diff options
| author | M.Gergő | 2019-01-30 21:41:25 +0100 |
|---|---|---|
| committer | M.Gergő | 2019-01-30 21:41:25 +0100 |
| commit | 3eadef4bb31e4ff39ce0b54dd7f3197aee6f8f24 (patch) | |
| tree | 4940868feff3e734082ae74886e0db84c0f9be8e | |
| parent | 06b56d32bbb222689d723a47843e0a24be53009c (diff) | |
| download | munin-unifi-3eadef4bb31e4ff39ce0b54dd7f3197aee6f8f24.tar.gz munin-unifi-3eadef4bb31e4ff39ce0b54dd7f3197aee6f8f24.zip | |
PHP multiprocesses for SNMP get
| -rw-r--r-- | README.md | 8 | ||||
| -rw-r--r-- | ubnt_unifi.php | 217 |
2 files changed, 162 insertions, 63 deletions
@@ -1,5 +1,5 @@ This is a [Munin](http://munin-monitoring.org/) plugin to monitor your [Ubiquiti Unifi](https://www.ubnt.com/products/#unifi) wireless network status. -It uses SNMPv2 to get network data. +It uses SNMPv2 and php child-processes to get network data. ### The original version of code is aviable here: [http://git.bmrg.hu/unifi-munin.git](http://git.bmrg.hu/unifi-munin.git/) @@ -55,6 +55,7 @@ Edit the **/etc/munin/plugin-conf.d/munin-node**, and use the following configur env.devices - A "space" separated list of the hostnames or IP addresses of wireless APs. env.timeout - The maximum timeout in milliseconds of SNMP requests. (must enough to get all data!). env.retry - Number of retry after failed/time out SNMP requets. + env.maxproc - Maximum nuber of child processes (for SNMP get) env.devnetw - The network of the APs. (It is expreimental yet.) @@ -64,8 +65,9 @@ For example: timeout 240 env.controller unifi.company.com env.devices ap01.wl.company.lan ap02.wl.company.lan ap03.wl.company.lan 10.10.1.6 10.10.1.7 10.10.1.8 + env.maxproc 32 env.devnetw 10.10.1.10/24 - env.timeout 170 + env.timeout 500 env.retry 1 @@ -73,7 +75,7 @@ For example: ### AUTHOR -Copyright (C) 2018 Gergő J. Miklós. +Copyright (C) 2018-2019 Gergő J. Miklós. diff --git a/ubnt_unifi.php b/ubnt_unifi.php index 6dc1051..1158190 100644 --- a/ubnt_unifi.php +++ b/ubnt_unifi.php @@ -11,7 +11,9 @@ $controller = getenv('controller'); $hosts = getenv('devices'); $timeout = getenv('timeout'); $retry = getenv('retry'); -//$devnetw = getenv('devnetw'); +$maxproc = getenv('maxproc'); +$devnetw = getenv('devnet'); + $replace_chars = array("\"","\$","@","^","`",",","|","%",";",".","~","(",")","/","\\","{","}",":","?","[","]","=","+","#","!","-",); // Special chars replace function print_header($inp){ // prints Munin-config data from processed data array @@ -79,7 +81,7 @@ function collect_radio_summary($inp,$host){ $ret['g_multi'] = "radio_".str_replace( array(".", ":"), "_" ,$controller).".".str_replace( array(".", ":"), "_" ,$host); $ret['g_controller'] = $controller; $location = str_replace("\"", "", explode(": ", $inp[$host]["iso.3.6.1.2.1.1.6.0"])[1]); - if( $location != "Unknown" and $location != "" ){ $ret['g_title'] = "Unifi Clients on: ".$location ; } // if the Location is not filled in Controller settings, use the hostname or ip address + if( $location != "Unknown" and $location != "" ){ $ret['g_title'] = "Unifi Clients on: ".$location ; } // if the Location is not filled in Controller settings, use the hostname or ip address else { $ret['g_title'] = "Unifi Clients on: ".