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tdelibs/kinit/klauncher.cpp

1422 lines
43 KiB

/*
This file is part of the KDE libraries
Copyright (c) 1999 Waldo Bastian <bastian@kde.org>
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.
*/
#ifdef HAVE_CONFIG_H
#include <config.h>
#endif
#include <stdio.h>
#include <unistd.h>
#include <stdlib.h>
#include <errno.h>
#include <signal.h>
#include <sys/time.h>
#include <tqfile.h>
#include <kconfig.h>
#include <kdebug.h>
#include <klibloader.h>
#include <klocale.h>
#include <kprotocolmanager.h>
#include <kprotocolinfo.h>
#include <krun.h>
#include <kstandarddirs.h>
#include <ktempfile.h>
#include <kurl.h>
#if defined Q_WS_X11 && ! defined K_WS_QTONLY
#include <kstartupinfo.h> // schroder
#endif
#include "kio/global.h"
#include "kio/connection.h"
#include "kio/slaveinterface.h"
#include "klauncher.h"
#include "klauncher_cmds.h"
//#if defined Q_WS_X11 && ! defined K_WS_QTONLY
#ifdef Q_WS_X11
//#undef K_WS_QTONLY
#include <X11/Xlib.h> // schroder
#endif
// Dispose slaves after being idle for SLAVE_MAX_IDLE seconds
#define SLAVE_MAX_IDLE 30
using namespace KIO;
template class TQPtrList<KLaunchRequest>;
template class TQPtrList<IdleSlave>;
IdleSlave::IdleSlave(KSocket *socket)
{
mConn.init(socket);
mConn.connect(this, TQT_SLOT(gotInput()));
mConn.send( CMD_SLAVE_STATUS );
mPid = 0;
mBirthDate = time(0);
mOnHold = false;
}
void
IdleSlave::gotInput()
{
int cmd;
TQByteArray data;
if (mConn.read( &cmd, data) == -1)
{
// Communication problem with slave.
kdError(7016) << "SlavePool: No communication with slave." << endl;
delete this;
}
else if (cmd == MSG_SLAVE_ACK)
{
delete this;
}
else if (cmd != MSG_SLAVE_STATUS)
{
kdError(7016) << "SlavePool: Unexpected data from slave." << endl;
delete this;
}
else
{
TQDataStream stream( data, IO_ReadOnly );
pid_t pid;
TQCString protocol;
TQString host;
TQ_INT8 b;
stream >> pid >> protocol >> host >> b;
// Overload with (bool) onHold, (KURL) url.
if (!stream.atEnd())
{
KURL url;
stream >> url;
mOnHold = true;
mUrl = url;
}
mPid = pid;
mConnected = (b != 0);
mProtocol = protocol;
mHost = host;
emit statusUpdate(this);
}
}
void
IdleSlave::connect(const TQString &app_socket)
{
TQByteArray data;
TQDataStream stream( data, IO_WriteOnly);
stream << app_socket;
mConn.send( CMD_SLAVE_CONNECT, data );
// Timeout!
}
void
IdleSlave::reparseConfiguration()
{
mConn.send( CMD_REPARSECONFIGURATION );
}
bool
IdleSlave::match(const TQString &protocol, const TQString &host, bool connected)
{
if (mOnHold) return false;
if (protocol != mProtocol) return false;
if (host.isEmpty()) return true;
if (host != mHost) return false;
if (!connected) return true;
if (!mConnected) return false;
return true;
}
bool
IdleSlave::onHold(const KURL &url)
{
if (!mOnHold) return false;
return (url == mUrl);
}
int
IdleSlave::age(time_t now)
{
return (int) difftime(now, mBirthDate);
}
KLauncher::KLauncher(int _kdeinitSocket, bool new_startup)
// : KApplication( false, false ), // No Styles, No GUI
: KApplication( false, true ), // TQClipboard tries to construct a QWidget so a GUI is technically needed, even though it is not used
DCOPObject("klauncher"),
kdeinitSocket(_kdeinitSocket), mAutoStart( new_startup ),
dontBlockReading(false), newStartup( new_startup )
{
#ifdef Q_WS_X11
mCached_dpy = NULL;
#endif
connect(&mAutoTimer, TQT_SIGNAL(timeout()), this, TQT_SLOT(slotAutoStart()));
requestList.setAutoDelete(true);
mSlaveWaitRequest.setAutoDelete(true);
dcopClient()->setNotifications( true );
connect(dcopClient(), TQT_SIGNAL( applicationRegistered( const TQCString &)),
this, TQT_SLOT( slotAppRegistered( const TQCString &)));
dcopClient()->connectDCOPSignal( "DCOPServer", "", "terminateKDE()",
objId(), "terminateKDE()", false );
TQString prefix = locateLocal("socket", "klauncher");
KTempFile domainname(prefix, TQString::fromLatin1(".slave-socket"));
if (domainname.status() != 0)
{
// Sever error!
