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initial converion of liran's "Practical VPNs" to docbook

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* Mon Apr 24 2006 Brendan O'Dea <bod@optus.net> 2.1.19 * Tue Apr 25 2006 Brendan O'Dea <bod@optus.net> 2.1.19
- Only poll clifd if successfully bound. - Only poll clifd if successfully bound.
- Add "Practical VPNs" document from Liran Tal as Docs/vpn .
* Tue Apr 18 2006 Brendan O'Dea <bod@optus.net> 2.1.18 * Tue Apr 18 2006 Brendan O'Dea <bod@optus.net> 2.1.18
- Don't shutdown on TerminateReq, wait for CDN. - Don't shutdown on TerminateReq, wait for CDN.

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<?xml version="1.0"?>
<!DOCTYPE article PUBLIC "-//OASIS//DTD DocBook XML V4.4//EN"
"http://docbook.org/xml/4.4/docbookx.dtd">
<article>
<articleinfo>
<title>Practical VPNs</title>
<subtitle>Implementing Full-scale VPNs</subtitle>
<author>
<firstname>Liran</firstname>
<surname>Tal</surname>
<affiliation>
<address>
<email>liran@enginx.com</email>
</address>
</affiliation>
</author>
<othercredit>
<firstname>Yakov</firstname>
<surname>Shtutz</surname>
<contrib>Testing and feedback</contrib>
</othercredit>
<othercredit>
<firstname>Shahar</firstname>
<surname>Fermon</surname>
<contrib>Testing and feedback</contrib>
</othercredit>
<abstract>
<para>This document was compiled from the administrator's point of
view, to explain what are VPNs, how they are deployed today
and to detail the necessary steps and tools to achieve and
create a fully working VPN solution, integrated with RADIUS
systems for AAA.</para>
<para>I will not dwell in this document on how to compile source
packages or kernel patching, and with the same tone I'm
assuming the reader is an exprerienced Linux user.</para>
<para>VPNs have their share amount of gossip for being a very
complex thing, and in some cases this may be true as they tend
to be more security intenssive which require adding more and
more layers to the scheme. With this said, we'll take a look
at how fairly straight-forward it is to setup VPNs and
maintain them with varius Open-Source tools.</para>
</abstract>
</articleinfo>
<sect1 id="overview">
<title>Overview of VPNs and IPsec</title>
<sect2 id="vpns">
<title>Virtual Private Networks</title>
<para>The purpose of a VPN is to create a secure channel ontop of an
un-secure medium, where a computer or a device are put in each
end-point in order to establish communication, each of these
end-points are often reffered to as Point of Presense, or POP.
This kind of a communication allows the capability of creating
a Virtual Private Network, which is accesable over a medium
such as the Internet and thus, extend the physical boundaries
of an existing local network.</para>
<para>VPNs have three forms:
<variablelist>
<varlistentry>
<term>Site-To-Site VPNs</term>
<listitem>
<para>
these setups exist in order to extend the local network
to create a much bigger LAN over the Internet.
</para>
</listitem>
</varlistentry>
<varlistentry>
<term>Network-To-Host or Remote access VPNs</term>
<listitem>
<para>
where a central VPN server is able to achieve multiple
connections, often reffered to as RoadWarrior VPNs.
(This setup is very common among ISPs)
</para>
</listitem>
</varlistentry>
<varlistentry>
<term>Network-To-Network</term>
<listitem>
<para>
extranet VPNs allow secure connections within branches
and business partners, they are an extension of a
Site-To-Site VPNs.
</para>
</listitem>
</varlistentry>
</variablelist>
</para>
<para><xref linkend="site-to-site"/> shows a Site-To-Site VPN diagram.
<figure id="site-to-site" float="1">
<title>Site to Site VPN</title>
<mediaobject>
<imageobject>
<imagedata fileref="site-to-site-vpn.png"/>
</imageobject>
</mediaobject>
</figure>
</para>
<para>IP/VPNs are connections which are based upon IP tunnels. A
tunnel is a way to encapsulate an IP packet inside another IP
packet or some other type of packet. Why do we need
tunneling? A Virtual Private Network is identified by IANA's
private IP assignments and so such packet can not go beyond
the uplink Internet interface.</para>
<para><xref linkend="tunneling-process"/> shows the tunneling process.
<figure id="tunneling-process" float="1">
<title>Tunneling Process</title>
<mediaobject>
<imageobject>
<imagedata fileref="tunneling-process.png"/>
</imageobject>
</mediaobject>
</figure>
</para>
<para>Several tunneling protocols are available for manifesting
VPNs.
