inNetworks(Config::get('autodiscovery.nets-exclude'))) { d_echo("$ip in an excluded network - skipping\n"); return false; } if (!$ip->inNetworks(Config::get('nets'))) { d_echo("$ip not in a matched network - skipping\n"); return false; } try { $remote_device_id = addHost($hostname, '', '161', 'udp', Config::get('distributed_poller_group')); $remote_device = device_by_id_cache($remote_device_id, 1); echo '+[' . $remote_device['hostname'] . '(' . $remote_device['device_id'] . ')]'; discover_device($remote_device); device_by_id_cache($remote_device_id, 1); if ($remote_device_id && is_array($device) && !empty($method)) { $extra_log = ''; $int = cleanPort($interface); if (is_array($int)) { $extra_log = ' (port ' . $int['label'] . ') '; } log_event('Device ' . $remote_device['hostname'] . " ($ip) $extra_log autodiscovered through $method on " . $device['hostname'], $remote_device_id, 'discovery', 1); } else { log_event("$method discovery of " . $remote_device['hostname'] . " ($ip) failed - Check ping and SNMP access", $device['device_id'], 'discovery', 5); } return $remote_device_id; } catch (HostExistsException $e) { // already have this device } catch (Exception $e) { log_event("$method discovery of " . $hostname . " ($ip) failed - " . $e->getMessage(), $device['device_id'], 'discovery', 5); } return false; } //end discover_new_device() /** * @param $device */ function load_discovery(&$device) { $yaml_discovery = Config::get('install_dir') . '/includes/definitions/discovery/' . $device['os'] . '.yaml'; if (file_exists($yaml_discovery)) { $device['dynamic_discovery'] = Symfony\Component\Yaml\Yaml::parse( file_get_contents($yaml_discovery) ); } else { unset($device['dynamic_discovery']); } } function discover_device(&$device, $options = null) { if ($device['snmp_disable'] == '1') { return; } global $valid; $valid = array(); // Reset $valid array $attribs = get_dev_attribs($device['device_id']); $device['attribs'] = $attribs; $device['snmp_max_repeaters'] = $attribs['snmp_max_repeaters']; $device_start = microtime(true); // Start counting device poll time echo $device['hostname'] . ' ' . $device['device_id'] . ' ' . $device['os'] . ' '; $response = device_is_up($device, true); if ($response['status'] !== '1') { return; } if ($device['os'] == 'generic') { // verify if OS has changed from generic $device['os'] = getHostOS($device); if ($device['os'] != 'generic') { echo "\nDevice os was updated to " . $device['os'] . '!'; dbUpdate(array('os' => $device['os']), 'devices', '`device_id` = ?', array($device['device_id'])); } } load_os($device); load_discovery($device); register_mibs($device, Config::getOsSetting($device['os'], 'register_mibs', array()), 'includes/discovery/os/' . $device['os'] . '.inc.php'); $os = OS::make($device); echo "\n"; $force_module = false; // If we've specified modules, use them, else walk the modules array if ($options['m']) { Config::set('discovery_modules', array()); foreach (explode(',', $options['m']) as $module) { if (is_file("includes/discovery/$module.inc.php")) { Config::set("discovery_modules.$module", 1); $force_module = true; } } } $discovery_devices = Config::get('discovery_modules', array()); $discovery_devices = array('core' => true) + $discovery_devices; foreach ($discovery_devices as $module => $module_status) { $os_module_status = Config::getOsSetting($device['os'], "discovery_modules.$module"); d_echo("Modules status: Global" . (isset($module_status) ? ($module_status ? '+ ' : '- ') : ' ')); d_echo("OS" . (isset($os_module_status) ? ($os_module_status ? '+ ' : '- ') : ' ')); d_echo("Device" . (isset($attribs['discover_' . $module]) ? ($attribs['discover_' . $module] ? '+ ' : '- ') : ' ')); if ($force_module === true || $attribs['discover_' . $module] || ($os_module_status && !isset($attribs['discover_' . $module])) || ($module_status && !isset($os_module_status) && !isset($attribs['discover_' . $module])) ) { $module_start = microtime(true); $start_memory = memory_get_usage(); echo "\n#### Load disco module $module ####\n"; include "includes/discovery/$module.inc.php"; $module_time = microtime(true) - $module_start; $module_time = substr($module_time, 0, 5); $module_mem = (memory_get_usage() - $start_memory); printf("\n>> Runtime for discovery module '%s': %.4f seconds with %s bytes\n", $module, $module_time, $module_mem); printChangedStats(); echo "#### Unload disco module $module ####\n\n"; } elseif (isset($attribs['discover_' . $module]) && $attribs['discover_' . $module] == '0') { echo "Module [ $module ] disabled on host.\n\n"; } elseif (isset($os_module_status) && $os_module_status == '0') { echo "Module [ $module ] disabled on os.\n\n"; } else { echo "Module [ $module ] disabled globally.