$host; }; $ret['g_vlabel'] = "Users"; $ret['g_category'] = "wl_clients_ap"; @@ -93,26 +95,26 @@ function collect_radio_summary($inp,$host){ $ret['g_info'] = "ubnt_wireless"; } - $ret['head'][0]['name'] = "sum_clients"; - $ret['head'][0]['label'] = "Total clients"; - $ret['head'][0]['draw'] = "LINE1.2"; - $ret['head'][0]['info'] = "Total Clients"; - $ret['head'][0]['type'] = "GAUGE"; - $ret['head'][0]['min'] = "0"; - - $ret['head'][1]['name'] = "2g_clients"; - $ret['head'][1]['label'] = "2.4Ghz"; - $ret['head'][1]['draw'] = "LINE1.2"; - $ret['head'][1]['info'] = "2.4Ghz Clients"; - $ret['head'][1]['type'] = "GAUGE"; - $ret['head'][1]['min'] = "0"; - - $ret['head'][2]['name'] = "5g_clients"; - $ret['head'][2]['label'] = "5Ghz"; - $ret['head'][2]['draw'] = "LINE1.2"; - $ret['head'][2]['info'] = "2.4Ghz Clients"; - $ret['head'][2]['type'] = "GAUGE"; - $ret['head'][2]['min'] = "0"; + $ret['head'][0]['name'] = "sum_clients"; + $ret['head'][0]['label'] = "Total clients"; + $ret['head'][0]['draw'] = "LINE1.2"; + $ret['head'][0]['info'] = "Total Clients"; + $ret['head'][0]['type'] = "GAUGE"; + $ret['head'][0]['min'] = "0"; + + $ret['head'][1]['name'] = "2g_clients"; + $ret['head'][1]['label'] = "2.4Ghz"; + $ret['head'][1]['draw'] = "LINE1.2"; + $ret['head'][1]['info'] = "2.4Ghz Clients"; + $ret['head'][1]['type'] = "GAUGE"; + $ret['head'][1]['min'] = "0"; + + $ret['head'][2]['name'] = "5g_clients"; + $ret['head'][2]['label'] = "5Ghz"; + $ret['head'][2]['draw'] = "LINE1.2"; + $ret['head'][2]['info'] = "2.4Ghz Clients"; + $ret['head'][2]['type'] = "GAUGE"; + $ret['head'][2]['min'] = "0"; if(isset($host) and $host !== null and $host != "" ){ // trim raw data array to current device (in $host) or use the whole array when calculating controller's data @@ -129,8 +131,8 @@ function collect_radio_summary($inp,$host){ $ret['data'][1]['name'] = "2g_clients"; @$ret['data'][1]['value'] += explode(": ", $inp[$key]["iso.3.6.1.4.1.41112.1.6.1.2.1.8.".$i])[1]; } else { // 5Ghz clients - $ret['data'][2]['name'] = "5g_clients"; - @$ret['data'][2]['value'] += explode(": ", $inp[$key]["iso.3.6.1.4.1.41112.1.6.1.2.1.8.".$i])[1]; + $ret['data'][2]['name'] = "5g_clients"; + @$ret['data'][2]['value'] += explode(": ", $inp[$key]["iso.3.6.1.4.1.41112.1.6.1.2.1.8.".$i])[1]; } } $ret['data'][0]['name'] = "sum_clients"; @@ -157,8 +159,8 @@ function collect_radio_summary($inp,$host){ "label" => str_replace("\"", "",explode(": ", $inp[$key]["iso.3.6.1.4.1.41112.1.6.1.2.1.6.".$i])[1] ), "draw" => "LINE1.2", "info" => explode(": ", $inp[$key]["iso.3.6.1.4.1.41112.1.6.1.2.1.6.".$i])[1], - "type" => "GAUGE", - "min" => "0", + "type" => "GAUGE", + "min" => "0", ); } @@ -184,8 +186,8 @@ function collect_netw_summary($inp,$host){ //network information $multiplier = 8; $divider = 1; } else { //because the normal INTEGER(32) would be overflowed - $multiplier = 8*4*1024; // When showing the controller's summary - $divider = 4*1024; + $multiplier = 8*1024*4; // When showing the controller's summary + $divider = 1024*4; } @@ -198,7 +200,7 @@ function collect_netw_summary($inp,$host){ //network information $ret['g_vlabel'] = "bits in(-) / out(+) per