ConnectServer(); } else { $_cim = $objLocatorCIM->ConnectServer($strHostname, 'root\CIMv2', $strHostname.'\\'.$strUser, $strPassword); } // initialize the wmi object $objLocatorWMI = new COM('WbemScripting.SWbemLocator'); if ($strHostname == "") { $_wmi = $objLocatorWMI->ConnectServer($strHostname, 'root\WMI'); } else { $_wmi = $objLocatorWMI->ConnectServer($strHostname, 'root\WMI', $strHostname.'\\'.$strUser, $strPassword); } } 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."); } $buffer_info = ''; $buffer_state = ''; $bufferWB = CommonFunctions::getWMI($_cim, 'Win32_Battery', array('EstimatedChargeRemaining', 'DesignVoltage', 'BatteryStatus', 'Chemistry')); if (sizeof($bufferWB)>0) { $capacity = ''; if (isset($bufferWB[0]['EstimatedChargeRemaining'])) { $capacity = $bufferWB[0]['EstimatedChargeRemaining']; } if (isset($bufferWB[0]['BatteryStatus'])) { switch ($bufferWB[0]['BatteryStatus']) { case 1: $batstat = 'Discharging'; break; case 2: $batstat = 'AC connected'; break; case 3: $batstat = 'Fully Charged'; break; case 4: $batstat = 'Low'; break; case 5: $batstat = 'Critical'; break; case 6: $batstat = 'Charging'; break; case 7: $batstat = 'Charging and High'; break; case 8: $batstat = 'Charging and Low'; break; case 9: $batstat = 'Charging and Critical'; break; case 10: $batstat = 'Undefined'; break; case 11: $batstat = 'Partially Charged'; break; default: $batstat = ''; } if ($batstat != '') $buffer_state .= 'POWER_SUPPLY_STATUS='.$batstat."\n"; } $techn = ''; if (isset($bufferWB[0]['Chemistry'])) { switch ($bufferWB[0]['Chemistry']) { case 1: $techn = 'Other'; break; case 2: $techn = 'Unknown'; break; case 3: $techn = 'PbAc'; break; case 4: $techn = 'NiCd'; break; case 5: $techn = 'NiMH'; break; case 6: $techn = 'Li-ion'; break; case 7: $techn = 'Zinc-air'; break; case 8: $techn = 'Li-poly'; break; } } $bufferWPB = CommonFunctions::getWMI($_cim, 'Win32_PortableBattery', array('DesignVoltage', 'Chemistry', 'DesignCapacity', 'FullChargeCapacity')); if (isset($bufferWPB[0]['DesignVoltage'])) { $buffer_info .= 'POWER_SUPPLY_VOLTAGE_MIN_DESIGN='.($bufferWPB[0]['DesignVoltage']*1000)."\n"; } // sometimes Chemistry from Win32_Battery returns 2 but Win32_PortableBattery returns e.g. 6 if ((($techn == '') || ($techn == 'Unknown')) && isset($bufferWPB[0]['Chemistry'])) { switch ($bufferWPB[0]['Chemistry']) { case 1: $techn = 'Other'; break; case 2: $techn = 'Unknown'; break; case 3: $techn = 'PbAc'; break; case 4: $techn = 'NiCd'; break; case 5: $techn = 'NiMH'; break; case 6: $techn = 'Li-ion'; break; case 7: $techn = 'Zinc-air'; break; case 8: $techn = 'Li-poly'; break; } } if ($techn != '') $buffer_info .= 'POWER_SUPPLY_TECHNOLOGY='.$techn."\n"; $bufferBS = CommonFunctions::getWMI($_wmi, 'BatteryStatus', array('RemainingCapacity', 'Voltage')); if (sizeof($bufferBS)>0) { if (isset($bufferBS[0]['RemainingCapacity']) && ($bufferBS[0]['RemainingCapacity']>0)) { $buffer_state .= 'POWER_SUPPLY_ENERGY_NOW='.