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/web/acc/phpsysinfo/includes/os/class.WINNT.inc.php
1,344 → 1,1015
<?php
// phpSysInfo - A PHP System Information Script
// http://phpsysinfo.sourceforge.net/
// 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., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
// WINNT implementation written by Carl C. Longnecker, longneck@iname.com
// $Id: class.WINNT.inc.php,v 1.25 2007/03/07 20:21:27 bigmichi1 Exp $
<?php
/**
* WINNT System Class
*
* PHP version 5
*
* @category PHP
* @package PSI WINNT OS class
* @author Michael Cramer <BigMichi1@users.sourceforge.net>
* @copyright 2009 phpSysInfo
* @license http://opensource.org/licenses/gpl-2.0.php GNU General Public License version 2, or (at your option) any later version
* @version SVN: $Id: class.WINNT.inc.php 699 2012-09-15 11:57:13Z namiltd $
* @link http://phpsysinfo.sourceforge.net
*/
/**
* WINNT sysinfo class
* get all the required information from WINNT systems
* information are retrieved through the WMI interface
*
* @category PHP
* @package PSI WINNT OS class
* @author Michael Cramer <BigMichi1@users.sourceforge.net>
* @copyright 2009 phpSysInfo
* @license http://opensource.org/licenses/gpl-2.0.php GNU General Public License version 2, or (at your option) any later version
* @version Release: 3.0
* @link http://phpsysinfo.sourceforge.net
*/
class WINNT extends OS
{
/**
* holds the data from WMI Win32_OperatingSystem
*
* @var array
*/
private $_Win32_OperatingSystem = null;
 
class sysinfo {
// $wmi holds the COM object that we pull all the WMI data from
var $wmi;
/**
* holds the data from WMI Win32_ComputerSystem
*
* @var array
*/
private $_Win32_ComputerSystem = null;
 
// $wmidevices holds all devices, which are in the system
var $wmidevices;
/**
* holds the data from WMI Win32_Processor
*
* @var array
*/
private $_Win32_Processor = null;
 
// this constructor initialis the $wmi object
function sysinfo ()
{
// don't set this params for local connection, it will not work
$strHostname = '';
$strUser = '';
$strPassword = '';
/**
* holds the data from WMI Win32_PerfFormattedData_PerfOS_Processor
*
* @var array
*/
private $_Win32_PerfFormattedData_PerfOS_Processor = null;
 
// initialize the wmi object
$objLocator = new COM("WbemScripting.SWbemLocator");
if($strHostname == "") {
$this->wmi = $objLocator->ConnectServer();
} else{
$this->wmi = $objLocator->ConnectServer($strHostname, "rootcimv2", "$strHostname\$strUser", $strPassword);
}
}
/**
* holds the data from systeminfo command
*
* @var string
*/
private $_systeminfo = null;
 
// private function for getting a list of values in the specified context, optionally filter this list, based on the list from second parameter
function _GetWMI($strClass, $strValue = array() ) {
$objWEBM = $this->wmi->Get($strClass);
/**
* holds the COM object that we pull all the WMI data from
*
* @var Object
*/
private $_wmi = null;
 
if( PHP_VERSION < 5 ) {
$objProp = $objWEBM->Properties_;
$arrProp = $objProp->Next($objProp->Count);
$objWEBMCol = $objWEBM->Instances_();
$arrWEBMCol = $objWEBMCol->Next($objWEBMCol->Count);
} else {
$arrProp = $objWEBM->Properties_;
$arrWEBMCol = $objWEBM->Instances_();
/**
* holds the COM object that we pull all the RegRead data from
*
* @var Object
*/
private $_reg = null;
 
/**
* holds the COM object that we pull all the EnumKey data from
*
* @var Object
*/
private $_key = null;
 
/**
* holds all devices, which are in the system
*
* @var array
*/
private $_wmidevices;
 
/**
* holds all disks, which are in the system
*
* @var array
*/
private $_wmidisks;
 
/**
* store language encoding of the system to convert some output to utf-8
*
* @var string
*/
private $_codepage = null;
 
/**
* store language of the system
*
* @var string
*/
private $_syslang = null;
 
/**
* reads the data from WMI Win32_OperatingSystem
*
* @return array
*/
private function _get_Win32_OperatingSystem()
{
if ($this->_Win32_OperatingSystem === null) $this->_Win32_OperatingSystem = CommonFunctions::getWMI($this->_wmi, 'Win32_OperatingSystem', array('CodeSet', 'Locale', 'LastBootUpTime', 'LocalDateTime', 'Version', 'ServicePackMajorVersion', 'Caption', 'OSArchitecture', 'TotalVisibleMemorySize', 'FreePhysicalMemory'));
return $this->_Win32_OperatingSystem;
}
 
foreach($arrWEBMCol as $objItem)
/**
* reads the data from WMI Win32_ComputerSystem
*
* @return array
*/
private function _get_Win32_ComputerSystem()
{
@reset($arrProp);
$arrInstance = array();
foreach($arrProp as $propItem)
{
eval("\$value = \$objItem->" .$propItem->Name .";");
if( empty( $strValue ) ) {
$arrInstance[$propItem->Name] = trim($value);
} else {
if( in_array( $propItem->Name, $strValue ) ) {
$arrInstance[$propItem->Name] = trim($value);
}
if ($this->_Win32_ComputerSystem === null) $this->_Win32_ComputerSystem = CommonFunctions::getWMI($this->_wmi, 'Win32_ComputerSystem', array('Name', 'Manufacturer', 'Model'));
return $this->_Win32_ComputerSystem;
}
 
/**
* reads the data from WMI Win32_Processor
*
* @return array
*/
private function _get_Win32_Processor()
{
if ($this->_Win32_Processor === null) $this->_Win32_Processor = CommonFunctions::getWMI($this->_wmi, 'Win32_Processor', array('LoadPercentage', 'AddressWidth', 'Name', 'L2CacheSize', 'L3CacheSize', 'CurrentClockSpeed', 'ExtClock', 'NumberOfCores', 'NumberOfLogicalProcessors', 'MaxClockSpeed', 'Manufacturer'));
return $this->_Win32_Processor;
}
 
/**
* reads the data from WMI Win32_PerfFormattedData_PerfOS_Processor
*
* @return array
*/
private function _get_Win32_PerfFormattedData_PerfOS_Processor()
{
if ($this->_Win32_PerfFormattedData_PerfOS_Processor === null) {
$this->_Win32_PerfFormattedData_PerfOS_Processor = array();
$buffer = $this->_get_Win32_OperatingSystem();
if ($buffer && isset($buffer[0]) && isset($buffer[0]['Version']) && version_compare($buffer[0]['Version'], "5.1", ">=")) { // minimal windows 2003 or windows XP
$cpubuffer = CommonFunctions::getWMI($this->_wmi, 'Win32_PerfFormattedData_PerfOS_Processor', array('Name', 'PercentProcessorTime'));
if ($cpubuffer) foreach ($cpubuffer as $cpu) {
if (isset($cpu['Name']) && isset($cpu['PercentProcessorTime'])) {
$this->_Win32_PerfFormattedData_PerfOS_Processor['cpu'.$cpu['Name']] = $cpu['PercentProcessorTime'];
}
}
}
}
$arrData[] = $arrInstance;
}
return $arrData;
}
 
