VBoxMPIf.h revision 7b6926b2bf44f326f40e1d9d1ce33a4dff0a2c67
/* $Id$ */
/** @file
* VBox WDDM Miniport driver
*
* Contains base definitions of constants & structures used
* to control & perform rendering,
* such as DMA commands types, allocation types, escape codes, etc.
* used by both miniport & display drivers.
*
* The latter uses these and only these defs to communicate with the former
* by posting appropriate requests via D3D RT Krnl Svc accessing callbacks.
*/
/*
* Copyright (C) 2011-2012 Oracle Corporation
*
* This file is part of VirtualBox Open Source Edition (OSE), as
* available from http://www.virtualbox.org. This file is free software;
* you can redistribute it and/or modify it under the terms of the GNU
* General Public License (GPL) as published by the Free Software
* Foundation, in version 2 as it comes in the "COPYING" file of the
* VirtualBox OSE distribution. VirtualBox OSE is distributed in the
* hope that it will be useful, but WITHOUT ANY WARRANTY of any kind.
*/
#ifndef ___VBoxMPIf_h___
#define ___VBoxMPIf_h___
#include <VBox/VBoxVideo.h>
#include "../../../../include/VBoxDisplay.h"
#include "../VBoxVideoTools.h"
#include <VBox/VBoxUhgsmi.h>
#include <VBox/VBoxGuest2.h>
/* One would increase this whenever definitions in this file are changed */
#define VBOXVIDEOIF_VERSION 17
#define VBOXWDDM_NODE_ID_SYSTEM 0
#define VBOXWDDM_NODE_ID_3D (VBOXWDDM_NODE_ID_SYSTEM)
#define VBOXWDDM_NODE_ID_3D_KMT (VBOXWDDM_NODE_ID_3D)
#define VBOXWDDM_NODE_ID_2D_VIDEO (VBOXWDDM_NODE_ID_3D_KMT+1)
#define VBOXWDDM_NUM_NODES (VBOXWDDM_NODE_ID_2D_VIDEO+1)
#define VBOXWDDM_ENGINE_ID_SYSTEM 0
#if (VBOXWDDM_NODE_ID_3D == VBOXWDDM_NODE_ID_SYSTEM)
# define VBOXWDDM_ENGINE_ID_3D (VBOXWDDM_ENGINE_ID_SYSTEM+1)
#else
# define VBOXWDDM_ENGINE_ID_3D 0
#endif
#if (VBOXWDDM_NODE_ID_3D_KMT == VBOXWDDM_NODE_ID_3D)
# define VBOXWDDM_ENGINE_ID_3D_KMT VBOXWDDM_ENGINE_ID_3D
#else
# define VBOXWDDM_ENGINE_ID_3D_KMT 0
#endif
#if (VBOXWDDM_NODE_ID_2D_VIDEO == VBOXWDDM_NODE_ID_3D)
# define VBOXWDDM_ENGINE_ID_2D_VIDEO VBOXWDDM_ENGINE_ID_3D
#else
# define VBOXWDDM_ENGINE_ID_2D_VIDEO 0
#endif
/* create allocation func */
typedef enum
{
VBOXWDDM_ALLOC_TYPE_UNEFINED = 0,
VBOXWDDM_ALLOC_TYPE_STD_SHAREDPRIMARYSURFACE,
VBOXWDDM_ALLOC_TYPE_STD_SHADOWSURFACE,
VBOXWDDM_ALLOC_TYPE_STD_STAGINGSURFACE,
/* this one is win 7-specific and hence unused for now */
VBOXWDDM_ALLOC_TYPE_STD_GDISURFACE
/* custom allocation types requested from user-mode d3d module will go here */
, VBOXWDDM_ALLOC_TYPE_UMD_RC_GENERIC
, VBOXWDDM_ALLOC_TYPE_UMD_HGSMI_BUFFER
} VBOXWDDM_ALLOC_TYPE;
/* usage */
typedef enum
{
VBOXWDDM_ALLOCUSAGE_TYPE_UNEFINED = 0,
/* set for the allocation being primary */
