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/*
KSysGuard, the KDE System Guard
Copyright (c) 1999 - 2001 Chris Schlaeger <cs@kde.org>
This program is free software; you can redistribute it and/or
modify it under the terms of version 2 of the GNU General Public
License as published by the Free Software Foundation.
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.
KSysGuard is currently maintained by Chris Schlaeger <cs@kde.org>.
Please do not commit any changes without consulting me first. Thanks!
*/
#include <tqcombobox.h>
#include <tqlabel.h>
#include <tqpushbutton.h>
#include <tqradiobutton.h>
#include <tqspinbox.h>
#include <tdeapplication.h>
#include <kdebug.h>
#include <tdelocale.h>
#include "HostConnector.h"
#include "SensorShellAgent.h"
#include "SensorSocketAgent.h"
#include "SensorManager.h"
using namespace KSGRD;
SensorManager* KSGRD::SensorMgr;
SensorManager::SensorManager()
{
mAgents.setAutoDelete( true );
mDict.setAutoDelete( true );
// Fill the sensor description dictionary.
mDict.insert( "cpu", new TQString( i18n( "CPU Load" ) ) );
mDict.insert( "idle", new TQString( i18n( "Idle Load" ) ) );
mDict.insert( "sys", new TQString( i18n( "System Load" ) ) );
mDict.insert( "nice", new TQString( i18n( "Nice Load" ) ) );
mDict.insert( "user", new TQString( i18n( "User Load" ) ) );
mDict.insert( "mem", new TQString( i18n( "Memory" ) ) );
mDict.insert( "physical", new TQString( i18n( "Physical Memory" ) ) );
mDict.insert( "swap", new TQString( i18n( "Swap Memory" ) ) );
mDict.insert( "cached", new TQString( i18n( "Cached Memory" ) ) );
mDict.insert( "buf", new TQString( i18n( "Buffered Memory" ) ) );
mDict.insert( "used", new TQString( i18n( "Used Memory" ) ) );
mDict.insert( "application", new TQString( i18n( "Application Memory" ) ) );
mDict.insert( "free", new TQString( i18n( "Free Memory" ) ) );
mDict.insert( "active", new TQString( i18n( "Active Memory" ) ) );
mDict.insert( "inactive", new TQString( i18n( "Inactive Memory" ) ) );
mDict.insert( "wired", new TQString( i18n( "Wired Memory" ) ) );
mDict.insert( "execpages", new TQString( i18n( "Exec Pages" ) ) );
mDict.insert( "filepages", new TQString( i18n( "File Pages" ) ) );
mDict.insert( "pscount", new TQString( i18n( "Process Count" ) ) );
mDict.insert( "ps", new TQString( i18n( "Process Controller" ) ) );
mDict.insert( "disk", new TQString( i18n( "Disk Throughput" ) ) );
mDict.insert( "load", new TQString( i18n( "CPU Load", "Load" ) ) );
mDict.insert( "total", new TQString( i18n( "Total Accesses" ) ) );
mDict.insert( "rio", new TQString( i18n( "Read Accesses" ) ) );
mDict.insert( "wio", new TQString( i18n( "Write Accesses" ) ) );
mDict.insert( "rblk", new TQString( i18n( "Read Data" ) ) );
mDict.insert( "wblk", new TQString( i18n( "Write Data" ) ) );
mDict.insert( "pageIn", new TQString( i18n( "Pages In" ) ) );
mDict.insert( "pageOut", new TQString( i18n( "Pages Out" ) ) );
mDict.insert( "context", new TQString( i18n( "Context Switches" ) ) );
mDict.insert( "network", new TQString( i18n( "Network" ) ) );
mDict.insert( "interfaces", new TQString( i18n( "Interfaces" ) ) );