// private function for getting different device types from the system
function _devicelist ( $strType ) {
if( empty( $this->wmidevices ) ) {
$this->wmidevices = $this->_GetWMI( "Win32_PnPEntity", array( "Name", "PNPDeviceID" ) );
return $this->_Win32_PerfFormattedData_PerfOS_Processor;
}
 
$list = array();
foreach ( $this->wmidevices as $device ) {
if ( substr( $device["PNPDeviceID"], 0, strpos( $device["PNPDeviceID"], "\\" ) + 1 ) == ( $strType . "\\" ) ) {
$list[] = $device["Name"];
}
/**
* reads the data from systeminfo
*
* @return string
*/
private function _get_systeminfo()
{
if ($this->_systeminfo === null) CommonFunctions::executeProgram('systeminfo', '', $this->_systeminfo, false);
return $this->_systeminfo;
}
 
return $list;
}
// get our apache SERVER_NAME or vhost
function vhostname () {
if (! ($result = getenv('SERVER_NAME'))) {
$result = 'N.A.';
}
return $result;
}
/**
* build the global Error object and create the WMI connection
*/
public function __construct($blockname = false)
{
parent::__construct($blockname);
try {
// initialize the wmi object
$objLocator = new COM('WbemScripting.SWbemLocator');
$this->_wmi = $objLocator->ConnectServer('', 'root\CIMv2');
} catch (Exception $e) {
$this->error->addError("WMI connect error", "PhpSysInfo can not connect to the WMI interface for security reasons.\nCheck an authentication mechanism for the directory where phpSysInfo is installed.");
}
try {
// initialize the RegRead object
$this->_reg = new COM("WScript.Shell");
} catch (Exception $e) {
//$this->error->addError("Windows Scripting Host error", "PhpSysInfo can not initialize Windows Scripting Host for security reasons.\nCheck an authentication mechanism for the directory where phpSysInfo is installed.");
$this->_reg = false;
}
try {
// initialize the EnumKey object
$this->_key = new COM("winmgmts:{impersonationLevel=impersonate}!\\\\.\\root\\default:StdRegProv");
} catch (Exception $e) {
//$this->error->addError("WWinmgmts Impersonationlevel Script Error", "PhpSysInfo can not initialize Winmgmts Impersonationlevel Script for security reasons.\nCheck an authentication mechanism for the directory where phpSysInfo is installed.");
$this->_key = false;
}
 
// get the IP address of our vhost name
function vip_addr () {
return gethostbyname($this->vhostname());
}
$this->_getCodeSet();
}
 
// get our canonical hostname
function chostname ()
{
$buffer = $this->_GetWMI( "Win32_ComputerSystem", array( "Name" ) );
$result = $buffer[0]["Name"];
return gethostbyaddr(gethostbyname($result));
}
/**
* store the codepage of the os for converting some strings to utf-8
*
* @return void
*/
private function _getCodeSet()
{
$buffer = $this->_get_Win32_OperatingSystem();
if (!$buffer) {
if (CommonFunctions::readReg($this->_reg, "HKEY_LOCAL_MACHINE\\SYSTEM\\CurrentControlSet\\Control\\Nls\\CodePage\\ACP", $strBuf, false)) {
$buffer[0]['CodeSet'] = $strBuf;
}
if (CommonFunctions::readReg($this->_reg, "HKEY_LOCAL_MACHINE\\SYSTEM\\CurrentControlSet\\Control\\Nls\\Language\\Default", $strBuf, false)) {
$buffer[0]['Locale'] = $strBuf;
}
}
if ($buffer && isset($buffer[0])) {
if (isset($buffer[0]['CodeSet'])) {
$codeset = $buffer[0]['CodeSet'];
if ($codeset == 932) {
$codename = ' (SJIS)';
} elseif ($codeset == 949) {
$codename = ' (EUC-KR)';
} elseif ($codeset == 950) {
$codename = ' (BIG-5)';
} else {
$codename = '';
}
CommonFunctions::setcp($codeset);
$this->_codepage = 'windows-'.$codeset.$codename;
}
if (isset($buffer[0]['Locale']) && (($locale = hexdec($buffer[0]['Locale']))>0)) {
$lang = "";
if (is_readable(PSI_APP_ROOT.'/data/languages.ini') && ($langdata = @parse_ini_file(PSI_APP_ROOT.'/data/languages.ini', true))) {
if (isset($langdata['WINNT'][$locale])) {
$lang = $langdata['WINNT'][$locale];
}
}
if ($lang == "") {
$lang = 'Unknown';
}
$this->_syslang = $lang.' ('.$locale.')';
}
}
}
 
// get the IP address of our canonical hostname
function ip_addr ()
{
$buffer = $this->_GetWMI( "Win32_ComputerSystem", array( "Name" ) );
$result = $buffer[0]["Name"];
return gethostbyname($result);
}
/**
* retrieve different device types from the system based on selector
*
* @param string $strType type of the devices that should be returned
*
* @return array list of devices of the specified type
*/
private function _devicelist($strType)
{
if (empty($this->_wmidevices)) {
if (defined('PSI_SHOW_DEVICES_INFOS') && PSI_SHOW_DEVICES_INFOS) {
$this->_wmidevices = CommonFunctions::getWMI($this->_wmi, 'Win32_PnPEntity', array('Name', 'PNPDeviceID', 'Manufacturer', 'PNPClass'));
if (defined('PSI_SHOW_DEVICES_SERIAL') && PSI_SHOW_DEVICES_SERIAL) {
$this->_wmidisks = CommonFunctions::getWMI($this->_wmi, 'Win32_DiskDrive', array('PNPDeviceID', 'Size', 'SerialNumber'));
} else {
$this->_wmidisks = CommonFunctions::getWMI($this->_wmi, 'Win32_DiskDrive', array('PNPDeviceID', 'Size'));
}
} else {
$this->_wmidevices = CommonFunctions::getWMI($this->_wmi, 'Win32_PnPEntity', array('Name', 'PNPDeviceID'));
$this->_wmidisks = array();
}
}
$list = array();
foreach ($this->_wmidevices as $device) {
if (substr($device['PNPDeviceID'], 0, strpos($device['PNPDeviceID'], "\\") + 1) == ($strType."\\")) {
if (defined('PSI_SHOW_DEVICES_INFOS') && PSI_SHOW_DEVICES_INFOS) {
if (!isset($device['PNPClass']) || ($device['PNPClass']===$strType) || ($device['PNPClass']==='System')) {
$device['PNPClass'] = null;
}
if (preg_match('/^\(.*\)$/', $device['Manufacturer'])) {
$device['Manufacturer'] = null;
}
$device['Capacity'] = null;
if (($strType==='IDE')||($strType==='SCSI')) {
foreach ($this->_wmidisks as $disk) {
if (($disk['PNPDeviceID'] === $device['PNPDeviceID']) && isset($disk['Size'])) {
$device['Capacity'] = $disk['Size'];
break;
}
}
}
$device['Serial'] = null;
if (defined('PSI_SHOW_DEVICES_SERIAL') && PSI_SHOW_DEVICES_SERIAL) {
if ($strType==='USB') {
if (preg_match('/\\\\(\w+)$/', $device['PNPDeviceID'], $buf)) {
$device['Serial'] = $buf[1];
}
} elseif (($strType==='IDE')||($strType==='SCSI')) {
foreach ($this->_wmidisks as $disk) {
if (($disk['PNPDeviceID'] === $device['PNPDeviceID']) && isset($disk['SerialNumber'])) {
$device['Serial'] = $disk['SerialNumber'];
break;
}
}
}
}
$list[] = array('Name'=>$device['Name'], 'Manufacturer'=>$device['Manufacturer'], 'Product'=>$device['PNPClass'], 'Capacity'=>$device['Capacity'], 'Serial'=>$device['Serial']);
} else {
$list[] = array('Name'=>$device['Name']);
}
}
}
 
