1099511627776, 'G' => 1073741824, 'M' => 1048576, 'K' => 1024, '' => 1]; const SI_LOOKUP = ['T' => 1000000000000, 'G' => 1000000000, 'M' => 1000000, 'K' => 1000, '' => 1]; public static function parseCpu(&$row, $data) { if (0 >= preg_match_all('/^(.+):\s+(\d+)$/im', $data, $out, PREG_SET_ORDER)) { return; } foreach ($out as $entry) { $row[str_replace(' ', '', $entry[1])] = $entry[2]; } } public static function parseDmiDecode(&$row, $data) { $lines = preg_split("/[\r\n]+/", $data); $section = false; $ramOk = false; $ramForm = $ramType = $ramSpeed = $ramClockSpeed = false; $ramslot = []; $row['ramslotcount'] = $row['maxram'] = 0; foreach ($lines as $line) { if (empty($line)) { continue; } if ($line[0] !== "\t" && $line[0] !== ' ') { if (isset($ramslot['size'])) { $row['ramslot'][] = $ramslot; $ramslot = []; } $section = $line; $ramOk = false; if (($ramForm || $ramType) && ($ramSpeed || $ramClockSpeed)) { if (isset($row['ramtype']) && !$ramClockSpeed) { continue; } $row['ramtype'] = $ramType . ' ' . $ramForm; if ($ramClockSpeed) { $row['ramtype'] .= ', ' . $ramClockSpeed; } elseif ($ramSpeed) { $row['ramtype'] .= ', ' . $ramSpeed; } $ramForm = false; $ramType = false; $ramClockSpeed = false; } continue; } if ($section === 'Base Board Information') { if (preg_match('/^\s*Product Name: +(\S.+?) *$/i', $line, $out)) { $row['mobomodel'] = $out[1]; } if (preg_match('/^\s*Manufacturer: +(\S.+?) *$/i', $line, $out)) { $row['mobomanufacturer'] = $out[1]; } } elseif ($section === 'System Information') { if (preg_match('/^\s*Product Name: +(\S.+?) *$/i', $line, $out)) { $row['pcmodel'] = $out[1]; } if (preg_match('/^\s*Manufacturer: +(\S.+?) *$/i', $line, $out)) { $row['pcmanufacturer'] = $out[1]; } } elseif ($section === 'Physical Memory Array') { if (!$ramOk && preg_match('/Use: System Memory/i', $line)) { $ramOk = true; } if ($ramOk && preg_match('/^\s*Number Of Devices:\s+(\d+)\s*$/i', $line, $out)) { $row['ramslotcount'] += $out[1]; } if ($ramOk && preg_match('/^\s*Maximum Capacity:\s+(\d.+)/i', $line, $out)) { $row['maxram'] += self::convertSize($out[1], 'G', false); } } elseif ($section === 'Memory Device') { if (preg_match('/^\s*Size:\s*(.*?)\s*$/i', $line, $out)) { $row['extram'] = true; if (preg_match('/(\d+)\s*(\w)i?B/i', $out[1])) { if (self::convertSize($out[1], 'M', false) < 35) continue; // TODO: Parsing this line by line is painful. Check for other indicators, like Locator $ramslot['size'] = self::convertSize($out[1], 'G'); } elseif (!isset($row['ramslot']) || (count($row['ramslot']) < 8 && (!isset($row['ramslotcount']) || $row['ramslotcount'] <= 8))) { $ramslot['size'] = '_____'; } } if (preg_match('/^\s*Manufacturer:\s*(.*?)\s*$/i', $line, $out) && $out[1] !== 'Unknown') { $ramslot['manuf'] = self::decodeJedec($out[1]); } if (preg_match('/^\s*Form Factor:\s*(.*?)\s*$/i', $line, $out) && $out[1] !== 'Unknown') { $ramForm = $out[1]; } if (preg_match('/^\s*Type:\s*(.*?)\s*$/i', $line, $out) && $out[1] !== 'Unknown') { $ramType = $out[1]; } if (preg_match('/^\s*Speed:\s*(\d.*?)\s*$/i', $line, $out)) { $ramSpeed = $out[1]; } if (preg_match('/^\s*Configured (?:Clock|Memory) Speed:\s*(\d.*?)\s*$/i', $line, $out)) { $ramClockSpeed = $out[1]; } } elseif ($section === 'BIOS Information') { if (preg_match(',^\s*Release Date:\s*(\d{2}/\d{2}/\d{4})\s*$,i', $line, $out)) { $row['biosdate'] = date('d.m.Y', strtotime($out[1])); } elseif (preg_match('/^\s*BIOS Revision:\s*(.*?)\s*$/i', $line, $out)) { $row['biosrevision'] = $out[1]; } elseif (preg_match('/^\s*Version:\s*(.*?)\s*$/i', $line, $out)) { $row['biosversion'] = $out[1]; } } } if (empty($row['ramslotcount']) || (isset($row['ramslot']) && $row['ramslotcount'] < count($row['ramslot']))) { $row['ramslotcount'] = isset($row['ramslot']) ? count($row['ramslot']) : 0; } if ($row['maxram'] > 0) { $row['maxram'] .