mDict.insert( "receiver", new TQString( i18n( "Receiver" ) ) );
mDict.insert( "transmitter", new TQString( i18n( "Transmitter" ) ) );
mDict.insert( "data", new TQString( i18n( "Data" ) ) );
mDict.insert( "compressed", new TQString( i18n( "Compressed Packets" ) ) );
mDict.insert( "drops", new TQString( i18n( "Dropped Packets" ) ) );
mDict.insert( "errors", new TQString( i18n( "Errors" ) ) );
mDict.insert( "fifo", new TQString( i18n( "FIFO Overruns" ) ) );
mDict.insert( "frame", new TQString( i18n( "Frame Errors" ) ) );
mDict.insert( "multicast", new TQString( i18n( "Multicast" ) ) );
mDict.insert( "packets", new TQString( i18n( "Packets" ) ) );
mDict.insert( "carrier", new TQString( i18n( "Carrier" ) ) );
mDict.insert( "collisions", new TQString( i18n( "Collisions" ) ) );
mDict.insert( "sockets", new TQString( i18n( "Sockets" ) ) );
mDict.insert( "count", new TQString( i18n( "Total Number" ) ) );
mDict.insert( "list", new TQString( i18n( "Table" ) ) );
mDict.insert( "apm", new TQString( i18n( "Advanced Power Management" ) ) );
mDict.insert( "acpi", new TQString( i18n( "ACPI" ) ) );
mDict.insert( "thermal_zone", new TQString( i18n( "Thermal Zone" ) ) );
mDict.insert( "temperature", new TQString( i18n( "Temperature" ) ) );
mDict.insert( "fan", new TQString( i18n( "Fan" ) ) );
mDict.insert( "state", new TQString( i18n( "State" ) ) );
mDict.insert( "battery", new TQString( i18n( "Battery" ) ) );
mDict.insert( "batterycharge", new TQString( i18n( "Battery Charge" ) ) );
mDict.insert( "batteryusage", new TQString( i18n( "Battery Usage" ) ) );
mDict.insert( "remainingtime", new TQString( i18n( "Remaining Time" ) ) );
mDict.insert( "interrupts", new TQString( i18n( "Interrupts" ) ) );
mDict.insert( "loadavg1", new TQString( i18n( "Load Average (1 min)" ) ) );
mDict.insert( "loadavg5", new TQString( i18n( "Load Average (5 min)" ) ) );
mDict.insert( "loadavg15", new TQString( i18n( "Load Average (15 min)" ) ) );
mDict.insert( "clock", new TQString( i18n( "Clock Frequency" ) ) );
mDict.insert( "lmsensors", new TQString( i18n( "Hardware Sensors" ) ) );
mDict.insert( "partitions", new TQString( i18n( "Partition Usage" ) ) );
mDict.insert( "usedspace", new TQString( i18n( "Used Space" ) ) );
mDict.insert( "freespace", new TQString( i18n( "Free Space" ) ) );
mDict.insert( "filllevel", new TQString( i18n( "Fill Level" ) ) );
for ( int i = 0; i < 32; i++ ) {
mDict.insert( "cpu" + TQString::number( i ),
new TQString( TQString( i18n( "CPU%1" ) ).arg( i ) ) );
mDict.insert( "disk" + TQString::number( i ),
new TQString( TQString( i18n( "Disk%1" ) ).arg( i ) ) );
}
for ( int i = 0; i < 6; i++) {
mDict.insert( "fan" + TQString::number( i ),
new TQString( TQString( i18n( "Fan%1" ) ).arg( i ) ) );
mDict.insert( "temp" + TQString::number( i ),
new TQString( TQString( i18n( "Temperature%1" ) ).arg( i ) ) );
}
mDict.insert( "int00", new TQString( i18n( "Total" ) ) );
TQString num;
for ( int i = 1; i < 25; i++ ) {
num.sprintf( "%.2d", i );
mDict.insert( "int" + num,
new TQString( TQString( i18n( "Int%1" ) ).arg( i - 1, 3 ) ) );
}
mDescriptions.setAutoDelete( true );
// TODO: translated descriptions not yet implemented.
