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-rw-r--r--libopie/oprocess.cpp94
-rw-r--r--libopie/oprocess.h72
2 files changed, 56 insertions, 110 deletions
diff --git a/libopie/oprocess.cpp b/libopie/oprocess.cpp
index f3e52bd..5db2b6c 100644
--- a/libopie/oprocess.cpp
+++ b/libopie/oprocess.cpp
@@ -1,922 +1,926 @@
/*
$Id$
This file is part of the KDE libraries
Copyright (C) 1997 Christian Czezatke (e9025461@student.tuwien.ac.at)
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Library General Public
License as published by the Free Software Foundation; either
version 2 of the License, or (at your option) any later version.
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., 59 Temple Place - Suite 330,
Boston, MA 02111-1307, USA.
*/
//
// KPROCESS -- A class for handling child processes in KDE without
// having to take care of Un*x specific implementation details
//
// version 0.3.1, Jan 8th 1998
//
// (C) Christian Czezatke
// e9025461@student.tuwien.ac.at
//
// Changes:
//
// March 2nd, 1998: Changed parameter list for KShellProcess:
// Arguments are now placed in a single string so that
// <shell> -c <commandstring> is passed to the shell
// to make the use of "operator<<" consistent with KProcess
//
//
// Ported by Holger Freyther
// <zekce> Harlekin: oprocess and say it was ported to Qt by the Opie developers an Qt 2
#include "oprocess.h"
#define _MAY_INCLUDE_KPROCESSCONTROLLER_
#include "oprocctrl.h"
//#include <config.h>
#include <qfile.h>
#include <qsocketnotifier.h>
#include <qregexp.h>
#include <sys/time.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <sys/socket.h>
#include <errno.h>
#include <fcntl.h>
#include <stdlib.h>
#include <signal.h>
#include <stdio.h>
#include <string.h>
#include <unistd.h>
#ifdef HAVE_SYS_SELECT_H
#include <sys/select.h>
#endif
#ifdef HAVE_INITGROUPS
#include <grp.h>
#endif
#include <pwd.h>
#include <qapplication.h>
#include <qmap.h>
//#include <kdebug.h>
/////////////////////////////
// public member functions //
/////////////////////////////
class OProcessPrivate {
public:
OProcessPrivate() : useShell(false) { }
bool useShell;
QMap<QString,QString> env;
QString wd;
QCString shell;
};
-OProcess::OProcess()
- : QObject(),
- 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)
+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;
}
/////////////////////////////
// protected slots //
/////////////////////////////
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);
}
//////////////////////////////
// private member functions //
//////////////////////////////
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);
if (b_err)
FD_SET(err[0], &rfds);
fds_ready = select(max_fd+1, &rfds, 0, 0, p_timeout);
if (fds_ready <= 0) break;
if (b_out && FD_ISSET(out[0], &rfds)) {
int ret = 1;
while (ret > 0) ret = childOutput(out[0]);
if ((ret == -1 && errno != EAGAIN) || ret == 0)
b_out = false;
}
if (b_err && FD_ISSET(err[0], &rfds)) {
int ret = 1;
while (ret > 0) ret = childError(err[0]);
if ((ret == -1 && errno != EAGAIN) || ret == 0)
b_err = false;
}
}
}
if (b_in) {
communication = (Communication) (communication & ~Stdin);
close(in[1]);
}
if (b_out) {
communication = (Communication) (communication & ~Stdout);
close(out[0]);
}
if (b_err) {
communication = (Communication) (communication & ~Stderr);
close(err[0]);
}
}
}
void OProcess::setUseShell(bool useShell, const char *shell)
{
if (!d)
d = new OProcessPrivate;
d->useShell = useShell;
d->shell = shell;
if (d->shell.isEmpty())
d->shell = searchShell();
}
QString OProcess::quote(const QString &arg)
{
QString res = arg;
res.replace(QRegExp(QString::fromLatin1("\'")),
QString::fromLatin1("'\"'\"'"));
res.prepend('\'');
res.append('\'');
return res;
}
QCString OProcess::searchShell()
{
QCString tmpShell = QCString(getenv("SHELL")).stripWhiteSpace();
if (!isExecutable(tmpShell))
{
tmpShell = "/bin/sh";
}
return tmpShell;
}
bool OProcess::isExecutable(const QCString &filename)
{
struct stat fileinfo;
if (filename.isEmpty()) return false;
// CC: we've got a valid filename, now let's see whether we can execute that file
if (-1 == stat(filename.data(), &fileinfo)) return false;
// CC: return false if the file does not exist
// CC: anyway, we cannot execute directories, block/character devices, fifos or sockets
if ( (S_ISDIR(fileinfo.st_mode)) ||
(S_ISCHR(fileinfo.st_mode)) ||
(S_ISBLK(fileinfo.st_mode)) ||
#ifdef S_ISSOCK
// CC: SYSVR4 systems don't have that macro
(S_ISSOCK(fileinfo.st_mode)) ||
#endif
(S_ISFIFO(fileinfo.st_mode)) ||
(S_ISDIR(fileinfo.st_mode)) ) {
return false;
}
// CC: now check for permission to execute the file
if (access(filename.data(), X_OK) != 0) return false;
// CC: we've passed all the tests...
