/**************************************************************************/ /* */ /* Copyright (c) 2001, 2011 NoMachine (http://www.nomachine.com) */ /* Copyright (c) 2008-2014 Oleksandr Shneyder */ /* Copyright (c) 2011-2016 Mike Gabriel */ /* Copyright (c) 2014-2016 Mihai Moldovan */ /* Copyright (c) 2014-2016 Ulrich Sibiller */ /* Copyright (c) 2015-2016 Qindel Group (http://www.qindel.com) */ /* */ /* NXAGENT, NX protocol compression and NX extensions to this software */ /* are copyright of the aforementioned persons and companies. */ /* */ /* Redistribution and use of the present software is allowed according */ /* to terms specified in the file LICENSE which comes in the source */ /* distribution. */ /* */ /* All rights reserved. */ /* */ /* NOTE: This software has received contributions from various other */ /* contributors, only the core maintainers and supporters are listed as */ /* copyright holders. Please contact us, if you feel you should be listed */ /* as copyright holder, as well. */ /* */ /**************************************************************************/ #include "X.h" #include "signal.h" #include "unistd.h" #include "Xproto.h" #include "screenint.h" #include "input.h" #include "dix.h" #include "misc.h" #include "scrnintstr.h" #include "windowstr.h" #include "servermd.h" #include "mi.h" #include "selection.h" #include "keysym.h" #include "fb.h" #include "mibstorest.h" #include "osdep.h" #include "Agent.h" #include "Args.h" #include "Atoms.h" #include "Colormap.h" #include "Display.h" #include "Screen.h" #include "Windows.h" #include "Pixmaps.h" #include "Keyboard.h" #include "Keystroke.h" #include "Events.h" #include "Pointer.h" #include "Rootless.h" #include "Splash.h" #include "Trap.h" #include "Dialog.h" #include "Client.h" #include "Clipboard.h" #include "Split.h" #include "Drawable.h" #include "Handlers.h" #include "Utils.h" #include "Error.h" #include #include #include #include "xfixesproto.h" #define Window XlibWindow #define Atom XlibAtom #define Time XlibXID #include "X11/include/Xfixes_nxagent.h" #undef Window #undef Atom #undef Time #ifdef NXAGENT_FIXKEYS #include "inputstr.h" #include "input.h" #endif #define Time XlibXID #include "XKBlib.h" #undef Time #define GC XlibGC #define Font XlibFont #define KeySym XlibKeySym #define XID XlibXID #include "Xlibint.h" #undef GC #undef Font #undef KeySym #undef XID #include #include #include "X11/include/Xrandr_nxagent.h" #include "compext/Compext.h" /* * Set here the required log level. Please note that if you want to * enable DEBUG here, then you need to enable DEBUG even in Rootless.c */ #define PANIC #define WARNING #undef TEST #undef DEBUG /* debug individual subsystems */ #undef DEBUG_AUTOGRAB /* aktivate subsystems if generic DEBUG is activated */ #ifdef DEBUG #ifndef DEBUG_AUTOGRAB #define DEBUG_AUTOGRAB #endif #endif /* * Log begin and end of the important handlers. */ #undef BLOCKS extern Bool nxagentOnce; extern int nxagentLastClipboardClient; #ifdef NX_DEBUG_INPUT int nxagentDebugInput = 0; #endif #ifdef DEBUG extern Bool nxagentRootlessTreesMatch(void); #endif extern Selection *CurrentSelections; extern int NumCurrentSelections; typedef union _XFixesSelectionEvent { int type; XFixesSelectionNotifyEvent xfixesselection; XEvent core; } XFixesSelectionEvent; Bool xkbdRunning = False; pid_t pidkbd; WindowPtr nxagentLastEnteredWindow = NULL; PropertyRequestRec nxagentPropertyRequests[NXNumberOfResources]; void nxagentHandleCollectPropertyEvent(XEvent*); /* * Finalize the asynchronous handling of the X_GrabPointer requests. */ void nxagentHandleCollectGrabPointerEvent(int resource); Bool nxagentCollectGrabPointerPredicate(Display *disp, XEvent *X, XPointer ptr); /* * Used in Handlers.c to synchronize the agent with the remote X * server. */ void nxagentHandleCollectInputFocusEvent(int resource); /* * Viewport navigation. */ static int viewportInc = 1; static enum HandleEventResult viewportLastKeyPressResult; static int viewportLastX; static int viewportLastY; static Cursor viewportCursor; #define MAX_INC 200 #define INC_STEP 5 #define nextinc(x) ((x) < MAX_INC ? (x) += INC_STEP : (x)) /* * Keyboard and pointer are handled as they were real devices by Xnest * and we inherit this behaviour. The following mask will contain the * event mask selected for the root window of the agent. All the * keyboard and pointer events will be translated by the agent and * sent to the internal clients according to events selected by the * inferior windows. */ static Mask defaultEventMask; static int lastEventSerial = 0; /* * Used to mask the appropriate bits in the state reported by * XkbStateNotify and XkbGetIndicatorState. */ #define CAPSFLAG_IN_REPLY 1 #define CAPSFLAG_IN_EVENT 2 #define NUMFLAG_IN_EVENT 16 #define NUMFLAG_IN_REPLY 2 CARD32 nxagentLastEventTime = 0; CARD32 nxagentLastKeyPressTime = 0; Time nxagentLastServerTime = 0; /* * Used for storing windows that need to receive expose events from * the agent. */ #define nxagentExposeQueueHead nxagentExposeQueue.exposures[nxagentExposeQueue.start] ExposeQueue nxagentExposeQueue; RegionPtr nxagentRemoteExposeRegion = NULL; static void nxagentForwardRemoteExpose(void); static int nxagentClipAndSendExpose(WindowPtr pWin, void * ptr); /* * This is from NXproperty.c. */ int GetWindowProperty(WindowPtr pWin, Atom property, long longOffset, long longLength, Bool delete, Atom type, Atom *actualType, int *format, unsigned long *nItems, unsigned long *bytesAfter, unsigned char **propData); /* * Associate a resource to a drawable and store the region affected by * the split operation. */ SplitResourceRec nxagentSplitResources[NXNumberOfResources]; /* * Associate a resource to an unpack operation. */ UnpackResourceRec nxagentUnpackResources[NXNumberOfResources]; /* * We have to check these before launching * the terminate dialog in rootless mode. */ Bool nxagentLastWindowDestroyed = False; Time nxagentLastWindowDestroyedTime = 0; /* * Set this flag when an user input event is received. */ int nxagentInputEvent = 0; int nxagentKeyDown = 0; void nxagentSwitchResizeMode(ScreenPtr pScreen); int nxagentCheckWindowConfiguration(XConfigureEvent* X); #define nxagentMonitoredDuplicate(keysym) \ ((keysym) == XK_Left || (keysym) == XK_Up || \ (keysym) == XK_Right || (keysym) == XK_Down || \ (keysym) == XK_Page_Up || (keysym) == XK_Page_Down || \ (keysym) == XK_Delete || (keysym) == XK_BackSpace) void nxagentRemoveDuplicatedKeys(XEvent *X); void ProcessInputEvents(void) { #ifdef NX_DEBUG_INPUT if (nxagentDebugInput == 1) { fprintf(stderr, "%s: Processing input.\n", __func__); } #endif mieqProcessInputEvents(); } #ifdef DEBUG char * nxagentGetNotifyMode(int mode) { switch (mode) { case NotifyNormal: return "NotifyNormal"; case NotifyGrab: return "NotifyGrab"; case NotifyUngrab: return "NotifyUngrab"; case NotifyWhileGrabbed: return "NotifyWhileGrabbed"; } return "Unknown"; } #endif #ifdef DEBUG_TREE /* * Print ID and name of window. */ void nxagentRemoteWindowID(Window window, Bool newline) { #ifdef NO_I18N char *winName; #else XTextProperty tp; #endif fprintf(stderr, "0x%x", window); if (!window) { fprintf(stderr, " (none) "); } else { if (window == DefaultRootWindow(nxagentDisplay)) { fprintf(stderr, " (the root window) "); } #ifdef NO_I18N if (!XFetchName(nxagentDisplay, window, &winName)) { fprintf(stderr, " (has no name) "); } else if (winName) { fprintf(stderr, " \"%s\" ", winName); SAFE_XFree(winName); } #else if (XGetWMName(nxagentDisplay, window, &tp) == 0) { fprintf(stderr, " (has no name) "); } else if (tp.nitems > 0) { fprintf(stderr, " \""); int count = 0; char **list = NULL; int ret = XmbTextPropertyToTextList(nxagentDisplay, &tp, &list, &count); if ((ret == Success || ret > 0) && list != NULL) { for (int i = 0; i < count; i++) { fprintf(stderr, "%s", list[i]); } XFreeStringList(list); } else { fprintf(stderr, "%s", tp.value); } fprintf(stderr, "\" "); } #endif else { fprintf(stderr, " (has no name) "); } } if (newline) { fprintf(stderr, "\n"); } return; } /* * Print info about remote window. */ void nxagentRemoteWindowInfo(Window win, int indent, Bool newLine) { XWindowAttributes attributes; if (XGetWindowAttributes(nxagentDisplay, win, &attributes) == 0) { return; } fprintf(stderr, "%*sx=%d y=%d width=%d height=%d class=%s map_state=%s " "override_redirect=%s\n", indent, "", attributes.x, attributes.y, attributes.width, attributes.height, (attributes.class == 0) ? "CopyFromParent" : ((attributes.class == 1) ? "InputOutput" : "InputOnly"), (attributes.map_state == 0) ? "IsUnmapped" : (attributes.map_state == 1 ? "IsUnviewable" : "IsViewable"), (attributes.override_redirect == 0) ? "No" : "Yes" ); if (newLine) { fprintf(stderr, "\n"); } } /* * Walk remote windows tree. * * FIXME: * ========== nxagentRemoteWindowsTree ============ * * Root Window ID: 0x169 (the root window) (has no name) * Parent window ID: 0x2a00063 "NX Agent" * 0 children. * * ========== nxagentInternalWindowsTree ========== * Window ID=[0x9d] Remote ID=[0x2a0007e] Name: ( has no name ) * x=0 y=0 width=1440 height=810 class=InputOutput map_state=IsViewable override_redirect=No * * -> Internal root window's remote id is not listed in RemoteWindowsTree. */ void nxagentRemoteWindowsTree(Window window, int level) { unsigned long rootWin, parentWin; unsigned int numChildren; unsigned long *childList = NULL; if (!XQueryTree(nxagentDisplay, window, &rootWin, &parentWin, &childList, &numChildren)) { fprintf(stderr, "%s - XQueryTree failed.\n", __func__); return; } if (level == 0) { fprintf(stderr, "\n"); fprintf(stderr, " Root Window ID: "); nxagentRemoteWindowID(rootWin, TRUE); fprintf(stderr, " Parent window ID: "); nxagentRemoteWindowID(parentWin, TRUE); } if (level == 0 || numChildren > 0) { fprintf(stderr, "%*s", (level * 4) + 5, ""); /* 4 spaces per level */ fprintf(stderr, "%d child%s%s\n", numChildren, (numChildren == 1) ? "" : "ren", (numChildren == 1) ? ":" : "."); } for (int i = (int) numChildren - 1; i >= 0; i--) { fprintf(stderr, "%*s", (level * 5) + 6, ""); /* 5 spaces per level */ nxagentRemoteWindowID(childList[i], TRUE); nxagentRemoteWindowInfo(childList[i], (level * 5) + 6, TRUE); nxagentRemoteWindowsTree(childList[i], level + 1); } SAFE_XFree(childList); } /* * Print info about internal window. */ void nxagentInternalWindowInfo(WindowPtr pWin, int indent, Bool newLine) { unsigned long ulReturnItems; unsigned long ulReturnBytesLeft; Atom atomReturnType; int iReturnFormat; unsigned char *pszReturnData = NULL; fprintf(stderr, "Window ID=[0x%x] %s Remote ID=[0x%x] ", pWin -> drawable.id, pWin->parent ? "" : "(the root window)", nxagentWindow(pWin)); int result = GetWindowProperty(pWin, MakeAtom("WM_NAME", 7, False) , 0, sizeof(CARD32), False, AnyPropertyType, &atomReturnType, &iReturnFormat, &ulReturnItems, &ulReturnBytesLeft, &pszReturnData); fprintf(stderr, "Name: "); if (result == Success && pszReturnData != NULL) { fprintf(stderr, "\"%*.*s\"\n", (int)ulReturnItems, (int)ulReturnItems, (char *) pszReturnData); } else { fprintf(stderr, "%s\n", "( has no name )"); } fprintf(stderr, "%*sx=%d y=%d width=%d height=%d class=%s map_state=%s " "override_redirect=%s", indent, "", pWin -> drawable.x, pWin -> drawable.y, pWin -> drawable.width, pWin -> drawable.height, (pWin -> drawable.class == 0) ? "CopyFromParent" : ((pWin -> drawable.class == 1) ? "InputOutput" : "InputOnly"), (pWin -> mapped == 0) ? "IsUnmapped" : (pWin -> realized == 0 ? "IsUnviewable" : "IsViewable"), (pWin -> overrideRedirect == 0) ? "No" : "Yes"); if (newLine) { fprintf(stderr, "\n"); } } /* * Walk internal windows tree. */ void nxagentInternalWindowsTree(WindowPtr pWin, int indent) { for (; pWin; pWin = pWin -> nextSib) { fprintf(stderr, "%*s", indent, ""); nxagentInternalWindowInfo(pWin, indent, TRUE); fprintf(stderr, "\n"); nxagentInternalWindowsTree(pWin -> firstChild, indent + 4); } } #endif /* DEBUG_TREE */ void nxagentSwitchResizeMode(ScreenPtr pScreen) { #ifdef DEBUG fprintf(stderr, "%s: Called.\n", __func__); #endif int desktopResize = nxagentOption(DesktopResize); nxagentChangeOption(DesktopResize, !desktopResize); if (!nxagentOption(DesktopResize)) { fprintf(stderr,"Info: Disabled desktop resize mode in agent.\n"); nxagentLaunchDialog(DIALOG_DISABLE_DESKTOP_RESIZE_MODE); if (!nxagentOption(Fullscreen)) { nxagentSetWMNormalHintsMaxsize(pScreen, nxagentOption(RootWidth), nxagentOption(RootHeight)); } } else { fprintf(stderr,"Info: Enabled desktop resize mode in agent.