author | zautrix <zautrix> | 2004-10-30 11:40:54 (UTC) |
---|---|---|
committer | zautrix <zautrix> | 2004-10-30 11:40:54 (UTC) |
commit | 632b43950f1ac2980c281eb8901d797deb0ba971 (patch) (side-by-side diff) | |
tree | 72534bf865fbef61a29d5e8b2e65672c15b432c0 /microkde | |
parent | 0057c2a8e90346583f606491730cae819d2313ac (diff) | |
download | kdepimpi-632b43950f1ac2980c281eb8901d797deb0ba971.zip kdepimpi-632b43950f1ac2980c281eb8901d797deb0ba971.tar.gz kdepimpi-632b43950f1ac2980c281eb8901d797deb0ba971.tar.bz2 |
made ompi compiling on desktop
-rw-r--r-- | microkde/microkde.pro | 7 | ||||
-rw-r--r-- | microkde/oprocess.cpp | 1 |
2 files changed, 7 insertions, 1 deletions
diff --git a/microkde/microkde.pro b/microkde/microkde.pro index 21da158..6e75442 100644 --- a/microkde/microkde.pro +++ b/microkde/microkde.pro @@ -1,174 +1,179 @@ TEMPLATE = lib CONFIG += qt warn_on #INCLUDEPATH += $(QTDIR)/include . #DEPENDPATH += $(QTDIR)/include INCLUDEPATH += . ../ ../kabc ./kdecore ./kdeui ./kio/kfile ./kio/kio #LIBS += -lqtcompat TARGET = microkde DESTDIR= ../bin DEFINES += DESKTOP_VERSION KDE_QT_ONLY unix : { OBJECTS_DIR = obj/unix MOC_DIR = moc/unix } win32: { DEFINES += _WIN32_ OBJECTS_DIR = obj/win MOC_DIR = moc/win } include( ../variables.pri ) HEADERS = \ qlayoutengine_p.h \ KDGanttMinimizeSplitter.h \ kapplication.h \ kaudioplayer.h \ kcalendarsystem.h \ kcalendarsystemgregorian.h \ kcolorbutton.h \ kcolordialog.h \ kcombobox.h \ kconfig.h \ kdatetbl.h \ kdebug.h \ kdialog.h \ kdialogbase.h \ keditlistbox.h \ kemailsettings.h \ kfiledialog.h \ kfontdialog.h \ kglobal.h \ kglobalsettings.h \ kiconloader.h \ klineedit.h \ klineeditdlg.h \ kmessagebox.h \ knotifyclient.h \ kprinter.h \ kprocess.h \ krestrictedline.h \ krun.h \ ksimpleconfig.h \ kstaticdeleter.h \ ksystemtray.h \ ktempfile.h \ ktextedit.h \ kunload.h \ kurl.h \ +oprocctrl.h \ +oprocess.h \ +osmartpointer.h \ kdeui/kguiitem.h \ kdeui/kcmodule.h \ kdeui/kbuttonbox.h \ kdeui/klistbox.h \ kdeui/klistview.h \ kdeui/kjanuswidget.h \ kdeui/kseparator.h \ kdeui/knuminput.h \ kdeui/knumvalidator.h \ kdeui/ksqueezedtextlabel.h \ kio/job.h \ kio/kio/kdirwatch.h \ kio/kio/kdirwatch_p.h \ kio/kfile/kurlrequester.h \ kresources/resource.h \ kresources/factory.h \ kresources/managerimpl.h \ kresources/manager.h \ kresources/selectdialog.h \ kresources/configpage.h \ kresources/configwidget.h \ kresources/configdialog.h \ kresources/kcmkresources.h \ kdecore/kmdcodec.h \ kdecore/kconfigbase.h \ kdecore/klocale.h \ kdecore/kcatalogue.h \ kdecore/ksharedptr.h \ kdecore/kshell.h \ kdecore/kstandarddirs.h \ kdecore/kstringhandler.h \ kdecore/kshortcut.h \ kutils/kcmultidialog.h \ kdeui/kxmlguiclient.h \ kdeui/kstdaction.h \ kdeui/kmainwindow.h \ kdeui/ktoolbar.h \ kdeui/ktoolbarbutton.h \ kdeui/ktoolbarhandler.h \ kdeui/kaction.h \ kdeui/kactionclasses.h \ kdeui/kactioncollection.h \ kdecore/kprefs.h \ kdecore/klibloader.h \ kidmanager.h # kdecore/klibloader.h \ SOURCES = \ KDGanttMinimizeSplitter.cpp \ kapplication.cpp \ kcalendarsystem.cpp \ kcalendarsystemgregorian.cpp \ kcolorbutton.cpp \ kcolordialog.cpp \ kconfig.cpp \ kdatetbl.cpp \ kdialog.cpp \ kdialogbase.cpp \ keditlistbox.cpp \ kemailsettings.cpp \ kfontdialog.cpp \ kfiledialog.cpp \ kglobal.cpp \ kglobalsettings.cpp \ kiconloader.cpp \ kmessagebox.cpp \ ktextedit.cpp \ kprocess.cpp \ krun.cpp \ ksystemtray.cpp \ ktempfile.cpp \ kurl.cpp \ kdecore/kcatalogue.cpp \ kdecore/klocale.cpp \ kdecore/kmdcodec.cpp \ kdecore/kshell.cpp \ kdecore/kstandarddirs.cpp \ kdecore/kstringhandler.cpp \ kdeui/kbuttonbox.cpp \ kdeui/kcmodule.cpp \ kdeui/kguiitem.cpp \ kdeui/kjanuswidget.cpp \ kdeui/klistbox.cpp \ kdeui/klistview.cpp \ kdeui/knuminput.cpp \ kdeui/knumvalidator.cpp \ kdeui/kseparator.cpp \ kdeui/ksqueezedtextlabel.cpp \ kio/kio/kdirwatch.cpp \ kio/kfile/kurlrequester.cpp \ kresources/configpage.cpp \ kresources/configdialog.cpp \ kresources/configwidget.cpp \ kresources/factory.cpp \ kresources/kcmkresources.cpp \ kresources/managerimpl.cpp \ kresources/resource.cpp \ kresources/selectdialog.cpp \ kutils/kcmultidialog.cpp \ kdeui/kaction.cpp \ kdeui/kactionclasses.cpp \ kdeui/kactioncollection.cpp \ kdeui/kmainwindow.cpp \ kdeui/ktoolbar.cpp \ kdeui/ktoolbarbutton.cpp \ kdeui/ktoolbarhandler.cpp \ kdeui/kstdaction.cpp \ kdeui/kxmlguiclient.cpp \ kdecore/kprefs.cpp \ kdecore/klibloader.cpp \ - kidmanager.cpp + kidmanager.cpp \ +oprocctrl.cpp \ +oprocess.cpp diff --git a/microkde/oprocess.cpp b/microkde/oprocess.cpp index 95e3e4b..a935792 100644 --- a/microkde/oprocess.cpp +++ b/microkde/oprocess.cpp @@ -1,808 +1,809 @@ /* This file is part of the Opie Project Copyright (C) 2002-2004 Holger Freyther <zecke@handhelds.org> and The Opie Team <opie-devel@handhelds.org> =. Based on KProcess (C) 1997 Christian Czezatke (e9025461@student.tuwien.ac.at) .=l. .>+-= _;:, .> :=|. This program is free software; you can .> <`_, > . <= redistribute it and/or modify it under :`=1 )Y*s>-.-- : the terms of the GNU Library General Public .="- .-=="i, .._ License as published by the Free Software - . .-<_> .<> Foundation; either version 2 of the License, ._= =} : or (at your option) any later version. .%`+i> _;_. .i_,=:_. -<s. This program 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., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ #include "oprocctrl.h" /* OPIE */ #include <oprocess.h> /* QT */ #include <qapplication.h> #include <qdir.h> #include <qmap.h> +#include <qregexp.h> #include <qsocketnotifier.h> #include <qtextstream.h> /* STD */ #include <errno.h> #include <fcntl.h> #include <pwd.h> #include <stdlib.h> #include <signal.h> #include <stdio.h> #include <string.h> #include <sys/time.h> #include <sys/types.h> #include <sys/stat.h> #include <sys/socket.h> #include <unistd.h> #ifdef HAVE_SYS_SELECT_H #include <sys/select.h> #endif #ifdef HAVE_INITGROUPS #include <grp.h> #endif using namespace Opie::Core::Internal; namespace Opie { namespace Core { namespace Internal { class OProcessPrivate { public: OProcessPrivate() : useShell( false ) { } bool useShell; QMap<QString, QString> env; QString wd; QCString shell; }; } OProcess::OProcess( QObject *parent, const char *name ) : QObject( parent, name ) { init ( ); } OProcess::OProcess( const QString &arg0, QObject *parent, const char *name ) : QObject( parent, name ) { init ( ); *this << arg0; } OProcess::OProcess( const QStringList &args, QObject *parent, const char *name ) : QObject( parent, name ) { init ( ); *this << args; } void OProcess::init ( ) { run_mode = NotifyOnExit; runs = false; pid_ = 0; status = 0; keepPrivs = false; innot = 0; outnot = 0; errnot = 0; communication = NoCommunication; input_data = 0; input_sent = 0; input_total = 0; d = 0; if ( 0 == OProcessController::theOProcessController ) { ( void ) new OProcessController(); CHECK_PTR( OProcessController::theOProcessController ); } OProcessController::theOProcessController->addOProcess( this ); out[ 0 ] = out[ 1 ] = -1; in[ 0 ] = in[ 1 ] = -1; err[ 0 ] = err[ 1 ] = -1; } void OProcess::setEnvironment( const QString &name, const QString &value ) { if ( !d ) d = new OProcessPrivate; d->env.insert( name, value ); } void OProcess::setWorkingDirectory( const QString &dir ) { if ( !d ) d = new OProcessPrivate; d->wd = dir; } void OProcess::setupEnvironment() { if ( d ) { QMap<QString, QString>::Iterator it; for ( it = d->env.begin(); it != d->env.end(); ++it ) setenv( QFile::encodeName( it.key() ).data(), QFile::encodeName( it.data() ).data(), 1 ); if ( !d->wd.isEmpty() ) chdir( QFile::encodeName( d->wd ).data() ); } } void OProcess::setRunPrivileged( bool keepPrivileges ) { keepPrivs = keepPrivileges; } bool OProcess::runPrivileged() const { return keepPrivs; } OProcess::~OProcess() { // destroying the OProcess instance sends a SIGKILL to the // child process (if it is running) after removing it from the // list of valid processes (if the process is not started as // "DontCare") OProcessController::theOProcessController->removeOProcess( this ); // this must happen before we kill the child // TODO: block the signal while removing the current process from the process list if ( runs && ( run_mode != DontCare ) ) kill( SIGKILL ); // Clean up open fd's and socket notifiers. closeStdin(); closeStdout(); closeStderr(); // TODO: restore SIGCHLD and SIGPIPE handler if this is the last OProcess delete d; } void OProcess::detach() { OProcessController::theOProcessController->removeOProcess( this ); runs = false; pid_ = 0; // Clean up open fd's and socket notifiers. closeStdin(); closeStdout(); closeStderr(); } bool OProcess::setExecutable( const QString& proc ) { if ( runs ) return false; if ( proc.isEmpty() ) return false; if ( !arguments.isEmpty() ) arguments.remove( arguments.begin() ); arguments.prepend( QFile::encodeName( proc ) ); return true; } OProcess &OProcess::operator<<( const QStringList& args ) { QStringList::ConstIterator it = args.begin(); for ( ; it != args.end() ; ++it ) arguments.append( QFile::encodeName( *it ) ); return *this; } OProcess &OProcess::operator<<( const QCString& arg ) { return operator<< ( arg.data() ); } OProcess &OProcess::operator<<( const char* arg ) { arguments.append( arg ); return *this; } OProcess &OProcess::operator<<( const QString& arg ) { arguments.append( QFile::encodeName( arg ) ); return *this; } void OProcess::clearArguments() { arguments.clear(); } bool OProcess::start( RunMode runmode, Communication comm ) { uint i; uint n = arguments.count(); char **arglist; if ( runs || ( 0 == n ) ) { return false; // cannot start a process that is already running // or if no executable has been assigned } run_mode = runmode; status = 0; QCString shellCmd; if ( d && d->useShell ) { if ( d->shell.isEmpty() ) { qWarning( "Could not find a valid shell" ); return false; } arglist = static_cast<char **>( malloc( ( 4 ) * sizeof( char * ) ) ); for ( i = 0; i < n; i++ ) { shellCmd += arguments[ i ]; shellCmd += " "; // CC: to separate the arguments } arglist[ 0 ] = d->shell.data(); arglist[ 1 ] = ( char * ) "-c"; arglist[ 2 ] = shellCmd.data(); arglist[ 3 ] = 0; } else { arglist = static_cast<char **>( malloc( ( n + 1 ) * sizeof( char * ) ) ); for ( i = 0; i < n; i++ ) arglist[ i ] = arguments[ i ].data(); arglist[ n ] = 0; } if ( !setupCommunication( comm ) ) qWarning( "Could not setup Communication!" ); // We do this in the parent because if we do it in the child process // gdb gets confused when the application runs from gdb. uid_t uid = getuid(); gid_t gid = getgid(); #ifdef HAVE_INITGROUPS struct passwd *pw = getpwuid( uid ); #endif int fd[ 2 ]; if ( 0 > pipe( fd ) ) { fd[ 0 ] = fd[ 1 ] = 0; // Pipe failed.. continue } runs = true; QApplication::flushX(); // WABA: Note that we use fork() and not vfork() because // vfork() has unclear semantics and is not standardized. pid_ = fork(); if ( 0 == pid_ ) { if ( fd[ 0 ] ) close( fd[ 0 ] ); if ( !runPrivileged() ) { setgid( gid ); #if defined( HAVE_INITGROUPS) if ( pw ) initgroups( pw->pw_name, pw->pw_gid ); #endif setuid( uid ); } // The child process if ( !commSetupDoneC() ) qWarning( "Could not finish comm setup in child!" ); setupEnvironment(); // Matthias if ( run_mode == DontCare ) setpgid( 0, 0 ); // restore default SIGPIPE handler (Harri) struct sigaction act; sigemptyset( &( act.sa_mask ) ); sigaddset( &( act.sa_mask ), SIGPIPE ); act.sa_handler = SIG_DFL; act.sa_flags = 0; sigaction( SIGPIPE, &act, 0L ); // We set the close on exec flag. // Closing of fd[1] indicates that the execvp succeeded! if ( fd[ 1 ] ) fcntl( fd[ 1 ], F_SETFD, FD_CLOEXEC ); execvp( arglist[ 0 ], arglist ); char resultByte = 1; if ( fd[ 1 ] ) write( fd[ 1 ], &resultByte, 1 ); _exit( -1 ); } else if ( -1 == pid_ ) { // forking failed runs = false; free( arglist ); return false; } else { if ( fd[ 1 ] ) close( fd[ 1 ] ); // the parent continues here // Discard any data for stdin that might still be there input_data = 0; // Check whether client could be started. if ( fd[ 0 ] ) for ( ;; ) { char resultByte; int n = ::read( fd[ 0 ], &resultByte, 1 ); if ( n == 1 ) { // Error runs = false; close( fd[ 0 ] ); free( arglist ); pid_ = 0; return false; } if ( n == -1 ) { if ( ( errno == ECHILD ) || ( errno == EINTR ) ) continue; // Ignore } break; // success } if ( fd[ 0 ] ) close( fd[ 0 ] ); if ( !commSetupDoneP() ) // finish communication socket setup for the parent qWarning( "Could not finish comm setup in parent!" ); if ( run_mode == Block ) { commClose(); // The SIGCHLD handler of the process controller will catch // the exit and set the status while ( runs ) { OProcessController::theOProcessController-> slotDoHousekeeping( 0 ); } runs = FALSE; emit processExited( this ); } } free( arglist ); return true; } bool OProcess::kill( int signo ) { bool rv = false; if ( 0 != pid_ ) rv = ( -1 != ::kill( pid_, signo ) ); // probably store errno somewhere... return rv; } bool OProcess::isRunning() const { return runs; } pid_t OProcess::pid() const { return pid_; } bool OProcess::normalExit() const { int _status = status; return ( pid_ != 0 ) && ( !runs ) && ( WIFEXITED( ( _status ) ) ); } int OProcess::exitStatus() const { int _status = status; return WEXITSTATUS( ( _status ) ); } bool OProcess::writeStdin( const