second"; $ret['g_category'] = "Wl_netw_ap"; $ret['g_info'] = "ubnt_network"; - $ret['g_order'] = "rx_all tx_all rx_2g tx_2g rx_5g tx_5g"; + $ret['g_order'] = "rx_all tx_all rx_2g tx_2g rx_5g tx_5g"; } else { $ret['g_multi'] = "netw_".str_replace( array(".", ":"), "_" ,$controller); @@ -207,7 +209,7 @@ function collect_netw_summary($inp,$host){ //network information $ret['g_vlabel'] = "bits in(-) / out(+) per second"; $ret['g_category'] = "Wl_netw_all"; $ret['g_info'] = "ubnt_network"; - $ret['g_order'] = "rx_all tx_all rx_2g tx_2g rx_5g tx_5g"; + $ret['g_order'] = "rx_all tx_all rx_2g tx_2g rx_5g tx_5g"; } $ret['head'][0]['name'] = "rx_all"; @@ -216,9 +218,9 @@ function collect_netw_summary($inp,$host){ //network information $ret['head'][0]['info'] = "Total Received"; $ret['head'][0]['type'] = "DERIVE"; $ret['head'][0]['min'] = "0"; - $ret['head'][0]['graph'] = "no"; - $ret['head'][0]['cdef'] = "unifi_rx_all,$multiplier,*"; - $ret['head'][0]['max'] = "1000000000"; + $ret['head'][0]['graph'] = "no"; + $ret['head'][0]['cdef'] = "unifi_rx_all,$multiplier,*"; + $ret['head'][0]['max'] = "1000000000"; $ret['head'][1]['name'] = "tx_all"; $ret['head'][1]['label'] = "Total (bps)"; @@ -228,7 +230,7 @@ function collect_netw_summary($inp,$host){ //network information $ret['head'][1]['min'] = "0"; $ret['head'][1]['cdef'] = "unifi_tx_all,$multiplier,*"; $ret['head'][1]['max'] = "1000000000"; - $ret['head'][1]['negative'] = "unifi_rx_all"; + $ret['head'][1]['negative'] = "unifi_rx_all"; $ret['head'][2]['name'] = "rx_2g"; $ret['head'][2]['label'] = "2G (bps)"; @@ -248,7 +250,7 @@ function collect_netw_summary($inp,$host){ //network information $ret['head'][3]['min'] = "0"; $ret['head'][3]['cdef'] = "unifi_tx_2g,$multiplier,*"; $ret['head'][3]['max'] = "1000000000"; - $ret['head'][3]['negative'] = "unifi_rx_2g"; + $ret['head'][3]['negative'] = "unifi_rx_2g"; $ret['head'][4]['name'] = "rx_5g"; $ret['head'][4]['label'] = "5G (bps)"; @@ -256,7 +258,7 @@ function collect_netw_summary($inp,$host){ //network information $ret['head'][4]['info'] = "Total Received"; $ret['head'][4]['type'] = "DERIVE"; $ret['head'][4]['min'] = "0"; - $ret['head'][4]['graph'] = "no"; + $ret['head'][4]['graph'] = "no"; $ret['head'][4]['cdef'] = "unifi_rx_5g,$multiplier,*"; $ret['head'][4]['max'] = "1000000000"; @@ -268,7 +270,7 @@ function collect_netw_summary($inp,$host){ //network information $ret['head'][5]['min'] = "0"; $ret['head'][5]['cdef'] = "unifi_tx_5g,$multiplier,*"; $ret['head'][5]['max'] = "1000000000"; - $ret['head'][5]['negative'] = "unifi_rx_5g"; + $ret['head'][5]['negative'] = "unifi_rx_5g"; foreach($inp as $key => $val){ @@ -277,7 +279,7 @@ function collect_netw_summary($inp,$host){ //network information if( explode(": ", $inp[$key]["iso.3.6.1.4.1.41112.1.6.1.2.1.4.".$i])[1] < 15 ){ //2.4Ghz client $ret['data'][2]['name'] = "rx_2g"; @$ret['data'][2]['value'] += round((explode(": ", $inp[$key]["iso.3.6.1.4.1.41112.1.6.1.2.1.10.".$i])[1]) / $divider); - $ret['data'][3]['name'] = "tx_2g"; + $ret['data'][3]['name'] = "tx_2g"; @$ret['data'][3]['value'] += round((explode(": ", $inp[$key]["iso.3.6.1.4.1.41112.1.6.1.2.1.16.".