($bufferBS[0]['RemainingCapacity']*1000)."\n"; $capacity = ''; } if (isset($bufferBS[0]['Voltage']) && ($bufferBS[0]['Voltage']>0)) { $buffer_state .= 'POWER_SUPPLY_VOLTAGE_NOW='.($bufferBS[0]['Voltage']*1000)."\n"; } elseif (isset($bufferWB[0]['DesignVoltage'])) { $buffer_state .= 'POWER_SUPPLY_VOLTAGE_NOW='.($bufferWB[0]['DesignVoltage']*1000)."\n"; } } if (!isset($bufferWPB[0]['FullChargeCapacity'])) { $bufferBFCC = CommonFunctions::getWMI($_wmi, 'BatteryFullChargedCapacity', array('FullChargedCapacity')); if ((sizeof($bufferBFCC)>0) && isset($bufferBFCC[0]['FullChargedCapacity'])) { $bufferWPB[0]['FullChargeCapacity'] = $bufferBFCC[0]['FullChargedCapacity']; } } if (isset($bufferWPB[0]['FullChargeCapacity'])) { $buffer_info .= 'POWER_SUPPLY_ENERGY_FULL='.($bufferWPB[0]['FullChargeCapacity']*1000)."\n"; if ($capacity != '') $buffer_state .= 'POWER_SUPPLY_ENERGY_NOW='.(round($capacity*$bufferWPB[0]['FullChargeCapacity']*10)."\n"); if (isset($bufferWPB[0]['DesignCapacity']) && ($bufferWPB[0]['DesignCapacity']!=0)) $buffer_info .= 'POWER_SUPPLY_ENERGY_FULL_DESIGN='.($bufferWPB[0]['DesignCapacity']*1000)."\n"; } elseif (isset($bufferWPB[0]['DesignCapacity'])) { $buffer_info .= 'POWER_SUPPLY_ENERGY_FULL_DESIGN='.($bufferWPB[0]['DesignCapacity']*1000)."\n"; if ($capacity != '') $buffer_state .= 'POWER_SUPPLY_ENERGY_NOW='.(round($capacity*$bufferWPB[0]['DesignCapacity']*10)."\n"); } else { if ($capacity != '') $buffer_state .= 'POWER_SUPPLY_CAPACITY='.$capacity."\n"; } $bufferBCC = CommonFunctions::getWMI($_wmi, 'BatteryCycleCount', array('CycleCount')); if ((sizeof($bufferBCC)>0) && isset($bufferBCC[0]['CycleCount']) && ($bufferBCC[0]['CycleCount']>0)) { $buffer_info .= 'POWER_SUPPLY_CYCLE_COUNT='.$bufferBCC[0]['CycleCount']."\n"; } } } elseif (PSI_OS == 'Darwin') { $buffer_info = ''; $buffer_state = ''; CommonFunctions::executeProgram('ioreg', '-w0 -l -n AppleSmartBattery -r', $buffer_info, false); } elseif (PSI_OS == 'FreeBSD') { $buffer_info = ''; $buffer_state = ''; CommonFunctions::executeProgram('acpiconf', '-i batt', $buffer_info, false); } else { $buffer_info = ''; $buffer_state = ''; $bat_name = PSI_PLUGIN_BAT_DEVICE; $rfts_bi = CommonFunctions::rfts('/proc/acpi/battery/'.$bat_name.'/info', $buffer_info, 0, 4096, false); $rfts_bs = CommonFunctions::rfts('/proc/acpi/battery/'.$bat_name.'/state', $buffer_state, 0, 4096, false); if (!$rfts_bi && !$rfts_bs) { $buffer_info = ''; $buffer_state = ''; if (!CommonFunctions::rfts('/sys/class/power_supply/'.$bat_name.'/uevent', $buffer_info, 0, 4096, false)) { if (CommonFunctions::rfts('/sys/class/power_supply/battery/uevent', $buffer_info, 0, 4096, false)) { $bat_name = 'battery'; } else { CommonFunctions::rfts('/sys/class/power_supply/'.$bat_name.'/uevent', $buffer_info, 0, 4096, PSI_DEBUG); // Once again but with debug } } if (CommonFunctions::rfts('/sys/class/power_supply/'.$bat_name.'/voltage_min_design', $buffer1, 1, 4096, false)) { $buffer_state .= 'POWER_SUPPLY_VOLTAGE_MIN_DESIGN='.