return true;
}
-void OProcess::virtual_hook( int, void* )
-{ /*BASE::virtual_hook( id, data );*/ }
-
-
-///////////////////////////
-// CC: Class KShellProcess
-///////////////////////////
-
-KShellProcess::KShellProcess(const char *shellname):
- OProcess()
-{
- setUseShell(true, shellname);
-}
-
-
-KShellProcess::~KShellProcess() {
-}
-
-QString KShellProcess::quote(const QString &arg)
-{
- return OProcess::quote(arg);
-}
-
-bool KShellProcess::start(RunMode runmode, Communication comm)
-{
- return OProcess::start(runmode, comm);
-}
-void KShellProcess::virtual_hook( int id, void* data )
-{ OProcess::virtual_hook( id, data ); }
-//#include "kprocess.moc"
diff --git a/libopie/oprocess.h b/libopie/oprocess.h
index fd726b4..bf5fe0e 100644
--- a/libopie/oprocess.h
+++ b/libopie/oprocess.h
@@ -1,805 +1,747 @@
/* This file is part of the KDE libraries
Copyright (C) 1997 Christian Czezakte (e9025461@student.tuwien.ac.at)
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Library General Public
License as published by the Free Software Foundation; either
version 2 of the License, or (at your option) any later version.
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., 59 Temple Place - Suite 330,
Boston, MA 02111-1307, USA.
*/
//
// KPROCESS -- A class for handling child processes in KDE without
// having to take care of Un*x specific implementation details
//
// version 0.3.1, Jan 8th 1998
//
// (C) Christian Czezatke
// e9025461@student.tuwien.ac.at
// Ported by Holger Freyther to the Open Palmtop Integrated Environment
//
#ifndef __kprocess_h__
#define __kprocess_h__
#include <sys/types.h> // for pid_t
#include <sys/wait.h>
#include <signal.h>
#include <unistd.h>
#include <qvaluelist.h>
#include <qcstring.h>
#include <qobject.h>
class QSocketNotifier;
class OProcessPrivate;
/**
* Child process invocation, monitoring and control.
*
* @sect General usage and features
*
*This class allows a KDE application to start child processes without having
*to worry about UN*X signal handling issues and zombie process reaping.
*
*@see KProcIO
*
*Basically, this class distinguishes three different ways of running
*child processes:
*
*@li OProcess::DontCare -- The child process is invoked and both the child
*process and the parent process continue concurrently.
*
*Starting a DontCare child process means that the application is
*not interested in any notification to determine whether the
*child process has already exited or not.
*
*@li OProcess::NotifyOnExit -- The child process is invoked and both the
*child and the parent process run concurrently.
*
*When the child process exits, the OProcess instance
*corresponding to it emits the Qt signal @ref processExited().
*
*Since this signal is @em not emitted from within a UN*X
*signal handler, arbitrary function calls can be made.
*
*Be aware: When the OProcess objects gets destructed, the child
*process will be killed if it is still running!
*This means in particular, that you cannot use a OProcess on the stack
*with OProcess::NotifyOnExit.
*
*@li OProcess::Block -- The child process starts and the parent process
*is suspended until the child process exits. (@em Really not recommended
*for programs with a GUI.)
*
*OProcess also provides several functions for determining the exit status
*and the pid of the child process it represents.
*
*Furthermore it is possible to supply command-line arguments to the process
*in a clean fashion (no null -- terminated stringlists and such...)
*
*A small usage example:
*<pre>
*OProcess *proc = new OProcess;
*
**proc << "my_executable";
**proc << "These" << "are" << "the" << "command" << "line" << "args";
*QApplication::connect(proc, SIGNAL(processExited(OProcess *)),
* pointer_to_my_object, SLOT(my_objects_slot(OProcess *)));
*proc->start();
*</pre>
*
*This will start "my_executable" with the commandline arguments "These"...
