/* Copyright 1993, 1998 The Open Group Permission to use, copy, modify, distribute, and sell this software and its documentation for any purpose is hereby granted without fee, provided that the above copyright notice appear in all copies and that both that copyright notice and this permission notice appear in supporting documentation. 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 OPEN GROUP 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. Except as contained in this notice, the name of The Open Group shall not be used in advertising or otherwise to promote the sale, use or other dealings in this Software without prior written authorization from The Open Group. */ #ifdef HAVE_DIX_CONFIG_H #include #endif #if defined(WIN32) #include #endif #include #include #include #include #include "scrnintstr.h" #include "servermd.h" #define PSZ 8 #include "fb.h" #include "colormapst.h" #include "gcstruct.h" #include "input.h" #include "mipointer.h" #include "micmap.h" #include #ifdef HAVE_MMAP #include #ifndef MAP_FILE #define MAP_FILE 0 #endif #endif /* HAVE_MMAP */ #include #include #ifndef WIN32 #include #endif #include #ifdef HAS_SHM #include #include #endif /* HAS_SHM */ #include "dix.h" #include "miline.h" #include "glx_extinit.h" #include "randrstr.h" #define VFB_DEFAULT_WIDTH 1280 #define VFB_DEFAULT_HEIGHT 1024 #define VFB_DEFAULT_DEPTH 24 #define VFB_DEFAULT_WHITEPIXEL 1 #define VFB_DEFAULT_BLACKPIXEL 0 #define VFB_DEFAULT_LINEBIAS 0 #define XWD_WINDOW_NAME_LEN 60 typedef struct { int width; int paddedBytesWidth; int paddedWidth; int height; int depth; int bitsPerPixel; int sizeInBytes; int ncolors; char *pfbMemory; XWDColor *pXWDCmap; XWDFileHeader *pXWDHeader; Pixel blackPixel; Pixel whitePixel; unsigned int lineBias; CloseScreenProcPtr closeScreen; #ifdef HAVE_MMAP int mmap_fd; char mmap_file[MAXPATHLEN]; #endif #ifdef HAS_SHM int shmid; #endif } vfbScreenInfo, *vfbScreenInfoPtr; static int vfbNumScreens; static vfbScreenInfo *vfbScreens; static vfbScreenInfo defaultScreenInfo = { .width = VFB_DEFAULT_WIDTH, .height = VFB_DEFAULT_HEIGHT, .depth = VFB_DEFAULT_DEPTH, .blackPixel = VFB_DEFAULT_BLACKPIXEL, .whitePixel = VFB_DEFAULT_WHITEPIXEL, .lineBias = VFB_DEFAULT_LINEBIAS, }; static Bool vfbPixmapDepths[33]; #ifdef HAVE_MMAP static char *pfbdir = NULL; #endif typedef enum { NORMAL_MEMORY_FB, SHARED_MEMORY_FB, MMAPPED_FILE_FB } fbMemType; static fbMemType fbmemtype = NORMAL_MEMORY_FB; static char needswap = 0; static Bool Render = TRUE; #define swapcopy16(_dst, _src) \ if (needswap) { CARD16 _s = _src; cpswaps(_s, _dst); } \ else _dst = _src; #define swapcopy32(_dst, _src) \ if (needswap) { CARD32 _s = _src; cpswapl(_s, _dst); } \ else _dst = _src; static void vfbInitializePixmapDepths(void) { int i; vfbPixmapDepths[1] = TRUE; /* always need bitmaps */ for (i = 2; i <= 32; i++) vfbPixmapDepths[i] = FALSE; } static int vfbBitsPerPixel(int depth) { if (depth == 1) return 1; else if (depth <= 8) return 8; else if (depth <= 16) return 16; else return 32; } void ddxGiveUp(enum ExitCode error) { int i; /* clean up the framebuffers */ switch (fbmemtype) { #ifdef HAVE_MMAP case MMAPPED_FILE_FB: for (i = 0; i < vfbNumScreens; i++) { if (-1 == unlink(vfbScreens[i].mmap_file)) { perror("unlink"); ErrorF("unlink %s failed, %s", vfbScreens[i].mmap_file, strerror(errno)); } } break; #else /* HAVE_MMAP */ case MMAPPED_FILE_FB: break; #endif /* HAVE_MMAP */ #ifdef HAS_SHM case SHARED_MEMORY_FB: for (i = 0; i < vfbNumScreens; i++) { if (-1 == shmdt((char *) vfbScreens[i].pXWDHeader)) { perror("shmdt"); ErrorF("shmdt failed, %s", strerror(errno)); } } break; #else /* HAS_SHM */ case SHARED_MEMORY_FB: break; #endif /* HAS_SHM */ case NORMAL_MEMORY_FB: for (i = 0; i < vfbNumScreens; i++) { free(vfbScreens[i].pXWDHeader); } break; } } void AbortDDX(enum ExitCode error) { ddxGiveUp(error); } #ifdef __APPLE__ void DarwinHandleGUI(int argc, char *argv[]) { } #endif void OsVendorInit(void) { } #ifdef X_PRIVSEP void priv_vendor_init(void) { } #endif void OsVendorFatalError(const char *f, va_list args) { } #if defined(DDXBEFORERESET) void ddxBeforeReset(void) { return; } #endif #if INPUTTHREAD /** This function is called in Xserver/os/inputthread.c when starting the input thread. */ void ddxInputThreadInit(void) { } #endif void ddxUseMsg(void) { ErrorF("-screen scrn WxHxD set screen's width, height, depth\n"); ErrorF("-pixdepths list-of-int support given pixmap depths\n"); ErrorF("+/-render turn on/off RENDER extension support" "(default on)\n"); ErrorF("-linebias n adjust thin line pixelization\n"); ErrorF("-blackpixel n pixel value for black\n"); ErrorF("-whitepixel n pixel value for white\n"); #ifdef HAVE_MMAP ErrorF ("-fbdir directory put framebuffers in mmap'ed files in directory\n"); #endif #ifdef HAS_SHM ErrorF("-shmem put framebuffers in shared memory\n"); #endif } int ddxProcessArgument(int argc, char *argv[], int i) { static Bool firstTime = TRUE; static int lastScreen = -1; vfbScreenInfo *currentScreen; if (firstTime) { vfbInitializePixmapDepths(); firstTime = FALSE; } if (lastScreen == -1) currentScreen = &defaultScreenInfo; else currentScreen = &vfbScreens[lastScreen]; #define CHECK_FOR_REQUIRED_ARGUMENTS(num) \ if (((i + num) >= argc) || (!argv[i + num])) { \ ErrorF("Required argument to %s not specified\n", argv[i]); \ UseMsg(); \ FatalError("Required argument to %s not specified\n", argv[i]); \ } if (strcmp(argv[i], "-screen") == 0) { /* -screen n WxHxD */ int screenNum; CHECK_FOR_REQUIRED_ARGUMENTS(2); screenNum = atoi(argv[i + 1]); /* The protocol only has a CARD8 for number of screens in the connection setup block, so don't allow more than that. */ if ((screenNum < 0) || (screenNum >= 255)) { ErrorF("Invalid screen number %d\n", screenNum); UseMsg(); FatalError("Invalid screen number %d passed to -screen\n", screenNum); } if (vfbNumScreens <= screenNum) { vfbScreens = reallocarray(vfbScreens, screenNum + 1, sizeof(*vfbScreens)); if (!vfbScreens) FatalError("Not enough memory for screen %d\n", screenNum); for (; vfbNumScreens <= screenNum; ++vfbNumScreens) vfbScreens[vfbNumScreens] = defaultScreenInfo; } if (3 != sscanf(argv[i + 2], "%dx%dx%d", &vfbScreens[screenNum].width, &vfbScreens[screenNum].height, &vfbScreens[screenNum].depth)) { ErrorF("Invalid screen configuration %s\n", argv[i + 2]); UseMsg(); FatalError("Invalid screen configuration %s for -screen %d\n", argv[i + 2], screenNum); } lastScreen = screenNum; return 3; } if (strcmp(argv[i], "-pixdepths") == 0) { /* -pixdepths list-of-depth */ int depth, ret = 1; CHECK_FOR_REQUIRED_ARGUMENTS(1); while ((++i < argc) && (depth = atoi(argv[i])) != 0) { if (depth < 0 || depth > 32) { ErrorF("Invalid pixmap depth %d\n", depth); UseMsg(); FatalError("Invalid pixmap depth %d passed to -pixdepths\n", depth); } vfbPixmapDepths[depth] = TRUE; ret++; } return ret; } if (strcmp(argv[i], "+render") == 0) { /* +render */ Render = TRUE; return 1; } if (strcmp(argv[i], "-render") == 0) { /* -render */ Render = FALSE; #ifdef COMPOSITE noCompositeExtension = TRUE; #endif return 1; } if (strcmp(argv[i], "-blackpixel") == 0) { /* -blackpixel n */ CHECK_FOR_REQUIRED_ARGUMENTS(1); currentScreen->blackPixel = atoi(argv[++i]); return 2; } if (strcmp(argv[i], "-whitepixel") == 0) { /* -whitepixel n */ CHECK_FOR_REQUIRED_ARGUMENTS(1); currentScreen->whitePixel = atoi(argv[++i]); return 2; } if (strcmp(argv[i], "-linebias") == 0) { /* -linebias n */ CHECK_FOR_REQUIRED_ARGUMENTS(1); currentScreen->lineBias = atoi(argv[++i]); return 2; } #ifdef HAVE_MMAP if (strcmp(argv[i], "-fbdir") == 0) { /* -fbdir directory */ CHECK_FOR_REQUIRED_ARGUMENTS(1); pfbdir = argv[++i]; fbmemtype = MMAPPED_FILE_FB; return 2; } #endif /* HAVE_MMAP */ #ifdef HAS_SHM if (strcmp(argv[i], "-shmem") == 0) { /* -shmem */ fbmemtype = SHARED_MEMORY_FB; return 1; } #endif return 0; } static void vfbInstallColormap(ColormapPtr pmap) { ColormapPtr oldpmap = GetInstalledmiColormap(pmap->pScreen); if (pmap != oldpmap) { int entries; XWDFileHeader *pXWDHeader; VisualPtr pVisual; Pixel *ppix; xrgb *prgb; xColorItem *defs; int i; miInstallColormap(pmap); entries = pmap->pVisual->ColormapEntries; pXWDHeader = vfbScreens[pmap->pScreen->myNum].pXWDHeader; pVisual = pmap->pVisual; swapcopy32(pXWDHeader->visual_class, pVisual->class); swapcopy32(pXWDHeader->red_mask, pVisual->redMask); swapcopy32(pXWDHeader->green_mask, pVisual->greenMask); swapcopy32(pXWDHeader->blue_mask, pVisual->blueMask); swapcopy32(pXWDHeader->bits_per_rgb, pVisual->bitsPerRGBValue); swapcopy32(pXWDHeader->colormap_entries, pVisual->ColormapEntries); ppix = xallocarray(entries, sizeof(Pixel)); prgb = xallocarray(entries, sizeof(xrgb)); defs = xallocarray(entries, sizeof(xColorItem)); for (i = 0; i < entries; i++) ppix[i] = i; /* XXX truecolor */ QueryColors(pmap, entries, ppix, prgb, serverClient); for (i = 0; i < entries; i++) { /* convert xrgbs to xColorItems */ defs[i].pixel = ppix[i] & 0xff; /* change pixel to index */ defs[i].red = prgb[i].red; defs[i].green = prgb[i].green; defs[i].blue = prgb[i].blue; defs[i].flags = DoRed | DoGreen | DoBlue; } (*pmap->pScreen->StoreColors) (pmap, entries, defs); free(ppix); free(prgb); free(defs); } } static void vfbStoreColors(ColormapPtr pmap, int ndef, xColorItem * pdefs) { XWDColor *pXWDCmap; int i; if (pmap != GetInstalledmiColormap(pmap->pScreen)) { return; } pXWDCmap = vfbScreens[pmap->pScreen->myNum].pXWDCmap; if ((pmap->pVisual->class | DynamicClass) == DirectColor) { return; } for (i = 0; i < ndef; i++) { if (pdefs[i].flags & DoRed) { swapcopy16(pXWDCmap[pdefs[i].pixel].red, pdefs[i].red); } if (pdefs[i].flags & DoGreen) { swapcopy16(pXWDCmap[pdefs[i].pixel].green, pdefs[i].green); } if (pdefs[i].flags & DoBlue) { swapcopy16(pXWDCmap[pdefs[i].pixel].blue, pdefs[i].blue); } } } static Bool vfbSaveScreen(ScreenPtr pScreen, int on) { return TRUE; } #ifdef HAVE_MMAP /* this flushes any changes to the screens out to the mmapped file */ static void vfbBlockHandler(void *blockData, void *timeout) { int i; for (i = 0; i < vfbNumScreens; i++) { #ifdef MS_ASYNC if (-1 == msync((caddr_t) vfbScreens[i].pXWDHeader, (size_t) vfbScreens[i].sizeInBytes, MS_ASYNC)) #else /* silly NetBSD and who else? */ if (-1 == msync((caddr_t) vfbScreens[i].pXWDHeader, (size_t) vfbScreens[i].sizeInBytes)) #endif { perror("msync"); ErrorF("msync failed, %s", strerror(errno)); } } } static void vfbWakeupHandler(void *blockData, int result) { } static void vfbAllocateMmappedFramebuffer(vfbScreenInfoPtr pvfb) { #define DUMMY_BUFFER_SIZE 65536 char dummyBuffer[DUMMY_BUFFER_SIZE]; int currentFileSize, writeThisTime; snprintf(pvfb->mmap_file, sizeof(pvfb->mmap_file), "%s/Xvfb_screen%d", pfbdir, (int) (pvfb - vfbScreens)); if (-1 == (pvfb->mmap_fd = open(pvfb->mmap_file, O_CREAT | O_RDWR, 0666))) { perror("open"); ErrorF("open %s failed, %s", pvfb->mmap_file, strerror(errno)); return; } /* Extend the file to be the proper size */ memset(dummyBuffer, 0, DUMMY_BUFFER_SIZE); for (currentFileSize = 0; currentFileSize < pvfb->sizeInBytes; currentFileSize += writeThisTime) { writeThisTime = min(DUMMY_BUFFER_SIZE, pvfb->sizeInBytes - currentFileSize); if (-1 == write(pvfb->mmap_fd, dummyBuffer, writeThisTime)) { perror("write"); ErrorF("write %s failed, %s", pvfb->mmap_file, strerror(errno)); return; } } /* try to mmap the file */ pvfb->pXWDHeader = (XWDFileHeader *) mmap((caddr_t) NULL, pvfb->sizeInBytes, PROT_READ | PROT_WRITE, MAP_FILE | MAP_SHARED, pvfb->mmap_fd, 0); if (-1 == (long) pvfb->pXWDHeader) { perror("mmap"); ErrorF("mmap %s failed, %s", pvfb->mmap_file, strerror(errno)); pvfb->pXWDHeader = NULL; return; } if (!RegisterBlockAndWakeupHandlers(vfbBlockHandler, vfbWakeupHandler, NULL)) { pvfb->pXWDHeader = NULL; } } #endif /* HAVE_MMAP */ #ifdef HAS_SHM static void vfbAllocateSharedMemoryFramebuffer(vfbScreenInfoPtr pvfb) { /* create the shared memory segment */ pvfb->shmid = shmget(IPC_PRIVATE, pvfb->sizeInBytes, IPC_CREAT | 0777); if (pvfb->shmid < 0) { perror("shmget"); ErrorF("shmget %d bytes failed, %s", pvfb->sizeInBytes, strerror(errno)); return; } /* try to attach it */ pvfb->pXWDHeader = (XWDFileHeader *) shmat(pvfb->shmid, 0, 0); if (-1 == (long) pvfb->pXWDHeader) { perror("shmat"); ErrorF("shmat failed, %s", strerror(errno)); pvfb->pXWDHeader = NULL; return; } ErrorF("screen %d shmid %d\n", (int) (pvfb - vfbScreens), pvfb->shmid); } #endif /* HAS_SHM */ static char * vfbAllocateFramebufferMemory(vfbScreenInfoPtr pvfb) { if (pvfb->pfbMemory) return pvfb->pfbMemory; /* already done */ pvfb->sizeInBytes = pvfb->paddedBytesWidth * pvfb->height; /* Calculate how many entries in colormap. This is rather bogus, because * the visuals haven't even been set up yet, but we need to know because we * have to allocate space in the file for the colormap. The number 10 * below comes from the MAX_PSEUDO_DEPTH define in cfbcmap.c. */ if (pvfb->depth <= 10) { /* single index colormaps */ pvfb->ncolors = 1 << pvfb->depth; } else { /* decomposed colormaps */ int nplanes_per_color_component = pvfb->depth / 3; if (pvfb->depth % 3) nplanes_per_color_component++; pvfb->ncolors = 1 << nplanes_per_color_component; } /* add extra bytes for XWDFileHeader, window name, and colormap */ pvfb->sizeInBytes += SIZEOF(XWDheader) + XWD_WINDOW_NAME_LEN + pvfb->ncolors * SIZEOF(XWDColor); pvfb->pXWDHeader = NULL; switch (fbmemtype) { #ifdef HAVE_MMAP case MMAPPED_FILE_FB: vfbAllocateMmappedFramebuffer(pvfb); break; #else case MMAPPED_FILE_FB: break; #endif #ifdef HAS_SHM case SHARED_MEMORY_FB: vfbAllocateSharedMemoryFramebuffer(pvfb); break; #else case SHARED_MEMORY_FB: break; #endif case NORMAL_MEMORY_FB: pvfb->pXWDHeader = (XWDFileHeader *) malloc(pvfb->sizeInBytes); break; } if (pvfb->pXWDHeader) { pvfb->pXWDCmap = (XWDColor *) ((char *) pvfb->pXWDHeader + SIZEOF(XWDheader) + XWD_WINDOW_NAME_LEN); pvfb->pfbMemory = (char *) (pvfb->pXWDCmap + pvfb->ncolors); return pvfb->pfbMemory; } else return NULL; } static void vfbWriteXWDFileHeader(ScreenPtr pScreen) { vfbScreenInfoPtr pvfb = &vfbScreens[pScreen->myNum]; XWDFileHeader *pXWDHeader = pvfb->pXWDHeader; char hostname[XWD_WINDOW_NAME_LEN]; unsigned long swaptest = 1; int i; needswap = *(char *) &swaptest; pXWDHeader->header_size = (char *) pvfb->pXWDCmap - (char *) pvfb->pXWDHeader; pXWDHeader->file_version = XWD_FILE_VERSION; pXWDHeader->pixmap_format = ZPixmap; pXWDHeader->pixmap_depth = pvfb->depth; pXWDHeader->pixmap_height = pXWDHeader->window_height = pvfb->height; pXWDHeader->xoffset = 0; pXWDHeader->byte_order = IMAGE_BYTE_ORDER; pXWDHeader->bitmap_bit_order = BITMAP_BIT_ORDER; #ifndef INTERNAL_VS_EXTERNAL_PADDING pXWDHeader->pixmap_width = pXWDHeader->window_width = pvfb->width; pXWDHeader->bitmap_unit = BITMAP_SCANLINE_UNIT; pXWDHeader->bitmap_pad = BITMAP_SCANLINE_PAD; #else pXWDHeader->pixmap_width = pXWDHeader->window_width = pvfb->paddedWidth; pXWDHeader->bitmap_unit = BITMAP_SCANLINE_UNIT_PROTO; pXWDHeader->bitmap_pad = BITMAP_SCANLINE_PAD_PROTO; #endif pXWDHeader->bits_per_pixel = pvfb->bitsPerPixel; pXWDHeader->bytes_per_line = pvfb->paddedBytesWidth; pXWDHeader->ncolors = pvfb->ncolors; /* visual related fields are written when colormap is installed */ pXWDHeader->window_x = pXWDHeader->window_y = 0; pXWDHeader->window_bdrwidth = 0; /* write xwd "window" name: Xvfb hostname:server.screen */ if (-1 == gethostname(hostname, sizeof(hostname))) hostname[0] = 0; else hostname[XWD_WINDOW_NAME_LEN - 1] = 0; sprintf((char *) (pXWDHeader + 1), "Xvfb %s:%s.%d", hostname, display, pScreen->myNum); /* write colormap pixel slot values */ for (i = 0; i < pvfb->ncolors; i++) { pvfb->pXWDCmap[i].pixel = i; } /* byte swap to most significant byte first */ if (needswap) { SwapLongs((CARD32 *) pXWDHeader, SIZEOF(XWDheader) / 4); for (i = 0; i < pvfb->ncolors; i++) { swapl(&pvfb->pXWDCmap[i].pixel); } } } static Bool vfbCursorOffScreen(ScreenPtr *ppScreen, int *x, int *y) { return FALSE; } static void vfbCrossScreen(ScreenPtr pScreen, Bool entering) { } static miPointerScreenFuncRec vfbPointerCursorFuncs = { vfbCursorOffScreen, vfbCrossScreen, miPointerWarpCursor }; static Bool vfbCloseScreen(ScreenPtr pScreen) { vfbScreenInfoPtr pvfb = &vfbScreens[pScreen->myNum]; pScreen->CloseScreen = pvfb->closeScreen; /* * fb overwrites miCloseScreen, so do this here */ if (pScreen->devPrivate) (*pScreen->DestroyPixmap) (pScreen->devPrivate); pScreen->devPrivate = NULL; return pScreen->CloseScreen(pScreen); } static Bool vfbRROutputValidateMode(ScreenPtr pScreen, RROutputPtr output, RRModePtr mode) { rrScrPriv(pScreen); if (pScrPriv->minWidth <= mode->mode.width && pScrPriv->maxWidth >= mode->mode.width && pScrPriv->minHeight <= mode->mode.height && pScrPriv->maxHeight >= mode->mode.height) return TRUE; else return FALSE; } static Bool vfbRRScreenSetSize(ScreenPtr pScreen, CARD16 width, CARD16 height, CARD32 mmWidth, CARD32 mmHeight) { // Prevent screen updates while we change things around SetRootClip(pScreen, ROOT_CLIP_NONE); pScreen->width = width; pScreen->height = height; pScreen->mmWidth = mmWidth; pScreen->mmHeight = mmHeight; // Restore the ability to update screen, now with new dimensions SetRootClip(pScreen, ROOT_CLIP_FULL); RRScreenSizeNotify (pScreen); RRTellChanged(pScreen); return TRUE; } static Bool vfbRRCrtcSet(ScreenPtr pScreen, RRCrtcPtr crtc, RRModePtr mode, int x, int y, Rotation rotation, int numOutput, RROutputPtr *outputs) { return RRCrtcNotify(crtc, mode, x, y, rotation, NULL, numOutput, outputs); } static Bool vfbRRGetInfo(ScreenPtr pScreen, Rotation *rotations) { return TRUE; } static Bool vfbRandRInit(ScreenPtr pScreen) { rrScrPrivPtr pScrPriv; #if RANDR_12_INTERFACE RRModePtr mode; RRCrtcPtr crtc; RROutputPtr output; xRRModeInfo modeInfo; char name[64]; #endif if (!RRScreenInit (pScreen)) return FALSE; pScrPriv = rrGetScrPriv(pScreen); pScrPriv->rrGetInfo = vfbRRGetInfo; #if RANDR_12_INTERFACE pScrPriv->rrCrtcSet = vfbRRCrtcSet; pScrPriv->rrScreenSetSize = vfbRRScreenSetSize; pScrPriv->rrOutputSetProperty = NULL; #if RANDR_13_INTERFACE pScrPriv->rrOutputGetProperty = NULL; #endif pScrPriv->rrOutputValidateMode = vfbRROutputValidateMode; pScrPriv->rrModeDestroy = NULL; RRScreenSetSizeRange (pScreen, 1, 1, pScreen->width, pScreen->height); sprintf (name, "%dx%d", pScreen->width, pScreen->height); memset (&modeInfo, '\0', sizeof (modeInfo)); modeInfo.width = pScreen->width; modeInfo.height = pScreen->height; modeInfo.nameLength = strlen (name); mode = RRModeGet (&modeInfo, name); if (!mode) return FALSE; crtc = RRCrtcCreate (pScreen, NULL); if (!crtc) return FALSE; output = RROutputCreate (pScreen, "screen", 6, NULL); if (!output) return FALSE; if (!RROutputSetClones (output, NULL, 0)) return FALSE; if (!RROutputSetModes (output, &mode, 1, 0)) return FALSE; if (!RROutputSetCrtcs (output, &crtc, 1)) return FALSE; if (!RROutputSetConnection (output, RR_Connected)) return FALSE; RRCrtcNotify (crtc, mode, 0, 0, RR_Rotate_0, NULL, 1, &output); #endif return TRUE; } static Bool vfbScreenInit(ScreenPtr pScreen, int argc, char **argv) { vfbScreenInfoPtr pvfb = &vfbScreens[pScreen->myNum]; int dpix = monitorResolution, dpiy = monitorResolution; int ret; char *pbits; if (dpix == 0) dpix = 100; if (dpiy == 0) dpiy = 100; pvfb->paddedBytesWidth = PixmapBytePad(pvfb->width, pvfb->depth); pvfb->bitsPerPixel = vfbBitsPerPixel(pvfb->depth); if (pvfb->bitsPerPixel >= 8) pvfb->paddedWidth = pvfb->paddedBytesWidth / (pvfb->bitsPerPixel / 8); else pvfb->paddedWidth = pvfb->paddedBytesWidth * 8; pbits = vfbAllocateFramebufferMemory(pvfb); if (!pbits) return FALSE; switch (pvfb->depth) { case 8: miSetVisualTypesAndMasks(8, ((1 << StaticGray) | (1 << GrayScale) | (1 << StaticColor) | (1 << PseudoColor) | (1 << TrueColor) | (1 << DirectColor)), 8, PseudoColor, 0, 0, 0); break; case 15: miSetVisualTypesAndMasks(15, ((1 << TrueColor) | (1 << DirectColor)), 8, TrueColor, 0x7c00, 0x03e0, 0x001f); break; case 16: miSetVisualTypesAndMasks(16, ((1 << TrueColor) | (1 << DirectColor)), 8, TrueColor, 0xf800, 0x07e0, 0x001f); break; case 24: miSetVisualTypesAndMasks(24, ((1 << TrueColor) | (1 << DirectColor)), 8, TrueColor, 0xff0000, 0x00ff00, 0x0000ff); break; case 30: miSetVisualTypesAndMasks(30, ((1 << TrueColor) | (1 << DirectColor)), 10, TrueColor, 0x3ff00000, 0x000ffc00, 0x000003ff); break; default: return FALSE; } miSetPixmapDepths(); ret = fbScreenInit(pScreen, pbits, pvfb->width, pvfb->height, dpix, dpiy, pvfb->paddedWidth, pvfb->bitsPerPixel); if (ret && Render) fbPictureInit(pScreen, 0, 0); if (!ret) return FALSE; if (!vfbRandRInit(pScreen)) return FALSE; pScreen->InstallColormap = vfbInstallColormap; pScreen->SaveScreen = vfbSaveScreen; pScreen->StoreColors = vfbStoreColors; miDCInitialize(pScreen, &vfbPointerCursorFuncs); vfbWriteXWDFileHeader(pScreen); pScreen->blackPixel = pvfb->blackPixel; pScreen->whitePixel = pvfb->whitePixel; ret = fbCreateDefColormap(pScreen); miSetZeroLineBias(pScreen, pvfb->lineBias); pvfb->closeScreen = pScreen->CloseScreen; pScreen->CloseScreen = vfbCloseScreen; return ret; } /* end vfbScreenInit */ void InitOutput(ScreenInfo * screen_info, int argc, char **argv) { int i; int NumFormats = 0; /* initialize pixmap formats */ /* must have a pixmap depth to match every screen depth */ for (i = 0; i < vfbNumScreens; i++) { vfbPixmapDepths[vfbScreens[i].depth] = TRUE; } /* RENDER needs a good set of pixmaps. */ if (Render) { vfbPixmapDepths[1] = TRUE; vfbPixmapDepths[4] = TRUE; vfbPixmapDepths[8] = TRUE; #if 0 vfbPixmapDepths[12] = TRUE; #endif /* vfbPixmapDepths[15] = TRUE; */ vfbPixmapDepths[16] = TRUE; vfbPixmapDepths[24] = TRUE; #if 0 vfbPixmapDepths[30] = TRUE; #endif vfbPixmapDepths[32] = TRUE; } xorgGlxCreateVendor(); for (i = 1; i <= 32; i++) { if (vfbPixmapDepths[i]) { if (NumFormats >= MAXFORMATS) FatalError("MAXFORMATS is too small for this server\n"); screen_info->formats[NumFormats].depth = i; screen_info->formats[NumFormats].bitsPerPixel = vfbBitsPerPixel(i); screen_info->formats[NumFormats].scanlinePad = BITMAP_SCANLINE_PAD; NumFormats++; } } screen_info->imageByteOrder = IMAGE_BYTE_ORDER; screen_info->bitmapScanlineUnit = BITMAP_SCANLINE_UNIT; screen_info->bitmapScanlinePad = BITMAP_SCANLINE_PAD; screen_info->bitmapBitOrder = BITMAP_BIT_ORDER; screen_info->numPixmapFormats = NumFormats; /* initialize screens */ if (vfbNumScreens < 1) { vfbScreens = &defaultScreenInfo; vfbNumScreens = 1; } for (i = 0; i < vfbNumScreens; i++) { if (-1 == AddScreen(vfbScreenInit, argc, argv)) { FatalError("Couldn't add screen %d", i); } } } /* end InitOutput */