$buffer1."\n"; } if (CommonFunctions::rfts('/sys/class/power_supply/'.$bat_name.'/voltage_max_design', $buffer1, 1, 4096, false)) { $buffer_state .= 'POWER_SUPPLY_VOLTAGE_MAX_DESIGN='.$buffer1."\n"; } if (CommonFunctions::rfts('/sys/class/power_supply/'.$bat_name.'/voltage_now', $buffer1, 1, 4096, false)) { $buffer_state .= 'POWER_SUPPLY_VOLTAGE_NOW='.$buffer1."\n"; } if (CommonFunctions::rfts('/sys/class/power_supply/'.$bat_name.'/energy_full', $buffer1, 1, 4096, false)) { $buffer_state .= 'POWER_SUPPLY_ENERGY_FULL='.$buffer1."\n"; } if (CommonFunctions::rfts('/sys/class/power_supply/'.$bat_name.'/energy_now', $buffer1, 1, 4096, false)) { $buffer_state .= 'POWER_SUPPLY_ENERGY_NOW='.$buffer1."\n"; } if (CommonFunctions::rfts('/sys/class/power_supply/'.$bat_name.'/charge_full', $buffer1, 1, 4096, false)) { $buffer_state .= 'POWER_SUPPLY_CHARGE_FULL='.$buffer1."\n"; } if (CommonFunctions::rfts('/sys/class/power_supply/'.$bat_name.'/charge_now', $buffer1, 1, 4096, false)) { $buffer_state .= 'POWER_SUPPLY_CHARGE_NOW='.$buffer1."\n"; } if (CommonFunctions::rfts('/sys/class/power_supply/'.$bat_name.'/capacity', $buffer1, 1, 4096, false)) { $buffer_state .= 'POWER_SUPPLY_CAPACITY='.$buffer1; } if (CommonFunctions::rfts('/sys/class/power_supply/'.$bat_name.'/technology', $buffer1, 1, 4096, false)) { $buffer_state .= 'POWER_SUPPLY_TECHNOLOGY='.$buffer1; } if (CommonFunctions::rfts('/sys/class/power_supply/'.$bat_name.'/status', $buffer1, 1, 4096, false)) { $buffer_state .= 'POWER_SUPPLY_STATUS='.$buffer1; } if (CommonFunctions::rfts('/sys/class/power_supply/'.$bat_name.'/batt_temp', $buffer1, 1, 4096, false)) { $buffer_state .= 'POWER_SUPPLY_TEMP='.$buffer1; } if (CommonFunctions::rfts('/sys/class/power_supply/'.$bat_name.'/batt_vol', $buffer1, 1, 4096, false)) { $buffer_state .= 'POWER_SUPPLY_VOLTAGE_NOW='.$buffer1; } if (CommonFunctions::rfts('/sys/class/power_supply/'.$bat_name.'/health', $buffer1, 1, 4096, false)) { $buffer_state .= 'POWER_SUPPLY_HEALTH='.$buffer1; } } } break; case 'data': CommonFunctions::rfts(APP_ROOT."/data/bat_info.txt", $buffer_info); CommonFunctions::rfts(APP_ROOT."/data/bat_state.txt", $buffer_state); break; default: $this->global_error->addConfigError("__construct()", "PSI_PLUGIN_BAT_ACCESS"); break; } $this->_filecontent['info'] = preg_split("/\n/", $buffer_info, -1, PREG_SPLIT_NO_EMPTY); $this->_filecontent['state'] = preg_split("/\n/", $buffer_state, -1, PREG_SPLIT_NO_EMPTY); } /** * doing all tasks to get the required informations that the plugin needs * result is stored in an internal array * * @return void */ public function execute() { if (empty($this->_filecontent)) { return; } foreach ($this->_filecontent['info'] as $roworig) { if (preg_match('/^[dD]esign capacity:\s*(.*) (.*)$/', trim($roworig), $data)) { $bat['design_capacity_max'] = $data[1]; if (!isset($bat['capacity_unit'])) { $bat['capacity_unit'] = trim($data[2]); } elseif ($bat['capacity_unit'] != trim($data[2])) { $bat['capacity_unit'] = "???"; } } elseif (preg_match('/^[lL]ast full capacity:\s*(.