*
*When the child process exits, the respective Qt signal will be emitted.
*
*@sect Communication with the child process
*
*OProcess supports communication with the child process through
*stdin/stdout/stderr.
*
*The following functions are provided for getting data from the child
*process or sending data to the child's stdin (For more information,
*have a look at the documentation of each function):
*
*@li bool @ref writeStdin(char *buffer, int buflen);
*@li -- Transmit data to the child process's stdin.
*
*@li bool @ref closeStdin();
*@li -- Closes the child process's stdin (which causes it to see an feof(stdin)).
*Returns false if you try to close stdin for a process that has been started
*without a communication channel to stdin.
*
*@li bool @ref closeStdout();
*@li -- Closes the child process's stdout.
*Returns false if you try to close stdout for a process that has been started
*without a communication channel to stdout.
*
*@li bool @ref closeStderr();
*@li -- Closes the child process's stderr.
*Returns false if you try to close stderr for a process that has been started
*without a communication channel to stderr.
*
*
*@sect QT signals:
*
*@li void @ref receivedStdout(OProcess *proc, char *buffer, int buflen);
*@li void @ref receivedStderr(OProcess *proc, char *buffer, int buflen);
*@li -- Indicates that new data has arrived from either the
*child process's stdout or stderr.
*
*@li void @ref wroteStdin(OProcess *proc);
*@li -- Indicates that all data that has been sent to the child process
*by a prior call to @ref writeStdin() has actually been transmitted to the
*client .
*
*@author Christian Czezakte e9025461@student.tuwien.ac.at
*
*
**/
class OProcess : public QObject
{
Q_OBJECT
public:
/**
* Modes in which the communication channel can be opened.
*
* If communication for more than one channel is required,
* the values have to be or'ed together, for example to get
* communication with stdout as well as with stdin, you would
* specify @p Stdin @p | @p Stdout
*
* If @p NoRead is specified in conjunction with @p Stdout,
* no data is actually read from @p Stdout but only
* the signal @ref childOutput(int fd) is emitted.
*/
enum Communication { NoCommunication = 0, Stdin = 1, Stdout = 2, Stderr = 4,
AllOutput = 6, All = 7,
NoRead };
/**
* Run-modes for a child process.
*/
enum RunMode {
/**
* The application does not receive notifications from the subprocess when
* it is finished or aborted.
*/
DontCare,
/**
* The application is notified when the subprocess dies.
*/
NotifyOnExit,
/**
* The application is suspended until the started process is finished.
*/
Block };
/**
* Constructor
*/
- OProcess();
+ OProcess(QObject *parent = 0, const char *name = 0);
+ OProcess(const QString &arg0, QObject *parent = 0, const char *name = 0);
+ OProcess(const QStringList &args, QObject *parent = 0, const char *name = 0);
/**
*Destructor:
*
* If the process is running when the destructor for this class
* is called, the child process is killed with a SIGKILL, but
* only if the run mode is not of type @p DontCare.
* Processes started as @p DontCare keep running anyway.
*/
virtual ~OProcess();
/**
@deprecated
The use of this function is now deprecated. -- Please use the
"operator<<" instead of "setExecutable".
Sets the executable to be started with this OProcess object.
Returns false if the process is currently running (in that
case the executable remains unchanged.)
@see operator<<
*/
bool setExecutable(const QString& proc);
/**
* Sets the executable and the command line argument list for this process.
*
* For example, doing an "ls -l /usr/local/bin" can be achieved by:
* <pre>
* OProcess p;
* ...
* p << "ls" << "-l" << "/usr/local/bin"
* </pre>
*
**/
OProcess &operator<<(const QString& arg);
/**
* Similar to previous method, takes a char *, supposed to be in locale 8 bit already.
*/
OProcess &operator<<(const char * arg);
/**
* Similar to previous method, takes a QCString, supposed to be in locale 8 bit already.
*/
OProcess &operator<<(const QCString & arg);
/**
* Sets the executable and the command line argument list for this process,
* in a single method call, or add a list of arguments.
**/
OProcess &operator<<(const QStringList& args);
/**
* Clear a command line argument list that has been set by using
* the "operator<<".
*/
void clearArguments();
/**
* Starts the process.
* For a detailed description of the
* various run modes and communication semantics, have a look at the
* general description of the OProcess class.
*
* The following problems could cause this function to
* return false:
*
* @li The process is already running.
* @li The command line argument list is empty.
