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46cfc108d3929aeb9cf423e2c195b6e5f01468e0
konsole/src/ProcessInfo.cpp
Robert Knight 46cfc108d3 * Replace all usage of qDebug() with kDebug(), since kDebug() provides information about 
which part of the code the message came from and allows filtering of output
  using kdebugdialog
* Remove explicit creation of singleton classes SessionManager,ColorSchemeManager and
  KeyboardTranslatorManager and automate it with K_GLOBAL_STATIC.
  This ensures that the singleton destructors are called appropriately by KPart clients
  when they unload the libkonsolepart library.


svn path=/trunk/KDE/kdebase/apps/konsole/; revision=754334
2007-12-29 16:07:31 +00:00

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/*
Copyright (C) 2007 by Robert Knight <robertknight@gmail.countm>
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
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 General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA
02110-1301 USA.
*/
// Own
#include "ProcessInfo.h"
// Unix
#include <sys/socket.h>
#include <netinet/in.h>
#include <arpa/inet.h>
// Qt
#include <KDebug>
#include <QtCore/QDir>
#include <QtCore/QFileInfo>
#include <QtCore/QRegExp>
#include <QtCore/QTextStream>
#include <QtCore/QStringList>
// KDE
#include <KConfigGroup>
#include <KGlobal>
#include <KSharedConfig>
using namespace Konsole;
ProcessInfo::ProcessInfo(int pid , bool enableEnvironmentRead)
: _fields( ARGUMENTS | ENVIRONMENT ) // arguments and environments
// are currently always valid,
// they just return an empty
// vector / map respectively
// if no arguments
// or environment bindings
// have been explicitly set
, _enableEnvironmentRead(enableEnvironmentRead)
, _pid(pid)
, _parentPid(0)
, _foregroundPid(0)
, _lastError(NoError)
{
}
ProcessInfo::Error ProcessInfo::error() const { return _lastError; }
void ProcessInfo::setError(Error error) { _lastError = error; }
void ProcessInfo::update()
{
readProcessInfo(_pid,_enableEnvironmentRead);
}
QString ProcessInfo::format(const QString& input) const
{
bool ok = false;
QString output(input);
// search for and replace known marker
output.replace("%u","NOT IMPLEMENTED YET");
output.replace("%n",name(&ok));
output.replace("%c",formatCommand(name(&ok),arguments(&ok),ShortCommandFormat));
output.replace("%C",formatCommand(name(&ok),arguments(&ok),LongCommandFormat));
// read current dir, if an error occurs try the parent as the next
// best option
int currentPid = parentPid(&ok);
QString dir = currentDir(&ok);
while ( !ok && currentPid != 0 )
{
ProcessInfo* current = ProcessInfo::newInstance(currentPid);
current->update();
currentPid = current->parentPid(&ok);
dir = current->currentDir(&ok);
delete current;
}
output.replace("%D",dir);
output.replace("%d",formatShortDir(dir));
// remove any remaining %[LETTER] sequences
// output.replace(QRegExp("%\\w"), QString());
return output;
}
QString ProcessInfo::formatCommand(const QString& name,
const QVector<QString>& arguments,
CommandFormat format) const
{
// TODO Implement me
return QStringList(QList<QString>::fromVector(arguments)).join(" ");
}
QSet<QString> ProcessInfo::_commonDirNames;
QSet<QString> ProcessInfo::commonDirNames()
{
if ( _commonDirNames.isEmpty() )
{
KSharedConfigPtr config = KGlobal::config();
KConfigGroup configGroup = config->group("ProcessInfo");
QStringList defaults = QStringList()
<< "src" << "build" << "debug" << "release"
<< "bin" << "lib" << "libs" << "tmp"
<< "doc" << "docs" << "data" << "share"
<< "examples" << "icons" << "pics" << "plugins"
<< "tests" << "media" << "l10n" << "include"
<< "includes" << "locale" << "ui";
_commonDirNames = QSet<QString>::fromList(configGroup.readEntry("CommonDirNames",defaults));
}
return _commonDirNames;
}
QString ProcessInfo::formatShortDir(const QString& input) const
{
QString result;
QStringList parts = input.split( QDir::separator() );
// temporarily hard-coded
QSet<QString> dirNamesToShorten = commonDirNames();
QListIterator<QString> iter(parts);
iter.toBack();
// go backwards through the list of the path's parts
// adding abbreviations of common directory names
// and stopping when we reach a dir name which is not
// in the commonDirNames set
while ( iter.hasPrevious() )
{
QString part = iter.previous();