*) (.*)$/', trim($roworig), $data)) { $bat['design_capacity'] = $data[1]; if (!isset($bat['capacity_unit'])) { $bat['capacity_unit'] = trim($data[2]); } elseif ($bat['capacity_unit'] != trim($data[2])) { $bat['capacity_unit'] = "???"; } } elseif (preg_match('/^cycle count:\s*(.*)$/', trim($roworig), $data) && ($data[1]>0)) { $bat['cycle_count'] = $data[1]; } elseif (preg_match('/^[dD]esign voltage:\s*(.*) (.*)$/', trim($roworig), $data)) { if ($data[2]=="mV") { // uV or mV detection $bat['design_voltage'] = $data[1]; } else { $bat['design_voltage'] = round($data[1]/1000); } } elseif (preg_match('/^battery type:\s*(.*)$/', trim($roworig), $data)) { $bat['battery_type'] = $data[1]; } elseif (preg_match('/^POWER_SUPPLY_CYCLE_COUNT=(.*)$/', trim($roworig), $data) && ($data[1]>0)) { $bat['cycle_count'] = $data[1]; } elseif (preg_match('/^POWER_SUPPLY_VOLTAGE_MIN_DESIGN=(.*)$/', trim($roworig), $data)) { if ($data[1]<100000) { // uV or mV detection $bat['design_voltage'] = $data[1]; } else { $bat['design_voltage'] = round($data[1]/1000); } } elseif (preg_match('/^POWER_SUPPLY_VOLTAGE_MAX_DESIGN=(.*)$/', trim($roworig), $data)) { if ($data[1]<100000) { // uV or mV detection $bat['design_voltage_max'] = $data[1]; } else { $bat['design_voltage_max'] = round($data[1]/1000); } } elseif (preg_match('/^POWER_SUPPLY_ENERGY_FULL=(.*)$/', trim($roworig), $data)) { $bat['design_capacity'] = ($data[1]/1000); if (!isset($bat['capacity_unit'])) { $bat['capacity_unit'] = "mWh"; } elseif ($bat['capacity_unit'] != "mWh") { $bat['capacity_unit'] = "???"; } } elseif (preg_match('/^POWER_SUPPLY_CHARGE_FULL=(.*)$/', trim($roworig), $data)) { $bat['design_capacity'] = ($data[1]/1000); if (!isset($bat['capacity_unit'])) { $bat['capacity_unit'] = "mAh"; } elseif ($bat['capacity_unit'] != "mAh") { $bat['capacity_unit'] = "???"; } } elseif (preg_match('/^POWER_SUPPLY_ENERGY_NOW=(.*)$/', trim($roworig), $data)) { if (!isset($bat['capacity_unit']) || ($bat['capacity_unit'] == "mWh")) { $bat['capacity_unit'] = "mWh"; $bat['remaining_capacity'] = ($data[1]/1000); } } elseif (preg_match('/^POWER_SUPPLY_CHARGE_NOW=(.*)$/', trim($roworig), $data)) { if (!isset($bat['capacity_unit']) || ($bat['capacity_unit'] == "mAh")) { $bat['capacity_unit'] = "mAh"; $bat['remaining_capacity'] = ($data[1]/1000); } /* auxiary */ } elseif (preg_match('/^POWER_SUPPLY_ENERGY_FULL_DESIGN=(.*)$/', trim($roworig), $data)) { $bat['design_capacity_max'] = ($data[1]/1000); if (!isset($bat['capacity_unit'])) { $bat['capacity_unit'] = "mWh"; } elseif ($bat['capacity_unit'] != "mWh") { $bat['capacity_unit'] = "???"; } } elseif (preg_match('/^POWER_SUPPLY_CHARGE_FULL_DESIGN=(.*)$/', trim($roworig), $data)) { $bat['design_capacity_max'] = ($data[1]/1000); if (!isset($bat['capacity_unit'])) { $bat['capacity_unit'] = "mAh"; } elseif ($bat['capacity_unit'] != "mAh") { $bat['capacity_unit'] = "???"; } } elseif (preg_match('/^POWER_SUPPLY_VOLTAGE_NOW=(.