/* -- win_utils.c -- */ #include "x11vnc.h" #include "xinerama.h" #include "winattr_t.h" #include "cleanup.h" #include "xwrappers.h" winattr_t *stack_list = NULL; int stack_list_len = 0; int stack_list_num = 0; Window parent_window(Window win, char **name); int valid_window(Window win, XWindowAttributes *attr_ret, int bequiet); Bool xtranslate(Window src, Window dst, int src_x, int src_y, int *dst_x, int *dst_y, Window *child, int bequiet); int get_window_size(Window win, int *x, int *y); void snapshot_stack_list(int free_only, double allowed_age); void update_stack_list(void); Window query_pointer(Window start); unsigned int mask_state(void); int pick_windowid(unsigned long *num); Window descend_pointer(int depth, Window start, char *name_info, int len); Window parent_window(Window win, char **name) { Window r, parent; Window *list; XErrorHandler old_handler; unsigned int nchild; int rc; if (name != NULL) { *name = NULL; } RAWFB_RET(None) old_handler = XSetErrorHandler(trap_xerror); trapped_xerror = 0; rc = XQueryTree(dpy, win, &r, &parent, &list, &nchild); XSetErrorHandler(old_handler); if (! rc || trapped_xerror) { trapped_xerror = 0; return None; } trapped_xerror = 0; if (list) { XFree(list); } if (parent && name) { XFetchName(dpy, parent, name); } return parent; } /* trapping utility to check for a valid window: */ int valid_window(Window win, XWindowAttributes *attr_ret, int bequiet) { XErrorHandler old_handler; XWindowAttributes attr, *pattr; int ok = 0; if (attr_ret == NULL) { pattr = &attr; } else { pattr = attr_ret; } if (win == None) { return 0; } RAWFB_RET(0) old_handler = XSetErrorHandler(trap_xerror); trapped_xerror = 0; if (XGetWindowAttributes(dpy, win, pattr)) { ok = 1; } if (trapped_xerror && trapped_xerror_event) { if (! quiet && ! bequiet) { rfbLog("valid_window: trapped XError: %s (0x%lx)\n", xerror_string(trapped_xerror_event), win); } ok = 0; } XSetErrorHandler(old_handler); trapped_xerror = 0; return ok; } Bool xtranslate(Window src, Window dst, int src_x, int src_y, int *dst_x, int *dst_y, Window *child, int bequiet) { XErrorHandler old_handler; Bool ok = False; RAWFB_RET(False) trapped_xerror = 0; old_handler = XSetErrorHandler(trap_xerror); if (XTranslateCoordinates(dpy, src, dst, src_x, src_y, dst_x, dst_y, child)) { ok = True; } if (trapped_xerror && trapped_xerror_event) { if (! quiet && ! bequiet) { rfbLog("xtranslate: trapped XError: %s (0x%lx)\n", xerror_string(trapped_xerror_event), src); } ok = False; } XSetErrorHandler(old_handler); trapped_xerror = 0; return ok; } int get_window_size(Window win, int *x, int *y) { XWindowAttributes attr; /* valid_window? */ if (valid_window(win, &attr, 1)) { *x = attr.width; *y = attr.height; return 1; } else { return 0; } } /* * For use in the -wireframe stuff, save the stacking order of the direct * children of the root window. Ideally done before we send ButtonPress * to the X server. */ void snapshot_stack_list(int free_only, double allowed_age) { static double last_snap = 0.0, last_free = 0.0; double now; int num, rc, i, j; unsigned int ui; Window r, w; Window *list; if (! stack_list) { stack_list = (winattr_t *) malloc(256*sizeof(winattr_t)); stack_list_num = 0; stack_list_len = 256; } dtime0(&now); if (free_only) { /* we really don't free it, just reset to zero windows */ stack_list_num = 0; last_free = now; return; } if (stack_list_num && now < last_snap + allowed_age) { return; } stack_list_num = 0; last_free = now; RAWFB_RET_VOID X_LOCK; /* no need to trap error since rootwin */ rc = XQueryTree(dpy, rootwin, &r, &w, &list, &ui); num = (int) ui; if (! rc) { stack_list_num = 0; last_free = now; last_snap = 0.0; X_UNLOCK; return; } last_snap = now; if (num > stack_list_len + blackouts) { int n = 2*num; free(stack_list); stack_list = (winattr_t *) malloc(n*sizeof(winattr_t)); stack_list_len = n; } j = 0; for (i=0; i 1) { fprintf(stderr, "snapshot_stack_list: num=%d len=%d\n", stack_list_num, stack_list_len); } XFree(list); X_UNLOCK; } void update_stack_list(void) { int k; double now; XWindowAttributes attr; if (! stack_list) { return; } if (! stack_list_num) { return; } dtime0(&now); X_LOCK; for (k=0; k < stack_list_num; k++) { Window win = stack_list[k].win; if (win != None && win < 10) { ; /* special, blackout */ } else if (!valid_window(win, &attr, 1)) { stack_list[k].valid = 0; } else { stack_list[k].valid = 1; stack_list[k].x = attr.x; stack_list[k].y = attr.y; stack_list[k].width = attr.width; stack_list[k].height = attr.height; stack_list[k].depth = attr.depth; stack_list[k].class = attr.class; stack_list[k].backing_store = attr.backing_store; stack_list[k].map_state = attr.map_state; /* root_x, root_y not used for stack_list usage: */ stack_list[k].rx = -1; stack_list[k].ry = -1; } stack_list[k].fetched = 1; stack_list[k].time = now; } X_UNLOCK; if (0) fprintf(stderr, "update_stack_list[%d]: %.4f %.4f\n", stack_list_num, now - x11vnc_start, dtime(&now)); } Window query_pointer(Window start) { Window r, c; int rx, ry, wx, wy; unsigned int mask; RAWFB_RET(None) if (start == None) { start = rootwin; } if (XQueryPointer(dpy, start, &r, &c, &rx, &ry, &wx, &wy, &mask)) { return c; } else { return None; } } unsigned int mask_state(void) { Window r, c; int rx, ry, wx, wy; unsigned int mask; RAWFB_RET(0) if (XQueryPointer(dpy, rootwin, &r, &c, &rx, &ry, &wx, &wy, &mask)) { return mask; } else { return 0; } } int pick_windowid(unsigned long *num) { char line[512]; int ok = 0, n = 0, msec = 10, secmax = 15; FILE *p; RAWFB_RET(0) if (use_dpy) { set_env("DISPLAY", use_dpy); } /* id */ if (no_external_cmds) { rfbLogEnable(1); rfbLog("cannot run external commands in -nocmds mode:\n"); rfbLog(" \"%s\"\n", "xwininfo"); rfbLog(" exiting.\n"); clean_up_exit(1); } p = popen("xwininfo", "r"); if (! p) { return 0; } fprintf(stderr, "\n"); fprintf(stderr, " Please select the window for x11vnc to poll\n"); fprintf(stderr, " by clicking the mouse in that window.\n"); fprintf(stderr, "\n"); while (msec * n++ < 1000 * secmax) { unsigned long tmp; char *q; fd_set set; struct timeval tv; if (screen && screen->clientHead) { /* they may be doing the pointer-pick thru vnc: */ int nfds; tv.tv_sec = 0; tv.tv_usec = msec * 1000; FD_ZERO(&set); FD_SET(fileno(p), &set); nfds = select(fileno(p)+1, &set, NULL, NULL, &tv); if (nfds == 0 || nfds < 0) { /* * select timedout or error. * note this rfbPE takes about 30ms too: */ rfbPE(-1); XFlush_wr(dpy); continue; } } if (fgets(line, 512, p) == NULL) { break; } q = strstr(line, " id: 0x"); if (q) { q += 5; if (sscanf(q, "0x%lx ", &tmp) == 1) { ok = 1; *num = tmp; fprintf(stderr, " Picked: 0x%lx\n\n", tmp); break; } } } pclose(p); return ok; } Window descend_pointer(int depth, Window start, char *name_info, int len) { Window r, c, clast = None; int i, rx, ry, wx, wy; int written = 0, filled = 0; char *store = NULL; unsigned int m; static XClassHint *classhint = NULL; static char *nm_cache = NULL; static int nm_cache_len = 0; static Window prev_start = None; RAWFB_RET(None) if (! classhint) { classhint = XAllocClassHint(); } if (! nm_cache) { nm_cache = (char *) malloc(1024); nm_cache_len = 1024; nm_cache[0] = '\0'; } if (name_info && nm_cache_len < len) { if (nm_cache) { free(nm_cache); } nm_cache_len = 2*len; nm_cache = (char *) malloc(nm_cache_len); } if (name_info) { if (start != None && start == prev_start) { store = NULL; strncpy(name_info, nm_cache, len); } else { store = name_info; name_info[0] = '\0'; } } if (start != None) { c = start; if (name_info) { prev_start = start; } } else { c = rootwin; } for (i=0; ires_name = NULL; classhint->res_class = NULL; if (XGetClassHint(dpy, clast, classhint)) { int l = 0; if (classhint->res_class) { l += strlen(classhint->res_class); } if (classhint->res_name) { l += strlen(classhint->res_name); } if (written + l+4 < len) { strcat(store, "##"); if (classhint->res_class) { strcat(store, classhint->res_class); } strcat(store, "++"); if (classhint->res_name) { strcat(store, classhint->res_name); } written += l+4; } else { filled = 1; } if (classhint->res_class) { XFree(classhint->res_class); } if (classhint->res_name) { XFree(classhint->res_name); } } } if (! XQueryPointer(dpy, c, &r, &c, &rx, &ry, &wx, &wy, &m)) { break; } if (! c) { break; } } if (start != None && name_info) { strncpy(nm_cache, name_info, nm_cache_len); } return clast; }