= ' GiB'; } } const LOOKUP = ['T' => 1099511627776, 'G' => 1073741824, 'M' => 1048576, 'K' => 1024, '' => 1]; /** * Convert/format size unit. Input string can be a size like * 8 GB or 1024 MB and will be converted according to passed parameters. * @param string $string Input string * @param string $scale 'a' for auto, T/G/M/K/'' for according units * @param bool $appendUnit append unit string, e.g. 'GiB' * @return false|string|int Formatted result */ public static function convertSize(string $string, string $scale = 'a', bool $appendUnit = true) { if (!preg_match('/(\d+)\s*([TGMK]?)/i', $string, $out)) { error_log("Not size: $string"); return false; } $val = (int)$out[1] * self::LOOKUP[strtoupper($out[2])]; if (!array_key_exists($scale, self::LOOKUP)) { foreach (self::LOOKUP as $k => $v) { if ($k === '' || $val / 8 >= $v || abs($val - $v) < 50) { $scale = $k; break; } } } $val = (int)round($val / self::LOOKUP[$scale]); if ($appendUnit) { $val .= ' ' . ($scale === '' ? 'Byte' : $scale . 'iB'); // NBSP!! } return $val; } public static function parseHdd(&$row, $data) { $hdds = array(); // Could have more than one disk - linear scan $lines = preg_split("/[\r\n]+/", $data); $i = 0; $mbrToMbFactor = $sectorToMbFactor = 0; foreach ($lines as $line) { if (preg_match('/^Disk (\S+):.* (\d+) bytes/i', $line, $out)) { // --- Beginning of MBR disk --- unset($hdd); if ($out[2] < 10000) // sometimes vmware reports lots of 512byte disks continue; if (substr($out[1], 0, 8) === '/dev/dm-') // Ignore device mapper continue; // disk total size and name $mbrToMbFactor = 0; // This is != 0 for mbr $sectorToMbFactor = 0; // This is != for gpt $hdd = array( 'devid' => 'devid-' . ++$i, 'dev' => $out[1], 'sectors' => 0, 'size' => round($out[2] / (1024 * 1024 * 1024)), 'used' => 0, 'partitions' => array(), 'json' => array(), ); $hdds[] = &$hdd; } elseif (preg_match('/^Disk (\S+):\s+(\d+)\s+sectors,/i', $line, $out)) { // --- Beginning of GPT disk --- unset($hdd); if ($out[2] < 1000) // sometimes vmware reports lots of 512byte disks continue; if (substr($out[1], 0, 8) === '/dev/dm-') // Ignore device mapper continue; // disk total size and name $mbrToMbFactor = 0; // This is != 0 for mbr $sectorToMbFactor = 0; // This is != for gpt $hdd = array( 'devid' => 'devid-' . ++$i, 'dev' => $out[1], 'sectors' => $out[2], 'size' => 0, 'used' => 0, 'partitions' => array(), 'json' => array(), ); $hdds[] = &$hdd; } elseif (preg_match('/^Units =.*= (\d+) bytes/i', $line, $out)) { // --- MBR: Line that tells us how to interpret units for the partition lines --- // Unit for start and end $mbrToMbFactor = $out[1] / (1024 * 1024); // Convert so that multiplying by unit yields MiB } elseif (preg_match('/^Logical sector size:\s*(\d+)/i', $line, $out)) { // --- GPT: Line that tells us the logical sector size used everywhere --- $sectorToMbFactor = $out[1] / (1024 * 1024); } elseif (isset($hdd) && preg_match('/^First usable sector.* is (\d+)$/i', $line, $out)) { // --- Some fdisk versions are messed up and report 2^32 as the sector count in the first line, // but the correct value in the "last usable sector is xxxx" line below --- if ($out[1] > $hdd['sectors']) { $hdd['sectors'] = $out[1]; } } elseif (isset($hdd) && $mbrToMbFactor !== 0 && preg_match(',^/dev/(\S+)\s+.*\s(\d+)[+\-]?\s+(\d+)[+\-]?\s+\d+[+\-]?\s+([0-9a-f]+)\s+(.*)$,i', $line, $out)) { // --- MBR: Partition entry --- // Some partition $type = strtolower($out[4]); if ($type === '5' || $type === 'f' || $type === '85') { continue; } elseif ($type === '44') { $out[5] = 'OpenSLX-ID44'; $color = '#5c1'; } elseif ($type === '45') { $out[5] = 'OpenSLX-ID45'; $color = '#0d7'; } elseif ($type === '82') { $color = '#48f'; } else { $color = '#e55'; } $partsize = round(($out[3] - $out[2]) * $mbrToMbFactor); $hdd['partitions'][] = array( 'id' => $out[1], 'name' => $out[1], 'size' => round($partsize / 1024, $partsize < 1024 ? 