*)$/', trim($roworig), $data)) { if ($data[1]<100000) { // uV or mV detection $bat['present_voltage'] = $data[1]; } else { $bat['present_voltage'] = round($data[1]/1000); } } elseif (preg_match('/^POWER_SUPPLY_CAPACITY=(.*)$/', trim($roworig), $data)) { $bat['capacity'] = $data[1]; } elseif (preg_match('/^POWER_SUPPLY_TEMP=(.*)$/', trim($roworig), $data)) { $bat['battery_temperature'] = $data[1]/10; } elseif (preg_match('/^POWER_SUPPLY_TECHNOLOGY=(.*)$/', trim($roworig), $data)) { $bat['battery_type'] = $data[1]; } elseif (preg_match('/^POWER_SUPPLY_STATUS=(.*)$/', trim($roworig), $data)) { $bat['charging_state'] = $data[1]; } elseif (preg_match('/^POWER_SUPPLY_HEALTH=(.*)$/', trim($roworig), $data)) { $bat['battery_condition'] = $data[1]; /* Darwin */ } elseif (preg_match('/^"MaxCapacity"\s*=\s*(.*)$/', trim($roworig), $data)) { $bat['design_capacity'] = $data[1]; } elseif (preg_match('/^"CurrentCapacity"\s*=\s*(.*)$/', trim($roworig), $data)) { $bat['remaining_capacity'] = $data[1]; } elseif (preg_match('/^"Voltage"\s*=\s*(.*)$/', trim($roworig), $data)) { $bat['present_voltage'] = $data[1]; } elseif (preg_match('/^"BatteryType"\s*=\s*"(.*)"$/', trim($roworig), $data)) { $bat['battery_type'] = $data[1]; } elseif (preg_match('/^"Temperature"\s*=\s*(.*)$/', trim($roworig), $data)) { if ($data[1]>0) $bat['battery_temperature'] = $data[1]/100; } elseif (preg_match('/^"DesignCapacity"\s*=\s*(.*)$/', trim($roworig), $data)) { $bat['design_capacity_max'] = $data[1]; } elseif (preg_match('/^"CycleCount"\s*=\s*(.*)$/', trim($roworig), $data) && ($data[1]>0)) { $bat['cycle_count'] = $data[1]; /* auxiary */ } elseif (preg_match('/^"FullyCharged"\s*=\s*Yes$/', trim($roworig), $data)) { $bat['charging_state_f'] = true; } elseif (preg_match('/^"IsCharging"\s*=\s*Yes$/', trim($roworig), $data)) { $bat['charging_state_i'] = true; } elseif (preg_match('/^"ExternalConnected"\s*=\s*Yes$/', trim($roworig), $data)) { $bat['charging_state_e'] = true; /* FreeBSD */ } elseif (preg_match('/^Type:\s*(.*)$/', trim($roworig), $data)) { $bat['battery_type'] = $data[1]; } elseif (preg_match('/^State:\s*(.*)$/', trim($roworig), $data)) { $bat['charging_state'] = $data[1]; } elseif (preg_match('/^Present voltage:\s*(.*) (.*)$/', trim($roworig), $data)) { if ($data[2]=="mV") { // uV or mV detection $bat['present_voltage'] = $data[1]; } else { $bat['present_voltage'] = round($data[1]/1000); } } elseif (preg_match('/^Voltage:\s*(.*) (.*)$/', trim($roworig), $data)) { if ($data[2]=="mV") { // uV or mV detection $bat['present_voltage'] = $data[1]; } else { $bat['present_voltage'] = round($data[1]/1000); } } elseif (preg_match('/^Remaining capacity:\s*(.*)%$/', trim($roworig), $data)) { $bat['capacity'] = $data[1]; } } foreach ($this->_filecontent['state'] as $roworig) { if (preg_match('/^remaining capacity:\s*(.*) (.