VBOXWDDM_ALLOCUSAGE_TYPE_PRIMARY,
} VBOXWDDM_ALLOCUSAGE_TYPE;
typedef struct VBOXWDDM_SURFACE_DESC
{
UINT width;
UINT height;
D3DDDIFORMAT format;
UINT bpp;
UINT pitch;
UINT depth;
UINT slicePitch;
UINT d3dWidth;
UINT cbSize;
D3DDDI_VIDEO_PRESENT_SOURCE_ID VidPnSourceId;
D3DDDI_RATIONAL RefreshRate;
} VBOXWDDM_SURFACE_DESC, *PVBOXWDDM_SURFACE_DESC;
typedef struct VBOXWDDM_ALLOCINFO
{
VBOXWDDM_ALLOC_TYPE enmType;
union
{
struct
{
D3DDDI_RESOURCEFLAGS fFlags;
/* id used to identify the allocation on the host */
uint32_t hostID;
uint64_t hSharedHandle;
VBOXWDDM_SURFACE_DESC SurfDesc;
};
struct
{
uint32_t cbBuffer;
uint64_t hSynch;
VBOXUHGSMI_BUFFER_TYPE_FLAGS fUhgsmiType;
};
};
} VBOXWDDM_ALLOCINFO, *PVBOXWDDM_ALLOCINFO;
typedef struct VBOXWDDM_RC_DESC
{
D3DDDI_RESOURCEFLAGS fFlags;
D3DDDIFORMAT enmFormat;
D3DDDI_POOL enmPool;
D3DDDIMULTISAMPLE_TYPE enmMultisampleType;
UINT MultisampleQuality;
UINT MipLevels;
UINT Fvf;
D3DDDI_VIDEO_PRESENT_SOURCE_ID VidPnSourceId;
D3DDDI_RATIONAL RefreshRate;
D3DDDI_ROTATION enmRotation;
} VBOXWDDM_RC_DESC, *PVBOXWDDM_RC_DESC;
typedef struct VBOXWDDMDISP_RESOURCE_FLAGS
{
union
{
struct
{
UINT Opened : 1; /* this resource is OpenResource'd rather than CreateResource'd */
UINT Generic : 1; /* identifies this is a resource created with CreateResource, the VBOXWDDMDISP_RESOURCE::fRcFlags is valid */
UINT KmResource : 1; /* this resource has underlying km resource */
UINT Reserved : 29; /* reserved */
};
UINT Value;
};
} VBOXWDDMDISP_RESOURCE_FLAGS, *PVBOXWDDMDISP_RESOURCE_FLAGS;
typedef struct VBOXWDDM_RCINFO
{
VBOXWDDMDISP_RESOURCE_FLAGS fFlags;
VBOXWDDM_RC_DESC RcDesc;
uint32_t cAllocInfos;
// VBOXWDDM_ALLOCINFO aAllocInfos[1];
} VBOXWDDM_RCINFO, *PVBOXWDDM_RCINFO;
typedef struct VBOXWDDM_DMA_PRIVATEDATA_FLAFS
{
union
{
struct
{
UINT bCmdInDmaBuffer : 1;
UINT bReserved : 31;
};
uint32_t Value;
};
} VBOXWDDM_DMA_PRIVATEDATA_FLAFS, *PVBOXWDDM_DMA_PRIVATEDATA_FLAFS;
typedef struct VBOXWDDM_DMA_PRIVATEDATA_BASEHDR
{
VBOXVDMACMD_TYPE enmCmd;
union
{
VBOXWDDM_DMA_PRIVATEDATA_FLAFS fFlags;
uint32_t u32CmdReserved;
};
} VBOXWDDM_DMA_PRIVATEDATA_BASEHDR, *PVBOXWDDM_DMA_PRIVATEDATA_BASEHDR;
typedef struct VBOXWDDM_UHGSMI_BUFFER_UI_SUBMIT_INFO
{
uint32_t bDoNotSignalCompletion;
uint32_t offData;
uint32_t cbData;
} VBOXWDDM_UHGSMI_BUFFER_UI_SUBMIT_INFO, *PVBOXWDDM_UHGSMI_BUFFER_UI_SUBMIT_INFO;
typedef struct VBOXWDDM_DMA_PRIVATEDATA_UM_CHROMIUM_CMD
{
VBOXWDDM_DMA_PRIVATEDATA_BASEHDR Base;
VBOXWDDM_UHGSMI_BUFFER_UI_SUBMIT_INFO aBufInfos[1];
} VBOXWDDM_DMA_PRIVATEDATA_UM_CHROMIUM_CMD, *PVBOXWDDM_DMA_PRIVATEDATA_UM_CHROMIUM_CMD;
#define VBOXVHWA_F_ENABLED 0x00000001
#define VBOXVHWA_F_CKEY_DST 0x00000002