function kernel ()
{
$buffer = $this->_GetWMI( "Win32_OperatingSystem", array( "Version", "ServicePackMajorVersion" ) );
$result = $buffer[0]["Version"];
if( $buffer[0]["ServicePackMajorVersion"] > 0 ) {
$result .= " SP" . $buffer[0]["ServicePackMajorVersion"];
return $list;
}
return $result;
}
 
// get the time the system is running
function uptime ()
{
$result = 0;
$buffer = $this->_GetWMI( "Win32_OperatingSystem", array( "LastBootUpTime", "LocalDateTime" ) );
/**
* Host Name
*
* @return void
*/
private function _hostname()
{
if (PSI_USE_VHOST === true) {
if (CommonFunctions::readenv('SERVER_NAME', $hnm)) $this->sys->setHostname($hnm);
} else {
$buffer = $this->_get_Win32_ComputerSystem();
if (!$buffer && CommonFunctions::readReg($this->_reg, "HKEY_LOCAL_MACHINE\\SYSTEM\\CurrentControlSet\\Control\\ComputerName\\ActiveComputerName\\ComputerName", $strBuf, false) && (strlen($strBuf) > 0)) {
$buffer[0]['Name'] = $strBuf;
}
if ($buffer) {
$result = $buffer[0]['Name'];
$ip = gethostbyname($result);
if ($ip != $result) {
if ((version_compare("10.0.0.0", $ip, "<=") && version_compare($ip, "10.255.255.255", "<=")) ||
(version_compare("172.16.0.0", $ip, "<=") && version_compare($ip, "172.31.255.255", "<=")) ||
(version_compare("192.168.0.0", $ip, "<=") && version_compare($ip, "192.168.255.255", "<=")) ||
(version_compare("127.0.0.0", $ip, "<=") && version_compare($ip, "127.255.255.255", "<=")) ||
(version_compare("169.254.1.0", $ip, "<=") && version_compare($ip, "169.254.254.255", "<=")) ||
(version_compare("255.255.255.255", $ip, "=="))) {
$this->sys->setHostname($result); // internal ip
} else {
$this->sys->setHostname(gethostbyaddr($ip));
}
}
} else {
if (CommonFunctions::readenv('COMPUTERNAME', $hnm)) $this->sys->setHostname($hnm);
}
}
}
 
$byear = intval(substr($buffer[0]["LastBootUpTime"], 0, 4));
$bmonth = intval(substr($buffer[0]["LastBootUpTime"], 4, 2));
$bday = intval(substr($buffer[0]["LastBootUpTime"], 6, 2));
$bhour = intval(substr($buffer[0]["LastBootUpTime"], 8, 2));
$bminute = intval(substr($buffer[0]["LastBootUpTime"], 10, 2));
$bseconds = intval(substr($buffer[0]["LastBootUpTime"], 12, 2));
/**
* UpTime
* time the system is running
*
* @return void
*/
private function _uptime()
{
$result = 0;
date_default_timezone_set('UTC');
$buffer = $this->_get_Win32_OperatingSystem();
if ($buffer && ($buffer[0]['LastBootUpTime'] !== null)) {
$local = $buffer[0]['LocalDateTime'];
$boot = $buffer[0]['LastBootUpTime'];
 
$lyear = intval(substr($buffer[0]["LocalDateTime"], 0, 4));
$lmonth = intval(substr($buffer[0]["LocalDateTime"], 4, 2));
$lday = intval(substr($buffer[0]["LocalDateTime"], 6, 2));
$lhour = intval(substr($buffer[0]["LocalDateTime"], 8, 2));
$lminute = intval(substr($buffer[0]["LocalDateTime"], 10, 2));
$lseconds = intval(substr($buffer[0]["LocalDateTime"], 12, 2));
$lyear = intval(substr($local, 0, 4));
$lmonth = intval(substr($local, 4, 2));
$lday = intval(substr($local, 6, 2));
$lhour = intval(substr($local, 8, 2));
$lminute = intval(substr($local, 10, 2));
$lseconds = intval(substr($local, 12, 2));
$loffset = intval(substr($boot, 21, 4));
 
$boottime = mktime($bhour, $bminute, $bseconds, $bmonth, $bday, $byear);
$localtime = mktime($lhour, $lminute, $lseconds, $lmonth, $lday, $lyear);
$byear = intval(substr($boot, 0, 4));
$bmonth = intval(substr($boot, 4, 2));
$bday = intval(substr($boot, 6, 2));
$bhour = intval(substr($boot, 8, 2));
$bminute = intval(substr($boot, 10, 2));
$bseconds = intval(substr($boot, 12, 2));
$boffset = intval(substr($boot, 21, 4));
 
$result = $localtime - $boottime;
if (version_compare($buffer[0]['Version'], "5.1", "<")) { // fix LastBootUpTime on Windows 2000 and older
$boffset += $boffset;
}
 
return $result;
}
$localtime = mktime($lhour, $lminute, $lseconds, $lmonth, $lday, $lyear) - $loffset*60;
$boottime = mktime($bhour, $bminute, $bseconds, $bmonth, $bday, $byear) - $boffset*60;
 
// count the users, which are logged in
function users ()
{
if( stristr( $this->kernel(), "2000 P" ) ) return "N.A.";
$buffer = $this->_GetWMI( "Win32_PerfRawData_TermService_TerminalServices", array( "TotalSessions" ) );
return $buffer[0]["TotalSessions"];
}
$result = $localtime - $boottime;
 
// get the load of the processors
function loadavg ($bar = false)
{
$buffer = $this->_GetWMI( "Win32_Processor", array( "LoadPercentage" ) );
$cpuload = array();
for( $i = 0; $i < count( $buffer ); $i++ ) {
$cpuload['avg'][] = $buffer[$i]["LoadPercentage"];
$this->sys->setUptime($result);
} elseif (($this->sys->getDistribution()=="ReactOS") && CommonFunctions::executeProgram('uptime', '', $strBuf, false) && (strlen($strBuf) > 0) && preg_match("/^System Up Time:\s+(\d+) days, (\d+) Hours, (\d+) Minutes, (\d+) Seconds/", $strBuf, $ar_buf)) {
$sec = $ar_buf[4];
$min = $ar_buf[3];
$hours = $ar_buf[2];
$days = $ar_buf[1];
$this->sys->setUptime($days * 86400 + $hours * 3600 + $min * 60 + $sec);
}
}
if ($bar) {
$cpuload['cpupercent'] = array_sum( $cpuload['avg'] ) / count( $buffer );
 