*)$/', trim($roworig), $data)) { if (!isset($bat['capacity_unit']) || ($bat['capacity_unit'] == trim($data[2]))) { $bat['capacity_unit'] = trim($data[2]); $bat['remaining_capacity'] = $data[1]; } } elseif (preg_match('/^present voltage:\s*(.*) (.*)$/', trim($roworig), $data)) { if ($data[2]=="mV") { // uV or mV detection $bat['present_voltage'] = $data[1]; } else { $bat['present_voltage'] = round($data[1]/1000); } } elseif (preg_match('/^charging state:\s*(.*)$/', trim($roworig), $data)) { $bat['charging_state'] = $data[1]; } elseif (preg_match('/^POWER_SUPPLY_VOLTAGE_MIN_DESIGN=(.*)$/', trim($roworig), $data)) { if ($data[1]<100000) { // uV or mV detection $bat['design_voltage'] = $data[1]; } else { $bat['design_voltage'] = round($data[1]/1000); } } elseif (preg_match('/^POWER_SUPPLY_VOLTAGE_MAX_DESIGN=(.*)$/', trim($roworig), $data)) { if ($data[1]<100000) { // uV or mV detection $bat['design_voltage_max'] = $data[1]; } else { $bat['design_voltage_max'] = round($data[1]/1000); } } elseif (preg_match('/^POWER_SUPPLY_ENERGY_FULL=(.*)$/', trim($roworig), $data)) { $bat['design_capacity'] = ($data[1]/1000); if (!isset($bat['capacity_unit'])) { $bat['capacity_unit'] = "mWh"; } elseif ($bat['capacity_unit'] != "mWh") { $bat['capacity_unit'] = "???"; } } elseif (preg_match('/^POWER_SUPPLY_CHARGE_FULL=(.*)$/', trim($roworig), $data)) { $bat['design_capacity'] = ($data[1]/1000); if (!isset($bat['capacity_unit'])) { $bat['capacity_unit'] = "mAh"; } elseif ($bat['capacity_unit'] != "mAh") { $bat['capacity_unit'] = "???"; } } elseif (preg_match('/^POWER_SUPPLY_ENERGY_NOW=(.*)$/', trim($roworig), $data)) { if (!isset($bat['capacity_unit']) || ($bat['capacity_unit'] == "mWh")) { $bat['capacity_unit'] = "mWh"; $bat['remaining_capacity'] = ($data[1]/1000); } } elseif (preg_match('/^POWER_SUPPLY_CHARGE_NOW=(.*)$/', trim($roworig), $data)) { if (!isset($bat['capacity_unit']) || ($bat['capacity_unit'] == "mAh")) { $bat['capacity_unit'] = "mAh"; $bat['remaining_capacity'] = ($data[1]/1000); } } elseif (preg_match('/^POWER_SUPPLY_VOLTAGE_NOW=(.*)$/', trim($roworig), $data)) { if ($data[1]<100000) { // uV or mV detection $bat['present_voltage'] = $data[1]; } else { $bat['present_voltage'] = round($data[1]/1000); } } elseif (preg_match('/^POWER_SUPPLY_CAPACITY=(.*)$/', trim($roworig), $data)) { $bat['capacity'] = $data[1]; } elseif (preg_match('/^POWER_SUPPLY_TEMP=(.*)$/', trim($roworig), $data)) { $bat['battery_temperature'] = $data[1]/10; } elseif (preg_match('/^POWER_SUPPLY_TECHNOLOGY=(.*)$/', trim($roworig), $data)) { $bat['battery_type'] = $data[1]; } elseif (preg_match('/^POWER_SUPPLY_STATUS=(.*)$/', trim($roworig), $data)) { $bat['charging_state'] = $data[1]; } elseif (preg_match('/^POWER_SUPPLY_HEALTH=(.