#define VBOXVHWA_F_CKEY_SRC 0x00000004
#define VBOXVHWA_MAX_FORMATS 8
typedef struct VBOXVHWA_INFO
{
uint32_t fFlags;
uint32_t cOverlaysSupported;
uint32_t cFormats;
D3DDDIFORMAT aFormats[VBOXVHWA_MAX_FORMATS];
} VBOXVHWA_INFO;
#define VBOXWDDM_OVERLAY_F_CKEY_DST 0x00000001
#define VBOXWDDM_OVERLAY_F_CKEY_DSTRANGE 0x00000002
#define VBOXWDDM_OVERLAY_F_CKEY_SRC 0x00000004
#define VBOXWDDM_OVERLAY_F_CKEY_SRCRANGE 0x00000008
#define VBOXWDDM_OVERLAY_F_BOB 0x00000010
#define VBOXWDDM_OVERLAY_F_INTERLEAVED 0x00000020
#define VBOXWDDM_OVERLAY_F_MIRROR_LR 0x00000040
#define VBOXWDDM_OVERLAY_F_MIRROR_UD 0x00000080
#define VBOXWDDM_OVERLAY_F_DEINTERLACED 0x00000100
typedef struct VBOXWDDM_OVERLAY_DESC
{
uint32_t fFlags;
UINT DstColorKeyLow;
UINT DstColorKeyHigh;
UINT SrcColorKeyLow;
UINT SrcColorKeyHigh;
} VBOXWDDM_OVERLAY_DESC, *PVBOXWDDM_OVERLAY_DESC;
typedef struct VBOXWDDM_OVERLAY_INFO
{
VBOXWDDM_OVERLAY_DESC OverlayDesc;
VBOXWDDM_DIRTYREGION DirtyRegion; /* <- the dirty region of the overlay surface */
} VBOXWDDM_OVERLAY_INFO, *PVBOXWDDM_OVERLAY_INFO;
typedef struct VBOXWDDM_OVERLAYFLIP_INFO
{
VBOXWDDM_DIRTYREGION DirtyRegion; /* <- the dirty region of the overlay surface */
} VBOXWDDM_OVERLAYFLIP_INFO, *PVBOXWDDM_OVERLAYFLIP_INFO;
typedef enum
{
VBOXWDDM_CONTEXT_TYPE_UNDEFINED = 0,
/* system-created context (for GDI rendering) */
VBOXWDDM_CONTEXT_TYPE_SYSTEM,
/* context created by the D3D User-mode driver when crogl IS available */
VBOXWDDM_CONTEXT_TYPE_CUSTOM_3D,
/* context created by the D3D User-mode driver when crogl is NOT available or for ddraw overlay acceleration */
VBOXWDDM_CONTEXT_TYPE_CUSTOM_2D,
/* contexts created by the cromium HGSMI transport for HGSMI commands submission */
VBOXWDDM_CONTEXT_TYPE_CUSTOM_UHGSMI_3D,
VBOXWDDM_CONTEXT_TYPE_CUSTOM_UHGSMI_GL,
/* context created by the kernel->user communication mechanism for visible rects reporting, etc. */
VBOXWDDM_CONTEXT_TYPE_CUSTOM_SESSION
} VBOXWDDM_CONTEXT_TYPE;
typedef struct VBOXWDDM_CREATECONTEXT_INFO
{
/* interface version, i.e. 9 for d3d9, 8 for d3d8, etc. */
uint32_t u32IfVersion;
/* true if d3d false if ddraw */
VBOXWDDM_CONTEXT_TYPE enmType;
uint32_t crVersionMajor;
uint32_t crVersionMinor;
/* we use uint64_t instead of HANDLE to ensure structure def is the same for both 32-bit and 64-bit
* since x64 kernel driver can be called by 32-bit UMD */
uint64_t hUmEvent;
/* info to be passed to UMD notification to identify the context */
uint64_t u64UmInfo;
} VBOXWDDM_CREATECONTEXT_INFO, *PVBOXWDDM_CREATECONTEXT_INFO;
typedef uint64_t VBOXDISP_UMHANDLE;
typedef uint32_t VBOXDISP_KMHANDLE;
typedef struct VBOXWDDM_RECTS_FLAFS
{
union
{
struct
{
/* used only in conjunction with bSetVisibleRects.
