/**************************************************************************/ /* */ /* Copyright (c) 2001, 2011 NoMachine, http://www.nomachine.com/. */ /* */ /* NXAGENT, NX protocol compression and NX extensions to this software */ /* are copyright of NoMachine. Redistribution and use of the present */ /* software is allowed according to terms specified in the file LICENSE */ /* which comes in the source distribution. */ /* */ /* Check http://www.nomachine.com/licensing.html for applicability. */ /* */ /* NX and NoMachine are trademarks of Medialogic S.p.A. */ /* */ /* All rights reserved. */ /* */ /**************************************************************************/ /* Copyright 1993 by Davor Matic Permission to use, copy, modify, distribute, and sell this software and its documentation for any purpose is hereby granted without fee, provided that the above copyright notice appear in all copies and that both that copyright notice and this permission notice appear in supporting documentation. Davor Matic makes no representations about the suitability of this software for any purpose. It is provided "as is" without express or implied warranty. */ #include "X.h" #include "Xproto.h" #include "screenint.h" #include "input.h" #include "misc.h" #include "cursor.h" #include "cursorstr.h" #include "scrnintstr.h" #include "servermd.h" #include "inputstr.h" #include "Agent.h" #include "Display.h" #include "Options.h" #include "Screen.h" #include "Cursor.h" #include "Image.h" #include "Visual.h" #include "Keyboard.h" #include "Args.h" #include "Windows.h" #include "Events.h" #include "Render.h" #include "Client.h" #include "windowstr.h" #include "resource.h" #include "NXlib.h" /* * Set here the required log level. */ #define PANIC #define WARNING #undef TEST #undef DEBUG /* * Defined in Display.c. There are huge * problems mixing the GC definition in * Xlib with the server code. This must * be reworked. */ extern XlibGC nxagentBitmapGC; /* * From NXevents.c. */ extern CursorPtr GetSpriteCursor(void); void nxagentConstrainCursor(ScreenPtr pScreen, BoxPtr pBox) { #ifdef TEST int width, height; width = nxagentOption(RootWidth); height = nxagentOption(RootHeight); if (pBox->x1 <= 0 && pBox->y1 <= 0 && pBox->x2 >= width && pBox->y2 >= height) { fprintf(stderr, "nxagentConstrainCursor: Called with box [%d,%d,%d,%d]. " "Skipping the operation.\n", pBox->x1, pBox->y1, pBox->x2, pBox->y2); } else { fprintf(stderr, "nxagentConstrainCursor: WARNING! Called with box [%d,%d,%d,%d].\n", pBox->x1, pBox->y1, pBox->x2, pBox->y2); } #endif } void nxagentCursorLimits(ScreenPtr pScreen, CursorPtr pCursor, BoxPtr pHotBox, BoxPtr pTopLeftBox) { *pTopLeftBox = *pHotBox; } Bool nxagentDisplayCursor(ScreenPtr pScreen, CursorPtr pCursor) { /* * Don't define the root cursor * so that nxagent root window * inherits the parent's cursor. */ Cursor cursor; cursor = (pCursor != rootCursor) ? nxagentCursor(pCursor, pScreen): None; if (nxagentOption(Rootless) == False) { XDefineCursor(nxagentDisplay, nxagentInputWindows[pScreen -> myNum], cursor); #ifdef TEST fprintf(stderr, "nxagentDisplayCursor: Called for cursor at [%p] with private [%p].