\n\n"; } } if (is_mib_poller_enabled($device)) { $devicemib = array($device['sysObjectID'] => 'all'); register_mibs($device, $devicemib, "includes/discovery/functions.inc.php"); } $device_time = round(microtime(true) - $device_start, 3); dbUpdate(array('last_discovered' => array('NOW()'), 'last_discovered_timetaken' => $device_time), 'devices', '`device_id` = ?', array($device['device_id'])); echo "Discovered in $device_time seconds\n"; global $discovered_devices; echo "\n"; $discovered_devices++; } //end discover_device() // Discover sensors function discover_sensor(&$valid, $class, $device, $oid, $index, $type, $descr, $divisor = 1, $multiplier = 1, $low_limit = null, $low_warn_limit = null, $warn_limit = null, $high_limit = null, $current = null, $poller_type = 'snmp', $entPhysicalIndex = null, $entPhysicalIndex_measured = null, $user_func = null) { $low_limit = set_null($low_limit); $low_warn_limit = set_null($low_warn_limit); $warn_limit = set_null($warn_limit); $high_limit = set_null($high_limit); if (!is_numeric($divisor)) { $divisor = 1; } d_echo("Discover sensor: $oid, $index, $type, $descr, $poller_type, $divisor, $multiplier, $entPhysicalIndex, $current\n"); if (is_null($low_warn_limit) && !is_null($warn_limit)) { // Warn limits only make sense when we have both a high and a low limit $low_warn_limit = null; $warn_limit = null; } elseif (!is_null($warn_limit) && $low_warn_limit > $warn_limit) { // Fix high/low thresholds (i.e. on negative numbers) list($warn_limit, $low_warn_limit) = array($low_warn_limit, $warn_limit); } if (dbFetchCell('SELECT COUNT(sensor_id) FROM `sensors` WHERE `poller_type`= ? AND `sensor_class` = ? AND `device_id` = ? AND sensor_type = ? AND `sensor_index` = ?', array($poller_type, $class, $device['device_id'], $type, $index)) == '0') { if (is_null($high_limit)) { $high_limit = sensor_limit($class, $current); } if (is_null($low_limit)) { $low_limit = sensor_low_limit($class, $current); } if (!is_null($high_limit) && $low_limit > $high_limit) { // Fix high/low thresholds (i.e. on negative numbers) list($high_limit, $low_limit) = array($low_limit, $high_limit); } $insert = array( 'poller_type' => $poller_type, 'sensor_class' => $class, 'device_id' => $device['device_id'], 'sensor_oid' => $oid, 'sensor_index' => $index, 'sensor_type' => $type, 'sensor_descr' => $descr, 'sensor_divisor' => $divisor, 'sensor_multiplier' => $multiplier, 'sensor_limit' => $high_limit, 'sensor_limit_warn' => $warn_limit, 'sensor_limit_low' => $low_limit, 'sensor_limit_low_warn' => $low_warn_limit, 'sensor_current' => $current, 'entPhysicalIndex' => $entPhysicalIndex, 'entPhysicalIndex_measured' => $entPhysicalIndex_measured, 'user_func' => $user_func, ); foreach ($insert as $key => $val_check) { if (!isset($val_check)) { unset($insert[$key]); } } $inserted = dbInsert($insert, 'sensors'); d_echo("( $inserted inserted )\n"); echo '+'; log_event('Sensor Added: ' . mres($class) . ' ' . mres($type) . ' ' . mres($index) . ' ' . mres($descr), $device, 'sensor', 3, $inserted); } else { $sensor_entry = dbFetchRow('SELECT * FROM `sensors` WHERE `sensor_class` = ? AND `device_id` = ? AND `sensor_type` = ? AND `sensor_index` = ?', array($class, $device['device_id'], $type, $index)); if (!isset($high_limit)) { if (!$sensor_entry['sensor_limit']) { // Calculate a reasonable limit $high_limit = sensor_limit($class, $current); } else { // Use existing limit $high_limit = $sensor_entry['sensor_limit']; } } if (!isset($low_limit)) { if (!$sensor_entry['sensor_limit_low']) { // Calculate a reasonable limit $low_limit = sensor_low_limit($class, $current); } else { // Use existing limit $low_limit = $sensor_entry['sensor_limit_low']; } } // Fix high/low thresholds (i.e. on negative numbers) if ($low_limit > $high_limit) { list($high_limit, $low_limit) = array($low_limit, $high_limit); } if ($high_limit != $sensor_entry['sensor_limit'] && $sensor_entry['sensor_custom'] == 'No') { $update = array('sensor_limit' => ($high_limit == null ? array('NULL') : $high_limit)); $updated = dbUpdate($update, 'sensors', '`sensor_id` = ?', array($sensor_entry['sensor_id'])); d_echo("( $updated updated )\n"); echo 'H'; log_event('Sensor High Limit Updated: ' . mres($class) . ' ' . mres($type) . ' ' . mres($index) . ' ' . mres($descr) . ' (' . $high_limit . ')', $device, 'sensor', 3, $sensor_id); } if ($sensor_entry['sensor_limit_low'] != $low_limit && $sensor_entry['sensor_custom'] == 'No') { $update = array('sensor_limit_low' => ($low_limit == null ? array('NULL') : $low_limit)); $updated = dbUpdate($update, 'sensors', '`sensor_id` = ?', array($sensor_entry['sensor_id'])); d_echo("( $updated updated )\n"); echo 'L'; log_event('Sensor Low Limit Updated: ' . mres($class) . ' ' . mres($type) . ' ' . mres($index) . ' ' . mres($descr) . ' (' . $low_limit . ')', $device, 'sensor', 3, $sensor_id); } if ($warn_limit != $sensor_entry['sensor_limit_warn'] && $sensor_entry['sensor_custom'] == 'No') { $update = array('sensor_limit_warn' => ($warn_limit == null ? array('NULL') : $warn_limit)); $updated = dbUpdate($update, 'sensors', '`sensor_id` = ?', array($sensor_entry['sensor_id'])); d_echo("( $updated updated )\n"); echo 'WH'; log_event('Sensor Warn High Limit Updated: ' . mres($class) . ' ' . mres($type) . ' ' . mres($index) . ' ' . mres($descr) . ' (' . $warn_limit . ')', $device, 'sensor', 3, $sensor_id); } if ($sensor_entry['sensor_limit_low_warn'] != $low_warn_limit && $sensor_entry['sensor_custom'] == 'No') { $update = array('sensor_limit_low_warn' => ($low_warn_limit == null ? array('NULL') : $low_warn_limit)); $updated = dbUpdate($update, 'sensors', '`sensor_id` = ?', array($sensor_entry['sensor_id'])); d_echo("( $updated updated )\n"); echo 'WL'; log_event('Sensor Warn Low Limit Updated: ' . mres($class) . ' ' . mres($type) . ' ' . mres($index) . ' ' . mres($descr) . ' (' . $low_warn_limit . ')', $device, 'sensor', 3, $sensor_id); } if ($oid == $sensor_entry['sensor_oid'] && $descr == $sensor_entry['sensor_descr'] && $multiplier == $sensor_entry['sensor_multiplier'] && $divisor == $sensor_entry['sensor_divisor'] && $entPhysicalIndex_measured == $sensor_entry['entPhysicalIndex_measured'] && $entPhysicalIndex == $sensor_entry['entPhysicalIndex'] && $user_func == $sensor_entry['user_func'] ) { echo '.'; } else { $update = array( 'sensor_oid' => $oid, 'sensor_descr' => $descr, 'sensor_multiplier' => $multiplier, 'sensor_divisor' => $divisor, 'entPhysicalIndex' => $entPhysicalIndex, 'entPhysicalIndex_measured' => $entPhysicalIndex_measured, 'user_func' => $user_func, ); $updated = dbUpdate($update, 'sensors', '`sensor_id` = ?', array($sensor_entry['sensor_id'])); echo 'U'; log_event('Sensor Updated: ' . mres($class) . ' ' . mres($type) . ' ' . mres($index) . ' ' . mres($descr), $device, 'sensor', 3, $sensor_id); d_echo("( $updated updated )\n"); } }//end if $valid[$class][$type][$index] = 1; } //end discover_sensor() function sensor_low_limit($class, $current) { $limit = null; switch ($class) { case 'temperature': $limit = $current - 10; break; case 'voltage': if ($current < 0) { $limit = ($current * (1 + (sgn($current) * 0.15))); } else { $limit = ($current * (1 - (sgn($current) * 0.15))); } break; case 'humidity': $limit = '30'; break; case 'current': $limit = null; break; case 'fanspeed': $limit = ($current * 0.80); break; case 'power': $limit = null; break; case 'signal': $limit = -80; break; case 'airflow': case 'dbm': case 'snr': case 'frequency': case 'pressure': case 'cooling': $limit = ($current * 0.95); break; case 'delay': case 'quality_factor': case 'chromatic_dispersion': case 'ber': case 'eer': case 'waterflow': }//end switch return $limit; } //end sensor_low_limit() function sensor_limit($class, $current) { $limit = null; switch ($class) { case 'temperature': $limit = $current + 20; break; case 'voltage': if ($current < 0) { $limit = ($current * (1 - (sgn($current) * 0.15))); } else { $limit = ($current * (1 + (sgn($current) * 0.15))); } break; case 'humidity': $limit = '70'; break; case 'current': case 'power': $limit = ($current * 1.50); break; case 'fanspeed': $limit = ($current * 1.80); break; case 'signal': $limit = -30; break; case 'load': $limit = 80; break; case 'airflow': case 'dbm': case 'snr': case 'frequency': case 'pressure': case 'cooling': $limit = ($current * 1.05); break; }//end switch return $limit; } //end sensor_limit() function check_valid_sensors($device, $class, $valid, $poller_type = 'snmp') { $entries = dbFetchRows('SELECT * FROM sensors AS S, devices AS D WHERE S.sensor_class=? AND S.device_id = D.device_id AND D.device_id = ? AND S.poller_type = ?', array($class, $device['device_id'], $poller_type)); if (count($entries)) { foreach ($entries as $entry) { $index = $entry['sensor_index']; $type = $entry['sensor_type']; $class = $entry['sensor_class']; d_echo($index . ' -> ' . $type . "\n"); if (!$valid[$class][$type][$index]) { echo '-'; if ($class == 'state') { dbDelete('sensors_to_state_indexes', '`sensor_id` = ?', array($entry['sensor_id'])); } dbDelete('sensors', '`sensor_id` = ?', array($entry['sensor_id'])); log_event('Sensor Deleted: ' . $entry['sensor_class'] . ' ' . $entry['sensor_type'] . ' ' . $entry['sensor_index'] . ' ' . $entry['sensor_descr'], $device, 'sensor', 3, $sensor_id); } unset($oid); unset($type); } } } //end check_valid_sensors() function discover_juniAtmVp(&$valid, $device, $port_id, $vp_id, $vp_descr) { d_echo("Discover Juniper ATM VP: $port_id, $vp_id, $vp_descr\n"); if (dbFetchCell('SELECT COUNT(*) FROM `juniAtmVp` WHERE `port_id` = ? AND `vp_id` = ?', array($port_id, $vp_id)) == '0') { $inserted = dbInsert(array('port_id' => $port_id, 'vp_id' => $vp_id, 'vp_descr' => $vp_descr), 'juniAtmVp'); d_echo("( $inserted inserted )\n"); // FIXME vv no $device! log_event('Juniper ATM VP Added: port ' . mres($port_id) . ' vp ' . mres($vp_id) . ' descr' . mres($vp_descr), $device, 'juniAtmVp', 3, $inserted); } else { echo '.'; } $valid[$port_id][$vp_id] = 1; } //end discover_juniAtmVp() function discover_link($local_port_id, $protocol, $remote_port_id, $remote_hostname, $remote_port, $remote_platform, $remote_version, $local_device_id, $remote_device_id) { global $link_exists; d_echo("Discover link: $local_port_id, $protocol, $remote_port_id, $remote_hostname, $remote_port, $remote_platform, $remote_version, $remote_device_id\n"); if (dbFetchCell( 'SELECT COUNT(*) FROM `links` WHERE `remote_hostname` = ? AND `local_port_id` = ? AND `protocol` = ? AND `remote_port` = ?', array( $remote_hostname, $local_port_id, $protocol, $remote_port, ) ) == '0') { $insert_data = array( 'local_port_id' => $local_port_id, 'local_device_id' => $local_device_id, 'protocol' => $protocol, 'remote_hostname' => $remote_hostname, 'remote_device_id' => (int)$remote_device_id, 'remote_port' => $remote_port, 'remote_platform' => $remote_platform, 'remote_version' => $remote_version, ); if (!empty($remote_port_id)) { $insert_data['remote_port_id'] = (int)$remote_port_id; } $inserted = dbInsert($insert_data, 'links'); echo '+'; d_echo("( $inserted inserted )"); } else { $sql = 'SELECT `id`,`local_device_id`,`remote_platform`,`remote_version`,`remote_device_id`,`remote_port_id` FROM `links`'; $sql .