public static function network_device_string() { $network = array(); if (phodevi::is_macosx()) { // TODO: implement } else { if (phodevi::is_bsd()) { foreach (array('dev.em.0.%desc', 'dev.wpi.0.%desc', 'dev.mskc.0.%desc') as $controller) { $pci = phodevi_bsd_parser::read_sysctl($controller); if (!empty($pci)) { array_push($network, $pci); } } } else { if (phodevi::is_windows()) { // TODO: implement } else { if (phodevi::is_linux()) { foreach (array('Ethernet controller', 'Network controller') as $controller) { $pci = phodevi_linux_parser::read_pci($controller); if (!empty($pci)) { array_push($network, $pci); } } } } } } return implode(' + ', $network); }
public static function __pre_run_process() { self::$error_count = 0; self::$error_pointer = 0; self::$error_analysis = array(); // Store the video resolution // Access the xrandr resolution directly to ensure it's not polling the FB size or one of the KMS modes self::$start_video_resolution = phodevi_gpu::gpu_xrandr_resolution(); if (phodevi::is_linux() && phodevi::is_ati_graphics()) { $vsync_val = phodevi_linux_parser::read_amd_pcsdb('AMDPCSROOT/SYSTEM/BUSID-*/OpenGL,VSyncControl'); // Check for vSync if ($vsync_val == '0x00000002' || $vsync_val == '0x00000003') { self::$driver_forced_vsync = true; } //$catalyst_ai_val = phodevi_linux_parser::read_amd_pcsdb('AMDPCSROOT/SYSTEM/BUSID-*/OpenGL,CatalystAI'); // Check for Catalyst AI //if($catalyst_ai_val == '0x00000001' || $catalyst_ai_val == '0x00000002') // echo '\nCatalyst AI is enabled, which will use driver-specific optimizations in some tests that may offer extra performance enhancements.\n'; } else { if (phodevi::is_nvidia_graphics()) { self::$error_pointer = self::nvidia_gpu_error_count(); // Set the error pointer if (phodevi_parser::read_nvidia_extension('SyncToVBlank') == '1') { shell_exec('nvidia-settings -a SyncToVBlank=0 2>&1'); self::$driver_forced_vsync = true; } } } if (self::$driver_forced_vsync == true) { // echo '\nYour video driver is forcing vertical sync to be enabled. This will limit the system's frame-rate performance potential in any graphical tests!\n'; } // vblank_mode=0 has long been set within pts-core, but put it here too just since there's these other checks here putenv('vblank_mode=0'); }
public static function read_sensor() { if (phodevi::is_linux()) { $sensor = phodevi_linux_parser::read_sensors(array('V5', '+5V')); } else { $sensor = -1; } return $sensor; }
private function hdd_write_speed_linux() { if ($this->disk_to_monitor == NULL) { return -1; } $stat_path = '/sys/class/block/' . $this->disk_to_monitor . '/stat'; $speed = phodevi_linux_parser::read_sys_disk_speed($stat_path, 'WRITE'); return $speed; }
public static function read_sensor() { if (phodevi::is_linux()) { $sensor = phodevi_linux_parser::read_sensors('VCore'); } else { $sensor = -1; } return $sensor; }
private function cpu_fanspeed_linux() { $fan_speed = -1; $raw_fan = phodevi_linux_parser::read_sysfs_node('/sys/class/hwmon/hwmon*/device/fan1_input', 'POSITIVE_NUMERIC'); if ($raw_fan == -1) { $raw_fan = phodevi_linux_parser::read_sysfs_node('/sys/class/hwmon/hwmon*/fan1_input', 'POSITIVE_NUMERIC'); } if ($raw_fan != -1) { $fan_speed = $raw_fan; } return $fan_speed; }
public static function read_sensor() { // Reads the system's temperature $temp_c = -1; if (phodevi::is_linux()) { $raw_temp = phodevi_linux_parser::read_sysfs_node('/sys/class/hwmon/hwmon*/device/temp3_input', 'POSITIVE_NUMERIC', array('name' => '!coretemp,!radeon,!nouveau')); if ($raw_temp == -1) { $raw_temp = phodevi_linux_parser::read_sysfs_node('/sys/class/hwmon/hwmon*/device/temp2_input', 'POSITIVE_NUMERIC', array('name' => '!coretemp,!radeon,!nouveau')); } if ($raw_temp == -1) { $raw_temp = phodevi_linux_parser::read_sysfs_node('/sys/class/hwmon/hwmon*/device/temp1_input', 'POSITIVE_NUMERIC', array('name' => '!coretemp,!radeon,!nouveau')); } if ($raw_temp == -1) { $raw_temp = phodevi_linux_parser::read_sysfs_node('/sys/class/hwmon/hwmon*/temp1_input', 'POSITIVE_NUMERIC'); } if ($raw_temp != -1) { if ($raw_temp > 1000) { $raw_temp = $raw_temp / 1000; } $temp_c = pts_math::set_precision($raw_temp, 2); } if ($temp_c == -1) { $acpi = phodevi_linux_parser::read_acpi(array('/thermal_zone/THM1/temperature', '/thermal_zone/TZ00/temperature', '/thermal_zone/TZ01/temperature'), 'temperature'); if (($end = strpos($acpi, ' ')) > 0) { $temp_c = substr($acpi, 0, $end); } } if ($temp_c == -1) { $sensors = phodevi_linux_parser::read_sensors(array('Sys Temp', 'Board Temp')); if ($sensors != false && is_numeric($sensors)) { $temp_c = $sensors; } } if ($temp_c == -1 && is_file('/sys/class/thermal/thermal_zone0/temp')) { $temp_c = pts_file_io::file_get_contents('/sys/class/thermal/thermal_zone0/temp'); if ($temp_c > 1000) { $temp_c = pts_math::set_precision($temp_c / 1000, 1); } } } else { if (phodevi::is_bsd()) { $acpi = phodevi_bsd_parser::read_sysctl(array('hw.sensors.acpi_tz1.temp0', 'hw.acpi.thermal.tz1.temperature')); if (($end = strpos($acpi, ' degC')) > 0 || ($end = strpos($acpi, 'C')) > 0) { $acpi = substr($acpi, 0, $end); if (is_numeric($acpi)) { $temp_c = $acpi; } } } } return $temp_c; }
public static function read_sensor() { $fan_speed = -1; if (phodevi::is_linux()) { $raw_fan = phodevi_linux_parser::read_sysfs_node('/sys/class/hwmon/hwmon*/device/fan1_input', 'POSITIVE_NUMERIC'); if ($raw_fan == -1) { $raw_fan = phodevi_linux_parser::read_sysfs_node('/sys/class/hwmon/hwmon*/fan1_input', 'POSITIVE_NUMERIC'); } if ($raw_fan != -1) { $fan_speed = $raw_fan; } } return $fan_speed; }
public function read_sensor() { $sensor = -1; if (phodevi::is_linux()) { if ($this->voltage_to_monitor == '12v') { $sensor = phodevi_linux_parser::read_sensors(array('V12', '+12V')); } elseif ($this->voltage_to_monitor == '5v') { $sensor = phodevi_linux_parser::read_sensors(array('V5', '+5V')); } elseif ($this->voltage_to_monitor == '3v') { $sensor = phodevi_linux_parser::read_sensors(array('V3.3', '+3.3V')); } } return $sensor; }
private function cpu_power_linux() { $cpu_watts = -1; // Try hwmon interface for AMD 15h (Bulldozer FX CPUs) where this support was introduced for AMD CPUs and exposed by the fam15h_power hwmon driver // The fam15h_power driver doesn't expose the power consumption on a per-core/per-package basis but only an average $hwmon_watts = phodevi_linux_parser::read_sysfs_node('/sys/class/hwmon/hwmon*/device/power1_input', 'POSITIVE_NUMERIC', array('name' => 'fam15h_power')); if ($hwmon_watts != -1) { if ($hwmon_watts > 1000000) { // convert to Watts $hwmon_watts = $hwmon_watts / 1000000; } $cpu_watts = pts_math::set_precision($hwmon_watts, 2); } return $cpu_watts; }