1 : 0), 'type' => $out[5], ); $hdd['json'][] = array( 'label' => $out[1], 'value' => $partsize, 'color' => $color, ); $hdd['used'] += $partsize; } elseif (isset($hdd) && $sectorToMbFactor !== 0 && preg_match(',^\s*(\d+)\s+(\d+)[+\-]?\s+(\d+)[+\-]?\s+\S+\s+([0-9a-f]+)\s+(.*)$,i', $line, $out)) { // --- GPT: Partition entry --- // Some partition $type = $out[5]; if ($type === 'OpenSLX-ID44') { $color = '#5c1'; } elseif ($type === 'OpenSLX-ID45') { $color = '#0d7'; } elseif ($type === 'Linux swap') { $color = '#48f'; } else { $color = '#e55'; } $id = $hdd['devid'] . '-' . $out[1]; $partsize = round(($out[3] - $out[2]) * $sectorToMbFactor); $hdd['partitions'][] = array( 'id' => $id, 'name' => $out[1], 'size' => round($partsize / 1024, $partsize < 1024 ? 1 : 0), 'type' => $type, ); $hdd['json'][] = array( 'label' => $id, 'value' => $partsize, 'color' => $color, ); $hdd['used'] += $partsize; } } unset($hdd); $i = 0; foreach ($hdds as &$hdd) { $hdd['used'] = round($hdd['used'] / 1024); if ($hdd['size'] === 0 && $hdd['sectors'] !== 0) { $hdd['size'] = round(($hdd['sectors'] * $sectorToMbFactor) / 1024); } $free = $hdd['size'] - $hdd['used']; if ($hdd['size'] > 0 && ($free > 5 || ($free / $hdd['size']) > 0.1)) { $hdd['partitions'][] = array( 'id' => 'free-id-' . $i, 'name' => Dictionary::translate('unused'), 'size' => $free, 'type' => '-', ); $hdd['json'][] = array( 'label' => 'free-id-' . $i, 'value' => $free * 1024, 'color' => '#aaa', ); ++$i; } $hdd['json'] = json_encode($hdd['json']); } unset($hdd); $row['hdds'] = &$hdds; } public static function parsePci(&$pci1, &$pci2, $data) { preg_match_all('/[a-f0-9:.]{7}\s+"(Class\s*)?(?[a-f0-9]{4})"\s+"(?[a-f0-9]{4})"\s+"(?[a-f0-9]{4})"/is', $data, $out, PREG_SET_ORDER); $NOW = time(); $pci = array(); foreach ($out as $entry) { if (!isset($pci[$entry['class']])) { $class = 'c.' . $entry['class']; $res = Page_Statistics::getPciId('CLASS', $class); if ($res === false || $res['dateline'] < $NOW) { $pci[$entry['class']]['lookupClass'] = 'do-lookup'; $pci[$entry['class']]['class'] = $class; } else { $pci[$entry['class']]['class'] = $res['value']; } } $new = array( 'ven' => $entry['ven'], 'dev' => $entry['ven'] . ':' . $entry['dev'], ); $res = Page_Statistics::getPciId('VENDOR', $new['ven']); if ($res === false || $res['dateline'] < $NOW) { $new['lookupVen'] = 'do-lookup'; } else { $new['ven'] = $res['value']; } $res = Page_Statistics::getPciId('DEVICE', $new['dev']); if ($res === false || $res['dateline'] < $NOW) { $new['lookupDev'] = 'do-lookup'; } else { $new['dev'] = $res['value'] . ' (' . $new['dev'] . ')'; } $pci[$entry['class']]['entries'][] = $new; } ksort($pci); foreach ($pci as $class => $entry) { if ($class === '0300' || $class === '0200' || $class === '0403') { $pci1[] = $entry; } else { $pci2[] = $entry; } } } public static function parseSmartctl(&$hdds, $data) { $lines = preg_split("/[\r\n]+/", $data); foreach ($lines as $line) { if (preg_match('/^NEXTHDD=(.+)$/', $line, $out)) { unset($dev); foreach ($hdds as &$hdd) { if ($hdd['dev'] === $out[1]) { $dev = &$hdd; } } continue; } if (!isset($dev)) { continue; } if (preg_match('/^([A-Z][^:]+):\s*(.*)$/', $line, $out)) { $key = preg_replace('/\s|-|_/', '', $out[1]); if ($key === 'ModelNumber') { $key = 'DeviceModel'; } $dev['s_' . $key] = $out[2]; } elseif (preg_match('/^\s*\d+\s+(\S+)\s+\S+\s+\d+\s+\d+\s+\S+\s+\S+\s+(\d+)(\s|$)/', $line, $out)) { $dev['s_' . preg_replace('/\s|-|_/', '', $out[1])] = $out[2]; } } // Format strings foreach ($hdds as &$hdd) { if (isset($hdd['s_PowerOnHours'])) { $hdd['PowerOnTime'] = ''; $val = (int)str_replace('.', '', $hdd['s_PowerOnHours']); if ($val > 8760) { $hdd['PowerOnTime'] .