* @copyright 2014 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 ThermalZone extends Sensors { /** * holds the COM object that we pull all the WMI data from * * @var Object */ private $_buf = array(); /** * fill the private content var */ public function __construct() { parent::__construct(); switch (defined('PSI_SENSOR_THERMALZONE_ACCESS')?strtolower(PSI_SENSOR_THERMALZONE_ACCESS):'command') { case 'command': if ((PSI_OS == 'WINNT') || (defined('PSI_EMU_HOSTNAME') && !defined('PSI_EMU_PORT'))) { if (defined('PSI_EMU_HOSTNAME') || WINNT::isAdmin()) { $_wmi = WINNT::initWMI('root\WMI', true); if ($_wmi) { $this->_buf = WINNT::getWMI($_wmi, 'MSAcpi_ThermalZoneTemperature', array('InstanceName', 'CriticalTripPoint', 'CurrentTemperature')); } } else { $_wmi = WINNT::getcimv2wmi(); if ($_wmi) { $this->_buf = WINNT::getWMI($_wmi, 'Win32_PerfFormattedData_Counters_ThermalZoneInformation', array('Name', 'HighPrecisionTemperature', 'Temperature')); } if (!$this->_buf || PSI_DEBUG) { $this->error->addError("Error reading data from thermalzone sensor", "Allowed only for systems with administrator privileges (run as administrator)"); } } } break; case 'data': if (!defined('PSI_EMU_HOSTNAME') && CommonFunctions::rftsdata('thermalzone.tmp', $lines)) { //output of "wmic /namespace:\\root\wmi PATH MSAcpi_ThermalZoneTemperature get CriticalTripPoint,CurrentTemperature,InstanceName" $lines = trim(preg_replace('/[\x00-\x09\x0b-\x1F]/', '', $lines)); $lines = preg_split("/\n/", $lines, -1, PREG_SPLIT_NO_EMPTY); if ((($clines=count($lines)) > 1) && preg_match("/CriticalTripPoint\s+CurrentTemperature\s+InstanceName/i", $lines[0])) for ($i = 1; $i < $clines; $i++) { $values = preg_split("/\s+/", trim($lines[$i]), -1, PREG_SPLIT_NO_EMPTY); if (count($values)==3) { $this->_buf[] = array('CriticalTripPoint'=>trim($values[0]), 'CurrentTemperature'=>trim($values[1]), 'InstanceName'=>trim($values[2])); } } } break; default: $this->error->addConfigError('__construct()', '[sensor_thermalzone] ACCESS'); } } /** * get temperature information * * @return void */ private function _temperature() { $mode = defined('PSI_SENSOR_THERMALZONE_ACCESS')?strtolower(PSI_SENSOR_THERMALZONE_ACCESS):'command'; if ((($mode == 'command') && ((PSI_OS == 'WINNT') || defined('PSI_EMU_HOSTNAME'))) || (($mode == 'data') && !defined('PSI_EMU_HOSTNAME'))) { if ($this->_buf) foreach ($this->_buf as $buffer) { if (isset($buffer['CurrentTemperature']) && (($value = ($buffer['CurrentTemperature'] - 2732)/10) > -100)) { $dev = new SensorDevice(); if (isset($buffer['InstanceName']) && preg_match("/([^\\\\ ]+)$/", $buffer['InstanceName'], $outbuf)) { $dev->setName('ThermalZone '.$outbuf[1]); } else { $dev->setName('ThermalZone THM0_0'); } $dev->setValue($value); if (isset($buffer['CriticalTripPoint']) && (($maxvalue = ($buffer['CriticalTripPoint'] - 2732)/10) > 0)) { $dev->setMax($maxvalue); } $this->mbinfo->setMbTemp($dev); } else { if ((isset($buffer['HighPrecisionTemperature']) && (($value = ($buffer['HighPrecisionTemperature'] - 2732)/10) > -100)) || (isset($buffer['Temperature']) && (($value = ($buffer['Temperature'] - 273)) > -100))) { $dev = new SensorDevice(); if (isset($buffer['Name']) && preg_match("/([^\\\\\. ]+)$/", $buffer['Name'], $outbuf)) { $dev->setName('ThermalZone '.$outbuf[1]); } else { $dev->setName('ThermalZone THM0'); } $dev->setValue($value); $this->mbinfo->setMbTemp($dev); } } } } elseif (($mode == 'command') && (PSI_OS != 'WINNT') && !defined('PSI_EMU_HOSTNAME')) { $notwas = true; $thermalzones = CommonFunctions::findglob('/sys/class/thermal/thermal_zone*/'); if (is_array($thermalzones) && (count($thermalzones) > 0)) foreach ($thermalzones as $thermalzone) { $thermalzonetemp = $thermalzone.'temp'; $temp = null; if (CommonFunctions::rfts($thermalzonetemp, $temp, 1, 4096, false) && ($temp !== null) && (($temp = trim($temp)) != "")) { if ($temp >= 1000) { $div = 1000; } elseif ($temp >= 200) { $div = 10; } else { $div = 1; } $temp = $temp / $div; if ($temp > -40) { $dev = new SensorDevice(); $dev->setValue($temp); $temp_type = null; if (CommonFunctions::rfts($thermalzone.'type', $temp_type, 1, 4096, false) && ($temp_type !== null) && (($temp_type = trim($temp_type)) != "")) { $dev->setName($temp_type); } else { $dev->setName("ThermalZone"); } $temp_max = null; if (CommonFunctions::rfts($thermalzone.'trip_point_0_temp', $temp_max, 1, 4096, false) && ($temp_max !== null) && (($temp_max = trim($temp_max)) != "") && ($temp_max > -40)) { $temp_max = $temp_max / $div; if (($temp_max != 0) || ($temp != 0)) { // if non-zero values $dev->setMax($temp_max); $this->mbinfo->setMbTemp($dev); } } else { $this->mbinfo->setMbTemp($dev); } $notwas = false; } } } if ($notwas) { $thermalzones = (PSI_ROOT_FILESYSTEM.'/proc/acpi/thermal_zone/TH*/temperature'); if (is_array($thermalzones) && (count($thermalzones) > 0)) foreach ($thermalzones as $thermalzone) { $temp = null; if (CommonFunctions::rfts($thermalzone, $temp, 1, 4096, false) && ($temp !== null) && (($temp = trim($temp)) != "")) { $dev = new SensorDevice(); if (preg_match("/^\/proc\/acpi\/thermal_zone\/(.+)\/temperature$/", $thermalzone, $name)) { $dev->setName("ThermalZone ".$name[1]); } else { $dev->setName("ThermalZone"); } $dev->setValue(trim(substr($temp, 23, 4))); $this->mbinfo->setMbTemp($dev); } } } } } /** * get the information * * @see PSI_Interface_Sensor::build() * * @return void */ public function build() { $this->_temperature(); } }