/* Copyright 1993 by Davor Matic 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. Davor Matic makes no representations about the suitability of this software for any purpose. It is provided "as is" without express or implied warranty. */ #include #include #include #include #include #include #include #include "mi/mi_priv.h" #include "scrnintstr.h" #include "dix.h" #include "mi.h" #include "micmap.h" #include "colormapst.h" #include "resource.h" #include "xnest-xcb.h" #include "Display.h" #include "Screen.h" #include "XNGC.h" #include "GCOps.h" #include "Drawable.h" #include "XNFont.h" #include "Color.h" #include "XNCursor.h" #include "Events.h" #include "Init.h" #include "mipointer.h" #include "Args.h" #include "mipointrst.h" Window xnestDefaultWindows[MAXSCREENS]; Window xnestScreenSaverWindows[MAXSCREENS]; DevPrivateKeyRec xnestScreenCursorFuncKeyRec; DevScreenPrivateKeyRec xnestScreenCursorPrivKeyRec; ScreenPtr xnestScreen(Window window) { int i; for (i = 0; i < xnestNumScreens; i++) if (xnestDefaultWindows[i] == window) return screenInfo.screens[i]; return NULL; } static int offset(unsigned long mask) { int count; for (count = 0; !(mask & 1) && count < 32; count++) mask >>= 1; return count; } static Bool xnestSaveScreen(ScreenPtr pScreen, int what) { if (xnestSoftwareScreenSaver) return FALSE; else { switch (what) { case SCREEN_SAVER_ON: xcb_map_window(xnestUpstreamInfo.conn, xnestScreenSaverWindows[pScreen->myNum]); uint32_t value = XCB_STACK_MODE_ABOVE; xcb_configure_window(xnestUpstreamInfo.conn, xnestScreenSaverWindows[pScreen->myNum], XCB_CONFIG_WINDOW_STACK_MODE, &value); xnestSetScreenSaverColormapWindow(pScreen); break; case SCREEN_SAVER_OFF: xcb_unmap_window(xnestUpstreamInfo.conn, xnestScreenSaverWindows[pScreen->myNum]); xnestSetInstalledColormapWindows(pScreen); break; case SCREEN_SAVER_FORCER: lastEventTime = GetTimeInMillis(); xcb_unmap_window(xnestUpstreamInfo.conn, xnestScreenSaverWindows[pScreen->myNum]); xnestSetInstalledColormapWindows(pScreen); break; case SCREEN_SAVER_CYCLE: xcb_unmap_window(xnestUpstreamInfo.conn, xnestScreenSaverWindows[pScreen->myNum]); xnestSetInstalledColormapWindows(pScreen); break; } return TRUE; } } static Bool xnestCursorOffScreen(ScreenPtr *ppScreen, int *x, int *y) { return FALSE; } static void xnestCrossScreen(ScreenPtr pScreen, Bool entering) { } static miPointerScreenFuncRec xnestPointerCursorFuncs = { xnestCursorOffScreen, xnestCrossScreen, miPointerWarpCursor }; static miPointerSpriteFuncRec xnestPointerSpriteFuncs = { xnestRealizeCursor, xnestUnrealizeCursor, xnestSetCursor, xnestMoveCursor, xnestDeviceCursorInitialize, xnestDeviceCursorCleanup }; static int add_depth_visual(DepthPtr depths, int numDepths, int nplanes, VisualID vid) { DepthPtr walk = NULL; for (int j = 0; j < numDepths; j++) if (depths[j].depth == nplanes) { walk = &depths[j]; break; } if (!walk) { walk = &depths[numDepths++]; walk->depth = nplanes; walk->numVids = 0; walk->vids = (VisualID *) malloc(MAXVISUALSPERDEPTH * sizeof(VisualID)); } if (walk->numVids >= MAXVISUALSPERDEPTH) { FatalError("Visual table overflow"); } walk->vids[walk->numVids] = vid; walk->numVids++; return numDepths; } Bool xnestOpenScreen(ScreenPtr pScreen, int argc, char *argv[]) { unsigned long valuemask; VisualID defaultVisual; int rootDepth; miPointerScreenPtr PointPriv; if (!dixRegisterPrivateKey (&xnestWindowPrivateKeyRec, PRIVATE_WINDOW, sizeof(xnestPrivWin))) return FALSE; if (!dixRegisterPrivateKey (&xnestGCPrivateKeyRec, PRIVATE_GC, sizeof(xnestPrivGC))) return