/* * This file is part of the KDE libraries * Copyright (c) 1999-2000 Waldo Bastian * (c) 1999 Mario Weilguni * (c) 2001 Lubos Lunak * * $Id$ * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Library General Public * License version 2 as published by the Free Software Foundation. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Library General Public License for more details. * * You should have received a copy of the GNU Library General Public License * along with this library; see the file COPYING.LIB. If not, write to * the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, * Boston, MA 02110-1301, USA. */ #include "config.h" #include #include #include #include #include #include #include #ifdef HAVE_SYS_SELECT_H #include // Needed on some systems. #endif #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #ifdef Q_OS_LINUX #include #ifndef PR_SET_NAME #define PR_SET_NAME 15 #endif #endif #if defined Q_WS_X11 && ! defined K_WS_QTONLY #include // schroder #endif #include #include "ltdl.h" #include "klauncher_cmds.h" //#if defined Q_WS_X11 && ! defined K_WS_QTONLY #ifdef Q_WS_X11 //#undef K_WS_QTONLY #include #include #endif #ifdef HAVE_DLFCN_H # include #endif #ifdef RTLD_GLOBAL # define LTDL_GLOBAL RTLD_GLOBAL #else # ifdef DL_GLOBAL # define LTDL_GLOBAL DL_GLOBAL # else # define LTDL_GLOBAL 0 # endif #endif #if defined(KDEINIT_USE_XFT) && defined(KDEINIT_USE_FONTCONFIG) #include extern "C" FcBool XftInitFtLibrary (void); #include #endif extern char **environ; extern int lt_dlopen_flag; //#if defined Q_WS_X11 && ! defined K_WS_QTONLY #ifdef Q_WS_X11 static int X11fd = -1; static Display *X11display = 0; static int X11_startup_notify_fd = -1; static Display *X11_startup_notify_display = 0; #endif static const KInstance *s_instance = 0; #define MAX_SOCK_FILE 255 static char sock_file[MAX_SOCK_FILE]; static char sock_file_old[MAX_SOCK_FILE]; //#if defined Q_WS_X11 && ! defined K_WS_QTONLY #ifdef Q_WS_X11 #define DISPLAY "DISPLAY" #elif defined(Q_WS_QWS) #define DISPLAY "QWS_DISPLAY" #elif defined(Q_WS_MACX) #define DISPLAY "MAC_DISPLAY" #elif defined(K_WS_QTONLY) #define DISPLAY "QT_DISPLAY" #else #error Use QT/X11 or QT/Embedded #endif /* Group data */ static struct { int maxname; int fd[2]; int launcher[2]; /* socket pair for launcher communication */ int deadpipe[2]; /* pipe used to detect dead children */ int initpipe[2]; int wrapper; /* socket for wrapper communication */ int wrapper_old; /* old socket for wrapper communication */ char result; int exit_status; pid_t fork; pid_t launcher_pid; pid_t my_pid; int n; lt_dlhandle handle; lt_ptr sym; char **argv; int (*func)(int, char *[]); int (*launcher_func)(int); bool debug_wait; int lt_dlopen_flag; QCString errorMsg; bool launcher_ok; bool suicide; } d; //#if defined Q_WS_X11 && ! defined K_WS_QTONLY #ifdef Q_WS_X11 extern "C" { int kdeinit_xio_errhandler( Display * ); int kdeinit_x_errhandler( Display *, XErrorEvent *err ); } #endif /* These are to link libkparts even if 'smart' linker is used */ #include extern "C" KParts::Plugin* _kinit_init_kparts() { return new KParts::Plugin(); } /* These are to link libkio even if 'smart' linker is used */ #include extern "C" KIO::AuthInfo* _kioslave_init_kio() { return new KIO::AuthInfo(); } /* * Close fd's which are only useful for the parent process. * Restore default signal handlers. */ static void close_fds() { if (d.deadpipe[0] != -1) { close(d.deadpipe[0]); d.deadpipe[0] = -1; } if (d.deadpipe[1] != -1) { close(d.deadpipe[1]); d.deadpipe[1] = -1; } if (d.initpipe[0] != -1) { close(d.initpipe[0]); d.initpipe[0] = -1; } if (d.initpipe[1] != -1) { close(d.initpipe[1]); d.initpipe[1] = -1; } if (d.launcher_pid) { close(d.launcher[0]); d.launcher_pid = 0; } if (d.wrapper) { close(d.wrapper); d.wrapper = 0; } if (d.wrapper_old) { close(d.wrapper_old); d.wrapper_old = 0; } #if defined Q_WS_X11 && ! defined K_WS_QTONLY //#ifdef Q_WS_X11 if (X11fd >= 0) { close(X11fd); X11fd = -1; } if (X11_startup_notify_fd >= 0 && X11_startup_notify_fd != X11fd ) { close(X11_startup_notify_fd); X11_startup_notify_fd = -1; } #endif signal(SIGCHLD, SIG_DFL); signal(SIGPIPE, SIG_DFL); } static void exitWithErrorMsg(const QString &errorMsg) { fprintf( stderr, "%s\n", errorMsg.local8Bit().data() ); QCString utf8ErrorMsg = errorMsg.utf8(); d.result = 3; // Error with msg write(d.fd[1], &d.result, 1); int l = utf8ErrorMsg.length(); write(d.fd[1], &l, sizeof(int)); write(d.fd[1], utf8ErrorMsg.data(), l); close(d.fd[1]); exit(255); } static void setup_tty( const char* tty ) { if( tty == NULL || *tty == '\0' ) return; int fd = open( tty, O_WRONLY ); if( fd < 0 ) { perror( "kdeinit: couldn't open() tty" ); return; } if( dup2( fd, STDOUT_FILENO ) < 0 ) { perror( "kdeinit: couldn't dup2() tty" ); close( fd ); return; } if( dup2( fd, STDERR_FILENO ) < 0 ) { perror( "kdeinit: couldn't dup2() tty" ); close( fd ); return; } close( fd ); } // from kdecore/netwm.cpp static int get_current_desktop( Display* disp ) { int desktop = 0; // no desktop by default #if defined Q_WS_X11 && ! defined K_WS_QTONLY //#ifdef Q_WS_X11 // Only X11 supports multiple desktops Atom net_current_desktop = XInternAtom( disp, "_NET_CURRENT_DESKTOP", False ); Atom type_ret; int format_ret; unsigned