\n"); nxagentLaunchDialog(DIALOG_ENABLE_DESKTOP_RESIZE_MODE); nxagentChangeScreenConfig(0, nxagentOption(Width), nxagentOption(Height), True); if (nxagentOption(ClientOs) == ClientOsWinnt) { NXSetExposeParameters(nxagentDisplay, 0, 0, 0); } nxagentSetWMNormalHintsMaxsize(pScreen, WidthOfScreen(DefaultScreenOfDisplay(nxagentDisplay)), HeightOfScreen(DefaultScreenOfDisplay(nxagentDisplay))); } } void nxagentShadowSwitchResizeMode(ScreenPtr pScreen) { int desktopResize = nxagentOption(DesktopResize); nxagentChangeOption(DesktopResize, !desktopResize); if (!nxagentOption(DesktopResize)) { nxagentShadowSetRatio(1.0, 1.0); nxagentShadowCreateMainWindow(screenInfo.screens[DefaultScreen(nxagentDisplay)], screenInfo.screens[0]->root, screenInfo.screens[0]->root -> drawable.width, screenInfo.screens[0]->root -> drawable.height); nxagentSetWMNormalHintsMaxsize(pScreen, nxagentOption(RootWidth), nxagentOption(RootHeight)); fprintf(stderr,"Info: Disabled resize mode in shadow agent.\n"); } else { nxagentShadowSetRatio(nxagentOption(Width) * 1.0 / screenInfo.screens[0]->root -> drawable.width, nxagentOption(Height) * 1.0 / screenInfo.screens[0]->root -> drawable.height); nxagentShadowCreateMainWindow(screenInfo.screens[DefaultScreen(nxagentDisplay)], screenInfo.screens[0]->root, screenInfo.screens[0]->root -> drawable.width, screenInfo.screens[0]->root -> drawable.height); nxagentSetWMNormalHintsMaxsize(pScreen, WidthOfScreen(DefaultScreenOfDisplay(nxagentDisplay)), HeightOfScreen(DefaultScreenOfDisplay(nxagentDisplay))); fprintf(stderr,"Info: Enabled resize mode in shadow agent.\n"); } } static void nxagentSwitchDeferMode(void) { if (nxagentOption(DeferLevel) == 0) { nxagentChangeOption(DeferLevel, UNDEFINED); nxagentSetDeferLevel(); } else { nxagentChangeOption(DeferLevel, 0); } if (nxagentOption(DeferLevel) != 0) { nxagentLaunchDialog(DIALOG_ENABLE_DEFER_MODE); } else { nxagentLaunchDialog(DIALOG_DISABLE_DEFER_MODE); nxagentForceSynchronization = True; } } static void nxagentEnableAutoGrab(void) { #ifdef DEBUG_AUTOGRAB fprintf(stderr, "enabling autograb\n"); #endif nxagentGrabPointerAndKeyboard(NULL); nxagentChangeOption(AutoGrab, True); nxagentLaunchDialog(DIALOG_ENABLE_AUTOGRAB_MODE); } static void nxagentDisableAutoGrab(void) { #ifdef DEBUG_AUTOGRAB fprintf(stderr, "disabling autograb\n"); #endif nxagentUngrabPointerAndKeyboard(NULL); nxagentChangeOption(AutoGrab, False); nxagentLaunchDialog(DIALOG_DISABLE_AUTOGRAB_MODE); } static void nxagentToggleAutoGrab(void) { /* autograb only works in windowed mode */ if (nxagentOption(Rootless) || nxagentOption(Fullscreen)) return; if (!nxagentOption(AutoGrab)) nxagentEnableAutoGrab(); else nxagentDisableAutoGrab(); } static Bool nxagentExposurePredicate(Display *disp, XEvent *event, XPointer window) { /* * Handle both Expose and ProcessedExpose events. The latters are * those not filtered by function nxagentWindowExposures(). */ if (window) { return ((event -> type == Expose || event -> type == ProcessedExpose) && event -> xexpose.window == *((Window *) window)); } else { return (event -> type == Expose || event -> type == ProcessedExpose); } } static int nxagentAnyEventPredicate(Display *disp, XEvent *event, XPointer parameter) { return 1; } int nxagentInputEventPredicate(Display *disp, XEvent *event, XPointer parameter) { switch (event -> type) { case KeyPress: case KeyRelease: case ButtonPress: case ButtonRelease: { return 1; } default: { return 0; } } } void nxagentInitDefaultEventMask(void) { Mask mask = NoEventMask; mask |= (StructureNotifyMask | VisibilityChangeMask); mask |= ExposureMask; mask |= NXAGENT_KEYBOARD_EVENT_MASK; mask |= NXAGENT_POINTER_EVENT_MASK; defaultEventMask = mask; } Mask nxagentGetDefaultEventMask(void) { return defaultEventMask; } void nxagentSetDefaultEventMask(Mask mask) { defaultEventMask = mask; } Mask nxagentGetEventMask(WindowPtr pWin) { Mask mask = NoEventMask; if (nxagentOption(Rootless)) { /* * mask = pWin -> eventMask & * ~(NXAGENT_KEYBOARD_EVENT_MASK | NXAGENT_POINTER_EVENT_MASK); */ if (pWin -> drawable.class == InputOutput) { if (nxagentWindowTopLevel(pWin)) { mask = defaultEventMask; } else { mask = ExposureMask | VisibilityChangeMask | PointerMotionMask; } } mask |= PropertyChangeMask; } else if (pWin -> drawable.class != InputOnly) { mask = ExposureMask | VisibilityChangeMask; } return mask; } static int nxagentChangeMapPrivate(WindowPtr pWin, void * ptr) { if (pWin && nxagentWindowPriv(pWin)) { nxagentWindowPriv(pWin) -> isMapped = *((Bool *) ptr); } return WT_WALKCHILDREN; } static int nxagentChangeVisibilityPrivate(WindowPtr pWin, void * ptr) { if (pWin && nxagentWindowPriv(pWin)) { nxagentWindowPriv(pWin) -> visibilityState = *((int *) ptr); } return WT_WALKCHILDREN; } void nxagentDispatchEvents(PredicateFuncPtr predicate) { XEvent X; xEvent x; ScreenPtr pScreen = NULL; Bool minimize = False; Bool closeSession = False; Bool switchFullscreen = False; Bool switchAllScreens = False; /* * Last entered top level window. */ static WindowPtr nxagentLastEnteredTopLevelWindow = NULL; #ifdef BLOCKS fprintf(stderr, "[Begin read]\n"); #endif #ifdef TEST fprintf(stderr, "%s: Going to handle new events with predicate [%p].\n", __func__, *(void **)&predicate); #endif if (nxagentRemoteExposeRegion == NULL) { nxagentInitRemoteExposeRegion(); } /* * We must read here, even if apparently there is nothing to * read. The ioctl() based readable function, in fact, is often * unable to detect a failure of the socket, in particular if the * agent was connected to the proxy and the proxy is gone. Thus we * must trust the wakeup handler that called us after the select(). */ #ifdef TEST if (nxagentPendingEvents(nxagentDisplay) == 0) { fprintf(stderr, "%s: PANIC! No event needs to be dispatched.\n", __func__); } #endif /* * We want to process all the events already in the queue, plus any * additional event that may be read from the network. If no event * can be read, we want to continue handling our clients without * flushing the output buffer. */ while (nxagentCheckEvents(nxagentDisplay, &X, predicate != NULL ? predicate : nxagentAnyEventPredicate, NULL) == 1) { #ifdef DEBUG fprintf(stderr, "%s: Going to handle new event type [%d].\n", __func__, X.type); #endif /* * Handle the incoming event. */ switch (X.type) { #ifdef NXAGENT_CLIPBOARD case SelectionClear: { #ifdef TEST fprintf(stderr, "%s: Going to handle new SelectionClear event.\n", __func__); #endif nxagentHandleSelectionClearFromXServer(&X); break; } case SelectionRequest: { #ifdef TEST fprintf(stderr, "%s: Going to handle new SelectionRequest event.\n", __func__); #endif nxagentHandleSelectionRequestFromXServer(&X); break; } case SelectionNotify: { #ifdef TEST fprintf(stderr, "%s: Going to handle new SelectionNotify event.\n", __func__); #endif nxagentHandleSelectionNotifyFromXServer(&X); break; } #endif /* NXAGENT_CLIPBOARD */ case PropertyNotify: { #ifdef TEST fprintf(stderr, "%s: PropertyNotify on prop %d[%s] window %lx state %d\n", __func__, (int)X.xproperty.atom, validateString(XGetAtomName(nxagentDisplay, X.xproperty.atom)), X.xproperty.window, X.xproperty.state); #endif nxagentHandlePropertyNotify(&X); break; } case KeyPress: { enum HandleEventResult result; #ifdef TEST fprintf(stderr, "%s: Going to handle new KeyPress event.\n", __func__); #endif nxagentInputEvent = 1; nxagentKeyDown++; nxagentHandleKeyPress(&X, &result); if (viewportLastKeyPressResult != result) { viewportInc = 1; viewportLastKeyPressResult = result; } if (result != doNothing) { pScreen = nxagentScreen(X.xkey.window); } switch (result) { case doNothing: { break; } #ifdef DEBUG_TREE case doDebugTree: { fprintf(stderr, "\n========== nxagentRemoteWindowsTree ============\n"); nxagentRemoteWindowsTree(nxagentWindow(screenInfo.screens[0]->root), 0); fprintf(stderr, "\n========== nxagentInternalWindowsTree ==========\n"); nxagentInternalWindowsTree(screenInfo.screens[0]->root, 0); break; } #endif /* DEBUG_TREE */ case doCloseSession: { closeSession = TRUE; break; } case doMinimize: { minimize = TRUE; break; } case doSwitchFullscreen: { switchFullscreen = TRUE; break; } case doSwitchAllScreens: { switchAllScreens = TRUE; break; } case doViewportMoveUp: { nxagentMoveViewport(pScreen, 0, -nxagentOption(Height)); break; } case doViewportMoveDown: { nxagentMoveViewport(pScreen, 0, nxagentOption(Height)); break; } case doViewportMoveLeft: { nxagentMoveViewport(pScreen, -nxagentOption(Width), 0); break; } case doViewportMoveRight: { nxagentMoveViewport(pScreen, nxagentOption(Width), 0); break; } case doViewportUp: { nxagentMoveViewport(pScreen, 0, -nextinc(viewportInc)); break; } case doViewportDown: { nxagentMoveViewport(pScreen, 0, +nextinc(viewportInc)); break; } case doViewportLeft: { nxagentMoveViewport(pScreen, -nextinc(viewportInc), 0); break; } case doViewportRight: { nxagentMoveViewport(pScreen, +nextinc(viewportInc), 0); break; } case doSwitchResizeMode: { if (!nxagentOption(Shadow)) { if (nxagentNoDialogIsRunning) { nxagentSwitchResizeMode(pScreen); } } else { nxagentShadowSwitchResizeMode(pScreen); } break; } case doSwitchDeferMode: { if (nxagentNoDialogIsRunning) { nxagentSwitchDeferMode(); } break; } case doAutoGrab: { nxagentToggleAutoGrab(); break; } case doDumpClipboard: { nxagentDumpClipboardStat(); break; } default: { FatalError("nxagentDispatchEvent: handleKeyPress returned unknown value\n"); break; } } /* * Elide multiple KeyPress/KeyRelease events of the same key * and generate a single pair. This is intended to reduce the * impact of the latency on the key auto-repeat, handled by * the remote X server. We may optionally do that only if the * timestamps in the events show an exces- sive delay. */ KeySym keysym = XKeycodeToKeysym(nxagentDisplay, X.xkey.keycode, 0); if (nxagentMonitoredDuplicate(keysym) == 1) { nxagentRemoveDuplicatedKeys(&X); } if (!nxagentOption(ViewOnly) && nxagentOption(Shadow) && result == doNothing) { X.xkey.keycode = nxagentConvertKeycode(X.xkey.keycode); NXShadowEvent(nxagentDisplay, X); } break; } case KeyRelease: { enum HandleEventResult result; int sendKey = 0; /* FIXME: If we don't flush the queue here, it could happen that the inputInfo structure will not be up to date when we perform the following check on down keys. */ ProcessInputEvents(); /* FIXME: Don't enqueue the KeyRelease event if the key was not already pressed. This workaround avoids a fake KeyPress being enqueued by the XKEYBOARD extension. Another solution would be to let the events enqueued and to remove the KeyPress afterwards. */ if (BitIsOn(inputInfo.keyboard -> key -> down, nxagentConvertKeycode(X.xkey.keycode))) { sendKey = 1; } #ifdef TEST fprintf(stderr, "%s: Going to handle new KeyRelease event.\n", __func__); #endif nxagentInputEvent = 1; nxagentKeyDown--; if (nxagentKeyDown <= 0) { nxagentKeyDown = 0; } if (!nxagentXkbState.Initialized) { if (X.xkey.keycode == nxagentCapsLockKeycode) { nxagentXkbCapsTrap = True; } else if (X.xkey.keycode == nxagentNumLockKeycode) { nxagentXkbNumTrap = True; } nxagentInitXkbKeyboardState(); nxagentXkbCapsTrap = False; nxagentXkbNumTrap = False; } /* Calculate the time elapsed between this and the last event we received. Add this delta to time we recorded for the last KeyPress event we passed on to our clients. */ memset(&x, 0, sizeof(xEvent)); x.u.u.type = KeyRelease; x.u.u.detail = nxagentConvertKeycode(X.xkey.keycode); x.u.keyButtonPointer.time = nxagentLastKeyPressTime + (X.xkey.time - nxagentLastServerTime); nxagentLastServerTime = X.xkey.time; nxagentLastEventTime = GetTimeInMillis(); if (x.u.keyButtonPointer.time > nxagentLastEventTime) { x.u.keyButtonPointer.time = nxagentLastEventTime; } /* do not send a KeyRelease for a special keystroke since we also did not send a KeyPress event in that case */ if (!(nxagentCheckSpecialKeystroke(&X.xkey, &result)) && (sendKey == 1)) { #ifdef TEST fprintf(stderr, "%s: passing KeyRelease event to clients\n", __func__); #endif mieqEnqueue(&x); CriticalOutputPending = 1; if (!nxagentOption(ViewOnly) && nxagentOption(Shadow)) { X.xkey.keycode = nxagentConvertKeycode(X.xkey.keycode); NXShadowEvent(nxagentDisplay, X); } } else { #ifdef TEST fprintf(stderr, "%s: NOT passing KeyRelease event to clients\n", __func__); #endif } break; } case ButtonPress: { #ifdef NX_DEBUG_INPUT if (nxagentDebugInput == 1) { fprintf(stderr, "%s: Going to handle new ButtonPress event.\n", __func__); } #endif nxagentInputEvent = 1; if (nxagentOption(Fullscreen)) { if ( nxagentOption(MagicPixel) && nxagentMagicPixelZone(X.xbutton.x, X.xbutton.y) ) { pScreen = nxagentScreen(X.xbutton.window); minimize = True; break; } } if (!nxagentOption(DesktopResize) && (X.xbutton.state & (ControlMask | Mod1Mask)) == (ControlMask | Mod1Mask)) { /* * Start viewport navigation mode. */ int resource = nxagentWaitForResource(NXGetCollectGrabPointerResource, nxagentCollectGrabPointerPredicate); pScreen = nxagentScreen(X.xbutton.window); viewportCursor = XCreateFontCursor(nxagentDisplay, XC_fleur); NXCollectGrabPointer(nxagentDisplay, resource, nxagentDefaultWindows[pScreen -> myNum], True, NXAGENT_POINTER_EVENT_MASK, GrabModeAsync, GrabModeAsync, None, viewportCursor, CurrentTime); viewportLastX = X.xbutton.x; viewportLastY = X.xbutton.y; break; } if (!