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192 lines
8.4 KiB
XML
192 lines
8.4 KiB
XML
<?xml version="1.0" encoding="UTF-8"?>
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<!DOCTYPE article PUBLIC "-//OASIS//DTD DocBook XML V4.2//EN"
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"http://www.oasis-open.org/docbook/xml/4.2/docbookx.dtd">
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<article id="ProxyARP">
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<!--$Id$-->
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<articleinfo>
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<title>Proxy ARP</title>
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<authorgroup>
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<author>
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<firstname>Tom</firstname>
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<surname>Eastep</surname>
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</author>
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</authorgroup>
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<pubdate>2004-02-14</pubdate>
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<copyright>
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<year>2001-2004</year>
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<holder>Thomas M. Eastep</holder>
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</copyright>
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<legalnotice>
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<para>Permission is granted to copy, distribute and/or modify this
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document under the terms of the GNU Free Documentation License, Version
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1.2 or any later version published by the Free Software Foundation; with
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no Invariant Sections, with no Front-Cover, and with no Back-Cover
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Texts. A copy of the license is included in the section entitled
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<quote><ulink url="GnuCopyright.htm">GNU Free Documentation License</ulink></quote>.</para>
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</legalnotice>
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</articleinfo>
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<para>Proxy ARP allows you to insert a firewall in front of a set of servers
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without changing their IP addresses and without having to re-subnet. Before
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you try to use this technique, I strongly recommend that you read the <ulink
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url="shorewall_setup_guide.htm">Shorewall Setup Guide</ulink>.</para>
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<section>
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<title>Example</title>
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<para>The following figure represents a Proxy ARP environment.</para>
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<graphic fileref="images/proxyarp.png" />
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<para>Proxy ARP can be used to make the systems with addresses
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130.252.100.18 and 130.252.100.19 appear to be on the upper
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(130.252.100.*) subnet. Assuming that the upper firewall interface is eth0
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and the lower interface is eth1, this is accomplished using the following
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entries in <filename>/etc/shorewall/proxyarp</filename>:</para>
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<programlisting>#ADDRESS INTERFACE EXTERNAL HAVEROUTE PERSISTENT
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130.252.100.18 eth1 eth0 no yes
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130.252.100.19 eth1 eth0 no yes </programlisting>
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<para>Be sure that the internal systems (130.242.100.18 and 130.252.100.19
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in the above example) are not included in any specification in
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<filename>/etc/shorewall/masq</filename> or <filename>/etc/shorewall/nat</filename>.</para>
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<note>
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<para>I've used an RFC1918 IP address for eth1 - that IP address is
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largely irrelevant (see below).</para>
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</note>
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<para>The lower systems (130.252.100.18 and 130.252.100.19) should have
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their subnet mask and default gateway configured exactly the same way that
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the Firewall system's eth0 is configured. In other words, they should
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be configured just like they would be if they were parallel to the
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firewall rather than behind it.</para>
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<warning>
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<para>Do not add the Proxy ARP'ed address(es) (130.252.100.18 and
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130.252.100.19 in the above example) to the external interface (eth0 in
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this example) of the firewall.</para>
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</warning>
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<para>While the address given to the firewall interface is largely
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irrelevant, one approach you can take is to make that address the same as
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the address of your external interface!</para>
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<graphic align="center" fileref="images/proxyarp1.png" />
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<para>It the diagram above, <filename class="devicefile">eth1</filename>
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has been given the address 130.252.100.17, the same as
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<filename>eth0</filename>. Note though that the VLSM is 32 so there is no
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network associated with this address. This is the approach <ulink
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url="myfiles.htm">that I take with my DMZ</ulink>.</para>
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<warning>
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<para>Your distribution's network configuration GUI may not be
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capable of configuring a device in this way. It may complain about the
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duplicate address or it may configure the address incorrectly. Here is
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what the above configuration should look like when viewed using
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<command>ip</command> (the part of the output that is in <emphasis
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role="bold">bold text</emphasis> is relevant):</para>
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<programlisting>gateway:~# <command>ip addr ls eth1</command>