char *data_ret; unsigned long nitems_ret, unused; if( XGetWindowProperty( disp, DefaultRootWindow( disp ), net_current_desktop, 0l, 1l, False, XA_CARDINAL, &type_ret, &format_ret, &nitems_ret, &unused, &data_ret ) == Success) { if (type_ret == XA_CARDINAL && format_ret == 32 && nitems_ret == 1) desktop = *((long *) data_ret) + 1; if (data_ret) XFree ((char*) data_ret); } #endif return desktop; } // var has to be e.g. "DISPLAY=", i.e. with = const char* get_env_var( const char* var, int envc, const char* envs ) { if( envc > 0 ) { // get the var from envs const char* env_l = envs; int ln = strlen( var ); for (int i = 0; i < envc; i++) { if( strncmp( env_l, var, ln ) == 0 ) return env_l + ln; while(*env_l != 0) env_l++; env_l++; } } return NULL; } #if defined Q_WS_X11 && ! defined K_WS_QTONLY //#ifdef Q_WS_X11 // FIXME(E): Implement for Qt/Embedded static void init_startup_info( KStartupInfoId& id, const char* bin, int envc, const char* envs ) { const char* dpy = get_env_var( DISPLAY"=", envc, envs ); // this may be called in a child, so it can't use display open using X11display // also needed for multihead X11_startup_notify_display = XOpenDisplay( dpy ); if( X11_startup_notify_display == NULL ) return; X11_startup_notify_fd = XConnectionNumber( X11_startup_notify_display ); KStartupInfoData data; int desktop = get_current_desktop( X11_startup_notify_display ); data.setDesktop( desktop ); data.setBin( bin ); KStartupInfo::sendChangeX( X11_startup_notify_display, id, data ); XFlush( X11_startup_notify_display ); } static void complete_startup_info( KStartupInfoId& id, pid_t pid ) { if( X11_startup_notify_display == NULL ) return; if( pid == 0 ) // failure KStartupInfo::sendFinishX( X11_startup_notify_display, id ); else { KStartupInfoData data; data.addPid( pid ); data.setHostname(); KStartupInfo::sendChangeX( X11_startup_notify_display, id, data ); } XCloseDisplay( X11_startup_notify_display ); X11_startup_notify_display = NULL; X11_startup_notify_fd = -1; } #endif QCString execpath_avoid_loops( const QCString& exec, int envc, const char* envs, bool avoid_loops ) { QStringList paths; if( envc > 0 ) /* use the passed environment */ { const char* path = get_env_var( "PATH=", envc, envs ); if( path != NULL ) paths = QStringList::split( QRegExp( "[:\b]" ), path, true ); } else paths = QStringList::split( QRegExp( "[:\b]" ), getenv( "PATH" ), true ); QCString execpath = QFile::encodeName( s_instance->dirs()->findExe( exec, paths.join( QString( ":" )))); if( avoid_loops && !execpath.isEmpty()) { int pos = execpath.findRev( '/' ); QString bin_path = execpath.left( pos ); for( QStringList::Iterator it = paths.begin(); it != paths.end(); ++it ) if( ( *it ) == bin_path || ( *it ) == bin_path + '/' ) { paths.remove( it ); break; // --> } execpath = QFile::encodeName( s_instance->dirs()->findExe( exec, paths.join( QString( ":" )))); } return execpath; } #ifdef KDEINIT_OOM_PROTECT static int oom_pipe = -1; static void oom_protect_sighandler( int ) { } static void reset_oom_protect() { if( oom_pipe <= 0 ) return; struct sigaction act, oldact; act.sa_handler = oom_protect_sighandler; act.sa_flags = 0; sigemptyset( &act.sa_mask ); sigaction( SIGUSR1, &act, &oldact ); sigset_t sigs, oldsigs; sigemptyset( &sigs ); sigaddset( &sigs, SIGUSR1 ); sigprocmask( SIG_BLOCK, &sigs, &oldsigs ); pid_t pid = getpid(); if( write( oom_pipe, &pid, sizeof( pid_t )) > 0 ) { sigsuspend( &oldsigs ); // wait for the signal to come } sigprocmask( SIG_SETMASK, &oldsigs, NULL ); sigaction( SIGUSR1, &oldact, NULL ); close( oom_pipe ); oom_pipe = -1; } #else static void reset_oom_protect() { } #endif static pid_t launch(int argc, const char *_name, const char *args, const char *cwd=0, int envc=0, const char *envs=0, bool reset_env = false, const char *tty=0, bool avoid_loops = false, const char* startup_id_str = "0" ) { int launcher = 0; QCString lib; QCString name; QCString exec; if (strcmp(_name, "klauncher") == 0) { /* klauncher is launched in a special way: * It has a communication socket on LAUNCHER_FD */ if (0 > socketpair(AF_UNIX, SOCK_STREAM, 0, d.launcher)) { perror("kdeinit: socketpair() failed!\n"); exit(255); } launcher = 1; } QCString libpath; QCString execpath; if (_name[0] != '/') { /* Relative name without '.la' */ name = _name; lib = name + ".la"; exec = name; libpath = QFile::encodeName(KLibLoader::findLibrary( lib, s_instance )); execpath = execpath_avoid_loops( exec, envc, envs, avoid_loops ); } else { lib = _name; name = _name; name = name.mid( name.findRev('/') + 1); exec = _name; if (lib.right(3) == ".la") libpath = lib; else execpath = exec; } if (!args) { argc = 1; } if (0 > pipe(d.fd)) { perror("kdeinit: pipe() failed!\n"); d.result = 3; d.errorMsg = i18n("Unable to start new process.\n" "The system may have reached the maximum number of open files possible or the maximum number of open files that you are allowed to use has been reached.").utf8(); close(d.fd[0]); close(d.fd[1]); d.fork = 0; return d.fork; } #if defined Q_WS_X11 && ! defined K_WS_QTONLY //#ifdef Q_WS_X11 KStartupInfoId startup_id; startup_id.initId( startup_id_str ); if( !startup_id.none()) init_startup_info( startup_id, name, envc, envs ); #endif d.errorMsg = 0; d.fork = fork(); switch(d.fork) { case -1: perror("kdeinit: fork() failed!