(nxagentOption(Fullscreen) && X.xbutton.window == nxagentFullscreenWindow && X.xbutton.subwindow == None)) { memset(&x, 0, sizeof(xEvent)); x.u.u.type = ButtonPress; x.u.u.detail = inputInfo.pointer -> button -> map[nxagentReversePointerMap[X.xbutton.button]]; x.u.keyButtonPointer.time = nxagentLastEventTime = GetTimeInMillis(); if (nxagentOption(Rootless)) { x.u.keyButtonPointer.rootX = X.xmotion.x_root; x.u.keyButtonPointer.rootY = X.xmotion.y_root; } else { x.u.keyButtonPointer.rootX = X.xmotion.x - nxagentOption(RootX); x.u.keyButtonPointer.rootY = X.xmotion.y - nxagentOption(RootY); } #ifdef NX_DEBUG_INPUT if (nxagentDebugInput == 1) { fprintf(stderr, "%s: Adding ButtonPress event.\n", __func__); } #endif mieqEnqueue(&x); CriticalOutputPending = 1; } if (!nxagentOption(ViewOnly) && nxagentOption(Shadow)) { X.xbutton.x -= nxagentOption(RootX); X.xbutton.y -= nxagentOption(RootY); if (nxagentOption(YRatio) != DONT_SCALE) { X.xbutton.x = (X.xbutton.x << PRECISION) / nxagentOption(YRatio); } if (nxagentOption(XRatio) != DONT_SCALE) { X.xbutton.y = (X.xbutton.y << PRECISION) / nxagentOption(YRatio); } NXShadowEvent(nxagentDisplay, X); } break; } case ButtonRelease: { #ifdef NX_DEBUG_INPUT if (nxagentDebugInput == 1) { fprintf(stderr, "%s: Going to handle new ButtonRelease event.\n", __func__); } #endif nxagentInputEvent = 1; if (viewportCursor) { /* * Leave viewport navigation mode. */ XUngrabPointer(nxagentDisplay, CurrentTime); XFreeCursor(nxagentDisplay, viewportCursor); viewportCursor = None; } if (minimize != True) { memset(&x, 0, sizeof(xEvent)); x.u.u.type = ButtonRelease; x.u.u.detail = inputInfo.pointer -> button -> map[nxagentReversePointerMap[X.xbutton.button]]; x.u.keyButtonPointer.time = nxagentLastEventTime = GetTimeInMillis(); if (nxagentOption(Rootless)) { x.u.keyButtonPointer.rootX = X.xmotion.x_root; x.u.keyButtonPointer.rootY = X.xmotion.y_root; } else { x.u.keyButtonPointer.rootX = X.xmotion.x - nxagentOption(RootX); x.u.keyButtonPointer.rootY = X.xmotion.y - nxagentOption(RootY); } #ifdef NX_DEBUG_INPUT if (nxagentDebugInput == 1) { fprintf(stderr, "%s: Adding ButtonRelease event.\n", __func__); } #endif mieqEnqueue(&x); CriticalOutputPending = 1; } if (!nxagentOption(ViewOnly) && nxagentOption(Shadow)) { X.xbutton.x -= nxagentOption(RootX); X.xbutton.y -= nxagentOption(RootY); if (nxagentOption(XRatio) != DONT_SCALE) { X.xbutton.x = (X.xbutton.x << PRECISION) / nxagentOption(XRatio); } if (nxagentOption(YRatio) != DONT_SCALE) { X.xbutton.y = (X.xbutton.y << PRECISION) / nxagentOption(YRatio); } NXShadowEvent(nxagentDisplay, X); } break; } case MotionNotify: { pScreen = nxagentScreen(X.xmotion.window); #ifdef TEST fprintf(stderr, "%s: Going to handle new MotionNotify event.\n", __func__); #endif #ifdef NX_DEBUG_INPUT if (nxagentDebugInput == 1) { fprintf(stderr, "%s: Handling motion notify window [%ld] root [%ld] child [%ld].\n", __func__, X.xmotion.window, X.xmotion.root, X.xmotion.subwindow); fprintf(stderr, "%s: Pointer at [%d][%d] relative root [%d][%d].\n", __func__, X.xmotion.x, X.xmotion.y, X.xmotion.x_root, X.xmotion.y_root); } #endif memset(&x, 0, sizeof(xEvent)); x.u.u.type = MotionNotify; if (nxagentOption(Rootless)) { WindowPtr pWin = nxagentWindowPtr(X.xmotion.window); if (pWin) { nxagentLastEnteredWindow = pWin; } if (nxagentPulldownDialogPid == 0 && nxagentLastEnteredTopLevelWindow && (X.xmotion.y_root < nxagentLastEnteredTopLevelWindow -> drawable.y + 4)) { if (pWin && nxagentClientIsDialog(wClient(pWin)) == 0 && nxagentLastEnteredTopLevelWindow -> parent == screenInfo.screens[0]->root && nxagentLastEnteredTopLevelWindow -> overrideRedirect == False && X.xmotion.x_root > (nxagentLastEnteredTopLevelWindow -> drawable.x + (nxagentLastEnteredTopLevelWindow -> drawable.width >> 1) - 50) && X.xmotion.x_root < (nxagentLastEnteredTopLevelWindow -> drawable.x + (nxagentLastEnteredTopLevelWindow -> drawable.width >> 1) + 50) && nxagentOption(Menu)) { nxagentPulldownDialog(nxagentLastEnteredTopLevelWindow -> drawable.id); } } x.u.keyButtonPointer.rootX = X.xmotion.x_root; x.u.keyButtonPointer.rootY = X.xmotion.y_root; } else { x.u.keyButtonPointer.rootX = X.xmotion.x - nxagentOption(RootX); x.u.keyButtonPointer.rootY = X.xmotion.y - nxagentOption(RootY); } x.u.keyButtonPointer.time = nxagentLastEventTime = GetTimeInMillis(); if (viewportCursor == None && !(nxagentOption(Fullscreen) && X.xmotion.window == nxagentDefaultWindows[pScreen -> myNum] && X.xmotion.subwindow == None)) { #ifdef NX_DEBUG_INPUT if (nxagentDebugInput == 1) { fprintf(stderr, "%s: Adding motion event [%d, %d] to the queue.\n", __func__, x.u.keyButtonPointer.rootX, x.u.keyButtonPointer.rootY); } #endif mieqEnqueue(&x); } /* * This test is more complicated and probably not necessary, compared * to a simple check on viewportCursor. * * if (!nxagentOption(Fullscreen) && * (X.xmotion.state & (ControlMask | Mod1Mask | Button1Mask)) == * (ControlMask | Mod1Mask | Button1Mask)) */ if (viewportCursor) { /* * Pointer is in viewport navigation mode. */ nxagentMoveViewport(pScreen, viewportLastX - X.xmotion.x, viewportLastY - X.xmotion.y); viewportLastX = X.xmotion.x; viewportLastY = X.xmotion.y; } if (!nxagentOption(ViewOnly) && nxagentOption(Shadow) && !viewportCursor) { X.xmotion.x -= nxagentOption(RootX); X.xmotion.y -= nxagentOption(RootY); if (nxagentOption(XRatio) != DONT_SCALE) { X.xmotion.x = (X.xmotion.x << PRECISION) / nxagentOption(XRatio); } if (nxagentOption(YRatio) != DONT_SCALE) { X.xmotion.y = (X.xmotion.y << PRECISION) / nxagentOption(YRatio); } NXShadowEvent(nxagentDisplay, X); } if (!nxagentOption(Shadow)) { nxagentInputEvent = 1; } break; } case FocusIn: { WindowPtr pWin; #ifdef DEBUG fprintf(stderr, "%s: Going to handle new FocusIn event [0x%lx] mode: [%s]\n", __func__, X.xfocus.window, nxagentGetNotifyMode(X.xfocus.mode)); { XlibWindow w; int revert_to; XGetInputFocus(nxagentDisplay, &w, &revert_to); fprintf(stderr, "%s: (FocusIn): Event win [0x%lx] Focus owner [0x%lx] nxagentDefaultWindows[0] [0x%x]\n", __func__, X.xfocus.window, w, nxagentDefaultWindows[0]); } #else #ifdef TEST fprintf(stderr, "%s: Going to handle new FocusIn event\n", __func__); #endif #endif /* * Here we change the focus state in the agent. It looks like * this is needed only for rootless mode at present. */ if (nxagentOption(Rootless) && (pWin = nxagentWindowPtr(X.xfocus.window))) { SetInputFocus(serverClient, inputInfo.keyboard, pWin -> drawable.id, RevertToPointerRoot, GetTimeInMillis(), False); } if (X.xfocus.detail != NotifyInferior) { pScreen = nxagentScreen(X.xfocus.window); if (pScreen) { nxagentDirectInstallColormaps(pScreen); } } if (nxagentOption(AutoGrab) && !(nxagentOption(AllScreens) || nxagentOption(Fullscreen) || nxagentOption(Rootless))) { if (X.xfocus.window == nxagentDefaultWindows[0] && X.xfocus.mode == NotifyNormal) { #if defined(DEBUG) || defined(DEBUG_AUTOGRAB) fprintf(stderr, "%s: (FocusIn): grabbing\n", __func__); #endif nxagentGrabPointerAndKeyboard(NULL); } /* else { #if defined(DEBUG) || defined(DEBUG_AUTOGRAB) fprintf(stderr, "%s: (FocusIn): ungrabbing\n", __func__); #endif nxagentUngrabPointerAndKeyboard(NULL); } */ } break; } case FocusOut: { #ifdef DEBUG fprintf(stderr, "%s: Going to handle new FocusOut event [0x%lx] mode: [%s]\n", __func__, X.xfocus.window, nxagentGetNotifyMode(X.xfocus.mode)); #else #ifdef TEST fprintf(stderr, "%s: Going to handle new FocusOut event.\n", __func__); #endif #endif if (X.xfocus.detail != NotifyInferior) { pScreen = nxagentScreen(X.xfocus.window); if (pScreen) { nxagentDirectUninstallColormaps(pScreen); } } #ifdef NXAGENT_FIXKEYS { /* * Force the keys all up when focus is lost. */ for (int i = 0; i < DOWN_LENGTH; i++) /* input.h */ { CARD8 val = inputInfo.keyboard->key->down[i]; if (val != 0) { for (int k = 0; k < 8; k++) { if (val & (1 << k)) { #ifdef NXAGENT_FIXKEYS_DEBUG fprintf(stderr, "sending KeyRelease event for keycode: %x\n", i * 8 + k); #endif if (!nxagentOption(Rootless) || inputInfo.keyboard->key->modifierMap[i * 8 + k]) { memset(&x, 0, sizeof(xEvent)); x.u.u.type = KeyRelease; x.u.u.detail = i * 8 + k; x.u.keyButtonPointer.time = nxagentLastEventTime = GetTimeInMillis(); if (!nxagentOption(ViewOnly) && nxagentOption(Shadow)) { XEvent xM = {0}; xM.type = KeyRelease; xM.xkey.display = nxagentDisplay; xM.xkey.type = KeyRelease; xM.xkey.keycode = i * 8 + k; xM.xkey.state = inputInfo.keyboard->key->state; xM.xkey.time = GetTimeInMillis(); NXShadowEvent(nxagentDisplay, xM); } mieqEnqueue(&x); } } } } } nxagentKeyDown = 0; } #endif /* NXAGENT_FIXKEYS */ if (nxagentOption(AutoGrab) && !nxagentFullscreenWindow) { XlibWindow w; int revert_to; XGetInputFocus(nxagentDisplay, &w, &revert_to); if (w != nxagentDefaultWindows[0] && X.xfocus.mode == NotifyWhileGrabbed) { #if defined(DEBUG) || defined(DEBUG_AUTOGRAB) fprintf(stderr, "%s: (FocusOut): ungrabbing\n", __func__); #endif nxagentUngrabPointerAndKeyboard(NULL); } } break; } case KeymapNotify: { #ifdef TEST fprintf(stderr, "%s: Going to handle new KeymapNotify event.\n", __func__); #endif break; } case EnterNotify: { WindowPtr pWin; #ifdef TEST fprintf(stderr, "%s: Going to handle new EnterNotify event.\n", __func__); #endif if (nxagentOption(Rootless)) { WindowPtr pTLWin = NULL; pWin = nxagentWindowPtr(X.xcrossing.window); if (pWin != NULL) { for (pTLWin = pWin; pTLWin -> parent != pTLWin -> drawable.pScreen -> root; pTLWin = pTLWin -> parent); } if (pTLWin) { nxagentLastEnteredTopLevelWindow = pTLWin; } #ifdef TEST fprintf(stderr, "%s: nxagentLastEnteredTopLevelWindow [%p].\n", __func__, (void *)nxagentLastEnteredTopLevelWindow); #endif } if (nxagentOption(Rootless) && nxagentWMIsRunning && (pWin = nxagentWindowPtr(X.xcrossing.window)) && nxagentWindowTopLevel(pWin) && !pWin -> overrideRedirect && (pWin -> drawable.x != X.xcrossing.x_root - X.xcrossing.x - pWin -> borderWidth || pWin -> drawable.y != X.xcrossing.y_root - X.xcrossing.y - pWin -> borderWidth)) { /* * This code is useful for finding the window position. It * should be re-implemented by following the ICCCM 4.1.5 * recommendations. */ #ifdef TEST fprintf(stderr, "%s: pWin -> drawable.x [%d] pWin -> drawable.y [%d].\n", __func__, pWin -> drawable.x, pWin -> drawable.y); #endif XID values[4]; register XID *value = values; *value++ = (XID) (X.xcrossing.x_root - X.xcrossing.x - pWin -> borderWidth); *value++ = (XID) (X.xcrossing.y_root - X.xcrossing.y - pWin -> borderWidth); /* * nxagentWindowPriv(pWin)->x = (X.xcrossing.x_root - X.xcrossing.x); * nxagentWindowPriv(pWin)->y = (X.xcrossing.y_root - X.xcrossing.y); */ Mask mask = CWX | CWY; nxagentScreenTrap = True; ConfigureWindow(pWin, mask, (XID *) values, wClient(pWin)); nxagentScreenTrap = False; } if (nxagentOption(Fullscreen) && X.xcrossing.window == nxagentFullscreenWindow && X.xcrossing.detail != NotifyInferior) { nxagentGrabPointerAndKeyboard(&X); } if (X.xcrossing.detail != NotifyInferior) { pScreen = nxagentScreen(X.xcrossing.window); if (pScreen) { NewCurrentScreen(pScreen, X.xcrossing.x, X.xcrossing.y); memset(&x, 0, sizeof(xEvent)); x.u.u.type = MotionNotify; if (nxagentOption(Rootless)) { nxagentLastEnteredWindow = nxagentWindowPtr(X.xcrossing.window); x.u.keyButtonPointer.rootX = X.xcrossing.x_root; x.u.keyButtonPointer.rootY = X.xcrossing.y_root; } else { x.u.keyButtonPointer.rootX = X.xcrossing.x - nxagentOption(RootX); x.u.keyButtonPointer.rootY = X.xcrossing.y - nxagentOption(RootY); } x.u.keyButtonPointer.time = nxagentLastEventTime = GetTimeInMillis(); mieqEnqueue(&x); nxagentDirectInstallColormaps(pScreen); } } nxagentInputEvent = 1; break; } case LeaveNotify: { #ifdef TEST fprintf(stderr, "%s: Going to handle new LeaveNotify event.\n", __func__); #endif if (nxagentOption(Rootless) && X.xcrossing.mode == NotifyNormal && X.xcrossing.detail != NotifyInferior) { nxagentLastEnteredWindow = NULL; } if (!nxagentOption(AutoGrab)) { if (X.xcrossing.window == nxagentDefaultWindows[0] && X.xcrossing.detail != NotifyInferior && X.xcrossing.mode == NotifyNormal) { nxagentUngrabPointerAndKeyboard(&X); } } if (X.xcrossing.detail != NotifyInferior) { pScreen = nxagentScreen(X.xcrossing.window); if (pScreen) { nxagentDirectUninstallColormaps(pScreen); } } nxagentInputEvent = 1; break; } case DestroyNotify: { #ifdef TEST fprintf(stderr, "%s: Going to handle new DestroyNotify event.\n", __func__); #endif if (nxagentParentWindow != (Window) 0 && X.xdestroywindow.window == nxagentParentWindow) { fprintf(stderr, "Warning: Unhandled destroy notify event received in agent.\n"); } break; } case ClientMessage: { enum HandleEventResult result; #ifdef TEST fprintf(stderr, "%s: Going to handle new ClientMessage event.\n", __func__); #endif nxagentHandleClientMessageEvent(&X, &result); if (result == doCloseSession) { closeSession = TRUE; } break; } case VisibilityNotify: { #ifdef TEST fprintf(stderr, "%s: Going to handle new VisibilityNotify event.