addMessage(_('Interface name invalid.'), 'danger'); $status->showMessages(); return; } if (!function_exists('exec')) { $status->addMessage(_('Required exec function is disabled. Check if exec is not added to php disable_functions.'), 'danger'); $status->showMessages(); return; } exec('ip a show '.$_SESSION['wifi_client_interface'], $stdoutIp); $stdoutIpAllLinesGlued = implode(" ", $stdoutIp); $stdoutIpWRepeatedSpaces = preg_replace('/\s\s+/', ' ', $stdoutIpAllLinesGlued); preg_match('/link\/ether ([0-9a-f:]+)/i', $stdoutIpWRepeatedSpaces, $matchesMacAddr) || $matchesMacAddr[1] = _('No MAC Address Found'); $macAddr = $matchesMacAddr[1]; $ipv4Addrs = ''; $ipv4Netmasks = ''; if (!preg_match_all('/inet (\d{1,3}\.\d{1,3}\.\d{1,3}\.\d{1,3})\/([0-3][0-9])/i', $stdoutIpWRepeatedSpaces, $matchesIpv4AddrAndSubnet, PREG_SET_ORDER)) { $ipv4Addrs = _('No IPv4 Address Found'); } else { foreach ($matchesIpv4AddrAndSubnet as $inet) { $address = $inet[1]; $suffix = (int) $inet[2]; $netmask = long2ip(-1 << (32 - $suffix)); $ipv4Addrs .= " $address"; $ipv4Netmasks .= " $netmask"; } $ipv4Addrs = trim($ipv4Addrs); $ipv4Netmasks = trim($ipv4Netmasks); } $ipv4Netmasks = empty($ipv4Netmasks) ? "-" : $ipv4Netmasks; $ipv6Addrs = ''; if (!preg_match_all('/inet6 ([a-f0-9:]+)/i', $stdoutIpWRepeatedSpaces, $matchesIpv6Addr)) { $ipv6Addrs = _('No IPv6 Address Found'); } else { if (isset($matchesIpv6Addr[1])) { $ipv6Addrs = implode(' ', $matchesIpv6Addr[1]); } } preg_match('/state (UP|DOWN)/i', $stdoutIpWRepeatedSpaces, $matchesState) || $matchesState[1] = 'unknown'; $interfaceState = $matchesState[1]; // Because of table layout used in the ip output we get the interface statistics directly from // the system. One advantage of this is that it could work when interface is disable. exec('cat /sys/class/net/'.$_SESSION['ap_interface'].'/statistics/rx_packets ', $stdoutCatRxPackets); $strRxPackets = _('No data'); if (ctype_digit($stdoutCatRxPackets[0])) { $strRxPackets = $stdoutCatRxPackets[0]; } exec('cat /sys/class/net/'.$_SESSION['ap_interface'].'/statistics/tx_packets ', $stdoutCatTxPackets); $strTxPackets = _('No data'); if (ctype_digit($stdoutCatTxPackets[0])) { $strTxPackets = $stdoutCatTxPackets[0]; } exec('cat /sys/class/net/'.$_SESSION['ap_interface'].'/statistics/rx_bytes ', $stdoutCatRxBytes); $strRxBytes = _('No data'); if (ctype_digit($stdoutCatRxBytes[0])) { $strRxBytes = $stdoutCatRxBytes[0]; $strRxBytes .= getHumanReadableDatasize($strRxBytes); } exec('cat /sys/class/net/'.$_SESSION['ap_interface'].'/statistics/tx_bytes ', $stdoutCatTxBytes); $strTxBytes = _('No data'); if (ctype_digit($stdoutCatTxBytes[0])) { $strTxBytes = $stdoutCatTxBytes[0]; $strTxBytes .= getHumanReadableDatasize($strTxBytes); } define('SSIDMAXLEN', 32); // Warning iw comes with: "Do NOT screenscrape this tool, we don't consider its output stable." // fetch first wireless interface exec('iw dev ' .$_SESSION['wifi_client_interface']. ' link ', $stdoutIw); $stdoutIwAllLinesGlued = implode(' ', $stdoutIw); $stdoutIwWRepSpaces = preg_replace('/\s\s+/', ' ', $stdoutIwAllLinesGlued); preg_match('/Connected to (([0-9A-Fa-f]{2}:){5}([0-9A-Fa-f]{2}))/', $stdoutIwWRepSpaces, $matchesBSSID) || $matchesBSSID[1] = ''; $connectedBSSID = $matchesBSSID[1]; $connectedBSSID = empty($connectedBSSID) ? "-" : $connectedBSSID; $wlanHasLink = false; if ($interfaceState === 'UP') { $wlanHasLink = true; } if (!preg_match('/SSID: ([^ ]{1,'.SSIDMAXLEN.'})/', $stdoutIwWRepSpaces, $matchesSSID)) { $wlanHasLink = false; $matchesSSID[1] = 'None'; } $connectedSSID = $matchesSSID[1]; preg_match('/freq: (\d+)/i', $stdoutIwWRepSpaces, $matchesFrequency) || $matchesFrequency[1] = ''; $frequency = $matchesFrequency[1].' MHz'; preg_match('/signal: (-?