/* * Xephyr - A kdrive X server thats runs in a host X window. * Authored by Matthew Allum * * Copyright © 2004 Nokia * * 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, and that the name of Nokia not be used in * advertising or publicity pertaining to distribution of the software without * specific, written prior permission. Nokia makes no * representations about the suitability of this software for any purpose. It * is provided "as is" without express or implied warranty. * * NOKIA DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, * INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO * EVENT SHALL NOKIA BE LIABLE FOR ANY SPECIAL, INDIRECT OR * CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, * DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER * TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR * PERFORMANCE OF THIS SOFTWARE. */ #ifdef HAVE_CONFIG_H #include #endif #include "ephyr.h" #include "inputstr.h" #include "scrnintstr.h" #include "ephyrlog.h" #ifdef XF86DRI #include "ephyrdri.h" #include "ephyrdriext.h" #include "ephyrglxext.h" #endif /* XF86DRI */ #include "xkbsrv.h" extern int KdTsPhyScreen; KdKeyboardInfo *ephyrKbd; KdPointerInfo *ephyrMouse; EphyrKeySyms ephyrKeySyms; Bool ephyrNoDRI = FALSE; Bool ephyrNoXV = FALSE; static int mouseState = 0; static Rotation ephyrRandr = RR_Rotate_0; typedef struct _EphyrInputPrivate { Bool enabled; } EphyrKbdPrivate, EphyrPointerPrivate; Bool EphyrWantGrayScale = 0; Bool ephyrInitialize(KdCardInfo * card, EphyrPriv * priv) { OsSignal(SIGUSR1, hostx_handle_signal); priv->base = 0; priv->bytes_per_line = 0; return TRUE; } Bool ephyrCardInit(KdCardInfo * card) { EphyrPriv *priv; priv = (EphyrPriv *) malloc(sizeof(EphyrPriv)); if (!priv) return FALSE; if (!ephyrInitialize(card, priv)) { free(priv); return FALSE; } card->driver = priv; return TRUE; } Bool ephyrScreenInitialize(KdScreenInfo * screen, EphyrScrPriv * scrpriv) { int width = 640, height = 480; CARD32 redMask, greenMask, blueMask; if (hostx_want_screen_size(screen, &width, &height) || !screen->width || !screen->height) { screen->width = width; screen->height = height; } if (EphyrWantGrayScale) screen->fb.depth = 8; if (screen->fb.depth && screen->fb.depth != hostx_get_depth()) { if (screen->fb.depth < hostx_get_depth() && (screen->fb.depth == 24 || screen->fb.depth == 16 || screen->fb.depth == 8)) { hostx_set_server_depth(screen, screen->fb.depth); } else ErrorF ("\nXephyr: requested screen depth not supported, setting to match hosts.\n"); } screen->fb.depth = hostx_get_server_depth(screen); screen->rate = 72; if (screen->fb.depth <= 8) { if (EphyrWantGrayScale) screen->fb.visuals = ((1 << StaticGray) | (1 << GrayScale)); else screen->fb.visuals = ((1 << StaticGray) | (1 << GrayScale) | (1 << StaticColor) | (1 << PseudoColor) | (1 << TrueColor) | (1 << DirectColor)); screen->fb.redMask = 0x00; screen->fb.greenMask = 0x00; screen->fb.blueMask = 0x00; screen->fb.depth = 8; screen->fb.bitsPerPixel = 8; } else { screen->fb.visuals = (1 << TrueColor); if (screen->fb.depth <= 15) { screen->fb.depth = 15; screen->fb.bitsPerPixel = 16; } else if (screen->fb.depth <= 16) { screen->fb.depth = 16; screen->fb.bitsPerPixel = 16; } else if (screen->fb.depth <= 24) { screen->fb.depth = 24; screen->fb.bitsPerPixel = 32; } else if (screen->fb.depth <= 30) { screen->fb.depth = 