if ( dirNamesToShorten.contains(part) )
{
result.prepend(QDir::separator() + part[0]);
}
else
{
result.prepend(part);
break;
}
}
return result;
}
QVector<QString> ProcessInfo::arguments(bool* ok) const
{
*ok = _fields & ARGUMENTS;
return _arguments;
}
QMap<QString,QString> ProcessInfo::environment(bool* ok) const
{
*ok = _fields & ENVIRONMENT;
return _environment;
}
bool ProcessInfo::isValid() const
{
return _fields & PROCESS_ID;
}
int ProcessInfo::pid(bool* ok) const
{
*ok = _fields & PROCESS_ID;
return _pid;
}
int ProcessInfo::parentPid(bool* ok) const
{
*ok = _fields & PARENT_PID;
return _parentPid;
}
int ProcessInfo::foregroundPid(bool* ok) const
{
*ok = _fields & FOREGROUND_PID;
return _foregroundPid;
}
QString ProcessInfo::name(bool* ok) const
{
*ok = _fields & NAME;
return _name;
}
void ProcessInfo::setPid(int pid)
{
_pid = pid;
_fields |= PROCESS_ID;
}
void ProcessInfo::setParentPid(int pid)
{
_parentPid = pid;
_fields |= PARENT_PID;
}
void ProcessInfo::setForegroundPid(int pid)
{
_foregroundPid = pid;
_fields |= FOREGROUND_PID;
}
QString ProcessInfo::currentDir(bool* ok) const
{
*ok = _fields & CURRENT_DIR;
return _currentDir;
}
void ProcessInfo::setCurrentDir(const QString& dir)
{
_fields |= CURRENT_DIR;
_currentDir = dir;
}
void ProcessInfo::setName(const QString& name)
{
_name = name;
_fields |= NAME;
}
void ProcessInfo::addArgument(const QString& argument)
{
_arguments << argument;
}
void ProcessInfo::addEnvironmentBinding(const QString& name , const QString& value)
{
_environment.insert(name,value);
}
UnixProcessInfo::UnixProcessInfo(int pid,bool enableEnvironmentRead)
: ProcessInfo(pid,enableEnvironmentRead)
{
}
bool UnixProcessInfo::readProcessInfo(int pid , bool enableEnvironmentRead)
{
// indicies of various fields within the process status file which
// contain various information about the process
const int PARENT_PID_FIELD = 3;
const int PROCESS_NAME_FIELD = 1;
const int GROUP_PROCESS_FIELD = 7;
QString parentPidString;
QString processNameString;
QString foregroundPidString;
// read process status file ( /proc/<pid/stat )
//
// the expected file format is a list of fields separated by spaces, using
// parenthesies to escape fields such as the process name which may itself contain
// spaces:
//
// FIELD FIELD (FIELD WITH SPACES) FIELD FIELD
//
QFile processInfo( QString("/proc/%1/stat").arg(pid) );
if ( processInfo.open(QIODevice::ReadOnly) )
{
QTextStream stream(&processInfo);
QString data = stream.readAll();
int stack = 0;
int field = 0;
int pos = 0;
while (pos < data.count())
{
QChar c = data[pos];
if ( c == '(' )
stack++;
else if ( c == ')' )
stack--;
else if ( stack == 0 && c == ' ' )
field++;
else
{
switch ( field )
{
case PARENT_PID_FIELD:
parentPidString.append(c);
break;
case PROCESS_NAME_FIELD:
processNameString.append(c);
break;
case GROUP_PROCESS_FIELD:
foregroundPidString.append(c);
break;
}
}
pos++;
}
}
else
{
setFileError( processInfo.error() );
return false;
}
// check that data was read successfully
bool ok = false;
int foregroundPid = foregroundPidString.toInt(&ok);
if (ok)
setForegroundPid(foregroundPid);
int parentPid = parentPidString.toInt(&ok);
if (ok)
setParentPid(parentPid);
if (!processNameString.isEmpty())
setName(processNameString);
readArguments(pid);
readCurrentDir(pid);
if ( enableEnvironmentRead )
{
readEnvironment(pid);
}
// update object state
setPid(pid);
return true;
}
void ProcessInfo::setFileError( QFile::FileError error )
{
switch ( error )
{
case PermissionsError:
setError( PermissionsError );
break;
case NoError:
setError( NoError );
break;
default:
setError( UnknownError );
}
}
ProcessInfo* ProcessInfo::newInstance(int pid,bool enableEnvironmentRead)
{
#ifdef Q_OS_UNIX
return new UnixProcessInfo(pid,enableEnvironmentRead);
#else
return new NullProcessInfo(pid,enableEnvironmentRead);
#endif
}
NullProcessInfo::NullProcessInfo(int pid,bool enableEnvironmentRead)
: ProcessInfo(pid,enableEnvironmentRead)
{
}
bool NullProcessInfo::readProcessInfo(int /*pid*/ , bool /*enableEnvironmentRead*/)
{
return false;
}
bool UnixProcessInfo::readArguments(int pid)
{
// read command-line arguments file found at /proc/<pid>/cmdline
// the expected format is a list of strings delimited by null characters,
// and ending in a double null character pair.