* @li The starting of the process failed (could not fork).
* @li The executable was not found.
*
* @param comm Specifies which communication links should be
* established to the child process (stdin/stdout/stderr). By default,
* no communication takes place and the respective communication
* signals will never get emitted.
*
* @return true on success, false on error
* (see above for error conditions)
**/
virtual bool start(RunMode runmode = NotifyOnExit,
Communication comm = NoCommunication);
/**
* Stop the process (by sending it a signal).
*
* @param signo The signal to send. The default is SIGTERM.
* @return @p true if the signal was delivered successfully.
*/
virtual bool kill(int signo = SIGTERM);
/**
@return @p true if the process is (still) considered to be running
*/
bool isRunning() const;
/** Returns the process id of the process.
*
* If it is called after
* the process has exited, it returns the process id of the last
* child process that was created by this instance of OProcess.
*
* Calling it before any child process has been started by this
* OProcess instance causes pid() to return 0.
**/
pid_t pid() const;
/**
* Use pid().
* @deprecated
*/
pid_t getPid() const { return pid(); }
/**
* Suspend processing of data from stdout of the child process.
*/
void suspend();
/**
* Resume processing of data from stdout of the child process.
*/
void resume();
/**
* @return @p true if the process has already finished and has exited
* "voluntarily", ie: it has not been killed by a signal.
*
* Note that you should check @ref OProcess::exitStatus() to determine
* whether the process completed its task successful or not.
*/
bool normalExit() const;
/**
* Returns the exit status of the process.
*
* Please use
* @ref OProcess::normalExit() to check whether the process has exited
* cleanly (i.e., @ref OProcess::normalExit() returns @p true) before calling
* this function because if the process did not exit normally,
* it does not have a valid exit status.
*/
int exitStatus() const;
/**
* Transmit data to the child process's stdin.
*
* OProcess::writeStdin may return false in the following cases:
*
* @li The process is not currently running.
*
* @li Communication to stdin has not been requested in the @ref start() call.
*
* @li Transmission of data to the child process by a previous call to
* @ref writeStdin() is still in progress.
*
* Please note that the data is sent to the client asynchronously,
* so when this function returns, the data might not have been
* processed by the child process.
*
* If all the data has been sent to the client, the signal
* @ref wroteStdin() will be emitted.
*
* Please note that you must not free "buffer" or call @ref writeStdin()
* again until either a @ref wroteStdin() signal indicates that the
* data has been sent or a @ref processHasExited() signal shows that
* the child process is no longer alive...
**/
bool writeStdin(const char *buffer, int buflen);
+ void flushStdin();
+
/**
* This causes the stdin file descriptor of the child process to be
* closed indicating an "EOF" to the child.
*
* @return @p false if no communication to the process's stdin
* had been specified in the call to @ref start().
*/
bool closeStdin();
/**
* This causes the stdout file descriptor of the child process to be
* closed.
*
* @return @p false if no communication to the process's stdout
* had been specified in the call to @ref start().
*/
bool closeStdout();
/**
* This causes the stderr file descriptor of the child process to be
* closed.
*
* @return @p false if no communication to the process's stderr
* had been specified in the call to @ref start().
*/
bool closeStderr();
/**
* Lets you see what your arguments are for debugging.
*/
const QValueList<QCString> &args() { return arguments; }
/**
* Controls whether the started process should drop any
* setuid/segid privileges or whether it should keep them
*
* The default is @p false : drop privileges
*/
void setRunPrivileged(bool keepPrivileges);
/**
* Returns whether the started process will drop any
* setuid/segid privileges or whether it will keep them
*/
bool runPrivileged() const;
/**
* Modifies the environment of the process to be started.
* This function must be called before starting the process.
*/
void setEnvironment(const QString &name, const QString &value);
/**
* Changes the current working directory (CWD) of the process
* to be started.
* This function must be called before starting the process.
*/
void setWorkingDirectory(const QString &dir);
/**
* Specify whether to start the command via a shell or directly.
* The default is to start the command directly.
* If @p useShell is true @p shell will be used as shell, or
* if shell is empty, the standard shell is used.
* @p quote A flag indicating whether to quote the arguments.
*
* When using a shell, the caller should make sure that all filenames etc.
* are properly quoted when passed as argument.
* @see quote()
*/
void setUseShell(bool useShell, const char *shell = 0);
/**
* This function can be used to quote an argument string such that
* the shell processes it properly. This is e. g. necessary for
* user-provided file names which may contain spaces or quotes.