public function read_sensor() { // Report graphics processor fan speed as a percent $fan_speed = -1; if (phodevi::is_nvidia_graphics()) { // NVIDIA fan speed reading support in NVIDIA 190.xx and newer // TODO: support for multiple fans, also for reading GPUFanTarget to get appropriate fan // nvidia-settings --describe GPUFanTarget $fan_speed = phodevi_parser::read_nvidia_extension('[fan:0]/GPUCurrentFanSpeed'); } else { if (phodevi::is_ati_graphics() && phodevi::is_linux()) { $fan_speed = phodevi_linux_parser::read_ati_overdrive('FanSpeed'); } } return $fan_speed; }
public static function audio_processor_string() { $audio = null; if (phodevi::is_macosx()) { // TODO: implement } else { if (phodevi::is_bsd()) { foreach (array('dev.hdac.0.%desc') as $dev) { $dev = phodevi_bsd_parser::read_sysctl($dev); if (!empty($dev)) { $audio = $dev; } } } else { if (phodevi::is_windows()) { // TODO: implement } else { if (phodevi::is_linux()) { foreach (pts_file_io::glob('/sys/class/sound/card*/hwC0D*/vendor_name') as $vendor_name) { $card_dir = dirname($vendor_name) . '/'; if (!is_readable($card_dir . 'chip_name')) { continue; } $vendor_name = pts_file_io::file_get_contents($vendor_name); $chip_name = pts_file_io::file_get_contents($card_dir . 'chip_name'); $audio = $vendor_name . ' ' . $chip_name; if (strpos($chip_name, 'HDMI') !== false || strpos($chip_name, 'DP') !== false) { // If HDMI is in the audio string, likely the GPU-provided audio, so try to find the mainboard otherwise $audio = null; } else { break; } } if ($audio == null) { $audio = phodevi_linux_parser::read_pci('Multimedia audio controller'); } if ($audio == null) { $audio = phodevi_linux_parser::read_pci('Audio device'); } } } } } return $audio; }
public static function read_sensor() { // speed in MB/s $speed = -1; if (phodevi::is_linux()) { static $sys_disk = null; if ($sys_disk == null) { foreach (pts_file_io::glob('/sys/class/block/sd*/stat') as $check_disk) { if (pts_file_io::file_get_contents($check_disk) != null) { $sys_disk = $check_disk; break; } } } $speed = phodevi_linux_parser::read_sys_disk_speed($sys_disk, 'READ'); } return $speed; }
public static function read_sensor() { // Determine the current processor frequency $cpu_core = 0; // TODO: for now just monitoring the first core $info = 0; if (phodevi::is_linux()) { // First, the ideal way, with modern CPUs using CnQ or EIST and cpuinfo reporting the current if (is_file('/sys/devices/system/cpu/cpu' . $cpu_core . '/cpufreq/scaling_cur_freq')) { $info = pts_file_io::file_get_contents('/sys/devices/system/cpu/cpu' . $cpu_core . '/cpufreq/scaling_cur_freq'); $info = intval($info) / 1000; } else { if (is_file('/proc/cpuinfo')) { $cpu_speeds = phodevi_linux_parser::read_cpuinfo('cpu MHz'); if (isset($cpu_speeds[0])) { $cpu_core = isset($cpu_speeds[$cpu_core]) ? $cpu_core : 0; $info = intval($cpu_speeds[$cpu_core]); } } } } else { if (phodevi::is_solaris()) { $info = shell_exec('psrinfo -v | grep MHz'); $info = substr($info, strrpos($info, 'at') + 3); $info = trim(substr($info, 0, strpos($info, 'MHz'))); } else { if (phodevi::is_bsd()) { $info = phodevi_bsd_parser::read_sysctl('dev.cpu.0.freq'); } else { if (phodevi::is_macosx()) { $info = phodevi_osx_parser::read_osx_system_profiler('SPHardwareDataType', 'ProcessorSpeed'); if (($cut_point = strpos($info, ' ')) > 0) { $info = substr($info, 0, $cut_point); $info = str_replace(',', '.', $info); } if ($info < 100) { $info *= 1000; } } } } } return pts_math::set_precision($info, 2); }
public static function read_sensor() { // Report graphics processor temperature $temp_c = -1; if (phodevi::is_nvidia_graphics()) { $temp_c = phodevi_parser::read_nvidia_extension('GPUCoreTemp'); } else { if (phodevi::is_ati_graphics() && phodevi::is_linux()) { $temp_c = phodevi_linux_parser::read_ati_overdrive('Temperature'); } else { foreach (array_merge(array('/sys/class/drm/card0/device/temp1_input'), pts_file_io::glob('/sys/class/drm/card0/device/hwmon/hwmon*/temp1_input')) as $temp_input) { // This works for at least Nouveau driver with Linux 2.6.37 era DRM if (is_readable($temp_input) == false) { continue; } $temp_input = pts_file_io::file_get_contents($temp_input); if (is_numeric($temp_input)) { if ($temp_input > 1000) { $temp_input /= 1000; } $temp_c = $temp_input; break; } } if ($temp_c == -1 && is_readable('/sys/kernel/debug/dri/0/i915_emon_status')) { // Intel thermal $i915_emon_status = file_get_contents('/sys/kernel/debug/dri/0/i915_emon_status'); $temp = strpos($i915_emon_status, 'GMCH temp: '); if ($temp !== false) { $temp = substr($i915_emon_status, $temp + 11); $temp = substr($temp, 0, strpos($temp, PHP_EOL)); if (is_numeric($temp) && $temp > 0) { $temp_c = $temp; } } } } } if ($temp_c > 1000 || $temp_c < 9) { // Invalid data return -1; } return $temp_c; }
private function sys_temp_linux() { $temp_c = -1; $raw_temp = phodevi_linux_parser::read_sysfs_node('/sys/class/hwmon/hwmon*/device/temp3_input', 'POSITIVE_NUMERIC', array('name' => '!coretemp,!radeon,!nouveau')); if ($raw_temp == -1) { $raw_temp = phodevi_linux_parser::read_sysfs_node('/sys/class/hwmon/hwmon*/device/temp2_input', 'POSITIVE_NUMERIC', array('name' => '!coretemp,!radeon,!nouveau')); } if ($raw_temp == -1) { $raw_temp = phodevi_linux_parser::read_sysfs_node('/sys/class/hwmon/hwmon*/device/temp1_input', 'POSITIVE_NUMERIC', array('name' => '!coretemp,!radeon,!nouveau')); } if ($raw_temp == -1) { $raw_temp = phodevi_linux_parser::read_sysfs_node('/sys/class/hwmon/hwmon*/temp1_input', 'POSITIVE_NUMERIC'); } if ($raw_temp != -1) { if ($raw_temp > 1000) { $raw_temp = $raw_temp / 1000; } $temp_c = pts_math::set_precision($raw_temp, 2); } if ($temp_c == -1) { $acpi = phodevi_linux_parser::read_acpi(array('/thermal_zone/THM1/temperature', '/thermal_zone/TZ00/temperature', '/thermal_zone/TZ01/temperature'), 'temperature'); if (($end = strpos($acpi, ' ')) > 0) { $temp_c = substr($acpi, 0, $end); } } if ($temp_c == -1) { $sensors = phodevi_linux_parser::read_sensors(array('Sys Temp', 'Board Temp')); if ($sensors != false && is_numeric($sensors)) { $temp_c = $sensors; } } if ($temp_c == -1 && is_file('/sys/class/thermal/thermal_zone0/temp')) { $temp_c = pts_file_io::file_get_contents('/sys/class/thermal/thermal_zone0/temp'); if ($temp_c > 1000) { $temp_c = pts_math::set_precision($temp_c / 1000, 1); } } return $temp_c; }
private function cpu_freq_linux() { $frequency = -1; // First, the ideal way, with modern CPUs using CnQ or EIST and cpuinfo reporting the current frequency. if (is_file('/sys/devices/system/cpu/' . $this->cpu_to_monitor . '/cpufreq/scaling_cur_freq')) { $frequency = pts_file_io::file_get_contents('/sys/devices/system/cpu/' . $this->cpu_to_monitor . '/cpufreq/scaling_cur_freq'); $frequency = intval($frequency) / 1000; } else { if (is_file('/proc/cpuinfo')) { $cpu_speeds = phodevi_linux_parser::read_cpuinfo('cpu MHz'); $cpu_number = intval(substr($this->cpu_to_monitor, 3)); //cut 'cpu' from the beginning if (!isset($cpu_speeds[$cpu_number])) { return -1; } $frequency = intval($cpu_speeds[$cpu_number]); } } return $frequency; }
