/***************************************************************** Copyright (c) 1991, 1997 Digital Equipment Corporation, Maynard, Massachusetts. 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. 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 DIGITAL EQUIPMENT CORPORATION BE LIABLE FOR ANY CLAIM, DAMAGES, INCLUDING, BUT NOT LIMITED TO CONSEQUENTIAL OR INCIDENTAL 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 Digital Equipment Corporation shall not be used in advertising or otherwise to promote the sale, use or other dealings in this Software without prior written authorization from Digital Equipment Corporation. ******************************************************************/ #ifdef HAVE_DIX_CONFIG_H #include #endif #ifdef HAVE_DMX_CONFIG_H #include #endif #include #include #include #include #include "misc.h" #include "cursor.h" #include "cursorstr.h" #include "extnsionst.h" #include "dixstruct.h" #include "gc.h" #include "gcstruct.h" #include "scrnintstr.h" #include "window.h" #include "windowstr.h" #include "pixmapstr.h" #include "panoramiX.h" #include #include "panoramiXsrv.h" #include "globals.h" #include "servermd.h" #include "resource.h" #include "picturestr.h" #include "modinit.h" #include "protocol-versions.h" #ifdef GLXPROXY extern VisualPtr glxMatchVisual(ScreenPtr pScreen, VisualPtr pVisual, ScreenPtr pMatchScreen); #endif /* * PanoramiX data declarations */ int PanoramiXPixWidth = 0; int PanoramiXPixHeight = 0; int PanoramiXNumScreens = 0; static RegionRec PanoramiXScreenRegion = {{0, 0, 0, 0}, NULL}; static int PanoramiXNumDepths; static DepthPtr PanoramiXDepths; static int PanoramiXNumVisuals; static VisualPtr PanoramiXVisuals; unsigned long XRC_DRAWABLE; unsigned long XRT_WINDOW; unsigned long XRT_PIXMAP; unsigned long XRT_GC; unsigned long XRT_COLORMAP; static Bool VisualsEqual(VisualPtr, ScreenPtr, VisualPtr); XineramaVisualsEqualProcPtr XineramaVisualsEqualPtr = &VisualsEqual; /* * Function prototypes */ static int panoramiXGeneration; static int ProcPanoramiXDispatch(ClientPtr client); static void PanoramiXResetProc(ExtensionEntry*); /* * External references for functions and data variables */ #include "panoramiXh.h" int (* SavedProcVector[256]) (ClientPtr client) = { NULL, }; static int PanoramiXGCKeyIndex; static DevPrivateKey PanoramiXGCKey = &PanoramiXGCKeyIndex; static int PanoramiXScreenKeyIndex; static DevPrivateKey PanoramiXScreenKey = &PanoramiXScreenKeyIndex; typedef struct { DDXPointRec clipOrg; DDXPointRec patOrg; GCFuncs *wrapFuncs; } PanoramiXGCRec, *PanoramiXGCPtr; typedef struct { CreateGCProcPtr CreateGC; CloseScreenProcPtr CloseScreen; } PanoramiXScreenRec, *PanoramiXScreenPtr; RegionRec XineramaScreenRegions[MAXSCREENS]; static void XineramaValidateGC(GCPtr, unsigned long, DrawablePtr); static void XineramaChangeGC(GCPtr, unsigned long); static void XineramaCopyGC(GCPtr, unsigned long, GCPtr); static void XineramaDestroyGC(GCPtr); static void XineramaChangeClip(GCPtr, int, pointer, int); static void XineramaDestroyClip(GCPtr); static void XineramaCopyClip(GCPtr, GCPtr); static GCFuncs XineramaGCFuncs = { XineramaValidateGC, XineramaChangeGC, XineramaCopyGC, XineramaDestroyGC, XineramaChangeClip, XineramaDestroyClip, XineramaCopyClip }; #define Xinerama_GC_FUNC_PROLOGUE(pGC)\ PanoramiXGCPtr pGCPriv = (PanoramiXGCPtr) \ dixLookupPrivate(&(pGC)->devPrivates, PanoramiXGCKey); \ (pGC)->funcs = pGCPriv->wrapFuncs; #define Xinerama_GC_FUNC_EPILOGUE(pGC)\ pGCPriv->wrapFuncs = (pGC)->funcs;\ (pGC)->funcs = &XineramaGCFuncs; static Bool XineramaCloseScreen (int i, ScreenPtr pScreen) { PanoramiXScreenPtr pScreenPriv = (PanoramiXScreenPtr) dixLookupPrivate(&pScreen->devPrivates, PanoramiXScreenKey); pScreen->CloseScreen = pScreenPriv->CloseScreen; pScreen->CreateGC = pScreenPriv->CreateGC; REGION_UNINIT(pScreen, &XineramaScreenRegions[pScreen->myNum]); if (pScreen->myNum == 0) REGION_UNINIT(pScreen, &PanoramiXScreenRegion); free((pointer) pScreenPriv); return (*pScreen->CloseScreen) (i, pScreen); } static Bool XineramaCreateGC(GCPtr pGC) { ScreenPtr pScreen = pGC->pScreen; PanoramiXScreenPtr pScreenPriv = (PanoramiXScreenPtr) dixLookupPrivate(&pScreen->devPrivates, PanoramiXScreenKey); Bool ret; pScreen->CreateGC = pScreenPriv->CreateGC; if((ret = (*pScreen->CreateGC)(pGC))) { PanoramiXGCPtr pGCPriv = (PanoramiXGCPtr) dixLookupPrivate(&pGC->devPrivates, PanoramiXGCKey); pGCPriv->wrapFuncs = pGC->funcs; pGC->funcs = &XineramaGCFuncs; pGCPriv->clipOrg.x = pGC->clipOrg.x; pGCPriv->clipOrg.y = pGC->clipOrg.y; pGCPriv->patOrg.x = pGC->patOrg.x; pGCPriv->patOrg.y = pGC->patOrg.y; } pScreen->CreateGC = XineramaCreateGC; return ret; } static void XineramaValidateGC( GCPtr pGC, unsigned long changes, DrawablePtr pDraw ){ Xinerama_GC_FUNC_PROLOGUE (pGC); if((pDraw->type == DRAWABLE_WINDOW) && !(((WindowPtr)pDraw)->parent)) { /* the root window */ int x_off = pGC->pScreen->x; int y_off = pGC->pScreen->y; int new_val; new_val = pGCPriv->clipOrg.x - x_off; if(pGC->clipOrg.x != new_val) { pGC->clipOrg.x = new_val; changes |= GCClipXOrigin; } new_val = pGCPriv->clipOrg.y - y_off; if(pGC->clipOrg.y != new_val) { pGC->clipOrg.y = new_val; changes |= GCClipYOrigin; } new_val = pGCPriv->patOrg.x - x_off; if(pGC->patOrg.x != new_val) { pGC->patOrg.x = new_val; changes |= GCTileStipXOrigin; } new_val = pGCPriv->patOrg.y - y_off; if(pGC->patOrg.y != new_val) { pGC->patOrg.y = new_val; changes |= GCTileStipYOrigin; } } else { if(pGC->clipOrg.x != pGCPriv->clipOrg.x) { pGC->clipOrg.x = pGCPriv->clipOrg.x; changes |= GCClipXOrigin; } if(pGC->clipOrg.y != pGCPriv->clipOrg.y) { pGC->clipOrg.y = pGCPriv->clipOrg.y; changes |= GCClipYOrigin; } if(pGC->patOrg.x != pGCPriv->patOrg.x) { pGC->patOrg.x = pGCPriv->patOrg.x; changes |= GCTileStipXOrigin; } if(pGC->patOrg.y != pGCPriv->patOrg.y) { pGC->patOrg.y = pGCPriv->patOrg.y; changes |= GCTileStipYOrigin; } } (*pGC->funcs->ValidateGC)(pGC, changes, pDraw); Xinerama_GC_FUNC_EPILOGUE (pGC); } static void XineramaDestroyGC(GCPtr pGC) { Xinerama_GC_FUNC_PROLOGUE (pGC); (*pGC->funcs->DestroyGC)(pGC); Xinerama_GC_FUNC_EPILOGUE (pGC); } static void XineramaChangeGC ( GCPtr pGC, unsigned long mask ){ Xinerama_GC_FUNC_PROLOGUE (pGC); if(mask & GCTileStipXOrigin) pGCPriv->patOrg.x = pGC->patOrg.x; if(mask & GCTileStipYOrigin) pGCPriv->patOrg.y = pGC->patOrg.y; if(mask & GCClipXOrigin) pGCPriv->clipOrg.x = pGC->clipOrg.x; if(mask & GCClipYOrigin) pGCPriv->clipOrg.y = pGC->clipOrg.y; (*pGC->funcs->ChangeGC) (pGC, mask); Xinerama_GC_FUNC_EPILOGUE (pGC); } static void XineramaCopyGC ( GCPtr pGCSrc, unsigned long mask, GCPtr pGCDst ){ PanoramiXGCPtr pSrcPriv = (PanoramiXGCPtr) dixLookupPrivate(&pGCSrc->devPrivates, PanoramiXGCKey); Xinerama_GC_FUNC_PROLOGUE (pGCDst); if(mask & GCTileStipXOrigin) pGCPriv->patOrg.x = pSrcPriv->patOrg.x; if(mask & GCTileStipYOrigin) pGCPriv->patOrg.y = pSrcPriv->patOrg.y; if(mask & GCClipXOrigin) pGCPriv->clipOrg.x = pSrcPriv->clipOrg.x; if(mask & GCClipYOrigin) pGCPriv->clipOrg.y = pSrcPriv->clipOrg.y; (*pGCDst->funcs->CopyGC) (pGCSrc, mask, pGCDst); Xinerama_GC_FUNC_EPILOGUE (pGCDst); } static void XineramaChangeClip ( GCPtr pGC, int type, pointer pvalue, int nrects ){ Xinerama_GC_FUNC_PROLOGUE (pGC); (*pGC->funcs->ChangeClip) (pGC, type, pvalue, nrects); Xinerama_GC_FUNC_EPILOGUE (pGC); } static void XineramaCopyClip(GCPtr pgcDst, GCPtr pgcSrc) { Xinerama_GC_FUNC_PROLOGUE (pgcDst); (* pgcDst->funcs->CopyClip)(pgcDst, pgcSrc); Xinerama_GC_FUNC_EPILOGUE (pgcDst); } static void XineramaDestroyClip(GCPtr pGC) { Xinerama_GC_FUNC_PROLOGUE (pGC); (* pGC->funcs->DestroyClip)(pGC); Xinerama_GC_FUNC_EPILOGUE (pGC); } int XineramaDeleteResource(pointer