* if set - VBOXWDDM_RECTS_INFO::aRects[0] contains view rectangle */
UINT bSetViewRect : 1;
/* adds visible regions */
UINT bAddVisibleRects : 1;
/* adds hidden regions */
UINT bAddHiddenRects : 1;
/* hide entire window */
UINT bHide : 1;
/* reserved */
UINT Reserved : 28;
};
uint32_t Value;
};
} VBOXWDDM_RECTS_FLAFS, *PVBOXWDDM_RECTS_FLAFS;
typedef struct VBOXWDDM_RECTS_INFO
{
uint32_t cRects;
RECT aRects[1];
} VBOXWDDM_RECTS_INFO, *PVBOXWDDM_RECTS_INFO;
#define VBOXWDDM_RECTS_INFO_SIZE4CRECTS(_cRects) (RT_OFFSETOF(VBOXWDDM_RECTS_INFO, aRects[(_cRects)]))
#define VBOXWDDM_RECTS_INFO_SIZE(_pRects) (VBOXVIDEOCM_CMD_RECTS_SIZE4CRECTS((_pRects)->cRects))
typedef enum
{
/* command to be post to user mode */
VBOXVIDEOCM_CMD_TYPE_UM = 0,
/* control command processed in kernel mode */
VBOXVIDEOCM_CMD_TYPE_CTL_KM,
VBOXVIDEOCM_CMD_DUMMY_32BIT = 0x7fffffff
} VBOXVIDEOCM_CMD_TYPE;
typedef struct VBOXVIDEOCM_CMD_HDR
{
uint64_t u64UmData;
uint32_t cbCmd;
VBOXVIDEOCM_CMD_TYPE enmType;
}VBOXVIDEOCM_CMD_HDR, *PVBOXVIDEOCM_CMD_HDR;
AssertCompile((sizeof (VBOXVIDEOCM_CMD_HDR) & 7) == 0);
typedef struct VBOXVIDEOCM_CMD_RECTS
{
VBOXWDDM_RECTS_FLAFS fFlags;
VBOXWDDM_RECTS_INFO RectsInfo;
} VBOXVIDEOCM_CMD_RECTS, *PVBOXVIDEOCM_CMD_RECTS;
typedef struct VBOXVIDEOCM_CMD_RECTS_INTERNAL
{
union
{
VBOXDISP_UMHANDLE hSwapchainUm;
uint64_t hWnd;
uint64_t u64Value;
};
VBOXVIDEOCM_CMD_RECTS Cmd;
} VBOXVIDEOCM_CMD_RECTS_INTERNAL, *PVBOXVIDEOCM_CMD_RECTS_INTERNAL;
typedef struct VBOXVIDEOCM_CMD_RECTS_HDR
{
VBOXVIDEOCM_CMD_HDR Hdr;
VBOXVIDEOCM_CMD_RECTS_INTERNAL Data;
} VBOXVIDEOCM_CMD_RECTS_HDR, *PVBOXVIDEOCM_CMD_RECTS_HDR;
#define VBOXVIDEOCM_CMD_RECTS_INTERNAL_SIZE4CRECTS(_cRects) (RT_OFFSETOF(VBOXVIDEOCM_CMD_RECTS_INTERNAL, Cmd.RectsInfo.aRects[(_cRects)]))
#define VBOXVIDEOCM_CMD_RECTS_INTERNAL_SIZE(_pCmd) (VBOXVIDEOCM_CMD_RECTS_INTERNAL_SIZE4CRECTS((_pCmd)->cRects))
typedef struct VBOXWDDM_GETVBOXVIDEOCMCMD_HDR
{
uint32_t cbCmdsReturned;
uint32_t cbRemainingCmds;
uint32_t cbRemainingFirstCmd;
uint32_t u32Reserved;
} VBOXWDDM_GETVBOXVIDEOCMCMD_HDR, *PVBOXWDDM_GETVBOXVIDEOCMCMD_HDR;
typedef struct VBOXDISPIFESCAPE_GETVBOXVIDEOCMCMD
{
VBOXDISPIFESCAPE EscapeHdr;
VBOXWDDM_GETVBOXVIDEOCMCMD_HDR Hdr;
} VBOXDISPIFESCAPE_GETVBOXVIDEOCMCMD, *PVBOXDISPIFESCAPE_GETVBOXVIDEOCMCMD;
AssertCompile((sizeof (VBOXDISPIFESCAPE_GETVBOXVIDEOCMCMD) & 7) == 0);