<variablelist>
<varlistentry>
<term>L2F</term>
<listitem>
<para>Layer 2 Forwarding, an older implementation which assume
position at the link layer of the OSI. It has no
encryption capabilities and hence, deprecated.</para>
</listitem>
</varlistentry>
<varlistentry>
<term>L2TP</term>
<listitem>
<para>Layer 2 Tunneling Protocol, still no encryption
capabilities.</para>
</listitem>
</varlistentry>
<varlistentry>
<term>PPTP</term>
<listitem>
<para>Point-to-Point Tunneling Protocol, and yet again, no
encryption.</para>
</listitem>
</varlistentry>
</variablelist>
</para>
<para>As seen, the requirement of encryption enhancement is
urgent in order to assure authentication, data integrity and
privacy. IPsec solves this by providing a suite of security
measures implemented at layer 3.</para>
</sect2>
<sect2 id="ipsec">
<title>IP Security Suite (IPsec)</title>
<para>VPN Security is now appearing, this complex things. How so?
VPN tunnels by themselves are easily maintained by
single-standalone tools like pppd, l2tpns, stunnel and others.
Involving security with VPNs though requires more:
<itemizedlist>
<listitem>
<para>authentication, data integrity and privacy</para>
</listitem>
<listitem>
<para>keying management</para>
</listitem>
</itemizedlist>
</para>
<note>
<para>Keys are secrets being shared by two end-points to provide a
secure mean of communication against a third-party connection
from sniffing the actual data.</para>
</note>
<para>Different ways to handle key management include RADIUS (Remote
Authentication Dial In User Service) systems which provide AAA
(Authentication, Authorization and Accounting). Another
solution is ISAKMP/Oackly - Internet Security Association and
Key Management Protocol. This solution requires you to posess
one of the following:
<itemizedlist>
<listitem>
<para>something you have</para>
</listitem>
<listitem>
<para>something you know</para>
</listitem>
<listitem>
<para>something you are</para>
</listitem>
</itemizedlist>
</para>
<para>The more requirements you meet the more secure is the
medium, once established. Let's review, something we have is
like a certificate, it proves who we are. Something we know,
is a key, a secret password which we were told in a whisper,
and something we are is our-fingerprint which identifies
ourselves from other individuals.</para>
<sect3 id="ipsec-in-depth">
<title>IPsec in Depth</title>
<para>IPsec consists of two main protocols, an Authentication
Header and Encapsulation Security Payload, also known as AH
and ESP. Although it is not bound to these and can be
extended (and often is) to other standarts such as
<itemizedlist>
<listitem>
<para>Data Encryption Standart (DES and 3DES)</para>
</listitem>
<listitem>
<para>Diffie-Hellman (DH)</para>
</listitem>
<listitem>
<para>Secure Hash Algorithm-1 (SHA1)</para>
</listitem>
<listitem>
<para>Message Digest 5 (MD5)</para>
</listitem>
<listitem>
<para>Internet Key Exchange (IKE)</para>
</listitem>
<listitem>
<para>Certification Authorities (CA)</para>
</listitem>
</itemizedlist>
</para>
<para>We'll be deploying an IKE daemon to handle the key
management, which uses the Diffie- Hellman cryptography
protocol in order to allow two parties to establish a
connection based upon a shared secret key that both parties
posess. (Authentication within IKE is handled by MD5
hashing)</para>
<para>IKE is responsible for authentication of two IPsec parties,
negotiation of keys for encryption algorithms and security
associations. This process is commonly regarded as two
phases:
<variablelist>
<varlistentry>
<term>Phase 1: IKE Security Association</term>
<listitem>
<para>The IKE daemon authenticates against the peers in
order to achieve a secure channel, according to the
Diffie-Hellman key agreement.</para>
</listitem>
</varlistentry>
<varlistentry>
<term>Phase 2: IKE IPsec Negotiation</term>
<listitem>
<para>After achieving an authenticated channel, the
parties now negotiate a secure transform (the way to
encrypt and secure the medium) where the sender is
offering his/hers transform set after which the
receiver decides upon one. An IPsec session can now
safely begin.</para>
</listitem>
</varlistentry>
</variablelist>
</para>
<para>Just to be clear, a Security Association is an agreed
relation between two parties which describes how they will
use security services (from IPsec) to communicate.</para>
