<?php
/**
* Class to provide IPv4 calculations
*
* PHP versions 4 and 5
*
* LICENSE: This source file is subject to version 3.01 of the PHP license
* that is available through the world-wide-web at the following URI:
* http://www.php.net/license/3_01.txt. If you did not receive a copy of
* the PHP License and are unable to obtain it through the web, please
* send a note to license@php.net so we can mail you a copy immediately.
*
* @category Net
* @package Net_IPv4
* @author Eric Kilfoil <edk@ypass.net>
* @author Marco Kaiser <bate@php.net>
* @author Florian Anderiasch <fa@php.net>
* @copyright 1997-2005 The PHP Group
* @license http://www.php.net/license/3_01.txt PHP License 3.01
* @version CVS: $Id: IPv4.php,v 1.11 2005/11/29 12:56:35 fa Exp $
* @link http://pear.php.net/package/Net_IPv4
*/
require_once 'PEAR.php';
// {{{ GLOBALS
/**
* Map of bitmasks to subnets
*
* This array contains every valid netmask. The index of the dot quad
* netmask value is the corresponding CIDR notation (bitmask).
*
* @global array $GLOBALS['Net_IPv4_Netmask_Map']
*/
$GLOBALS['Net_IPv4_Netmask_Map'] = array(
0 => "0.0.0.0",
1 => "128.0.0.0",
2 => "192.0.0.0",
3 => "224.0.0.0",
4 => "240.0.0.0",
5 => "248.0.0.0",
6 => "252.0.0.0",
7 => "254.0.0.0",
8 => "255.0.0.0",
9 => "255.128.0.0",
10 => "255.192.0.0",
11 => "255.224.0.0",
12 => "255.240.0.0",
13 => "255.248.0.0",
14 => "255.252.0.0",
15 => "255.254.0.0",
16 => "255.255.0.0",
17 => "255.255.128.0",
18 => "255.255.192.0",
19 => "255.255.224.0",
20 => "255.255.240.0",
21 => "255.255.248.0",
22 => "255.255.252.0",
23 => "255.255.254.0",
24 => "255.255.255.0",
25 => "255.255.255.128",
26 => "255.255.255.192",
27 => "255.255.255.224",
28 => "255.255.255.240",
29 => "255.255.255.248",
30 => "255.255.255.252",
31 => "255.255.255.254",
32 => "255.255.255.255"
);
// }}}
// {{{ Net_IPv4
/**
* Class to provide IPv4 calculations
*
* Provides methods for validating IP addresses, calculating netmasks,
* broadcast addresses, network addresses, conversion routines, etc.
*
* @category Net
* @package Net_IPv4
* @author Eric Kilfoil <edk@ypass.net>
* @author Marco Kaiser <bate@php.net>
* @author Florian Anderiasch <fa@php.net>
* @copyright 1997-2005 The PHP Group
* @license http://www.php.net/license/3_01.txt PHP License 3.01
* @version CVS: @package_version@
* @link http://pear.php.net/package/Net_IPv4
* @access public
*/
class Net_IPv4
{
// {{{ properties
var $ip = "";
var $bitmask = false;
var $netmask = "";
var $network = "";
var $broadcast = "";
var $long = 0;
// }}}
// {{{ validateIP()
/**
* Validate the syntax of the given IP address
*
* Using the PHP long2ip() and ip2long() functions, convert the IP
* address from a string to a long and back. If the original still
* matches the converted IP address, it's a valid address. This
* function does not allow for IP addresses to be formatted as long
* integers.
*
* @param string $ip IP address in the format x.x.x.x
* @return bool true if syntax is valid, otherwise false
*/
function validateIP($ip)
{
if ($ip == long2ip(ip2long($ip))) {
return true;
} else {
return false;
}
}
// }}}
// {{{ check_ip()
/**
* Validate the syntax of the given IP address (compatibility)
*
* This function is identical to Net_IPv4::validateIP(). It is included
* merely for compatibility reasons.