QFile argumentsFile( QString("/proc/%1/cmdline").arg(pid) );
if ( argumentsFile.open(QIODevice::ReadOnly) )
{
QTextStream stream(&argumentsFile);
QString data = stream.readAll();
QStringList argList = data.split( QChar('\0') );
foreach ( QString entry , argList )
{
if (!entry.isEmpty())
addArgument(entry);
}
}
else
{
setFileError( argumentsFile.error() );
}
return true;
}
bool UnixProcessInfo::readCurrentDir(int pid)
{
QFileInfo info( QString("/proc/%1/cwd").arg(pid) );
const bool readable = info.isReadable();
if ( readable && info.isSymLink() )
{
setCurrentDir( info.symLinkTarget() );
return true;
}
else
{
if ( !readable )
setError( PermissionsError );
else
setError( UnknownError );
return false;
}
}
bool UnixProcessInfo::readEnvironment(int pid)
{
// read environment bindings file found at /proc/<pid>/environ
// the expected format is a list of KEY=VALUE strings delimited by null
// characters and ending in a double null character pair.
QFile environmentFile( QString("/proc/%1/environ").arg(pid) );
if ( environmentFile.open(QIODevice::ReadOnly) )
{
QTextStream stream(&environmentFile);
QString data = stream.readAll();
QStringList bindingList = data.split( QChar('\0') );
foreach( QString entry , bindingList )
{
QString name;
QString value;
int splitPos = entry.indexOf('=');
if ( splitPos != -1 )
{
name = entry.mid(0,splitPos);
value = entry.mid(splitPos+1,-1);
addEnvironmentBinding(name,value);
}
}
}
else
{
setFileError( environmentFile.error() );
}
return true;
}
SSHProcessInfo::SSHProcessInfo(const ProcessInfo& process)
: _process(process)
{
bool ok = false;
// check that this is a SSH process
const QString& name = _process.name(&ok);
if ( !ok || name != "ssh" )
{
if ( !ok )
kDebug() << "Could not read process info";
else
kDebug() << "Process is not a SSH process";
return;
}
// read arguments
const QVector<QString>& args = _process.arguments(&ok);
// SSH options
// these are taken from the SSH manual ( accessed via 'man ssh' )
// options which take no arguments
static const QString noOptionsArguments("1246AaCfgkMNnqsTtVvXxY");
// options which take one argument
static const QString singleOptionArguments("bcDeFiLlmOopRSw");
if ( ok )
{
// find the username, host and command arguments
//
// the username/host is assumed to be the first argument
// which is not an option
// ( ie. does not start with a dash '-' character )
// or an argument to a previous option.
//
// the command, if specified, is assumed to be the argument following
// the username and host
//
// note that we skip the argument at index 0 because that is the
// program name ( expected to be 'ssh' in this case )
for ( int i = 1 ; i < args.count() ; i++ )
{
// if this argument is an option then skip it, plus any
// following arguments which refer to this option
if ( args[i].startsWith('-') )
{
QChar argChar = ( args[i].length() > 1 ) ? args[i][1] : '\0';
if ( noOptionsArguments.contains(argChar) )
continue;
else if ( singleOptionArguments.contains(argChar) )
{
i++;
continue;
}
}
// check whether the host has been found yet
// if not, this must be the username/host argument
if ( _host.isEmpty() )
{
// found username and host argument
kDebug() << "[username] and host: " << args[i];
// check to see if only a hostname is specified, or whether
// both a username and host are specified ( in which case they
// are separated by an '@' character: username@host )
int separatorPosition = args[i].indexOf('@');
if ( separatorPosition != -1 )
{
// username and host specified
_user = args[i].left(separatorPosition);
_host = args[i].mid(separatorPosition+1);
kDebug() << "found user: " << _user;
kDebug() << "found host: " << _host;
}
else
{
// just the host specified
_host = args[i];
kDebug() << "found only host: " << _host;
}
}
else
{
// host has already been found, this must be the command argument
_command = args[i];
kDebug() << "found command: " << _command;
}
}
}
else
{
kDebug() << "Could not read arguments";
return;
}
}
QString SSHProcessInfo::userName() const
{
return _user;
}
QString SSHProcessInfo::host() const
{
return _host;
}
QString SSHProcessInfo::command() const
{
return _command;
}
QString SSHProcessInfo::format(const QString& input) const
{
QString output(input);
// test whether host is an ip address
// in which case 'short host' and 'full host'
// markers in the input string are replaced with
// the full address
bool isIpAddress = false;
struct in_addr address;
if ( inet_aton(_host.toLocal8Bit().constData(),&address) != 0 )
isIpAddress = true;
else
isIpAddress = false;
// search for and replace known markers
output.replace("%u",_user);
if ( isIpAddress )
output.replace("%h",_host);
else
output.replace("%h",_host.left(_host.indexOf('.')));
output.replace("%H",_host);
output.replace("%c",_command);
return output;
}
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