= ' WHERE `remote_hostname` = ? AND `local_port_id` = ? AND `protocol` = ? AND `remote_port` = ?'; $data = dbFetchRow($sql, array($remote_hostname, $local_port_id, $protocol, $remote_port)); $update_data = array( 'local_device_id' => $local_device_id, 'remote_platform' => $remote_platform, 'remote_version' => $remote_version, 'remote_device_id' => (int)$remote_device_id, 'remote_port_id' => (int)$remote_port_id ); $id = $data['id']; unset($data['id']); if ($data == $update_data) { echo '.'; } else { $updated = dbUpdate($update_data, 'links', '`id` = ?', array($id)); echo 'U'; d_echo("( $updated updated )"); }//end if }//end if $link_exists[$local_port_id][$remote_hostname][$remote_port] = 1; } //end discover_link() function discover_storage(&$valid, $device, $index, $type, $mib, $descr, $size, $units, $used = null) { if (ignore_storage($device['os'], $descr)) { return; } d_echo("Discover Storage: $index, $type, $mib, $descr, $size, $units, $used\n"); if ($descr && $size > '0') { $storage = dbFetchRow('SELECT * FROM `storage` WHERE `storage_index` = ? AND `device_id` = ? AND `storage_mib` = ?', array($index, $device['device_id'], $mib)); if ($storage === false || !count($storage)) { $insert = dbInsert( array( 'device_id' => $device['device_id'], 'storage_descr' => $descr, 'storage_index' => $index, 'storage_mib' => $mib, 'storage_type' => $type, 'storage_units' => $units, 'storage_size' => $size, 'storage_used' => $used, ), 'storage' ); echo '+'; } else { $updated = dbUpdate(array('storage_descr' => $descr, 'storage_type' => $type, 'storage_units' => $units, 'storage_size' => $size), 'storage', '`device_id` = ? AND `storage_index` = ? AND `storage_mib` = ?', array($device['device_id'], $index, $mib)); if ($updated) { echo 'U'; } else { echo '.'; } }//end if $valid[$mib][$index] = 1; }//end if } //end discover_storage() function discover_processor(&$valid, $device, $oid, $index, $type, $descr, $precision = '1', $current = null, $entPhysicalIndex = null, $hrDeviceIndex = null) { d_echo("Discover Processor: $oid, $index, $type, $descr, $precision, $current, $entPhysicalIndex, $hrDeviceIndex\n"); if ($descr) { $descr = trim(str_replace('"', '', $descr)); if (dbFetchCell('SELECT COUNT(processor_id) FROM `processors` WHERE `processor_index` = ? AND `device_id` = ? AND `processor_type` = ?', array($index, $device['device_id'], $type)) == '0') { $insert_data = array( 'device_id' => $device['device_id'], 'processor_descr' => $descr, 'processor_index' => $index, 'processor_oid' => $oid, 'processor_usage' => $current, 'processor_type' => $type, 'processor_precision' => $precision, ); $insert_data['hrDeviceIndex'] = (int)$hrDeviceIndex; $insert_data['entPhysicalIndex'] = (int)$entPhysicalIndex; $inserted = dbInsert($insert_data, 'processors'); echo '+'; log_event('Processor added: type ' . mres($type) . ' index ' . mres($index) . ' descr ' . mres($descr), $device, 'processor', 3, $inserted); } else { echo '.'; $update_data = array( 'processor_descr' => $descr, 'processor_oid' => $oid, 'processor_usage' => $current, 'processor_precision' => $precision, ); dbUpdate($update_data, 'processors', '`device_id`=? AND `processor_index`=? AND `processor_type`=?', array($device['device_id'], $index, $type)); }//end if $valid[$type][$index] = 1; }//end if } //end discover_processor() function discover_mempool(&$valid, $device, $index, $type, $descr, $precision = '1', $entPhysicalIndex = null, $hrDeviceIndex = null) { d_echo("Discover Mempool: $index, $type, $descr, $precision, $entPhysicalIndex, $hrDeviceIndex\n"); // FIXME implement the mempool_perc, mempool_used, etc. if ($descr) { if (dbFetchCell('SELECT COUNT(mempool_id) FROM `mempools` WHERE `mempool_index` = ? AND `device_id` = ? AND `mempool_type` = ?', array($index, $device['device_id'], $type)) == '0') { $insert_data = array( 'device_id' => $device['device_id'], 'mempool_descr' => $descr, 'mempool_index' => $index, 'mempool_type' => $type, 'mempool_precision' => $precision, 'mempool_perc' => 0, 'mempool_used' => 0, 'mempool_free' => 0, 'mempool_total' => 0, ); if (is_numeric($entPhysicalIndex)) { $insert_data['entPhysicalIndex'] = $entPhysicalIndex; } if (is_numeric($hrDeviceIndex)) { $insert_data['hrDeviceIndex'] = $hrDeviceIndex; } $inserted = dbInsert($insert_data, 'mempools'); echo '+'; log_event('Memory pool added: type ' . mres($type) . ' index ' . mres($index) . ' descr ' . mres($descr), $device, 'mempool', 3, $inserted); } else { echo '.'; $update_data = array( 'mempool_descr' => $descr, ); if (!empty($entPhysicalIndex)) { $update_data['entPhysicalIndex'] = $entPhysicalIndex; } if (!empty($hrDeviceIndex)) { $update_data['hrDeviceIndex'] = $hrDeviceIndex; } dbUpdate($update_data, 'mempools', 'device_id=? AND mempool_index=? AND mempool_type=?', array($device['device_id'], $index, $type)); }//end if $valid[$type][$index] = 1; }//end if } //end discover_mempool() function discover_toner(&$valid, $device, $oid, $index, $type, $descr, $capacity_oid = null, $capacity = null, $current = null) { d_echo("Discover Toner: $oid, $index, $type, $descr, $capacity_oid, $capacity, $current\n"); if (dbFetchCell('SELECT COUNT(toner_id) FROM `toner` WHERE device_id = ? AND toner_type = ? AND `toner_index` = ? AND `toner_oid` =?', array($device['device_id'], $type, $index, $oid)) == '0') { $inserted = dbInsert(array('device_id' => $device['device_id'], 'toner_oid' => $oid, 'toner_capacity_oid' => $capacity_oid, 'toner_index' => $index, 'toner_type' => $type, 'toner_descr' => $descr, 'toner_capacity' => $capacity, 'toner_current' => $current), 'toner'); echo '+'; log_event('Toner added: type ' . mres($type) . ' index ' . mres($index) . ' descr ' . mres($descr), $device, 'toner', 3, $inserted); } else { $toner_entry = dbFetchRow('SELECT * FROM `toner` WHERE `device_id` = ? AND `toner_type` = ? AND `toner_index` =?', array($device['device_id'], $type, $index)); if ($oid == $toner_entry['toner_oid'] && $descr == $toner_entry['toner_descr'] && $capacity == $toner_entry['toner_capacity'] && $capacity_oid == $toner_entry['toner_capacity_oid']) { echo '.'; } else { dbUpdate(array('toner_descr' => $descr, 'toner_oid' => $oid, 'toner_capacity_oid' => $capacity_oid, 'toner_capacity' => $capacity), 'toner', 'device_id=? AND toner_type=? AND `toner_index`=?', array($device['device_id'], $type, $index)); echo 'U'; } } $valid[$type][$oid] = 1; } //end discover_toner() function discover_process_ipv6(&$valid, $ifIndex, $ipv6_address, $ipv6_prefixlen, $ipv6_origin, $context_name = '') { global $device; if (!IPv6::isValid($ipv6_address, true)) { // ignore link-locals (coming from IPV6-MIB) return; } $ipv6 = new IPv6($ipv6_address); $ipv6_network = $ipv6->getNetwork($ipv6_prefixlen); $ipv6_compressed = $ipv6->compressed(); if (dbFetchCell('SELECT COUNT(*) FROM `ports` WHERE device_id = ? AND `ifIndex` = ?', array($device['device_id'], $ifIndex)) != '0' && $ipv6_prefixlen > '0' && $ipv6_prefixlen < '129' && $ipv6_compressed != '::1') { $port_id = dbFetchCell('SELECT port_id FROM `ports` WHERE device_id = ? AND ifIndex = ?', array($device['device_id'], $ifIndex)); if (is_numeric($port_id)) { if (dbFetchCell('SELECT COUNT(*) FROM `ipv6_networks` WHERE `ipv6_network` = ?', array($ipv6_network)) < '1') { dbInsert(array('ipv6_network' => $ipv6_network, 'context_name' => $context_name), 'ipv6_networks'); echo 'N'; } else { //Update Context dbUpdate(array('context_name' => $device['context_name']), 'ipv6_networks', '`ipv6_network` = ?', array($ipv6_network)); echo 'n'; } $ipv6_network_id = dbFetchCell('SELECT `ipv6_network_id` FROM `ipv6_networks` WHERE `ipv6_network` = ? AND `context_name` = ?', array($ipv6_network, $context_name)); if (dbFetchCell('SELECT COUNT(*) FROM `ipv6_addresses` WHERE `ipv6_address` = ? AND `ipv6_prefixlen` = ? AND `port_id` = ?', array($ipv6_address, $ipv6_prefixlen, $port_id)) == '0') { dbInsert(array( 'ipv6_address' => $ipv6_address, 'ipv6_compressed' => $ipv6_compressed, 'ipv6_prefixlen' => $ipv6_prefixlen, 'ipv6_origin' => $ipv6_origin, 'ipv6_network_id' => $ipv6_network_id, 'port_id' => $port_id, 'context_name' => $context_name ), 'ipv6_addresses'); echo '+'; } else { //Update Context dbUpdate(array('context_name' => $device['context_name']), 'ipv6_addresses', '`ipv6_address` = ? AND `ipv6_prefixlen` = ? AND `port_id` = ?', array($ipv6_address, $ipv6_prefixlen, $port_id)); echo '.'; } $full_address = "$ipv6_address/$ipv6_prefixlen"; $valid_address = $full_address . '-' . $port_id; $valid['ipv6'][$valid_address] = 1; } }//end if }//end discover_process_ipv6() /* * Check entity sensors to be excluded * * @param string value to check * @param array device * * @return bool true if sensor is valid * false if sensor is invalid */ function check_entity_sensor($string, $device) { $fringe = array_merge(Config::get('bad_entity_sensor_regex', array()), Config::getOsSetting($device['os'], 'bad_entity_sensor_regex', array())); foreach ($fringe as $bad) { if (preg_match($bad . "i", $string)) { d_echo("Ignored entity sensor: $bad : $string"); return false; } } return true; } /** * Get the device divisor, account for device specific quirks * The default divisor is 10 * * @param array $device device array * @param string $os_version firmware version poweralert quirks * @param string $sensor_type the type of this sensor * @param string $oid the OID of this sensor * @return int */ function get_device_divisor($device, $os_version, $sensor_type, $oid) { if ($device['os'] == 'poweralert') { if ($sensor_type == 'current' || $sensor_type == 'frequency') { if (version_compare($os_version, '12.06.0068', '>=')) { return 10; } elseif (version_compare($os_version, '12.04.0055', '=')) { return 10; } elseif (version_compare($os_version, '12.04.0056', '>=')) { return 1; } } elseif ($sensor_type == 'load') { if (version_compare($os_version, '12.06.0064', '=')) { return 10; } else { return 1; } } } elseif ($device['os'] == 'huaweiups') { if ($sensor_type == 'frequency') { return 100; } } elseif ($device['os'] == 'hpe-rtups') { if ($sensor_type == 'voltage' && !starts_with($oid, '.1.3.6.1.2.1.33.1.2.5.') && !starts_with($oid, '.1.3.6.1.2.1.33.1.3.3.1.3')) { return 1; } } // UPS-MIB Defaults if ($sensor_type == 'load') { return 1; } if ($sensor_type == 'voltage' && !starts_with($oid, '.1.3.6.1.2.1.33.1.2.5.')) { return 1; } if ($sensor_type == 'runtime') { if (starts_with($oid, '.1.3.6.1.2.1.33.1.2.2.')) { return 60; } if (starts_with($oid, '.1.3.6.1.2.1.33.1.2.3.')) { if ($device['os'] == 'routeros') { return 60; } else { return 