*
* @param string $ip IP address
* @return bool true if syntax is valid, otherwise false
*/
function check_ip($ip)
{
return $this->validateIP($ip);
}
// }}}
// {{{ validateNetmask()
/**
* Validate the syntax of a four octet netmask
*
* There are 33 valid netmask values. This function will compare the
* string passed as $netmask to the predefined 33 values and return
* true or false. This is most likely much faster than performing the
* calculation to determine the validity of the netmask.
*
* @param string $netmask Netmask
* @return bool true if syntax is valid, otherwise false
*/
function validateNetmask($netmask)
{
if (! in_array($netmask, $GLOBALS['Net_IPv4_Netmask_Map'])) {
return false;
}
return true;
}
// }}}
// {{{ parseAddress()
/**
* Parse a formatted IP address
*
* Given a network qualified IP address, attempt to parse out the parts
* and calculate qualities of the address.
*
* The following formats are possible:
*
* [dot quad ip]/[ bitmask ]
* [dot quad ip]/[ dot quad netmask ]
* [dot quad ip]/[ hex string netmask ]
*
* The first would be [IP Address]/[BitMask]:
* 192.168.0.0/16
*
* The second would be [IP Address] [Subnet Mask in dot quad notation]:
* 192.168.0.0/255.255.0.0
*
* The third would be [IP Address] [Subnet Mask as Hex string]
* 192.168.0.0/ffff0000
*
* Usage:
*
* $cidr = '192.168.0.50/16';
* $net = Net_IPv4::parseAddress($cidr);
* echo $net->network; // 192.168.0.0
* echo $net->ip; // 192.168.0.50
* echo $net->broadcast; // 192.168.255.255
* echo $net->bitmask; // 16
* echo $net->long; // 3232235520 (long/double version of 192.168.0.50)
* echo $net->netmask; // 255.255.0.0
*
* @param string $ip IP address netmask combination
* @return object true if syntax is valid, otherwise false
*/
function parseAddress($address)
{
$myself = new Net_IPv4;
if (strchr($address, "/")) {
$parts = explode("/", $address);
if (! $myself->validateIP($parts[0])) {
return PEAR::raiseError(sprintf(_("Invalid IP address (%s)"), $parts[0]));
}
$myself->ip = $parts[0];
// Check the style of netmask that was entered
/*
* a hexadecimal string was entered
*/
if (eregi("^([0-9a-f]{2})([0-9a-f]{2})([0-9a-f]{2})([0-9a-f]{2})$", $parts[1], $regs)) {
// hexadecimal string
$myself->netmask = hexdec($regs[1]) . "." . hexdec($regs[2]) . "." .
hexdec($regs[3]) . "." . hexdec($regs[4]);
/*
* a standard dot quad netmask was entered.
*/
} else if (strchr($parts[1], ".")) {
if (! $myself->validateNetmask($parts[1])) {
return PEAR::raiseError(sprintf(_("Invalid network mask (%s)"), $parts[1]));
}
$myself->netmask = $parts[1];
/*
* a CIDR bitmask type was entered
*/
} else if (ereg("^[0-9]+$", $parts[1]) and ($parts[1] >= 0 && $parts[1] <= 32)) {
// bitmask was entered
$myself->bitmask = $parts[1];
/*
* Some unknown format of netmask was entered
*/
} else {
return PEAR::raiseError(sprintf(_("Invalid network mask (%s)"), $parts[1]));
}
$err = $myself->calculate();
if (PEAR::isError($err))
return $err;
return $myself;
} else if ($myself->validateIP($address)) {
$myself->ip = $address;
return $myself;
} else {
return PEAR::raiseError(sprintf(_("Invalid IP address (%s)"), $address));
}
}
// }}}
// {{{ calculate()
/**
* Calculates network information based on an IP address and netmask.
*
* Fully populates the object properties based on the IP address and
* netmask/bitmask properties. Once these two fields are populated,
* calculate() will perform calculations to determine the network and
* broadcast address of the network.