/**
* Number of Users
*
* @return void
*/
protected function _users()
{
if (CommonFunctions::executeProgram('quser', '', $strBuf, false) && (strlen($strBuf) > 0)) {
$lines = preg_split('/\n/', $strBuf);
$users = count($lines)-1;
} else {
$users = 0;
$buffer = CommonFunctions::getWMI($this->_wmi, 'Win32_Process', array('Caption'));
foreach ($buffer as $process) {
if (strtoupper($process['Caption']) == strtoupper('explorer.exe')) {
$users++;
}
}
}
$this->sys->setUsers($users);
}
return $cpuload;
}
 
// get some informations about the cpu's
function cpu_info ()
{
$buffer = $this->_GetWMI( "Win32_Processor", array( "Name", "L2CacheSize", "CurrentClockSpeed", "ExtClock" ) );
$results["cpus"] = 0;
foreach ($buffer as $cpu) {
$results["cpus"]++;
$results["model"] = $cpu["Name"];
$results["cache"] = $cpu["L2CacheSize"];
$results["cpuspeed"] = $cpu["CurrentClockSpeed"];
$results["busspeed"] = $cpu["ExtClock"];
}
return $results;
}
/**
* Distribution
*
* @return void
*/
private function _distro()
{
$buffer = $this->_get_Win32_OperatingSystem();
if ($buffer) {
$ver = $buffer[0]['Version'];
$kernel = $ver;
if ($buffer[0]['ServicePackMajorVersion'] > 0) {
$kernel .= ' SP'.$buffer[0]['ServicePackMajorVersion'];
}
if (isset($buffer[0]['OSArchitecture']) && preg_match("/^(\d+)/", $buffer[0]['OSArchitecture'], $bits)) {
$this->sys->setKernel($kernel.' ('.$bits[1].'-bit)');
} elseif (($allCpus = $this->_get_Win32_Processor()) && isset($allCpus[0]['AddressWidth'])) {
$this->sys->setKernel($kernel.' ('.$allCpus[0]['AddressWidth'].'-bit)');
} else {
$this->sys->setKernel($kernel);
}
$this->sys->setDistribution($buffer[0]['Caption']);
 
// get the pci devices from the system
function pci ()
{
$pci = $this->_devicelist( "PCI" );
return $pci;
}
if (version_compare($ver, "5.1", "<"))
$icon = 'Win2000.png';
elseif (version_compare($ver, "5.1", ">=") && version_compare($ver, "6.0", "<"))
$icon = 'WinXP.png';
elseif (version_compare($ver, "6.0", ">=") && version_compare($ver, "6.2", "<"))
$icon = 'WinVista.png';
else
$icon = 'Win8.png';
$this->sys->setDistributionIcon($icon);
} elseif (CommonFunctions::executeProgram('cmd', '/c ver 2>nul', $ver_value, false)) {
if (preg_match("/ReactOS\r?\nVersion\s+(.+)/", $ver_value, $ar_temp)) {
$this->sys->setDistribution("ReactOS");
$this->sys->setKernel($ar_temp[1]);
$this->sys->setDistributionIcon('ReactOS.png');
$this->_wmi = false; // No WMI info on ReactOS yet
} elseif (preg_match("/^(Microsoft [^\[]*)\s*\[\D*\s*(.+)\]/", $ver_value, $ar_temp)) {
if (CommonFunctions::readReg($this->_reg, "HKEY_LOCAL_MACHINE\\SOFTWARE\\Microsoft\\Windows NT\\CurrentVersion\\ProductName", $strBuf, false) && (strlen($strBuf) > 0)) {
if (preg_match("/^Microsoft /", $strBuf)) {
$this->sys->setDistribution($strBuf);
} else {
$this->sys->setDistribution("Microsoft ".$strBuf);
}
} else {
$this->sys->setDistribution($ar_temp[1]);
}
$kernel = $ar_temp[2];
$this->sys->setKernel($kernel);
if ((($kernel[1] == '.') && ($kernel[0] <5)) || (substr($kernel, 0, 4) == '5.0.'))
$icon = 'Win2000.png';
elseif ((substr($kernel, 0, 4) == '6.0.') || (substr($kernel, 0, 4) == '6.1.'))
$icon = 'WinVista.png';
elseif ((substr($kernel, 0, 4) == '6.2.') || (substr($kernel, 0, 4) == '6.3.') || (substr($kernel, 0, 4) == '6.4.') || (substr($kernel, 0, 5) == '10.0.'))
$icon = 'Win8.png';
else
$icon = 'WinXP.png';
$this->sys->setDistributionIcon($icon);
} else {
$this->sys->setDistribution("WinNT");
$this->sys->setDistributionIcon('Win2000.png');
}
} else {
$this->sys->setDistribution("WinNT");
$this->sys->setDistributionIcon('Win2000.png');
}
}
 
// get the ide devices from the system
function ide ()
{
$buffer = $this->_devicelist( "IDE" );
$ide = array();
foreach ( $buffer as $device ) {
$ide[]['model'] = $device;
}
return $ide;
}
/**
* Processor Load
* optionally create a loadbar
*
* @return void
*/
private function _loadavg()
{
if (($cpubuffer = $this->_get_Win32_PerfFormattedData_PerfOS_Processor()) && isset($cpubuffer['cpu_Total'])) {
$this->sys->setLoad($cpubuffer['cpu_Total']);
if (PSI_LOAD_BAR) {
$this->sys->setLoadPercent($cpubuffer['cpu_Total']);
}
} elseif ($buffer = $this->_get_Win32_Processor()) {
$loadok = true;
$sum = 0;
foreach ($buffer as $load) {
$value = $load['LoadPercentage'];
if ($value !== null) {
$sum += $value;
} else {
$loadok = false;
break;
}
}
if ($loadok) {
$percent = $sum / count($buffer);
$this->sys->setLoad($percent);
if (PSI_LOAD_BAR) {
$this->sys->setLoadPercent($percent);
}
}
}
}
 
// get the scsi devices from the system
function scsi ()
{
$scsi = $this->_devicelist( "SCSI" );
return $scsi;
}
/**
* CPU information
*
* @return void
*/
private function _cpuinfo()
{
$allCpus = $this->_get_Win32_Processor();
if (!$allCpus) {
$hkey = "HKEY_LOCAL_MACHINE\\HARDWARE\\DESCRIPTION\\System\\CentralProcessor";
if (CommonFunctions::enumKey($this->_key, $hkey, $arrBuf, false)) {
foreach ($arrBuf as $coreCount) {
if (CommonFunctions::readReg($this->_reg, $hkey."\\".$coreCount."\\ProcessorNameString", $strBuf, false)) {
$allCpus[$coreCount]['Name'] = $strBuf;
}
if (CommonFunctions::readReg($this->_reg, $hkey."\\".$coreCount."\\~MHz", $strBuf, false)) {
if (preg_match("/^0x([0-9a-f]+)$/i", $strBuf, $hexvalue)) {
$allCpus[$coreCount]['CurrentClockSpeed'] = hexdec($hexvalue[1]);
}
}
if (CommonFunctions::readReg($this->_reg, $hkey."\\".$coreCount."\\VendorIdentifier", $strBuf, false)) {
$allCpus[$coreCount]['Manufacturer'] = $strBuf;
}
}
}
}
 
