRRTransforms; NvU32 maxWidthInPixels; NvU32 maxHeightInPixels; NvU32 maxCursorSizeInPixels; NvU8 genericPageKind; NvBool requiresVrrSemaphores; } caps; NvU64 supportedSurfaceMemoryFormats[NVKMS_KAPI_LAYER_MAX]; NvBool supportsHDR[NVKMS_KAPI_LAYER_MAX]; NvU32 numHeads; NvU32 numLayers[NVKMS_KAPI_MAX_HEADS]; struct { NvU32 hRmHandle; NvKmsSurfaceHandle hKmsHandle; NvBool mapped; void *pLinearAddress; enum NvKmsNIsoFormat format; } notifier; struct { NvU32 currFlipNotifierIndex; } layerState[NVKMS_KAPI_MAX_HEADS][NVKMS_MAX_LAYERS_PER_HEAD]; void *privateData; void (*eventCallback)(const struct NvKmsKapiEvent *event); }; struct NvKmsKapiMemory { NvU32 hRmHandle; NvU64 size; struct NvKmsKapiPrivSurfaceParams surfaceParams; }; struct NvKmsKapiSurface { NvKmsSurfaceHandle hKmsHandle; }; static inline void *nvKmsKapiCalloc(size_t nmem, size_t size) { return nvInternalAlloc(nmem * size, NV_TRUE); } static inline void nvKmsKapiFree(void *ptr) { return nvInternalFree(ptr); } static inline NvU32 nvKmsKapiGenerateRmHandle(struct NvKmsKapiDevice *device) { NvU32 handle; nvkms_sema_down(device->pSema); handle = nvGenerateUnixRmHandle(&device->handleAllocator); nvkms_sema_up(device->pSema); return handle; } static inline void nvKmsKapiFreeRmHandle(struct NvKmsKapiDevice *device, NvU32 handle) { nvkms_sema_down(device->pSema); nvFreeUnixRmHandle(&device->handleAllocator, handle); nvkms_sema_up(device->pSema); } NvBool nvKmsKapiAllocateVideoMemory(struct NvKmsKapiDevice *device, NvU32 hRmHandle, enum NvKmsSurfaceMemoryLayout layout, NvU64 size, enum NvKmsKapiAllocationType type, NvU8 *compressible); NvBool nvKmsKapiAllocateSystemMemory(struct NvKmsKapiDevice *device, NvU32 hRmHandle, enum NvKmsSurfaceMemoryLayout layout, NvU64 size, enum NvKmsKapiAllocationType type, NvU8 *compressible); struct NvKmsKapiChannelEvent* nvKmsKapiAllocateChannelEvent(struct NvKmsKapiDevice *device, NvKmsChannelEventProc *proc, void *data, NvU64 nvKmsParamsUser, NvU64 nvKmsParamsSize); void nvKmsKapiFreeChannelEvent(struct NvKmsKapiDevice *device, struct NvKmsKapiChannelEvent *cb); struct NvKmsKapiSemaphoreSurface* nvKmsKapiImportSemaphoreSurface(struct NvKmsKapiDevice *device, NvU64 nvKmsParamsUser, NvU64 nvKmsParamsSize, void **pSemaphoreMap, void **pMaxSubmittedMap); void nvKmsKapiFreeSemaphoreSurface(struct NvKmsKapiDevice *device, struct NvKmsKapiSemaphoreSurface *ss); NvKmsKapiRegisterWaiterResult nvKmsKapiRegisterSemaphoreSurfaceCallback( struct NvKmsKapiDevice *device, struct NvKmsKapiSemaphoreSurface *semaphoreSurface, NvKmsSemaphoreSurfaceCallbackProc *pCallback, void *pData, NvU64 index, NvU64 wait_value, NvU64 new_value, struct NvKmsKapiSemaphoreSurfaceCallback **pCallbackHandle); NvBool nvKmsKapiUnregisterSemaphoreSurfaceCallback( struct NvKmsKapiDevice *device, struct NvKmsKapiSemaphoreSurface *semaphoreSurface, NvU64 index, NvU64 wait_value, struct NvKmsKapiSemaphoreSurfaceCallback *callbackHandle); NvBool nvKmsKapiSetSemaphoreSurfaceValue( struct NvKmsKapiDevice *device, struct NvKmsKapiSemaphoreSurface *semaphoreSurface, NvU64 index, NvU64 new_value); #endif /* __NVKMS_KAPI_INTERNAL_H__ */