\n", (void *) pCursor, pCursor->devPriv[pScreen->myNum]); #endif } return True; } Bool nxagentRealizeCursor(ScreenPtr pScreen, CursorPtr pCursor) { XImage *image; Pixmap source, mask; XColor fg_color, bg_color; unsigned long valuemask; XGCValues values; #ifdef TEST fprintf(stderr, "nxagentRealizeCursor: Called for cursor at [%p].\n", (void *) pCursor); #endif valuemask = GCFunction | GCPlaneMask | GCForeground | GCBackground | GCClipMask; values.function = GXcopy; values.plane_mask = AllPlanes; values.foreground = 1L; values.background = 0L; values.clip_mask = None; XChangeGC(nxagentDisplay, nxagentBitmapGC, valuemask, &values); source = XCreatePixmap(nxagentDisplay, nxagentDefaultWindows[pScreen->myNum], pCursor->bits->width, pCursor->bits->height, 1); mask = XCreatePixmap(nxagentDisplay, nxagentDefaultWindows[pScreen->myNum], pCursor->bits->width, pCursor->bits->height, 1); image = XCreateImage(nxagentDisplay, nxagentDefaultVisual(pScreen), 1, XYBitmap, 0, (char *)pCursor->bits->source, pCursor->bits->width, pCursor->bits->height, BitmapPad(nxagentDisplay), 0); /* * If we used nxagentImageNormalize() here, * we'd swap our own cursor data in place. * Change byte_order and bitmap_bit_order * in the image struct to let Xlib do the * swap for us. */ image -> byte_order = IMAGE_BYTE_ORDER; image -> bitmap_bit_order = BITMAP_BIT_ORDER; NXCleanImage(image); XPutImage(nxagentDisplay, source, nxagentBitmapGC, image, 0, 0, 0, 0, pCursor->bits->width, pCursor->bits->height); XFree(image); image = XCreateImage(nxagentDisplay, nxagentDefaultVisual(pScreen), 1, XYBitmap, 0, (char *)pCursor->bits->mask, pCursor->bits->width, pCursor->bits->height, BitmapPad(nxagentDisplay), 0); image -> byte_order = IMAGE_BYTE_ORDER; image -> bitmap_bit_order = BITMAP_BIT_ORDER; NXCleanImage(image); XPutImage(nxagentDisplay, mask, nxagentBitmapGC, image, 0, 0, 0, 0, pCursor->bits->width, pCursor->bits->height); XFree(image); fg_color.red = pCursor->foreRed; fg_color.green = pCursor->foreGreen; fg_color.blue = pCursor->foreBlue; bg_color.red = pCursor->backRed; bg_color.green = pCursor->backGreen; bg_color.blue = pCursor->backBlue; pCursor->devPriv[pScreen->myNum] = (pointer) xalloc(sizeof(nxagentPrivCursor)); nxagentCursorPriv(pCursor, pScreen)->cursor = XCreatePixmapCursor(nxagentDisplay, source, mask, &fg_color, &bg_color, pCursor->bits->xhot, pCursor->bits->yhot); nxagentCursorUsesRender(pCursor, pScreen) = 0; #ifdef TEST fprintf(stderr, "nxagentRealizeCursor: Set cursor private at [%p] cursor is [%ld].\n", (void *) nxagentCursorPriv(pCursor, pScreen), nxagentCursorPriv(pCursor, pScreen) -> cursor); #endif XFreePixmap(nxagentDisplay, source); XFreePixmap(nxagentDisplay, mask); return True; } Bool nxagentUnrealizeCursor(ScreenPtr pScreen, CursorPtr pCursor) { if (nxagentCursorUsesRender(pCursor, pScreen)) { PicturePtr pPicture = nxagentCursorPicture(pCursor, pScreen); FreePicture(pPicture, pPicture -> id); } if (nxagentCursor(pCursor, pScreen) != None) { XFreeCursor(nxagentDisplay, nxagentCursor(pCursor, pScreen)); nxagentCursor(pCursor, pScreen) = None; } xfree(nxagentCursorPriv(pCursor, pScreen)); return True; } void nxagentRecolorCursor(ScreenPtr pScreen, CursorPtr pCursor, Bool displayed) { XColor