$i])[1]) / $divider); } else { // 5Ghz clients @@ -310,15 +312,15 @@ function collect_netw_summary($inp,$host){ //network information "value" => round((explode(": ", $inp[$key]["iso.3.6.1.4.1.41112.1.6.1.2.1.10.".$i])[1]) / $divider) , ); $ret['head'][] = array( "name" => "rx_".str_replace($replace_chars, "_", explode(": ", $inp[$key]["iso.3.6.1.4.1.41112.1.6.1.2.1.6.".$i])[1]), - "label" => "RX_".str_replace("\"", "",explode(": ", $inp[$key]["iso.3.6.1.4.1.41112.1.6.1.2.1.6.".$i])[1] )."(bps)", + "label" => "RX_".str_replace("\"", "",explode(": ", $inp[$key]["iso.3.6.1.4.1.41112.1.6.1.2.1.6.".$i])[1] )." (bps)", "draw" => "LINE1.2", "info" => "Rx_".explode(": ", $inp[$key]["iso.3.6.1.4.1.41112.1.6.1.2.1.6.".$i])[1], "type" => "DERIVE", "min" => "0", - "graph" => "no", - "cdef" => "unifi_rx_".str_replace($replace_chars, "_", explode(": ", $inp[$key]["iso.3.6.1.4.1.41112.1.6.1.2.1.6.".$i])[1]).",$multiplier,*", - "max" => "1000000000", - ); + "graph" => "no", + "cdef" => "unifi_rx_".str_replace($replace_chars, "_", explode(": ", $inp[$key]["iso.3.6.1.4.1.41112.1.6.1.2.1.6.".$i])[1]).",$multiplier,*", + "max" => "1000000000", + ); } @@ -334,7 +336,7 @@ function collect_netw_summary($inp,$host){ //network information } else { //ssid not found, new record $ret['data'][] = array( "name" => "tx_".str_replace($replace_chars, "_", explode(": ", $inp[$key]["iso.3.6.1.4.1.41112.1.6.1.2.1.6.".$i])[1]), "value" => round((explode(": ", $inp[$key]["iso.3.6.1.4.1.41112.1.6.1.2.1.16.".$i])[1]) / $divider) , - ); + ); $ret['head'][] = array( "name" => "tx_".str_replace($replace_chars, "_", explode(": ", $inp[$key]["iso.3.6.1.4.1.41112.1.6.1.2.1.6.".$i])[1]), "label" => "".str_replace("\"", "",explode(": ", $inp[$key]["iso.3.6.1.4.1.41112.1.6.1.2.1.6.".$i])[1] )." (bps)", "draw" => "LINE1.2", @@ -343,8 +345,8 @@ function collect_netw_summary($inp,$host){ //network information "min" => "0", "cdef" => "unifi_tx_".str_replace($replace_chars, "_", explode(": ", $inp[$key]["iso.3.6.1.4.1.41112.1.6.1.2.1.6.".$i])[1]).",$multiplier,*", "max" => "1000000000", - "negative" => "unifi_rx_".str_replace($replace_chars, "_", explode(": ", $inp[$key]["iso.3.6.1.4.1.41112.1.6.1.2.1.6.".$i])[1]), - ); + "negative" => "unifi_rx_".str_replace($replace_chars, "_", explode(": ", $inp[$key]["iso.3.6.1.4.1.41112.1.6.1.2.1.6.".$i])[1]), + ); } @@ -367,7 +369,6 @@ if($mask != 0 ){ } } - foreach($hosts as $key => $val){ // delete addresses which are given by hostname if(in_array(gethostbyname($val), $hosts2)){ unset($hosts2[ array_keys($hosts2, gethostbyname($val))[0] ]); @@ -375,28 +376,124 @@ foreach($hosts as $key => $val){ // delete addresses which are given by hostna } $hosts = array_merge($hosts, $hosts2); +unset($hosts2); + +$numhost = count($hosts); +$shm_key = ftok($argv[0], 'c'); +$shm = shmop_open($shm_key, "c", 0640, ceil($numhost/$maxproc)*32768); +$sf = sem_get($shm_key,1,0640,1); +$child = array(); +$raw = array(); +$hostsr = $hosts; +unset($hosts); +$hostst = array(); + -$raw=array(); -foreach($hosts as $key => $val){ // get raw snmp data from unifi devices - if($hosts[$key] == ""){ - unset($hosts[$key]); +for($i=0,$j=0; $i<$numhost; $i++){ //Sorting