</sect3>
<sect3 id="ipsec-modes">
<title>IPsec Modes</title>
<para>IPsec can operate in two different modes:
<variablelist>
<varlistentry>
<term>Transport mode</term>
<listitem>
<para>takes place when two devices (like a station and a
gateway (now considered a host)) are establishing a
connection which upon they both support IPsec.</para>
</listitem>
</varlistentry>
<varlistentry>
<term>Tunnel mode</term>
<listitem>
<para>we require tunnel mode when we proxy IPsec
connetions between two stations behind the IPsec
gateway. For example, in a Site-to-Site VPN a
tunnel mode lives, since it exists in order to
provide the stations behind these gateways runing
the VPN/IPsec to communicate securely. In this
situation, both end-points are runing an IPsec
software.</para>
</listitem>
</varlistentry>
</variablelist>
</para>
<para>In definition, a tunnel mode IPsec is better secured than
transport. Without going too deep into the ins-and-outs of
the technical side, transport mode doesn't encapsulate the
actual IP layer but only the tcp/udp (Transport layer of the
OSI) where-as a tunnel mode encapsulate both the Transport
layer and the IP layer into a new IP packet.</para>
<para>To summarize, we need VPNs for data-exchange methods and a
set of IPsec tools for security reasons.</para>
</sect3>
</sect2>
</sect1>
<sect1 id="deployment">
<title>VPN Deployment</title>
<para>I've assembled another diagram to view the actual VPN setup.
<xref linkend="vpn-deployment"/> gives a general description of
how the network will be layed out in real-world scenario.
<figure id="vpn-deployment" float="1">
<title>VPN Deployment</title>
<mediaobject>
<imageobject>
<imagedata fileref="vpn-deployment.png"/>
</imageobject>
</mediaobject>
</figure>
</para>
<para>We notice that a single Linux box is acting as a Gateway and
has all the services included with it. This is a bad idea from a
security prespective but it's easy to just deploy the FreeRADIUS
and MySQL servers on another machine. Of course the L2TPns and
the rest of the IPsec tools suite would have to remain on the
Gateway box (not necessarily the Firewall).</para>
<para><xref linkend="vpn-process"/> attempts to explain the actual
process that the VPN takes and to detail the place that each of
that application-in-charge takes place.
<figure id="vpn-process" float="1">
<title>VPN Process</title>
<mediaobject>
<imageobject>
<imagedata fileref="vpn-process.png"/>
</imageobject>
</mediaobject>
</figure>
</para>
<sect2 id="deployment-requirements">
<title>Requirements</title>
<sect3 id="deployment-requirements-toolbox">
<title>The Toolbox</title>
<para>Following is a description of the requirements you will
have to meet:
<variablelist>
<varlistentry>
<term>A Linux box</term>
<listitem>
<para>preferably a 2.4.27 kernel or higher.</para>
<para>Debian is the chosen distribution which means we'll
be using apt-get for installation, but I'll also focus
on basic source tarballs installation.</para>
<para>Dependencies:
<itemizedlist>
<listitem>
<para>ipsec configuration in the kernel</para>
</listitem>
</itemizedlist>
</para>
</listitem>
</varlistentry>
<varlistentry>
<term>L2TPns</term>
<listitem>
<para>an L2TP PPP Termination tool.</para>
<para>
Dependencies:
<itemizedlist>
<listitem>
<para>libcli 1.8.0 or greater</para>
</listitem>
<listitem>
<para>tun/tap interface compiled in the kernel or
as a module</para>
</listitem>
</itemizedlist>
</para>
</listitem>
</varlistentry>
<varlistentry>
<term>FreeRADIUS</term>
<listitem>
<para>For authentication, and accounting.</para>
</listitem>
</varlistentry>
<varlistentry>
<term>MySQL</term>
<listitem>
<para>To act as a back-end database for the RADIUS.</para>
</listitem>
</varlistentry>
<varlistentry>
<term>OpenSwan</term>
<listitem>
<para>Provides the ipsec suite package.</para>
</listitem>
</varlistentry>
</variablelist>
</para>
</sect3>
<sect3 id="deployment-requirements-kernel">
<title>Kernel Support</title>
<para>Debian stock kernel 2.4.27 and up are ipsec compatible
although if you think otherwise check for the
kernel-patch-openswan package.</para>
</sect3>
</sect2>
<sect2 id="deployment-installation">
<title>Installation</title>
<sect3 id="deployment-installation-l2tpns">
<title>L2TPns</title>
<sect4 id="deployment-installation-l2tpns-install">
<title>Installation</title>