= floor($val / 8760) . 'Y, '; $val %= 8760; } if ($val > 720) { $hdd['PowerOnTime'] .= floor($val / 720) . 'M, '; $val %= 720; } if ($val > 24) { $hdd['PowerOnTime'] .= floor($val / 24) . 'd, '; $val %= 24; } $hdd['PowerOnTime'] .= $val . 'h'; } } } private static function decodeJedec(string $string): string { // JEDEC ID:7F 7F 9E 00 00 00 00 00 if (preg_match('/JEDEC(?:\s*ID)?\s*:\s*([0-9a-f\s]+)/i', $string, $out)) { preg_match_all('/[0-9a-f]{2}/i', $out[1], $out); $bank = 0; $id = 0; foreach ($out[0] as $id) { $bank++; $id = hexdec($id) & 0x7f; // Let's just ignore the parity bit, and any potential error if ($id !== 0x7f) break; } if ($id !== 0) { static $data = false; if ($data === false) $data = json_decode(file_get_contents(dirname(__FILE__) . '/jedec.json'), true); if (array_key_exists('bank' . $bank, $data) && array_key_exists('id' . $id, $data['bank' . $bank])) return $data['bank' . $bank]['id' . $id]; } } return $string; } /** * @param string $key * @param string $value * @return ?int value, or null if not numeric */ private static function toNumeric(string $key, string $val) { $key = strtolower($key); // Normalize voltage to mV if ((strpos($key, 'volt') !== false || strpos($key, 'current') !== false) && preg_match('/^([0-9]+(?:\.[0-9]+)?)\s+(m?)V/', $val, $out)) { return (int)($out[1] * ($out[2] === 'm' ? 1 : 1000)); } if (preg_match('/speed|width|size|capacity/', $key) && preg_match('#^([0-9]+(?:\.[0-9]+)?)\s*([TGMK]?)i?([BT](?:it|yte|))s?(?:/s)?#i', $val, $out)) { // Matched (T/G/M) Bits, Bytes, etc... // For bits, use SI if ($out[3] !== 'B' && strtolower($out[3]) !== 'byte') return (int)($out[1] * self::SI_LOOKUP[strtoupper($out[2])]); // For bytes, use 1024 return (int)($out[1] * self::SIZE_LOOKUP[strtoupper($out[2])]); } // Speed in Hz if (preg_match('#^([0-9]+(?:\.[0-9]+)?)\s*([TGMK]?)Hz#i', $val, $out)) { return (int)($out[1] * self::SI_LOOKUP[strtoupper($out[2])]); } // Count, size (unitless) if (is_numeric($val) && preg_match('/^[0-9]+$/', $val) && preg_match('/used|occupied|count|number|size/', $key)) { return (int)$val; } // Date if (preg_match('#^(?:[0-9]{2}/[0-9]{2}/[0-9]{4}|[0-9]{4}-[0-9]{2}-[0-9]{2})$#', $val)) { return (int)strtotime($val); } return null; } /** * Takes hwinfo json, then looks up and returns all sections from the * dmidecode subtree that represent the given dmi table entry type, * e.g. 17 for memory. It will then return an array of 'props' subtrees. * * @param array $data hwinfo tree * @param int $type dmi type * @return array [ , , ... ] */ private static function getDmiHandles(array $data, int $type): array { if (empty($data['dmidecode'])) return []; $ret = []; foreach ($data['dmidecode'] as $section) { if ($section['handle']['type'] == $type) { $ret[] = $section['props']; } } return $ret; } /** * Takes key-value-array, returns a concatenated string of all the values with the keys given in $fields. * The items are separated by spaces, and returned in the order they were given in $fields. Missing keys * are silently omitted. */ private static function idFromArray(array $array, string ...$fields): string { $out = ''; foreach ($fields as $field) { if (!isset($array[$field])) continue; if (empty($out)) { $out = $array[$field]; } else { $out .