// get the usb devices from the system
function usb ()
{
$usb = $this->_devicelist( "USB" );
return $usb;
}
$globalcpus = 0;
foreach ($allCpus as $oneCpu) {
$cpuCount = 1;
if (isset($oneCpu['NumberOfLogicalProcessors'])) {
$cpuCount = $oneCpu['NumberOfLogicalProcessors'];
} elseif (isset($oneCpu['NumberOfCores'])) {
$cpuCount = $oneCpu['NumberOfCores'];
}
$globalcpus+=$cpuCount;
}
 
// get the sbus devices from the system - currently not called
function sbus ()
{
$sbus = $this->_devicelist( "SBUS" );
return $sbus;
}
foreach ($allCpus as $oneCpu) {
$cpuCount = 1;
if (isset($oneCpu['NumberOfLogicalProcessors'])) {
$cpuCount = $oneCpu['NumberOfLogicalProcessors'];
} elseif (isset($oneCpu['NumberOfCores'])) {
$cpuCount = $oneCpu['NumberOfCores'];
}
for ($i = 0; $i < $cpuCount; $i++) {
$cpu = new CpuDevice();
if (isset($oneCpu['Name'])) $cpu->setModel($oneCpu['Name']);
if (isset($oneCpu['L3CacheSize']) && ($oneCpu['L3CacheSize'] > 0)) {
$cpu->setCache($oneCpu['L3CacheSize'] * 1024);
} elseif (isset($oneCpu['L2CacheSize'])) {
$cpu->setCache($oneCpu['L2CacheSize'] * 1024);
}
if (isset($oneCpu['CurrentClockSpeed'])) {
$cpu->setCpuSpeed($oneCpu['CurrentClockSpeed']);
if (isset($oneCpu['MaxClockSpeed']) && ($oneCpu['CurrentClockSpeed'] < $oneCpu['MaxClockSpeed'])) $cpu->setCpuSpeedMax($oneCpu['MaxClockSpeed']);
}
if (isset($oneCpu['ExtClock'])) $cpu->setBusSpeed($oneCpu['ExtClock']);
if (isset($oneCpu['Manufacturer'])) $cpu->setVendorId($oneCpu['Manufacturer']);
if (PSI_LOAD_BAR) {
if (($cpubuffer = $this->_get_Win32_PerfFormattedData_PerfOS_Processor()) && (count($cpubuffer) == ($globalcpus+1)) && isset($cpubuffer['cpu'.$i])) {
$cpu->setLoad($cpubuffer['cpu'.$i]);
} elseif ((count($allCpus) == $globalcpus) && isset($oneCpu['LoadPercentage'])) {
$cpu->setLoad($oneCpu['LoadPercentage']);
}
}
$this->sys->setCpus($cpu);
}
}
}
 
// get the netowrk devices and rx/tx bytes
function network () {
$results = array();
$buffer = $this->_GetWMI( "Win32_PerfRawData_Tcpip_NetworkInterface" );
foreach( $buffer as $device ) {
$dev_name = $device["Name"];
// http://msdn.microsoft.com/library/default.asp?url=/library/en-us/wmisdk/wmi/win32_perfrawdata_tcpip_networkinterface.asp
// there is a possible bug in the wmi interfaceabout uint32 and uint64: http://www.ureader.com/message/1244948.aspx, so that
// magative numbers would occour, try to calculate the nagative value from total - positive number
if( $device["BytesSentPersec"] < 0) {
$results[$dev_name]['tx_bytes'] = $device["BytesTotalPersec"] - $device["BytesReceivedPersec"];
} else {
$results[$dev_name]['tx_bytes'] = $device["BytesSentPersec"];
}
if( $device["BytesReceivedPersec"] < 0 ) {
$results[$dev_name]['rx_bytes'] = $device["BytesTotalPersec"] - $device["BytesSentPersec"];
} else {
$results[$dev_name]['rx_bytes'] = $device["BytesReceivedPersec"];
}
$results[$dev_name]['rx_packets'] = $device["PacketsReceivedPersec"];
$results[$dev_name]['tx_packets'] = $device["PacketsSentPersec"];
$results[$dev_name]['rx_errs'] = $device["PacketsReceivedErrors"];
$results[$dev_name]['rx_drop'] = $device["PacketsReceivedDiscarded"];
$results[$dev_name]['errs'] = $device["PacketsReceivedErrors"];
$results[$dev_name]['drop'] = $device["PacketsReceivedDiscarded"];
}
return $results;
}
/**
* Machine information
*
* @return void
*/
private function _machine()
{
$buffer = $this->_get_Win32_ComputerSystem();
if ($buffer) {
$buf = "";
if (isset($buffer[0]['Manufacturer']) && !preg_match("/^To be filled by O\.E\.M\.$|^System manufacturer$|^Not Specified$/i", $buf2=$buffer[0]['Manufacturer'])) {
$buf .= ' '.$buf2;
}
 
function memory ()
{
$buffer = $this->_GetWMI( "Win32_LogicalMemoryConfiguration", array( "TotalPhysicalMemory" ) );
$results['ram']['total'] = $buffer[0]["TotalPhysicalMemory"];
if (isset($buffer[0]['Model']) && !preg_match("/^To be filled by O\.E\.M\.$|^System Product Name$|^Not Specified$/i", $buf2=$buffer[0]['Model'])) {
$buf .= ' '.$buf2;
}
if (trim($buf) != "") {
$this->sys->setMachine(trim($buf));
}
}
}
 
$buffer = $this->_GetWMI( "Win32_PerfRawData_PerfOS_Memory", array( "AvailableKBytes" ) );
$results['ram']['free'] = $buffer[0]["AvailableKBytes"];
/**
* Hardwaredevices
*
* @return void
*/
private function _hardware()
{
foreach ($this->_devicelist('PCI') as $pciDev) {
$dev = new HWDevice();
$dev->setName($pciDev['Name']);
if (defined('PSI_SHOW_DEVICES_INFOS') && PSI_SHOW_DEVICES_INFOS) {
$dev->setManufacturer($pciDev['Manufacturer']);
$dev->setProduct($pciDev['Product']);
}
$this->sys->setPciDevices($dev);
}
 
$results['ram']['used'] = $results['ram']['total'] - $results['ram']['free'];
$results['ram']['percent'] = ceil( ( $results['ram']['used'] * 100 ) / $results['ram']['total'] );
$results['swap']['total'] = 0;
$results['swap']['used'] = 0;
$results['swap']['free'] = 0;
foreach ($this->_devicelist('IDE') as $ideDev) {
$dev = new HWDevice();
$dev->setName($ideDev['Name']);
if (defined('PSI_SHOW_DEVICES_INFOS') && PSI_SHOW_DEVICES_INFOS) {
$dev->setCapacity($ideDev['Capacity']);
if (defined('PSI_SHOW_DEVICES_SERIAL') && PSI_SHOW_DEVICES_SERIAL) {
$dev->setSerial($ideDev['Serial']);
}
}
$this->sys->setIdeDevices($dev);
}
 