1; } } } return 10; } /** * @param int $raw_capacity The value return from snmp * @return int normalized capacity value */ function get_toner_capacity($raw_capacity) { // unknown or unrestricted capacity, assume 100 if (empty($raw_capacity) || $raw_capacity < 0) { return 100; } return $raw_capacity; } /** * Should we ignore this storage device based on teh description? (usually the mount path or drive) * * @param string $os The OS of the device * @param string $descr The description of the storage * @return boolean */ function ignore_storage($os, $descr) { foreach (Config::getOsSetting($os, 'ignore_mount') as $im) { if ($im == $descr) { d_echo("ignored $descr (matched: $im)\n"); return true; } } foreach (Config::getOsSetting($os, 'ignore_mount_string') as $ims) { if (str_contains($descr, $ims)) { d_echo("ignored $descr (matched: $ims)\n"); return true; } } foreach (Config::getOsSetting($os, 'ignore_mount_regexp') as $imr) { if (preg_match($imr, $descr)) { d_echo("ignored $descr (matched: $imr)\n"); return true; } } return false; } /** * @param $value * @param $data * @param $group * @param null $index * @param array $pre_cache * @return bool */ function can_skip_sensor($value, $data, $group, $pre_cache = array()) { $skip_values = array_replace((array)$group['skip_values'], (array)$data['skip_values']); foreach ($skip_values as $skip_value) { if (is_array($skip_value) && $pre_cache) { // Dynamic skipping of data $op = isset($skip_value['op']) ? $skip_value['op'] : '!='; $tmp_value = $pre_cache[$skip_value['oid']]; if (compare_var($tmp_value, $skip_value['value'], $op) == true) { return true; } } if ($value == $skip_value) { return true; } } $skip_value_lt = array_replace((array)$group['skip_value_lt'], (array)$data['skip_value_lt']); foreach ($skip_value_lt as $skip_value) { if ($value < $skip_value) { return true; } } $skip_value_gt = array_reduce((array)$group['skip_value_gt'], (array)$data['skip_value_gt']); foreach ($skip_value_gt as $skip_value) { if ($value > $skip_value) { return true; } } return false; } /** * @param $valid * @param $device * @param $sensor_type * @param $pre_cache */ function discovery_process(&$valid, $device, $sensor_type, $pre_cache) { if ($device['dynamic_discovery']['modules']['sensors'][$sensor_type]) { $sensor_options = array(); if (isset($device['dynamic_discovery']['modules']['sensors'][$sensor_type]['options'])) { $sensor_options = $device['dynamic_discovery']['modules']['sensors'][$sensor_type]['options']; } d_echo("Dynamic Discovery ($sensor_type): "); d_echo($device['dynamic_discovery']['modules']['sensors'][$sensor_type]); foreach ($device['dynamic_discovery']['modules']['sensors'][$sensor_type]['data'] as $data) { $tmp_name = $data['oid']; $raw_data = (array)$pre_cache[$tmp_name]; d_echo("Data $tmp_name: "); d_echo($raw_data); foreach ($raw_data as $index => $snmp_data) { $user_function = null; if (isset($data['user_func'])) { $user_function = $data['user_func']; } // get the value for this sensor, check 'value' and 'oid', if state string, translate to a number $data_name = isset($data['value']) ? $data['value'] : $data['oid']; // fallback to oid if value is not set $snmp_value = $snmp_data[$data_name]; if (!is_numeric($snmp_value)) { if ($sensor_type === 'temperature') { // For temp sensors, try and detect fahrenheit values if (ends_with($snmp_value, array('f', 'F'))) { $user_function = 'fahrenheit_to_celsius'; } } preg_match('/-?\d*\.?\d+/', $snmp_value, $temp_response); if (!empty($temp_response[0])) { $snmp_value = $temp_response[0]; } } if (is_numeric($snmp_value)) { $value = $snmp_value; } elseif ($sensor_type === 'state') { // translate string states to values (poller does this as well) $states = array_column($data['states'], 'value', 'descr'); $value = isset($states[$snmp_value]) ? $states[$snmp_value] : false; } else { $value = false; } d_echo("Final sensor value: $value\n"); if (can_skip_sensor($value, $data, $sensor_options, $raw_data[$index]) === false && is_numeric($value)) { $oid = $data['num_oid'] . $index; // process the description $descr = dynamic_discovery_get_value('descr', $index, $data, $pre_cache); if (is_null($descr)) { $descr = str_replace('{{ $index }}', $index, $data['descr']); preg_match_all('/{{ \$([a-zA-Z0-9.]+) }}/', $descr, $matches); foreach ($matches[1] as $tmp_var) { $replace = dynamic_discovery_get_value($tmp_var, $index, $data, $pre_cache, null); if (!is_null($replace)) { $descr = str_replace("{{ \$$tmp_var }}", $replace, $descr); } } } $divisor = $data['divisor'] ?: ($sensor_options['divisor'] ?: 1); $multiplier = $data['multiplier'] ?: ($sensor_options['multiplier'] ?: 1); $low_limit = is_numeric($data['low_limit']) ? $data['low_limit'] : dynamic_discovery_get_value('low_limit', $index, $data, $pre_cache, 'null'); $low_warn_limit = is_numeric($data['low_warn_limit']) ? $data['low_warn_limit'] : dynamic_discovery_get_value('low_warn_limit', $index, $data, $pre_cache, 'null'); $warn_limit = is_numeric($data['warn_limit']) ? $data['warn_limit'] : dynamic_discovery_get_value('warn_limit', $index, $data, $pre_cache, 'null'); $high_limit = is_numeric($data['high_limit']) ? $data['high_limit'] : dynamic_discovery_get_value('high_limit', $index, $data, $pre_cache, 'null'); $entPhysicalIndex = str_replace('{{ $index }}', $index, $data['entPhysicalIndex']) ?: null; $entPhysicalIndex_measured = isset($data['entPhysicalIndex_measured']) ? $data['entPhysicalIndex_measured'] : null; $sensor_name = $device['os']; if (isset($user_function) && function_exists($user_function)) { $value = $user_function($value); } if ($sensor_type === 'state') { $sensor_name = $data['state_name'] ?: $data['oid']; create_state_index($sensor_name, $data['states']); } else { if (is_numeric($divisor)) { $value = $value / $divisor; } if (is_numeric($multiplier)) { $value = $value * $multiplier; } } $uindex = str_replace('{{ $index }}', $index, $data['index'] ?: $index); discover_sensor($valid['sensor'], $sensor_type, $device, $oid, $uindex, $sensor_name, $descr, $divisor, $multiplier, $low_limit, $low_warn_limit, $warn_limit, $high_limit, $value, 'snmp', $entPhysicalIndex, $entPhysicalIndex_measured, $user_function); if ($sensor_type === 'state') { create_sensor_to_state_index($device, $sensor_name, $uindex); } } } } } } /** * Helper function for dynamic discovery to search for data from pre_cached snmp data * * @param string $name The name of the field from the discovery data or just an oid * @param int $index The index of the current sensor * @param array $discovery_data The discovery data for the current sensor * @param array $pre_cache all pre-cached snmp data * @param mixed $default The default value to return if data is not found * @return mixed */ function dynamic_discovery_get_value($name, $index, $discovery_data, $pre_cache, $default = null) { if (isset($discovery_data[$name])) { $name = $discovery_data[$name]; } if (isset($pre_cache[$discovery_data['oid']][$index][$name])) { return $pre_cache[$discovery_data['oid']][$index][$name]; } if (isset($pre_cache[$name])) { if (is_array($pre_cache[$name])) { if (isset($pre_cache[$name][$index][$name])) { return $pre_cache[$name][$index][$name]; } elseif (isset($pre_cache[$index][$name])) { return $pre_cache[$index][$name]; } elseif (count($pre_cache[$name]) === 1) { return current($pre_cache[$name]); } } else { return $pre_cache[$name]; } } return $default; } /** * @param $types * @param $device * @param array $pre_cache */ function sensors($types, $device, $valid, $pre_cache = array()) { foreach ((array)$types as $sensor_type) { echo ucfirst($sensor_type) . ': '; $dir = Config::get('install_dir') . '/includes/discovery/sensors/' . $sensor_type .'/'; if (is_file($dir . $device['os_group'] . '.inc.php')) { include $dir . $device['os_group'] . '.inc.php'; } if (is_file($dir . $device['os'] . '.inc.php')) { include $dir . $device['os'] . '.inc.php'; } if (Config::getOsSetting($device['os'], 'rfc1628_compat', false)) { if (is_file($dir . '/rfc1628.inc.php')) { include $dir . '/rfc1628.inc.php'; } } discovery_process($valid, $device, $sensor_type, $pre_cache); d_echo($valid['sensor'][$sensor_type]); check_valid_sensors($device, $sensor_type, $valid['sensor']); echo "\n"; } } function build_bgp_peers($device, $data, $peer2) { d_echo("Peers : $data\n"); $remove = array( 'ARISTA-BGP4V2-MIB::aristaBgp4V2PeerRemoteAs.1.', 'CISCO-BGP4-MIB::cbgpPeer2RemoteAs.', 'BGP4-MIB::bgpPeerRemoteAs.', '.1.3.6.1.4.1.2636.5.1.1.2.1.1.1.13.', ); $peers = trim(str_replace($remove, '', $data)); $peerlist = array(); $ver = ''; foreach (explode("\n", $peers) as $peer) { if ($peer2 === true) { list($ver, $peer) = explode('.', $peer, 2); } list($peer_ip, $peer_as) = explode(' ', $peer); if ($device['os'] === 'junos') { $ver = ''; $octets = count(explode(".", $peer_ip)); if ($octets > 11) { // ipv6 $peer_ip = (string)IP::parse(snmp2ipv6($peer_ip), true); } else { // ipv4 $peer_ip = implode('.', array_slice(explode('.', $peer_ip), -4)); } } else { if (strstr($peer_ip, ':')) { $peer_ip_snmp = preg_replace('/:/', ' ', $peer_ip); $peer_ip = preg_replace('/(\S+\s+\S+)\s/', '$1:', $peer_ip_snmp); $peer_ip = str_replace('"', '', str_replace(' ', '', $peer_ip)); } } if ($peer && $peer_ip != '0.0.0.0') { d_echo("Found peer $peer_ip (AS$peer_as)\n"); $peerlist[] = array( 'ip' => $peer_ip, 'as' => $peer_as, 'ver' => $ver, ); } } return $peerlist; } function build_cbgp_peers($device, $peer, $af_data, $peer2) { d_echo('afi data :: '); d_echo($af_data); $af_list = array(); foreach ($af_data as $k => $v) { if ($peer2 === true) { list(,$k) = explode('.', $k, 2); } d_echo("AFISAFI = $k\n"); $afisafi_tmp = explode('.', $k); $safi = array_pop($afisafi_tmp); $afi = array_pop($afisafi_tmp); $bgp_ip = str_replace(".$afi.$safi", '', $k); if ($device['os_group'] === 'arista') { $bgp_ip = str_replace("$afi.", '', $bgp_ip); } $bgp_ip = preg_replace('/:/', ' ', $bgp_ip); $bgp_ip = preg_replace('/(\S+\s+\S+)\s/', '$1:', $bgp_ip); $bgp_ip = str_replace('"', '', str_replace(' ', '', $bgp_ip)); if ($afi && $safi && $bgp_ip == $peer['ip']) { $af_list[$bgp_ip][$afi][$safi] = 1; add_cbgp_peer($device, $peer, $afi, $safi); } } return $af_list; } function add_bgp_peer($device, $peer) { if (dbFetchCell('SELECT COUNT(*) from `bgpPeers` WHERE device_id = ? AND bgpPeerIdentifier = ?', array($device['device_id'], $peer['ip'])) < '1') { $bgpPeers = array( 'device_id' => $device['device_id'], 'bgpPeerIdentifier' => $peer['ip'], 'bgpPeerRemoteAs' => $peer['as'], 'context_name' => $device['context_name'], 'astext' => $peer['astext'], 'bgpPeerState' => 'idle', 