= ' ' . $array[$field]; } } return $out; } /** * Establish a mapping between a client and some hardware device. * Optionally writes hardware properties specific to a hardware instance of a client * * @param string $uuid client * @param int $hwid hw global hw id * @param string $pathId unique identifier for the local instance of this hw, e.q. PCI slot, /dev path, something that handles the case that there are multiple instances of the same hardware in one machine * @param array $props KV-pairs of properties to write for this instance; can be empty * @return int */ private static function writeLocalHardwareData(string $uuid, int $hwid, string $pathId, array $props): int { // Add mapping between hw entity and machine $mappingId = Database::insertIgnore('machine_x_hw', 'machinehwid', ['hwid' => $hwid, 'machineuuid' => $uuid, 'devpath' => $pathId], ['disconnecttime' => 0]); // And all the properties specific to this entity instance (e.g. serial number) if (!empty($props)) { $vals = []; foreach ($props as $k => $v) { $vals[] = [$mappingId, $k, $v, self::toNumeric($k, $v)]; } Database::exec("INSERT INTO machine_x_hw_prop (machinehwid, prop, `value`, `numeric`) VALUES :vals ON DUPLICATE KEY UPDATE `value` = VALUES(`value`), `numeric` = VALUES(`numeric`)", ['vals' => $vals]); } return $mappingId; } /** * Takes an array of type [ key1 => [ 'values' => [ , , ... ] ], key2 => ... ] * and turns it into [ key1 => , key2 => , ... ] * * Along the way: * 1) any fields with bogus values, or values analogous to empty will get removed * 2) Any values ending in Bytes, bits or speed will be normalized */ private static function prepareDmiProperties(array $data): array { $ret = []; foreach ($data as $key => $vals) { $val = trim($vals['values'][0]); if ($val === '[Empty]' || $val === 'NULL') continue; $val = preg_replace('/[^a-z0-9]/', '', strtolower($val)); if ($val === '' || $val === 'notspecified' || $val === 'tobefilledbyoem' || $val === 'unknown' || $val === 'chassismanufacture' || $val === 'chassismanufacturer' || $val === 'chassisversion' || $val === 'chassisserialnumber' || $val === 'defaultstring' || $val === 'productname' || $val === 'manufacturer' || $val === 'systemmodel' || $val === 'fillbyoem') { continue; } $val = trim($vals['values'][0] ?? ''); if ($key === 'Manufacturer') { $val = self::fixManufacturer($val); } $ret[$key] = $val; } return $ret; } /** * Mark all devices of a given type disconnected from the given machine, with an optional * exclude list of machine-client-mapping IDs * * @param string $uuid client * @param string $dbType type, eg HDD * @param array $excludedHwIds mappingIDs to exclude, ie. devices that are still connected */ private static function markDisconnected(string $uuid, string $dbType, array $excludedHwIds) { error_log("Marking disconnected for $dbType from " . implode(', ', $excludedHwIds)); if (empty($excludedHwIds)) { Database::exec("UPDATE machine_x_hw mxh, statistic_hw h SET mxh.disconnecttime = UNIX_TIMESTAMP() WHERE h.hwtype = :type AND h.hwid = mxh.hwid AND mxh.machineuuid = :uuid AND mxh.disconnecttime = 0", ['type' => $dbType, 'uuid' => $uuid]); } else { Database::exec("UPDATE machine_x_hw mxh, statistic_hw h SET mxh.disconnecttime = UNIX_TIMESTAMP() WHERE h.hwtype = :type AND h.hwid = mxh.hwid AND mxh.machineuuid = :uuid AND mxh.disconnecttime = 0 AND mxh.machinehwid NOT IN (:hwids)", ['type' => $dbType, 'uuid' => $uuid, 'hwids' => $excludedHwIds]); } } private static function writeGlobalHardwareData(string $dbType, array $global): int { static $cache = []; // Since the global properties are supposed to be unique for a specific piece of hardware, use them all // to generate a combined ID for this hardware entity, as opposed to $localProps, which should differ // between instances of the same hardware entity, e.g. one specific HDD model has different serial numbers. $id = md5(implode(' ', $global)); if (!isset($cache[$id])) { // Cache lookup, make sure we insert this only once for every run, as this is supposed to be general // information about the hardware, e.g. model number, max. resultion, capacity, ... $hwid = Database::insertIgnore('statistic_hw', 'hwid', ['hwtype' => $dbType, 'hwname' => $id]); $vals = []; foreach ($global as $k => $v) { $vals[] = [$hwid, $k, $v, self::toNumeric($k, $v)]; } if (!empty($vals)) { Database::exec("INSERT INTO statistic_hw_prop (hwid, prop, `value`, `numeric`) VALUES :vals ON DUPLICATE KEY UPDATE `value` = VALUES(`value`), `numeric` = VALUES(`numeric`)", ['vals' => $vals]); } $cache[$id] = $hwid; } return $cache[$id]; } public static function parseMachine(string $uuid, string $data) { $data = json_decode($data, true); $version = $data['version'] ?? 