\n"); d.result = 3; d.errorMsg = i18n("Unable to create new process.\n" "The system may have reached the maximum number of processes possible or the maximum number of processes that you are allowed to use has been reached.").utf8(); close(d.fd[0]); close(d.fd[1]); d.fork = 0; break; case 0: /** Child **/ close(d.fd[0]); close_fds(); if (launcher) { if (d.fd[1] == LAUNCHER_FD) { d.fd[1] = dup(d.fd[1]); // Evacuate from LAUNCHER_FD } if (d.launcher[1] != LAUNCHER_FD) { dup2( d.launcher[1], LAUNCHER_FD); // Make sure the socket has fd LAUNCHER_FD close( d.launcher[1] ); } close( d.launcher[0] ); } reset_oom_protect(); if (cwd && *cwd) chdir(cwd); if( reset_env ) // KWRAPPER/SHELL { QStrList unset_envs; for( int tmp_env_count = 0; environ[tmp_env_count]; tmp_env_count++) unset_envs.append( environ[ tmp_env_count ] ); for( QStrListIterator it( unset_envs ); it.current() != NULL ; ++it ) { QCString tmp( it.current()); int pos = tmp.find( '=' ); if( pos >= 0 ) unsetenv( tmp.left( pos )); } } for (int i = 0; i < envc; i++) { putenv((char *)envs); while(*envs != 0) envs++; envs++; } #if defined Q_WS_X11 && ! defined K_WS_QTONLY //#ifdef Q_WS_X11 if( startup_id.none()) KStartupInfo::resetStartupEnv(); else startup_id.setupStartupEnv(); #endif { int r; QCString procTitle; d.argv = (char **) malloc(sizeof(char *) * (argc+1)); d.argv[0] = (char *) _name; for (int i = 1; i < argc; i++) { d.argv[i] = (char *) args; procTitle += " "; procTitle += (char *) args; while(*args != 0) args++; args++; } d.argv[argc] = 0; /** Give the process a new name **/ #ifdef Q_OS_LINUX /* set the process name, so that killall works like intended */ r = prctl(PR_SET_NAME, (unsigned long) name.data(), 0, 0, 0); if ( r == 0 ) kdeinit_setproctitle( "%s [kdeinit]%s", name.data(), procTitle.data() ? procTitle.data() : "" ); else kdeinit_setproctitle( "kdeinit: %s%s", name.data(), procTitle.data() ? procTitle.data() : "" ); #else kdeinit_setproctitle( "kdeinit: %s%s", name.data(), procTitle.data() ? procTitle.data() : "" ); #endif } d.handle = 0; if (libpath.isEmpty() && execpath.isEmpty()) { QString errorMsg = i18n("Could not find '%1' executable.").arg(QFile::decodeName(_name)); exitWithErrorMsg(errorMsg); } if ( getenv("KDE_IS_PRELINKED") && !execpath.isEmpty() && !launcher) libpath.truncate(0); if ( !libpath.isEmpty() ) { d.handle = lt_dlopen( QFile::encodeName(libpath) ); if (!d.handle ) { const char * ltdlError = lt_dlerror(); if (execpath.isEmpty()) { // Error QString errorMsg = i18n("Could not open library '%1'.\n%2").arg(QFile::decodeName(libpath)) .arg(ltdlError ? QFile::decodeName(ltdlError) : i18n("Unknown error")); exitWithErrorMsg(errorMsg); } else { // Print warning fprintf(stderr, "Could not open library %s: %s\n", lib.data(), ltdlError != 0 ? ltdlError : "(null)" ); } } } lt_dlopen_flag = d.lt_dlopen_flag; if (!d.handle ) { d.result = 2; // Try execing write(d.fd[1], &d.result, 1); // We set the close on exec flag. // Closing of d.fd[1] indicates that the execvp succeeded! fcntl(d.fd[1], F_SETFD, FD_CLOEXEC); setup_tty( tty ); execvp(execpath.data(), d.argv); d.result = 1; // Error write(d.fd[1], &d.result, 1); close(d.fd[1]); exit(255); } d.sym = lt_dlsym( d.handle, "kdeinitmain"); if (!d.sym ) { d.sym = lt_dlsym( d.handle, "kdemain" ); if ( !d.sym ) { #if ! KDE_IS_VERSION( 3, 90, 0 ) d.sym = lt_dlsym( d.handle, "main"); #endif if (!d.sym ) { const char * ltdlError = lt_dlerror(); fprintf(stderr, "Could not find kdemain: %s\n", ltdlError != 0 ? ltdlError : "(null)" ); QString errorMsg = i18n("Could not find 'kdemain' in '%1'.\n%2").arg(libpath) .arg(ltdlError ? QFile::decodeName(ltdlError) : i18n("Unknown error")); exitWithErrorMsg(errorMsg); } } } d.result = 0; // Success write(d.fd[1], &d.result, 1); close(d.fd[1]); d.func = (int (*)(int, char *[])) d.sym; if (d.debug_wait) { fprintf(stderr, "kdeinit: Suspending process\n" "kdeinit: 'gdb kdeinit %d' to debug\n" "kdeinit: 'kill -SIGCONT %d' to continue\n", getpid(), getpid()); kill(getpid(), SIGSTOP); } else { setup_tty( tty ); } exit( d.func(argc, d.argv)); /* Launch! */ break; default: /** Parent **/ close(d.fd[1]); if (launcher) { close(d.launcher[1]); d.launcher_pid = d.fork; } bool exec = false; for(;;) { d.n = read(d.fd[0], &d.result, 1); if (d.n == 1) { if (d.result == 2) { #ifndef NDEBUG fprintf(stderr, "Could not load library! Trying exec....\n"); #endif exec = true; continue; } if (d.result == 3) { int l = 0; d.n = read(d.fd[0], &l, sizeof(int)); if (d.n == sizeof(int)) { QCString tmp; tmp.resize(l+1); d.n = read(d.fd[0], tmp.data(), l); tmp[l] = 0; if (d.n == l) d.errorMsg = tmp; } } // Finished break; } if (d.n == -1) { if (errno == ECHILD) { // a child died. continue; } if (errno == EINTR || errno == EAGAIN) { // interrupted or more to read continue; } } if (exec) { d.result = 0; break; } if (d.n == 0) { perror("kdeinit: Pipe closed unexpectedly"); d.result = 1; // Error break; } perror("kdeinit: Error reading from pipe"); d.result = 1; // Error break; } close(d.fd[0]); if (launcher && (d.result == 0)) { // Trader launched successful d.launcher_pid = d.fork; } } #if defined Q_WS_X11 && ! defined K_WS_QTONLY //#ifdef Q_WS_X11 if( !startup_id.none()) { if( d.fork && d.result == 0 ) // launched successfully complete_startup_info( startup_id, d.fork ); else // failure, cancel ASN complete_startup_info( startup_id, 0 ); } #endif return d.fork; } static void sig_child_handler(int) { /* * Write into the pipe of death. * This way we are sure that we return from the select() * * A signal itself causes select to return as well, but * this creates a race-condition in case the signal arrives * just before we enter the select. */ char c = 0; write(d.deadpipe[1], &c, 1); } static void init_signals() { struct sigaction act; long options; if (pipe(d.deadpipe) != 0) { perror("kdeinit: Aborting. Can't create pipe: "); exit(255); } options = fcntl(d.deadpipe[0], F_GETFL); if (options == -1) { perror("kdeinit: Aborting. Can't make pipe non-blocking: "); exit(255); } if (fcntl(d.deadpipe[0], F_SETFL, options | O_NONBLOCK) == -1) { perror("kdeinit: Aborting. Can't make pipe non-blocking: "); exit(255); } /* * A SIGCHLD handler is installed which sends a byte into the * pipe of death. This is to ensure that a dying child causes * an exit from select(). */ act.sa_handler=sig_child_handler; sigemptyset(&(act.sa_mask)); sigaddset(&(act.sa_mask), SIGCHLD); sigprocmask(SIG_UNBLOCK, &(act.sa_mask), 0L); act.sa_flags = SA_NOCLDSTOP; // CC: take care of SunOS which automatically restarts interrupted system // calls (and thus does not have SA_RESTART) #ifdef SA_RESTART act.sa_flags |= SA_RESTART; #endif sigaction( SIGCHLD, &act, 0L); act.sa_handler=SIG_IGN; sigemptyset(&(act.sa_mask)); sigaddset(&(act.sa_mask), SIGPIPE); sigprocmask(SIG_UNBLOCK, &(act.sa_mask), 0L); act.sa_flags = 0; sigaction( SIGPIPE, &act, 0L); } static void init_kdeinit_socket() { struct sockaddr_un sa; struct sockaddr_un sa_old; kde_socklen_t socklen; long options; const char *home_dir = getenv("HOME"); int max_tries = 10; if (!home_dir || !home_dir[0]) { fprintf(stderr, "kdeinit: Aborting. $HOME not set!"); exit(255); } chdir(home_dir); { QCString path = home_dir; QCString readOnly = getenv("KDE_HOME_READONLY"); if (access(path.data(), R_OK|W_OK)) { if (errno == ENOENT) { fprintf(stderr, "kdeinit: Aborting. $HOME directory (%s) does not exist.\n", path.data()); exit(255); } else if (readOnly.isEmpty()) { fprintf(stderr, "kdeinit: Aborting. No write access to $HOME directory (%s).\n", path.data()); exit(255); } } path = getenv("ICEAUTHORITY"); if (path.isEmpty()) { path = home_dir; path += "/.ICEauthority"; } if (access(path.data(), R_OK|W_OK) && (errno != ENOENT)) { fprintf(stderr, "kdeinit: Aborting. No write access to '%s'.\n", path.data()); exit(255); } } /** Test if socket file is already present * note that access() resolves symlinks, and so we check the actual * socket file if it exists */ if (access(sock_file, W_OK) == 0) { int s; struct sockaddr_un server; // fprintf(stderr, "kdeinit: Warning, socket_file already exists!\n"); /* * create the socket stream */ s = socket(PF_UNIX, SOCK_STREAM, 0); if (s < 0) { perror("socket() failed: "); exit(255); } server.sun_family = AF_UNIX; strcpy(server.sun_path, sock_file); socklen = sizeof(server); if(connect(s, (struct sockaddr *)&server, socklen) == 0) { fprintf(stderr, "kdeinit: Shutting down running client.\n"); klauncher_header request_header; request_header.cmd = LAUNCHER_TERMINATE_KDEINIT; request_header.arg_length = 0; write(s, &request_header, sizeof(request_header)); sleep(1); // Give it some time } close(s); } /** Delete any stale socket file (and symlink) **/ unlink(sock_file); unlink(sock_file_old); /** create socket **/ d.wrapper = socket(PF_UNIX, SOCK_STREAM, 0); if (d.wrapper < 0) { perror("kdeinit: Aborting. socket() failed: "); exit(255); } options = fcntl(d.wrapper, F_GETFL); if (options == -1) { perror("kdeinit: Aborting. Can't make socket non-blocking: "); close(d.wrapper); exit(255); } if (fcntl(d.wrapper, F_SETFL, options | O_NONBLOCK) == -1) { perror("kdeinit: Aborting. Can't make socket non-blocking: "); close(d.wrapper); exit(255); } while (1) { /** bind it **/ socklen = sizeof(sa); memset(&sa, 0, socklen); sa.sun_family = AF_UNIX; strcpy(sa.sun_path, sock_file); if(bind(d.wrapper, (struct sockaddr *)&sa, socklen) != 0) { if (max_tries == 0) { perror("kdeinit: Aborting. bind() failed: "); fprintf(stderr, "Could not bind to socket '%s'\n", sock_file); close(d.wrapper); exit(255); } max_tries--; } else break; } /** set permissions **/ if (chmod(sock_file, 0600) != 0) { perror("kdeinit: Aborting. Can't set permissions on socket: "); fprintf(stderr, "Wrong permissions of socket '%s'\n", sock_file); unlink(sock_file); close(d.wrapper); exit(255); } if(listen(d.wrapper, SOMAXCONN) < 0) { perror("kdeinit: Aborting. listen() failed: "); unlink(sock_file); close(d.wrapper); exit(255); } /** create compatibility socket **/ d.wrapper_old = socket(PF_UNIX, SOCK_STREAM, 0); if (d.wrapper_old < 0) { // perror("kdeinit: Aborting. socket() failed: "); return; } options = fcntl(d.wrapper_old, F_GETFL); if (options == -1) { // perror("kdeinit: Aborting. Can't make socket non-blocking: "); close(d.wrapper_old); d.wrapper_old = 0; return; } if (fcntl(d.wrapper_old, F_SETFL, options | O_NONBLOCK) == -1) { // perror("kdeinit: Aborting. Can't make socket non-blocking: "); close(d.wrapper_old); d.wrapper_old = 