\n", __func__); #endif if (X.xvisibility.window != nxagentDefaultWindows[0]) { Window window = X.xvisibility.window; WindowPtr pWin = nxagentWindowPtr(window); if (pWin && nxagentWindowPriv(pWin)) { if (nxagentWindowPriv(pWin) -> visibilityState != X.xvisibility.state) { int value = X.xvisibility.state; if (nxagentOption(Rootless)) { TraverseTree(pWin, nxagentChangeVisibilityPrivate, &value); } else { nxagentChangeVisibilityPrivate(pWin, &value); } } } #ifdef TEST fprintf(stderr, "%s: Suppressing visibility notify on window [%lx].\n", __func__, X.xvisibility.window); #endif break; } #ifdef TEST fprintf(stderr, "%s: Visibility notify state is [%d] with previous [%d].\n", __func__, X.xvisibility.state, nxagentVisibility); #endif nxagentVisibility = X.xvisibility.state; break; } case Expose: { #ifdef DEBUG fprintf(stderr, "%s: Going to handle new Expose event.\n", __func__); fprintf(stderr, "%s: WARNING! Received Expose event for drawable [%lx]" " geometry [%d, %d, %d, %d] count [%d].\n", __func__, X.xexpose.window, X.xexpose.x, X.xexpose.y, X.xexpose.width, X.xexpose.height, X.xexpose.count); #endif nxagentHandleExposeEvent(&X); break; } case GraphicsExpose: { #ifdef DEBUG fprintf(stderr, "%s: Going to handle new GraphicsExpose event.\n", __func__); fprintf(stderr, "%s: WARNING! Received GraphicsExpose event " "for drawable [%lx] geometry [%d, %d, %d, %d] count [%d].\n", __func__, X.xgraphicsexpose.drawable, X.xgraphicsexpose.x, X.xgraphicsexpose.y, X.xgraphicsexpose.width, X.xgraphicsexpose.height, X.xgraphicsexpose.count); #endif nxagentHandleGraphicsExposeEvent(&X); break; } case NoExpose: { #ifdef DEBUG fprintf(stderr, "%s: Going to handle new NoExpose event.\n", __func__); fprintf(stderr, "%s: WARNING! Received NoExpose event for drawable [%lx].\n", __func__, X.xnoexpose.drawable); #endif break; } case CirculateNotify: { #ifdef WARNING fprintf(stderr, "%s: Going to handle new CirculateNotify event.\n", __func__); #endif /* * FIXME: Do we need this? * * WindowPtr pWin = nxagentWindowPtr(X.xcirculate.window); * * if (!pWin) * { * pWin = nxagentRootlessTopLevelWindow(X.xcirculate.window); * } * * if (!pWin) * { * break; * } * * XQueryTree(nxagentDisplay, DefaultRootWindow(nxagentDisplay), * &root_return, &parent_return, &children_return, &nchildren_return); * * nxagentRootlessRestack(children_return, nchildren_return); */ break; } case ConfigureNotify: { #ifdef TEST fprintf(stderr, "%s: Going to handle new ConfigureNotify event.\n", __func__); #endif if (nxagentConfiguredSynchroWindow == X.xconfigure.window) { if (nxagentExposeQueue.exposures[nxagentExposeQueue.start].serial != X.xconfigure.x) { #ifdef WARNING if (nxagentVerbose) { fprintf(stderr, "%s: Requested ConfigureNotify changes didn't take place.\n", __func__); } #endif } #ifdef TEST fprintf(stderr, "%s: Received ConfigureNotify and going to call nxagentSynchronizeExpose.\n", __func__); #endif nxagentSynchronizeExpose(); break; } nxagentHandleConfigureNotify(&X); break; } case GravityNotify: { #ifdef TEST fprintf(stderr, "%s: Going to handle new GravityNotify event.\n", __func__); #endif break; } case ReparentNotify: { #ifdef TEST fprintf(stderr, "%s: Going to handle new ReparentNotify event.\n", __func__); #endif nxagentHandleReparentNotify(&X); break; } case UnmapNotify: { #ifdef TEST fprintf(stderr, "%s: Going to handle new UnmapNotify event.\n", __func__); #endif if (nxagentOption(Rootless)) { WindowPtr pWin; if ((pWin = nxagentRootlessTopLevelWindow(X.xunmap.window)) != NULL || ((pWin = nxagentWindowPtr(X.xunmap.window)) != NULL && nxagentWindowTopLevel(pWin))) { nxagentScreenTrap = True; UnmapWindow(pWin, False); nxagentScreenTrap = False; } } if (nxagentUseNXTrans == 1 && !nxagentOption(Rootless) && !nxagentOption(Nested) && X.xmap.window != nxagentIconWindow) { nxagentVisibility = VisibilityFullyObscured; } break; } case MapNotify: { #ifdef TEST fprintf(stderr, "%s: Going to handle new MapNotify event.\n", __func__); #endif if (nxagentOption(Rootless)) { WindowPtr pWin; if ((pWin = nxagentRootlessTopLevelWindow(X.xmap.window)) != NULL || ((pWin = nxagentWindowPtr(X.xmap.window)) != NULL && nxagentWindowTopLevel(pWin))) { nxagentScreenTrap = True; MapWindow(pWin, wClient(pWin)); nxagentScreenTrap = False; } if (pWin != NULL) { Bool value = 1; TraverseTree(pWin, nxagentChangeMapPrivate, &value); } } if (nxagentOption(AllScreens)) { if (X.xmap.window == nxagentIconWindow) { pScreen = nxagentScreen(X.xmap.window); nxagentMaximizeToFullScreen(pScreen); } } if (nxagentOption(Fullscreen)) { nxagentVisibility = VisibilityUnobscured; } /* * without window manager there will be no ConfigureNotify * event that would trigger xinerama updates. So we do that * once the nxagent window gets mapped. */ if (!nxagentWMIsRunning && X.xmap.window == nxagentDefaultWindows[nxagentScreen(X.xmap.window)->myNum]) { nxagentChangeScreenConfig(nxagentScreen(X.xmap.window)->myNum, nxagentOption(Width), nxagentOption(Height), True); } break; } case MappingNotify: { XMappingEvent *mappingEvent = (XMappingEvent *) &X; #ifdef DEBUG fprintf(stderr, "%s: WARNING! Going to handle new MappingNotify event.\n", __func__); #endif if (mappingEvent -> request == MappingPointer) { nxagentInitPointerMap(); } break; } default: { /* * Let's check if this is a XKB state modification event. */ if (nxagentHandleXkbKeyboardStateEvent(&X) == 0 && nxagentHandleXFixesSelectionNotify(&X) == 0) { #ifdef TEST fprintf(stderr, "%s: WARNING! Unhandled event code [%d].\n", __func__, X.type); #endif } break; } } /* End of switch (X.type) */ if (X.xany.serial < lastEventSerial) { /* * Start over. */ nxagentDeleteStaticResizedWindow(0); } else { nxagentDeleteStaticResizedWindow(X.xany.serial - 1); } lastEventSerial = X.xany.serial; } /* End of while (...) */ /* * Send the exposed regions to the clients. */ nxagentForwardRemoteExpose(); /* * Handle the agent window's changes. */ if (closeSession) { if (nxagentOption(Persistent)) { if (nxagentNoDialogIsRunning) { nxagentLaunchDialog(DIALOG_SUSPEND_SESSION); } } else { if (nxagentNoDialogIsRunning) { nxagentLaunchDialog(DIALOG_KILL_SESSION); } } } if (minimize) { nxagentWMDetect(); if (nxagentWMIsRunning) { if (nxagentOption(AllScreens)) { nxagentMinimizeFromFullScreen(pScreen); } else { XIconifyWindow(nxagentDisplay, nxagentDefaultWindows[0], DefaultScreen(nxagentDisplay)); } } } if (switchFullscreen) { if (nxagentOption(AllScreens) && nxagentOption(Fullscreen)) { nxagentSwitchAllScreens(pScreen, 0); } else { nxagentSwitchFullscreen(pScreen, !nxagentOption(Fullscreen)); } } if (switchAllScreens) { if (!nxagentOption(AllScreens) && nxagentOption(Fullscreen)) { nxagentSwitchFullscreen(pScreen, False); } else { nxagentSwitchAllScreens(pScreen, !nxagentOption(AllScreens)); } } #ifdef BLOCKS fprintf(stderr, "[End read]\n"); #endif /* * Let the underlying X server code process the input events. */ #ifdef BLOCKS fprintf(stderr, "[Begin events]\n"); #endif ProcessInputEvents(); #ifdef TEST fprintf(stderr, "%s: Output pending flag is [%d] critical [%d].\n", __func__, NewOutputPending, CriticalOutputPending); #endif /* * Write the events to our clients. We may flush only in the case of * critical output but this doesn't seem beneficial. * * if (CriticalOutputPending == 1) * { * FlushAllOutput(); * } */ if (NewOutputPending == 1) { #ifdef TEST fprintf(stderr, "%s: Flushed the processed events to clients.\n", __func__); #endif FlushAllOutput(); } #ifdef TEST if (nxagentPendingEvents(nxagentDisplay) > 0) { fprintf(stderr, "%s: WARNING! More events need to be dispatched.\n", __func__); } #endif #ifdef BLOCKS fprintf(stderr, "[End events]\n"); #endif } /* * Functions providing the ad-hoc handling of the remote X events. */ int nxagentHandleKeyPress(XEvent *X, enum HandleEventResult *result) { if (!nxagentXkbState.Initialized) { if (X -> xkey.keycode == nxagentCapsLockKeycode) { nxagentXkbCapsTrap = True; } else if (X -> xkey.keycode == nxagentNumLockKeycode) { nxagentXkbNumTrap = True; } nxagentInitXkbKeyboardState(); nxagentXkbCapsTrap = False; nxagentXkbNumTrap = False; } if (nxagentCheckSpecialKeystroke(&X -> xkey, result)) { #ifdef TEST fprintf(stderr, "%s: NOT passing KeyPress event to clients\n", __func__); #endif return 1; } if (X -> xkey.keycode == nxagentCapsLockKeycode) { nxagentXkbState.Caps = (~nxagentXkbState.Caps & 1); } else if (X -> xkey.keycode == nxagentNumLockKeycode) { nxagentXkbState.Num = (~nxagentXkbState.Num & 1); } nxagentLastServerTime = X -> xkey.time; nxagentLastEventTime = nxagentLastKeyPressTime = GetTimeInMillis(); xEvent x = {0}; x.u.u.type = KeyPress; x.u.u.detail = nxagentConvertKeycode(X -> xkey.keycode); x.u.keyButtonPointer.time = nxagentLastKeyPressTime; #ifdef TEST fprintf(stderr, "%s: passing KeyPress event to clients\n", __func__); #endif mieqEnqueue(&x); CriticalOutputPending = 1; return 1; } int nxagentHandlePropertyNotify(XEvent *X) { if (nxagentOption(Rootless) && !nxagentNotifyMatchChangeProperty((XPropertyEvent *) X)) { #ifdef TEST fprintf(stderr, "%s: Property %ld on window %lx.\n", __func__, X -> xproperty.atom, X -> xproperty.window); #endif if (nxagentWindowPtr(X -> xproperty.window) != NULL) { int resource = NXGetCollectPropertyResource(nxagentDisplay); if (resource == -1) { #ifdef WARNING fprintf(stderr, "%s: WARNING! Asynchronous get property queue is full.\n", __func__); #endif return 0; } NXCollectProperty(nxagentDisplay, resource, X -> xproperty.window, X -> xproperty.atom, 0, MAX_RETRIEVED_PROPERTY_SIZE, False, AnyPropertyType); nxagentPropertyRequests[resource].window = X -> xproperty.window; nxagentPropertyRequests[resource].property = X -> xproperty.atom; } #ifdef TEST else { fprintf(stderr, "%s: Failed to look up remote window property.\n", __func__); } #endif } return 1; } int nxagentHandleExposeEvent(XEvent *X) { StaticResizedWindowStruct *resizedWinPtr = NULL; #ifdef DEBUG fprintf(stderr, "%s: Checking remote expose events.\n", __func__); fprintf(stderr, "%s: Looking for window id [%ld].\n", __func__, X -> xexpose.window); #endif Window window = X -> xexpose.window; WindowPtr pWin = nxagentWindowPtr(window); if (pWin != NULL) { RegionRec sum; RegionRec add; BoxRec box; RegionInit(&sum, (BoxRec *) NULL, 1); /* FIXME: This can be maybe optimized by consuming the events that do not match the predicate. */ do { #ifdef DEBUG fprintf(stderr, "%s: Adding event for window id [%ld].\n", __func__, X -> xexpose.window); #endif box.x1 = pWin -> drawable.x + wBorderWidth(pWin) + X -> xexpose.x; box.y1 = pWin -> drawable.y + wBorderWidth(pWin) + X -> xexpose.y; resizedWinPtr = nxagentFindStaticResizedWindow(X -> xany.serial); while (resizedWinPtr) { if (resizedWinPtr -> pWin == pWin) { box.x1 += resizedWinPtr -> offX; box.y1 += resizedWinPtr -> offY; } resizedWinPtr = resizedWinPtr -> prev; } box.x2 = box.x1 + X -> xexpose.width; box.y2 = box.y1 + X -> xexpose.height; RegionInit(&add, &box, 1); RegionAppend(&sum, &add); RegionUninit(&add); if (X -> xexpose.count == 0) { break; } } while (nxagentCheckEvents(nxagentDisplay, X, nxagentExposurePredicate, (XPointer) &window) == 1); int overlap = 0; RegionValidate(&sum, &overlap); RegionIntersect(&sum, &sum, &pWin->drawable.pScreen->root->winSize); #ifdef DEBUG fprintf(stderr, "%s: Sending events for window id [%ld].\n", __func__, X -> xexpose.window); #endif /* * If the agent has already sent auto-generated expose, * save received exposes for later processing. */ int index = nxagentLookupByWindow(pWin); if (index == -1) { miWindowExposures(pWin, &sum, NullRegion); } else { RegionTranslate(&sum, -pWin -> drawable.x, -pWin -> drawable.y); if (nxagentExposeQueue.exposures[index].remoteRegion == NullRegion) { nxagentExposeQueue.exposures[index].remoteRegion = RegionCreate(NULL, 1); } RegionUnion(nxagentExposeQueue.exposures[index].remoteRegion, nxagentExposeQueue.exposures[index].remoteRegion, &sum); #ifdef TEST fprintf(stderr, "%s: Added region for window [%u] to position [%d].\n", __func__, nxagentWindow(pWin), index); #endif if (X -> xexpose.count == 0) { nxagentExposeQueue.exposures[index].remoteRegionIsCompleted = True; } else { nxagentExposeQueue.exposures[index].remoteRegionIsCompleted = False; } } RegionUninit(&sum); } return 1; } int nxagentHandleGraphicsExposeEvent(XEvent *X) { /* * Send an expose event to client, instead of graphics expose. If * target drawable is a backing pixmap, send expose event for the * saved window, else do nothing. */ StoringPixmapPtr pStoringPixmapRec = NULL; miBSWindowPtr pBSwindow = NULL; int drawableType; WindowPtr pWin = nxagentWindowPtr(X -> xgraphicsexpose.drawable); if (pWin != NULL) { drawableType = DRAWABLE_WINDOW; } else { drawableType = DRAWABLE_PIXMAP; } if (drawableType == DRAWABLE_PIXMAP) { pStoringPixmapRec = nxagentFindItemBSPixmapList(X -> xgraphicsexpose.drawable); if (pStoringPixmapRec == NULL) { #ifdef TEST fprintf(stderr, "%s: WARNING! Storing pixmap not found.\n", __func__); #endif return 1; } pBSwindow = (miBSWindowPtr) pStoringPixmapRec -> pSavedWindow -> backStorage; if (pBSwindow == NULL) { #ifdef TEST fprintf(stderr, "%s: WARNING! Back storage not found.