AssertCompile(RT_OFFSETOF(VBOXDISPIFESCAPE_GETVBOXVIDEOCMCMD, EscapeHdr) == 0);
typedef struct VBOXDISPIFESCAPE_DBGPRINT
{
VBOXDISPIFESCAPE EscapeHdr;
/* null-terminated string to DbgPrint including \0 */
char aStringBuf[1];
} VBOXDISPIFESCAPE_DBGPRINT, *PVBOXDISPIFESCAPE_DBGPRINT;
AssertCompile(RT_OFFSETOF(VBOXDISPIFESCAPE_DBGPRINT, EscapeHdr) == 0);
typedef enum
{
VBOXDISPIFESCAPE_DBGDUMPBUF_TYPE_UNDEFINED = 0,
VBOXDISPIFESCAPE_DBGDUMPBUF_TYPE_D3DCAPS9 = 1,
VBOXDISPIFESCAPE_DBGDUMPBUF_TYPE_DUMMY32BIT = 0x7fffffff
} VBOXDISPIFESCAPE_DBGDUMPBUF_TYPE;
typedef struct VBOXDISPIFESCAPE_DBGDUMPBUF_FLAGS
{
union
{
struct
{
UINT WoW64 : 1;
UINT Reserved : 31; /* reserved */
};
UINT Value;
};
} VBOXDISPIFESCAPE_DBGDUMPBUF_FLAGS, *PVBOXDISPIFESCAPE_DBGDUMPBUF_FLAGS;
typedef struct VBOXDISPIFESCAPE_DBGDUMPBUF
{
VBOXDISPIFESCAPE EscapeHdr;
VBOXDISPIFESCAPE_DBGDUMPBUF_TYPE enmType;
VBOXDISPIFESCAPE_DBGDUMPBUF_FLAGS Flags;
char aBuf[1];
} VBOXDISPIFESCAPE_DBGDUMPBUF, *PVBOXDISPIFESCAPE_DBGDUMPBUF;
AssertCompile(RT_OFFSETOF(VBOXDISPIFESCAPE_DBGDUMPBUF, EscapeHdr) == 0);
typedef struct VBOXSCREENLAYOUT_ELEMENT
{
D3DDDI_VIDEO_PRESENT_SOURCE_ID VidPnSourceId;
POINT pos;
} VBOXSCREENLAYOUT_ELEMENT, *PVBOXSCREENLAYOUT_ELEMENT;
typedef struct VBOXSCREENLAYOUT
{
uint32_t cScreens;
VBOXSCREENLAYOUT_ELEMENT aScreens[1];
} VBOXSCREENLAYOUT, *PVBOXSCREENLAYOUT;
typedef struct VBOXDISPIFESCAPE_SCREENLAYOUT
{
VBOXDISPIFESCAPE EscapeHdr;
VBOXSCREENLAYOUT ScreenLayout;
} VBOXDISPIFESCAPE_SCREENLAYOUT, *PVBOXDISPIFESCAPE_SCREENLAYOUT;
typedef struct VBOXSWAPCHAININFO
{
VBOXDISP_KMHANDLE hSwapchainKm; /* in, NULL if new is being created */
VBOXDISP_UMHANDLE hSwapchainUm; /* in, UMD private data */
DWORD winHostID;
RECT Rect;
UINT u32Reserved;
UINT cAllocs;
D3DKMT_HANDLE ahAllocs[1];
}VBOXSWAPCHAININFO, *PVBOXSWAPCHAININFO;
typedef struct VBOXDISPIFESCAPE_SWAPCHAININFO
{
VBOXDISPIFESCAPE EscapeHdr;
VBOXSWAPCHAININFO SwapchainInfo;
} VBOXDISPIFESCAPE_SWAPCHAININFO, *PVBOXDISPIFESCAPE_SWAPCHAININFO;
typedef struct VBOXVIDEOCM_UM_ALLOC
{
VBOXDISP_KMHANDLE hAlloc;
uint32_t cbData;
uint64_t pvData;
uint64_t hSynch;
VBOXUHGSMI_BUFFER_TYPE_FLAGS fUhgsmiType;
} VBOXVIDEOCM_UM_ALLOC, *PVBOXVIDEOCM_UM_ALLOC;
typedef struct VBOXDISPIFESCAPE_UHGSMI_ALLOCATE
{
VBOXDISPIFESCAPE EscapeHdr;
VBOXVIDEOCM_UM_ALLOC Alloc;
} VBOXDISPIFESCAPE_UHGSMI_ALLOCATE, *PVBOXDISPIFESCAPE_UHGSMI_ALLOCATE;