qDebug("KLauncher: Fatal error, can't create tempfile!");
::exit(1);
}
mPoolSocketName = domainname.name();
#ifdef __CYGWIN__
domainname.close();
domainname.unlink();
#endif
mPoolSocket = new KServerSocket(static_cast<const char*>(TQFile::encodeName(mPoolSocketName)));
connect(mPoolSocket, TQT_SIGNAL(accepted( KSocket *)),
TQT_SLOT(acceptSlave(KSocket *)));
connect(&mTimer, TQT_SIGNAL(timeout()), TQT_SLOT(idleTimeout()));
kdeinitNotifier = new TQSocketNotifier(kdeinitSocket, TQSocketNotifier::Read);
connect(kdeinitNotifier, TQT_SIGNAL( activated( int )),
this, TQT_SLOT( slotKDEInitData( int )));
kdeinitNotifier->setEnabled( true );
lastRequest = 0;
bProcessingQueue = false;
mSlaveDebug = getenv("KDE_SLAVE_DEBUG_WAIT");
if (!mSlaveDebug.isEmpty())
{
qWarning("Klauncher running in slave-debug mode for slaves of protocol '%s'", mSlaveDebug.data());
}
mSlaveValgrind = getenv("KDE_SLAVE_VALGRIND");
if (!mSlaveValgrind.isEmpty())
{
mSlaveValgrindSkin = getenv("KDE_SLAVE_VALGRIND_SKIN");
qWarning("Klauncher running slaves through valgrind for slaves of protocol '%s'", mSlaveValgrind.data());
}
klauncher_header request_header;
request_header.cmd = LAUNCHER_OK;
request_header.arg_length = 0;
write(kdeinitSocket, &request_header, sizeof(request_header));
}
KLauncher::~KLauncher()
{
close();
}
void KLauncher::close()
{
if (!mPoolSocketName.isEmpty())
{
TQCString filename = TQFile::encodeName(mPoolSocketName);
unlink(filename.data());
}
#if defined Q_WS_X11 && ! defined K_WS_QTONLY
//#ifdef Q_WS_X11
if( mCached_dpy != NULL )
XCloseDisplay( mCached_dpy );
#endif
}
void
KLauncher::destruct(int exit_code)
{
if (kapp) ((KLauncher*)kapp)->close();
// We don't delete kapp here, that's intentional.
::exit(exit_code);
}
bool
KLauncher::process(const TQCString &fun, const TQByteArray &data,
TQCString &replyType, TQByteArray &replyData)
{
if ((fun == "exec_blind(TQCString,TQValueList<TQCString>)")
|| (fun == "exec_blind(TQCString,TQValueList<TQCString>,TQValueList<TQCString>,TQCString)"))
{
TQDataStream stream(data, IO_ReadOnly);
replyType = "void";
TQCString name;
TQValueList<TQCString> arg_list;
TQCString startup_id = "0";
TQValueList<TQCString> envs;
stream >> name >> arg_list;
if( fun == "exec_blind(TQCString,TQValueList<TQCString>,TQValueList<TQCString>,TQCString)" )
stream >> envs >> startup_id;
kdDebug(7016) << "KLauncher: Got exec_blind('" << name << "', ...)" << endl;
exec_blind( name, arg_list, envs, startup_id);
return true;
}
if ((fun == "start_service_by_name(TQString,TQStringList)") ||
(fun == "start_service_by_desktop_path(TQString,TQStringList)")||
(fun == "start_service_by_desktop_name(TQString,TQStringList)")||
(fun == "kdeinit_exec(TQString,TQStringList)") ||
(fun == "kdeinit_exec_wait(TQString,TQStringList)") ||
(fun == "start_service_by_name(TQString,TQStringList,TQValueList<TQCString>,TQCString)") ||
(fun == "start_service_by_desktop_path(TQString,TQStringList,TQValueList<TQCString>,TQCString)")||
(fun == "start_service_by_desktop_name(TQString,TQStringList,TQValueList<TQCString>,TQCString)") ||
(fun == "start_service_by_name(TQString,TQStringList,TQValueList<TQCString>,TQCString,bool)") ||
(fun == "start_service_by_desktop_path(TQString,TQStringList,TQValueList<TQCString>,TQCString,bool)")||
(fun == "start_service_by_desktop_name(TQString,TQStringList,TQValueList<TQCString>,TQCString,bool)") ||
(fun == "kdeinit_exec(TQString,TQStringList,TQValueList<TQCString>)") ||
(fun == "kdeinit_exec_wait(TQString,TQStringList,TQValueList<TQCString>)") ||
(fun == "kdeinit_exec(TQString,TQStringList,TQValueList<TQCString>,TQCString)") ||
(fun == "kdeinit_exec_wait(TQString,TQStringList,TQValueList<TQCString>,TQCString)"))
{
TQDataStream stream(data, IO_ReadOnly);
bool bNoWait = false;
TQString serviceName;
TQStringList urls;
TQValueList<TQCString> envs;
TQCString startup_id = "";
DCOPresult.result = -1;
DCOPresult.dcopName = 0;
DCOPresult.error = TQString::null;
DCOPresult.pid = 0;
stream >> serviceName >> urls;
if ((fun == "start_service_by_name(TQString,TQStringList,TQValueList<TQCString>,TQCString,bool)") ||
(fun == "start_service_by_desktop_path(TQString,TQStringList,TQValueList<TQCString>,TQCString,bool)")||
(fun == "start_service_by_desktop_name(TQString,TQStringList,TQValueList<TQCString>,TQCString,bool)"))
stream >> envs >> startup_id >> bNoWait;
else if ((fun == "start_service_by_name(TQString,TQStringList,TQValueList<TQCString>,TQCString)") ||
(fun == "start_service_by_desktop_path(TQString,TQStringList,TQValueList<TQCString>,TQCString)")||
(fun == "start_service_by_desktop_name(TQString,TQStringList,TQValueList<TQCString>,TQCString)"))
stream >> envs >> startup_id;
else if ((fun == "kdeinit_exec(TQString,TQStringList,TQValueList<TQCString>)") ||
(fun == "kdeinit_exec_wait(TQString,TQStringList,TQValueList<TQCString>)"))
stream >> envs;
else if ((fun == "kdeinit_exec(TQString,TQStringList,TQValueList<TQCString>,TQCString)") ||