\n", __func__); #endif return 1; } pWin = pStoringPixmapRec -> pSavedWindow; } /* * Rectangle affected by GraphicsExpose event. */ BoxRec rect = { .x1 = X -> xgraphicsexpose.x, .y1 = X -> xgraphicsexpose.y, .x2 = rect.x1 + X -> xgraphicsexpose.width, .y2 = rect.y1 + X -> xgraphicsexpose.height, }; RegionPtr exposeRegion = RegionCreate(&rect, 0); if (drawableType == DRAWABLE_PIXMAP) { #ifdef TEST fprintf(stderr, "%s: Handling GraphicsExpose event on pixmap with id [%lu].\n", __func__, X -> xgraphicsexpose.drawable); #endif /* * The exposeRegion coordinates are relative to the pixmap to * which GraphicsExpose event refers. But the BS coordinates of * the savedRegion are relative to the window. */ RegionTranslate(exposeRegion, pStoringPixmapRec -> backingStoreX, pStoringPixmapRec -> backingStoreY); /* * We remove from SavedRegion the part affected by the * GraphicsExpose event. */ RegionSubtract(&(pBSwindow -> SavedRegion), &(pBSwindow -> SavedRegion), exposeRegion); } /* * Store the exposeRegion in order to send the expose event * later. The coordinates must be relative to the screen. */ RegionTranslate(exposeRegion, pWin -> drawable.x, pWin -> drawable.y); RegionUnion(nxagentRemoteExposeRegion, nxagentRemoteExposeRegion, exposeRegion); RegionDestroy(exposeRegion); return 1; } int nxagentHandleClientMessageEvent(XEvent *X, enum HandleEventResult *result) { *result = doNothing; /* * If window is 0, message_type is 0 and format is 32 then we assume * event is coming from proxy. */ if (X -> xclient.window == 0 && X -> xclient.message_type == 0 && X -> xclient.format == 32) { #ifdef TEST fprintf(stderr, "%s: got nxproxy event\n", __func__); #endif nxagentHandleProxyEvent(X); return 1; } #ifdef TEST char * name = XGetAtomName(nxagentDisplay, X -> xclient.message_type); fprintf(stderr, "nxagentHandleClientMessageEvent: ClientMessage event window [0x%lx] with " "message_type [%ld][%s] format [%d] type [%d] source_indication [%ld][%s] timestamp [%ld] " "curwin [0x%lx].\n", X -> xclient.window, X -> xclient.message_type, name, X -> xclient.format, X -> xclient.type, X -> xclient.data.l[0], X -> xclient.data.l[0] == 1 ? "'application'" : X -> xclient.data.l[0] == 1 ? "'pager'" : "'none (old spec)'", X -> xclient.data.l[1], X -> xclient.data.l[2]); SAFE_XFree(name); #endif if (nxagentOption(Rootless)) { Atom message_type = nxagentRemoteToLocalAtom(X -> xclient.message_type); if (!ValidAtom(message_type)) { #ifdef WARNING fprintf(stderr, "%s: WARNING Invalid type in client message.\n", __func__); #endif return 0; } WindowPtr pWin = nxagentWindowPtr(X -> xclient.window); if (pWin == NULL) { /* * If some window on the real X server sends a * _NET_ACTIVE_WINDOW ClientMessage to indicate the active * window that window will be one not belonging to nxagent so * this situation is perfectly legal. For all other situations * we print a warning. */ #ifdef WARNING if (message_type != MakeAtom("_NET_ACTIVE_WINDOW", strlen("_NET_ACTIVE_WINDOW"), False)) { fprintf(stderr, "WARNING: Invalid window in ClientMessage xclient.window [0x%lx].\n", X->xclient.window); } #endif return 0; } if (message_type == MakeAtom("WM_PROTOCOLS", strlen("WM_PROTOCOLS"), False)) { xEvent x = {0}; x.u.u.type = ClientMessage; x.u.u.detail = X -> xclient.format; x.u.clientMessage.window = pWin -> drawable.id; x.u.clientMessage.u.l.type = message_type; x.u.clientMessage.u.l.longs0 = nxagentRemoteToLocalAtom(X -> xclient.data.l[0]); x.u.clientMessage.u.l.longs1 = GetTimeInMillis(); if (!ValidAtom(x.u.clientMessage.u.l.longs0)) { #ifdef WARNING fprintf(stderr, "%s: WARNING Invalid value in client message of type WM_PROTOCOLS.\n", __func__); #endif return 0; } #ifdef TEST else { fprintf(stderr, "%s: Sent client message of type WM_PROTOCOLS and value [%s].\n", __func__, validateString(NameForAtom(x.u.clientMessage.u.l.longs0))); } #endif TryClientEvents(wClient(pWin), &x, 1, 1, 1, 0); } else { #ifdef WARNING fprintf(stderr, "%s: Ignored message type %ld [%s].\n", __func__, (long int) message_type, validateString(NameForAtom(message_type))); #endif return 0; } return 1; } if (X -> xclient.message_type == nxagentAtoms[1]) /* WM_PROTOCOLS */ { Atom wmAtom = (Atom) X -> xclient.data.l[0]; Atom deleteWMatom = nxagentAtoms[2]; /* WM_DELETE_WINDOW */ if (wmAtom == deleteWMatom) { if (nxagentOnce && (nxagentClients == 0)) { GiveUp(0); } else { #ifdef TEST fprintf(stderr, "%s: WM_DELETE_WINDOW arrived Atom = %u.\n", __func__, wmAtom); #endif if (X -> xclient.window == nxagentIconWindow) { XMapRaised(nxagentDisplay, nxagentFullscreenWindow); XIconifyWindow(nxagentDisplay, nxagentIconWindow, DefaultScreen(nxagentDisplay)); } if (X -> xclient.window == (nxagentOption(Fullscreen) ? nxagentIconWindow : nxagentDefaultWindows[0]) || !nxagentWMIsRunning) { *result = doCloseSession; } } } } return 1; } int nxagentHandleXkbKeyboardStateEvent(XEvent *X) { XkbEvent *xkbev = (XkbEvent *) X; if (nxagentXkbInfo.EventBase != -1 && xkbev -> type == nxagentXkbInfo.EventBase + XkbEventCode && xkbev -> any.xkb_type == XkbStateNotify) { #ifdef TEST fprintf(stderr, "%s: Handling event with caps [%d] num [%d] locked [%d].\n", __func__, nxagentXkbState.Caps, nxagentXkbState.Num, nxagentXkbState.Locked); #endif nxagentXkbState.Locked = xkbev -> state.locked_mods; #ifdef TEST fprintf(stderr, "%s: Updated XKB locked modifier bits to [%x].\n", __func__, nxagentXkbState.Locked); #endif nxagentXkbState.Initialized = True; if (nxagentXkbState.Caps == 0 && (nxagentXkbState.Locked & CAPSFLAG_IN_EVENT)) { nxagentXkbState.Caps = 1; #ifdef TEST fprintf(stderr, "%s: Sending fake key [66] to engage capslock.\n", __func__); #endif if (!nxagentXkbCapsTrap) { nxagentSendFakeKey(66); } } if (nxagentXkbState.Caps == 1 && !(nxagentXkbState.Locked & CAPSFLAG_IN_EVENT)) { nxagentXkbState.Caps = 0; #ifdef TEST fprintf(stderr, "%s: Sending fake key [66] to release capslock.\n", __func__); #endif nxagentSendFakeKey(66); } if (nxagentXkbState.Caps == 0 && !(nxagentXkbState.Locked & CAPSFLAG_IN_EVENT) && nxagentXkbCapsTrap) { #ifdef TEST fprintf(stderr, "%s: Sending fake key [66] to release capslock.\n", __func__); #endif nxagentSendFakeKey(66); } if (nxagentXkbState.Num == 0 && (nxagentXkbState.Locked & NUMFLAG_IN_EVENT)) { nxagentXkbState.Num = 1; #ifdef TEST fprintf(stderr, "%s: Sending fake key [77] to engage numlock.\n", __func__); #endif if (!nxagentXkbNumTrap) { nxagentSendFakeKey(77); } } if (nxagentXkbState.Num == 1 && !(nxagentXkbState.Locked & NUMFLAG_IN_EVENT)) { nxagentXkbState.Num = 0; #ifdef TEST fprintf(stderr, "%s: Sending fake key [77] to release numlock.\n", __func__); #endif nxagentSendFakeKey(77); } if (nxagentXkbState.Num == 0 && !(nxagentXkbState.Locked & NUMFLAG_IN_EVENT) && nxagentXkbNumTrap) { #ifdef TEST fprintf(stderr, "%s: Sending fake key [77] to release numlock.\n", __func__); #endif nxagentSendFakeKey(77); } return 1; } return 0; } int nxagentHandleXFixesSelectionNotify(XEvent *X) { XFixesSelectionEvent *xfixesEvent = (XFixesSelectionEvent *) X; if (!nxagentXFixesInfo.Initialized) { #ifdef DEBUG fprintf(stderr, "%s: XFixes not initialized - doing nothing.\n", __func__); #endif return 0; } if (xfixesEvent -> type != (nxagentXFixesInfo.EventBase + XFixesSelectionNotify)) { #ifdef DEBUG fprintf(stderr, "%s: event type is [%d] - doing nothing.\n", __func__, xfixesEvent->type); #endif return 0; } #ifdef TEST fprintf(stderr, "%s: Handling event.\n", __func__); #endif if (SelectionCallback) { Atom local = nxagentRemoteToLocalAtom(xfixesEvent -> xfixesselection.selection); int i = nxagentFindCurrentSelectionIndex(local); if (i < NumCurrentSelections) { if (CurrentSelections[i].client != 0) { #ifdef TEST fprintf(stderr, "%s: Do nothing.\n", __func__); #endif return 1; } #ifdef TEST fprintf(stderr, "%s: Calling callbacks for %d [%s] selection.\n", __func__, CurrentSelections[i].selection, NameForAtom(CurrentSelections[i].selection)); #endif #ifdef DEBUG fprintf(stderr, "%s: CurrentSelections[%d].lastTimeChanged [%u]\n", __func__, i, CurrentSelections[i].lastTimeChanged.milliseconds); fprintf(stderr, "%s: Event timestamp [%ld]\n", __func__, xfixesEvent->xfixesselection.timestamp); fprintf(stderr, "%s: Event selection timestamp [%ld]\n", __func__, xfixesEvent->xfixesselection.selection_timestamp); fprintf(stderr, "%s: Event selection window [0x%lx]\n", __func__, xfixesEvent->xfixesselection.window); fprintf(stderr, "%s: Event selection owner [0x%lx]\n", __func__, xfixesEvent->xfixesselection.owner); fprintf(stderr, "%s: Event selection [%s]\n", __func__, NameForAtom(nxagentRemoteToLocalAtom(xfixesEvent->xfixesselection.selection))); fprintf(stderr, "%s: Subtype ", __func__); switch (xfixesEvent -> xfixesselection.subtype) { case SelectionSetOwner: fprintf(stderr, "SelectionSetOwner.\n"); break; case SelectionWindowDestroy: fprintf(stderr, "SelectionWindowDestroy.\n"); break; case SelectionClientClose: fprintf(stderr, "SelectionClientClose.\n"); break; default: fprintf(stderr, ".\n"); break; } #endif SelectionInfoRec info = { .selection = &CurrentSelections[i], .kind = xfixesEvent->xfixesselection.subtype }; /* * The trap indicates that we are triggered by a clipboard event * originating from the real X server. In that case we do not * want to propagate back changes to the real X server, because * it already knows about them and we would end up in an * infinite loop of events. If there was a better way to * identify that situation during Callback processing we could * get rid of the Trap... */ nxagentExternalClipboardEventTrap = True; CallCallbacks(&SelectionCallback, &info); nxagentExternalClipboardEventTrap = False; } } return 1; } int nxagentHandleProxyEvent(XEvent *X) { switch (X -> xclient.data.l[0]) { case NXNoSplitNotify: case NXStartSplitNotify: { /* * We should never receive such events in the event loop, as * they should be caught at the time the split is initiated. */ #ifdef PANIC int client = (int) X -> xclient.data.l[1]; if (X -> xclient.data.l[0] == NXNoSplitNotify) { fprintf(stderr, "%s: PANIC! NXNoSplitNotify received with client [%d].\n", __func__, client); } else { fprintf(stderr, "%s: PANIC! NXStartSplitNotify received with client [%d].\n", __func__, client); } #endif return 1; } case NXCommitSplitNotify: { /* * We need to commit an image. Image can be the result of a * PutSubImage() generated by Xlib, so there can be more than a * single image to commit, even if only one PutImage was perfor- * med by the agent. */ int client = (int) X -> xclient.data.l[1]; int request = (int) X -> xclient.data.l[2]; int position = (int) X -> xclient.data.l[3]; #ifdef TEST fprintf(stderr, "%s: NXCommitSplitNotify received with client [%d]" " request [%d] and position [%d].\n", __func__, client, request, position); #endif nxagentHandleCommitSplitEvent(client, request, position); return 1; } case NXEndSplitNotify: { /* * All images for the split were transferred and we need to * restart the client. */ int client = (int) X -> xclient.data.l[1]; #ifdef TEST fprintf(stderr, "%s: NXEndSplitNotify received with client [%d].\n", __func__, client); #endif nxagentHandleEndSplitEvent(client); return 1; } case NXEmptySplitNotify: { /* * All splits have been completed and none remain. */ #ifdef TEST fprintf(stderr, "%s: NXEmptySplitNotify received.\n", __func__); #endif nxagentHandleEmptySplitEvent(); return 1; } case NXCollectPropertyNotify: { #ifdef TEST int resource = (int) X -> xclient.data.l[1]; fprintf(stderr, "%s: NXCollectPropertyNotify received with resource [%d].\n", __func__, resource); #endif nxagentHandleCollectPropertyEvent(X); return 1; } case NXCollectGrabPointerNotify: { int resource = (int) X -> xclient.data.l[1]; #ifdef TEST fprintf(stderr, "%s: NXCollectGrabPointerNotify received with resource [%d].\n", __func__, resource); #endif nxagentHandleCollectGrabPointerEvent(resource); return 1; } case NXCollectInputFocusNotify: { int resource = (int) X -> xclient.data.l[1]; /* * This is not used at the present moment. */ #ifdef TEST fprintf(stderr, "%s: NXCollectInputFocusNotify received with resource [%d].\n", __func__, resource); #endif nxagentHandleCollectInputFocusEvent(resource); return 1; } default: { /* * Not a recognized ClientMessage event. */ #ifdef WARNING fprintf(stderr, "%s: WARNING! Not a recognized ClientMessage proxy event [%d].\n", __func__, (int) X -> xclient.data.l[0]); #endif return 0; } } } /* * In this function it is assumed that we never get a configure with * both stacking order and geometry changed, this way we can ignore * stacking changes if the geometry has changed. */ int nxagentCheckWindowConfiguration(XConfigureEvent* X) { static int x = 0; static int y = 0; static int width = 0; static int height = 0; static Window win = None; Bool geometryChanged = False; XlibWindow root_return = 0; XlibWindow parent_return = 0; XlibWindow *children_return = NULL; unsigned int nchildren_return = 0; Status result; if (win == X -> window) { if (x != X -> x || y != X -> y || width != X -> width || height != X -> height) { geometryChanged = True; } } win = X -> window; x = X -> x; y = X -> y; width = X -> width; height = X -> height; if (geometryChanged) { #ifdef TEST fprintf(stderr, "%s: Configure frame. No restack.