*)$/', trim($roworig), $data)) { $bat['battery_condition'] = $data[1]; } } if (isset($bat)) $this->_result[0] = $bat; } /** * generates the XML content for the plugin * * @return SimpleXMLElement entire XML content for the plugin */ public function xml() { foreach ($this->_result as $bat_item) { $xmlbat = $this->xml->addChild("Bat"); if ((!isset($bat_item['remaining_capacity']) || (isset($bat_item['design_capacity']) && ($bat_item['design_capacity'] == 0))) && isset($bat_item['capacity']) && ($bat_item['capacity']>=0)) { $xmlbat->addAttribute("DesignCapacity", 100); $xmlbat->addAttribute("RemainingCapacity", $bat_item['capacity']); $xmlbat->addAttribute("CapacityUnit", "%"); } else { if (isset($bat_item['design_capacity'])) { $xmlbat->addAttribute("DesignCapacity", $bat_item['design_capacity']); } elseif (isset($bat_item['design_capacity_max'])) { $xmlbat->addAttribute("DesignCapacity", $bat_item['design_capacity_max']); } if (isset($bat_item['remaining_capacity'])) { $xmlbat->addAttribute("RemainingCapacity", $bat_item['remaining_capacity']); } if (isset($bat_item['capacity_unit'])) { $xmlbat->addAttribute("CapacityUnit", $bat_item['capacity_unit']); } } if (isset($bat_item['design_voltage'])) { $xmlbat->addAttribute("DesignVoltage", $bat_item['design_voltage']); if (isset($bat_item['design_voltage_max']) && ($bat_item['design_voltage_max'] != $bat_item['design_voltage'])) { $xmlbat->addAttribute("DesignVoltageMax", $bat_item['design_voltage_max']); } } elseif (isset($bat_item['design_voltage_max'])) { $xmlbat->addAttribute("DesignVoltage", $bat_item['design_voltage_max']); } if (isset($bat_item['present_voltage'])) { $xmlbat->addAttribute("PresentVoltage", $bat_item['present_voltage']); } if (isset($bat_item['charging_state'])) { $xmlbat->addAttribute("ChargingState", $bat_item['charging_state']); } else { if (isset($bat_item['charging_state_i'])) { $xmlbat->addAttribute("ChargingState", 'Charging'); } elseif (!isset($bat_item['charging_state_e'])) { $xmlbat->addAttribute("ChargingState", 'Discharging'); } elseif (isset($bat_item['charging_state_f'])) { $xmlbat->addAttribute("ChargingState", 'Fully Charged'); } else { $xmlbat->addAttribute("ChargingState", 'Unknown state'); } } if (isset($bat_item['battery_type'])) { $xmlbat->addAttribute("BatteryType", $bat_item['battery_type']); } if (isset($bat_item['battery_temperature'])) { $xmlbat->addAttribute("BatteryTemperature", $bat_item['battery_temperature']); } if (isset($bat_item['design_capacity']) && isset($bat_item['design_capacity_max']) && ($bat_item['design_capacity_max'] != 0) && (!isset($bat['capacity_unit']) || ($bat['capacity_unit'] != "???"))) { if (isset($bat_item['battery_condition'])) { $xmlbat->addAttribute("BatteryCondition", min(100, round(100*$bat_item['design_capacity']/$bat_item['design_capacity_max']))."% ".$bat_item['battery_condition']); } else { $xmlbat->addAttribute("BatteryCondition", min(100, round(100*$bat_item['design_capacity']/$bat_item['design_capacity_max']))."%"); } } elseif (isset($bat_item['battery_condition'])) { $xmlbat->addAttribute("BatteryCondition", $bat_item['battery_condition']); } if (isset($bat_item['cycle_count'])) { $xmlbat->addAttribute("CycleCount", $bat_item['cycle_count']); } } return $this->xml->getSimpleXmlElement(); } }