mUnits.setAutoDelete( true );
mUnits.insert( "1/s", new TQString( i18n( "the unit 1 per second", "1/s" ) ) );
mUnits.insert( "kBytes", new TQString( i18n( "kBytes" ) ) );
mUnits.insert( "min", new TQString( i18n( "the unit minutes", "min" ) ) );
mUnits.insert( "MHz", new TQString( i18n( "the frequency unit", "MHz" ) ) );
mTypes.setAutoDelete( true );
mTypes.insert( "integer", new TQString( i18n( "Integer Value" ) ) );
mTypes.insert( "float", new TQString( i18n( "Floating Point Value" ) ) );
mTypes.insert( "table", new TQString( i18n( "Process Controller" ) ) );
mTypes.insert( "listview", new TQString( i18n( "Table" ) ) );
mBroadcaster = 0;
mHostConnector = new HostConnector( 0 );
}
SensorManager::~SensorManager()
{
delete mHostConnector;
}
bool SensorManager::engageHost( const TQString &hostName )
{
bool retVal = true;
if ( hostName.isEmpty() || mAgents.find( hostName ) == 0 ) {
if(hostName == "localhost") {
//There was a bug where the xml file would end up not specifying to connect to localhost.
//This work around makes sure we always connect to localhost
return engage( "localhost", "", "ksysguardd", -1);
}
mHostConnector->setCurrentHostName( hostName );
if ( mHostConnector->exec() ) {
TQString shell = "";
TQString command = "";
int port = -1;
/* Check which radio button is selected and set parameters
* appropriately. */
if ( mHostConnector->useSsh() )
shell = "ssh";
else if ( mHostConnector->useRsh() )
shell = "rsh";
else if ( mHostConnector->useDaemon() )
port = mHostConnector->port();
else
command = mHostConnector->currentCommand();
if ( hostName.isEmpty() )
retVal = engage( mHostConnector->currentHostName(), shell,
command, port );
else
retVal = engage( hostName, shell, command, port );
}
}
return retVal;
}
bool SensorManager::engage( const TQString &hostName, const TQString &shell,
const TQString &command, int port )
{
SensorAgent *agent;
if ( ( agent = mAgents.find( hostName ) ) == 0 ) {
if ( port == -1 )
agent = new SensorShellAgent( this );
else
agent = new SensorSocketAgent( this );
if ( !agent->start( hostName.ascii(), shell, command, port ) ) {
delete agent;
return false;
}
mAgents.insert( hostName, agent );
connect( agent, TQ_SIGNAL( reconfigure( const SensorAgent* ) ),
TQ_SLOT( reconfigure( const SensorAgent* ) ) );
emit update();
return true;
}
return false;
}
void SensorManager::requestDisengage( const SensorAgent *agent )
{
/* When a sensor agent becomes disfunctional it calls this function
* to request that it is being removed from the SensorManager. It must
* not call disengage() directly since it would trigger ~SensorAgent()
* while we are still in a SensorAgent member function.