\n", __func__); #endif return 1; } #ifdef TEST { fprintf(stderr, "%s: Before restacking top level window [%p]\n", __func__, (void *) nxagentWindowPtr(X -> window)); for (WindowPtr pSib = screenInfo.screens[0]->root -> firstChild; pSib; pSib = pSib -> nextSib) { fprintf(stderr, "%s: Top level window: [%p].\n", __func__, (void *) pSib); } } #endif result = XQueryTree(nxagentDisplay, DefaultRootWindow(nxagentDisplay), &root_return, &parent_return, &children_return, &nchildren_return); if (result) { nxagentRootlessRestack(children_return, nchildren_return); } else { #ifdef WARNING fprintf(stderr, "%s: WARNING! Failed QueryTree request.\n", __func__); #endif } SAFE_XFree(children_return); #if 0 fprintf(stderr, "%s: Trees match: %s\n", __func__, nxagentRootlessTreesMatch() ? "Yes" : "No"); #endif return 1; } int nxagentHandleConfigureNotify(XEvent* X) { #ifdef DEBUG fprintf(stderr, "%s: Event info:\n", __func__); fprintf(stderr, "%s: X->serial [%ld]\n", __func__, X->xconfigure.serial); fprintf(stderr, "%s: X->override_redirect [%d]\n", __func__, X->xconfigure.override_redirect); fprintf(stderr, "%s: X->border_width [%d]\n", __func__, X->xconfigure.border_width); fprintf(stderr, "%s: X->send_event [%d]\n", __func__, X->xconfigure.send_event); fprintf(stderr, "%s: X->window [0x%lx]\n", __func__, X->xconfigure.window); fprintf(stderr, "%s: X->event [0x%lx]\n", __func__, X->xconfigure.event); fprintf(stderr, "%s: X->x, X->y [%d][%d]\n", __func__, X->xconfigure.x, X->xconfigure.y); fprintf(stderr, "%s: X->width, X->height [%d][%d]\n", __func__, X->xconfigure.width, X->xconfigure.height); fprintf(stderr, "%s: References:\n", __func__); fprintf(stderr, "%s: DefaultWindow[0]: [0x%x]\n", __func__, nxagentDefaultWindows[0]); fprintf(stderr, "%s: DefaultRootWindow(DISPLAY) [0x%lx]\n", __func__, DefaultRootWindow(nxagentDisplay)); #endif if (nxagentOption(Rootless)) { int sendEventAnyway = 0; WindowPtr pWinWindow = nxagentWindowPtr(X -> xconfigure.window); #ifdef TEST { WindowPtr pWinEvent = nxagentWindowPtr(X -> xconfigure.event); fprintf(stderr, "%s: Generating window is [%p][%ld] target [%p][%ld].\n", __func__, (void *) pWinEvent, X -> xconfigure.event, (void *) pWinWindow, X -> xconfigure.window); } #endif #ifdef TEST fprintf(stderr, "%s: New configuration for window [%p][%ld] is [%d][%d][%d][%d] send_event [%i].\n", __func__, (void *) pWinWindow, X -> xconfigure.window, X -> xconfigure.x, X -> xconfigure.y, X -> xconfigure.width, X -> xconfigure.height, X -> xconfigure.send_event); #endif WindowPtr pWin = nxagentRootlessTopLevelWindow(X -> xconfigure.window); if (pWin != NULL) { /* * Checking for new geometry or stacking order changes. */ nxagentCheckWindowConfiguration((XConfigureEvent*)X); return 1; } if (nxagentWindowTopLevel(pWinWindow) && !X -> xconfigure.override_redirect) { XID values[5]; register XID *value = values; Mask mask = CWHeight | CWWidth | CWBorderWidth; /* FIXME: override_redirect is always FALSE here */ if (X -> xconfigure.send_event || !nxagentWMIsRunning || X -> xconfigure.override_redirect) { *value++ = (XID)X -> xconfigure.x; *value++ = (XID)X -> xconfigure.y; /* * nxagentWindowPriv(pWinWindow)->x = X -> xconfigure.x; * nxagentWindowPriv(pWinWindow)->y = X -> xconfigure.y; */ mask |= CWX | CWY; } *value++ = (XID)X -> xconfigure.width; *value++ = (XID)X -> xconfigure.height; *value++ = (XID)X -> xconfigure.border_width; /* * We don't need width and height here. * * nxagentWindowPriv(pWinWindow)->width = X -> xconfigure.width; * nxagentWindowPriv(pWinWindow)->height = X -> xconfigure.height; */ nxagentScreenTrap = True; ConfigureWindow(pWinWindow, mask, (XID *) values, wClient(pWinWindow)); nxagentScreenTrap = False; nxagentCheckWindowConfiguration((XConfigureEvent*)X); /* * This workaround should help with Java 1.6.0 that seems to * ignore non-synthetic events. */ if (nxagentOption(ClientOs) == ClientOsWinnt) { #ifdef TEST fprintf(stderr, "%s: Apply workaround for NXWin.\n", __func__); #endif sendEventAnyway = 1; } if (sendEventAnyway || X -> xconfigure.send_event) { xEvent x = {0}; x.u.u.type = X -> xconfigure.type | 0x80; x.u.configureNotify.event = pWinWindow -> drawable.id; x.u.configureNotify.window = pWinWindow -> drawable.id; if (pWinWindow -> nextSib) { x.u.configureNotify.aboveSibling = pWinWindow -> nextSib -> drawable.id; } else { x.u.configureNotify.aboveSibling = None; } x.u.configureNotify.x = X -> xconfigure.x; x.u.configureNotify.y = X -> xconfigure.y; x.u.configureNotify.width = X -> xconfigure.width; x.u.configureNotify.height = X -> xconfigure.height; x.u.configureNotify.borderWidth = X -> xconfigure.border_width; x.u.configureNotify.override = X -> xconfigure.override_redirect; TryClientEvents(wClient(pWinWindow), &x, 1, 1, 1, 0); } return 1; } } else /* (nxagentOption(Rootless)) */ { /* * Save the position of the agent default window. Don't save the * values if the agent is in fullscreen mode. * * If we use these values to restore the position of a window * after that we have dynamically changed the fullscreen * attribute, depending on the behaviour of window manager, we * could be not able to place the window exactly in the requested * position, so let the window manager do the job for us. */ ScreenPtr pScreen = nxagentScreen(X -> xconfigure.window); Bool doRandR = False; if (X -> xconfigure.window == nxagentDefaultWindows[pScreen -> myNum]) { if (!nxagentOption(AllScreens)) { /* * - WITHOUT window manager any position change is relevant * - WITH window manager only synthetic position changes sent * by the window manager are relevant, see ICCCM Chapter 4, * "Configuring the Window" */ Bool updatePos = (!nxagentWMIsRunning || X -> xconfigure.send_event != 0); int newX = X -> xconfigure.x; int newY = X -> xconfigure.y; if (nxagentOption(DesktopResize)) { if (nxagentOption(Width) != X -> xconfigure.width || nxagentOption(Height) != X -> xconfigure.height || (updatePos && (nxagentOption(X) != newX || nxagentOption(Y) != newY))) { #ifdef DEBUG int count = 0; #endif Bool newEvents = False; doRandR = True; NXFlushDisplay(nxagentDisplay, NXFlushLink); do { newEvents = False; nxagentWaitEvents(nxagentDisplay, 500); /* * This should also flush the NX link for us. */ XSync(nxagentDisplay, 0); while (XCheckTypedWindowEvent(nxagentDisplay, nxagentDefaultWindows[pScreen -> myNum], ConfigureNotify, X)) { #ifdef DEBUG count++; #endif if (!nxagentWMIsRunning || X -> xconfigure.send_event) { updatePos = True; #ifdef DEBUG fprintf(stderr, "%s: Accumulating event %d: x [%d] y [%d] width [%d] height [%d]\n", __func__, count, X -> xconfigure.x, X -> xconfigure.y, X -> xconfigure.width, X -> xconfigure.height); #endif newX = X -> xconfigure.x; newY = X -> xconfigure.y; } newEvents = True; } } while (newEvents); #ifdef DEBUG fprintf(stderr, "%s: accumulated %d events\n", __func__, count); #endif } } if (updatePos && (nxagentOption(X) != newX || nxagentOption(Y) != newY)) { #ifdef DEBUG fprintf(stderr, "%s: Updating nxagent window position [%d,%d] -> [%d,%d]\n", __func__, nxagentOption(X), nxagentOption(Y), newX, newY); #endif nxagentChangeOption(X, newX); nxagentChangeOption(Y, newY); } if (nxagentOption(Shadow) && nxagentOption(DesktopResize) && (nxagentOption(Width) != X -> xconfigure.width || nxagentOption(Height) != X -> xconfigure.height)) { nxagentShadowResize = True; } if (nxagentOption(Width) != X->xconfigure.width || nxagentOption(Height) != X->xconfigure.height) { #ifdef DEBUG fprintf(stderr, "%s: Updating width and height [%d,%d] -> [%d,%d]\n", __func__, nxagentOption(Width), nxagentOption(Height), X->xconfigure.width, X->xconfigure.height); #endif nxagentChangeOption(Width, X -> xconfigure.width); nxagentChangeOption(Height, X -> xconfigure.height); } nxagentChangeOption(ViewportXSpan, (int) X -> xconfigure.width - (int) nxagentOption(RootWidth)); nxagentChangeOption(ViewportYSpan, (int) X -> xconfigure.height - (int) nxagentOption(RootHeight)); nxagentMoveViewport(pScreen, 0, 0); /* if in shadowing mode or if neither size nor position have changed we do not need to adjust RandR */ /* FIXME: Comment makes no sense */ if (nxagentOption(Shadow) || (nxagentOption(Width) == nxagentOption(RootWidth) && nxagentOption(Height) == nxagentOption(RootHeight) && nxagentOption(X) == nxagentOption(RootX) && nxagentOption(Y) == nxagentOption(RootY))) { doRandR = False; } XMoveResizeWindow(nxagentDisplay, nxagentInputWindows[0], 0, 0, X -> xconfigure.width, X -> xconfigure.height); if (!nxagentOption(Fullscreen)) { /* FIXME: has already been done some lines above */ nxagentMoveViewport(pScreen, 0, 0); } else { nxagentChangeOption(RootX, (nxagentOption(Width) - nxagentOption(RootWidth)) / 2); nxagentChangeOption(RootY, (nxagentOption(Height) - nxagentOption(RootHeight)) / 2); nxagentChangeOption(ViewportXSpan, nxagentOption(Width) - nxagentOption(RootWidth)); nxagentChangeOption(ViewportYSpan, nxagentOption(Height) - nxagentOption(RootHeight)); nxagentUpdateViewportFrame(0, 0, nxagentOption(RootWidth), nxagentOption(RootHeight)); XMoveWindow(nxagentDisplay, nxagentWindow(pScreen->root), nxagentOption(RootX), nxagentOption(RootY)); } if (doRandR) { #ifdef TEST fprintf(stderr,"%s: Width %d Height %d.\n", __func__, nxagentOption(Width), nxagentOption(Height)); #endif /* * we are processing a ConfigureNotifyEvent that brought us * the current window size. If we issue a XResizeWindow() * again with these values we might end up in loop if the * window manager adjusts the size, which is perfectly * legal for it to do. So we prevent the XResizeWindow call * from happening. */ nxagentChangeScreenConfig(0, nxagentOption(Width), nxagentOption(Height), False); } } return 1; } else { if ( (X -> xconfigure.window == DefaultRootWindow(nxagentDisplay)) || nxagentFullscreenWindow ) { #ifdef TEST fprintf(stderr, "%s: remote root window has changed: %d,%d %dx%d\n", __func__, X -> xconfigure.x, X -> xconfigure.y, X -> xconfigure.width, X -> xconfigure.height); #endif nxagentChangeOption(RootX, X -> xconfigure.x); nxagentChangeOption(RootY, X -> xconfigure.y); nxagentChangeOption(RootWidth, X -> xconfigure.width); nxagentChangeOption(RootHeight, X -> xconfigure.height); nxagentChangeScreenConfig(0, nxagentOption(Width), nxagentOption(Height), True); return 1; } } } #ifdef TEST fprintf(stderr, "%s: received for unexpected window [%ld]\n", __func__, X -> xconfigure.window); #endif return 0; } int nxagentHandleReparentNotify(XEvent* X) { #ifdef TEST fprintf(stderr, "%s: Going to handle a new reparent event (serial [%ld].\n", __func__, X->xreparent.serial); #endif #ifdef DEBUG fprintf(stderr, "%s: Event info:\n", __func__); fprintf(stderr, "%s: X->send_event [%d]\n", __func__, X->xreparent.send_event); fprintf(stderr, "%s: X->event [0x%lx]\n", __func__, X->xreparent.event); fprintf(stderr, "%s: X->window [0x%lx]\n", __func__, X->xreparent.window); fprintf(stderr, "%s: X->parent [0x%lx]\n", __func__, X->xreparent.parent); fprintf(stderr, "%s: X->x, X->y [%d][%d]\n", __func__, X->xreparent.x, X->xreparent.y); fprintf(stderr, "%s: X->override_redirect [%d]\n", __func__, X->xreparent.override_redirect); fprintf(stderr, "%s: References:\n", __func__); fprintf(stderr, "%s: DefaultWindow[0]: [0x%x]\n", __func__, nxagentDefaultWindows[0]); fprintf(stderr, "%s: RootWindow(DISPLAY, 0): [0x%lx]\n", __func__, RootWindow(nxagentDisplay, 0)); fprintf(stderr, "%s: DefaultRootWindow(DISPLAY): [0x%lx]\n", __func__, DefaultRootWindow(nxagentDisplay)); #endif if (nxagentOption(Rootless)) { WindowPtr pWin = nxagentWindowPtr(X -> xreparent.window); #ifdef TEST { WindowPtr pParent = nxagentWindowPtr(X -> xreparent.parent); WindowPtr pEvent = nxagentWindowPtr(X -> xreparent.event); fprintf(stderr, "%s: event %p[%lx] window %p[%lx] parent %p[%lx] at (%d, %d)\n", __func__, (void*)pEvent, X -> xreparent.event, (void*)pWin, X -> xreparent.window, (void*)pParent, X -> xreparent.parent, X -> xreparent.x, X -> xreparent.y); } #endif if (nxagentWindowTopLevel(pWin)) { /* * If the window manager reparents our top level window, we need * to know the new top level ancestor. */ XlibWindow w = None; XlibWindow root_return = 0; XlibWindow *children_return = NULL; unsigned int nchildren_return = 0; Status result; XlibWindow parent_return = X -> xreparent.parent; while (parent_return != RootWindow(nxagentDisplay, 0)) { w = parent_return; result = XQueryTree(nxagentDisplay, w, &root_return, &parent_return, &children_return, &nchildren_return); SAFE_XFree(children_return); if (!result) { #ifdef WARNING fprintf(stderr, "%s: WARNING! Failed QueryTree request.