public static function cpu_model() { // Returns the processor name / frequency information $info = null; if (isset(phodevi::$vfs->cpuinfo)) { $physical_cpu_ids = phodevi_linux_parser::read_cpuinfo('physical id'); $physical_cpu_count = count(array_unique($physical_cpu_ids)); $cpu_strings = phodevi_linux_parser::read_cpuinfo(array('model name', 'Processor', 'cpu', 'cpu model')); $cpu_strings_unique = array_unique($cpu_strings); if ($physical_cpu_count == 1 || empty($physical_cpu_count)) { // Just one processor if (isset($cpu_strings[0]) && ($cut = strpos($cpu_strings[0], ' (')) !== false) { $cpu_strings[0] = substr($cpu_strings[0], 0, $cut); } $info = isset($cpu_strings[0]) ? $cpu_strings[0] : null; if (strpos($info, 'ARM') !== false) { if (is_dir('/sys/devices/system/exynos-core/') && stripos($info, 'Exynos') === false) { $info = 'Exynos ' . $info; } } } else { if ($physical_cpu_count > 1 && count($cpu_strings_unique) == 1) { // Multiple processors, same model $info = $physical_cpu_count . ' x ' . $cpu_strings[0]; } else { if ($physical_cpu_count > 1 && count($cpu_strings_unique) > 1) { // Multiple processors, different models $current_id = -1; $current_string = $cpu_strings[0]; $current_count = 0; $cpus = array(); for ($i = 0; $i < count($physical_cpu_ids); $i++) { if ($current_string != $cpu_strings[$i] || $i == count($physical_cpu_ids) - 1) { array_push($cpus, $current_count . ' x ' . $current_string); $current_string = $cpu_strings[$i]; $current_count = 0; } if ($physical_cpu_ids[$i] != $current_id) { $current_count++; $current_id = $physical_cpu_ids[$i]; } } $info = implode(', ', $cpus); } } } } else { if (phodevi::is_solaris()) { $dmi_cpu = phodevi_solaris_parser::read_sun_ddu_dmi_info('CPUType', '-C'); if (count($dmi_cpu) == 0) { $dmi_cpu = phodevi_solaris_parser::read_sun_ddu_dmi_info('ProcessorName'); } if (count($dmi_cpu) > 0) { $info = $dmi_cpu[0]; } else { $info = trim(shell_exec('dmesg 2>&1 | grep cpu0')); $info = trim(substr($info, strrpos($info, 'cpu0:') + 6)); if (empty($info)) { $info = array_pop(phodevi_solaris_parser::read_sun_ddu_dmi_info('ProcessorManufacturer')); } } //TODO: Add in proper support for reading multiple CPUs, similar to the code from above $physical_cpu_count = count(phodevi_solaris_parser::read_sun_ddu_dmi_info('ProcessorSocketType')); if ($physical_cpu_count > 1 && !empty($info)) { // TODO: For now assuming when multiple CPUs are installed, that they are of the same type $info = $physical_cpu_count . ' x ' . $info; } } else { if (phodevi::is_bsd()) { $info = phodevi_bsd_parser::read_sysctl('hw.model'); } else { if (phodevi::is_macosx()) { $info = phodevi_osx_parser::read_osx_system_profiler('SPHardwareDataType', 'ProcessorName'); } else { if (phodevi::is_windows()) { $info = phodevi_windows_parser::read_cpuz('Processor 1', 'Name'); if (!$info) { $info = getenv('PROCESSOR_IDENTIFIER'); } } } } } } if (empty($info)) { $info = 'Unknown'; } else { if (($strip_point = strpos($info, '@')) > 0) { $info = trim(substr($info, 0, $strip_point)); // stripping out the reported freq, since the CPU could be overclocked, etc } $info = pts_strings::strip_string($info); // It seems Intel doesn't report its name when reporting Pentium hardware if (strpos($info, 'Pentium') !== false && strpos($info, 'Intel') === false) { $info = 'Intel ' . $info; } if (substr($info, 0, 5) == 'Intel') { $cpu_words = explode(' ', $info); $cpu_words_count = count($cpu_words); // Convert strings like 'Intel Core i7 M 620' -> 'Intel Core i7 620M' and 'Intel Core i7 X 990' -> 'Intel Core i7 990X' to better reflect Intel product marketing names if ($cpu_words_count > 4 && is_numeric($cpu_words[$cpu_words_count - 1]) && strlen($cpu_words[$cpu_words_count - 2]) == 1 && strlen($cpu_words[$cpu_words_count - 3]) == 2) { $cpu_words[$cpu_words_count - 1] .= $cpu_words[$cpu_words_count - 2]; unset($cpu_words[$cpu_words_count - 2]); $info = implode(' ', $cpu_words); } } } return $info; }
public static function read_lsb_distributor_id() { $vendor = phodevi_linux_parser::read_lsb('Distributor ID'); // Quirks for derivative distributions that don't know how to handle themselves properly if ($vendor == 'MandrivaLinux' && phodevi_linux_parser::read_lsb('Description') == 'PCLinuxOS') { // PC Linux OS only stores its info in /etc/pclinuxos-release $vendor = false; } return $vendor; }
public static function ati_overdrive_core_usage() { return phodevi_linux_parser::read_ati_overdrive('GPUload'); }
public static function chipset_string() { $info = false; if (phodevi::is_macosx()) { $sb_vendor = phodevi_osx_parser::read_osx_system_profiler('SPSerialATADataType', 'Vendor'); $sb_product = phodevi_osx_parser::read_osx_system_profiler('SPSerialATADataType', 'Product'); if ($sb_product == 'SSD') { $sb_product = null; } if (($cut_point = strpos($sb_product, ' ')) > 0) { $sb_product = substr($sb_product, 0, $cut_point); } // TODO: Can't find Northbridge $info = $sb_vendor . ' ' . $sb_product; } else { if (phodevi::is_windows()) { $info = phodevi_windows_parser::read_cpuz('Northbridge', null); if ($info != null) { if (($e = strpos($info, 'rev')) !== false) { $info = substr($info, 0, $e); } $info = trim($info); } } else { if (phodevi::is_solaris()) { // Vendor Detection $vendor_possible_udis = array('/org/freedesktop/Hal/devices/pci_0_0/pci_ide_3_2_0', '/org/freedesktop/Hal/devices/pci_0_0/pci_ide_1f_1_1'); $info = phodevi_solaris_parser::read_hal_property($vendor_possible_udis, 'info.vendor'); // TODO: Northbridge and Southbridge Detection For Solaris } else { if (phodevi::is_linux() || phodevi::is_hurd()) { $info = phodevi_linux_parser::read_pci(array('RAM memory', 'Host bridge')); if (count(explode(' ', $info)) == 1) { $bridge = phodevi_linux_parser::read_pci(array('Bridge', 'PCI bridge')); if (!empty($bridge)) { $match = false; $break_words = array('Ethernet', 'PCI', 'High', 'USB'); for ($i = 0; $i < count($break_words) && !$match; $i++) { if (($pos = strpos($bridge, $break_words[$i])) > 0) { $bridge = trim(substr($bridge, 0, $pos)); $info = $bridge; $match = true; } } } } if (!isset($bridge) || !empty($bridge)) { // Attempt to detect Southbridge (if applicable) $southbridge = phodevi_linux_parser::read_pci(array('ISA bridge', 'SATA controller'), false); $southbridge_clean = null; if (($start_cut = strpos($southbridge, '(')) > 0 && ($end_cut = strpos($southbridge, ')', $start_cut + 1)) > 0) { $southbridge_extract = substr($southbridge, $start_cut + 1, $end_cut - $start_cut - 1); if (strpos($southbridge_extract, 'rev') === false) { $southbridge_extract = explode(' ', $southbridge_extract); $southbridge_clean = $southbridge_extract[0]; } else { if (($s = strpos($southbridge, 'ICH')) > 0) { $southbridge_extract = substr($southbridge, $s); $southbridge_clean = substr($southbridge_extract, 0, strpos($southbridge_extract, ' ')); } } } else { if (($start_cut = strpos($southbridge, 'SB')) !== false) { $southbridge_extract = substr($southbridge, $start_cut); $southbridge_clean = substr($southbridge_extract, 0, strpos($southbridge_extract, ' ')); } } if (!empty($southbridge_clean) && $southbridge_clean != 'SB') { $info .= ' + ' . $southbridge_clean; } } } } } } return $info; }