0; return; } max_tries = 10; while (1) { /** bind it **/ socklen = sizeof(sa_old); memset(&sa_old, 0, socklen); sa_old.sun_family = AF_UNIX; strcpy(sa_old.sun_path, sock_file_old); if(bind(d.wrapper_old, (struct sockaddr *)&sa_old, socklen) != 0) { if (max_tries == 0) { // perror("kdeinit: Aborting. bind() failed: "); fprintf(stderr, "Could not bind to socket '%s'\n", sock_file_old); close(d.wrapper_old); d.wrapper_old = 0; return; } max_tries--; } else break; } /** set permissions **/ if (chmod(sock_file_old, 0600) != 0) { fprintf(stderr, "Wrong permissions of socket '%s'\n", sock_file); unlink(sock_file_old); close(d.wrapper_old); d.wrapper_old = 0; return; } if(listen(d.wrapper_old, SOMAXCONN) < 0) { // perror("kdeinit: Aborting. listen() failed: "); unlink(sock_file_old); close(d.wrapper_old); d.wrapper_old = 0; } } /* * Read 'len' bytes from 'sock' into buffer. * returns 0 on success, -1 on failure. */ static int read_socket(int sock, char *buffer, int len) { ssize_t result; int bytes_left = len; while ( bytes_left > 0) { result = read(sock, buffer, bytes_left); if (result > 0) { buffer += result; bytes_left -= result; } else if (result == 0) return -1; else if ((result == -1) && (errno != EINTR) && (errno != EAGAIN)) return -1; } return 0; } static void WaitPid( pid_t waitForPid) { int result; while(1) { result = waitpid(waitForPid, &d.exit_status, 0); if ((result == -1) && (errno == ECHILD)) return; } } static void launcher_died() { if (!d.launcher_ok) { /* This is bad. */ fprintf(stderr, "kdeinit: Communication error with launcher. Exiting!\n"); ::exit(255); return; } // KLauncher died... restart #ifndef NDEBUG fprintf(stderr, "kdeinit: KLauncher died unexpectedly.\n"); #endif // Make sure it's really dead. if (d.launcher_pid) { kill(d.launcher_pid, SIGKILL); sleep(1); // Give it some time } d.launcher_ok = false; d.launcher_pid = 0; close(d.launcher[0]); d.launcher[0] = -1; pid_t pid = launch( 1, "klauncher", 0 ); #ifndef NDEBUG fprintf(stderr, "kdeinit: Relaunching KLauncher, pid = %ld result = %d\n", (long) pid, d.result); #endif } static void handle_launcher_request(int sock = -1) { bool launcher = false; if (sock < 0) { sock = d.launcher[0]; launcher = true; } klauncher_header request_header; char *request_data = 0L; int result = read_socket(sock, (char *) &request_header, sizeof(request_header)); if (result != 0) { if (launcher) launcher_died(); return; } if ( request_header.arg_length != 0 ) { request_data = (char *) malloc(request_header.arg_length); result = read_socket(sock, request_data, request_header.arg_length); if (result != 0) { if (launcher) launcher_died(); free(request_data); return; } } if (request_header.cmd == LAUNCHER_OK) { d.launcher_ok = true; } else if (request_header.arg_length && ((request_header.cmd == LAUNCHER_EXEC) || (request_header.cmd == LAUNCHER_EXT_EXEC) || (request_header.cmd == LAUNCHER_SHELL ) || (request_header.cmd == LAUNCHER_KWRAPPER) || (request_header.cmd == LAUNCHER_EXEC_NEW))) { pid_t pid; klauncher_header response_header; long response_data; long l; memcpy( &l, request_data, sizeof( long )); int argc = l; const char *name = request_data + sizeof(long); const char *args = name + strlen(name) + 1; const char *cwd = 0; int envc = 0; const char *envs = 0; const char *tty = 0; int avoid_loops = 0; const char *startup_id_str = "0"; #ifndef NDEBUG fprintf(stderr, "kdeinit: Got %s '%s' from %s.\n", (request_header.cmd == LAUNCHER_EXEC ? "EXEC" : (request_header.cmd == LAUNCHER_EXT_EXEC ? "EXT_EXEC" : (request_header.cmd == LAUNCHER_EXEC_NEW ? "EXEC_NEW" : (request_header.cmd == LAUNCHER_SHELL ? "SHELL" : "KWRAPPER" )))), name, launcher ? "launcher" : "socket" ); #endif const char *arg_n = args; for(int i = 1; i < argc; i++) { arg_n = arg_n + strlen(arg_n) + 1; } if( request_header.cmd == LAUNCHER_SHELL || request_header.cmd == LAUNCHER_KWRAPPER ) { // Shell or kwrapper cwd = arg_n; arg_n += strlen(cwd) + 1; } if( request_header.cmd == LAUNCHER_SHELL || request_header.cmd == LAUNCHER_KWRAPPER || request_header.cmd == LAUNCHER_EXT_EXEC || request_header.cmd == LAUNCHER_EXEC_NEW ) { memcpy( &l, arg_n, sizeof( long )); envc = l; arg_n += sizeof(long); envs = arg_n; for(int i = 0; i < envc; i++) { arg_n = arg_n + strlen(arg_n) + 1; } if( request_header.cmd == LAUNCHER_KWRAPPER ) { tty = arg_n; arg_n += strlen( tty ) + 1; } } if( request_header.cmd == LAUNCHER_SHELL || request_header.cmd == LAUNCHER_KWRAPPER || request_header.cmd == LAUNCHER_EXT_EXEC || request_header.cmd == LAUNCHER_EXEC_NEW ) { memcpy( &l, arg_n, sizeof( long )); avoid_loops = l; arg_n += sizeof( long ); } if( request_header.cmd == LAUNCHER_SHELL || request_header.cmd == LAUNCHER_KWRAPPER || request_header.cmd == LAUNCHER_EXT_EXEC ) { startup_id_str = arg_n; arg_n += strlen( startup_id_str ) + 1; } if ((request_header.arg_length > (arg_n - request_data)) && (request_header.cmd == LAUNCHER_EXT_EXEC || request_header.cmd == LAUNCHER_EXEC_NEW )) { // Optional cwd cwd = arg_n; arg_n += strlen(cwd) + 1; } if ((arg_n - request_data) != request_header.arg_length) { #ifndef NDEBUG fprintf(stderr, "kdeinit: EXEC request has invalid format.