\n", __func__); #endif break; } } if (w && !nxagentWindowPtr(w)) { XSelectInput(nxagentDisplay, w, StructureNotifyMask); nxagentRootlessAddTopLevelWindow(pWin, w); #ifdef TEST fprintf(stderr, "%s: new top level window [%ld].\n", __func__, w); fprintf(stderr, "%s: reparented window [%ld].\n", __func__, X -> xreparent.window); #endif result = XQueryTree(nxagentDisplay, DefaultRootWindow(nxagentDisplay), &root_return, &parent_return, &children_return, &nchildren_return); if (result) { nxagentRootlessRestack(children_return, nchildren_return); } else { #ifdef WARNING fprintf(stderr, "%s: WARNING! Failed QueryTree request.\n", __func__); #endif } SAFE_XFree(children_return); } else { #ifdef TEST fprintf(stderr, "%s: Window at [%p] has been reparented to [%ld] top level parent [%ld].\n", __func__, (void *) pWin, X -> xreparent.parent, w); #endif nxagentRootlessDelTopLevelWindow(pWin); } } return 1; } else if (nxagentWMIsRunning && !nxagentOption(Fullscreen) && nxagentOption(WMBorderWidth) == -1) { /* * Calculate the absolute upper-left X e Y */ XlibWindow parent = X -> xreparent.parent; XWindowAttributes attributes; if ((XGetWindowAttributes(nxagentDisplay, parent, &attributes) == 0)) { #ifdef WARNING fprintf(stderr, "%s: WARNING! XGetWindowAttributes for parent window failed.\n", __func__); #endif return 1; } XlibWindow junk; int x = attributes.x; int y = attributes.y; #ifdef DEBUG int before_x = x; int before_y = y; #endif XTranslateCoordinates(nxagentDisplay, parent, attributes.root, -attributes.border_width, -attributes.border_width, &x, &y, &junk); #ifdef DEBUG fprintf(stderr, "%s: translated coordinates x,y [%d,%d] -> [%d,%d].\n", __func__, before_x, before_y, x, y); #endif /* * Calculate the parent X and parent Y. */ if (parent != DefaultRootWindow(nxagentDisplay)) { XlibWindow rootReturn = 0; XlibWindow parentReturn = 0; XlibWindow *childrenReturn = NULL; unsigned int nchildrenReturn = 0; do { Status result = XQueryTree(nxagentDisplay, parent, &rootReturn, &parentReturn, &childrenReturn, &nchildrenReturn); SAFE_XFree(childrenReturn); if (parentReturn == rootReturn || parentReturn == 0 || result == 0) { break; } parent = parentReturn; } while (True); /* * WM reparented. Find edge of the frame. */ if (XGetWindowAttributes(nxagentDisplay, parent, &attributes) == 0) { #ifdef WARNING fprintf(stderr, "%s: WARNING! XGetWindowAttributes failed for parent window.\n", __func__); #endif return 1; } /* * Difference between Absolute X and Parent X gives thickness of side frame. * Difference between Absolute Y and Parent Y gives thickness of title bar. */ nxagentChangeOption(WMBorderWidth, (x - attributes.x)); nxagentChangeOption(WMTitleHeight, (y - attributes.y)); #ifdef DEBUG fprintf(stderr, "%s: WMBorderWidth [%d]\n", __func__, nxagentOption(WMBorderWidth)); fprintf(stderr, "%s: WMTitleHeight [%d]\n", __func__, nxagentOption(WMTitleHeight)); fprintf(stderr, "%s: win_gravity [%d]\n", __func__, attributes.win_gravity); fprintf(stderr, "%s: bit_gravity [%d]\n", __func__, attributes.bit_gravity); fprintf(stderr, "%s: border_width [%d]\n", __func__, attributes.border_width); fprintf(stderr, "%s: height [%d]\n", __func__, attributes.height); fprintf(stderr, "%s: width [%d]\n", __func__, attributes.width); fprintf(stderr, "%s: x [%d]\n", __func__, attributes.x); fprintf(stderr, "%s: y [%d]\n", __func__, attributes.y); #endif } } return 1; } /* * Helper for nxagent(Enable|Disable)(Keyboard|Pointer)Events */ static void nxagentSwitchEventsAllScreens(Mask mask, Bool enable) { Mask newmask = nxagentGetDefaultEventMask(); if (enable) newmask |= mask; else newmask &= ~mask; nxagentSetDefaultEventMask(newmask); for (int i = 0; i < nxagentNumScreens; i++) { XSelectInput(nxagentDisplay, nxagentDefaultWindows[i], newmask); } } void nxagentEnableKeyboardEvents(void) { nxagentSwitchEventsAllScreens(NXAGENT_KEYBOARD_EVENT_MASK, True); XkbSelectEvents(nxagentDisplay, XkbUseCoreKbd, NXAGENT_KEYBOARD_EXTENSION_EVENT_MASK, NXAGENT_KEYBOARD_EXTENSION_EVENT_MASK); } void nxagentDisableKeyboardEvents(void) { nxagentSwitchEventsAllScreens(NXAGENT_KEYBOARD_EVENT_MASK, False); XkbSelectEvents(nxagentDisplay, XkbUseCoreKbd, 0x0, 0x0); } void nxagentEnablePointerEvents(void) { nxagentSwitchEventsAllScreens(NXAGENT_POINTER_EVENT_MASK, True); } void nxagentDisablePointerEvents(void) { nxagentSwitchEventsAllScreens(NXAGENT_POINTER_EVENT_MASK, False); } void nxagentSendFakeKey(int key) { Time now = GetTimeInMillis(); xEvent fake = {0}; fake.u.u.type = KeyPress; fake.u.u.detail = key; fake.u.keyButtonPointer.time = now; mieqEnqueue(&fake); fake.u.u.type = KeyRelease; fake.u.u.detail = key; fake.u.keyButtonPointer.time = now; mieqEnqueue(&fake); } int nxagentInitXkbKeyboardState(void) { XEvent X = {0}; XkbEvent *xkbev = (XkbEvent *) &X; if (nxagentXkbInfo.EventBase == -1) { return 1; } #ifdef TEST fprintf(stderr, "%s: Initializing XKB state.\n", __func__); #endif unsigned int modifiers; XkbGetIndicatorState(nxagentDisplay, XkbUseCoreKbd, &modifiers); xkbev -> state.locked_mods = 0x0; if (modifiers & CAPSFLAG_IN_REPLY) { xkbev -> state.locked_mods |= CAPSFLAG_IN_EVENT; } if (modifiers & NUMFLAG_IN_REPLY) { xkbev -> state.locked_mods |= NUMFLAG_IN_EVENT; } #ifdef TEST fprintf(stderr, "%s: Assuming XKB locked modifier bits [%x].\n", __func__, xkbev -> state.locked_mods); #endif xkbev -> type = nxagentXkbInfo.EventBase + XkbEventCode; xkbev -> any.xkb_type = XkbStateNotify; nxagentHandleXkbKeyboardStateEvent(&X); return 1; } int nxagentWaitForResource(GetResourceFuncPtr pGetResource, PredicateFuncPtr pPredicate) { int resource; while ((resource = (*pGetResource)(nxagentDisplay)) == -1) { if (nxagentWaitEvents(nxagentDisplay, 0) == -1) { return -1; } nxagentDispatchEvents(pPredicate); } return resource; } void nxagentGrabPointerAndKeyboard(XEvent *X) { #ifdef TEST fprintf(stderr, "%s: Grabbing pointer and keyboard with event at [%p].\n", __func__, (void *) X); #endif unsigned long now; if (X != NULL) { now = X -> xcrossing.time; } else { now = CurrentTime; } #ifdef TEST fprintf(stderr, "%s: Going to grab the keyboard in context [B1].\n", __func__); #endif int result = XGrabKeyboard(nxagentDisplay, nxagentFullscreenWindow ? nxagentFullscreenWindow : RootWindow(nxagentDisplay, DefaultScreen(nxagentDisplay)), True, GrabModeAsync, GrabModeAsync, now); if (result != GrabSuccess) { #ifdef DEBUG fprintf(stderr, "%s: keyboard grab failed.\n", __func__); #endif return; } #ifdef DEBUG else { fprintf(stderr, "%s: keyboard grab successful.\n", __func__); } #endif /* * The smart scheduler could be stopped while waiting for the * reply. In this case we need to yield explicitly to avoid to be * stuck in the dispatch loop forever. */ isItTimeToYield = 1; #ifdef TEST fprintf(stderr, "%s: Going to grab the pointer in context [B2].\n", __func__); #endif int resource = nxagentWaitForResource(NXGetCollectGrabPointerResource, nxagentCollectGrabPointerPredicate); if (nxagentFullscreenWindow) NXCollectGrabPointer(nxagentDisplay, resource, nxagentFullscreenWindow, True, NXAGENT_POINTER_EVENT_MASK, GrabModeAsync, GrabModeAsync, None, None, now); /* * This should not be needed. * * XGrabKey(nxagentDisplay, AnyKey, AnyModifier, nxagentFullscreenWindow, * True, GrabModeAsync, GrabModeAsync); */ if (X != NULL) { #ifdef TEST fprintf(stderr, "%s: Going to force focus in context [B4].\n", __func__); #endif XSetInputFocus(nxagentDisplay, nxagentFullscreenWindow, RevertToParent, now); } } void nxagentUngrabPointerAndKeyboard(XEvent *X) { unsigned long now; #ifdef TEST fprintf(stderr, "%s: Ungrabbing pointer and keyboard with event at [%p].\n", __func__, (void *) X); #endif if (X != NULL) { now = X -> xcrossing.time; } else { now = CurrentTime; } #ifdef TEST fprintf(stderr, "%s: Going to ungrab the keyboard in context [B5].\n", __func__); #endif XUngrabKeyboard(nxagentDisplay, now); #ifdef TEST fprintf(stderr, "%s: Going to ungrab the pointer in context [B6].\n", __func__); #endif XUngrabPointer(nxagentDisplay, now); } void nxagentDeactivatePointerGrab(void) { GrabPtr grab = inputInfo.pointer -> grab; if (grab) { XButtonEvent X = { .type = ButtonRelease, .serial = 0, .send_event = FALSE, .time = currentTime.milliseconds, .display = nxagentDisplay, .window = nxagentWindow(grab -> window), .root = RootWindow(nxagentDisplay, 0), .subwindow = 0, .x = 0, .y = 0, .x_root = 0, .y_root = 0, .state = 0x100, .button = 1, .same_screen = TRUE, }; XPutBackEvent(nxagentDisplay, (XEvent*)&X); } } Bool nxagentCollectGrabPointerPredicate(Display *disp, XEvent *X, XPointer ptr) { return (X -> xclient.window == 0 && X -> xclient.message_type == 0 && X -> xclient.format == 32 && X -> xclient.data.l[0] == NXCollectGrabPointerNotify); } void nxagentHandleCollectGrabPointerEvent(int resource) { int status; if (NXGetCollectedGrabPointer(nxagentDisplay, resource, &status) == 0) { #ifdef PANIC fprintf(stderr, "%s: PANIC! Failed to get GrabPointer reply for resource [%d].\n", __func__, resource); #endif } } void nxagentHandleCollectPropertyEvent(XEvent *X) { int resource = X -> xclient.data.l[1]; if (X -> xclient.data.l[2] == False) { #ifdef DEBUG fprintf (stderr, "%s: Failed to get reply data for client [%d].\n", __func__, resource); #endif return; } if (resource == nxagentLastClipboardClient) { nxagentCollectPropertyEvent(resource); } else { XlibAtom atomReturnType; int resultFormat; unsigned long ulReturnItems; unsigned long ulReturnBytesLeft; unsigned char *pszReturnData = NULL; int result = NXGetCollectedProperty(nxagentDisplay, resource, &atomReturnType, &resultFormat, &ulReturnItems, &ulReturnBytesLeft, &pszReturnData); if (result == True) { XlibWindow window = nxagentPropertyRequests[resource].window; XlibAtom property = nxagentPropertyRequests[resource].property; nxagentImportProperty(window, property, atomReturnType, resultFormat, ulReturnItems, ulReturnBytesLeft, pszReturnData); } else { #ifdef DEBUG fprintf (stderr, "%s: Failed to get reply data for client [%d].\n", __func__, resource); #endif } SAFE_XFree(pszReturnData); return; } } void nxagentSynchronizeExpose(void) { if (nxagentExposeQueue.length <= 0) { #ifdef TEST fprintf(stderr, "%s: PANIC! Called with nxagentExposeQueue.length [%d].\n", __func__, nxagentExposeQueue.length); #endif return; } WindowPtr pWin = nxagentExposeQueueHead.pWindow; if (pWin) { if ((nxagentExposeQueueHead.localRegion) != NullRegion) { RegionTranslate((nxagentExposeQueueHead.localRegion), pWin -> drawable.x, pWin -> drawable.y); } if ((nxagentExposeQueueHead.remoteRegion) != NullRegion) { RegionTranslate((nxagentExposeQueueHead.remoteRegion), pWin -> drawable.x, pWin -> drawable.y); } if ((nxagentExposeQueueHead.localRegion) != NullRegion && (nxagentExposeQueueHead.remoteRegion) != NullRegion) { RegionSubtract((nxagentExposeQueueHead.remoteRegion), (nxagentExposeQueueHead.remoteRegion), (nxagentExposeQueueHead.localRegion)); if (!RegionNil(nxagentExposeQueueHead.remoteRegion) && ((pWin -> eventMask|wOtherEventMasks(pWin)) & ExposureMask)) { #ifdef TEST fprintf(stderr, "%s: Going to call miWindowExposures for window [%d] - rects [%d].\n", __func__, nxagentWindow(pWin), RegionNumRects(nxagentExposeQueueHead.remoteRegion)); #endif miWindowExposures(pWin, nxagentExposeQueueHead.remoteRegion, NullRegion); } } } nxagentExposeQueueHead.pWindow = NULL; if (nxagentExposeQueueHead.localRegion != NullRegion) { RegionDestroy(nxagentExposeQueueHead.localRegion); } nxagentExposeQueueHead.localRegion = NullRegion; if (nxagentExposeQueueHead.remoteRegion != NullRegion) { RegionDestroy(nxagentExposeQueueHead.remoteRegion); } nxagentExposeQueueHead.remoteRegion = NullRegion; nxagentExposeQueueHead.remoteRegionIsCompleted = False; nxagentExposeQueue.start = (nxagentExposeQueue.start + 1) % EXPOSED_SIZE; nxagentExposeQueue.length--; return; } int nxagentLookupByWindow(WindowPtr pWin) { for (int j = 0; j < nxagentExposeQueue.length; j++) { int i = (nxagentExposeQueue.start + j) % EXPOSED_SIZE; if (nxagentExposeQueue.exposures[i].pWindow == pWin && !nxagentExposeQueue.exposures[i].remoteRegionIsCompleted) { return i; } } return -1; } void nxagentRemoveDuplicatedKeys(XEvent *X) { _XQEvent *qelt = nxagentDisplay -> head; KeyCode lastKeycode = X -> xkey.keycode; if (qelt == NULL) { #ifdef TEST fprintf(stderr, "%s: Trying to read more events from the X server.\n", __func__); if (nxagentReadEvents(nxagentDisplay) > 0) { fprintf(stderr, "%s: Successfully read more events from the X server.