typedef struct VBOXDISPIFESCAPE_UHGSMI_DEALLOCATE
{
VBOXDISPIFESCAPE EscapeHdr;
VBOXDISP_KMHANDLE hAlloc;
} VBOXDISPIFESCAPE_UHGSMI_DEALLOCATE, *PVBOXDISPIFESCAPE_UHGSMI_DEALLOCATE;
typedef struct VBOXWDDM_UHGSMI_BUFFER_UI_INFO_ESCAPE
{
VBOXDISP_KMHANDLE hAlloc;
VBOXWDDM_UHGSMI_BUFFER_UI_SUBMIT_INFO Info;
} VBOXWDDM_UHGSMI_BUFFER_UI_INFO_ESCAPE, *PVBOXWDDM_UHGSMI_BUFFER_UI_INFO_ESCAPE;
typedef struct VBOXDISPIFESCAPE_UHGSMI_SUBMIT
{
VBOXDISPIFESCAPE EscapeHdr;
VBOXWDDM_UHGSMI_BUFFER_UI_INFO_ESCAPE aBuffers[1];
} VBOXDISPIFESCAPE_UHGSMI_SUBMIT, *PVBOXDISPIFESCAPE_UHGSMI_SUBMIT;
typedef struct VBOXDISPIFESCAPE_SHRC_REF
{
VBOXDISPIFESCAPE EscapeHdr;
uint64_t hAlloc;
} VBOXDISPIFESCAPE_SHRC_REF, *PVBOXDISPIFESCAPE_SHRC_REF;
typedef struct VBOXDISPIFESCAPE_CRHGSMICTLCON_CALL
{
VBOXDISPIFESCAPE EscapeHdr;
VBoxGuestHGCMCallInfo CallInfo;
} VBOXDISPIFESCAPE_CRHGSMICTLCON_CALL, *PVBOXDISPIFESCAPE_CRHGSMICTLCON_CALL;
/* query info func */
typedef struct VBOXWDDM_QI
{
uint32_t u32Version;
uint32_t cInfos;
VBOXVHWA_INFO aInfos[VBOX_VIDEO_MAX_SCREENS];
} VBOXWDDM_QI;
/* submit cmd func */
DECLINLINE(D3DDDIFORMAT) vboxWddmFmtNoAlphaFormat(D3DDDIFORMAT enmFormat)
{
switch (enmFormat)
{
case D3DDDIFMT_A8R8G8B8:
return D3DDDIFMT_X8R8G8B8;
case D3DDDIFMT_A1R5G5B5:
return D3DDDIFMT_X1R5G5B5;
case D3DDDIFMT_A4R4G4B4:
return D3DDDIFMT_X4R4G4B4;
case D3DDDIFMT_A8B8G8R8:
return D3DDDIFMT_X8B8G8R8;
default:
return enmFormat;
}
}
/* tooling */
DECLINLINE(UINT) vboxWddmCalcBitsPerPixel(D3DDDIFORMAT enmFormat)
{
switch (enmFormat)
{
case D3DDDIFMT_R8G8B8:
return 24;
case D3DDDIFMT_A8R8G8B8:
case D3DDDIFMT_X8R8G8B8:
return 32;
case D3DDDIFMT_R5G6B5:
case D3DDDIFMT_X1R5G5B5:
case D3DDDIFMT_A1R5G5B5:
case D3DDDIFMT_A4R4G4B4:
return 16;
case D3DDDIFMT_R3G3B2:
case D3DDDIFMT_A8:
return 8;
case D3DDDIFMT_A8R3G3B2:
case D3DDDIFMT_X4R4G4B4:
return 16;
case D3DDDIFMT_A2B10G10R10:
case D3DDDIFMT_A8B8G8R8:
case D3DDDIFMT_X8B8G8R8:
case D3DDDIFMT_G16R16:
case D3DDDIFMT_A2R10G10B10:
return 32;
case D3DDDIFMT_A16B16G16R16:
case D3DDDIFMT_A16B16G16R16F:
return 64;
case D3DDDIFMT_A8P8:
return 16;
case D3DDDIFMT_P8:
case D3DDDIFMT_L8:
return 8;
case D3DDDIFMT_L16:
case D3DDDIFMT_A8L8:
return 16;
case D3DDDIFMT_A4L4:
return 8;
case D3DDDIFMT_V8U8:
case D3DDDIFMT_L6V5U5:
return 16;
case D3DDDIFMT_X8L8V8U8:
case D3DDDIFMT_Q8W8V8U8:
case D3DDDIFMT_V16U16:
case D3DDDIFMT_W11V11U10:
case D3DDDIFMT_A2W10V10U10:
return 32;
case D3DDDIFMT_D16_LOCKABLE:
case D3DDDIFMT_D16:
case D3DDDIFMT_D15S1:
return 16;
case D3DDDIFMT_D32:
case D3DDDIFMT_D24S8:
case D3DDDIFMT_D24X8:
case D3DDDIFMT_D24X4S4:
case D3DDDIFMT_D24FS8:
case D3DDDIFMT_D32_LOCKABLE:
case D3DDDIFMT_D32F_LOCKABLE:
return 32;
case D3DDDIFMT_S8_LOCKABLE:
return 8;
case D3DDDIFMT_DXT1:
return 4;
case D3DDDIFMT_DXT2:
case D3DDDIFMT_DXT3:
case D3DDDIFMT_DXT4:
case D3DDDIFMT_DXT5:
case D3DDDIFMT_VERTEXDATA:
case D3DDDIFMT_INDEX16: /* <- yes, dx runtime treats it as such */
return 8;
case D3DDDIFMT_INDEX32:
return 8;
case D3DDDIFMT_R32F:
return 32;
case D3DDDIFMT_R16F:
return 16;
default:
AssertBreakpoint();
return 0;
}
}
DECLINLINE(uint32_t) vboxWddmFormatToFourcc(D3DDDIFORMAT enmFormat)
{
uint32_t uFormat = (uint32_t)enmFormat;
/* assume that in case both four bytes are non-zero, this is a fourcc */
if ((uFormat & 0xff000000)
&& (uFormat & 0x00ff0000)
&& (uFormat & 0x0000ff00)
&& (uFormat & 0x000000ff)
)
return uFormat;
return 0;
}
#define VBOXWDDM_ROUNDBOUND(_v, _b) (((_v) + ((_b) - 1)) & ~((_b) - 1))
DECLINLINE(UINT) vboxWddmCalcOffXru(UINT w, D3DDDIFORMAT enmFormat)
{
switch (enmFormat)
{
/* pitch for the DXT* (aka compressed) formats is the size in bytes of blocks that fill in an image width
* i.e. each block decompressed into 4 x 4 pixels, so we have ((Width + 3) / 4) blocks for Width.
* then each block has 64 bits (8 bytes) for DXT1 and 64+64 bits (16 bytes) for DXT2-DXT5, so.. : */
case D3DDDIFMT_DXT1:
{
UINT Pitch = (w + 3) / 4; /* <- pitch size in blocks */
Pitch *= 8; /* <- pitch size in bytes */
return Pitch;
}
case D3DDDIFMT_DXT2:
case D3DDDIFMT_DXT3:
case D3DDDIFMT_DXT4:
case D3DDDIFMT_DXT5:
{
UINT Pitch = (w + 3) / 4; /* <- pitch size in blocks */
Pitch *= 8; /* <- pitch size in bytes */
return Pitch;
}
default:
{
/* the default is just to calculate the pitch from bpp */
UINT bpp = vboxWddmCalcBitsPerPixel(enmFormat);
UINT Pitch = bpp * w;
/* pitch is now in bits, translate in bytes */
return VBOXWDDM_ROUNDBOUND(Pitch, 8) >> 3;
}
}
}
DECLINLINE(UINT) vboxWddmCalcOffXrd(UINT w, D3DDDIFORMAT enmFormat)
{
switch (enmFormat)
{
/* pitch for the DXT* (aka compressed) formats is the size in bytes of blocks that fill in an image width
* i.e. each block decompressed into 4 x 4 pixels, so we have ((Width + 3) / 4) blocks for Width.