[0-9]+ dBm)/i', $stdoutIwWRepSpaces, $matchesSignal) || $matchesSignal[1] = ''; $signalLevel = $matchesSignal[1]; $signalLevel = empty($signalLevel) ? "-" : $signalLevel; preg_match('/tx bitrate: ([0-9\.]+ [KMGT]?Bit\/s)/', $stdoutIwWRepSpaces, $matchesBitrate) || $matchesBitrate[1] = ''; $bitrate = $matchesBitrate[1]; $bitrate = empty($bitrate) ? "-" : $bitrate; // txpower is now displayed on iw dev(..) info command, not on link command. exec('iw dev '.$_SESSION['wifi_client_interface'].' info ', $stdoutIwInfo); $stdoutIwInfoAllLinesGlued = implode(' ', $stdoutIwInfo); $stdoutIpInfoWRepSpaces = preg_replace('/\s\s+/', ' ', $stdoutIwInfoAllLinesGlued); preg_match('/txpower ([0-9\.]+ dBm)/i', $stdoutIpInfoWRepSpaces, $matchesTxPower) || $matchesTxPower[1] = ''; $txPower = $matchesTxPower[1]; // iw does not have the "Link Quality". This is a is an aggregate value, // and depends on the driver and hardware. // Display link quality as signal quality for now. $strLinkQuality = 0; if ($signalLevel > -100 && $wlanHasLink) { if ($signalLevel >= 0) { $strLinkQuality = 100; } else { $strLinkQuality = 100 + $signalLevel; } } $wlan0up = false; $classMsgDevicestatus = 'warning'; if ($interfaceState === 'UP') { $wlan0up = true; $classMsgDevicestatus = 'success'; } if (!RASPI_MONITOR_ENABLED) { if (isset($_POST['ifdown_wlan0'])) { // Pressed stop button if ($interfaceState === 'UP') { $status->addMessage(sprintf(_('Interface is going %s.'), _('down')), 'warning'); exec('sudo ip link set '.$_SESSION['wifi_client_interface'].' down'); $wlan0up = false; $status->addMessage(sprintf(_('Interface is now %s.'), _('down')), 'success'); } elseif ($interfaceState === 'unknown') { $status->addMessage(_('Interface state unknown.'), 'danger'); } else { $status->addMessage(sprintf(_('Interface already %s.'), _('down')), 'warning'); } } elseif (isset($_POST['ifup_wlan0'])) { // Pressed start button if ($interfaceState === 'DOWN') { $status->addMessage(sprintf(_('Interface is going %s.'), _('up')), 'warning'); exec('sudo ip link set ' .$_SESSION['wifi_client_interface']. ' up'); exec('sudo ip -s a f label ' . $_SESSION['wifi_client_interface']); $wlan0up = true; $status->addMessage(sprintf(_('Interface is now %s.'), _('up')), 'success'); } elseif ($interfaceState === 'unknown') { $status->addMessage(_('Interface state unknown.'), 'danger'); } else { $status->addMessage(sprintf(_('Interface already %s.'), _('up')), 'warning'); } } else { $status->addMessage(sprintf(_('Interface is %s.'), strtolower($interfaceState)), $classMsgDevicestatus); } } echo renderTemplate( "dashboard", compact( "status", "ipv4Addrs", "ipv4Netmasks", "ipv6Addrs", "macAddr", "strRxPackets", "strRxBytes", "strTxPackets", "strTxBytes", "connectedSSID", "connectedBSSID", "bitrate", "signalLevel", "txPower", "frequency", "strLinkQuality", "wlan0up" ) ); $extraFooterScripts[] = array('src'=>'app/js/dashboardchart.js', 'defer'=>false); } /** * Get a human readable data size string from a number of bytes. * * @param long $numbytes The number of bytes. * @param int $precision The number of numbers to round to after the dot/comma. * @return string Data size in units: PB, TB, GB, MB or KB otherwise an empty string. */ function getHumanReadableDatasize($numbytes, $precision = 2) { $humanDatasize = ''; $kib = 1024; $mib = $kib * 1024; $gib = $mib * 1024; $tib = $gib * 1024; $pib = $tib * 1024; if ($numbytes >= $pib) { $humanDatasize = ' ('.round($numbytes / $pib, $precision).' PB)'; } elseif ($numbytes >= $tib) { $humanDatasize = ' ('.round($numbytes / $tib, $precision).' TB)'; } elseif ($numbytes >= $gib) { $humanDatasize = ' ('.round($numbytes / $gib, $precision).' GB)'; } elseif ($numbytes >= $mib) { $humanDatasize = ' ('.round($numbytes / $mib, $precision).' MB)'; } elseif ($numbytes >= $kib) { $humanDatasize = ' ('.round($numbytes / $kib, $precision).' KB)'; } return $humanDatasize; }