FALSE; if (!dixRegisterPrivateKey (&xnestPixmapPrivateKeyRec, PRIVATE_PIXMAP, sizeof(xnestPrivPixmap))) return FALSE; if (!dixRegisterPrivateKey (&xnestColormapPrivateKeyRec, PRIVATE_COLORMAP, sizeof(xnestPrivColormap))) return FALSE; if (!dixRegisterPrivateKey(&xnestScreenCursorFuncKeyRec, PRIVATE_SCREEN, 0)) return FALSE; if (!dixRegisterScreenPrivateKey(&xnestScreenCursorPrivKeyRec, pScreen, PRIVATE_CURSOR, 0)) return FALSE; int numVisuals = 0; VisualPtr visuals = calloc(1, sizeof(VisualRec)); int numDepths = 1; DepthPtr depths = calloc(MAXDEPTH, sizeof(DepthRec)); if (!visuals || !depths) { free(visuals); free(depths); return FALSE; } if (!xnestVisualMap) xnestVisualMap = calloc(1, sizeof(xnest_visual_t)); else xnestVisualMap = reallocarray(xnestVisualMap, xnestNumVisualMap+1, sizeof(xnest_visual_t)); depths[0].depth = 1; depths[0].numVids = 0; depths[0].vids = calloc(MAXVISUALSPERDEPTH, sizeof(VisualID)); int found_default_visual = 0; xcb_depth_iterator_t depth_iter; for (depth_iter = xcb_screen_allowed_depths_iterator(xnestUpstreamInfo.screenInfo); depth_iter.rem; xcb_depth_next(&depth_iter)) { int vlen = xcb_depth_visuals_length (depth_iter.data); xcb_visualtype_t *vts = xcb_depth_visuals (depth_iter.data); for (int x=0; xdepth == visuals[j].nplanes && vts[x].red_mask == visuals[j].redMask && vts[x].green_mask == visuals[j].greenMask && vts[x].blue_mask == visuals[j].blueMask && offset(vts[x].red_mask) == visuals[j].offsetRed && offset(vts[x].green_mask) == visuals[j].offsetGreen && offset(vts[x].blue_mask) == visuals[j].offsetBlue) goto breakout; } visuals[numVisuals] = (VisualRec) { .class = vts[x]._class, .bitsPerRGBValue = vts[x].bits_per_rgb_value, .ColormapEntries = vts[x].colormap_entries, .nplanes = depth_iter.data->depth, .redMask = vts[x].red_mask, .greenMask = vts[x].green_mask, .blueMask = vts[x].blue_mask, .offsetRed = offset(vts[x].red_mask), .offsetGreen = offset(vts[x].green_mask), .offsetBlue = offset(vts[x].blue_mask), .vid = FakeClientID(0), }; xnestVisualMap[xnestNumVisualMap] = (xnest_visual_t) { .ourXID = visuals[numVisuals].vid, .ourVisual = &visuals[numVisuals], .upstreamDepth = depth_iter.data, .upstreamVisual = &vts[x], .upstreamCMap = xcb_generate_id(xnestUpstreamInfo.conn), }; xcb_create_colormap(xnestUpstreamInfo.conn, XCB_COLORMAP_ALLOC_NONE, xnestVisualMap[xnestNumVisualMap].upstreamCMap, xnestUpstreamInfo.screenInfo->root, xnestVisualMap[xnestNumVisualMap].upstreamVisual->visual_id); numDepths = add_depth_visual(depths, numDepths, visuals[numVisuals].nplanes, visuals[numVisuals].vid); if (xnestUserDefaultClass || xnestUserDefaultDepth) { if ((!xnestDefaultClass || visuals[numVisuals].class == xnestDefaultClass) && (!xnestDefaultDepth || visuals[numVisuals].nplanes == xnestDefaultDepth)) { defaultVisual = visuals[numVisuals].vid; rootDepth = visuals[numVisuals].nplanes; found_default_visual = 1; } } else { VisualID visual_id = xnestUpstreamInfo.screenInfo->root_visual; if (visual_id == vts[x].visual_id) { defaultVisual = visuals[numVisuals].vid; rootDepth = visuals[numVisuals].nplanes; found_default_visual = 1; } } numVisuals++; xnestNumVisualMap++; visuals = reallocarray(visuals, numVisuals+1, sizeof(VisualRec)); xnestVisualMap = reallocarray(xnestVisualMap, xnestNumVisualMap+1, sizeof(xnest_visual_t)); } } breakout: visuals = reallocarray(visuals, numVisuals, sizeof(VisualRec)); xnestVisualMap = reallocarray(xnestVisualMap, xnestNumVisualMap, sizeof(xnest_visual_t)); if (!found_default_visual) { ErrorF("Xnest: can't find matching visual for user specified depth %d\n", xnestDefaultDepth); defaultVisual = visuals[0].vid; rootDepth = visuals[0].nplanes; } if (xnestParentWindow != 0) { xRectangle r = xnest_get_geometry(xnestUpstreamInfo.conn, xnestParentWindow); xnestGeometry.width = r.width; xnestGeometry.height = r.height; } /* myNum */ /* id */ if (!miScreenInit(pScreen, NULL, xnestGeometry.width, xnestGeometry.height, 1, 1, xnestGeometry.width, rootDepth, numDepths, depths, defaultVisual, /* root visual */ numVisuals, visuals)) return FALSE; pScreen->defColormap = (Colormap) FakeClientID(0); pScreen->minInstalledCmaps = MINCMAPS; pScreen->maxInstalledCmaps = MAXCMAPS; pScreen->backingStoreSupport = XCB_BACKING_STORE_NOT_USEFUL; pScreen->saveUnderSupport = XCB_BACKING_STORE_NOT_USEFUL; pScreen->whitePixel = xnestUpstreamInfo.screenInfo->white_pixel; pScreen->blackPixel = xnestUpstreamInfo.screenInfo->black_pixel; /* GCperDepth */ /* defaultStipple */ /* WindowPrivateLen */ /* WindowPrivateSizes */ /* totalWindowSize */ /* GCPrivateLen */ /* GCPrivateSizes */ /* totalGCSize */ /* Random screen procedures */ pScreen->QueryBestSize = xnestQueryBestSize; pScreen->SaveScreen = xnestSaveScreen; pScreen->GetImage = xnestGetImage; pScreen->GetSpans = xnestGetSpans; /* Window Procedures */ pScreen->CreateWindow = xnestCreateWindow; pScreen->DestroyWindow = xnestDestroyWindow; pScreen->PositionWindow = xnestPositionWindow; pScreen->ChangeWindowAttributes = xnestChangeWindowAttributes; pScreen->RealizeWindow = xnestRealizeWindow; pScreen->UnrealizeWindow = xnestUnrealizeWindow; pScreen->PostValidateTree = NULL; pScreen->WindowExposures = miWindowExposures; pScreen->CopyWindow = xnestCopyWindow; pScreen->ClipNotify = xnestClipNotify; pScreen->ClearToBackground = xnest_screen_ClearToBackground; /* Pixmap procedures */ pScreen->CreatePixmap = xnestCreatePixmap; pScreen->DestroyPixmap = xnestDestroyPixmap; pScreen->ModifyPixmapHeader = xnestModifyPixmapHeader; /* Font procedures */ pScreen->RealizeFont = xnestRealizeFont; pScreen->UnrealizeFont = xnestUnrealizeFont; /* GC procedures */ pScreen->CreateGC = xnestCreateGC; /* Colormap procedures */ pScreen->CreateColormap = xnestCreateColormap; pScreen->DestroyColormap = xnestDestroyColormap; pScreen->InstallColormap = xnestInstallColormap; pScreen->UninstallColormap = xnestUninstallColormap; pScreen->ListInstalledColormaps = xnestListInstalledColormaps; pScreen->StoreColors = xnestStoreColors; pScreen->ResolveColor = xnestResolveColor; pScreen->BitmapToRegion = xnestPixmapToRegion; /* OS layer procedures */ pScreen->BlockHandler = (ScreenBlockHandlerProcPtr) NoopDDA; pScreen->WakeupHandler = (ScreenWakeupHandlerProcPtr) NoopDDA; miDCInitialize(pScreen, &xnestPointerCursorFuncs); /* init SW rendering */ PointPriv = dixLookupPrivate(&pScreen->devPrivates, miPointerScreenKey); xnestCursorFuncs.spriteFuncs = PointPriv->spriteFuncs; dixSetPrivate(&pScreen->devPrivates, &xnestScreenCursorFuncKeyRec, &xnestCursorFuncs); PointPriv->spriteFuncs = &xnestPointerSpriteFuncs; pScreen->mmWidth = xnestGeometry.width * xnestUpstreamInfo.screenInfo->width_in_millimeters / xnestUpstreamInfo.screenInfo->width_in_pixels; pScreen->mmHeight = xnestGeometry.height * xnestUpstreamInfo.screenInfo->height_in_millimeters / xnestUpstreamInfo.screenInfo->height_in_pixels; /* overwrite miCloseScreen with our own */ pScreen->CloseScreen = xnestCloseScreen; /* overwrite miSetShape with our own */ pScreen->SetShape = xnestSetShape; /* devPrivates */ #define POSITION_OFFSET (pScreen->myNum * (xnestGeometry.width + xnestGeometry.height) / 32) if (xnestDoFullGeneration) { xcb_params_cw_t attributes = { .back_pixel = xnestUpstreamInfo.screenInfo->white_pixel, .event_mask = xnestEventMask, .colormap = xnest_visual_to_upstream_cmap(pScreen->rootVisual), }; valuemask = XCB_CW_BACK_PIXEL | XCB_CW_EVENT_MASK | XCB_CW_COLORMAP; if (xnestParentWindow != 0) { xnestDefaultWindows[pScreen->myNum] = xnestParentWindow; xcb_change_window_attributes(xnestUpstreamInfo.conn, xnestDefaultWindows[pScreen->myNum], XCB_CW_EVENT_MASK, &xnestEventMask); } else { xnestDefaultWindows[pScreen->myNum] = xcb_generate_id(xnestUpstreamInfo.conn); xcb_aux_create_window(xnestUpstreamInfo.conn, pScreen->rootDepth, xnestDefaultWindows[pScreen->myNum], xnestUpstreamInfo.screenInfo->root, xnestGeometry.x + POSITION_OFFSET, xnestGeometry.y + POSITION_OFFSET, xnestGeometry.width, xnestGeometry.height, xnestBorderWidth, XCB_WINDOW_CLASS_INPUT_OUTPUT, xnest_visual_map_to_upstream(pScreen->rootVisual), valuemask, &attributes); } if (!xnestWindowName) xnestWindowName = argv[0]; xcb_size_hints_t sizeHints = { .flags = XCB_ICCCM_SIZE_HINT_P_POSITION | XCB_ICCCM_SIZE_HINT_P_SIZE | XCB_ICCCM_SIZE_HINT_P_MAX_SIZE, .x = xnestGeometry.x + POSITION_OFFSET, .y = xnestGeometry.y + POSITION_OFFSET, .width = xnestGeometry.width, .height = xnestGeometry.height, .max_width = xnestGeometry.width, .max_height = xnestGeometry.height, }; if (xnestUserGeometry & XCB_CONFIG_WINDOW_X || xnestUserGeometry & XCB_CONFIG_WINDOW_Y) sizeHints.flags |= XCB_ICCCM_SIZE_HINT_US_POSITION; if (xnestUserGeometry & XCB_CONFIG_WINDOW_WIDTH || xnestUserGeometry & XCB_CONFIG_WINDOW_HEIGHT) sizeHints.flags |= XCB_ICCCM_SIZE_HINT_US_SIZE; const size_t windowNameLen = strlen(xnestWindowName); xcb_icccm_set_wm_name_checked(xnestUpstreamInfo.conn, xnestDefaultWindows[pScreen->myNum], XCB_ATOM_STRING, 8, windowNameLen, xnestWindowName); xcb_icccm_set_wm_icon_name_checked(xnestUpstreamInfo.conn, xnestDefaultWindows[pScreen->myNum], XCB_ATOM_STRING, 8, windowNameLen, xnestWindowName); xnest_set_command(xnestUpstreamInfo.conn, xnestDefaultWindows[pScreen->myNum], argv, argc); xcb_icccm_wm_hints_t wmhints = { .icon_pixmap = xnestIconBitmap, .flags = XCB_ICCCM_WM_HINT_ICON_PIXMAP, }; xcb_icccm_set_wm_hints_checked(xnestUpstreamInfo.conn, xnestDefaultWindows[pScreen->myNum], &wmhints); xcb_map_window(xnestUpstreamInfo.conn, xnestDefaultWindows[pScreen->myNum]); valuemask = XCB_CW_BACK_PIXMAP | XCB_CW_COLORMAP; attributes.back_pixmap = xnestScreenSaverPixmap; attributes.colormap = xnestUpstreamInfo.screenInfo->default_colormap; xnestScreenSaverWindows[pScreen->myNum] = xcb_generate_id(xnestUpstreamInfo.conn); xcb_aux_create_window(xnestUpstreamInfo.conn, xnestUpstreamInfo.screenInfo->root_depth, xnestScreenSaverWindows[pScreen->myNum], xnestDefaultWindows[pScreen->myNum], 0, 0, xnestGeometry.width, xnestGeometry.height, 0, XCB_WINDOW_CLASS_INPUT_OUTPUT, xnestUpstreamInfo.screenInfo->root_visual, valuemask, &attributes); } if (!xnestCreateDefaultColormap(pScreen)) return FALSE; return TRUE; } Bool xnestCloseScreen(ScreenPtr pScreen) { int i; for (i = 0; i < pScreen->numDepths; i++) free(pScreen->allowedDepths[i].vids); free(pScreen->allowedDepths); free(pScreen->visuals); miScreenClose(pScreen); /* If xnestDoFullGeneration all x resources will be destroyed upon closing the display connection. There is no need to generate extra protocol. */ return TRUE; }