(fun == "kdeinit_exec_wait(TQString,TQStringList,TQValueList<TQCString>,TQCString)"))
stream >> envs >> startup_id;
bool finished;
if (strncmp(fun, "start_service_by_name(", 22) == 0)
{
kdDebug(7016) << "KLauncher: Got start_service_by_name('" << serviceName << "', ...)" << endl;
finished = start_service_by_name(serviceName, urls, envs, startup_id, bNoWait);
}
else if (strncmp(fun, "start_service_by_desktop_path(", 30) == 0)
{
kdDebug(7016) << "KLauncher: Got start_service_by_desktop_path('" << serviceName << "', ...)" << endl;
finished = start_service_by_desktop_path(serviceName, urls, envs, startup_id, bNoWait);
}
else if (strncmp(fun, "start_service_by_desktop_name(", 30) == 0)
{
kdDebug(7016) << "KLauncher: Got start_service_by_desktop_name('" << serviceName << "', ...)" << endl;
finished = start_service_by_desktop_name(serviceName, urls, envs, startup_id, bNoWait );
}
else if ((fun == "kdeinit_exec(TQString,TQStringList)")
|| (fun == "kdeinit_exec(TQString,TQStringList,TQValueList<TQCString>)")
|| (fun == "kdeinit_exec(TQString,TQStringList,TQValueList<TQCString>,TQCString)"))
{
kdDebug(7016) << "KLauncher: Got kdeinit_exec('" << serviceName << "', ...)" << endl;
finished = kdeinit_exec(serviceName, urls, envs, startup_id, false);
}
else
{
kdDebug(7016) << "KLauncher: Got kdeinit_exec_wait('" << serviceName << "', ...)" << endl;
finished = kdeinit_exec(serviceName, urls, envs, startup_id, true);
}
if (!finished)
{
replyType = "serviceResult";
TQDataStream stream2(replyData, IO_WriteOnly);
stream2 << DCOPresult.result << DCOPresult.dcopName << DCOPresult.error << DCOPresult.pid;
}
return true;
}
else if (fun == "requestSlave(TQString,TQString,TQString)")
{
TQDataStream stream(data, IO_ReadOnly);
TQString protocol;
TQString host;
TQString app_socket;
stream >> protocol >> host >> app_socket;
replyType = "TQString";
TQString error;
pid_t pid = requestSlave(protocol, host, app_socket, error);
TQDataStream stream2(replyData, IO_WriteOnly);
stream2 << pid << error;
return true;
}
else if (fun == "requestHoldSlave(KURL,TQString)")
{
TQDataStream stream(data, IO_ReadOnly);
KURL url;
TQString app_socket;
stream >> url >> app_socket;
replyType = "pid_t";
pid_t pid = requestHoldSlave(url, app_socket);
TQDataStream stream2(replyData, IO_WriteOnly);
stream2 << pid;
return true;
}
else if (fun == "waitForSlave(pid_t)")
{
TQDataStream stream(data, IO_ReadOnly);
pid_t pid;
stream >> pid;
waitForSlave(pid);
replyType = "void";
return true;
}
else if (fun == "setLaunchEnv(TQCString,TQCString)")
{
TQDataStream stream(data, IO_ReadOnly);
TQCString name;
TQCString value;
stream >> name >> value;
setLaunchEnv(name, value);
replyType = "void";
return true;
}
else if (fun == "reparseConfiguration()")
{
KGlobal::config()->reparseConfiguration();
kdDebug(7016) << "KLauncher::process : reparseConfiguration" << endl;
KProtocolManager::reparseConfiguration();
IdleSlave *slave;
for(slave = mSlaveList.first(); slave; slave = mSlaveList.next())
slave->reparseConfiguration();
replyType = "void";
return true;
}
else if (fun == "terminateKDE()")
{
::signal( SIGHUP, SIG_IGN);
::signal( SIGTERM, SIG_IGN);
kdDebug() << "KLauncher::process ---> terminateKDE" << endl;
klauncher_header request_header;
request_header.cmd = LAUNCHER_TERMINATE_KDE;
request_header.arg_length = 0;
write(kdeinitSocket, &request_header, sizeof(request_header));
destruct(0);
}
else if (fun == "autoStart()")
{
kdDebug() << "KLauncher::process ---> autoStart" << endl;
autoStart(1);
replyType = "void";
return true;
}
else if (fun == "autoStart(int)")
{
kdDebug() << "KLauncher::process ---> autoStart(int)" << endl;
TQDataStream stream(data, IO_ReadOnly);
int phase;
stream >> phase;
autoStart(phase);
replyType = "void";
return true;
}
if (DCOPObject::process(fun, data, replyType, replyData))
{
return true;
}
kdWarning(7016) << "Got unknown DCOP function: " << fun << endl;
return false;
}
QCStringList
KLauncher::interfaces()
{
QCStringList ifaces = DCOPObject::interfaces();
ifaces += "KLauncher";
return ifaces;
}
QCStringList
KLauncher::functions()
{
QCStringList funcs = DCOPObject::functions();
funcs << "void exec_blind(TQCString,TQValueList<TQCString>)";
funcs << "void exec_blind(TQCString,TQValueList<TQCString>,TQValueList<TQCString>,TQCString)";
funcs << "serviceResult start_service_by_name(TQString,TQStringList)";
funcs << "serviceResult start_service_by_desktop_path(TQString,TQStringList)";
funcs << "serviceResult start_service_by_desktop_name(TQString,TQStringList)";
funcs << "serviceResult kdeinit_exec(TQString,TQStringList)";
funcs << "serviceResult kdeinit_exec_wait(TQString,TQStringList)";
funcs << "serviceResult start_service_by_name(TQString,TQStringList,TQValueList<TQCString>,TQCString)";
funcs << "serviceResult start_service_by_desktop_path(TQString,TQStringList,TQValueList<TQCString>,TQCString)";
funcs << "serviceResult start_service_by_desktop_name(TQString,TQStringList,TQValueList<TQCString>,TQCString)";