30; screen->fb.bitsPerPixel = 32; } else { ErrorF("\nXephyr: Unsupported screen depth %d\n", screen->fb.depth); return FALSE; } hostx_get_visual_masks(screen, &redMask, &greenMask, &blueMask); screen->fb.redMask = (Pixel) redMask; screen->fb.greenMask = (Pixel) greenMask; screen->fb.blueMask = (Pixel) blueMask; } scrpriv->randr = screen->randr; return ephyrMapFramebuffer(screen); } Bool ephyrScreenInit(KdScreenInfo * screen) { EphyrScrPriv *scrpriv; scrpriv = calloc(1, sizeof(EphyrScrPriv)); if (!scrpriv) return FALSE; screen->driver = scrpriv; if (!ephyrScreenInitialize(screen, scrpriv)) { screen->driver = 0; free(scrpriv); return FALSE; } return TRUE; } void * ephyrWindowLinear(ScreenPtr pScreen, CARD32 row, CARD32 offset, int mode, CARD32 *size, void *closure) { KdScreenPriv(pScreen); EphyrPriv *priv = pScreenPriv->card->driver; if (!pScreenPriv->enabled) return 0; *size = priv->bytes_per_line; return priv->base + row * priv->bytes_per_line + offset; } /** * Figure out display buffer size. If fakexa is enabled, allocate a larger * buffer so that fakexa has space to put offscreen pixmaps. */ int ephyrBufferHeight(KdScreenInfo * screen) { int buffer_height; if (ephyrFuncs.initAccel == NULL) buffer_height = screen->height; else buffer_height = 3 * screen->height; return buffer_height; } Bool ephyrMapFramebuffer(KdScreenInfo * screen) { EphyrScrPriv *scrpriv = screen->driver; EphyrPriv *priv = screen->card->driver; KdPointerMatrix m; int buffer_height; EPHYR_LOG("screen->width: %d, screen->height: %d index=%d", screen->width, screen->height, screen->mynum); /* * Use the rotation last applied to ourselves (in the Xephyr case the fb * coordinate system moves independently of the pointer coordiante system). */ KdComputePointerMatrix(&m, ephyrRandr, screen->width, screen->height); KdSetPointerMatrix(&m); priv->bytes_per_line = ((screen->width * screen->fb.bitsPerPixel + 31) >> 5) << 2; buffer_height = ephyrBufferHeight(screen); priv->base = hostx_screen_init(screen, screen->width, screen->height, buffer_height); if ((scrpriv->randr & RR_Rotate_0) && !(scrpriv->randr & RR_Reflect_All)) { scrpriv->shadow = FALSE; screen->fb.byteStride = priv->bytes_per_line; screen->fb.pixelStride = screen->width; screen->fb.frameBuffer = (CARD8 *) (priv->base); } else { /* Rotated/Reflected so we need to use shadow fb */ scrpriv->shadow = TRUE; EPHYR_LOG("allocing shadow"); KdShadowFbAlloc(screen, scrpriv->randr & (RR_Rotate_90 | RR_Rotate_270)); } return TRUE; } void ephyrSetScreenSizes(ScreenPtr pScreen) { KdScreenPriv(pScreen); KdScreenInfo *screen = pScreenPriv->screen; EphyrScrPriv *scrpriv = screen->driver; if (scrpriv->randr & (RR_Rotate_0 | RR_Rotate_180)) { pScreen->width = screen->width; pScreen->height = screen->height; pScreen->mmWidth = screen->width_mm; pScreen->mmHeight = screen->height_mm; } else { pScreen->width = screen->height; pScreen->height = screen->width; pScreen->mmWidth = screen->height_mm; pScreen->mmHeight = screen->width_mm; } } Bool ephyrUnmapFramebuffer(KdScreenInfo * screen) { EphyrScrPriv *scrpriv = screen->driver; if (scrpriv->shadow) KdShadowFbFree(screen); /* Note, priv->base will get freed when XImage recreated */ return TRUE; } void ephyrShadowUpdate(ScreenPtr pScreen, shadowBufPtr pBuf) { KdScreenPriv(pScreen); KdScreenInfo *screen = pScreenPriv->screen; EPHYR_LOG("slow paint"); /* FIXME: Slow Rotated/Reflected updates could be much * much faster efficiently updating via tranforming * pBuf->pDamage regions */ shadowUpdateRotatePacked(pScreen, pBuf); hostx_paint_rect(screen, 0, 0, 0, 0, screen->width, screen->height); } static void ephyrInternalDamageRedisplay(ScreenPtr pScreen) { KdScreenPriv(pScreen); KdScreenInfo *screen = pScreenPriv->screen; EphyrScrPriv *scrpriv = screen->driver; RegionPtr pRegion; if (!scrpriv || !scrpriv->pDamage) return; pRegion = DamageRegion(scrpriv->pDamage); if (RegionNotEmpty(pRegion)) { int nbox; BoxPtr pbox; nbox = RegionNumRects(pRegion); pbox = RegionRects(pRegion); while (nbox--) { hostx_paint_rect(screen, pbox->x1, pbox->y1, pbox->x1, pbox->y1, pbox->x2 - pbox->x1, pbox->y2 - pbox->y1); pbox++; } DamageEmpty(scrpriv->pDamage); } } static void ephyrInternalDamageBlockHandler(pointer data, OSTimePtr pTimeout, pointer pRead) { ScreenPtr pScreen = (ScreenPtr) data; ephyrInternalDamageRedisplay(pScreen); } static void ephyrInternalDamageWakeupHandler(pointer data, int i, pointer LastSelectMask) { /* FIXME: Not needed ? */ } Bool ephyrSetInternalDamage(ScreenPtr pScreen) { KdScreenPriv(pScreen); KdScreenInfo *screen = pScreenPriv->screen; EphyrScrPriv *scrpriv = screen->driver; PixmapPtr pPixmap = NULL; scrpriv->pDamage = DamageCreate((DamageReportFunc) 0, (DamageDestroyFunc) 0, DamageReportNone, TRUE, pScreen, pScreen); if (!RegisterBlockAndWakeupHandlers(ephyrInternalDamageBlockHandler, ephyrInternalDamageWakeupHandler, (pointer) pScreen)) return FALSE; pPixmap = (*pScreen->GetScreenPixmap) (pScreen); DamageRegister(&pPixmap->drawable, scrpriv->pDamage); return TRUE; } void ephyrUnsetInternalDamage(ScreenPtr pScreen) { KdScreenPriv(pScreen); KdScreenInfo *screen = pScreenPriv->screen; EphyrScrPriv *scrpriv = screen->driver; PixmapPtr pPixmap = NULL; pPixmap = (*pScreen->GetScreenPixmap) (pScreen); DamageUnregister(&pPixmap->drawable, scrpriv->pDamage); DamageDestroy(scrpriv->pDamage); RemoveBlockAndWakeupHandlers(ephyrInternalDamageBlockHandler, ephyrInternalDamageWakeupHandler, (pointer) pScreen); } #ifdef RANDR Bool ephyrRandRGetInfo(ScreenPtr pScreen, Rotation * rotations) { KdScreenPriv(pScreen); KdScreenInfo *screen = pScreenPriv->screen; EphyrScrPriv *scrpriv = screen->driver; RRScreenSizePtr pSize; Rotation randr; int n = 0; struct { int width, height; } sizes[] = { {1600, 1200}, {1400, 1050}, {1280, 960}, {1280, 1024}, {1152, 864}, {1024, 768}, {832, 624}, {800, 600}, {720, 400}, {480, 640}, {640, 480}, {640, 400}, {320, 240}, {240, 320}, {160, 160}, {0, 0} }; EPHYR_LOG("mark"); *rotations = RR_Rotate_All | RR_Reflect_All; if (!hostx_want_preexisting_window(screen) && !hostx_want_fullscreen()) { /* only if no -parent switch */ while (sizes[n].width != 0 && sizes[n].height != 0) { RRRegisterSize(pScreen, sizes[n].width, sizes[n].height, (sizes[n].width * screen->width_mm) / screen->width, (sizes[n].height * screen->height_mm) / screen->height); n++; } } pSize = RRRegisterSize(pScreen, screen->width, screen->height, screen->width_mm, screen->height_mm); randr = KdSubRotation(scrpriv->randr, screen->randr); RRSetCurrentConfig(pScreen, randr, 0, pSize); return TRUE; } Bool ephyrRandRSetConfig(ScreenPtr pScreen, Rotation randr, int rate, RRScreenSizePtr pSize) { KdScreenPriv(pScreen); KdScreenInfo *screen = pScreenPriv->screen; EphyrScrPriv *scrpriv = screen->driver; Bool wasEnabled = pScreenPriv->enabled; EphyrScrPriv oldscr; int oldwidth, oldheight, oldmmwidth, oldmmheight; Bool oldshadow; int newwidth, newheight; if (screen->randr & (RR_Rotate_0 | RR_Rotate_180)) { newwidth = pSize->width; newheight = pSize->height; } else { newwidth = pSize->height; newheight = pSize->width; } if (wasEnabled) KdDisableScreen(pScreen); oldscr = *scrpriv; oldwidth = screen->width; oldheight = screen->height; oldmmwidth = pScreen->mmWidth; oldmmheight = pScreen->mmHeight; oldshadow = scrpriv->shadow; /* * Set new configuration */ /* * We need to store the rotation value for pointer coords transformation; * though initially the pointer and fb rotation are identical, when we map * the fb, the screen will be reinitialized and return into an unrotated * state (presumably the HW is taking care of the rotation of the fb), but the * pointer still needs to be transformed. */ ephyrRandr = KdAddRotation(screen->randr, randr); scrpriv->randr = ephyrRandr; ephyrUnmapFramebuffer(screen); screen->width = newwidth; screen->height = newheight; if (!ephyrMapFramebuffer(screen)) goto bail4; /* FIXME below should go in own call */ if (oldshadow) KdShadowUnset(screen->pScreen); else ephyrUnsetInternalDamage(screen->pScreen); if (scrpriv->shadow) { if (!KdShadowSet(screen->pScreen, scrpriv->randr, ephyrShadowUpdate, ephyrWindowLinear)) goto bail4; } else { /* Without shadow fb ( non rotated ) we need * to use damage to efficiently update display * via signal regions what to copy from 'fb'. */ if (!ephyrSetInternalDamage(screen->pScreen)) goto bail4; } ephyrSetScreenSizes(screen->pScreen); /* * Set frame buffer mapping */ (*pScreen->ModifyPixmapHeader) (fbGetScreenPixmap(pScreen), pScreen->width, pScreen->height, screen->fb.depth, screen->fb.bitsPerPixel, screen->fb.byteStride, screen->fb.frameBuffer); /* set the subpixel order */ KdSetSubpixelOrder(pScreen, scrpriv->randr); if (wasEnabled) KdEnableScreen(pScreen); RRScreenSizeNotify(pScreen); return TRUE; bail4: EPHYR_LOG("bailed"); ephyrUnmapFramebuffer(screen); *scrpriv = oldscr; (void) ephyrMapFramebuffer(screen); pScreen->width = oldwidth; pScreen->height = oldheight; pScreen->mmWidth = oldmmwidth; pScreen->mmHeight = oldmmheight; if (wasEnabled) KdEnableScreen(pScreen); return FALSE; } Bool ephyrRandRInit(ScreenPtr pScreen) { rrScrPrivPtr pScrPriv; if (!RRScreenInit(pScreen)) return FALSE; pScrPriv = rrGetScrPriv(pScreen); pScrPriv->rrGetInfo = ephyrRandRGetInfo; pScrPriv->rrSetConfig = ephyrRandRSetConfig; return TRUE; } static Bool ephyrResizeScreen (ScreenPtr pScreen, int newwidth, int newheight) { KdScreenPriv(pScreen); KdScreenInfo *screen = pScreenPriv->screen; RRScreenSize size = {0}; Bool ret; int t; if (screen->randr & (RR_Rotate_90|RR_Rotate_270)) { t = newwidth; newwidth = newheight; newheight = t; } if (newwidth == screen->width && newheight == screen->height) { return FALSE; } size.width = newwidth; size.height = newheight; ret = ephyrRandRSetConfig (pScreen, screen->randr, 0, &size); if (ret) { RROutputPtr output; output = RRFirstOutput(pScreen); if (!output) return FALSE; RROutputSetModes(output, NULL, 0, 0); } return ret; } #endif Bool ephyrCreateColormap(ColormapPtr pmap) { return fbInitializeColormap(pmap); } Bool ephyrInitScreen(ScreenPtr pScreen) { KdScreenPriv(pScreen); KdScreenInfo *screen = pScreenPriv->screen; EPHYR_LOG("pScreen->myNum:%d\n", pScreen->myNum); hostx_set_screen_number(screen, pScreen->myNum); hostx_set_win_title(screen, "(ctrl+shift grabs mouse and keyboard)"); pScreen->CreateColormap = ephyrCreateColormap; #ifdef XV if (!ephyrNoXV) { if (!ephyrInitVideo(pScreen)) { EPHYR_LOG_ERROR("failed to initialize xvideo\n"); } else { EPHYR_LOG("initialized xvideo okay\n"); } } #endif /*XV*/ #ifdef XF86DRI if (!ephyrNoDRI && !hostx_has_dri()) { EPHYR_LOG("host x does not support DRI. Disabling DRI forwarding\n"); ephyrNoDRI = TRUE; } if (!ephyrNoDRI) { ephyrDRIExtensionInit(pScreen); ephyrHijackGLXExtension(); } #endif return TRUE; } Bool ephyrFinishInitScreen(ScreenPtr pScreen) { /* FIXME: Calling this even if not using shadow. * Seems harmless enough. But may be safer elsewhere. */ if (!shadowSetup(pScreen)) return FALSE; #ifdef RANDR if (!ephyrRandRInit(pScreen)) return FALSE; #endif return TRUE; } Bool ephyrCreateResources(ScreenPtr pScreen) { KdScreenPriv(pScreen); KdScreenInfo *screen = pScreenPriv->screen; EphyrScrPriv *scrpriv = screen->driver; EPHYR_LOG("mark pScreen=%p mynum=%d shadow=%d", pScreen, pScreen->myNum, scrpriv->shadow); if (scrpriv->shadow) return KdShadowSet(pScreen, scrpriv->randr, ephyrShadowUpdate, ephyrWindowLinear); else return ephyrSetInternalDamage(pScreen); } void ephyrPreserve(KdCardInfo * card) { } Bool ephyrEnable(ScreenPtr pScreen) { return TRUE; } Bool ephyrDPMS(ScreenPtr pScreen, int mode) { return TRUE; } void ephyrDisable(ScreenPtr pScreen) { } void ephyrRestore(KdCardInfo * card) { } void ephyrScreenFini(KdScreenInfo * screen) { EphyrScrPriv *scrpriv = screen->driver; if (scrpriv->shadow) { KdShadowFbFree(screen); } free(screen->driver); screen->driver = NULL; } /* * Port of Mark McLoughlin's Xnest fix for focus in + modifier bug. * See https://bugs.freedesktop.org/show_bug.cgi?id=3030 */ void ephyrUpdateModifierState(unsigned int state) { DeviceIntPtr pDev = inputInfo.keyboard; KeyClassPtr keyc = pDev->key; int i; CARD8 mask; int xkb_state; if (!pDev) return; xkb_state = XkbStateFieldFromRec(&pDev->key->xkbInfo->state); state = state & 0xff; if (xkb_state == state) return; for (i = 0, mask = 1; i < 8; i++, mask <<= 1) { int key; /* Modifier is down, but shouldn't be */ if ((xkb_state & mask) && !(state & mask)) { int count = keyc->modifierKeyCount[i]; for (key = 0; key < MAP_LENGTH; key++) if (keyc->xkbInfo->desc->map->modmap[key] & mask) { if (key_is_down(pDev, key, KEY_PROCESSED)) KdEnqueueKeyboardEvent(ephyrKbd, key, TRUE); if (--count == 0) break; } } /* Modifier shoud be down, but isn't */ if (!(xkb_state & mask) && (state & mask)) for (key = 0; key < MAP_LENGTH; key++) if (keyc->xkbInfo->desc->map->modmap[key] & mask) { KdEnqueueKeyboardEvent(ephyrKbd, key, FALSE); break; } } } static Bool ephyrCursorOffScreen(ScreenPtr *ppScreen, int *x, int *y) { return FALSE; } static void ephyrCrossScreen(ScreenPtr pScreen, Bool entering) { } int ephyrCurScreen; /*current event screen */ static void ephyrWarpCursor(DeviceIntPtr pDev, ScreenPtr pScreen, int x, int y) { OsBlockSIGIO(); ephyrCurScreen = pScreen->myNum; miPointerWarpCursor(inputInfo.pointer, pScreen, x, y); OsReleaseSIGIO(); } miPointerScreenFuncRec ephyrPointerScreenFuncs = { ephyrCursorOffScreen, ephyrCrossScreen, ephyrWarpCursor, NULL, NULL }; #ifdef XF86DRI /** * find if the remote window denoted by