fg_color, bg_color; fg_color.red = pCursor->foreRed; fg_color.green = pCursor->foreGreen; fg_color.blue = pCursor->foreBlue; bg_color.red = pCursor->backRed; bg_color.green = pCursor->backGreen; bg_color.blue = pCursor->backBlue; XRecolorCursor(nxagentDisplay, nxagentCursor(pCursor, pScreen), &fg_color, &bg_color); } Bool (*nxagentSetCursorPositionW)(ScreenPtr pScreen, int x, int y, Bool generateEvent); Bool nxagentSetCursorPosition(ScreenPtr pScreen, int x, int y, Bool generateEvent) { if (generateEvent != 0) { return (*nxagentSetCursorPositionW)(pScreen, x, y, generateEvent); } else { /* * Calling miSetCursorPosition with generateEvent == 0 * causes a crash in miPoiterUpdate(). */ return 1; } } void nxagentReconnectCursor(pointer p0, XID x1, pointer p2) { Bool* pBool = (Bool*)p2; CursorPtr pCursor = (CursorPtr) p0; AnimCurPtr ac; int j; #ifdef TEST fprintf(stderr, "nxagentReconnectCursor: pCursor at [%p]\n", pCursor); #endif #ifdef NXAGENT_RECONNECT_CURSOR_DEBUG fprintf(stderr, "nxagentReconnectCursor: pCursor at [%p]\n", pCursor); #endif if (!*pBool || !pCursor) { return; } if (nxagentCursorPriv(pCursor, nxagentDefaultScreen) == 0) { if (nxagentIsAnimCursor(pCursor)) { #ifdef TEST fprintf(stderr, "nxagentReconnectCursor: nxagentIsAnimCursor pCursor at [%p]\n", pCursor); #endif ac = nxagentGetAnimCursor(pCursor); for (j = 0; j < ac->nelt; j++) { nxagentReconnectCursor (ac->elts[j].pCursor, x1, p2); #ifdef TEST fprintf(stderr, "nxagentReconnectCursor: Iteration [%d] pCursor at [%p]\n", j, ac->elts[j].pCursor); #endif } } } else { if (nxagentCursorUsesRender(pCursor, nxagentDefaultScreen)) { PicturePtr pPicture = nxagentCursorPicture(pCursor, nxagentDefaultScreen); int ret = 1; nxagentReconnectPicture(pPicture, 0, &ret); nxagentRenderRealizeCursor(nxagentDefaultScreen, pCursor); } else { xfree(nxagentCursorPriv(pCursor, nxagentDefaultScreen)); if (!nxagentRealizeCursor(nxagentDefaultScreen, pCursor)) { fprintf(stderr, "nxagentReconnectCursor: nxagentRealizeCursor failed\n"); *pBool = False; } } } #ifdef NXAGENT_RECONNECT_CURSOR_DEBUG fprintf(stderr, "nxagentReconnectCursor: %p - ID %lx\n", pCursor, nxagentCursor(pCursor, nxagentDefaultScreen)); #endif } /* * The parameter is ignored at the moment. */ void nxagentReDisplayCurrentCursor() { CursorPtr pCursor = GetSpriteCursor(); if (pCursor && nxagentCursorPriv(pCursor, nxagentDefaultScreen) && nxagentCursor(pCursor, nxagentDefaultScreen)) { nxagentDisplayCursor(nxagentDefaultScreen, pCursor); } } Bool nxagentReconnectAllCursor(void *p0) { int i; Bool r = True; GrabPtr grab = inputInfo.pointer -> grab; #if defined(NXAGENT_RECONNECT_DEBUG) || defined(NXAGENT_RECONNECT_CURSOR_DEBUG) fprintf(stderr, "nxagentReconnectAllCursor\n"); #endif for (i = 0, r = 1; i < MAXCLIENTS; r = 1, i++) { if (clients[i]) { FindClientResourcesByType(clients[i], RT_CURSOR, nxagentReconnectCursor, &r); #ifdef WARNING if (r == False) { fprintf(stderr, "nxagentReconnectAllCursor: WARNING! Failed to recreate " "cursor for client [%d].\n", i); } #endif } } if (grab) { nxagentReconnectCursor(grab -> cursor, 0, &r); } return r; } void nxagentDisconnectCursor(pointer p0, XID x1, pointer p2) { Bool* pBool = (Bool *) p2; CursorPtr pCursor = (CursorPtr) p0; AnimCurPtr ac; int j; if (!