public static function memory_string() { $mem_string = null; $mem_prefix = null; $mem_size = false; $mem_speed = false; $mem_type = false; $mem_manufacturer = false; $mem_part = false; if (phodevi::is_macosx()) { $mem_size = phodevi_osx_parser::read_osx_system_profiler('SPMemoryDataType', 'Size', true, array('Empty')); $mem_speed = phodevi_osx_parser::read_osx_system_profiler('SPMemoryDataType', 'Speed'); $mem_type = phodevi_osx_parser::read_osx_system_profiler('SPMemoryDataType', 'Type'); } else { if (phodevi::is_solaris()) { $mem_size = phodevi_solaris_parser::read_sun_ddu_dmi_info('MemoryDevice*,InstalledSize'); $mem_speed = phodevi_solaris_parser::read_sun_ddu_dmi_info('MemoryDevice*,Speed'); $mem_type = phodevi_solaris_parser::read_sun_ddu_dmi_info('MemoryDevice*,MemoryDeviceType'); if (is_array($mem_speed) && count($mem_speed) > 0) { $mem_speed = array_shift($mem_speed); } $mem_speed = str_replace('MHZ', 'MHz', $mem_speed); } else { if (phodevi::is_windows()) { $mem_size = phodevi_windows_parser::read_cpuz('DIMM #', 'Size', true); foreach ($mem_size as $key => &$individual_size) { $individual_size = pts_arrays::first_element(explode(' ', $individual_size)); if (!is_numeric($individual_size)) { unset($mem_size[$key]); } } $mem_type = phodevi_windows_parser::read_cpuz('Memory Type', null); $mem_speed = intval(phodevi_windows_parser::read_cpuz('Memory Frequency', null)) . 'MHz'; } else { if (phodevi::is_linux()) { $mem_size = phodevi_linux_parser::read_dmidecode('memory', 'Memory Device', 'Size', false, array('Not Installed', 'No Module Installed', 'Undefined')); $mem_speed = phodevi_linux_parser::read_dmidecode('memory', 'Memory Device', 'Speed', true, array('Unknown', 'Undefined')); $mem_type = phodevi_linux_parser::read_dmidecode('memory', 'Memory Device', 'Type', true, array('Unknown', 'Other', 'Flash', 'Undefined')); $mem_manufacturer = phodevi_linux_parser::read_dmidecode('memory', 'Memory Device', 'Manufacturer', true, array('Unknown', 'Undefined')); $mem_part = phodevi_linux_parser::read_dmidecode('memory', 'Memory Device', 'Part Number', true, array('Unknown', 'Undefined')); } } } } if (is_array($mem_type)) { $mem_type = array_pop($mem_type); } if ($mem_size != false && (!is_array($mem_size) || count($mem_size) != 0)) { for ($i = 0; $i < count($mem_size); $i++) { switch (substr($mem_size[$i], -1)) { case 'K': // looks like sometimes Solaris now reports flash chip as memory. its string ends with K unset($mem_size[$i]); unset($mem_speed[$i]); unset($mem_type[$i]); break; case 'M': // report megabytes as MB, just not M, as on Solaris $mem_size[$i] .= 'B'; break; case 'B': if (strtolower(substr($mem_size[$i], -2, 1)) == 'k') { // some hardware on Linux via dmidecode reports flash chips unset($mem_size[$i]); //unset($mem_speed[$i]); //unset($mem_type[$i]); } break; } } foreach ($mem_size as $i => $mem_stick) { if (!is_numeric(substr($mem_stick, 0, 3)) && stripos($mem_stick, 'GB') == false) { // If the memory size isn't at least three digits (basically 128MB+), chances are something is wrong, i.e. reporting flash chip from dmidecode, so get rid of it. unset($mem_size[$i]); } } $mem_count = count($mem_size); if (!empty($mem_type)) { if (($cut = strpos($mem_type, ' ')) > 0) { $mem_type = substr($mem_type, 0, $cut); } if (!in_array($mem_type, array('Other')) && (pts_strings::keep_in_string($mem_type, pts_strings::CHAR_NUMERIC | pts_strings::CHAR_LETTER) == $mem_type || phodevi::is_windows())) { $mem_prefix = $mem_type; } } else { $mem_prefix = null; } if (!empty($mem_speed)) { if (($cut = strpos($mem_speed, ' (')) > 0) { $mem_speed = substr($mem_speed, 0, $cut); } if (!empty($mem_prefix)) { $mem_prefix .= '-'; } $mem_prefix .= str_replace(' ', null, $mem_speed); } // TODO: Allow a combination of both functions below, so like 2 x 2GB + 3 x 1GB DDR2-800 if ($mem_count > 1 && count(array_unique($mem_size)) > 1) { $mem_string = implode(' + ', $mem_size) . ' ' . $mem_prefix; } else { if ($mem_count * $mem_size[0] != phodevi::read_property('memory', 'capacity') && phodevi::read_property('memory', 'capacity') % $mem_size[0] == 0) { // This makes sure the correct number of RAM modules is reported... // On at least Linux with dmidecode on an AMD Opteron multi-socket setup it's only showing the data for one socket if ($mem_size[0] < 1024) { $mem_size[0] *= 1024; } $mem_count = phodevi::read_property('memory', 'capacity') / $mem_size[0]; } $product_string = null; if (isset($mem_manufacturer[2]) && ctype_alpha($mem_manufacturer[0]) && stripos($mem_manufacturer, 'manufacturer') === false && stripos($mem_manufacturer, 'part') === false && stripos($mem_manufacturer, 'module') === false && stripos($mem_manufacturer, 'dimm') === false && isset($mem_manufacturer[2]) && ctype_alpha($mem_manufacturer)) { $product_string .= ' ' . $mem_manufacturer; } if (isset($mem_part[2]) && stripos($mem_part, 'part') === false && stripos($mem_part, 'module') === false && stripos($mem_part, 'dimm') === false && substr($mem_part, 0, 2) != '0x' && !isset($mem_part[24]) && ctype_alnum($mem_part)) { $product_string .= ' ' . $mem_part; } if (is_numeric($mem_size[0]) && stripos($mem_size[0], 'b') === false) { if ($mem_size >= 1024) { $mem_size[0] .= ' MB'; } else { $mem_size[0] .= ' GB'; } } $mem_string = $mem_count . ' x ' . $mem_size[0] . ' ' . $mem_prefix . $product_string; } } if (empty($mem_string)) { $mem_string = phodevi::read_property('memory', 'capacity'); if ($mem_string != null) { $mem_string .= 'MB'; } } return trim($mem_string); }
private function cpu_temp_linux() { $temp_c = -1; // Try hwmon interface $raw_temp = phodevi_linux_parser::read_sysfs_node('/sys/class/hwmon/hwmon*/temp2_input', 'POSITIVE_NUMERIC', array('name' => 'coretemp')); if ($raw_temp == -1) { $raw_temp = phodevi_linux_parser::read_sysfs_node('/sys/class/hwmon/hwmon*/device/temp1_input', 'POSITIVE_NUMERIC', array('name' => 'k10temp')); } if ($raw_temp == -1) { // Try ACPI thermal // Assuming the system thermal sensor comes 2nd to the ACPI CPU temperature // It appears that way on a ThinkPad T60, but TODO find a better way to validate $raw_temp = phodevi_linux_parser::read_sysfs_node('/sys/class/thermal/thermal_zone*/temp', 'POSITIVE_NUMERIC', null, 2); } if ($raw_temp != -1) { if ($raw_temp > 1000) { $raw_temp = $raw_temp / 1000; } $temp_c = pts_math::set_precision($raw_temp, 2); } if ($temp_c == -1) { // Try LM_Sensors $sensors = phodevi_linux_parser::read_sensors(array('CPU Temp', 'Core 0', 'Core0 Temp', 'Core1 Temp')); if ($sensors != false && is_numeric($sensors) && $sensors > 0) { $temp_c = $sensors; } } if (pts_client::executable_in_path('ipmitool')) { $ipmi = phodevi_linux_parser::read_ipmitool_sensor('Temp 0'); if ($ipmi > 0 && is_numeric($ipmi)) { $temp_c = $ipmi; } } return $temp_c; }