a_remote * is paired with an internal Window within the Xephyr server. * If the remove window is paired with an internal window, send an * expose event to the client insterested in the internal window expose event. * * Pairing happens when a drawable inside Xephyr is associated with * a GL surface in a DRI environment. * Look at the function ProcXF86DRICreateDrawable in ephyrdriext.c to * know a paired window is created. * * This is useful to make GL drawables (only windows for now) handle * expose events and send those events to clients. */ static void ephyrExposePairedWindow(int a_remote) { EphyrWindowPair *pair = NULL; RegionRec reg; ScreenPtr screen; if (!findWindowPairFromRemote(a_remote, &pair)) { EPHYR_LOG("did not find a pair for this window\n"); return; } screen = pair->local->drawable.pScreen; RegionNull(®); RegionCopy(®, &pair->local->clipList); screen->WindowExposures(pair->local, ®, NullRegion); RegionUninit(®); } #endif /* XF86DRI */ void ephyrPoll(void) { EphyrHostXEvent ev; while (hostx_get_event(&ev)) { switch (ev.type) { case EPHYR_EV_MOUSE_MOTION: if (!ephyrMouse || !((EphyrPointerPrivate *) ephyrMouse->driverPrivate)->enabled) { EPHYR_LOG("skipping mouse motion:%d\n", ephyrCurScreen); continue; } { if (ev.data.mouse_motion.screen >= 0 && (ephyrCurScreen != ev.data.mouse_motion.screen)) { EPHYR_LOG("warping mouse cursor. " "cur_screen%d, motion_screen:%d\n", ephyrCurScreen, ev.data.mouse_motion.screen); if (ev.data.mouse_motion.screen >= 0) { ephyrWarpCursor (inputInfo.pointer, screenInfo.screens[ev.data.mouse_motion.screen], ev.data.mouse_motion.x, ev.data.mouse_motion.y); } } else { int x = 0, y = 0; #ifdef XF86DRI EphyrWindowPair *pair = NULL; #endif EPHYR_LOG("enqueuing mouse motion:%d\n", ephyrCurScreen); x = ev.data.mouse_motion.x; y = ev.data.mouse_motion.y; EPHYR_LOG("initial (x,y):(%d,%d)\n", x, y); #ifdef XF86DRI EPHYR_LOG("is this window peered by a gl drawable ?\n"); if (findWindowPairFromRemote(ev.data.mouse_motion.window, &pair)) { EPHYR_LOG("yes, it is peered\n"); x += pair->local->drawable.x; y += pair->local->drawable.y; } else { EPHYR_LOG("no, it is not peered\n"); } EPHYR_LOG("final (x,y):(%d,%d)\n", x, y); #endif KdEnqueuePointerEvent(ephyrMouse, mouseState, x, y, 0); } } break; case EPHYR_EV_MOUSE_PRESS: if (!ephyrMouse || !((EphyrPointerPrivate *) ephyrMouse->driverPrivate)->enabled) { EPHYR_LOG("skipping mouse press:%d\n", ephyrCurScreen); continue; } EPHYR_LOG("enqueuing mouse press:%d\n", ephyrCurScreen); ephyrUpdateModifierState(ev.key_state); mouseState |= ev.data.mouse_down.button_num; KdEnqueuePointerEvent(ephyrMouse, mouseState | KD_MOUSE_DELTA, 0, 0, 0); break; case EPHYR_EV_MOUSE_RELEASE: if (!ephyrMouse || !((EphyrPointerPrivate *) ephyrMouse->driverPrivate)->enabled) continue; ephyrUpdateModifierState(ev.key_state); mouseState &= ~ev.data.mouse_up.button_num; EPHYR_LOG("enqueuing mouse release:%d\n", ephyrCurScreen); KdEnqueuePointerEvent(ephyrMouse, mouseState | KD_MOUSE_DELTA, 0, 0, 0); break; case EPHYR_EV_KEY_PRESS: if (!ephyrKbd || !((EphyrKbdPrivate *) ephyrKbd->driverPrivate)->enabled) continue; ephyrUpdateModifierState(ev.key_state); KdEnqueueKeyboardEvent(ephyrKbd, ev.data.key_down.scancode, FALSE); break; case EPHYR_EV_KEY_RELEASE: if (!ephyrKbd || !