char *buffer, int buflen ) { bool rv; // if there is still data pending, writing new data // to stdout is not allowed (since it could also confuse // kprocess... if ( 0 != input_data ) return false; if ( runs && ( communication & Stdin ) ) { input_data = buffer; input_sent = 0; input_total = buflen; slotSendData( 0 ); innot->setEnabled( true ); rv = true; } else rv = false; return rv; } void OProcess::flushStdin ( ) { if ( !input_data || ( input_sent == input_total ) ) return ; int d1, d2; do { d1 = input_total - input_sent; slotSendData ( 0 ); d2 = input_total - input_sent; } while ( d2 <= d1 ); } void OProcess::suspend() { if ( ( communication & Stdout ) && outnot ) outnot->setEnabled( false ); } void OProcess::resume() { if ( ( communication & Stdout ) && outnot ) outnot->setEnabled( true ); } bool OProcess::closeStdin() { bool rv; if ( communication & Stdin ) { communication = ( Communication ) ( communication & ~Stdin ); delete innot; innot = 0; close( in[ 1 ] ); rv = true; } else rv = false; return rv; } bool OProcess::closeStdout() { bool rv; if ( communication & Stdout ) { communication = ( Communication ) ( communication & ~Stdout ); delete outnot; outnot = 0; close( out[ 0 ] ); rv = true; } else rv = false; return rv; } bool OProcess::closeStderr() { bool rv; if ( communication & Stderr ) { communication = static_cast<Communication>( communication & ~Stderr ); delete errnot; errnot = 0; close( err[ 0 ] ); rv = true; } else rv = false; return rv; } void OProcess::slotChildOutput( int fdno ) { if ( !childOutput( fdno ) ) closeStdout(); } void OProcess::slotChildError( int fdno ) { if ( !childError( fdno ) ) closeStderr(); } void OProcess::slotSendData( int ) { if ( input_sent == input_total ) { innot->setEnabled( false ); input_data = 0; emit wroteStdin( this ); } else input_sent += ::write( in[ 1 ], input_data + input_sent, input_total - input_sent ); } void OProcess::processHasExited( int state ) { if ( runs ) { runs = false; status = state; commClose(); // cleanup communication sockets // also emit a signal if the process was run Blocking if ( DontCare != run_mode ) { emit processExited( this ); } } } int OProcess::childOutput( int fdno ) { if ( communication & NoRead ) { int len = -1; emit receivedStdout( fdno, len ); errno = 0; // Make sure errno doesn't read "EAGAIN" return len; } else { char buffer[ 1024 ]; int len; len = ::read( fdno, buffer, 1024 ); if ( 0 < len ) { emit receivedStdout( this, buffer, len ); } return len; } } int OProcess::childError( int fdno ) { char buffer[ 1024 ]; int len; len = ::read( fdno, buffer, 1024 ); if ( 0 < len ) emit receivedStderr( this, buffer, len ); return len; } int OProcess::setupCommunication( Communication comm ) { int ok; communication = comm; ok = 1; if ( comm & Stdin ) ok &= socketpair( AF_UNIX, SOCK_STREAM, 0, in ) >= 0; if ( comm & Stdout ) ok &= socketpair( AF_UNIX, SOCK_STREAM, 0, out ) >= 0; if ( comm & Stderr ) ok &= socketpair( AF_UNIX, SOCK_STREAM, 0, err ) >= 0; return ok; } int OProcess::commSetupDoneP() { int ok = 1; if ( communication != NoCommunication ) { if ( communication & Stdin ) close( in[ 0 ] ); if ( communication & Stdout ) close( out[ 1 ] ); if ( communication & Stderr ) close( err[ 1 ] ); // Don't create socket notifiers and set the sockets non-blocking if // blocking is requested. if ( run_mode == Block ) return ok; if ( communication & Stdin ) { // ok &= (-1 != fcntl(in[1], F_SETFL, O_NONBLOCK)); innot = new QSocketNotifier( in[ 1 ], QSocketNotifier::Write, this ); CHECK_PTR( innot ); innot->setEnabled( false ); // will be enabled when data has to be sent QObject::connect( innot, SIGNAL( activated(int) ), this, SLOT( slotSendData(int) ) ); } if ( communication & Stdout ) { // ok &= (-1 != fcntl(out[0], F_SETFL, O_NONBLOCK)); outnot = new QSocketNotifier( out[ 0 ], QSocketNotifier::Read, this ); CHECK_PTR( outnot ); QObject::connect( outnot, SIGNAL( activated(int) ), this, SLOT( slotChildOutput(int) ) ); if ( communication & NoRead ) suspend(); } if ( communication & Stderr ) { // ok &= (-1 != fcntl(err[0], F_SETFL, O_NONBLOCK)); errnot = new QSocketNotifier( err[ 0 ], QSocketNotifier::Read, this ); CHECK_PTR( errnot ); QObject::connect( errnot, SIGNAL( activated(int) ), this, SLOT( slotChildError(int) ) ); } } return ok; } int OProcess::commSetupDoneC() { int ok = 1; struct linger so; memset( &so, 0, sizeof( so ) ); if ( communication & Stdin ) close( in[ 1 ] ); if ( communication & Stdout ) close( out[ 0 ] ); if ( communication & Stderr ) close( err[ 0 ] ); if ( communication & Stdin ) ok &= dup2( in[ 0 ], STDIN_FILENO ) != -1; else { int null_fd = open( "/dev/null", O_RDONLY ); ok &= dup2( null_fd, STDIN_FILENO ) != -1; close( null_fd ); } if ( communication & Stdout ) { ok &= dup2( out[ 1 ], STDOUT_FILENO ) != -1; ok &= !setsockopt( out[ 1 ], SOL_SOCKET, SO_LINGER, ( char* ) & so, sizeof( so ) ); } else { int null_fd = open( "/dev/null", O_WRONLY ); ok &= dup2( null_fd, STDOUT_FILENO ) != -1; close( null_fd ); } if ( communication & Stderr ) { ok &= dup2( err[ 1 ], STDERR_FILENO ) != -1; ok &= !setsockopt( err[ 1 ], SOL_SOCKET, SO_LINGER, reinterpret_cast<char *>( &so ), sizeof( so ) ); } else { int null_fd = open( "/dev/null", O_WRONLY ); ok &= dup2( null_fd, STDERR_FILENO ) != -1; close( null_fd ); } return ok; } void OProcess::commClose() { if ( NoCommunication != communication ) { bool b_in = ( communication & Stdin ); bool b_out = ( communication & Stdout ); bool b_err = ( communication & Stderr ); if ( b_in ) delete innot; if ( b_out || b_err ) { // If both channels are being read we need to make sure that one socket buffer // doesn't fill up whilst we are waiting for data on the other (causing a deadlock). // Hence we need to use select. // Once one or other of the channels has reached EOF (or given an error) go back // to the usual mechanism. int fds_ready = 1; fd_set rfds; int max_fd = 0; if ( b_out ) { fcntl( out[ 0 ], F_SETFL, O_NONBLOCK ); if ( out[ 0 ] > max_fd ) max_fd = out[ 0 ]; delete outnot; outnot = 0; } if ( b_err ) { fcntl( err[ 0 ], F_SETFL, O_NONBLOCK ); if ( err[ 0 ] > max_fd ) max_fd = err[ 0 ]; delete errnot; errnot = 0; } while ( b_out || b_err ) { // * If the process is still running we block until we // receive data. (p_timeout = 0, no timeout) // * If the process has already exited, we only check // the available data, we don't wait for more. // (p_timeout = &timeout, timeout immediately) struct timeval timeout; timeout.tv_sec = 0; timeout.tv_usec = 0; struct timeval *p_timeout = runs ? 0 : &timeout; FD_ZERO( &rfds ); if ( b_out ) FD_SET( out[ 0 ], &rfds ); |