public function read_sensor() { // Graphics processor real/current frequency $show_memory = false; $core_freq = 0; $mem_freq = 0; if (phodevi::is_nvidia_graphics()) { $nv_freq = phodevi_parser::read_nvidia_extension('GPUCurrentClockFreqs'); $nv_freq = pts_strings::comma_explode($nv_freq); $core_freq = isset($nv_freq[0]) ? $nv_freq[0] : 0; $mem_freq = isset($nv_freq[1]) ? $nv_freq[1] : 0; } else { if (phodevi::is_ati_graphics() && phodevi::is_linux()) { $od_clocks = phodevi_linux_parser::read_ati_overdrive('CurrentClocks'); if (is_array($od_clocks) && count($od_clocks) >= 2) { $core_freq = array_shift($od_clocks); $mem_freq = array_pop($od_clocks); } } else { if (phodevi::is_linux()) { if (isset(phodevi::$vfs->radeon_pm_info)) { // radeon_pm_info should be present with Linux 2.6.34+ foreach (pts_strings::trim_explode("\n", phodevi::$vfs->radeon_pm_info) as $pm_line) { $pm_line = pts_strings::colon_explode($pm_line); if (isset($pm_line[1])) { list($descriptor, $value) = $pm_line; } else { continue; } switch ($descriptor) { case 'current engine clock': $core_freq = pts_arrays::first_element(explode(' ', $value)) / 1000; break; case 'current memory clock': $mem_freq = pts_arrays::first_element(explode(' ', $value)) / 1000; break; } } if ($core_freq == null && ($x = strpos(phodevi::$vfs->radeon_pm_info, 'sclk: '))) { $x = substr(phodevi::$vfs->radeon_pm_info, $x + strlen('sclk: ')); $x = substr($x, 0, strpos($x, ' ')); if (is_numeric($x)) { if ($x > 1000) { $x = $x / 100; } $core_freq = $x; } } if ($mem_freq == null && ($x = strpos(phodevi::$vfs->radeon_pm_info, 'mclk: '))) { $x = substr(phodevi::$vfs->radeon_pm_info, $x + strlen('mclk: ')); $x = substr($x, 0, strpos($x, ' ')); if (is_numeric($x)) { if ($x > 1000) { $x = $x / 100; } $mem_freq = $x; } } } else { if (is_file('/sys/class/drm/card0/gt_cur_freq_mhz')) { $gt_cur_freq_mhz = pts_file_io::file_get_contents('/sys/class/drm/card0/gt_cur_freq_mhz'); if ($gt_cur_freq_mhz > 2) { $core_freq = $gt_cur_freq_mhz; } } else { if (is_file('/sys/class/drm/card0/device/performance_level')) { $performance_level = pts_file_io::file_get_contents('/sys/class/drm/card0/device/performance_level'); $performance_level = explode(' ', $performance_level); $core_string = array_search('core', $performance_level); if ($core_string !== false && isset($performance_level[$core_string + 1])) { $core_string = str_ireplace('MHz', null, $performance_level[$core_string + 1]); if (is_numeric($core_string) && $core_string > $core_freq) { $core_freq = $core_string; } } $mem_string = array_search('memory', $performance_level); if ($mem_string !== false && isset($performance_level[$mem_string + 1])) { $mem_string = str_ireplace('MHz', null, $performance_level[$mem_string + 1]); if (is_numeric($mem_string) && $mem_string > $mem_freq) { $mem_freq = $mem_string; } } } else { if (isset(phodevi::$vfs->i915_cur_delayinfo)) { $i915_cur_delayinfo = phodevi::$vfs->i915_cur_delayinfo; $cagf = strpos($i915_cur_delayinfo, 'CAGF: '); if ($cagf !== false) { $cagf_mhz = substr($i915_cur_delayinfo, $cagf + 6); $cagf_mhz = substr($cagf_mhz, 0, strpos($cagf_mhz, 'MHz')); if (is_numeric($cagf_mhz)) { $core_freq = $cagf_mhz; } } } } } } } } } if (!is_numeric($core_freq)) { $core_freq = 0; } if (!is_numeric($mem_freq)) { $mem_freq = 0; } if ($core_freq == 0 && $mem_freq == 0) { $show_memory = false; $core_freq = -1; } return $show_memory ? array($core_freq, $mem_freq) : $core_freq; }
public static function monitor_layout() { // Determine layout for multiple monitors $monitor_layout = array('CENTER'); if (phodevi::read_property('monitor', 'count') > 1) { $xdpy_monitors = phodevi_parser::read_xdpy_monitor_info(); $hit_0_0 = false; for ($i = 0; $i < count($xdpy_monitors); $i++) { $monitor_position = explode('@', $xdpy_monitors[$i]); $monitor_position = trim($monitor_position[1]); $monitor_position_x = substr($monitor_position, 0, strpos($monitor_position, ',')); $monitor_position_y = substr($monitor_position, strpos($monitor_position, ',') + 1); if ($monitor_position == '0,0') { $hit_0_0 = true; } else { if ($monitor_position_x > 0 && $monitor_position_y == 0) { array_push($monitor_layout, $hit_0_0 ? 'RIGHT' : 'LEFT'); } else { if ($monitor_position_x == 0 && $monitor_position_y > 0) { array_push($monitor_layout, $hit_0_0 ? 'LOWER' : 'UPPER'); } } } } if (count($monitor_layout) == 1) { // Something went wrong with xdpy information, go to fallback support if (phodevi::is_ati_graphics() && phodevi::is_linux()) { $amdpcsdb_monitor_layout = phodevi_linux_parser::read_amd_pcsdb('SYSTEM/BUSID-*/DDX,DesktopSetup'); $amdpcsdb_monitor_layout = pts_arrays::to_array($amdpcsdb_monitor_layout); foreach ($amdpcsdb_monitor_layout as $card_monitor_configuration) { switch ($card_monitor_configuration) { case 'horizontal': array_push($monitor_layout, 'RIGHT'); break; case 'horizontal,reverse': array_push($monitor_layout, 'LEFT'); break; case 'vertical': array_push($monitor_layout, 'ABOVE'); break; case 'vertical,reverse': array_push($monitor_layout, 'BELOW'); break; } } } } } return implode(',', $monitor_layout); }
private static function sys_battery_power() { // Returns power consumption rate in mW $rate = -1; if (phodevi::is_linux()) { $power_now = phodevi_linux_parser::read_sysfs_node('/sys/class/power_supply/*/power_now', 'POSITIVE_NUMERIC', array('status' => 'Discharging')); if ($power_now != -1) { // sysfs power_now seems to be displayed in microWatts $rate = pts_math::set_precision($power_now / 1000, 2); } if ($rate == -1) { $battery = array('/battery/BAT0/state', '/battery/BAT1/state'); $state = phodevi_linux_parser::read_acpi($battery, 'charging state'); $power = phodevi_linux_parser::read_acpi($battery, 'present rate'); $voltage = phodevi_linux_parser::read_acpi($battery, 'present voltage'); if ($state == 'discharging') { $power_unit = substr($power, strrpos($power, ' ') + 1); $power = substr($power, 0, strpos($power, ' ')); if ($power_unit == 'mA') { $voltage_unit = substr($voltage, strrpos($voltage, ' ') + 1); $voltage = substr($voltage, 0, strpos($voltage, ' ')); if ($voltage_unit == 'mV') { $rate = round($power * $voltage / 1000); } } else { if ($power_unit == 'mW') { $rate = $power; } } } } if ($rate == -1 && is_file('/sys/class/power_supply/BAT0/voltage_now') && is_file('/sys/class/power_supply/BAT0/current_now')) { $voltage_now = pts_file_io::file_get_contents('/sys/class/power_supply/BAT0/voltage_now') / 1000; $current_now = pts_file_io::file_get_contents('/sys/class/power_supply/BAT0/current_now') / 1000; $power_now = $voltage_now * $current_now / 1000; if ($power_now > 1) { $rate = $power_now; } } if ($rate == -1 && is_file('/sys/class/power_supply/BAT1/voltage_now') && is_file('/sys/class/power_supply/BAT1/current_now')) { $voltage_now = pts_file_io::file_get_contents('/sys/class/power_supply/BAT1/voltage_now') / 1000; $current_now = pts_file_io::file_get_contents('/sys/class/power_supply/BAT1/current_now') / 1000; $power_now = $voltage_now * $current_now / 1000; if ($power_now > 1) { $rate = $power_now; } } } else { if (phodevi::is_macosx()) { $amperage = abs(phodevi_osx_parser::read_osx_system_profiler('SPPowerDataType', 'Amperage')); // in mA $voltage = phodevi_osx_parser::read_osx_system_profiler('SPPowerDataType', 'Voltage'); // in mV if ($amperage > 0 && $voltage > 0) { $rate = round($amperage * $voltage / 1000); } else { if (pts_client::executable_in_path('ioreg')) { $ioreg = trim(shell_exec("ioreg -l | grep LegacyBatteryInfo | cut -d '{' -f 2 | tr -d \\} | tr ',' '=' | awk -F'=' '{print (\$2*\$10/10^22)}' 2>&1")); if (is_numeric($ioreg) && $ioreg > 0) { $rate = $ioreg; } } } } else { if (phodevi::is_solaris()) { $battery = phodevi_solaris_parser::read_hal_property('/org/freedesktop/Hal/devices/pseudo/acpi_drv_0_battery0_0', 'battery.reporting.rate'); if (is_numeric($battery)) { $rate = $battery; } } else { if (phodevi::is_bsd()) { $battery = phodevi_bsd_parser::read_acpiconf('Present rate'); if ($battery && substr($battery, -2) == 'mW') { $rate = substr($battery, 0, strpos($battery, ' ')); } } } } } return $rate; }
public static function __pre_run_process() { if (!(phodevi::is_nvidia_graphics() || phodevi::is_ati_graphics() && phodevi::is_linux())) { echo "\nNo supported driver found for graphics_override module!\n"; return pts_module::MODULE_UNLOAD; // Not using a supported driver, quit the module } $force_aa = pts_module::read_variable("FORCE_AA"); $force_af = pts_module::read_variable("FORCE_AF"); if ($force_aa !== FALSE && in_array($force_aa, self::$supported_aa_levels)) { // First backup any existing override, then set the new value if (phodevi::is_nvidia_graphics()) { self::$preset_aa = phodevi_parser::read_nvidia_extension("FSAA"); self::$preset_aa_control = phodevi_parser::read_nvidia_extension("FSAAAppControlled"); switch ($force_aa) { case 2: $nvidia_aa = 2; break; case 4: $nvidia_aa = 5; break; case 8: $nvidia_aa = 7; break; case 16: $nvidia_aa = 8; break; } if (isset($nvidia_aa)) { self::set_nvidia_extension("FSAA", $nvidia_aa); self::set_nvidia_extension("FSAAAppControlled", 0); } } else { if (phodevi::is_ati_graphics()) { self::$preset_aa = phodevi_linux_parser::read_amd_pcsdb("OpenGL,AntiAliasSamples"); self::$preset_aa_control = phodevi_linux_parser::read_amd_pcsdb("OpenGL,AAF"); switch ($force_aa) { case 2: $ati_aa = "0x00000002"; break; case 4: $ati_aa = "0x00000004"; break; case 8: $ati_aa = "0x00000008"; break; case 16: echo "\nThe ATI fglrx driver currently does not support 16x AA! Defaulting to 8x AA!\n"; $ati_aa = "0x00000008"; break; } if (isset($ati_aa)) { self::set_amd_pcsdb("OpenGL,AntiAliasSamples", $ati_aa); self::set_amd_pcsdb("OpenGL,AAF", "0x00000000"); } } } } if ($force_af !== FALSE && in_array($force_af, self::$supported_af_levels)) { // First backup any existing override, then set the new value if (phodevi::is_nvidia_graphics()) { self::$preset_af = phodevi_parser::read_nvidia_extension("LogAniso"); self::$preset_af_control = phodevi_parser::read_nvidia_extension("LogAnisoAppControlled"); switch ($force_af) { case 2: $nvidia_af = 1; break; case 4: $nvidia_af = 2; break; case 8: $nvidia_af = 3; break; case 16: $nvidia_af = 4; break; } if (isset($nvidia_af)) { self::set_nvidia_extension("LogAniso", $nvidia_af); self::set_nvidia_extension("LogAnisoAppControlled", 0); } } else { if (phodevi::is_ati_graphics()) { self::$preset_af = phodevi_linux_parser::read_amd_pcsdb("OpenGL,AnisoDegree"); switch ($force_af) { case 2: $ati_af = "0x00000002"; break; case 4: $ati_af = "0x00000004"; break; case 8: $ati_af = "0x00000008"; break; case 16: $ati_af = "0x00000010"; break; } if (isset($ati_af)) { self::set_amd_pcsdb("OpenGL,AnisoDegree", $ati_af); } } } } }
public static function motherboard_string() { // Returns the motherboard / system model name or number $info = null; if (phodevi::is_macosx()) { $info = phodevi_osx_parser::read_osx_system_profiler('SPHardwareDataType', 'ModelName'); } else { if (phodevi::is_solaris()) { $manufacturer = phodevi_solaris_parser::read_sun_ddu_dmi_info(array('MotherBoardInformation,Manufacturer', 'SystemInformation,Manufacturer')); $product = phodevi_solaris_parser::read_sun_ddu_dmi_info(array('MotherBoardInformation,Product', 'SystemInformation,Product', 'SystemInformation,Model')); if (count($manufacturer) == 1 && count($product) == 1) { $info = $manufacturer[0] . ' ' . $product[0]; } } else { if (phodevi::is_bsd()) { $vendor = phodevi_bsd_parser::read_kenv('smbios.system.maker'); $product = phodevi_bsd_parser::read_kenv('smbios.system.product'); $version = phodevi_bsd_parser::read_kenv('smbios.system.version'); // for at least Lenovo ThinkPads this is where it displays ThinkPad model if ($vendor != null && ($product != null || $version != null)) { $info = $vendor . ' ' . $product . ' ' . $version; } else { if (($vendor = phodevi_bsd_parser::read_sysctl('hw.vendor')) != false && ($version = phodevi_bsd_parser::read_sysctl(array('hw.version', 'hw.product'))) != false) { $info = trim($vendor . ' ' . $version); } else { if (($acpi = phodevi_bsd_parser::read_sysctl('dev.acpi.0.%desc')) != false) { $info = trim($acpi); } } } } else { if (phodevi::is_linux()) { $vendor = phodevi_linux_parser::read_sys_dmi(array('board_vendor', 'sys_vendor')); $name = phodevi_linux_parser::read_sys_dmi(array('board_name', 'product_name')); $version = phodevi_linux_parser::read_sys_dmi(array('board_version', 'product_version')); if ($vendor != false && $name != false) { $info = strpos($name . ' ', $vendor . ' ') === false ? $vendor . ' ' : null; $info .= $name; if ($version != false && strpos($info, $version) === false && pts_strings::string_only_contains($version, pts_strings::CHAR_NUMERIC | pts_strings::CHAR_DECIMAL)) { $info .