addresses for child-processes + + if($j >= $maxproc){ //With permutation + $j = 0; + } + if(array_key_exists($j, $hostst) === FALSE){ + $hostst[$j] = array(); } - if($val != "") { - $raw[$val] = @snmp2_real_walk($val, "public", ".1.3.6.1.4.1.41112.1.6.1.2.1", $timeout*1000, $retry ); // wl network info - $raw[$val]["iso.3.6.1.2.1.1.6.0"] = @snmp2_get($val, "public", ".1.3.6.1.2.1.1.6.0", $timeout*1000, $retry ) ; // location info - $raw[$val]["iso.3.6.1.2.1.1.1.0"] = @snmp2_get($val, "public", ".1.3.6.1.2.1.1.1.0", $timeout*1000, $retry ) ; // descr. info + + $hostst[$j] = array_merge($hostst[$j], array($hostsr[$i])); //With permutation + $j++; +} + + + + +for ($p=0; $p<$maxproc; $p++){ //Starts child processes to retrieve SNMP data. + + unset($hosts); + $hosts = array(); + if(array_key_exists($p,$hostst)){ + $hosts = $hostst[$p]; } - if( !isset($raw[$val]["iso.3.6.1.4.1.41112.1.6.1.2.1.1.1"]) ){ - unset($raw[$val]); - unset($hosts[$key]); + + + $pid = pcntl_fork(); + + if($pid == -1){ + die('could not fork'); } + + else if($pid){ // we are the parent process + $child[$p] = $pid; + } + + else { // child + $raw=array(); + foreach($hosts as $key => $val){ // get raw snmp data from unifi devices + if($hosts[$key] == ""){ + unset($hosts[$key]); + } + if($val != "") { + $raw[$val] = @snmp2_real_walk($val, "public", ".1.3.6.1.4.1.41112.1.6.1.2.1", $timeout*1000, $retry ); // wl network info + $raw[$val]["iso.3.6.1.2.1.1.6.0"] = @snmp2_get($val, "public", ".1.3.6.1.2.1.1.6.0", $timeout*1000, $retry ) ; // location info + $raw[$val]["iso.3.6.1.2.1.1.1.0"] = @snmp2_get($val, "public", ".1.3.6.1.2.1.1.1.0", $timeout*1000, $retry ) ; // descr. info + } + if( !isset($raw[$val]["iso.3.6.1.4.1.41112.1.6.1.2.1.1.1"]) ){ + unset($raw[$val]); + unset($hosts[$key]); + } + + $null=""; + for($f=0; $f<(32768 - strlen(json_encode($raw))); $f++) + { + $null .= "\0"; //Because the json_decode() error. + } + + sem_acquire($sf); + while(ord(shmop_read($shm, 0, 0)) ) {continue;} //waiting for master to pull the data + shmop_write($shm, json_encode($raw).$null, 0); + sem_release($sf); + } + exit; + } + +} +unset($hostst); +unset($hosts); + +function numchild($child, $n){ //How many child process is alive + $l=0; + for($i=0; $i<$n; $i++){ + if($child[$i] > 0){ + $l++; + } + } + return $l; } +while(numchild($child, $maxproc)){ //Receive the raw data segments and wait for child processes + + for($p=0; $p<$maxproc; $p++){ + if( abs($pid = pcntl_waitpid($child[$p], $status, WNOHANG)) > 0) {//Protect against Zombie children + $child[$p] = 0; + } + } + + $ret = shmop_read($shm, 0, 0); //Read from shared memory + if(ord($ret)){ + $ret = preg_replace('/[[:cntrl:]]/', '', $ret); // for json_decode + $raw = array_merge($raw, json_decode($ret, true)); + shmop_write($shm,"\0\0\0\0\0", 0); + } + usleep(100); // +} + +sem_remove($sf); +shmop_delete($shm); +shmop_close($shm); +$hosts = $hostsr; //print_r($raw); //print_r($hosts); -//$valami = collect_netw_summary($raw,"ap12.wireless.lan"); -//print_r($valami); +//$test = collect_netw_summary($raw,"ap12.wireless.lan"); +//print_r($test); if (isset($argv[1]) and $argv[1] == "config"){ // munin config |