* then each block has 64 bits (8 bytes) for DXT1 and 64+64 bits (16 bytes) for DXT2-DXT5, so.. : */
case D3DDDIFMT_DXT1:
{
UINT Pitch = w / 4; /* <- pitch size in blocks */
Pitch *= 8; /* <- pitch size in bytes */
return Pitch;
}
case D3DDDIFMT_DXT2:
case D3DDDIFMT_DXT3:
case D3DDDIFMT_DXT4:
case D3DDDIFMT_DXT5:
{
UINT Pitch = w / 4; /* <- pitch size in blocks */
Pitch *= 16; /* <- pitch size in bytes */
return Pitch;
}
default:
{
/* the default is just to calculate the pitch from bpp */
UINT bpp = vboxWddmCalcBitsPerPixel(enmFormat);
UINT Pitch = bpp * w;
/* pitch is now in bits, translate in bytes */
return Pitch >> 3;
}
}
}
DECLINLINE(UINT) vboxWddmCalcHightPacking(D3DDDIFORMAT enmFormat)
{
switch (enmFormat)
{
/* for the DXT* (aka compressed) formats each block is decompressed into 4 x 4 pixels,
* so packing is 4
*/
case D3DDDIFMT_DXT1:
case D3DDDIFMT_DXT2:
case D3DDDIFMT_DXT3:
case D3DDDIFMT_DXT4:
case D3DDDIFMT_DXT5:
return 4;
default:
return 1;
}
}
DECLINLINE(UINT) vboxWddmCalcOffYru(UINT height, D3DDDIFORMAT enmFormat)
{
UINT packing = vboxWddmCalcHightPacking(enmFormat);
/* round it up */
return (height + packing - 1) / packing;
}
DECLINLINE(UINT) vboxWddmCalcOffYrd(UINT height, D3DDDIFORMAT enmFormat)
{
UINT packing = vboxWddmCalcHightPacking(enmFormat);
/* round it up */
return height / packing;
}
DECLINLINE(UINT) vboxWddmCalcPitch(UINT w, D3DDDIFORMAT enmFormat)
{
return vboxWddmCalcOffXru(w, enmFormat);
}
DECLINLINE(UINT) vboxWddmCalcWidthForPitch(UINT Pitch, D3DDDIFORMAT enmFormat)
{
switch (enmFormat)
{
/* pitch for the DXT* (aka compressed) formats is the size in bytes of blocks that fill in an image width
* i.e. each block decompressed into 4 x 4 pixels, so we have ((Width + 3) / 4) blocks for Width.
* then each block has 64 bits (8 bytes) for DXT1 and 64+64 bits (16 bytes) for DXT2-DXT5, so.. : */
case D3DDDIFMT_DXT1:
{
return (Pitch / 8) * 4;
}
case D3DDDIFMT_DXT2:
case D3DDDIFMT_DXT3:
case D3DDDIFMT_DXT4:
case D3DDDIFMT_DXT5:
{
return (Pitch / 16) * 4;;
}
default:
{
/* the default is just to calculate it from bpp */
UINT bpp = vboxWddmCalcBitsPerPixel(enmFormat);
return (Pitch << 3) / bpp;
}
}
}
DECLINLINE(UINT) vboxWddmCalcNumRows(UINT top, UINT bottom, D3DDDIFORMAT enmFormat)
{
Assert(bottom > top);
top = top ? vboxWddmCalcOffYrd(top, enmFormat) : 0; /* <- just to optimize it a bit */
bottom = vboxWddmCalcOffYru(bottom, enmFormat);
return bottom - top;
}
DECLINLINE(UINT) vboxWddmCalcRowSize(UINT left, UINT right, D3DDDIFORMAT enmFormat)
{
Assert(right > left);
left = left ? vboxWddmCalcOffXrd(left, enmFormat) : 0; /* <- just to optimize it a bit */
right = vboxWddmCalcOffXru(right, enmFormat);
return right - left;
}
DECLINLINE(UINT) vboxWddmCalcSize(UINT pitch, UINT height, D3DDDIFORMAT enmFormat)
{
UINT cRows = vboxWddmCalcNumRows(0, height, enmFormat);
return pitch * cRows;
}
DECLINLINE(UINT) vboxWddmCalcOffXYrd(UINT x, UINT y, UINT pitch, D3DDDIFORMAT enmFormat)
{
UINT offY = 0;
if (y)
offY = vboxWddmCalcSize(pitch, y, enmFormat);
return offY + vboxWddmCalcOffXrd(x, enmFormat);
}
#define VBOXWDDM_ARRAY_MAXELEMENTSU32(_t) ((uint32_t)((UINT32_MAX) / sizeof (_t)))
#define VBOXWDDM_TRAILARRAY_MAXELEMENTSU32(_t, _af) ((uint32_t)(((~(0UL)) - (uint32_t)RT_OFFSETOF(_t, _af[0])) / RT_SIZEOFMEMB(_t, _af[0])))
#endif /* #ifndef ___VBoxMPIf_h___ */