\n"); #endif free(request_data); d.debug_wait = false; return; } // support for the old a bit broken way of setting DISPLAY for multihead QCString olddisplay = getenv(DISPLAY); QCString kdedisplay = getenv("KDE_DISPLAY"); bool reset_display = (! olddisplay.isEmpty() && ! kdedisplay.isEmpty() && olddisplay != kdedisplay); if (reset_display) setenv(DISPLAY, kdedisplay, true); pid = launch( argc, name, args, cwd, envc, envs, request_header.cmd == LAUNCHER_SHELL || request_header.cmd == LAUNCHER_KWRAPPER, tty, avoid_loops, startup_id_str ); if (reset_display) { unsetenv("KDE_DISPLAY"); setenv(DISPLAY, olddisplay, true); } if (pid && (d.result == 0)) { response_header.cmd = LAUNCHER_OK; response_header.arg_length = sizeof(response_data); response_data = pid; write(sock, &response_header, sizeof(response_header)); write(sock, &response_data, response_header.arg_length); } else { int l = d.errorMsg.length(); if (l) l++; // Include trailing null. response_header.cmd = LAUNCHER_ERROR; response_header.arg_length = l; write(sock, &response_header, sizeof(response_header)); if (l) write(sock, d.errorMsg.data(), l); } d.debug_wait = false; } else if (request_header.arg_length && request_header.cmd == LAUNCHER_SETENV) { const char *env_name; const char *env_value; env_name = request_data; env_value = env_name + strlen(env_name) + 1; #ifndef NDEBUG if (launcher) fprintf(stderr, "kdeinit: Got SETENV '%s=%s' from klauncher.\n", env_name, env_value); else fprintf(stderr, "kdeinit: Got SETENV '%s=%s' from socket.\n", env_name, env_value); #endif if ( request_header.arg_length != (int) (strlen(env_name) + strlen(env_value) + 2)) { #ifndef NDEBUG fprintf(stderr, "kdeinit: SETENV request has invalid format.\n"); #endif free(request_data); return; } setenv( env_name, env_value, 1); } else if (request_header.cmd == LAUNCHER_TERMINATE_KDE) { #ifndef NDEBUG fprintf(stderr,"kdeinit: terminate KDE.\n"); #endif #ifdef Q_WS_X11 kdeinit_xio_errhandler( 0L ); #endif } else if (request_header.cmd == LAUNCHER_TERMINATE_KDEINIT) { #ifndef NDEBUG fprintf(stderr,"kdeinit: Killing kdeinit/klauncher.\n"); #endif if (d.launcher_pid) kill(d.launcher_pid, SIGTERM); if (d.my_pid) kill(d.my_pid, SIGTERM); } else if (request_header.cmd == LAUNCHER_DEBUG_WAIT) { #ifndef NDEBUG fprintf(stderr,"kdeinit: Debug wait activated.\n"); #endif d.debug_wait = true; } if (request_data) free(request_data); } static void handle_requests(pid_t waitForPid) { int max_sock = d.wrapper; if (d.wrapper_old > max_sock) max_sock = d.wrapper_old; if (d.launcher_pid && (d.launcher[0] > max_sock)) max_sock = d.launcher[0]; #if defined Q_WS_X11 && ! defined K_WS_QTONLY //#ifdef _WS_X11 if (X11fd > max_sock) max_sock = X11fd; #endif max_sock++; while(1) { fd_set rd_set; fd_set wr_set; fd_set e_set; int result; pid_t exit_pid; char c; /* Flush the pipe of death */ while( read(d.deadpipe[0], &c, 1) == 1); /* Handle dying children */ do { exit_pid = waitpid(-1, 0, WNOHANG); if (exit_pid > 0) { #ifndef NDEBUG fprintf(stderr, "kdeinit: PID %ld terminated.\n", (long) exit_pid); #endif if (waitForPid && (exit_pid == waitForPid)) return; if (d.launcher_pid) { // TODO send process died message klauncher_header request_header; long request_data[2]; request_header.cmd = LAUNCHER_DIED; request_header.arg_length = sizeof(long) * 2; request_data[0] = exit_pid; request_data[1] = 0; /* not implemented yet */ write(d.launcher[0], &request_header, sizeof(request_header)); write(d.launcher[0], request_data, request_header.arg_length); } } } while( exit_pid > 0); FD_ZERO(&rd_set); FD_ZERO(&wr_set); FD_ZERO(&e_set); if (d.launcher_pid) { FD_SET(d.launcher[0], &rd_set); } FD_SET(d.wrapper, &rd_set); if (d.wrapper_old) { FD_SET(d.wrapper_old, &rd_set); } FD_SET(d.deadpipe[0], &rd_set); #if defined Q_WS_X11 && ! defined K_WS_QTONLY //#ifdef Q_WS_X11 if(X11fd >= 0) FD_SET(X11fd, &rd_set); #endif result = select(max_sock, &rd_set, &wr_set, &e_set, 0); /* Handle wrapper request */ if ((result > 0) && (FD_ISSET(d.wrapper, &rd_set))) { struct sockaddr_un client; kde_socklen_t sClient = sizeof(client); int sock = accept(d.wrapper, (struct sockaddr *)&client, &sClient); if (sock >= 0) { #if defined(KDEINIT_USE_XFT) && defined(KDEINIT_USE_FONTCONFIG) if( FcGetVersion() < 20390 && !FcConfigUptoDate(NULL)) FcInitReinitialize(); #endif if (fork() == 0) { close_fds(); reset_oom_protect(); handle_launcher_request(sock); exit(255); /* Terminate process. */ } close(sock); } } if ((result > 0) && (FD_ISSET(d.wrapper_old, &rd_set))) { struct sockaddr_un client; kde_socklen_t sClient = sizeof(client); int sock = accept(d.wrapper_old, (struct sockaddr *)&client, &sClient); if (sock >= 0) { #if defined(KDEINIT_USE_XFT) && defined(KDEINIT_USE_FONTCONFIG) if( FcGetVersion() < 20390 && !FcConfigUptoDate(NULL)) FcInitReinitialize(); #endif if (fork() == 0) { close_fds(); reset_oom_protect(); handle_launcher_request(sock); exit(255); /* Terminate process. */ } close(sock); } } /* Handle launcher request */ if ((result > 0) && (d.launcher_pid) && (FD_ISSET(d.launcher[0], &rd_set))) { handle_launcher_request(); if (waitForPid == d.launcher_pid) return; } //#if defined Q_WS_X11 && ! defined K_WS_QTONLY #ifdef Q_WS_X11 /* Look for incoming X11 events */ if((result > 0) && (X11fd >= 0)) { if(FD_ISSET(X11fd,&rd_set)) { if (X11display != 0) { XEvent event_return; while (XPending(X11display)) XNextEvent(X11display, &event_return); } } } #endif } } static void kdeinit_library_path() { QStringList ltdl_library_path = QStringList::split(':', QFile::decodeName(getenv("LTDL_LIBRARY_PATH"))); QStringList ld_library_path = QStringList::split(':', QFile::decodeName(getenv("LD_LIBRARY_PATH"))); QCString extra_path; QStringList candidates = s_instance->dirs()->resourceDirs("lib"); for (QStringList::ConstIterator it = candidates.begin(); it != candidates.end(); it++) { QString d = *it; if (ltdl_library_path.contains(d)) continue; if (ld_library_path.contains(d)) continue; if (d[d.length()-1] == '/') { d.truncate(d.length()-1); if (ltdl_library_path.contains(d)) continue; if (ld_library_path.contains(d)) continue; } if ((d == "/lib") || (d == "/usr/lib")) continue; QCString dir = QFile::encodeName(d); if (access(dir, R_OK)) continue; if ( !extra_path.isEmpty()) extra_path += ":"; extra_path += dir; } if (lt_dlinit()) { const char * ltdlError = lt_dlerror(); fprintf(stderr, "can't initialize dynamic loading: %s\n", ltdlError != 0 ? ltdlError : "(null)" ); } if (!extra_path.isEmpty()) lt_dlsetsearchpath(extra_path.data()); QCString display = getenv(DISPLAY); if (display.isEmpty()) { fprintf(stderr, "kdeinit: Aborting. $"DISPLAY" is not set.\n"); exit(255); } int i; if((i = display.findRev('.')) > display.findRev(':') && i >= 0) display.truncate(i); QCString socketName = QFile::encodeName(locateLocal("socket", QString("kdeinit-%1").arg(display), s_instance)); if (socketName.length() >= MAX_SOCK_FILE) { fprintf(stderr, "kdeinit: Aborting. Socket name will be too long:\n"); fprintf(stderr, " '%s'\n", socketName.data()); exit(255); } strcpy(sock_file_old, socketName.data()); display.replace(":","_"); socketName = QFile::encodeName(locateLocal("socket", QString("kdeinit_%1").arg(display), s_instance)); if (socketName.length() >= MAX_SOCK_FILE) { fprintf(stderr, "kdeinit: Aborting. Socket name will be too long:\n"); fprintf(stderr, " '%s'\n", socketName.data()); exit(255); } strcpy(sock_file, socketName.data()); } int kdeinit_xio_errhandler( Display *disp ) { // disp is 0L when KDE shuts down. We don't want those warnings then. if ( disp ) qWarning( "kdeinit: Fatal IO error: client killed" ); if (sock_file[0]) { /** Delete any stale socket file **/ unlink(sock_file); } if (sock_file_old[0]) { /** Delete any stale socket file **/ unlink(sock_file_old); } // Don't kill our children in suicide mode, they may still be in use if (d.suicide) { if (d.launcher_pid) kill(d.launcher_pid, SIGTERM); exit( 0 ); } if ( disp ) qWarning( "kdeinit: sending SIGHUP to children." ); /* this should remove all children we started */ signal(SIGHUP, SIG_IGN); kill(0, SIGHUP); sleep(2); if ( disp ) qWarning( "kdeinit: sending SIGTERM to children." ); /* and if they don't listen to us, this should work */ signal(SIGTERM, SIG_IGN); kill(0, SIGTERM); if ( disp ) qWarning( "kdeinit: Exit." ); exit( 0 ); return 0; } #ifdef Q_WS_X11 int kdeinit_x_errhandler( Display *dpy, XErrorEvent *err ) { #ifndef NDEBUG char errstr[256]; // kdeinit almost doesn't use X, and therefore there shouldn't be any X error XGetErrorText( dpy, err->error_code, errstr, 256 ); fprintf(stderr, "kdeinit: KDE detected X Error: %s %d\n" " Major opcode: %d\n" " Minor opcode: %d\n" " Resource id: 0x%lx\n", errstr, err->error_code, err->request_code, err->minor_code, err->resourceid ); #else Q_UNUSED(dpy); Q_UNUSED(err); #endif return 0; } #endif //#if defined Q_WS_X11 && ! defined K_WS_QTONLY #ifdef Q_WS_X11 // needs to be done sooner than initXconnection() because of also opening // another X connection for startup notification purposes static void setupX() { XSetIOErrorHandler(kdeinit_xio_errhandler); XSetErrorHandler(kdeinit_x_errhandler); } // Borrowed from kdebase/kaudio/kaudioserver.cpp static int initXconnection() { X11display = XOpenDisplay(NULL); if ( X11display != 0 ) { XCreateSimpleWindow(X11display, DefaultRootWindow(X11display), 0,0,1,1, \ 0, BlackPixelOfScreen(DefaultScreenOfDisplay(X11display)), BlackPixelOfScreen(DefaultScreenOfDisplay(X11display)) ); #ifndef NDEBUG fprintf(stderr, "kdeinit: opened connection to %s\n", DisplayString(X11display)); #endif int fd = XConnectionNumber( X11display ); int on = 1; (void) setsockopt(fd, SOL_SOCKET, SO_KEEPALIVE, (char *) &on, (int) sizeof(on)); return fd; } else fprintf(stderr, "kdeinit: Can't connect to the X Server.\n" \ "kdeinit: Might not terminate at end of session.