data, XID id) { free(data); return 1; } typedef struct { int screen; int id; } PanoramiXSearchData; static Bool XineramaFindIDByScrnum(pointer resource, XID id, pointer privdata) { PanoramiXRes *res = (PanoramiXRes*)resource; PanoramiXSearchData *data = (PanoramiXSearchData*)privdata; return (res->info[data->screen].id == data->id); } PanoramiXRes * PanoramiXFindIDByScrnum(RESTYPE type, XID id, int screen) { PanoramiXSearchData data; pointer val; if(!screen) { dixLookupResourceByType(&val, id, type, serverClient, DixReadAccess); return val; } data.screen = screen; data.id = id; return LookupClientResourceComplex(clients[CLIENT_ID(id)], type, XineramaFindIDByScrnum, &data); } typedef struct _connect_callback_list { void (*func)(void); struct _connect_callback_list *next; } XineramaConnectionCallbackList; static XineramaConnectionCallbackList *ConnectionCallbackList = NULL; Bool XineramaRegisterConnectionBlockCallback(void (*func)(void)) { XineramaConnectionCallbackList *newlist; if(!(newlist = malloc(sizeof(XineramaConnectionCallbackList)))) return FALSE; newlist->next = ConnectionCallbackList; newlist->func = func; ConnectionCallbackList = newlist; return TRUE; } static void XineramaInitData(ScreenPtr pScreen) { int i, w, h; REGION_NULL(pScreen, &PanoramiXScreenRegion) for (i = 0; i < PanoramiXNumScreens; i++) { BoxRec TheBox; pScreen = screenInfo.screens[i]; TheBox.x1 = pScreen->x; TheBox.x2 = TheBox.x1 + pScreen->width; TheBox.y1 = pScreen->y; TheBox.y2 = TheBox.y1 + pScreen->height; REGION_INIT(pScreen, &XineramaScreenRegions[i], &TheBox, 1); REGION_UNION(pScreen, &PanoramiXScreenRegion, &PanoramiXScreenRegion, &XineramaScreenRegions[i]); } PanoramiXPixWidth = screenInfo.screens[0]->x + screenInfo.screens[0]->width; PanoramiXPixHeight = screenInfo.screens[0]->y + screenInfo.screens[0]->height; for (i = 1; i < PanoramiXNumScreens; i++) { pScreen = screenInfo.screens[i]; w = pScreen->x + pScreen->width; h = pScreen->y + pScreen->height; if (PanoramiXPixWidth < w) PanoramiXPixWidth = w; if (PanoramiXPixHeight < h) PanoramiXPixHeight = h; } } void XineramaReinitData(ScreenPtr pScreen) { int i; REGION_UNINIT(pScreen, &PanoramiXScreenRegion); for (i = 0; i < PanoramiXNumScreens; i++) REGION_UNINIT(pScreen, &XineramaScreenRegions[i]); XineramaInitData(pScreen); } /* * PanoramiXExtensionInit(): * Called from InitExtensions in main(). * Register PanoramiXeen Extension * Initialize global variables. */ void PanoramiXExtensionInit(int argc, char *argv[]) { int i; Bool success = FALSE; ExtensionEntry *extEntry; ScreenPtr pScreen = screenInfo.screens[0]; PanoramiXScreenPtr pScreenPriv; if (noPanoramiXExtension) return; PanoramiXNumScreens = screenInfo.numScreens; if (PanoramiXNumScreens == 1) { /* Only 1 screen */ noPanoramiXExtension = TRUE; return; } while (panoramiXGeneration != serverGeneration) { extEntry = AddExtension(PANORAMIX_PROTOCOL_NAME, 0,0, ProcPanoramiXDispatch, SProcPanoramiXDispatch, PanoramiXResetProc, StandardMinorOpcode); if (!extEntry) break; /* * First make sure all the basic allocations succeed. If not, * run in non-PanoramiXeen mode. */ if (!dixRequestPrivate(PanoramiXGCKey, sizeof(PanoramiXGCRec))) { noPanoramiXExtension = TRUE; return; } for (i = 0; i < PanoramiXNumScreens; i++) { pScreen = screenInfo.screens[i]; pScreenPriv = malloc(sizeof(PanoramiXScreenRec)); dixSetPrivate(&pScreen->devPrivates, PanoramiXScreenKey, pScreenPriv); if(!pScreenPriv) { noPanoramiXExtension = TRUE; return; } pScreenPriv->CreateGC = pScreen->CreateGC; pScreenPriv->CloseScreen = pScreen->CloseScreen; pScreen->CreateGC = XineramaCreateGC; pScreen->CloseScreen = XineramaCloseScreen; } XRC_DRAWABLE = CreateNewResourceClass(); XRT_WINDOW = CreateNewResourceType(XineramaDeleteResource, "XineramaWindow"); if (XRT_WINDOW) XRT_WINDOW |= XRC_DRAWABLE; XRT_PIXMAP = CreateNewResourceType(XineramaDeleteResource, "XineramaPixmap"); if (XRT_PIXMAP) XRT_PIXMAP |= XRC_DRAWABLE; XRT_GC = CreateNewResourceType(XineramaDeleteResource, "XineramaGC"); XRT_COLORMAP = CreateNewResourceType(XineramaDeleteResource, "XineramaColormap"); if (XRT_WINDOW && XRT_PIXMAP && XRT_GC && XRT_COLORMAP) { panoramiXGeneration = serverGeneration; success = TRUE; } SetResourceTypeErrorValue(XRT_WINDOW, BadWindow); SetResourceTypeErrorValue(XRT_PIXMAP, BadPixmap); SetResourceTypeErrorValue(XRT_GC, BadGC); SetResourceTypeErrorValue(XRT_COLORMAP, BadColor); } if (!success) { noPanoramiXExtension = TRUE; ErrorF(PANORAMIX_PROTOCOL_NAME " extension failed to initialize\n"); return; } XineramaInitData(pScreen); /* * Put our processes into the ProcVector */ for (i = 256; i--; ) SavedProcVector[i] = ProcVector[i]; ProcVector[X_CreateWindow] = PanoramiXCreateWindow; ProcVector[X_ChangeWindowAttributes] = PanoramiXChangeWindowAttributes; ProcVector[X_DestroyWindow] = PanoramiXDestroyWindow; ProcVector[X_DestroySubwindows] = PanoramiXDestroySubwindows; ProcVector[X_ChangeSaveSet] = PanoramiXChangeSaveSet; ProcVector[X_ReparentWindow] = PanoramiXReparentWindow; ProcVector[X_MapWindow] = PanoramiXMapWindow; ProcVector[X_MapSubwindows] = PanoramiXMapSubwindows; ProcVector[X_UnmapWindow] = PanoramiXUnmapWindow; ProcVector[X_UnmapSubwindows] = PanoramiXUnmapSubwindows; ProcVector[X_ConfigureWindow] = PanoramiXConfigureWindow; ProcVector[X_CirculateWindow] = PanoramiXCirculateWindow; ProcVector[X_GetGeometry] = PanoramiXGetGeometry; ProcVector[X_TranslateCoords] = PanoramiXTranslateCoords; ProcVector[X_CreatePixmap] = PanoramiXCreatePixmap; ProcVector[X_FreePixmap] = PanoramiXFreePixmap; ProcVector[X_CreateGC] = PanoramiXCreateGC; ProcVector[X_ChangeGC] = PanoramiXChangeGC; ProcVector[X_CopyGC] = PanoramiXCopyGC; ProcVector[X_SetDashes] = PanoramiXSetDashes; ProcVector[X_SetClipRectangles] = PanoramiXSetClipRectangles; ProcVector[X_FreeGC] = PanoramiXFreeGC; ProcVector[X_ClearArea] = PanoramiXClearToBackground; ProcVector[X_CopyArea] = PanoramiXCopyArea; ProcVector[X_CopyPlane] = PanoramiXCopyPlane; ProcVector[X_PolyPoint] = PanoramiXPolyPoint; ProcVector[X_PolyLine] = PanoramiXPolyLine; ProcVector[X_PolySegment] = PanoramiXPolySegment; ProcVector[X_PolyRectangle] = PanoramiXPolyRectangle; ProcVector[X_PolyArc] = PanoramiXPolyArc; ProcVector[X_FillPoly] = PanoramiXFillPoly; ProcVector[X_PolyFillRectangle] = PanoramiXPolyFillRectangle; ProcVector[X_PolyFillArc] = PanoramiXPolyFillArc; ProcVector[X_PutImage] = PanoramiXPutImage; ProcVector[X_GetImage] = PanoramiXGetImage; ProcVector[X_PolyText8] = PanoramiXPolyText8; ProcVector[X_PolyText16] = PanoramiXPolyText16; ProcVector[X_ImageText8] = PanoramiXImageText8; ProcVector[X_ImageText16] = PanoramiXImageText16; ProcVector[X_CreateColormap] = PanoramiXCreateColormap; ProcVector[X_FreeColormap] = PanoramiXFreeColormap; ProcVector[X_CopyColormapAndFree] = PanoramiXCopyColormapAndFree; ProcVector[X_InstallColormap] = PanoramiXInstallColormap; ProcVector[X_UninstallColormap] = PanoramiXUninstallColormap; ProcVector[X_AllocColor] = PanoramiXAllocColor; ProcVector[X_AllocNamedColor] = PanoramiXAllocNamedColor; ProcVector[X_AllocColorCells] = PanoramiXAllocColorCells; ProcVector[X_AllocColorPlanes] = PanoramiXAllocColorPlanes; ProcVector[X_FreeColors] = PanoramiXFreeColors; ProcVector[X_StoreColors] = PanoramiXStoreColors; ProcVector[X_StoreNamedColor] = PanoramiXStoreNamedColor; PanoramiXRenderInit (); } extern Bool CreateConnectionBlock(void); Bool PanoramiXCreateConnectionBlock(void) { int i, j, length; Bool disableBackingStore = FALSE; int old_width, old_height; float width_mult, height_mult; xWindowRoot *root; xVisualType *visual; xDepth *depth; VisualPtr pVisual; ScreenPtr pScreen; /* * Do normal CreateConnectionBlock but faking it for only one screen */ if(!PanoramiXNumDepths) { ErrorF("Xinerama error: No common visuals\n"); return FALSE; } for(i = 1; i < screenInfo.numScreens; i++) { pScreen = screenInfo.screens[i]; if(pScreen->rootDepth != screenInfo.screens[0]->rootDepth) { ErrorF("Xinerama error: Root window depths differ\n"); return FALSE; } if(pScreen->backingStoreSupport != screenInfo.screens[0]->backingStoreSupport) disableBackingStore = TRUE; } if (disableBackingStore) { for (i = 0; i < screenInfo.numScreens; i++) { pScreen = screenInfo.screens[i]; pScreen->backingStoreSupport = NotUseful; } } i = screenInfo.numScreens; screenInfo.numScreens = 1; if (!CreateConnectionBlock()) { screenInfo.numScreens = i; return FALSE; } screenInfo.numScreens = i; root = (xWindowRoot *) (ConnectionInfo + connBlockScreenStart); length = connBlockScreenStart + sizeof(xWindowRoot); /* overwrite the connection block */ root->nDepths = PanoramiXNumDepths; for (i = 0; i < PanoramiXNumDepths; i++) { depth = (xDepth *) (ConnectionInfo + length); depth->depth = PanoramiXDepths[i].depth; depth->nVisuals = PanoramiXDepths[i].numVids; length += sizeof(xDepth); visual = (xVisualType *)(ConnectionInfo + length); for (j = 0; j < depth->nVisuals; j++, visual++) { visual->visualID = PanoramiXDepths[i].vids[j]; for (pVisual = PanoramiXVisuals; pVisual->vid != visual->visualID; pVisual++) ; visual->class = pVisual->class; visual->bitsPerRGB = pVisual->bitsPerRGBValue; visual->colormapEntries = pVisual->ColormapEntries; visual->redMask = pVisual->redMask; visual->greenMask = pVisual->greenMask; visual->blueMask = pVisual->blueMask; } length += (depth->nVisuals * sizeof(xVisualType)); } connSetupPrefix.length = bytes_to_int32(length); for (i = 0; i < PanoramiXNumDepths; i++) free(PanoramiXDepths[i].vids); free(PanoramiXDepths); PanoramiXDepths = NULL; /* * OK, change some dimensions so it looks as if it were one big screen */ old_width = root->pixWidth; old_height = root->pixHeight; root->pixWidth = PanoramiXPixWidth; root->pixHeight = PanoramiXPixHeight; width_mult = (1.0 * root->pixWidth) / old_width; height_mult = (1.0 * root->pixHeight) / old_height; root->mmWidth *= width_mult; root->mmHeight *= height_mult; while(ConnectionCallbackList) { pointer tmp; tmp = (pointer)ConnectionCallbackList; (*ConnectionCallbackList->func)(); ConnectionCallbackList = ConnectionCallbackList->next; free(tmp); } return TRUE; } /* * This isn't just memcmp(), bitsPerRGBValue is skipped. markv made that * change way back before xf86 4.0, but the comment for _why_ is a bit * opaque, so I'm not going to question it for now. * * This is probably better done as a screen hook so DBE/EVI/GLX can add * their own tests, and adding privates to VisualRec so they don't have to * do their own back-mapping. */ static Bool VisualsEqual(VisualPtr a, ScreenPtr pScreenB, VisualPtr b) { return ((a->class == b->class) && (a->ColormapEntries == b->ColormapEntries) && (a->nplanes == b->nplanes) && (a->redMask == b->redMask) && (a->greenMask == b->greenMask) && (a->blueMask == b->blueMask) && (a->offsetRed == b->offsetRed) && (a->offsetGreen == b->offsetGreen) && (a->offsetBlue == b->offsetBlue)); } static void PanoramiXMaybeAddDepth(DepthPtr pDepth) { ScreenPtr pScreen; int j, k; Bool found = FALSE; for (j = 1; j < PanoramiXNumScreens; j++) { pScreen = screenInfo.screens[j]; for (k = 0; k < pScreen->numDepths; k++) { if (pScreen->allowedDepths[k].depth == pDepth->depth) { found = TRUE; break; } } } if (!found) return; j = PanoramiXNumDepths; PanoramiXNumDepths++; PanoramiXDepths = realloc(PanoramiXDepths, PanoramiXNumDepths * sizeof(DepthRec)); PanoramiXDepths[j].depth = pDepth->depth; PanoramiXDepths[j].numVids = 0; /* XXX suboptimal, should grow these dynamically */ if(pDepth->numVids) PanoramiXDepths[j].vids = malloc(sizeof(VisualID) * pDepth->numVids); else PanoramiXDepths[j].vids = NULL; } static void PanoramiXMaybeAddVisual(VisualPtr pVisual) { ScreenPtr pScreen; int j, k; Bool found = FALSE; for (j = 1; j < PanoramiXNumScreens; j++) { pScreen = screenInfo.screens[j]; found = FALSE; for (k = 0; k < pScreen->numVisuals; k++) { VisualPtr candidate = &pScreen->visuals[k]; if ((*XineramaVisualsEqualPtr)(pVisual, pScreen, candidate) #ifdef GLXPROXY && glxMatchVisual(screenInfo.screens[0], pVisual, pScreen) #endif ) { found = TRUE; break; } } if (!found) return; } /* found a matching visual on all screens, add it to the subset list */ j = PanoramiXNumVisuals; PanoramiXNumVisuals++; PanoramiXVisuals = realloc(PanoramiXVisuals, PanoramiXNumVisuals * sizeof(VisualRec)); memcpy(&PanoramiXVisuals[j], pVisual, sizeof(VisualRec)); for (k = 0; k < PanoramiXNumDepths; k++) { if (PanoramiXDepths[k].depth == pVisual->nplanes) { PanoramiXDepths[k].vids[PanoramiXDepths[k].numVids] = pVisual->vid; PanoramiXDepths[k].numVids++; break; } } } extern void PanoramiXConsolidate(void) { int i; PanoramiXRes *root, *defmap, *saver; ScreenPtr pScreen = screenInfo.screens[0]; DepthPtr pDepth = pScreen->allowedDepths; VisualPtr pVisual = pScreen->visuals; PanoramiXNumDepths = 0; PanoramiXNumVisuals = 0; for (i = 0; i < pScreen->numDepths; i++) PanoramiXMaybeAddDepth(pDepth++); for (i = 0; i < pScreen->numVisuals; i++) PanoramiXMaybeAddVisual(pVisual++); root = malloc(sizeof(PanoramiXRes)); root->type = XRT_WINDOW; defmap = malloc(sizeof(PanoramiXRes)); defmap->type = XRT_COLORMAP; saver = malloc(sizeof(PanoramiXRes)); saver->type = XRT_WINDOW; for (i = 0; i < PanoramiXNumScreens; i++) { ScreenPtr pScreen = screenInfo.screens[i]; root->info[i].id = pScreen->root->drawable.id; root->u.win.class = InputOutput; root->u.win.root = TRUE; saver->info[i].id = pScreen->screensaver.wid; saver->u.win.class = InputOutput; saver->u.win.root = TRUE; defmap->info[i].id = pScreen->defColormap; } AddResource(root->info[0].id, XRT_WINDOW, root); AddResource(saver->info[0].id, XRT_WINDOW, saver); AddResource(defmap->info[0].id, XRT_COLORMAP, defmap); } VisualID PanoramiXTranslateVisualID(int screen, VisualID orig) { ScreenPtr pOtherScreen = screenInfo.screens[screen]; VisualPtr pVisual = NULL; int i; for (i = 0; i < PanoramiXNumVisuals; i++) { if (orig == PanoramiXVisuals[i].vid) { pVisual = &PanoramiXVisuals[i]; break; } } if (!pVisual) return 0; /* if screen is 0, orig is already the correct visual ID */ if (screen == 0) return orig; /* found the original, now translate it relative to the backend screen */ for (i = 0; i < pOtherScreen->numVisuals; i++) { VisualPtr pOtherVisual = &pOtherScreen->visuals[i]; if ((*XineramaVisualsEqualPtr)(pVisual, pOtherScreen, pOtherVisual)) return pOtherVisual->vid; } return 0; } /* * PanoramiXResetProc() * Exit, deallocating as needed. */ static void PanoramiXResetProc(ExtensionEntry* extEntry) { int i; PanoramiXRenderReset (); screenInfo.numScreens = PanoramiXNumScreens; for (i = 256; i--; ) ProcVector[i] = SavedProcVector[i]; } int ProcPanoramiXQueryVersion (ClientPtr client) { /* REQUEST(xPanoramiXQueryVersionReq); */ xPanoramiXQueryVersionReply rep; register int n; REQUEST_SIZE_MATCH (xPanoramiXQueryVersionReq); rep.type = X_Reply; rep.length = 0; rep.sequenceNumber = client->sequence; rep.majorVersion = SERVER_PANORAMIX_MAJOR_VERSION; rep.minorVersion = SERVER_PANORAMIX_MINOR_VERSION; if (client->swapped) { swaps(&rep.sequenceNumber, n); swapl(&rep.length, n); swaps(&rep.majorVersion, n); swaps(&rep.minorVersion, n); } WriteToClient(client, sizeof (xPanoramiXQueryVersionReply), (char *)&rep); return Success; } int ProcPanoramiXGetState(ClientPtr client) { REQUEST(xPanoramiXGetStateReq); WindowPtr pWin; xPanoramiXGetStateReply rep; int n, rc; REQUEST_SIZE_MATCH(xPanoramiXGetStateReq); rc = dixLookupWindow(&pWin, stuff->window, client, DixGetAttrAccess); if (rc != Success) return rc; rep.type = X_Reply; rep.length = 0; rep.sequenceNumber = client->sequence; rep.state = !noPanoramiXExtension; rep.window = stuff->window; if (client->swapped) { swaps (&rep.sequenceNumber, n); swapl (&rep.length, n); swapl (&rep.window, n); } WriteToClient (client, sizeof (xPanoramiXGetStateReply), (char *) &rep); return Success; } int ProcPanoramiXGetScreenCount(ClientPtr client) { REQUEST(xPanoramiXGetScreenCountReq); WindowPtr pWin; xPanoramiXGetScreenCountReply rep; int n, rc; REQUEST_SIZE_MATCH(xPanoramiXGetScreenCountReq); rc = dixLookupWindow(&pWin, stuff->window, client, DixGetAttrAccess); if (rc != Success) return rc; rep.type = X_Reply; rep.length = 0; rep.sequenceNumber = client->sequence; rep.ScreenCount = PanoramiXNumScreens; rep.window = stuff->window; if (client->swapped) { swaps (&rep.sequenceNumber, n); swapl (&rep.length, n); swapl (&rep.window, n); } WriteToClient (client, sizeof (xPanoramiXGetScreenCountReply), (char *) &rep); return Success; } int ProcPanoramiXGetScreenSize(ClientPtr client) { REQUEST(xPanoramiXGetScreenSizeReq); WindowPtr pWin; xPanoramiXGetScreenSizeReply rep; int n, rc; if (stuff->screen >= PanoramiXNumScreens) return BadMatch; REQUEST_SIZE_MATCH(xPanoramiXGetScreenSizeReq); rc = dixLookupWindow(&pWin, stuff->window, client, DixGetAttrAccess); if (rc != Success) return rc; rep.type = X_Reply; rep.length = 0; rep.sequenceNumber = client->sequence; /* screen dimensions */ rep.width = screenInfo.screens[stuff->screen]->width; rep.height = screenInfo.screens[stuff->screen]->height; rep.window = stuff->window; rep.screen = stuff->screen; if (client->swapped) { swaps (&rep.sequenceNumber, n); swapl (&rep.length, n); swapl (&rep.width, n); swapl (&rep.height, n); swapl (&rep.window, n); swapl (&rep.screen, n); } WriteToClient (client, sizeof (xPanoramiXGetScreenSizeReply), (char *) &rep); return Success; } int ProcXineramaIsActive(ClientPtr client) { /* REQUEST(xXineramaIsActiveReq); */ xXineramaIsActiveReply rep; REQUEST_SIZE_MATCH(xXineramaIsActiveReq); rep.type = X_Reply; rep.length = 0; rep.sequenceNumber = client->sequence; #if 1 { /* The following hack fools clients into thinking that Xinerama * is disabled even though it is not. */ rep.state = !noPanoramiXExtension && !PanoramiXExtensionDisabledHack; } #else rep.state = !noPanoramiXExtension; #endif if (client->swapped) { int n; swaps (&rep.sequenceNumber, n); swapl (&rep.length, n); swapl (&rep.state, n); } WriteToClient (client, sizeof (xXineramaIsActiveReply), (char *) &rep); return Success; } int ProcXineramaQueryScreens(ClientPtr client) { /* REQUEST(xXineramaQueryScreensReq); */ xXineramaQueryScreensReply rep; REQUEST_SIZE_MATCH(xXineramaQueryScreensReq); rep.type = X_Reply; rep.sequenceNumber = client->sequence; rep.number = (noPanoramiXExtension) ? 0 : PanoramiXNumScreens; rep.length = bytes_to_int32(rep.number * sz_XineramaScreenInfo); if (client->swapped) { int n; swaps (&rep.sequenceNumber, n); swapl (&rep.length, n); swapl (&rep.number, n); } WriteToClient (client, sizeof (xXineramaQueryScreensReply), (char *) &rep); if(!noPanoramiXExtension) { xXineramaScreenInfo scratch; int i; for(i = 0; i < PanoramiXNumScreens; i++) { scratch.x_org = screenInfo.screens[i]->x; scratch.y_org = screenInfo.screens[i]->y; scratch.width = screenInfo.screens[i]->width; scratch.height = screenInfo.screens[i]->height; if(client->swapped) { int n; swaps (&scratch.x_org, n); swaps (&scratch.y_org, n); swaps (&scratch.width, n); swaps (&scratch.height, n); } WriteToClient (client, sz_XineramaScreenInfo, (char *) &scratch); } } return Success; } static int ProcPanoramiXDispatch (ClientPtr client) { REQUEST(xReq); switch (stuff->data) { case X_PanoramiXQueryVersion: return ProcPanoramiXQueryVersion(client); case X_PanoramiXGetState: return ProcPanoramiXGetState(client); case