$buffer = $this->_GetWMI( "Win32_PageFileUsage" ); // no need to filter, using nearly everything from output
$k = 0;
foreach ($buffer as $swapdevice) {
$results['devswap'][$k]['dev'] = $swapdevice["Name"];
$results['devswap'][$k]['total'] = $swapdevice["AllocatedBaseSize"] * 1024;
$results['devswap'][$k]['used'] = $swapdevice["CurrentUsage"] * 1024;
$results['devswap'][$k]['free'] = ( $swapdevice["AllocatedBaseSize"] - $swapdevice["CurrentUsage"] ) * 1024;
$results['devswap'][$k]['percent'] = ceil( $swapdevice["CurrentUsage"] / $swapdevice["AllocatedBaseSize"] );
foreach ($this->_devicelist('SCSI') as $scsiDev) {
$dev = new HWDevice();
$dev->setName($scsiDev['Name']);
if (defined('PSI_SHOW_DEVICES_INFOS') && PSI_SHOW_DEVICES_INFOS) {
$dev->setCapacity($scsiDev['Capacity']);
if (defined('PSI_SHOW_DEVICES_SERIAL') && PSI_SHOW_DEVICES_SERIAL) {
$dev->setSerial($scsiDev['Serial']);
}
}
$this->sys->setScsiDevices($dev);
}
 
$results['swap']['total'] += $results['devswap'][$k]['total'];
$results['swap']['used'] += $results['devswap'][$k]['used'];
$results['swap']['free'] += $results['devswap'][$k]['free'];
$k += 1;
}
$results['swap']['percent'] = ceil( $results['swap']['used'] / $results['swap']['total'] * 100 );
return $results;
}
foreach ($this->_devicelist('USB') as $usbDev) {
$dev = new HWDevice();
$dev->setName($usbDev['Name']);
if (defined('PSI_SHOW_DEVICES_INFOS') && PSI_SHOW_DEVICES_INFOS) {
$dev->setManufacturer($usbDev['Manufacturer']);
$dev->setProduct($usbDev['Product']);
if (defined('PSI_SHOW_DEVICES_SERIAL') && PSI_SHOW_DEVICES_SERIAL) {
$dev->setSerial($usbDev['Serial']);
}
}
$this->sys->setUsbDevices($dev);
}
}
 
// get the filesystem informations
function filesystems ()
{
$typearray = array("Unknown", "No Root Directory", "Removeable Disk",
"Local Disk", "Network Drive", "Compact Disc", "RAM Disk");
$floppyarray = array("Unknown", "5 1/4 in.", "3 1/2 in.", "3 1/2 in.",
"3 1/2 in.", "3 1/2 in.", "5 1/4 in.", "5 1/4 in.", "5 1/4 in.",
"5 1/4 in.", "5 1/4 in.", "Other", "HD", "3 1/2 in.", "3 1/2 in.",
"5 1/4 in.", "5 1/4 in.", "3 1/2 in.", "3 1/2 in.", "5 1/4 in.",
"3 1/2 in.", "3 1/2 in.", "8 in.");
/**
* Network devices
*
* @return void
*/
private function _network()
{
if ($this->_wmi) {
$buffer = $this->_get_Win32_OperatingSystem();
if ($buffer && isset($buffer[0]) && isset($buffer[0]['Version']) && version_compare($buffer[0]['Version'], "6.2", ">=")) { // minimal windows 2012 or windows 8
$allDevices = CommonFunctions::getWMI($this->_wmi, 'Win32_PerfRawData_Tcpip_NetworkAdapter', array('Name', 'BytesSentPersec', 'BytesTotalPersec', 'BytesReceivedPersec', 'PacketsReceivedErrors', 'PacketsReceivedDiscarded', 'CurrentBandwidth'));
} else {
$allDevices = CommonFunctions::getWMI($this->_wmi, 'Win32_PerfRawData_Tcpip_NetworkInterface', array('Name', 'BytesSentPersec', 'BytesTotalPersec', 'BytesReceivedPersec', 'PacketsReceivedErrors', 'PacketsReceivedDiscarded', 'CurrentBandwidth'));
}
if ($allDevices) {
$aliases = array();
$hkey = "HKEY_LOCAL_MACHINE\\SYSTEM\\CurrentControlSet\\Control\\Network\\{4D36E972-E325-11CE-BFC1-08002BE10318}";
if (CommonFunctions::enumKey($this->_key, $hkey, $arrBuf, false)) {
foreach ($arrBuf as $netID) {
if (CommonFunctions::readReg($this->_reg, $hkey."\\".$netID."\\Connection\\PnPInstanceId", $strInstanceID, false)) { //a w Name jest net alias
if (CommonFunctions::readReg($this->_reg, "HKEY_LOCAL_MACHINE\\SYSTEM\\CurrentControlSet\\Enum\\".$strInstanceID."\\FriendlyName", $strName, false)) {
$cname = str_replace(array('(', ')', '#'), array('[', ']', '_'), $strName); //convert to canonical
if (!isset($aliases[$cname])) { // duplicate checking
$aliases[$cname]['id'] = $netID;
$aliases[$cname]['name'] = $strName;
if (CommonFunctions::readReg($this->_reg, $hkey."\\".$netID."\\Connection\\Name", $strCName, false)
&& (str_replace(array('(', ')', '#'), array('[', ']', '_'), $strCName) !== $cname)) {
$aliases[$cname]['netname'] = $strCName;
}
} else {
$aliases[$cname]['id'] = '';
}
}
}
}
}
 
$buffer = $this->_GetWMI( "Win32_LogicalDisk" , array( "Name", "Size", "FreeSpace", "FileSystem", "DriveType", "MediaType" ) );
$aliases2 = array();
$hkey = "HKEY_LOCAL_MACHINE\\SOFTWARE\\Microsoft\\Windows NT\\CurrentVersion\\NetworkCards";
if (CommonFunctions::enumKey($this->_key, $hkey, $arrBuf, false)) {
foreach ($arrBuf as $netCount) {
if (CommonFunctions::readReg($this->_reg, $hkey."\\".$netCount."\\Description", $strName, false)
&& CommonFunctions::readReg($this->_reg, $hkey."\\".$netCount."\\ServiceName", $strGUID, false)) {
$cname = str_replace(array('(', ')', '#'), array('[', ']', '_'), $strName); //convert to canonical
if (!isset($aliases2[$cname])) { // duplicate checking
$aliases2[$cname]['id'] = $strGUID;
$aliases2[$cname]['name'] = $strName;
} else {
$aliases2[$cname]['id'] = '';
}
}
}
}
 