funcs << "serviceResult start_service_by_name(TQString,TQStringList,TQValueList<TQCString>,TQCString,bool)";
funcs << "serviceResult start_service_by_desktop_path(TQString,TQStringList,TQValueList<TQCString>,TQCString,bool)";
funcs << "serviceResult start_service_by_desktop_name(TQString,TQStringList,TQValueList<TQCString>,TQCString,bool)";
funcs << "serviceResult kdeinit_exec(TQString,TQStringList,TQValueList<TQCString>)";
funcs << "serviceResult kdeinit_exec_wait(TQString,TQStringList,TQValueList<TQCString>)";
funcs << "TQString requestSlave(TQString,TQString,TQString)";
funcs << "pid_t requestHoldSlave(KURL,TQString)";
funcs << "void waitForSlave(pid_t)";
funcs << "void setLaunchEnv(TQCString,TQCString)";
funcs << "void reparseConfiguration()";
// funcs << "void terminateKDE()";
funcs << "void autoStart()";
funcs << "void autoStart(int)";
return funcs;
}
void KLauncher::setLaunchEnv(const TQCString &name, const TQCString &_value)
{
TQCString value(_value);
if (value.isNull())
value = "";
klauncher_header request_header;
TQByteArray requestData(name.length()+value.length()+2);
memcpy(requestData.data(), name.data(), name.length()+1);
memcpy(requestData.data()+name.length()+1, value.data(), value.length()+1);
request_header.cmd = LAUNCHER_SETENV;
request_header.arg_length = requestData.size();
write(kdeinitSocket, &request_header, sizeof(request_header));
write(kdeinitSocket, requestData.data(), request_header.arg_length);
}
/*
* Read 'len' bytes from 'sock' into buffer.
* returns -1 on failure, 0 on no data.
*/
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))
return -1;
}
return 0;
}
void
KLauncher::slotKDEInitData(int)
{
klauncher_header request_header;
TQByteArray requestData;
if( dontBlockReading )
{
// in case we get a request to start an application and data arrive
// to kdeinitSocket at the same time, requestStart() will already
// call slotKDEInitData(), so we must check there's still something
// to read, otherwise this would block
fd_set in;
timeval tm = { 0, 0 };
FD_ZERO ( &in );
FD_SET( kdeinitSocket, &in );
select( kdeinitSocket + 1, &in, 0, 0, &tm );
if( !FD_ISSET( kdeinitSocket, &in ))
return;
}
dontBlockReading = false;
int result = read_socket(kdeinitSocket, (char *) &request_header,
sizeof( request_header));
if (result == -1)
{
kdDebug() << "Exiting on read_socket errno: " << errno << endl;
::signal( SIGHUP, SIG_IGN);
::signal( SIGTERM, SIG_IGN);
destruct(255); // Exit!
}
requestData.resize(request_header.arg_length);
result = read_socket(kdeinitSocket, (char *) requestData.data(),
request_header.arg_length);
if (request_header.cmd == LAUNCHER_DIED)
{
long *request_data;
request_data = (long *) requestData.data();
processDied(request_data[0], request_data[1]);
return;
}
if (lastRequest && (request_header.cmd == LAUNCHER_OK))
{
long *request_data;
request_data = (long *) requestData.data();
lastRequest->pid = (pid_t) (*request_data);
kdDebug(7016) << lastRequest->name << " (pid " << lastRequest->pid <<
") up and running." << endl;
switch(lastRequest->dcop_service_type)
{
case KService::DCOP_None:
{
lastRequest->status = KLaunchRequest::Running;
break;
}
case KService::DCOP_Unique:
{
lastRequest->status = KLaunchRequest::Launching;
break;
}
case KService::DCOP_Wait:
{
lastRequest->status = KLaunchRequest::Launching;
break;
}
case KService::DCOP_Multi:
{
lastRequest->status = KLaunchRequest::Launching;
break;
}
}
lastRequest = 0;
return;
}
if (lastRequest && (request_header.cmd == LAUNCHER_ERROR))
{
lastRequest->status = KLaunchRequest::Error;
if (!requestData.isEmpty())
lastRequest->errorMsg = TQString::fromUtf8((char *) requestData.data());
lastRequest = 0;
return;
}
kdWarning(7016) << "Unexpected command from KDEInit (" << (unsigned int) request_header.cmd
<< ")" << endl;
}
void
KLauncher::processDied(pid_t pid, long /* exitStatus */)
{
KLaunchRequest *request = requestList.first();
for(; request; request = requestList.next())
{
if (request->pid == pid)
{
if (request->dcop_service_type == KService::DCOP_Wait)
request->status = KLaunchRequest::Done;
else if ((request->dcop_service_type == KService::DCOP_Unique) &&
(dcopClient()->isApplicationRegistered(request->dcop_name)))
request->status = KLaunchRequest::Running;
else
request->status = KLaunchRequest::Error;
requestDone(request);
return;
}
}
}
void
KLauncher::slotAppRegistered(const TQCString &appId)
{
const char *cAppId = appId.data();
if (!cAppId) return;
KLaunchRequest *request = requestList.first();
KLaunchRequest *nextRequest;
for(; request; request = nextRequest)
{
nextRequest = requestList.next();
if (request->status != KLaunchRequest::Launching)
continue;
// For unique services check the requested service name first
if ((request->dcop_service_type == KService::DCOP_Unique) &&
((appId == request->dcop_name) ||
dcopClient()->isApplicationRegistered(request->dcop_name)))
{