'bgpPeerAdminStatus' => 'stop', 'bgpLocalAddr' => '0.0.0.0', 'bgpPeerRemoteAddr' => '0.0.0.0', 'bgpPeerInUpdates' => 0, 'bgpPeerOutUpdates' => 0, 'bgpPeerInTotalMessages' => 0, 'bgpPeerOutTotalMessages' => 0, 'bgpPeerFsmEstablishedTime' => 0, 'bgpPeerInUpdateElapsedTime' => 0, ); dbInsert($bgpPeers, 'bgpPeers'); if (Config::get('autodiscovery.bgp')) { $name = gethostbyaddr($peer['ip']); discover_new_device($name, $device, 'BGP'); } echo '+'; } else { dbUpdate(array('bgpPeerRemoteAs' => $peer['as'], 'astext' => mres($peer['astext'])), 'bgpPeers', 'device_id=? AND bgpPeerIdentifier=?', array($device['device_id'], $peer['ip'])); echo '.'; } } function add_cbgp_peer($device, $peer, $afi, $safi) { if (dbFetchCell('SELECT COUNT(*) from `bgpPeers_cbgp` WHERE device_id = ? AND bgpPeerIdentifier = ? AND afi=? AND safi=?', array($device['device_id'], $peer['ip'], $afi, $safi)) == 0) { $cbgp = array( 'device_id' => $device['device_id'], 'bgpPeerIdentifier' => $peer['ip'], 'afi' => $afi, 'safi' => $safi, 'context_name' => $device['context_name'], 'AcceptedPrefixes' => 0, 'DeniedPrefixes' => 0, 'PrefixAdminLimit' => 0, 'PrefixThreshold' => 0, 'PrefixClearThreshold' => 0, 'AdvertisedPrefixes' => 0, 'SuppressedPrefixes' => 0, 'WithdrawnPrefixes' => 0, 'AcceptedPrefixes_delta' => 0, 'AcceptedPrefixes_prev' => 0, 'DeniedPrefixes_delta' => 0, 'DeniedPrefixes_prev' => 0, 'AdvertisedPrefixes_delta' => 0, 'AdvertisedPrefixes_prev' => 0, 'SuppressedPrefixes_delta' => 0, 'SuppressedPrefixes_prev' => 0, 'WithdrawnPrefixes_delta' => 0, 'WithdrawnPrefixes_prev' => 0, ); dbInsert($cbgp, 'bgpPeers_cbgp'); } } /** * check if we should skip this device from discovery * @param string $sysName * @param string $sysDescr * @param string $platform * @return bool */ function can_skip_discovery($sysName, $sysDescr = '', $platform = '') { if ($sysName) { foreach ((array)Config::get('autodiscovery.xdp_exclude.sysname_regexp') as $needle) { if (preg_match($needle .'i', $sysName)) { d_echo("$sysName - regexp '$needle' matches '$sysName' - skipping device discovery \n"); return true; } } } if ($sysDescr) { foreach ((array)Config::get('autodiscovery.xdp_exclude.sysdesc_regexp') as $needle) { if (preg_match($needle .'i', $sysDescr)) { d_echo("$sysName - regexp '$needle' matches '$sysDescr' - skipping device discovery \n"); return true; } } } if ($platform) { foreach ((array)Config::get('autodiscovery.cdp_exclude.platform_regexp') as $needle) { if (preg_match($needle .'i', $platform)) { d_echo("$sysName - regexp '$needle' matches '$platform' - skipping device discovery \n"); return true; } } } return false; } /** * Try to find a device by sysName, hostname, ip, or mac_address * If a device cannot be found, returns 0 * * @param string $name sysName or hostname * @param string $ip May be an IP or hex string * @param string $mac_address * @return int the device_id or 0 */ function find_device_id($name = '', $ip = '', $mac_address = '') { $where = array(); $params = array(); if ($name && is_valid_hostname($name)) { $where[] = '`sysName`=?'; $params[] = $name; $where[] = '`hostname`=?'; $params[] = $name; if ($mydomain = Config::get('mydomain')) { $where[] = '`hostname`=?'; $params[] = "$name.$mydomain"; } } if ($ip) { $where[] = '`hostname`=?'; $params[] = $ip; try { $params[] = IP::fromHexString($ip)->packed(); $where[] = '`ip`=?'; } catch (InvalidIpException $e) { // } } if (!empty($where)) { $sql = 'SELECT `device_id` FROM `devices` WHERE ' . implode(' OR ', $where); if ($device_id = dbFetchCell($sql, $params)) { return (int)$device_id; } } if ($mac_address && $mac_address != '000000000000') { if ($device_id = dbFetchCell('SELECT `device_id` FROM `ports` WHERE `ifPhysAddress`=?', array($mac_address))) { return (int)$device_id; } } return 0; } /** * Try to find a port by ifDescr, ifName, or MAC * * @param string $description matched against ifDescr and ifName * @param string $identifier matched against ifDescr and ifName * @param int $device_id restrict search to ports on a specific device * @param string $mac_address check against ifPysAddress (should be in lowercase hexadecimal) * @return int */ function find_port_id($description, $identifier = '', $device_id = 0, $mac_address = null) { if (!($device_id || $mac_address)) { return 0; } $statements = array(); $params = array(); if ($device_id) { if ($description) { $statements[] = "SELECT `port_id` FROM `ports` WHERE `device_id`=? AND (`ifDescr`=? OR `ifName`=?)"; $params[] = $device_id; $params[] = $description; $params[] = $description; } if ($identifier) { if (is_numeric($identifier)) { $statements[] = 'SELECT `port_id` FROM `ports` WHERE `device_id`=? AND (`ifIndex`=? OR `ifAlias`=?)'; } else { $statements[] = 'SELECT `port_id` FROM `ports` WHERE `device_id`=? AND (`ifDescr`=? OR `ifName`=?)'; } $params[] = $device_id; $params[] = $identifier; $params[] = $identifier; } } if ($mac_address) { $mac_statement = 'SELECT `port_id` FROM `ports` WHERE '; if ($device_id) { $mac_statement .= '`device_id`=? AND '; $params[] = $device_id; } $mac_statement .= '`ifPhysAddress`=?'; $statements[] = $mac_statement; $params[] = $mac_address; } if (empty($statements)) { return 0; } $queries = implode(' UNION ', $statements); $sql = "SELECT * FROM ($queries LIMIT 1) p"; return (int)dbFetchCell($sql, $params); }