$k = 0;
foreach ( $buffer as $filesystem ) {
if ( hide_mount( $filesystem["Name"] ) ) {
continue;
}
$results[$k]['mount'] = $filesystem["Name"];
$results[$k]['size'] = $filesystem["Size"] / 1024;
$results[$k]['used'] = ( $filesystem["Size"] - $filesystem["FreeSpace"] ) / 1024;
$results[$k]['free'] = $filesystem["FreeSpace"] / 1024;
@$results[$k]['percent'] = ceil( $results[$k]['used'] / $results[$k]['size'] * 100 ); // silence this line, nobody is having a floppy in the drive everytime
$results[$k]['fstype'] = $filesystem["FileSystem"];
$results[$k]['disk'] = $typearray[$filesystem["DriveType"]];
if ( $filesystem["MediaType"] != "" && $filesystem["DriveType"] == 2 ) $results[$k]['disk'] .= " (" . $floppyarray[$filesystem["MediaType"]] . ")";
$k += 1;
}
return $results;
}
$allNetworkAdapterConfigurations = CommonFunctions::getWMI($this->_wmi, 'Win32_NetworkAdapterConfiguration', array('SettingID', /*'Description',*/ 'MACAddress', 'IPAddress'));
foreach ($allDevices as $device) if (!preg_match('/^WAN Miniport \[/', $device['Name'])) {
$dev = new NetDevice();
$name = $device['Name'];
 
function distro ()
{
$buffer = $this->_GetWMI( "Win32_OperatingSystem", array( "Caption" ) );
return $buffer[0]["Caption"];
}
if (preg_match('/^isatap\.({[A-Fa-f0-9\-]*})/', $name)) {
$dev->setName("Microsoft ISATAP Adapter");
} else {
if (preg_match('/\s-\s([^-]*)$/', $name, $ar_name)) {
$name=substr($name, 0, strlen($name)-strlen($ar_name[0]));
}
$dev->setName($name);
}
 
function distroicon ()
{
return 'xp.gif';
}
}
$macexist = false;
if (((($ali=$aliases) && isset($ali[$name])) || (($ali=$aliases2) && isset($ali[$name]))) && isset($ali[$name]['id']) && ($ali[$name]['id'] !== "")) {
foreach ($allNetworkAdapterConfigurations as $NetworkAdapterConfiguration) {
if ($ali[$name]['id']==$NetworkAdapterConfiguration['SettingID']) {
$mininame = $ali[$name]['name'];
if (preg_match('/^isatap\.({[A-Fa-f0-9\-]*})/', $mininame))
$mininame="Microsoft ISATAP Adapter";
elseif (preg_match('/\s-\s([^-]*)$/', $mininame, $ar_name))
$name=substr($mininame, 0, strlen($mininame)-strlen($ar_name[0]));
$dev->setName($mininame);
if (trim($NetworkAdapterConfiguration['MACAddress']) !== "") $macexist = true;
if (defined('PSI_SHOW_NETWORK_INFOS') && PSI_SHOW_NETWORK_INFOS) {
if (isset($ali[$name]['netname'])) $dev->setInfo(str_replace(';', ':', $ali[$name]['netname']));
if ((!defined('PSI_HIDE_NETWORK_MACADDR') || !PSI_HIDE_NETWORK_MACADDR)
&& (trim($NetworkAdapterConfiguration['MACAddress']) !== "")) $dev->setInfo(($dev->getInfo()?$dev->getInfo().';':'').str_replace(':', '-', strtoupper($NetworkAdapterConfiguration['MACAddress'])));
if (isset($NetworkAdapterConfiguration['IPAddress']))
foreach ($NetworkAdapterConfiguration['IPAddress'] as $ipaddres)
if (($ipaddres != "0.0.0.0") && ($ipaddres != "::") && !preg_match('/^fe80::/i', $ipaddres))
$dev->setInfo(($dev->getInfo()?$dev->getInfo().';':'').strtolower($ipaddres));
}
 
?>
break;
}
}
}
 
if ($macexist
// || ($device['CurrentBandwidth'] >= 1000000)
|| ($device['BytesTotalPersec'] != 0)
|| ($device['BytesSentPersec'] != 0)
|| ($device['BytesReceivedPersec'] != 0)
|| ($device['PacketsReceivedErrors'] != 0)
|| ($device['PacketsReceivedDiscarded'] != 0)) { // hide unused
if (defined('PSI_SHOW_NETWORK_INFOS') && PSI_SHOW_NETWORK_INFOS) {
if (($speedinfo = $device['CurrentBandwidth']) >= 1000000) {
if ($speedinfo > 1000000000) {
$dev->setInfo(($dev->getInfo()?$dev->getInfo().';':'').round($speedinfo/1000000000, 2)."Gb/s");
} else {
$dev->setInfo(($dev->getInfo()?$dev->getInfo().';':'').round($speedinfo/1000000, 2)."Mb/s");
}
}
}
 
// http://msdn.microsoft.com/library/default.asp?url=/library/en-us/wmisdk/wmi/win32_perfrawdata_tcpip_networkinterface.asp
// there is a possible bug in the wmi interfaceabout uint32 and uint64: http://www.ureader.com/message/1244948.aspx, so that
// magative numbers would occour, try to calculate the nagative value from total - positive number
$txbytes = $device['BytesSentPersec'];
$rxbytes = $device['BytesReceivedPersec'];
if (($txbytes < 0) && ($rxbytes < 0)) {
$txbytes += 4294967296;
$rxbytes += 4294967296;
} elseif ($txbytes < 0) {
if ($device['BytesTotalPersec'] > $rxbytes)
$txbytes = $device['BytesTotalPersec'] - $rxbytes;
else
$txbytes += 4294967296;
} elseif ($rxbytes < 0) {
if ($device['BytesTotalPersec'] > $txbytes)
$rxbytes = $device['BytesTotalPersec'] - $txbytes;
else
$rxbytes += 4294967296;
}
$dev->setTxBytes($txbytes);
$dev->setRxBytes($rxbytes);
$dev->setErrors($device['PacketsReceivedErrors']);
$dev->setDrops($device['PacketsReceivedDiscarded']);
 
$this->sys->setNetDevices($dev);
}
}
}
} elseif (($buffer = $this->_get_systeminfo()) && preg_match('/^(\s+)\[\d+\]:[^\r\n]+\r\n\s+[^\s\[]/m', $buffer, $matches, PREG_OFFSET_CAPTURE)) {
$netbuf = substr($buffer, $matches[0][1]);
if (preg_match('/^[^\s]/m', $netbuf, $matches2, PREG_OFFSET_CAPTURE)) {
$netbuf = substr($netbuf, 0, $matches2[0][1]);
}
$netstrs = preg_split('/^'.$matches[1][0].'\[\d+\]:/m', $netbuf, -1, PREG_SPLIT_NO_EMPTY);
$devnr = 0;
foreach ($netstrs as $netstr) {
$netstrls = preg_split('/\r\n/', $netstr, -1, PREG_SPLIT_NO_EMPTY);
if (sizeof($netstrls)>1) {
$dev = new NetDevice();
foreach ($netstrls as $nr=>$netstrl) {
if ($nr === 0) {
$name = trim($netstrl);
if ($name !== "") {
$dev->setName($name);
} else {
$dev->setName('dev'.$devnr);
$devnr++;
}
} elseif (preg_match('/\[\d+\]:\s+(.+)/', $netstrl, $netinfo)) {
$ipaddres = trim($netinfo[1]);
if (($ipaddres!="0.0.0.0") && !preg_match('/^fe80::/i', $ipaddres))
$dev->setInfo(($dev->getInfo()?$dev->getInfo().';':'').strtolower($ipaddres));
}
}
$this->sys->setNetDevices($dev);
}
}
}
}
 