request->status = KLaunchRequest::Running;
requestDone(request);
continue;
}
const char *rAppId = request->dcop_name.data();
if (!rAppId) continue;
int l = strlen(rAppId);
if ((strncmp(rAppId, cAppId, l) == 0) &&
((cAppId[l] == '\0') || (cAppId[l] == '-')))
{
request->dcop_name = appId;
request->status = KLaunchRequest::Running;
requestDone(request);
continue;
}
}
}
void
KLauncher::autoStart(int phase)
{
if( mAutoStart.phase() >= phase )
return;
mAutoStart.setPhase(phase);
if( newStartup )
{
if (phase == 0)
mAutoStart.loadAutoStartList();
}
else
{
if (phase == 1)
mAutoStart.loadAutoStartList();
}
mAutoTimer.start(0, true);
}
void
KLauncher::slotAutoStart()
{
KService::Ptr s;
do
{
TQString service = mAutoStart.startService();
if (service.isEmpty())
{
// Done
if( !mAutoStart.phaseDone())
{
mAutoStart.setPhaseDone();
// Emit signal
if( newStartup )
{
TQCString autoStartSignal;
autoStartSignal.sprintf( "autoStart%dDone()", mAutoStart.phase());
emitDCOPSignal(autoStartSignal, TQByteArray());
}
else
{
TQCString autoStartSignal( "autoStartDone()" );
int phase = mAutoStart.phase();
if ( phase > 1 )
autoStartSignal.sprintf( "autoStart%dDone()", phase );
emitDCOPSignal(autoStartSignal, TQByteArray());
}
}
return;
}
s = new KService(service);
}
while (!start_service(s, TQStringList(), TQValueList<TQCString>(), "0", false, true));
// Loop till we find a service that we can start.
}
void
KLauncher::requestDone(KLaunchRequest *request)
{
if ((request->status == KLaunchRequest::Running) ||
(request->status == KLaunchRequest::Done))
{
DCOPresult.result = 0;
DCOPresult.dcopName = request->dcop_name;
DCOPresult.error = TQString::null;
DCOPresult.pid = request->pid;
}
else
{
DCOPresult.result = 1;
DCOPresult.dcopName = "";
DCOPresult.error = i18n("KDEInit could not launch '%1'.").arg(TQString(request->name));
if (!request->errorMsg.isEmpty())
DCOPresult.error += ":\n" + request->errorMsg;
DCOPresult.pid = 0;
#if defined Q_WS_X11 && ! defined K_WS_QTONLY
//#ifdef Q_WS_X11
if (!request->startup_dpy.isEmpty())
{
Display* dpy = NULL;
if( (mCached_dpy != NULL) &&
(request->startup_dpy == XDisplayString( mCached_dpy )))
dpy = mCached_dpy;
if( dpy == NULL )
dpy = XOpenDisplay( request->startup_dpy );
if( dpy )
{
KStartupInfoId id;
id.initId( request->startup_id );
KStartupInfo::sendFinishX( dpy, id );
if( mCached_dpy != dpy && mCached_dpy != NULL )
XCloseDisplay( mCached_dpy );
mCached_dpy = dpy;
}
}
#endif
}
if (request->autoStart)
{
mAutoTimer.start(0, true);
}
if (request->transaction)
{
TQByteArray replyData;
TQCString replyType;
replyType = "serviceResult";
TQDataStream stream2(replyData, IO_WriteOnly);
stream2 << DCOPresult.result << DCOPresult.dcopName << DCOPresult.error << DCOPresult.pid;
dcopClient()->endTransaction( request->transaction,
replyType, replyData);
}
requestList.removeRef( request );
}
void
KLauncher::requestStart(KLaunchRequest *request)
{
requestList.append( request );
// Send request to kdeinit.
klauncher_header request_header;
TQByteArray requestData;
int length = 0;
length += sizeof(long); // Nr of. Args
length += request->name.length() + 1; // Cmd
for(TQValueList<TQCString>::Iterator it = request->arg_list.begin();
it != request->arg_list.end();
it++)
{
length += (*it).length() + 1; // Args...
}
length += sizeof(long); // Nr of. envs
for(TQValueList<TQCString>::ConstIterator it = request->envs.begin();
it != request->envs.end();
it++)
{
length += (*it).length() + 1; // Envs...
}
length += sizeof( long ); // avoid_loops
#ifdef Q_WS_X11
bool startup_notify = !request->startup_id.isNull() && request->startup_id != "0";
if( startup_notify )
length += request->startup_id.length() + 1;
#endif
if (!request->cwd.isEmpty())
length += request->cwd.length() + 1;
requestData.resize( length );
char *p = requestData.data();
long l = request->arg_list.count()+1;
memcpy(p, &l, sizeof(long));
p += sizeof(long);
strcpy(p, request->name.data());
p += strlen(p) + 1;
for(TQValueList<TQCString>::Iterator it = request->arg_list.begin();
it != request->arg_list.end();
it++)
{
strcpy(p, (*it).data());
p += strlen(p) + 1;
}
l = request->envs.count();
memcpy(p, &l, sizeof(long));
p += sizeof(long);
for(TQValueList<TQCString>::ConstIterator it = request->envs.begin();
it != request->envs.end();
it++)
{
strcpy(p, (*it).data());
p += strlen(p) + 1;
}
l = 0; // avoid_loops, always false here
memcpy(p, &l, sizeof(long));
p += sizeof(long);
#ifdef Q_WS_X11
if( startup_notify )
{
strcpy(p, request->startup_id.data());
p += strlen( p ) + 1;
}
#endif
if (!request->cwd.isEmpty())
{
strcpy(p, request->cwd.data());
p += strlen( p ) + 1;
}
#ifdef Q_WS_X11
request_header.cmd = startup_notify ? LAUNCHER_EXT_EXEC : LAUNCHER_EXEC_NEW;
#else
request_header.cmd = LAUNCHER_EXEC_NEW;
#endif
request_header.arg_length = length;
write(kdeinitSocket, &request_header, sizeof(request_header));
write(kdeinitSocket, requestData.data(), request_header.arg_length);
// Wait for pid to return.