*
* @return mixed true if no errors occured, otherwise PEAR_Error object
*/
function calculate()
{
$validNM = $GLOBALS['Net_IPv4_Netmask_Map'];
if (! is_a($this, "net_ipv4")) {
return PEAR::raiseError("cannot calculate on uninstantiated Net_IPv4 class");
}
/* Find out if we were given an ip address in dot quad notation or
* a network long ip address. Whichever was given, populate the
* other field
*/
if (strlen($this->ip)) {
if (! $this->validateIP($this->ip)) {
return PEAR::raiseError(sprintf(_("Invalid IP address (%s)"), $this->ip));
}
$this->long = $this->ip2double($this->ip);
} else if (is_numeric($this->long)) {
$this->ip = long2ip($this->long);
} else {
return PEAR::raiseError("ip address not specified");
}
/*
* Check to see if we were supplied with a bitmask or a netmask.
* Populate the other field as needed.
*/
if (strlen($this->bitmask)) {
if (!array_key_exists($this->bitmask, $validNM))
return PEAR::raiseError(sprintf(_("Invalid network mask (%s)"), $this->bitmask));
$this->netmask = $validNM[$this->bitmask];
} else if (strlen($this->netmask)) {
$validNM_rev = array_flip($validNM);
if (!array_key_exists($this->netmask, $validNM_rev))
return PEAR::raiseError(sprintf(_("Invalid network mask (%s)"), $this->netmask));
$this->bitmask = $validNM_rev[$this->netmask];
} else {
return PEAR::raiseError("netmask or bitmask are required for calculation");
}
$this->network = long2ip(ip2long($this->ip) & ip2long($this->netmask));
$this->broadcast = long2ip(ip2long($this->ip) |
(ip2long($this->netmask) ^ ip2long("255.255.255.255")));
return true;
}
// }}}
// {{{ getNetmask()
function getNetmask($length)
{
if (! PEAR::isError($ipobj = Net_IPv4::parseAddress("0.0.0.0/" . $length))) {
$mask = $ipobj->netmask;
unset($ipobj);
return $mask;
}
return false;
}
// }}}
// {{{ getNetLength()
function getNetLength($netmask)
{
if (! PEAR::isError($ipobj = Net_IPv4::parseAddress("0.0.0.0/" . $netmask))) {
$bitmask = $ipobj->bitmask;
unset($ipobj);
return $bitmask;
}
return false;
}
// }}}
// {{{ getSubnet()
function getSubnet($ip, $netmask)
{
if (! PEAR::isError($ipobj = Net_IPv4::parseAddress($ip . "/" . $netmask))) {
$net = $ipobj->network;
unset($ipobj);
return $net;
}
return false;
}
// }}}
// {{{ inSameSubnet()
function inSameSubnet($ip1, $ip2)
{
if (! is_object($ip1) || strcasecmp(get_class($ip1), 'net_ipv4') <> 0) {
$ipobj1 = Net_IPv4::parseAddress($ip1);
if (PEAR::isError($ipobj)) {
return PEAR::raiseError(sprintf(_("Invalid IP address (%s)"), $ip1));
}
}
if (! is_object($ip2) || strcasecmp(get_class($ip2), 'net_ipv4') <> 0) {
$ipobj2 = Net_IPv4::parseAddress($ip2);
if (PEAR::isError($ipobj)) {
return PEAR::raiseError(sprintf(_("Invalid IP address (%s)"), $ip2));
}
}
if ($ipobj1->network == $ipobj2->network &&
$ipobj1->bitmask == $ipobj2->bitmask) {
return true;
}
return false;
}
// }}}
// {{{ atoh()
/**
* Converts a dot-quad formatted IP address into a hexadecimal string
* @param string $addr IP-address in dot-quad format
* @return mixed false if invalid IP and hexadecimal representation as string if valid
*/
function atoh($addr)
{
if (! Net_IPv4::validateIP($addr)) {
return false;
}
$ap = explode(".", $addr);
return sprintf("%02x%02x%02x%02x", $ap[0], $ap[1], $ap[2], $ap[3]);
}
// }}}
// {{{ htoa()
/**
* Converts a hexadecimal string into a dot-quad formatted IP address
* @param string $addr IP-address in hexadecimal format
* @return mixed false if invalid IP and dot-quad formatted IP as string if valid
*/
function htoa($addr)
{
if (eregi("^([0-9a-f]{2})([0-9a-f]{2})([0-9a-f]{2})([0-9a-f]{2})$",
$addr, $regs)) {
return hexdec($regs[1]) . "." . hexdec($regs[2]) . "." .
hexdec($regs[3]) . "." . hexdec($regs[4]);
}
return false;
}
// }}}
// {{{ ip2double()
/**
* Converts an IP address to a PHP double. Better than ip2long because
* a long in PHP is a signed integer.