* It also prevents expansion of wild cards and environment variables.
*/
static QString quote(const QString &arg);
/**
* Detaches OProcess from child process. All communication is closed.
* No exit notification is emitted any more for the child process.
* Deleting the OProcess will no longer kill the child process.
* Note that the current process remains the parent process of the
* child process.
*/
void detach();
signals:
/**
* Emitted after the process has terminated when
* the process was run in the @p NotifyOnExit (==default option to
* @ref start()) or the @ref Block mode.
**/
void processExited(OProcess *proc);
/**
* Emitted, when output from the child process has
* been received on stdout.
*
* To actually get
* these signals, the respective communication link (stdout/stderr)
* has to be turned on in @ref start().
*
* @param buffer The data received.
* @param buflen The number of bytes that are available.
*
* You should copy the information contained in @p buffer to your private
* data structures before returning from this slot.
**/
void receivedStdout(OProcess *proc, char *buffer, int buflen);
/**
* Emitted when output from the child process has
* been received on stdout.
*
* To actually get these signals, the respective communications link
* (stdout/stderr) has to be turned on in @ref start() and the
* @p NoRead flag should have been passed.
*
* You will need to explicitly call resume() after your call to start()
* to begin processing data from the child process's stdout. This is
* to ensure that this signal is not emitted when no one is connected
* to it, otherwise this signal will not be emitted.
*
* The data still has to be read from file descriptor @p fd.
**/
void receivedStdout(int fd, int &len);
/**
* Emitted, when output from the child process has
* been received on stderr.
* To actually get
* these signals, the respective communication link (stdout/stderr)
* has to be turned on in @ref start().
*
* @param buffer The data received.
* @param buflen The number of bytes that are available.
*
* You should copy the information contained in @p buffer to your private
* data structures before returning from this slot.
*/
void receivedStderr(OProcess *proc, char *buffer, int buflen);
/**
* Emitted after all the data that has been
* specified by a prior call to @ref writeStdin() has actually been
* written to the child process.
**/
void wroteStdin(OProcess *proc);
protected slots:
/**
* This slot gets activated when data from the child's stdout arrives.
* It usually calls "childOutput"
*/
void slotChildOutput(int fdno);
/**
* This slot gets activated when data from the child's stderr arrives.
* It usually calls "childError"
*/
void slotChildError(int fdno);
/*
Slot functions for capturing stdout and stderr of the child
*/
/**
* Called when another bulk of data can be sent to the child's
* stdin. If there is no more data to be sent to stdin currently
* available, this function must disable the QSocketNotifier "innot".
*/
void slotSendData(int dummy);
protected:
/**
* Sets up the environment according to the data passed via
* setEnvironment(...)
*/
void setupEnvironment();
/**
* The list of the process' command line arguments. The first entry
* in this list is the executable itself.
*/
QValueList<QCString> arguments;
/**
* How to run the process (Block, NotifyOnExit, DontCare). You should
* not modify this data member directly from derived classes.
*/
RunMode run_mode;
/**
* true if the process is currently running. You should not
* modify this data member directly from derived classes. For
* reading the value of this data member, please use "isRunning()"
* since "runs" will probably be made private in later versions
* of OProcess.
*/
bool runs;
/**
* The PID of the currently running process (see "getPid()").
* You should not modify this data member in derived classes.
* Please use "getPid()" instead of directly accessing this
* member function since it will probably be made private in
* later versions of OProcess.
*/
pid_t pid_;
/**
* The process' exit status as returned by "waitpid". You should not
* modify the value of this data member from derived classes. You should
* rather use @ref exitStatus than accessing this data member directly
* since it will probably be made private in further versions of
* OProcess.
*/
int status;
/**
* See setRunPrivileged()
*/
bool keepPrivs;
/*
Functions for setting up the sockets for communication.
setupCommunication
-- is called from "start" before "fork"ing.
commSetupDoneP
-- completes communication socket setup in the parent
commSetupDoneC
-- completes communication setup in the child process
commClose
-- frees all allocated communication resources in the parent
after the process has exited
*/
/**
* This function is called from "OProcess::start" right before a "fork" takes
* place. According to
* the "comm" parameter this function has to initialize the "in", "out" and
* "err" data member of OProcess.
*
* This function should return 0 if setting the needed communication channels
* was successful.
*
* The default implementation is to create UNIX STREAM sockets for the communication,
* but you could overload this function and establish a TCP/IP communication for
* network communication, for example.