0; if ($version != 2) { error_log("Received unsupported hw json v$version"); return; } // determine misc stuff first $globalMainboardExtra = []; $localMainboardExtra = []; // physical memory array $memArrays = self::getDmiHandles($data, 16); $globalMainboardExtra['Memory Slot Count'] = 0; $globalMainboardExtra['Memory Maximum Capacity'] = 0; foreach ($memArrays as $mem) { $mem = self::prepareDmiProperties($mem); if (isset($mem['Number Of Devices']) && ($mem['Use'] ?? 0) === 'System Memory') { $globalMainboardExtra['Memory Slot Count'] += $mem['Number Of Devices']; } if (isset($mem['Maximum Capacity'])) { $globalMainboardExtra['Memory Maximum Capacity'] += HardwareParser::convertSize($mem['Maximum Capacity'], 'M', false); } } $globalMainboardExtra['Memory Maximum Capacity'] = HardwareParser::convertSize($globalMainboardExtra['Memory Maximum Capacity'] . ' MB'); // BIOS section - need to cross-match this with mainboard or system model, as it doesn't have a meaningful // identifier on its own $bios = self::prepareDmiProperties(self::getDmiHandles($data, 0)[0]); foreach (['Version', 'Release Date', 'Firmware Revision'] as $k) { if (isset($bios[$k])) { $localMainboardExtra['BIOS ' . $k] = $bios[$k]; } } if (isset($bios['BIOS Revision'])) { $localMainboardExtra['BIOS Revision'] = $bios['BIOS Revision']; } foreach (['Vendor', 'ROM Size'] as $k) { if (isset($bios[$k])) { $globalMainboardExtra['BIOS ' . $k] = $bios[$k]; } } // Using the general helper function $ramModCount = self::updateHwTypeFromDmi($uuid, $data, 17, HardwareInfo::RAM_MODULE, function (array $flat): bool { return HardwareParser::convertSize(($flat['Size'] ?? 0), '', false) > 65 * 1024 * 1024; }, ['Locator'], ['Data Width', 'Size', 'Form Factor', 'Type', 'Type Detail', 'Speed', 'Manufacturer', 'Part Number', 'Minimum Voltage', 'Maximum Voltage'], ['Locator', 'Bank Locator', 'Serial Number', 'Asset Tag', 'Configured Memory Speed', 'Configured Voltage'] ); // Fake RAM slots used/total into this $localMainboardExtra['Memory Slot Occupied'] = $ramModCount; self::updateHwTypeFromDmi($uuid, $data, 2, HardwareInfo::MAINBOARD, ['Manufacturer', 'Product Name'], [], ['Manufacturer', 'Product Name', 'Type', 'Version'], ['Serial Number', 'Asset Tag', 'Location In Chassis'], $globalMainboardExtra, $localMainboardExtra ); self::updateHwTypeFromDmi($uuid, $data, 1, HardwareInfo::DMI_SYSTEM, ['Manufacturer', 'Product Name'], [], ['Manufacturer', 'Product Name', 'Version', 'Wake-up Type'], ['Serial Number', 'UUID', 'SKU Number'] ); self::updateHwTypeFromDmi($uuid, $data, 39, HardwareInfo::POWER_SUPPLY, ['Manufacturer'], ['Location', 'Power Unit Group', 'Name'], // Location might be empty/"Unknown", but Name can be something like "PSU 2" ['Manufacturer', 'Product Name', 'Model Part Number', 'Revision', 'Max Power Capacity'], ['Serial Number', 'Asset Tag', 'Status', 'Plugged', 'Hot Replaceable'] ); self::updateHwTypeFromDmi($uuid, $data, 4, HardwareInfo::CPU, ['Version'], ['Socket Designation'], ['Type', 'Family', 'Manufacturer', 'Signature', 'Version', 'Core Count', 'Thread Count'], ['Voltage', 'Current Speed', 'Upgrade', 'Core Enabled']); self::updateHwTypeFromDmi($uuid, $data, 9, HardwareInfo::SYSTEM_SLOT, function (array &$entry): bool { if (!isset($entry['Type'])) return false; // Split up PCIe info if (preg_match('/^x(?\d+) PCI Express( (?\d+)( x(?\d+))?)?