* @param string $ip dot-quad formatted IP address
* @return float IP address as double - positive value unlike ip2long
*/
function ip2double($ip)
{
return (double)(sprintf("%u", ip2long($ip)));
}
// }}}
// {{{ ipInNetwork()
/**
* Determines whether or not the supplied IP is within the supplied network.
*
* This function determines whether an IP address is within a network.
* The IP address ($ip) must be supplied in dot-quad format, and the
* network ($network) may be either a string containing a CIDR
* formatted network definition, or a Net_IPv4 object.
*
* @param string $ip A dot quad representation of an IP address
* @param string $network A string representing the network in CIDR format or a Net_IPv4 object.
* @return bool true if the IP address exists within the network
*/
function ipInNetwork($ip, $network)
{
$ip = Net_IPv4::__parse($ip);
$network = Net_IPv4::__parse($network);
if ($ip->firstAsDouble() < $network->firstAsDouble())
return false;
if ($network->lastAsDouble() < $ip->lastAsDouble())
return false;
return true;
}
/**
* Determines whether or not the supplied IP is within the supplied network.
*
* This function determines whether an IP address is within a network.
* The IP address ($ip) must be supplied in dot-quad format, and the
* network ($network) may be either a string containing a CIDR
* formatted network definition, or a Net_IPv4 object.
*
* @param string $ip A dot quad representation of an IP address
* @param string $network A string representing the network in CIDR format or a Net_IPv4 object.
* @return bool true if the IP address exists within the network
*/
function intersect($net1, $net2)
{
$net1 = Net_IPv4::__parse($net1);
$net2 = Net_IPv4::__parse($net2);
if ($net1->firstAsDouble() > $net2->lastAsDouble())
return false;
if ($net2->firstAsDouble() > $net1->lastAsDouble())
return false;
return true;
}
function compare($net1, $net2)
{
$net1 = Net_IPv4::__parse($net1);
$net2 = Net_IPv4::__parse($net2);
if ($net1->ip != $net2->ip)
return false;
if ($net1->broadcast != $net2->broadcast)
return false;
return true;
}
function __parse($ip)
{
if (Net_IPv4::isinstance($ip))
return $ip;
$ip = Net_IPv4::parseAddress($ip);
if (PEAR::isError($ip))
throw new Exception($ip->getMessage());
return $ip;
}
/**
* String representation of a network object.
*
* @return str IP address as string
*/
function str()
{
if ($this->bitmask === false)
return $this->ip;
else
return sprintf("%s/%s", $this->ip, $this->bitmask);
}
/**
* Check if an object is a Net_IPv4 instance or not.
*
* @return boolean true if the object is a Net_IPv4 instance, false otherwise
*/
function isinstance($object)
{
if (!is_object($object))
return false;
if (strcasecmp(get_class($object), 'net_ipv4') <> 0)
return false;
return true;
}
/**
* Get first IP of the network objet as double.
*
* @return double First IP address
*/
function firstAsDouble()
{
return Net_IPv4::ip2double($this->ip);
}
/**
* Get last IP of the network objet as double.
*
* @return double Last IP address
*/
function lastAsDouble()
{
if ($this->broadcast)
return Net_IPv4::ip2double($this->broadcast);
else
return $this->firstAsDouble();
}
// }}}
}
// }}}
/*
* vim: sts=4 ts=4 sw=4 cindent fdm=marker
*/
?>
distrib
>
Mandriva
>
2010.0
>
i586
>
media
>
contrib-release
>
by-pkgid
>
dca483b59ba61f3fa092de932ddd570e
>
files
>
258