*pBool || !pCursor) { return; } if (nxagentCursorPriv(pCursor, nxagentDefaultScreen) == 0) { if (nxagentIsAnimCursor(pCursor)) { #ifdef TEST fprintf(stderr, "nxagentDisconnectCursor: nxagentIsAnimCursor pCursor at [%p]\n", pCursor); #endif ac = nxagentGetAnimCursor(pCursor); for (j = 0; j < ac->nelt; j++) { nxagentDisconnectCursor (ac->elts[j].pCursor, x1, p2); #ifdef TEST fprintf(stderr, "nxagentDisconnectCursor: Iteration [%d] pCursor at [%p]\n", j, ac->elts[j].pCursor); #endif } } return; } #ifdef NXAGENT_RECONNECT_CURSOR_DEBUG fprintf(stderr, "nxagentDisconnectCursor: %p - ID %lx\n", pCursor, nxagentCursor(pCursor, nxagentDefaultScreen)); #endif #ifdef TEST fprintf(stderr, "nxagentDisconnectCursor: Called with bool [%d].\n", *pBool); fprintf(stderr, "nxagentDisconnectCursor: Pointer to cursor is [%p] with counter [%d].\n", (void *) pCursor, pCursor -> refcnt); fprintf(stderr, "nxagentDisconnectCursor: Dummy screen is at [%p].\n", (void *) nxagentDefaultScreen); fprintf(stderr, "nxagentDisconnectCursor: Cursor private is at [%p].\n", (void *) nxagentCursorPriv(pCursor, nxagentDefaultScreen)); #endif #ifdef TEST fprintf(stderr, "nxagentDisconnectCursor: Dummy screen number is [%d].\n", nxagentDefaultScreen -> myNum); fprintf(stderr, "nxagentDisconnectCursor: Cursor is [%ld].\n", nxagentCursor(pCursor, nxagentDefaultScreen)); #endif nxagentCursor(pCursor, nxagentDefaultScreen) = None; if (nxagentCursorUsesRender(pCursor, nxagentDefaultScreen)) { PicturePtr pPicture = nxagentCursorPicture(pCursor, nxagentDefaultScreen); int ret = 1; #if defined(NXAGENT_RECONNECT_CURSOR_DEBUG) || defined(NXAGENT_RECONNECT_PICTURE_DEBUG) fprintf(stderr, "nxagentDisconnectCursor: disconnecting attached picture %p\n", pPicture); #endif nxagentDisconnectPicture(pPicture, 0, &ret); } } Bool nxagentDisconnectAllCursor() { int i; Bool r = True; GrabPtr grab = inputInfo.pointer -> grab; #ifdef TEST fprintf(stderr, "nxagentDisconnectAllCursor: Going to iterate through cursor resources.\n"); #endif for (i = 0, r = 1; i < MAXCLIENTS; r = 1, i++) { if (clients[i]) { FindClientResourcesByType(clients[i], RT_CURSOR, nxagentDisconnectCursor, &r); #ifdef WARNING if (r == False) { fprintf(stderr, "nxagentDisconnectAllCursor: WARNING! Failed to disconnect " "cursor for client [%d].\n", i); } #endif } } if (grab) { nxagentDisconnectCursor(grab -> cursor, 0, &r); } return r; } #ifdef NXAGENT_RECONNECT_CURSOR_DEBUG void nxagentPrintCursorInfo(CursorPtr pCursor, char msg[]) { fprintf(stderr, "%s: %p - ID %lx - ref count %d\n", msg, pCursor, nxagentCursor(pCursor, nxagentDefaultScreen), pCursor->refcnt); } void nxagentListCursor(void *p0, void *p1, void *p2) { CursorPtr pCursor = (CursorPtr)p0; nxagentPrintCursorInfo(pCursor, "CursorDebug:"); } void nxagentListCursors(void) { int i; Bool r; for (i = 0, r = 1; i < MAXCLIENTS; r = 1, i++) { if (clients[i]) { FindClientResourcesByType(clients[i], RT_CURSOR, nxagentListCursor, &r); #ifdef WARNING if (r == False) { fprintf(stderr, "nxagentListCursors: WARNING! Failed to list " "cursor for client [%d].\n", i); } #endif } } return True; } #endif /* NXAGENT_RECONNECT_CURSOR_DEBUG */