X_PanoramiXGetScreenCount: return ProcPanoramiXGetScreenCount(client); case X_PanoramiXGetScreenSize: return ProcPanoramiXGetScreenSize(client); case X_XineramaIsActive: return ProcXineramaIsActive(client); case X_XineramaQueryScreens: return ProcXineramaQueryScreens(client); } return BadRequest; } #if X_BYTE_ORDER == X_LITTLE_ENDIAN #define SHIFT_L(v,s) (v) << (s) #define SHIFT_R(v,s) (v) >> (s) #else #define SHIFT_L(v,s) (v) >> (s) #define SHIFT_R(v,s) (v) << (s) #endif static void CopyBits(char *dst, int shiftL, char *src, int bytes) { /* Just get it to work. Worry about speed later */ int shiftR = 8 - shiftL; while(bytes--) { *dst |= SHIFT_L(*src, shiftL); *(dst + 1) |= SHIFT_R(*src, shiftR); dst++; src++; } } /* Caution. This doesn't support 2 and 4 bpp formats. We expect 1 bpp and planar data to be already cleared when presented to this function */ void XineramaGetImageData( DrawablePtr *pDrawables, int left, int top, int width, int height, unsigned int format, unsigned long planemask, char *data, int pitch, Bool isRoot ){ RegionRec SrcRegion, GrabRegion; BoxRec SrcBox, *pbox; int x, y, w, h, i, j, nbox, size, sizeNeeded, ScratchPitch, inOut, depth; DrawablePtr pDraw = pDrawables[0]; char *ScratchMem = NULL; size = 0; /* find box in logical screen space */ SrcBox.x1 = left; SrcBox.y1 = top; if(!isRoot) { SrcBox.x1 += pDraw->x + screenInfo.screens[0]->x; SrcBox.y1 += pDraw->y + screenInfo.screens[0]->y; } SrcBox.x2 = SrcBox.x1 + width; SrcBox.y2 = SrcBox.y1 + height; REGION_INIT(pScreen, &SrcRegion, &SrcBox, 1); REGION_NULL(pScreen, &GrabRegion); depth = (format == XYPixmap) ? 1 : pDraw->depth; for(i = 0; i < PanoramiXNumScreens; i++) { pDraw = pDrawables[i]; inOut = RECT_IN_REGION(pScreen,&XineramaScreenRegions[i],&SrcBox); if(inOut == rgnIN) { (*pDraw->pScreen->GetImage)(pDraw, SrcBox.x1 - pDraw->x - screenInfo.screens[i]->x, SrcBox.y1 - pDraw->y - screenInfo.screens[i]->y, width, height, format, planemask, data); break; } else if (inOut == rgnOUT) continue; REGION_INTERSECT(pScreen, &GrabRegion, &SrcRegion, &XineramaScreenRegions[i]); nbox = REGION_NUM_RECTS(&GrabRegion); if(nbox) { pbox = REGION_RECTS(&GrabRegion); while(nbox--) { w = pbox->x2 - pbox->x1; h = pbox->y2 - pbox->y1; ScratchPitch = PixmapBytePad(w, depth); sizeNeeded = ScratchPitch * h; if(sizeNeeded > size) { char *tmpdata = ScratchMem; ScratchMem = realloc(ScratchMem, sizeNeeded); if(ScratchMem) size = sizeNeeded; else { ScratchMem = tmpdata; break; } } x = pbox->x1 - pDraw->x - screenInfo.screens[i]->x; y = pbox->y1 - pDraw->y - screenInfo.screens[i]->y; (*pDraw->pScreen->GetImage)(pDraw, x, y, w, h, format, planemask, ScratchMem); /* copy the memory over */ if(depth == 1) { int k, shift, leftover, index, index2; x = pbox->x1 - SrcBox.x1; y = pbox->y1 - SrcBox.y1; shift = x & 7; x >>= 3; leftover = w & 7; w >>= 3; /* clean up the edge */ if(leftover) { int mask = (1 << leftover) - 1; for(j = h, k = w; j--; k += ScratchPitch) ScratchMem[k] &= mask; } for(j = 0, index = (pitch * y) + x, index2 = 0; j < h; j++, index += pitch, index2 += ScratchPitch) { if(w) { if(!shift) memcpy(data + index, ScratchMem + index2, w); else CopyBits(data + index, shift, ScratchMem + index2, w); } if(leftover) { data[index + w] |= SHIFT_L(ScratchMem[index2 + w], shift); if((shift + leftover) > 8) data[index + w + 1] |= SHIFT_R(ScratchMem[index2 + w],(8 - shift)); } } } else { j = BitsPerPixel(depth) >> 3; x = (pbox->x1 - SrcBox.x1) * j; y = pbox->y1 - SrcBox.y1; w *= j; for(j = 0; j < h; j++) { memcpy(data + (pitch * (y + j)) + x, ScratchMem + (ScratchPitch * j), w); } } pbox++; } REGION_SUBTRACT(pScreen, &SrcRegion, &SrcRegion, &GrabRegion); if(!REGION_NOTEMPTY(pScreen, &SrcRegion)) break; } } if(ScratchMem) free(ScratchMem); REGION_UNINIT(pScreen, &SrcRegion); REGION_UNINIT(pScreen, &GrabRegion); }