*/
virtual int setupCommunication(Communication comm);
/**
* Called right after a (successful) fork on the parent side. This function
* will usually do some communications cleanup, like closing the reading end
* of the "stdin" communication channel.
*
* Furthermore, it must also create the QSocketNotifiers "innot", "outnot" and
* "errnot" and connect their Qt slots to the respective OProcess member functions.
*
* For a more detailed explanation, it is best to have a look at the default
* implementation of "setupCommunication" in kprocess.cpp.
*/
virtual int commSetupDoneP();
/**
* Called right after a (successful) fork, but before an "exec" on the child
* process' side. It usually just closes the unused communication ends of
* "in", "out" and "err" (like the writing end of the "in" communication
* channel.
*/
virtual int commSetupDoneC();
/**
* Immediately called after a process has exited. This function normally
* calls commClose to close all open communication channels to this
* process and emits the "processExited" signal (if the process was
* not running in the "DontCare" mode).
*/
virtual void processHasExited(int state);
/**
* Should clean up the communication links to the child after it has
* exited. Should be called from "processHasExited".
*/
virtual void commClose();
/**
* the socket descriptors for stdin/stdout/stderr.
*/
int out[2];
int in[2];
int err[2];
/**
* The socket notifiers for the above socket descriptors.
*/
QSocketNotifier *innot;
QSocketNotifier *outnot;
QSocketNotifier *errnot;
/**
* Lists the communication links that are activated for the child
* process. Should not be modified from derived classes.
*/
Communication communication;
/**
* Called by "slotChildOutput" this function copies data arriving from the
* child process's stdout to the respective buffer and emits the signal
* "@ref receivedStderr".
*/
int childOutput(int fdno);
/**
* Called by "slotChildOutput" this function copies data arriving from the
* child process's stdout to the respective buffer and emits the signal
* "@ref receivedStderr"
*/
int childError(int fdno);
// information about the data that has to be sent to the child:
const char *input_data; // the buffer holding the data
int input_sent; // # of bytes already transmitted
int input_total; // total length of input_data
/**
* @ref OProcessController is a friend of OProcess because it has to have
* access to various data members.
*/
friend class OProcessController;
private:
/**
* Searches for a valid shell.
* Here is the algorithm used for finding an executable shell:
*
* @li Try the executable pointed to by the "SHELL" environment
* variable with white spaces stripped off
*
* @li If your process runs with uid != euid or gid != egid, a shell
* not listed in /etc/shells will not used.
*
* @li If no valid shell could be found, "/bin/sh" is used as a last resort.
*/
QCString searchShell();
/**
* Used by @ref searchShell in order to find out whether the shell found
* is actually executable at all.
*/
bool isExecutable(const QCString &filename);
// Disallow assignment and copy-construction
OProcess( const OProcess& );
OProcess& operator= ( const OProcess& );
-protected:
- virtual void virtual_hook( int id, void* data );
private:
- OProcessPrivate *d;
-};
-
-class KShellProcessPrivate;
-
-/**
-* @obsolete
-*
-* This class is obsolete. Use OProcess and OProcess::setUseShell(true)
-* instead.
-*
-* @short A class derived from @ref OProcess to start child
-* processes through a shell.
-* @author Christian Czezakte <e9025461@student.tuwien.ac.at>
-* @version $Id$
-*/
-class KShellProcess: public OProcess
-{
- Q_OBJECT
-
-public:
-
- /**
- * Constructor
- *
- * By specifying the name of a shell (like "/bin/bash") you can override
- * the mechanism for finding a valid shell as described in OProcess::searchShell()
- */
- KShellProcess(const char *shellname=0);
-
- /**
- * Destructor.
- */
- ~KShellProcess();
+ void init ( );
- /**
- * Starts up the process. -- For a detailed description
- * have a look at the "start" member function and the detailed
- * description of @ref OProcess .
- */
- virtual bool start(RunMode runmode = NotifyOnExit,
- Communication comm = NoCommunication);
-
- /**
- * This function can be used to quote an argument string such that
- * the shell processes it properly. This is e. g. necessary for
- * user-provided file names which may contain spaces or quotes.
- * It also prevents expansion of wild cards and environment variables.
- */
- static QString quote(const QString &arg);
-
-private:
-
- QCString shell;
-
- // Disallow assignment and copy-construction
- KShellProcess( const KShellProcess& );
- KShellProcess& operator= ( const KShellProcess& );
-
-protected:
- virtual void virtual_hook( int id, void* data );
-private:
- KShellProcessPrivate *d;
+ OProcessPrivate *d;
};
#endif