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3: eth1: <BROADCAST,MULTICAST,UP> mtu 1500 qdisc pfifo_fast qlen 1000
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link/ether 00:a0:cc:d1:db:12 brd ff:ff:ff:ff:ff:ff
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<emphasis role="bold">inet 130.252.100.17/32 scope global eth1</emphasis>
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gateway:~#</programlisting>
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<para>Note in particular that there is no broadcast address. <ulink
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url="myfiles.htm#Interfaces">Here is how I configure a device in this
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way under Debian</ulink>.</para>
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</warning>
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</section>
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<section>
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<title>ARP cache</title>
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<para>A word of warning is in order here. ISPs typically configure their
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routers with a long ARP cache timeout. If you move a system from parallel
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to your firewall to behind your firewall with Proxy ARP, it will probably
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be HOURS before that system can communicate with the internet. There are a
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couple of things that you can try:</para>
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<orderedlist>
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<listitem>
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<para>A reading of <citetitle>TCP/IP Illustrated, Vol 1</citetitle> by
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Stevens reveals<footnote><para>Courtesy of Bradey Honsinger</para></footnote>
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that a <quote>gratuitous</quote> ARP packet should cause the ISP's
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router to refresh their ARP cache (section 4.7). A gratuitous ARP is
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simply a host requesting the MAC address for its own IP; in addition
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to ensuring that the IP address isn't a duplicate...</para>
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<blockquote>
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<para>if the host sending the gratuitous ARP has just changed its
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hardware address..., this packet causes any other host...that has an
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entry in its cache for the old hardware address to update its ARP
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cache entry accordingly.</para>
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</blockquote>
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<para>Which is, of course, exactly what you want to do when you switch
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a host from being exposed to the Internet to behind Shorewall using
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proxy ARP (or one-to-one NAT for that matter). Happily enough, recent
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versions of Redhat's iputils package include <quote>arping</quote>,
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whose <quote>-U</quote> flag does just that:</para>
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<programlisting>arping -U -I <<emphasis>net if</emphasis>> <<emphasis>newly proxied IP</emphasis>>
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arping -U -I eth0 66.58.99.83 # for example</programlisting>
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<para>Stevens goes on to mention that not all systems respond
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correctly to gratuitous ARPs, but googling for <quote>arping -U</quote>
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seems to support the idea that it works most of the time.</para>
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<para>To use arping with Proxy ARP in the above example, you would
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have to:</para>
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<programlisting>shorewall clear
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ip addr add 130.252.100.18 dev eth0
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ip addr add 130.252.100.19 dev eth0
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arping -U -I eth0 130.252.100.18
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arping -U -I eth0 130.252.100.19
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ip addr del 130.252.100.18 dev eth0
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ip addr del 130.252.100.19 dev eth0
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shorewall start</programlisting>
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</listitem>
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<listitem>
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<para>You can call your ISP and ask them to purge the stale ARP cache
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entry but many either can't or won't purge individual entries.</para>
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</listitem>
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</orderedlist>
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<para>You can determine if your ISP's gateway ARP cache is stale using
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ping and tcpdump. Suppose that we suspect that the gateway router has a
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stale ARP cache entry for 130.252.100.19. On the firewall, run tcpdump as
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follows:</para>
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<programlisting>tcpdump -nei eth0 icmp</programlisting>
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<para>Now from 130.252.100.19, ping the ISP's gateway (which we will
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assume is 130.252.100.254):</para>
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<programlisting>ping 130.252.100.254</programlisting>
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<para>We can now observe the tcpdump output:</para>
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<programlisting>13:35:12.159321 0:4:e2:20:20:33 0:0:77:95:dd:19 ip 98: 130.252.100.19 > 130.252.100.254: icmp: echo request (DF)
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13:35:12.207615 0:0:77:95:dd:19 0:c0:a8:50:b2:57 ip 98: 130.252.100.254 > 130.252.100.177 : icmp: echo reply</programlisting>
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<para>Notice that the source MAC address in the echo request is different
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from the destination MAC address in the echo reply!! In this case
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0:4:e2:20:20:33 was the MAC of the firewall's eth0 NIC while
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0:c0:a8:50:b2:57 was the MAC address of the system on the lower left. In
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other words, the gateway's ARP cache still associates 130.252.100.19
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with the NIC in that system rather than with the firewall's eth0.</para>
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</section>
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</article> |