= (substr($version, 0, 1) == 'v' ? ' ' : ' v') . $version; } } if (empty($info)) { if ($info == null) { $hw_string = phodevi_linux_parser::read_cpuinfo('Hardware'); if (count($hw_string) == 1) { $info = $hw_string[0]; } } $bios_vendor = phodevi_linux_parser::read_sys_dmi('bios_vendor'); $bios_version = phodevi_linux_parser::read_sys_dmi('bios_version'); if ($bios_vendor != null) { $info = $bios_vendor . ' ' . $bios_version; } if ($info == null) { $hw_string = phodevi_linux_parser::read_cpuinfo('machine'); if (count($hw_string) == 1) { $info = $hw_string[0]; } } } if (empty($info)) { $info = phodevi_linux_parser::read_sys_dmi('product_name'); } if (empty($info) && is_file('/sys/bus/soc/devices/soc0/machine')) { $info = pts_file_io::file_get_contents('/sys/bus/soc/devices/soc0/machine'); } if (empty($info)) { // Works on the MIPS Creator CI20 $hardware = phodevi_linux_parser::read_cpuinfo('Hardware'); if (!empty($hardware)) { $info = array_pop($hardware); } } } else { if (phodevi::is_windows()) { $info = phodevi_windows_parser::read_cpuz('Mainboard Model', null); } } } } } if ((strpos($info, 'Mac ') !== false || strpos($info, 'MacBook') !== false) && strpos($info, 'Apple') === false) { $info = 'Apple ' . $info; } // ensure words aren't repeated (e.g. VMware VMware Virtual and MSI MSI X58M (MS-7593)) $info = implode(' ', array_unique(explode(' ', $info))); return $info; }
public static function sw_display_driver($with_version = true) { if (phodevi::is_windows()) { return null; } $display_driver = phodevi::read_property('system', 'dri-display-driver'); if (empty($display_driver)) { if (phodevi::is_ati_graphics() && phodevi::is_linux()) { $display_driver = 'fglrx'; } else { if (phodevi::is_nvidia_graphics() || is_file('/proc/driver/nvidia/version')) { $display_driver = 'nvidia'; } else { if ((phodevi::is_mesa_graphics() || phodevi::is_bsd()) && stripos(phodevi::read_property('gpu', 'model'), 'NVIDIA') !== false) { if (is_file('/sys/class/drm/version')) { // If there's DRM loaded and NVIDIA, it should be Nouveau $display_driver = 'nouveau'; } else { // The dead xf86-video-nv doesn't use any DRM $display_driver = 'nv'; } } else { // Fallback to hopefully detect the module, takes the first word off the GPU string and sees if it is the module // This works in at least the case of the Cirrus driver $display_driver = strtolower(pts_strings::first_in_string(phodevi::read_property('gpu', 'model'))); } } } } if (!empty($display_driver)) { $driver_version = phodevi_parser::read_xorg_module_version($display_driver . '_drv'); if ($driver_version == false || $driver_version == '1.0.0') { switch ($display_driver) { case 'amd': // See if it's radeon driver $driver_version = phodevi_parser::read_xorg_module_version('radeon_drv'); if ($driver_version != false) { $display_driver = 'radeon'; } break; case 'vmwgfx': // See if it's VMware driver $driver_version = phodevi_parser::read_xorg_module_version('vmware_drv'); if ($driver_version != false) { $display_driver = 'vmware'; } break; case 'radeon': // RadeonHD driver also reports DRI driver as 'radeon', so try reading that instead $driver_version = phodevi_parser::read_xorg_module_version('radeonhd_drv'); if ($driver_version != false) { $display_driver = 'radeonhd'; } break; case 'nvidia': case 'NVIDIA': case 'nouveau': // NVIDIA's binary driver usually ends up reporting 1.0.0 if ($nvs_value = phodevi_parser::read_nvidia_extension('NvidiaDriverVersion')) { $display_driver = 'NVIDIA'; $driver_version = $nvs_value; } else { // NVIDIA's binary driver appends their driver version on the end of the OpenGL version string $glxinfo = phodevi_parser::software_glxinfo_version(); if (($pos = strpos($glxinfo, 'NVIDIA ')) != false) { $display_driver = 'NVIDIA'; $driver_version = substr($glxinfo, $pos + 7); } } break; default: if (is_readable('/sys/class/graphics/fb0/name')) { // This path works for at least finding NVIDIA Tegra 2 DDX (via tegra_fb) $display_driver = file_get_contents('/sys/class/graphics/fb0/name'); $display_driver = str_replace(array('drm', '_fb'), null, $display_driver); $driver_version = phodevi_parser::read_xorg_module_version($display_driver . '_drv'); } break; } } if ($driver_version == false) { // If the version is empty, chances are the DDX driver string is incorrect $display_driver = null; // See if the VESA or fbdev driver is in use foreach (array('modesetting', 'fbdev', 'vesa') as $drv) { $drv_version = phodevi_parser::read_xorg_module_version($drv . '_drv'); if ($drv_version) { $display_driver = $drv; $driver_version = $drv_version; break; } } } if (!empty($driver_version) && $with_version && $driver_version != '0.0.0') { $display_driver .= ' ' . $driver_version; // XXX: The below check is disabled since the Catalyst Version no longer seems reliably reported (circa Catalyst 13.x) if (false && phodevi::is_ati_graphics() && strpos($display_driver, 'fglrx') !== false) { $catalyst_version = phodevi_linux_parser::read_amd_pcsdb('AMDPCSROOT/SYSTEM/LDC,Catalyst_Version'); if ($catalyst_version != null && $catalyst_version > 10.1 && $catalyst_version != 10.5 && $catalyst_version != 11.8) { // This option was introduced around Catalyst 10.5 but seems to not be updated properly until Catalyst 10.11/10.12 $display_driver .= ' Catalyst ' . $catalyst_version . ''; } } } } return $display_driver; }
public static function gpu_model() { // Report graphics processor string $info = phodevi_parser::read_glx_renderer(); $video_ram = phodevi::read_property('gpu', 'memory-capacity'); if (phodevi::is_ati_graphics() && phodevi::is_linux()) { $crossfire_status = phodevi_linux_parser::read_amd_pcsdb('SYSTEM/Crossfire/chain/*,Enable'); $crossfire_status = pts_arrays::to_array($crossfire_status); $crossfire_card_count = 0; for ($i = 0; $i < count($crossfire_status); $i++) { if ($crossfire_status[$i] == '0x00000001') { $crossfire_card_count += 2; // For now assume each chain is 2 cards, but proper way would be NumSlaves + 1 } } $adapters = phodevi_linux_parser::read_amd_graphics_adapters(); if (count($adapters) > 0) { $video_ram = $video_ram > 64 ? ' ' . $video_ram . 'MB' : null; // assume more than 64MB of vRAM if ($crossfire_card_count > 1 && $crossfire_card_count <= count($adapters)) { $unique_adapters = array_unique($adapters); if (count($unique_adapters) == 1) { if (strpos($adapters[0], 'X2') > 0 && $crossfire_card_count > 1) { $crossfire_card_count -= 1; } $info = $crossfire_card_count . ' x ' . $adapters[0] . $video_ram . ' CrossFire'; } else { $info = implode(', ', $unique_adapters) . ' CrossFire'; } } else { $info = $adapters[0] . $video_ram; } } } else { if (phodevi::is_macosx()) { $system_profiler_info = implode(' + ', phodevi_osx_parser::read_osx_system_profiler('SPDisplaysDataType', 'ChipsetModel', true)); if (!empty($system_profiler_info)) { $info = $system_profiler_info; } } else { if (phodevi::is_nvidia_graphics()) { if ($info == null) { if (pts_client::executable_in_path('nvidia-settings')) { $nv_gpus = shell_exec('nvidia-settings -q gpus 2>&1'); // TODO: search for more than one GPU $nv_gpus = substr($nv_gpus, strpos($nv_gpus, '[0]')); $nv_gpus = substr($nv_gpus, strpos($nv_gpus, '(') + 1); $nv_gpus = substr($nv_gpus, 0, strpos($nv_gpus, ')')); if (stripos($nv_gpus, 'GeForce') !