* So we have to post an event which is later caught by
* SensorManger::customEvent(). */
TQCustomEvent* event = new TQCustomEvent( TQEvent::User, (void*)agent );
kapp->postEvent( this, event );
}
bool SensorManager::disengage( const SensorAgent *agent )
{
TQDictIterator<SensorAgent> it( mAgents );
for ( ; it.current(); ++it )
if ( it.current() == agent ) {
mAgents.remove( it.currentKey() );
emit update();
return true;
}
return false;
}
bool SensorManager::disengage( const TQString &hostName )
{
SensorAgent *agent;
if ( ( agent = mAgents.find( hostName ) ) != 0 ) {
mAgents.remove( hostName );
emit update();
return true;
}
return false;
}
bool SensorManager::resynchronize( const TQString &hostName )
{
SensorAgent *agent;
if ( ( agent = mAgents.find( hostName ) ) == 0 )
return false;
TQString shell, command;
int port;
hostInfo( hostName, shell, command, port );
disengage( hostName );
kdDebug (1215) << "Re-synchronizing connection to " << hostName << endl;
return engage( hostName, shell, command );
}
void SensorManager::hostLost( const SensorAgent *agent )
{
emit hostConnectionLost( agent->hostName() );
if ( mBroadcaster ) {
TQCustomEvent *event = new TQCustomEvent( TQEvent::User );
event->setData( new TQString( i18n( "Connection to %1 has been lost." )
.arg( agent->hostName() ) ) );
kapp->postEvent( mBroadcaster, event );
}
}
void SensorManager::notify( const TQString &msg ) const
{
/* This function relays text messages to the toplevel widget that
* displays the message in a pop-up box. It must be used for objects
* that might have been deleted before the pop-up box is closed. */
if ( mBroadcaster ) {
TQCustomEvent *event = new TQCustomEvent( TQEvent::User );
event->setData( new TQString( msg ) );
kapp->postEvent( mBroadcaster, event );
}
}
void SensorManager::setBroadcaster( TQWidget *wdg )
{
mBroadcaster = wdg;
}
void SensorManager::reconfigure( const SensorAgent* )
{
emit update();
}
bool SensorManager::event( TQEvent *event )
{
if ( event->type() == TQEvent::User ) {
disengage( (const SensorAgent*)((TQCustomEvent*)event)->data() );
return true;
}
return false;
}
bool SensorManager::sendRequest( const TQString &hostName, const TQString &req,
SensorClient *client, int id )
{
SensorAgent *agent = mAgents.find( hostName );
if( !agent && hostName == "localhost") {
//we should always be able to reconnect to localhost
engage("localhost", "", "ksysguardd", -1);
agent = mAgents.find( hostName );
}
if ( agent ) {
agent->sendRequest( req, client, id );
return true;
}
return false;
}
const TQString SensorManager::hostName( const SensorAgent *agent) const
{
TQDictIterator<SensorAgent> it( mAgents );
while ( it.current() ) {
if ( it.current() == agent )
return it.currentKey();
++it;
}
return TQString::null;
}
bool SensorManager::hostInfo( const TQString &hostName, TQString &shell,
TQString &command, int &port )
{
SensorAgent *agent;
if ( ( agent = mAgents.find( hostName ) ) != 0 ) {
agent->hostInfo( shell, command, port );
return true;
}
return false;
}
const TQString &SensorManager::translateUnit( const TQString &unit ) const
{
if ( !unit.isEmpty() && mUnits[ unit ] )
return *mUnits[ unit ];
else
return unit;
}
const TQString &SensorManager::translateSensorPath( const TQString &path ) const
{
if ( !path.isEmpty() && mDict[ path ] )
return *mDict[ path ];
else
return path;
}
const TQString &SensorManager::translateSensorType( const TQString &type ) const
{
if ( !type.isEmpty() && mTypes[ type ] )
return *mTypes[ type ];
else
return type;
}
TQString SensorManager::translateSensor( const TQString &sensor ) const
{
TQString token, out;
int start = 0, end = 0;
for ( ; ; ) {
end = sensor.find( '/', start );
if ( end > 0 )
out += translateSensorPath( sensor.mid( start, end - start ) ) + "/";
else {
out += translateSensorPath( sensor.right( sensor.length() - start ) );
break;
}
start = end + 1;
}
return out;
}
void SensorManager::readProperties( TDEConfig *cfg )
{
mHostConnector->setHostNames( cfg->readListEntry( "HostList" ) );
mHostConnector->setCommands( cfg->readListEntry( "CommandList" ) );
}
void
SensorManager::saveProperties( TDEConfig *cfg )
{
cfg->writeEntry( "HostList", mHostConnector->hostNames() );
cfg->writeEntry( "CommandList", mHostConnector->commands() );
}
void SensorManager::disconnectClient( SensorClient *client )
{
TQDictIterator<SensorAgent> it( mAgents );
for ( ; it.current(); ++it)
it.current()->disconnectClient( client );
}
#include "SensorManager.moc"
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