$/', $entry['Type'], $out)) { $entry['Type'] = 'PCI Express'; $entry['PCIe Bus Width'] = $out['b']; if (!empty($out['g'])) { $entry['PCIe Gen'] = $out['g']; } if (!empty($out['s'])) { $entry['PCIe Slot Width'] = $out['s']; } } return true; }, ['Designation', 'ID', 'Bus Address'], ['Type', 'PCIe Bus Width', 'PCIe Gen', 'PCIe Slot Width'], ['Current Usage', 'Designation'] ); // ---- lspci ------------------------------------ $pciHwIds = []; foreach (($data['lspci'] ?? []) as $dev) { $hwid = self::writeGlobalHardwareData(HardwareInfo::PCI_DEVICE, self::propsFromArray($dev, 'vendor', 'device', 'rev', 'class')); $mappingId = self::writeLocalHardwareData($uuid, $hwid, $dev['slot'] ?? 'unknown', self::propsFromArray($dev, 'slot', 'subsystem', 'subsystem_vendor')); $pciHwIds[] = $mappingId; } self::markDisconnected($uuid, HardwareInfo::PCI_DEVICE, $pciHwIds); // ---- Disks ------------------------------------0Y3R3K $hddHwIds = []; foreach (($data['drives'] ?? []) as $dev) { if (empty($dev['readlink'])) continue; if (!isset($dev['smartctl'])) { $smart = []; } else { $smart =& $dev['smartctl']; } if (!isset($dev['lsblk']['blockdevices'][0])) { $lsblk = []; } else { $lsblk =& $dev['lsblk']['blockdevices'][0]; } if (!isset($smart['rotation_rate']) && isset($lsblk['rota']) && !$lsblk['rota']) { $smart['rotation_rate'] = 0; } $hwid = self::writeGlobalHardwareData(HardwareInfo::HDD, [ // Try to use the model name as the unique identifier 'model' => $smart['model_name'] ?? $lsblk['model'] ?? 'unknown', // Append device size as some kind of fallback, in case model is unknown 'size' => $lsblk['size'] ?? $smart['user_capacity']['bytes'] ?? 'unknown', 'physical_block_size' => $smart['physical_block_size'] ?? $lsblk['phy-sec'] ?? 0, 'logical_block_size' => $smart['logical_block_size'] ?? $lsblk['log-sec'] ?? 0, ] + self::propsFromArray($smart, 'rotation_rate', 'sata_version//string', 'interface_speed//max//string')); // Mangle smart attribute table // TODO: Handle used endurance indicator for (SATA) SSDs $table = []; foreach (($smart['ata_smart_attributes']['table'] ?? []) as $attr) { if (!isset($attr['id'])) continue; $id = 'attr_' . $attr['id'] . '_'; foreach (['value', 'worst', 'thresh', 'when_failed'] as $item) { if (isset($attr[$item])) { $table[$id . $item] = $attr[$item]; } } if (isset($attr['raw']['value'])) { if ($attr['id'] === 194) { if (!isset($smart['temperature'])) { $smart['temperature'] = []; } if (!isset($smart['temperature']['current'])) { $smart['temperature']['current'] = $attr['raw']['value'] & 0xffff; } $smart['temperature']['min'] = ($attr['raw']['value'] >> 16) & 0xffff; $smart['temperature']['max'] = ($attr['raw']['value'] >> 32) & 0xffff; } $table[$id . 'raw'] = $attr['raw']['value']; } } if (isset($smart['nvme_smart_health_information_log']) && is_array($smart['nvme_smart_health_information_log'])) { $table += array_filter($smart['nvme_smart_health_information_log'], function ($v, $k) { return !is_array($v) && $k !== 'temperature' && $k !== 'temperature_sensors'; }, ARRAY_FILTER_USE_BOTH); } // Partitions - find special ones if (isset($dev['sfdisk']['partitiontable'])) { $table['partition_table'] = $dev['sfdisk']['partitiontable']['label'] ?? 'none'; switch ($dev['sfdisk']['partitiontable']['unit'] ?? 'sectors') { case 'sectors': $fac = 512; break; case 'bytes': $fac = 1; break; default: $fac = 0; } $i = 0; foreach (($dev['sfdisk']['partitiontable']['partitions'] ?? []) as $part) { $id = 'part_' . $i . '_'; foreach (['start', 'size', 'type', 'uuid', 'name'] as $item) { if (!isset($part[$item])) continue; if ($item === 'size' || $item === 'start') { // Turn size and start into byte offsets $table[$id . $item] = $part[$item] * $fac; } else { $table[$id . $item] = $part[$item]; } } $type = $table[$id . 'type'] ?? 0; $name = $table[$id . 