lastRequest = request;
dontBlockReading = false;
do {
slotKDEInitData( kdeinitSocket );
}
while (lastRequest != 0);
dontBlockReading = true;
}
void
KLauncher::exec_blind( const TQCString &name, const TQValueList<TQCString> &arg_list,
const TQValueList<TQCString> &envs, const TQCString& startup_id )
{
KLaunchRequest *request = new KLaunchRequest;
request->autoStart = false;
request->name = name;
request->arg_list = arg_list;
request->dcop_name = 0;
request->dcop_service_type = KService::DCOP_None;
request->pid = 0;
request->status = KLaunchRequest::Launching;
request->transaction = 0; // No confirmation is send
request->envs = envs;
// Find service, if any - strip path if needed
KService::Ptr service = KService::serviceByDesktopName( name.mid( name.findRev( '/' ) + 1 ));
if (service != NULL)
send_service_startup_info( request, service,
startup_id, TQValueList< TQCString >());
else // no .desktop file, no startup info
cancel_service_startup_info( request, startup_id, envs );
requestStart(request);
// We don't care about this request any longer....
requestDone(request);
}
bool
KLauncher::start_service_by_name(const TQString &serviceName, const TQStringList &urls,
const TQValueList<TQCString> &envs, const TQCString& startup_id, bool blind)
{
KService::Ptr service = 0;
// Find service
service = KService::serviceByName(serviceName);
if (!service)
{
DCOPresult.result = ENOENT;
DCOPresult.error = i18n("Could not find service '%1'.").arg(serviceName);
cancel_service_startup_info( NULL, startup_id, envs ); // cancel it if any
return false;
}
return start_service(service, urls, envs, startup_id, blind);
}
bool
KLauncher::start_service_by_desktop_path(const TQString &serviceName, const TQStringList &urls,
const TQValueList<TQCString> &envs, const TQCString& startup_id, bool blind)
{
KService::Ptr service = 0;
// Find service
if (serviceName[0] == '/')
{
// Full path
service = new KService(serviceName);
}
else
{
service = KService::serviceByDesktopPath(serviceName);
}
if (!service)
{
DCOPresult.result = ENOENT;
DCOPresult.error = i18n("Could not find service '%1'.").arg(serviceName);
cancel_service_startup_info( NULL, startup_id, envs ); // cancel it if any
return false;
}
return start_service(service, urls, envs, startup_id, blind);
}
bool
KLauncher::start_service_by_desktop_name(const TQString &serviceName, const TQStringList &urls,
const TQValueList<TQCString> &envs, const TQCString& startup_id, bool blind)
{
KService::Ptr service = 0;
// Find service
service = KService::serviceByDesktopName(serviceName);
if (!service)
{
DCOPresult.result = ENOENT;
DCOPresult.error = i18n("Could not find service '%1'.").arg(serviceName);
cancel_service_startup_info( NULL, startup_id, envs ); // cancel it if any
return false;
}
return start_service(service, urls, envs, startup_id, blind);
}
bool
KLauncher::start_service(KService::Ptr service, const TQStringList &_urls,
const TQValueList<TQCString> &envs, const TQCString& startup_id, bool blind, bool autoStart)
{
TQStringList urls = _urls;
if (!service->isValid())
{
DCOPresult.result = ENOEXEC;
DCOPresult.error = i18n("Service '%1' is malformatted.").arg(service->desktopEntryPath());
cancel_service_startup_info( NULL, startup_id, envs ); // cancel it if any
return false;
}
KLaunchRequest *request = new KLaunchRequest;
request->autoStart = autoStart;
if ((urls.count() > 1) && !service->allowMultipleFiles())
{
// We need to launch the application N times. That sucks.
// We ignore the result for application 2 to N.
// For the first file we launch the application in the
// usual way. The reported result is based on this
// application.
TQStringList::ConstIterator it = urls.begin();
for(++it;
it != urls.end();
++it)
{
TQStringList singleUrl;
singleUrl.append(*it);
TQCString startup_id2 = startup_id;
if( !startup_id2.isEmpty() && startup_id2 != "0" )
startup_id2 = "0"; // can't use the same startup_id several times
start_service( service, singleUrl, envs, startup_id2, true);
}
TQString firstURL = *(urls.begin());
urls.clear();
urls.append(firstURL);
}
createArgs(request, service, urls);
// We must have one argument at least!
if (!request->arg_list.count())
{
DCOPresult.result = ENOEXEC;
DCOPresult.error = i18n("Service '%1' is malformatted.").arg(service->desktopEntryPath());
delete request;
cancel_service_startup_info( NULL, startup_id, envs );
return false;
}
request->name = request->arg_list.first();
request->arg_list.remove(request->arg_list.begin());
request->dcop_service_type = service->DCOPServiceType();
if ((request->dcop_service_type == KService::DCOP_Unique) ||
(request->dcop_service_type == KService::DCOP_Multi))
{
TQVariant v = service->property("X-DCOP-ServiceName");
if (v.isValid())
request->dcop_name = v.toString().utf8();
if (request->dcop_name.isEmpty())
{
request->dcop_name = TQFile::encodeName(KRun::binaryName(service->exec(), true));
}
}
request->pid = 0;
request->transaction = 0;
request->envs = envs;
send_service_startup_info( request, service, startup_id, envs );
// Request will be handled later.