== false || stripos($nv_gpus, 'Quadro') !== false) { $info = $nv_gpus; } } } $sli_mode = phodevi_parser::read_nvidia_extension('SLIMode'); if (!empty($sli_mode) && $sli_mode != 'Off') { $info .= ' SLI'; } } else { if (phodevi::is_solaris()) { if (($cut = strpos($info, 'DRI ')) !== false) { $info = substr($info, $cut + 4); } if (($cut = strpos($info, ' Chipset')) !== false) { $info = substr($info, 0, $cut); } if ($info == false && isset(phodevi::$vfs->xorg_log)) { $xorg_log = phodevi::$vfs->xorg_log; if (($x = strpos($xorg_log, '(0): Chipset: ')) !== false) { $xorg_log = substr($xorg_log, $x + 14); $xorg_log = str_replace(array('(R)', '"'), null, substr($xorg_log, 0, strpos($xorg_log, PHP_EOL))); if (($c = strpos($xorg_log, '[')) || ($c = strpos($xorg_log, '('))) { $xorg_log = substr($xorg_log, 0, $c); } if (phodevi::is_product_string($xorg_log)) { $info = $xorg_log; } } } } else { if (phodevi::is_bsd()) { $drm_info = phodevi_bsd_parser::read_sysctl('dev.drm.0.%desc'); if (!$drm_info) { $drm_info = phodevi_bsd_parser::read_sysctl('dev.nvidia.0.%desc'); } if (!$drm_info) { $agp_info = phodevi_bsd_parser::read_sysctl('dev.agp.0.%desc'); if ($agp_info != false) { $info = $agp_info; } } else { $info = $drm_info; } if ($info == null && isset(phodevi::$vfs->xorg_log)) { $xorg_log = phodevi::$vfs->xorg_log; if (($e = strpos($xorg_log, ' at 01@00:00:0')) !== false) { $xorg_log = substr($xorg_log, 0, $e); $info = substr($xorg_log, strrpos($xorg_log, 'Found ') + 6); } } } else { if (phodevi::is_windows()) { $info = phodevi_windows_parser::read_cpuz('Display Adapters', 'Name'); } } } } } } if (empty($info) || strpos($info, 'Mesa ') !== false || strpos($info, 'Gallium ') !== false) { if (phodevi::is_windows() == false) { $info_pci = phodevi_linux_parser::read_pci('VGA compatible controller', false); if (!empty($info_pci)) { $info = $info_pci; if (strpos($info, 'Intel 2nd Generation Core Family') !== false || strpos($info, 'Gen Core') !== false) { // Try to come up with a better non-generic string $was_reset = false; if (isset(phodevi::$vfs->xorg_log)) { /* $ cat /var/log/Xorg.0.log | grep -i Chipset [ 8.421] (II) intel: Driver for Intel Integrated Graphics Chipsets: i810, [ 8.421] (II) VESA: driver for VESA chipsets: vesa [ 8.423] (II) intel(0): Integrated Graphics Chipset: Intel(R) Sandybridge Mobile (GT2+) [ 8.423] (--) intel(0): Chipset: "Sandybridge Mobile (GT2+)" */ $xorg_log = phodevi::$vfs->xorg_log; if (($x = strpos($xorg_log, 'Integrated Graphics Chipset: ')) !== false) { $xorg_log = substr($xorg_log, $x + 29); $xorg_log = str_replace(array('(R)', '"'), null, substr($xorg_log, 0, strpos($xorg_log, PHP_EOL))); if (stripos($xorg_log, 'Intel') === false) { $xorg_log = 'Intel ' . $xorg_log; } // if string is too long, likely not product if (!isset($xorg_log[45])) { $info = $xorg_log; $was_reset = true; } } else { if (($x = strpos($xorg_log, '(0): Chipset: ')) !== false) { $xorg_log = substr($xorg_log, $x + 14); $xorg_log = str_replace(array('(R)', '"'), null, substr($xorg_log, 0, strpos($xorg_log, PHP_EOL))); if (stripos($xorg_log, 'Intel') === false) { $xorg_log = 'Intel ' . $xorg_log; } // if string is too long, likely not product if (!isset($xorg_log[45])) { $info = $xorg_log; $was_reset = true; } } } } if ($was_reset == false && isset(phodevi::$vfs->i915_capabilities)) { $i915_caps = phodevi::$vfs->i915_capabilities; if (($x = strpos($i915_caps, 'gen: ')) !== false) { $gen = substr($i915_caps, $x + 5); $gen = substr($gen, 0, strpos($gen, PHP_EOL)); if (is_numeric($gen)) { $info = 'Intel Gen' . $gen; if (strpos($i915_caps, 'is_mobile: yes') !== false) { $info .= ' Mobile'; } } } } } } } if (($start_pos = strpos($info, ' DRI ')) > 0) { $info = substr($info, $start_pos + 5); } if (empty($info) && isset(phodevi::$vfs->xorg_log)) { $log_parse = phodevi::$vfs->xorg_log; $log_parse = substr($log_parse, strpos($log_parse, 'Chipset') + 8); $log_parse = substr($log_parse, 0, strpos($log_parse, 'found')); if (strpos($log_parse, '(--)') === false && strlen(str_ireplace(array('ATI', 'NVIDIA', 'VIA', 'Intel'), '', $log_parse)) != strlen($log_parse)) { $info = $log_parse; } } if (empty($info) && is_readable('/sys/class/graphics/fb0/name')) { switch (pts_file_io::file_get_contents('/sys/class/graphics/fb0/name')) { case 'omapdrm': $info = 'Texas Instruments OMAP'; // The OMAP DRM driver currently is for OMAP2/3/4 hardware break; case 'exynos': $info = 'Samsung EXYNOS'; // The Exynos DRM driver break; case 'tegra_fb': $info = 'NVIDIA TEGRA'; // The Exynos DRM driver break; default: if (is_file('/dev/mali')) { $info = 'ARM Mali'; // One of the ARM Mali models } break; } } if (substr($info, -1) == ')' && ($open_p = strrpos($info, '(')) != false) { $end_check = strpos($info, ' ', $open_p); $to_check = substr($info, $open_p + 1, $end_check - $open_p - 1); // Don't report card revision from PCI info if ($to_check == 'rev') { $info = substr($info, 0, $open_p - 1); } } } if (($bracket_open = strpos($info, '[')) !== false) { // Report only the information inside the brackets if it's more relevant... // Mainly with Linux systems where the PCI information is reported like 'nVidia GF104 [GeForce GTX 460]' if (($bracket_close = strpos($info, ']', $bracket_open + 1)) !== false) { $inside_bracket = substr($info, $bracket_open + 1, $bracket_close - $bracket_open - 1); if (stripos($inside_bracket, 'Quadro') !== false || stripos($inside_bracket, 'GeForce') !== false) { $info = $inside_bracket . ' ' . substr($info, $bracket_close + 1); } else { if (stripos($inside_bracket, 'Radeon') !== false || stripos($inside_bracket, 'Fire') !== false || stripos($inside_bracket, 'Fusion') !== false) { $info = $inside_bracket . ' ' . substr($info, $bracket_close + 1); } } } } if (stripos($info, 'NVIDIA') === false && (stripos($info, 'Quadro') !== false || stripos($info, 'GeForce') !== false)) { $info = 'NVIDIA' . ' ' . $info; } else { if (stripos($info, 'ATI') === false && stripos($info, 'AMD') === false && (stripos($info, 'Radeon') !== false || stripos($info, 'Fire') !== false || stripos($info, 'Fusion') !== false)) { // Fire would be for FireGL or FirePro hardware $info = 'AMD ' . $info; } } if (phodevi::is_linux() && ($vendor = phodevi_linux_parser::read_pci_subsystem_value('VGA compatible controller')) != null && stripos($info, $vendor) === false && (stripos($info, 'AMD') !== false || stripos($info, 'NVIDIA') !== false)) { $info = $vendor . ' ' . $info; } if ($video_ram > 64 && strpos($info, $video_ram) == false) { $info .= ' ' . $video_ram . 'MB'; } $clean_phrases = array('OpenGL Engine'); $info = str_replace($clean_phrases, null, $info); return $info; }