\n", __func__); } #else nxagentReadEvents(nxagentDisplay); #endif qelt = nxagentDisplay -> head; } if (qelt != NULL) { _XQEvent *prev; _XQEvent *qeltKeyRelease; _XQEvent *prevKeyRelease; prev = qeltKeyRelease = prevKeyRelease = NULL; LockDisplay(nxagentDisplay); while (qelt != NULL) { if (qelt -> event.type == KeyRelease || qelt -> event.type == KeyPress) { if (qelt -> event.xkey.keycode != lastKeycode || (qelt -> event.type == KeyPress && qeltKeyRelease == NULL) || (qelt -> event.type == KeyRelease && qeltKeyRelease != NULL)) { break; } if (qelt -> event.type == KeyRelease) { prevKeyRelease = prev; qeltKeyRelease = qelt; } else if (qelt -> event.type == KeyPress) { _XDeq(nxagentDisplay, prev, qelt); qelt = prev -> next; if (prev == qeltKeyRelease) { prev = prevKeyRelease; } _XDeq(nxagentDisplay, prevKeyRelease, qeltKeyRelease); qeltKeyRelease = prevKeyRelease = NULL; continue; } } prev = qelt; qelt = qelt -> next; } UnlockDisplay(nxagentDisplay); } } void nxagentInitRemoteExposeRegion(void) { if (nxagentRemoteExposeRegion == NULL) { nxagentRemoteExposeRegion = RegionCreate(NULL, 1); if (nxagentRemoteExposeRegion == NULL) { #ifdef PANIC fprintf(stderr, "%s: PANIC! Failed to create expose region.\n", __func__); #endif } } } void nxagentForwardRemoteExpose(void) { if (RegionNotEmpty(nxagentRemoteExposeRegion)) { #ifdef DEBUG fprintf(stderr, "%s: Going to forward events.\n", __func__); #endif TraverseTree(screenInfo.screens[0]->root, nxagentClipAndSendExpose, (void *)nxagentRemoteExposeRegion); /* * Now this region should be empty. */ RegionEmpty(nxagentRemoteExposeRegion); } } void nxagentAddRectToRemoteExposeRegion(BoxPtr rect) { if (nxagentRemoteExposeRegion == NULL) { return; } RegionRec exposeRegion; RegionInit(&exposeRegion, rect, 1); RegionUnion(nxagentRemoteExposeRegion, nxagentRemoteExposeRegion, &exposeRegion); RegionUninit(&exposeRegion); } int nxagentClipAndSendExpose(WindowPtr pWin, void * ptr) { RegionPtr remoteExposeRgn = (RegionRec *) ptr; #ifdef DEBUG fprintf(stderr, "%s: Called.\n", __func__); #endif if (pWin -> drawable.class != InputOnly) { RegionPtr exposeRgn = RegionCreate(NULL, 1); #ifdef DEBUG BoxRec box = *RegionExtents(remoteExposeRgn); fprintf(stderr, "%s: Root expose extents: [%d] [%d] [%d] [%d].\n", __func__, box.x1, box.y1, box.x2, box.y2); box = *RegionExtents(&pWin -> clipList); fprintf(stderr, "%s: Clip list extents for window at [%p]: [%d] [%d] [%d] [%d].\n", __func__, (void *)pWin, box.x1, box.y1, box.x2, box.y2); #endif RegionIntersect(exposeRgn, remoteExposeRgn, &pWin -> clipList); if (RegionNotEmpty(exposeRgn)) { #ifdef DEBUG fprintf(stderr, "%s: Forwarding expose to window at [%p] pWin.\n", __func__, (void *)pWin); #endif /* * The miWindowExposures() clears out the region parameters, so * the subtract ope- ration must be done before calling it. */ RegionSubtract(remoteExposeRgn, remoteExposeRgn, exposeRgn); miWindowExposures(pWin, exposeRgn, NullRegion); } RegionDestroy(exposeRgn); } if (RegionNotEmpty(remoteExposeRgn)) { #ifdef DEBUG fprintf(stderr, "%s: Region not empty. Walk children.\n", __func__); #endif return WT_WALKCHILDREN; } else { #ifdef DEBUG fprintf(stderr, "%s: Region empty. Stop walking.\n", __func__); #endif return WT_STOPWALKING; } } int nxagentUserInput(void *p) { int result = 0; /* * This function is used as callback in the polling handler of agent * in shadow mode. When inside the polling loop the handlers are * never called, so we have to dispatch enqueued events to * eventually change the nxagentInputEvent status. */ if (nxagentOption(Shadow) && nxagentPendingEvents(nxagentDisplay) > 0) { nxagentDispatchEvents(NULL); } if (nxagentInputEvent == 1) { nxagentInputEvent = 0; result = 1; } /* * The agent working in shadow mode synchronizes the remote X server * even if a button/key is not released (i.e. when scrolling a long * browser's page), in order to update the screen smoothly. */ if (nxagentOption(Shadow)) { return result; } if (result == 0) { /* * If there is at least one button/key down, we are receiving an * input. This is not a condition to break a synchronization loop * if there is enough bandwidth. */ if (nxagentCongestion > 0 && (inputInfo.pointer -> button -> buttonsDown > 0 || nxagentKeyDown > 0)) { #ifdef TEST fprintf(stderr, "%s: Buttons [%d] Keys [%d].\n", __func__, inputInfo.pointer -> button -> buttonsDown, nxagentKeyDown); #endif result = 1; } } return result; } int nxagentHandleRRScreenChangeNotify(XEvent *X) { XRRScreenChangeNotifyEvent *Xr = (XRRScreenChangeNotifyEvent *) X; #ifdef DEBUG fprintf(stderr, "%s: Called.\n", __func__); #endif nxagentResizeScreen(screenInfo.screens[DefaultScreen(nxagentDisplay)], Xr -> width, Xr -> height, Xr -> mwidth, Xr -> mheight, True); nxagentShadowCreateMainWindow(screenInfo.screens[DefaultScreen(nxagentDisplay)], screenInfo.screens[0]->root, Xr -> width, Xr -> height); nxagentShadowSetWindowsSize(); return 1; } /* * Returns true if there is any event waiting to be dispatched. This * function is critical for the performance because it is called very, * very often. It must also handle the case when the display is * down. The display descriptor, in fact, may have been reused by some * other client. */ int nxagentPendingEvents(Display *dpy) { if (_XGetIOError(dpy) != 0) { #ifdef DEBUG fprintf(stderr, "%s: Returning error with display down.\n", __func__); #endif return -1; } else if (XQLength(dpy) > 0) { #ifdef DEBUG fprintf(stderr, "%s: Returning true with [%d] events queued.\n", __func__, XQLength(dpy)); #endif return 1; } else { int readable; if (NXTransReadable(dpy -> fd, &readable) == 0) { if (readable > 0) { #ifdef DEBUG fprintf(stderr, "%s: Returning true with [%d] bytes readable.\n", __func__, readable); #endif return 1; } #ifdef DEBUG fprintf(stderr, "%s: Returning false with [%d] bytes readable.\n", __func__, readable); #endif return 0; } #ifdef TEST fprintf(stderr, "%s: WARNING! Error detected on the X display.\n", __func__); #endif NXForceDisplayError(dpy); return -1; } } /* * Blocks until an event becomes available. */ int nxagentWaitEvents(Display *dpy, useconds_t msec) { #ifdef DEBUG fprintf(stderr, "%s: Called.\n", __func__); #endif NXFlushDisplay(dpy, NXFlushLink); /* * If the transport is not running we have to rely on Xlib to wait * for an event. In this case the timeout is ignored. */ if (NXTransRunning(NX_FD_ANY) == 1) { if (msec > 0) { struct timeval tm = { .tv_sec = 0, .tv_usec = msec * 1000 }; NXTransContinue(&tm); } else { NXTransContinue(NULL); } } else { XEvent ev; XPeekEvent(dpy, &ev); } /* * Check if we encountered a display error. If we did, wait for the * time requested by the caller. */ if (NXDisplayError(dpy) == 1) { if (msec > 0) { usleep(msec * 1000); } return -1; } return 1; } void ForwardClientMessage(ClientPtr client, xSendEventReq *stuff) { Atom netwmstate = MakeAtom("_NET_WM_STATE", strlen("_NET_WM_STATE"), False); Atom wmchangestate = MakeAtom("WM_CHANGE_STATE", strlen("WM_CHANGE_STATE"), False); WindowPtr pWin = (WindowPtr)SecurityLookupWindow(stuff->destination, client, DixReadAccess); if (stuff->event.u.clientMessage.u.l.type == netwmstate || stuff->event.u.clientMessage.u.l.type == wmchangestate) { if (pWin->drawable.id == pWin->drawable.pScreen->root->drawable.id) { #ifdef DEBUG fprintf(stderr, "%s: dest [0x%x] window [0x%x] clmsg.type [%d]->[%d]\n", __func__, stuff->destination, stuff->event.u.clientMessage.window, stuff->event.u.clientMessage.u.l.type, nxagentLocalToRemoteAtom(stuff->event.u.clientMessage.u.l.type)); #endif XEvent X = {0}; X.xany.type = ClientMessage; WindowPtr pWin2 = (WindowPtr)SecurityLookupWindow(stuff->event.u.clientMessage.window, client, DixReadAccess); X.xclient.window = nxagentWindowPriv(pWin2)->window; X.xclient.format = stuff->event.u.u.detail; X.xclient.send_event = True; X.xclient.serial = 0; if (X.xclient.format == 32) { X.xclient.message_type = nxagentLocalToRemoteAtom(stuff->event.u.clientMessage.u.l.type); X.xclient.data.l[0] = stuff->event.u.clientMessage.u.l.longs0; X.xclient.data.l[1] = nxagentLocalToRemoteAtom(stuff->event.u.clientMessage.u.l.longs1); X.xclient.data.l[2] = nxagentLocalToRemoteAtom(stuff->event.u.clientMessage.u.l.longs2); X.xclient.data.l[3] = nxagentLocalToRemoteAtom(stuff->event.u.clientMessage.u.l.longs3); X.xclient.data.l[4] = nxagentLocalToRemoteAtom(stuff->event.u.clientMessage.u.l.longs4); //X.xclient.data.l[3] = stuff->event.u.clientMessage.u.l.longs3; //X.xclient.data.l[4] = stuff->event.u.clientMessage.u.l.longs4; #ifdef DEBUG for (int i = 0; i < 5; i++) { fprintf(stderr, "%s: data[%d] [%ld]\n", __func__, i, X.xclient.data.l[i]); } #endif } else return; // ERROR! #ifdef DEBUG fprintf(stderr, "%s: window [0x%lx]\n", __func__, X.xclient.window); fprintf(stderr, "%s: message_type [%ld]\n", __func__, X.xclient.message_type); fprintf(stderr, "%s: format [%d]\n", __func__, X.xclient.format); #endif XlibWindow dest; dest = DefaultRootWindow(nxagentDisplay); Status stat = XSendEvent(nxagentDisplay, dest, stuff->propagate, stuff->eventMask, &X); XFlush(nxagentDisplay); #ifdef DEBUG fprintf(stderr, "%s: send to window [0x%lx]\n", __func__, dest); fprintf(stderr, "%s: return Status [%d]\n", __func__, stat); #endif } } } #ifdef NX_DEBUG_INPUT void nxagentGuessDumpInputInfo(ClientPtr client, Atom property, char *data) { if (strcmp(validateString(NameForAtom(property)), "NX_DEBUG_INPUT") == 0) { if (*data != 0) { nxagentDebugInput = 1; } else { nxagentDebugInput = 0; } } } void nxagentDeactivateInputDevicesGrabs(void) { fprintf(stderr, "Info: Deactivating input devices grabs.\n"); if (inputInfo.pointer -> grab) { (*inputInfo.pointer -> DeactivateGrab)(inputInfo.pointer); } if (inputInfo.keyboard -> grab) { (*inputInfo.keyboard -> DeactivateGrab)(inputInfo.keyboard); } } static const char *nxagentGrabStateToString(int state) { switch (state) { case 0: return "NOT_GRABBED"; case 1: return "THAWED"; case 2: return "THAWED_BOTH"; case 3: return "FREEZE_NEXT_EVENT"; case 4: return "FREEZE_BOTH_NEXT_EVENT"; case 5: return "FROZEN_NO_EVENT"; case 6: return "FROZEN_WITH_EVENT"; case 7: return "THAW_OTHERS"; default: return "unknown state"; } } void nxagentDumpInputDevicesState(void) { WindowPtr pWin = NULL; fprintf(stderr, "\n*** Dump input devices state: BEGIN ***" "\nKeys down:"); DeviceIntPtr dev = inputInfo.keyboard; for (int i = 0; i < DOWN_LENGTH; i++) { CARD8 val = dev -> key -> down[i]; if (val != 0) { for (int k = 0; k < 8; k++) { if (val & (1 << k)) { fprintf(stderr, "\n\t[%d] [%s]", i * 8 + k, XKeysymToString(XKeycodeToKeysym(nxagentDisplay, i * 8 + k, 0))); } } } } fprintf(stderr, "\nKeyboard device state: \n\tdevice [%p]\n\tlast grab time [%u]" "\n\tfrozen [%s]\n\tstate [%s]\n\tother [%p]\n\tevent count [%d]" "\n\tfrom passive grab [%s]\n\tactivating key [%d]", (void *)dev, dev -> grabTime.milliseconds, dev -> sync.frozen ? "Yes": "No", nxagentGrabStateToString(dev -> sync.state), (void *)dev -> sync.other, dev -> sync.evcount, dev -> fromPassiveGrab ? "Yes" : "No", dev -> activatingKey); GrabPtr grab = dev -> grab; if (grab) { fprintf(stderr, "\nKeyboard grab state: \n\twindow pointer [%p]" "\n\towner events flag [%s]\n\tgrab mode [%s]", (void *)grab -> window, grab -> ownerEvents ? "True" : "False", grab -> keyboardMode ? "asynchronous" : "synchronous"); /* * Passive grabs. */ pWin = grab -> window; grab = wPassiveGrabs(pWin); while (grab) { fprintf(stderr, "\nPassive grab state: \n\tdevice [%p]\n\towner events flag [%s]" "\n\tpointer grab mode [%s]\n\tkeyboard grab mode [%s]\n\tevent type [%d]" "\n\tmodifiers [%x]\n\tbutton/key [%u]\n\tevent mask [%x]", (void *)grab -> device, grab -> ownerEvents ? "True" : "False", grab -> pointerMode ? "asynchronous" : "synchronous", grab -> keyboardMode ? "asynchronous" : "synchronous", grab -> type, grab -> modifiersDetail.exact, grab -> detail.exact, grab -> eventMask); grab = grab -> next; } } fprintf(stderr, "\nButtons down:"); dev = inputInfo.pointer; for (int i = 0; i < DOWN_LENGTH; i++) { CARD8 val = dev -> button -> down[i]; if (val != 0) { for (int k = 0; k < 8; k++) { if (val & (1 << k)) { fprintf(stderr, "\n\t[%d]", i * 8 + k); } } } } fprintf(stderr, "\nPointer device state: \n\tdevice [%p]\n\tlast grab time [%u]" "\n\tfrozen [%s]\n\tstate [%s]\n\tother [%p]\n\tevent count [%d]" "\n\tfrom passive grab [%s]\n\tactivating button [%d]", (void *)dev, dev -> grabTime.milliseconds, dev -> sync.frozen ? "Yes" : "No", nxagentGrabStateToString(dev -> sync.state), (void *)dev -> sync.other, dev -> sync.evcount, dev -> fromPassiveGrab ? "Yes" : "No", dev -> activatingKey); grab = dev -> grab; if (grab) { fprintf(stderr, "\nPointer grab state: \n\twindow pointer [%p]" "\n\towner events flag [%s]\n\tgrab mode [%s]", (void *)grab -> window, grab -> ownerEvents ? "True" : "False", grab -> pointerMode ? "asynchronous" : "synchronous"); if (grab -> window != pWin) { /* * Passive grabs. */ grab = wPassiveGrabs(grab -> window); while (grab) { fprintf(stderr, "\nPassive grab state: \n\tdevice [%p]\n\towner events flag [%s]" "\n\tpointer grab mode [%s]\n\tkeyboard grab mode [%s]\n\tevent type [%d]" "\n\tmodifiers [%x]\n\tbutton/key [%u]\n\tevent mask [%x]", (void *)grab -> device, grab -> ownerEvents ? "True" : "False", grab -> pointerMode ? "asynchronous" : "synchronous", grab -> keyboardMode ? "asynchronous" : "synchronous", grab -> type, grab -> modifiersDetail.exact, grab -> detail.exact, grab -> eventMask); grab = grab -> next; } } } fprintf(stderr, "\n*** Dump input devices state: FINISH ***\n"); } #endif