if (!blind && !autoStart)
{
request->transaction = dcopClient()->beginTransaction();
}
queueRequest(request);
return true;
}
void
KLauncher::send_service_startup_info( KLaunchRequest *request, KService::Ptr service, const TQCString& startup_id,
const TQValueList<TQCString> &envs )
{
#if defined Q_WS_X11 && ! defined K_WS_QTONLY
//#ifdef Q_WS_X11 // KStartup* isn't implemented for Qt/Embedded yet
request->startup_id = "0";
if( startup_id == "0" )
return;
bool silent;
TQCString wmclass;
if( !KRun::checkStartupNotify( TQString::null, service, &silent, &wmclass ))
return;
KStartupInfoId id;
id.initId( startup_id );
const char* dpy_str = NULL;
for( TQValueList<TQCString>::ConstIterator it = envs.begin();
it != envs.end();
++it )
if( strncmp( *it, "DISPLAY=", 8 ) == 0 )
dpy_str = static_cast< const char* >( *it ) + 8;
Display* dpy = NULL;
if( dpy_str != NULL && mCached_dpy != NULL
&& qstrcmp( dpy_str, XDisplayString( mCached_dpy )) == 0 )
dpy = mCached_dpy;
if( dpy == NULL )
dpy = XOpenDisplay( dpy_str );
request->startup_id = id.id();
if( dpy == NULL )
{
cancel_service_startup_info( request, startup_id, envs );
return;
}
request->startup_dpy = dpy_str;
KStartupInfoData data;
data.setName( service->name());
data.setIcon( service->icon());
data.setDescription( i18n( "Launching %1" ).arg( service->name()));
if( !wmclass.isEmpty())
data.setWMClass( wmclass );
if( silent )
data.setSilent( KStartupInfoData::Yes );
// the rest will be sent by kdeinit
KStartupInfo::sendStartupX( dpy, id, data );
if( mCached_dpy != dpy && mCached_dpy != NULL )
XCloseDisplay( mCached_dpy );
mCached_dpy = dpy;
return;
#else
return;
#endif
}
void
KLauncher::cancel_service_startup_info( KLaunchRequest* request, const TQCString& startup_id,
const TQValueList<TQCString> &envs )
{
#if defined Q_WS_X11 && ! defined K_WS_QTONLY
//#ifdef Q_WS_X11 // KStartup* isn't implemented for Qt/Embedded yet
if( request != NULL )
request->startup_id = "0";
if( !startup_id.isEmpty() && startup_id != "0" )
{
const char* dpy_str = NULL;
for( TQValueList<TQCString>::ConstIterator it = envs.begin();
it != envs.end();
++it )
if( strncmp( *it, "DISPLAY=", 8 ) == 0 )
dpy_str = static_cast< const char* >( *it ) + 8;
Display* dpy = NULL;
if( dpy_str != NULL && mCached_dpy != NULL
&& qstrcmp( dpy_str, XDisplayString( mCached_dpy )) == 0 )
dpy = mCached_dpy;
if( dpy == NULL )
dpy = XOpenDisplay( dpy_str );
if( dpy == NULL )
return;
KStartupInfoId id;
id.initId( startup_id );
KStartupInfo::sendFinishX( dpy, id );
if( mCached_dpy != dpy && mCached_dpy != NULL )
XCloseDisplay( mCached_dpy );
mCached_dpy = dpy;
}
#endif
}
bool
KLauncher::kdeinit_exec(const TQString &app, const TQStringList &args,
const TQValueList<TQCString> &envs, TQCString startup_id, bool wait)
{
KLaunchRequest *request = new KLaunchRequest;
request->autoStart = false;
for(TQStringList::ConstIterator it = args.begin();
it != args.end();
it++)
{
TQString arg = *it;
request->arg_list.append(arg.local8Bit());
}
request->name = app.local8Bit();
if (wait)
request->dcop_service_type = KService::DCOP_Wait;
else
request->dcop_service_type = KService::DCOP_None;
request->dcop_name = 0;
request->pid = 0;
#ifdef Q_WS_X11
request->startup_id = startup_id;
#endif
request->envs = envs;
if( app != "kbuildsycoca" ) // avoid stupid loop
{
// Find service, if any - strip path if needed
KService::Ptr service = KService::serviceByDesktopName( app.mid( app.findRev( '/' ) + 1 ));
if (service != NULL)
send_service_startup_info( request, service,
startup_id, TQValueList< TQCString >());
else // no .desktop file, no startup info
cancel_service_startup_info( request, startup_id, envs );
}
request->transaction = dcopClient()->beginTransaction();
queueRequest(request);
return true;
}
void
KLauncher::queueRequest(KLaunchRequest *request)
{
requestQueue.append( request );
if (!bProcessingQueue)
{
bProcessingQueue = true;
TQTimer::singleShot(0, this, TQT_SLOT( slotDequeue() ));
}
}
void
KLauncher::slotDequeue()
{
do {
KLaunchRequest *request = requestQueue.take(0);
// process request
request->status = KLaunchRequest::Launching;
requestStart(request);
if (request->status != KLaunchRequest::Launching)
{
// Request handled.