'name'] ?? ''; if ($type == '44' || strtolower($type) === '87f86132-ff94-4987-b250-444444444444' || $name === 'OpenSLX-ID44') { $table[$id . 'slxtype'] = '44'; } elseif ($type == '45' || strtolower($type) === '87f86132-ff94-4987-b250-454545454545' || $name === 'OpenSLX-ID45') { $table[$id . 'slxtype'] = '45'; } // ++$i; } } $mappingId = self::writeLocalHardwareData($uuid, $hwid, $dev['readlink'], self::propsFromArray($smart + ($lsblk ?? []), 'serial_number', 'firmware_version', 'interface_speed//current//string', 'smart_status//passed', 'temperature//current', 'temperature//min', 'temperature//max') + $table); // Delete old partition and smart attribute entries Database::exec("DELETE FROM machine_x_hw_prop WHERE machinehwid = :id AND prop NOT IN (:keep) AND prop NOT LIKE '@%'", [ 'id' => $mappingId, 'keep' => array_keys($table), ]); $hddHwIds[] = $mappingId; unset($smart, $lsblk); } // End loop over disks self::markDisconnected($uuid, HardwareInfo::HDD, $hddHwIds); // // Mark parse date Database::exec("UPDATE machine SET dataparsetime = UNIX_TIMESTAMP() WHERE machineuuid = :uuid", ['uuid' => $uuid]); } /** * Unify different variants of manufacturer names */ private static function fixManufacturer(string $in): string { $in = HardwareParser::decodeJedec($in); switch (strtolower($in)) { case 'advanced micro devices, inc.': case 'advanced micro devices': case 'authenticamd': return 'AMD'; case 'apple inc.': return 'Apple'; case 'asustek computer inc.': return 'ASUS'; case 'dell inc.': return 'Dell'; case 'fujitsu': case 'fujitsu client computing limited': return 'Fujitsu'; case 'hewlett packard': case 'hewlett-packard': return 'HP'; case 'hynix semiconduc': case 'hynix/hyundai': case 'hyundai electronics hynix semiconductor inc': case 'hynix semiconductor inc sk hynix': return 'SK Hynix'; case 'genuineintel': case 'intel corporation': case 'intel(r) corp.': case 'intel(r) corporation': return 'Intel'; case 'samsung sdi': return 'Samsung'; } return $in; } /** * Takes key-value-array, returns a new array with only the keys listed in $fields. */ private static function propsFromArray(array $array, string ...$fields): array { $ret = []; foreach ($fields as $field) { if (strpos($field, '//') === false) { if (isset($array[$field]) && !is_array($array[$field])) { $ret[$field] = $array[$field]; } } else { $parts = explode('//', $field); $elem = $array; foreach ($parts as $part) { if (isset($elem[$part])) { $elem = $elem[$part]; } else { $elem = false; break; } } if ($elem !== false && !is_array($elem)) { $ret[preg_replace('~//(value|string)$~', '', $field)] = $elem; } } } return $ret; } private static function updateHwTypeFromDmi( string $uuid, array $data, int $type, string $dbType, $requiredPropsOrCallback, array $pathFields, array $globalProps, array $localProps, array $globalExtra = [], array $localExtra = [] ): int { $sections = self::getDmiHandles($data, $type); $thisMachineHwIds = []; foreach ($sections as $section) { $flat = self::prepareDmiProperties($section); if (is_array($requiredPropsOrCallback)) { foreach ($requiredPropsOrCallback as $prop) { if (!isset($flat[$prop])) continue 2; } } if (is_callable($requiredPropsOrCallback)) { if (!$requiredPropsOrCallback($flat)) continue; } // Global $props = self::propsFromArray($flat, ...$globalProps); $hwid = self::writeGlobalHardwareData($dbType, $props + $globalExtra); // Local $pathId = md5(self::idFromArray($flat, ...$pathFields)); $props = self::propsFromArray($flat, ...$localProps); $mappingId = self::writeLocalHardwareData($uuid, $hwid, $pathId, $props + $localExtra); $thisMachineHwIds[] = $mappingId; } // Any hw <-> client mappings not in that list get marked as disconnected self::markDisconnected($uuid, $dbType, $thisMachineHwIds); return count($thisMachineHwIds); } }