\n"); return -1; } #endif #ifdef __KCC /* One of my horrible hacks. KCC includes in each "main" function a call to _main(), which is provided by the C++ runtime system. It is responsible for calling constructors for some static objects. That must be done only once, so _main() is guarded against multiple calls. For unknown reasons the designers of KAI's libKCC decided it would be a good idea to actually abort() when it's called multiple times, instead of ignoring further calls. This breaks our mechanism of KLM's, because most KLM's have a main() function which is called from us. The "solution" is to simply define our own _main(), which ignores multiple calls, which is easy, and which does the same work as KAI'c _main(), which is difficult. Currently (KAI 4.0f) it only calls __call_ctors(void) (a C++ function), but if that changes we need to change our's too. (matz) */ /* Those 'unknown reasons' are C++ standard forbidding recursive calls to main() or any means that would possibly allow that (e.g. taking address of main()). The correct solution is not using main() as entry point for kdeinit modules, but only kdemain(). */ extern "C" void _main(void); extern "C" void __call_ctors__Fv(void); static int main_called = 0; void _main(void) { if (main_called) return; main_called = 1; __call_ctors__Fv (); } #endif static void secondary_child_handler(int) { waitpid(-1, 0, WNOHANG); } int main(int argc, char **argv, char **envp) { int i; pid_t pid; int launch_dcop = 1; int launch_klauncher = 1; int launch_kded = 1; int keep_running = 1; int new_startup = 0; d.suicide = false; /** Save arguments first... **/ char **safe_argv = (char **) malloc( sizeof(char *) * argc); for(i = 0; i < argc; i++) { safe_argv[i] = strcpy((char*)malloc(strlen(argv[i])+1), argv[i]); if (strcmp(safe_argv[i], "--no-dcop") == 0) launch_dcop = 0; if (strcmp(safe_argv[i], "--no-klauncher") == 0) launch_klauncher = 0; if (strcmp(safe_argv[i], "--no-kded") == 0) launch_kded = 0; if (strcmp(safe_argv[i], "--suicide") == 0) d.suicide = true; if (strcmp(safe_argv[i], "--exit") == 0) keep_running = 0; if (strcmp(safe_argv[i], "--new-startup") == 0) new_startup = 1; #ifdef KDEINIT_OOM_PROTECT if (strcmp(safe_argv[i], "--oom-pipe") == 0 && i+1 0) // Go into background { close(d.initpipe[1]); d.initpipe[1] = -1; // wait till init is complete char c; while( read(d.initpipe[0], &c, 1) < 0); // then exit; close(d.initpipe[0]); d.initpipe[0] = -1; return 0; } close(d.initpipe[0]); d.initpipe[0] = -1; d.my_pid = getpid(); /** Make process group leader (for shutting down children later) **/ if(keep_running) setsid(); /** Create our instance **/ s_instance = new KInstance("kdeinit"); /** Prepare to change process name **/ kdeinit_initsetproctitle(argc, argv, envp); kdeinit_library_path(); // Don't make our instance the global instance // (do it only after kdeinit_library_path, that one indirectly uses KConfig, // which seems to be buggy and always use KGlobal instead of the maching KInstance) KGlobal::_instance = 0L; // don't change envvars before kdeinit_initsetproctitle() unsetenv("LD_BIND_NOW"); unsetenv("DYLD_BIND_AT_LAUNCH"); KApplication::loadedByKdeinit = true; d.maxname = strlen(argv[0]); d.launcher_pid = 0; d.wrapper = 0; d.wrapper_old = 0; d.debug_wait = false; d.launcher_ok = false; d.lt_dlopen_flag = lt_dlopen_flag; lt_dlopen_flag |= LTDL_GLOBAL; init_signals(); #ifdef Q_WS_X11 setupX(); #endif if (keep_running) { /* * Create ~/.kde/tmp-/kdeinit- socket for incoming wrapper * requests. */ init_kdeinit_socket(); } if (launch_dcop) { if (d.suicide) pid = launch( 3, "dcopserver", "--nosid\0--suicide" ); else pid = launch( 2, "dcopserver", "--nosid" ); #ifndef NDEBUG fprintf(stderr, "kdeinit: Launched DCOPServer, pid = %ld result = %d\n", (long) pid, d.result); #endif WaitPid(pid); if (!WIFEXITED(d.exit_status) || (WEXITSTATUS(d.exit_status) != 0)) { fprintf(stderr, "kdeinit: DCOPServer could not be started, aborting.\n"); exit(1); } } #ifndef __CYGWIN__ if (!d.suicide && !getenv("KDE_IS_PRELINKED")) { QString konq = locate("lib", "libkonq.la", s_instance); if (!konq.isEmpty()) (void) lt_dlopen(QFile::encodeName(konq).data()); } #endif if (launch_klauncher) { if( new_startup ) pid = launch( 2, "klauncher", "--new-startup" ); else pid = launch( 1, "klauncher", 0 ); #ifndef NDEBUG fprintf(stderr, "kdeinit: Launched KLauncher, pid = %ld result = %d\n", (long) pid, d.result); #endif handle_requests(pid); // Wait for klauncher to be ready } #if defined Q_WS_X11 && ! defined K_WS_QTONLY //#ifdef Q_WS_X11 X11fd = initXconnection(); #endif { #if defined(KDEINIT_USE_XFT) && defined(KDEINIT_USE_FONTCONFIG) if( FcGetVersion() < 20390 ) { XftInit(0); XftInitFtLibrary(); } #endif QFont::initialize(); setlocale (LC_ALL, ""); setlocale (LC_NUMERIC, "C"); #ifdef Q_WS_X11 if (XSupportsLocale ()) { // Similar to QApplication::create_xim() // but we need to use our own display XOpenIM (X11display, 0, 0, 0); } #endif } if (launch_kded) { if( new_startup ) pid = launch( 2, "kded", "--new-startup" ); else pid = launch( 1, "kded", 0 ); #ifndef NDEBUG fprintf(stderr, "kdeinit: Launched KDED, pid = %ld result = %d\n", (long) pid, d.result); #endif handle_requests(pid); } for(i = 1; i < argc; i++) { if (safe_argv[i][0] == '+') { pid = launch( 1, safe_argv[i]+1, 0); #ifndef NDEBUG fprintf(stderr, "kdeinit: Launched '%s', pid = %ld result = %d\n", safe_argv[i]+1, (long) pid, d.result); #endif handle_requests(pid); } else if (safe_argv[i][0] == '-' #ifdef KDEINIT_OOM_PROTECT || isdigit(safe_argv[i][0]) #endif ) { // Ignore } else { pid = launch( 1, safe_argv[i], 0 ); #ifndef NDEBUG fprintf(stderr, "kdeinit: Launched '%s', pid = %ld result = %d\n", safe_argv[i], (long) pid, d.result); #endif } } /** Free arguments **/ for(i = 0; i < argc; i++) { free(safe_argv[i]); } free (safe_argv); kdeinit_setproctitle("kdeinit Running..."); if (!keep_running) return 0; char c = 0; write(d.initpipe[1], &c, 1); // Kdeinit is started. close(d.initpipe[1]); d.initpipe[1] = -1; handle_requests(0); return 0; }