/* $Xorg: CvtStdSel.c,v 1.3 2000/08/17 19:46:00 cpqbld Exp $ */ /* Copyright 1988, 1998 The Open Group All Rights Reserved. The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE OPEN GROUP BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. Except as contained in this notice, the name of The Open Group shall not be used in advertising or otherwise to promote the sale, use or other dealings in this Software without prior written authorization from The Open Group. */ /* $XFree86: xc/lib/Xmu/CvtStdSel.c,v 3.17 2001/08/23 00:03:21 dawes Exp $ */ /* * This file contains routines to handle common selection targets. * * Public entry points: * * XmuConvertStandardSelection() return a known selection */ #ifdef SYSVNET #include #define __TYPES__ /* prevent #include in Xlib.h */ #include #include #endif /* SYSVNET */ #include #include #include #ifdef XTHREADS #include #endif #include #ifndef SYSVNET #ifdef WIN32 #include #define XOS_USE_MTSAFE_NETDBAPI #else #ifndef Lynx #include #else #include #include #endif #define XOS_USE_XT_LOCKING #endif #define X_INCLUDE_NETDB_H #include #endif #include #include #include "Atoms.h" #include "StdSel.h" #include "SysUtil.h" #include #ifndef OS_NAME #ifndef X_OS_FILE #ifdef SYSV /* keep separate until makedepend fixed */ #define USE_UNAME #endif #ifdef SVR4 #define USE_UNAME #endif #ifdef ultrix #define USE_UNAME #endif #ifdef CSRG_BASED #define USE_UNAME #endif #endif /*X_OS_FILE*/ #ifdef USE_UNAME #include #endif #endif /* * Prototypes */ static char *get_os_name(void); static Bool isApplicationShell(Widget); /* * Implementation */ static char * get_os_name(void) { #ifdef OS_NAME return XtNewString(OS_NAME); #else FILE *f = NULL; #ifdef USE_UNAME struct utsname utss; if (uname (&utss) == 0) { char *os_name; int len = strlen(utss.sysname) + 1; #ifndef hpux /* because of hostname length crock */ len += 2 + strlen(utss.release); #endif os_name = XtMalloc (len); strcpy (os_name, utss.sysname); #ifndef hpux strcat (os_name, " "); strcat (os_name, utss.release); #endif return os_name; } #endif #ifdef X_OS_FILE f = fopen(X_OS_FILE, "r"); if (!f) #endif #ifdef MOTD_FILE f = fopen(MOTD_FILE, "r"); #endif if (f) { char motd[512]; motd[0] = '\0'; (void) fgets(motd, 511, f); fclose(f); motd[511] = '\0'; if (motd[0] != '\0') { int len = strlen(motd); if (motd[len - 1] == '\n') motd[len - 1] = '\0'; return XtNewString(motd); } } #ifdef sun return XtNewString("SunOS"); #else # if !defined(SYSV) && (defined(CSRG_BASED) || defined(unix)) return XtNewString("BSD"); # else return NULL; # endif #endif #endif /*OS_NAME*/ } /* This is a trick/kludge. To make shared libraries happier (linking * against Xmu but not linking against Xt, and apparently even work * as we desire on SVR4, we need to avoid an explicit data reference * to applicationShellWidgetClass. XtIsTopLevelShell is known * (implementation dependent assumption!) to use a bit flag. So we * go that far. Then, we test whether it is an applicationShellWidget * class by looking for an explicit class name. Seems pretty safe. */ static Bool isApplicationShell(Widget w) { register WidgetClass c; if (!XtIsTopLevelShell(w)) return False; for (c = XtClass(w); c; c = c->core_class.superclass) { if (!strcmp(c->core_class.class_name, "ApplicationShell")) return True; } return False; } Boolean XmuConvertStandardSelection(Widget w, Time time, Atom *selection, Atom *target, Atom *type, XPointer *value, unsigned long *length, int *format) { Display *d = XtDisplay(w); if (*target == XA_TIMESTAMP(d)) { *value = XtMalloc(4); if (sizeof(long) == 4) *(long*)*value = time; else { long temp = time; (void) memmove((char*)*value, ((char*)&temp)+sizeof(long)-4, 4); } *type = XA_INTEGER; *length = 1; *format = 32; return True; } if (*target == XA_HOSTNAME(d)) { char hostname[1024]; hostname[0] = '\0'; *length = XmuGetHostname (hostname, sizeof hostname); *value = XtNewString(hostname); *type = XA_STRING; *format = 8; return True; } #if defined(TCPCONN) if (*target == XA_IP_ADDRESS(d)) { char hostname[1024]; _Xgethostbynameparams hparams; struct hostent *hostp; hostname[0] = '\0'; (void) XmuGetHostname (hostname, sizeof hostname); if ((hostp = _XGethostbyname (hostname,hparams)) == NULL) return False; (void)hparams; if (hostp->h_addrtype != AF_INET) return False; *length = hostp->h_length; *value = XtMalloc(*length); (void) memmove (*value, hostp->h_addr, *length); *type = XA_NET_ADDRESS(d); *format = 8; return True; } #endif #ifdef DNETCONN if (*target == XA_DECNET_ADDRESS(d)) { return False; /* XXX niy */ } #endif if (*target == XA_USER(d)) { char *name = (char*)getenv("USER"); if (name == NULL) return False; *value = XtNewString(name); *type = XA_STRING; *length = strlen(name); *format = 8; return True; } if (*target == XA_CLASS(d)) { Widget parent = XtParent(w); char *class; int len; while (parent != NULL && !isApplicationShell(w)) { w = parent; parent = XtParent(w); } if (isApplicationShell(w)) class = ((ApplicationShellWidget) w)->application.class; else class = XtClass(w)->core_class.class_name; *length = (len=strlen(w->core.name)) + strlen(class) + 2; *value = XtMalloc(*length); strcpy( (char*)*value, w->core.name ); strcpy( (char*)*value+len+1, class ); *type = XA_STRING; *format = 8; return True; } if (*target == XA_NAME(d)) { Widget parent = XtParent(w); while (parent != NULL && !XtIsWMShell(w)) { w = parent; parent = XtParent(w); } if (!XtIsWMShell(w)) return False; *value = XtNewString( ((WMShellWidget) w)->wm.title ); *length = strlen(*value); *type = XA_STRING; *format = 8; return True; } if (*target == XA_CLIENT_WINDOW(d)) { Widget parent = XtParent(w); while (parent != NULL) { w = parent; parent = XtParent(w); } *value = XtMalloc(sizeof(Window)); *(Window*)*value = w->core.window; *type = XA_WINDOW; *length = 1; *format = 32; return True; } if (*target == XA_OWNER_OS(d)) { *value = get_os_name(); if (*value == NULL) return False; *type = XA_STRING; *length = strlen(*value); *format = 8; return True; } if (*target == XA_TARGETS(d)) { #if defined(unix) && defined(DNETCONN) # define NUM_TARGETS 9 #else # if defined(unix) || defined(DNETCONN) # define NUM_TARGETS 8 # else # define NUM_TARGETS 7 # endif #endif Atom* std_targets = (Atom*)XtMalloc(NUM_TARGETS*sizeof(Atom)); int i = 0; std_targets[i++] = XA_TIMESTAMP(d); std_targets[i++] = XA_HOSTNAME(d); std_targets[i++] = XA_IP_ADDRESS(d); std_targets[i++] = XA_USER(d); std_targets[i++] = XA_CLASS(d); std_targets[i++] = XA_NAME(d); std_targets[i++] = XA_CLIENT_WINDOW(d); #ifdef unix std_targets[i++] = XA_OWNER_OS(d); #endif #ifdef DNETCONN std_targets[i++] = XA_DECNET_ADDRESS(d); #endif *value = (XPointer)std_targets; *type = XA_ATOM; *length = NUM_TARGETS; *format = 32; return True; } /* else */ return False; }