/**
* Physical memory information and Swap Space information
*
* @link http://msdn2.microsoft.com/En-US/library/aa394239.aspx
* @link http://msdn2.microsoft.com/en-us/library/aa394246.aspx
* @return void
*/
private function _memory()
{
if ($this->_wmi) {
$buffer = $this->_get_Win32_OperatingSystem();
if ($buffer) {
$this->sys->setMemTotal($buffer[0]['TotalVisibleMemorySize'] * 1024);
$this->sys->setMemFree($buffer[0]['FreePhysicalMemory'] * 1024);
$this->sys->setMemUsed($this->sys->getMemTotal() - $this->sys->getMemFree());
}
$buffer = CommonFunctions::getWMI($this->_wmi, 'Win32_PageFileUsage');
foreach ($buffer as $swapdevice) {
$dev = new DiskDevice();
$dev->setName("SWAP");
$dev->setMountPoint($swapdevice['Name']);
$dev->setTotal($swapdevice['AllocatedBaseSize'] * 1024 * 1024);
$dev->setUsed($swapdevice['CurrentUsage'] * 1024 * 1024);
$dev->setFree($dev->getTotal() - $dev->getUsed());
$dev->setFsType('swap');
$this->sys->setSwapDevices($dev);
}
} elseif (($buffer = $this->_get_systeminfo()) && preg_match("/:\s([\d \xFF]+)\sMB\r\n.+:\s([\d \xFF]+)\sMB\r\n.+:\s([\d \xFF]+)\sMB\r\n.+:\s([\d \xFF]+)\sMB\r\n.+\s([\d \xFF]+)\sMB\r\n/m", $buffer, $buffer2)) {
// && (preg_match("/:\s([\d \xFF]+)\sMB\r\n.+:\s([\d \xFF]+)\sMB\r\n.+:\s([\d \xFF]+)\sMB\r\n.+:\s([\d \xFF]+)\sMB\r\n.+\s([\d \xFF]+)\sMB\r\n.*:\s+(\S+)\r\n/m", $buffer, $buffer2)) {
$this->sys->setMemTotal(preg_replace('/(\s)|(\xFF)/', '', $buffer2[1]) * 1024 * 1024);
$this->sys->setMemFree(preg_replace('/(\s)|(\xFF)/', '', $buffer2[2]) * 1024 * 1024);
$this->sys->setMemUsed($this->sys->getMemTotal() - $this->sys->getMemFree());
}
}
 
/**
* filesystem information
*
* @return void
*/
private function _filesystems()
{
$typearray = array('Unknown', 'No Root Directory', 'Removable Disk', 'Local Disk', 'Network Drive', 'Compact Disc', 'RAM Disk');
$floppyarray = array('Unknown', '5 1/4 in.', '3 1/2 in.', '3 1/2 in.', '3 1/2 in.', '3 1/2 in.', '5 1/4 in.', '5 1/4 in.', '5 1/4 in.', '5 1/4 in.', '5 1/4 in.', 'Other', 'HD', '3 1/2 in.', '3 1/2 in.', '5 1/4 in.', '5 1/4 in.', '3 1/2 in.', '3 1/2 in.', '5 1/4 in.', '3 1/2 in.', '3 1/2 in.', '8 in.');
$buffer = CommonFunctions::getWMI($this->_wmi, 'Win32_LogicalDisk', array('Name', 'Size', 'FreeSpace', 'FileSystem', 'DriveType', 'MediaType'));
foreach ($buffer as $filesystem) {
$dev = new DiskDevice();
$dev->setMountPoint($filesystem['Name']);
$dev->setFsType($filesystem['FileSystem']);
if ($filesystem['Size'] > 0) {
$dev->setTotal($filesystem['Size']);
$dev->setFree($filesystem['FreeSpace']);
$dev->setUsed($filesystem['Size'] - $filesystem['FreeSpace']);
}
if ($filesystem['MediaType'] != "" && $filesystem['DriveType'] == 2) {
$dev->setName($typearray[$filesystem['DriveType']]." (".$floppyarray[$filesystem['MediaType']].")");
} else {
$dev->setName($typearray[$filesystem['DriveType']]);
}
$this->sys->setDiskDevices($dev);
}
if (!$buffer && ($this->sys->getDistribution()=="ReactOS")) {
// test for command 'free' on current disk
if (CommonFunctions::executeProgram('cmd', '/c free 2>nul', $out_value, true)) {
for ($letter='A'; $letter!='AA'; $letter++) if (CommonFunctions::executeProgram('cmd', '/c free '.$letter.': 2>nul', $out_value, false)) {
$values = preg_replace('/[^\d\n]/', '', $out_value);
if (preg_match('/\n(\d+)\n(\d+)\n(\d+)$/', $values, $out_dig)) {
$size = $out_dig[1];
$used = $out_dig[2];
$free = $out_dig[3];
if ($used + $free == $size) {
$dev = new DiskDevice();
$dev->setMountPoint($letter.":");
$dev->setFsType('Unknown');
$dev->setName('Unknown');
$dev->setTotal($size);
$dev->setUsed($used);
$dev->setFree($free);
$this->sys->setDiskDevices($dev);
}
}
}
}
}
}
 
/**
* get os specific encoding
*
* @see OS::getEncoding()
*
* @return string
*/
public function getEncoding()
{
return $this->_codepage;
}
 
/**
* get os specific language
*
* @see OS::getLanguage()
*
* @return string
*/
public function getLanguage()
{
return $this->_syslang;
}
 
public function _processes()
{
$processes['*'] = 0;
if (CommonFunctions::executeProgram('qprocess', '*', $strBuf, false) && (strlen($strBuf) > 0)) {
$lines = preg_split('/\n/', $strBuf);
$processes['*'] = (count($lines)-1) - 3 ; //correction for process "qprocess *"
}
if ($processes['*'] <= 0) {
$buffer = CommonFunctions::getWMI($this->_wmi, 'Win32_Process', array('Caption'));
$processes['*'] = count($buffer);
}
$processes[' '] = $processes['*'];
$this->sys->setProcesses($processes);
}
 
/**
* get the information
*
* @see PSI_Interface_OS::build()
*
* @return Void
*/
public function build()
{
$this->_distro(); //share getDistribution()
if ($this->sys->getDistribution()=="ReactOS") {
$this->error->addError("WARN", "The ReactOS version of phpSysInfo is a work in progress, some things currently don't work");
}
if (!$this->blockname || $this->blockname==='vitals') {
$this->_hostname();
$this->_users();
$this->_uptime();
$this->_loadavg();
$this->_processes();
}
if (!$this->blockname || $this->blockname==='network') {
$this->_network();
}
if (!$this->blockname || $this->blockname==='hardware') {
$this->_machine();
$this->_cpuinfo();
$this->_hardware();
}
if (!$this->blockname || $this->blockname==='filesystem') {
$this->_filesystems();
}
if (!$this->blockname || $this->blockname==='memory') {
$this->_memory();
}
}
}