((EphyrKbdPrivate *) ephyrKbd->driverPrivate)->enabled) continue; ephyrUpdateModifierState(ev.key_state); KdEnqueueKeyboardEvent(ephyrKbd, ev.data.key_up.scancode, TRUE); break; #ifdef XF86DRI case EPHYR_EV_EXPOSE: /* * We only receive expose events when the expose event have * be generated for a drawable that is a host X window managed * by Xephyr. Host X windows managed by Xephyr exists for instance * when Xephyr is asked to create a GL drawable in a DRI environment. */ ephyrExposePairedWindow(ev.data.expose.window); break; #endif /* XF86DRI */ #ifdef RANDR case EPHYR_EV_CONFIGURE: ephyrResizeScreen(screenInfo.screens[ev.data.configure.screen], ev.data.configure.width, ev.data.configure.height); break; #endif /* RANDR */ default: break; } } } void ephyrCardFini(KdCardInfo * card) { EphyrPriv *priv = card->driver; free(priv); } void ephyrGetColors(ScreenPtr pScreen, int n, xColorItem * pdefs) { /* XXX Not sure if this is right */ EPHYR_LOG("mark"); while (n--) { pdefs->red = 0; pdefs->green = 0; pdefs->blue = 0; pdefs++; } } void ephyrPutColors(ScreenPtr pScreen, int n, xColorItem * pdefs) { int min, max, p; /* XXX Not sure if this is right */ min = 256; max = 0; while (n--) { p = pdefs->pixel; if (p < min) min = p; if (p > max) max = p; hostx_set_cmap_entry(p, pdefs->red >> 8, pdefs->green >> 8, pdefs->blue >> 8); pdefs++; } } /* Mouse calls */ static Status MouseInit(KdPointerInfo * pi) { pi->driverPrivate = (EphyrPointerPrivate *) calloc(sizeof(EphyrPointerPrivate), 1); ((EphyrPointerPrivate *) pi->driverPrivate)->enabled = FALSE; pi->nAxes = 3; pi->nButtons = 32; free(pi->name); pi->name = strdup("Xephyr virtual mouse"); /* * Must transform pointer coords since the pointer position * relative to the Xephyr window is controlled by the host server and * remains constant regardless of any rotation applied to the Xephyr screen. */ pi->transformCoordinates = TRUE; ephyrMouse = pi; return Success; } static Status MouseEnable(KdPointerInfo * pi) { ((EphyrPointerPrivate *) pi->driverPrivate)->enabled = TRUE; return Success; } static void MouseDisable(KdPointerInfo * pi) { ((EphyrPointerPrivate *) pi->driverPrivate)->enabled = FALSE; return; } static void MouseFini(KdPointerInfo * pi) { ephyrMouse = NULL; return; } KdPointerDriver EphyrMouseDriver = { "ephyr", MouseInit, MouseEnable, MouseDisable, MouseFini, NULL, }; /* Keyboard */ static Status EphyrKeyboardInit(KdKeyboardInfo * ki) { ki->driverPrivate = (EphyrKbdPrivate *) calloc(sizeof(EphyrKbdPrivate), 1); hostx_load_keymap(); if (!ephyrKeySyms.map) { ErrorF("Couldn't load keymap from host\n"); return BadAlloc; } ki->minScanCode = ephyrKeySyms.minKeyCode; ki->maxScanCode = ephyrKeySyms.maxKeyCode; free(ki->name); ki->name = strdup("Xephyr virtual keyboard"); ephyrKbd = ki; return Success; } static Status EphyrKeyboardEnable(KdKeyboardInfo * ki) { ((EphyrKbdPrivate *) ki->driverPrivate)->enabled = TRUE; return Success; } static void EphyrKeyboardDisable(KdKeyboardInfo * ki) { ((EphyrKbdPrivate *) ki->driverPrivate)->enabled = FALSE; } static void EphyrKeyboardFini(KdKeyboardInfo * ki) { ephyrKbd = NULL; return; } static void EphyrKeyboardLeds(KdKeyboardInfo * ki, int leds) { } static void EphyrKeyboardBell(KdKeyboardInfo * ki, int volume, int frequency, int duration) { } KdKeyboardDriver EphyrKeyboardDriver = { "ephyr", EphyrKeyboardInit, EphyrKeyboardEnable, EphyrKeyboardLeds, EphyrKeyboardBell, EphyrKeyboardDisable, EphyrKeyboardFini, NULL, };