requestDone( request );
continue;
}
} while(requestQueue.count());
bProcessingQueue = false;
}
void
KLauncher::createArgs( KLaunchRequest *request, const KService::Ptr service ,
const TQStringList &urls)
{
TQStringList params = KRun::processDesktopExec(*service, urls, false);
for(TQStringList::ConstIterator it = params.begin();
it != params.end(); ++it)
{
request->arg_list.append((*it).local8Bit());
}
request->cwd = TQFile::encodeName(service->path());
}
///// IO-Slave functions
pid_t
KLauncher::requestHoldSlave(const KURL &url, const TQString &app_socket)
{
IdleSlave *slave;
for(slave = mSlaveList.first(); slave; slave = mSlaveList.next())
{
if (slave->onHold(url))
break;
}
if (slave)
{
mSlaveList.removeRef(slave);
slave->connect(app_socket);
return slave->pid();
}
return 0;
}
pid_t
KLauncher::requestSlave(const TQString &protocol,
const TQString &host,
const TQString &app_socket,
TQString &error)
{
IdleSlave *slave;
for(slave = mSlaveList.first(); slave; slave = mSlaveList.next())
{
if (slave->match(protocol, host, true))
break;
}
if (!slave)
{
for(slave = mSlaveList.first(); slave; slave = mSlaveList.next())
{
if (slave->match(protocol, host, false))
break;
}
}
if (!slave)
{
for(slave = mSlaveList.first(); slave; slave = mSlaveList.next())
{
if (slave->match(protocol, TQString::null, false))
break;
}
}
if (slave)
{
mSlaveList.removeRef(slave);
slave->connect(app_socket);
return slave->pid();
}
TQString _name = KProtocolInfo::exec(protocol);
if (_name.isEmpty())
{
error = i18n("Unknown protocol '%1'.\n").arg(protocol);
return 0;
}
TQCString name = _name.latin1(); // ex: "kio_ftp"
TQCString arg1 = protocol.latin1();
TQCString arg2 = TQFile::encodeName(mPoolSocketName);
TQCString arg3 = TQFile::encodeName(app_socket);
TQValueList<TQCString> arg_list;
arg_list.append(arg1);
arg_list.append(arg2);
arg_list.append(arg3);
// kdDebug(7016) << "KLauncher: launching new slave " << _name << " with protocol=" << protocol << endl;
if (mSlaveDebug == arg1)
{
klauncher_header request_header;
request_header.cmd = LAUNCHER_DEBUG_WAIT;
request_header.arg_length = 0;
write(kdeinitSocket, &request_header, sizeof(request_header));
}
if (mSlaveValgrind == arg1)
{
arg_list.prepend(TQFile::encodeName(KLibLoader::findLibrary(name)));
arg_list.prepend(TQFile::encodeName(locate("exe", "kioslave")));
name = "valgrind";
if (!mSlaveValgrindSkin.isEmpty()) {
arg_list.prepend(TQCString("--tool=") + mSlaveValgrindSkin);
} else
arg_list.prepend("--tool=memcheck");
}
KLaunchRequest *request = new KLaunchRequest;
request->autoStart = false;
request->name = name;
request->arg_list = arg_list;
request->dcop_name = 0;
request->dcop_service_type = KService::DCOP_None;
request->pid = 0;
#ifdef Q_WS_X11
request->startup_id = "0";
#endif
request->status = KLaunchRequest::Launching;
request->transaction = 0; // No confirmation is send
requestStart(request);
pid_t pid = request->pid;
// kdDebug(7016) << "Slave launched, pid = " << pid << endl;
// We don't care about this request any longer....
requestDone(request);
if (!pid)
{
error = i18n("Error loading '%1'.\n").arg(TQString(name));
}
return pid;
}
void
KLauncher::waitForSlave(pid_t pid)
{
IdleSlave *slave;
for(slave = mSlaveList.first(); slave; slave = mSlaveList.next())
{
if (slave->pid() == pid)
return; // Already here.
}
SlaveWaitRequest *waitRequest = new SlaveWaitRequest;
waitRequest->transaction = dcopClient()->beginTransaction();
waitRequest->pid = pid;
mSlaveWaitRequest.append(waitRequest);
}
void
KLauncher::acceptSlave(KSocket *slaveSocket)
{
IdleSlave *slave = new IdleSlave(slaveSocket);
// Send it a SLAVE_STATUS command.
mSlaveList.append(slave);
connect(slave, TQT_SIGNAL(destroyed()), this, TQT_SLOT(slotSlaveGone()));
connect(slave, TQT_SIGNAL(statusUpdate(IdleSlave *)),
this, TQT_SLOT(slotSlaveStatus(IdleSlave *)));
if (!mTimer.isActive())
{
mTimer.start(1000*10);
}
}
void
KLauncher::slotSlaveStatus(IdleSlave *slave)
{
SlaveWaitRequest *waitRequest = mSlaveWaitRequest.first();
while(waitRequest)
{
if (waitRequest->pid == slave->pid())
{
TQByteArray replyData;
TQCString replyType;
replyType = "void";
dcopClient()->endTransaction( waitRequest->transaction, replyType, replyData);
mSlaveWaitRequest.removeRef(waitRequest);
waitRequest = mSlaveWaitRequest.current();
}
else
{
waitRequest = mSlaveWaitRequest.next();
}
}
}
void
KLauncher::slotSlaveGone()
{
IdleSlave *slave = (IdleSlave *) sender();
mSlaveList.removeRef(slave);
if ((mSlaveList.count() == 0) && (mTimer.isActive()))
{
mTimer.stop();
}
}
void
KLauncher::idleTimeout()
{
bool keepOneFileSlave=true;
time_t now = time(0);
IdleSlave *slave;
for(slave = mSlaveList.first(); slave; slave = mSlaveList.next())
{
if ((slave->protocol()=="file") && (keepOneFileSlave))
keepOneFileSlave=false;
else if (slave->age(now) > SLAVE_MAX_IDLE)
{
// killing idle slave
delete slave;
}
}
}
#include "klauncher.moc"