<blockquote>
<para>L2TPns is a layer 2 tunneling protocol network server
(LNS). It supports up to 65535 concurrent sessions per
server/cluster plus ISP features such as rate limiting,
walled garden, usage accounting, and more.</para>
</blockquote>
<para>In a personal note - L2TPns is highly configurable for
many cases, and extremely reliable for
production/commerical use.</para>
<para>
<variablelist>
<varlistentry>
<term>Step 1:</term>
<listitem>
<para>Make sure you have libcli-1.8 development
package installed:
<screen># apt-cache search libcli
libcli-dev - emulates a cisco style telnet command-line interface (dev files)
libcli1 - emulates a cisco style telnet command-line interface
# apt-get install libcli-dev</screen>
</para>
</listitem>
</varlistentry>
<varlistentry>
<term>Step 2:</term>
<listitem>
<para>Download the source from
<ulink url="http://sourceforge.net/projects/l2tpns/">
SourceForge</ulink>.</para>
</listitem>
</varlistentry>
<varlistentry>
<term>Step 3:</term>
<listitem>
<para>Build and install:
<code>make &amp;&amp; make install</code></para>
</listitem>
</varlistentry>
</variablelist>
</para>
<note>
<para>Alternately, you can skip these steps and simply
<code>apt-get install l2tpns</code>.</para>
</note>
<note>
<para>On RPM-based distributions, you should be able to make
packages from the libcli and l2tpns source tarballs with
<code>rpmbuild -ta</code>.</para>
</note>
<para>Once compiliation is done you will have l2tpns in
<filename>/usr/sbin/l2tpns</filename>, and all
configuration files can be found in
<filename>/etc/l2tpns/</filename>.</para>
</sect4>
<sect4 id="deployment-installation-l2tpns-config">
<title>Configuration</title>
<para>The only configuration that L2TPns takes is
centralized in the configuration file
<filename>/etc/l2tpns/startup-config</filename>.
<programlisting>set debug 2 # Debugging level
set log_file "/var/log/l2tpns" # Log file: comment out to use stderr, use
# "syslog:facility" for syslog
set pid_file "/var/run/l2tpns.pid" # Write pid to this file
set l2tp_secret <emphasis>"secret"</emphasis> # shared secret
set primary_dns <emphasis>212.117.128.6</emphasis> # Only 2 DNS server entries are allowed
set secondary_dns <emphasis>212.117.129.3</emphasis>
set primary_radius <emphasis>192.168.0.1</emphasis> # Can have multiple radius server entries,
# but ony one radius secret
set primary_radius_port 1812
set radius_secret <emphasis>"radius_secret"</emphasis>
set radius_accounting yes
set radius_dae_port 3799
set accounting_dir "/var/run/l2tpns/acct" # Write usage accounting files into specified
# directory
set peer_address <emphasis>192.168.0.1</emphasis> # Gateway address given to clients
load plugin "sessionctl" # Drop/kill sessions
load plugin "autothrottle" # Throttle/snoop based on RADIUS
load plugin "throttlectl" # Control throttle/snoop with nsctl
load plugin "snoopctl"</programlisting>
</para>
<para>This is the trimmed down version of probably most of
the common configuration and even some extra options.</para>
<para>Important configuration options are highlited and you
should adjust these to meet your network needs. We can
deploy all of the environment into one box which is of
course not a very good idea from a security point of view,
but will function just fine. Moreover, we will be using
aliased IP addresses so once you've decided to move the
FreeRADIUS daemon to another computer on the LAN it will
be fairly easy and won't take too much configuration into
it.</para>
<para>Next, we need to setup the IP pool that L2TPns will
provide to each VPN client. The configuration file is
located at <filename>/etc/l2tpns/ip_pool</filename> and
should look like the following:
<programlisting>172.16.21.0/24</programlisting>
</para>
<important>
<para>Of course you can change this pool to anything else
(IANA IPs assigned for private internets only) just make
sure it is not conflicting with your current LAN network
addresses. This means that if you've assigned addresses
of 192.168.0.1 and 192.168.0.2 to your LAN boxes you
can't have a pool of 192.168.0.1/24 defined since L2TPns
will try to route those addresses from the tun device,
which is needless to say a bad idea...</para>
</important>
<para>Next up, creating the access-list for L2TPns.</para>
<para>Add a username and password into
<filename>/etc/l2tpns/users</filename>:
<programlisting>admin:12345</programlisting>
The password may either be plain-text as above, or
encrypted with MD5 or DES (to distinguish DES from
plain-text passwords, prefix the value with
<code>{crypt}</code>).</para>
<para>L2TPns utilizes a terminal connection on port 23 which you
would feel very comfortable in if you have worked with
routers and switches devices before. The terminal
provides control over the ppp termination which is why
we've created an account to log on to.</para>
</sect4>
</sect3>
<sect3 id="deployment-installation-ipsec">
<title>IPsec</title>
<sect4 id="deployment-installation-ipsec-install">
<title>Installation</title>
<para>User-space IPsec tools for various IPsec implementations
exist for linux, among them is the port of KAME's
libipsec, setkey, and racoon. Others are the OpenSWAN (a
successor to the FreeSWAN project).</para>
<para>Getting IPsec installed is fairly easy with Debian:
<screen># apt-get install openswan</screen>
</para>
<para>The OpenSWAN project provides packages for RPM-based
distributions.</para>
<para>Alternately, you may download the
<ulink url="http://www.openswan.org/code/">source</ulink>
from the OpenSWAN project:
<screen># tar xvzf openswan-2.4.4.tar.gz
# cd openswan-2.4.4
# ./configure &amp;&amp; make &amp;&amp; make install</screen>
</para>
</sect4>
<sect4 id="deployment-installation-ipsec-config">
<title>Configuration</title>
<para>OpenSWAN acts as the IKE daemon (remember IKE? it's
job is to authenticate between the two peers and negotiate
a secure medium). We will be setting up the IKE daemon as
a RoadWarrior configuration, a term for remote access
VPNs.</para>
<para>We desire this approach for compatibilty because after
our VPN solution will be complete any user from a Windows
machine will be easily ready to connect without any 3rd
party applications, same for Linux.</para>
<para>Configuration files are placed in
<filename>/etc/ipsec.d/</filename>,
<filename>/etc/ipsec.conf</filename> and
<filename>/etc/ipsec.secrets</filename>.</para>
<para>Let's start by choosing the remote client and it's PSK
(Private Shared Key) <filename>/etc/ipsec.secrets</filename>:
<programlisting>hostname_or_ipaddress %any : PSK "mysecretkeyisverylong"</programlisting>
</para>
<para>This is an IP/key pair. The IP or FQDN defines the
local peer (like a SOHO branch), then the remote host.
Here we defined %any for all hosts, though it's possible
to define only a specific IP. At last, we define the key
associated with it.</para>
<para>A better way to create a key is to utilize /dev/random
for creating a unique key.
<screen># dd if=/dev/random count=16 bs=1 2>/dev/null | xxd -ps</screen>
</para>
<para>Next, let's prepare the configuration file
<filename>/etc/ipsec.conf</filename>:
<programlisting>version 2.0
config setup
nat_traversal=yes
conn l2tp
authby=secret
pfs=no
keyingtries=3
left=real_ip_address
leftnexthop=%defaultroute
leftprotoport=17/%any
right=%any
rightprotoport=17/%any
auto=add
include /etc/ipsec.d/examples/no_oe.conf</programlisting>
</para>
<para>In this file we have first defined version 2 which is
a must, then enabled NAT Traversal. To understand the
importance of this feature think of the following
scenario: A remote user attempts to connect while he's
behind a router and there-fore NATed. The router has to
de-encapsulate the packet, change things and then build
it up again and send it. IPsec doesn't like other people
messing with it's packet. That's why we solve this issue
with NAT Traversal.</para>
<para>Next up we configure authentication type (certificates,
psk, rsa keys, etc) then the left and right peers. The
default mode OpenSWAN takes is tunnel unless told
otherwise. I won't go into in-depth explanation of every
method, you can take a quick look at
<filename>/etc/ipsec.d/examples</filename> for more
explanation and other variations of working with RSA keys,
Certificates, host-to-host, and more.</para>
<para>In summary:
<itemizedlist>
<listitem>
<para>We've configured an almost complete IPsec VPN
setup.</para>
</listitem>
<listitem>
<para>We've installed and configured a VPN server
(L2TPns) and our IPsec security suite.</para>
</listitem>
<listitem>
<para>To control both of them we use:
<filename>/etc/init.d/l2tpns</filename> and
<filename>/etc/init.d/racoon</filename> (location
of start-up scripts may vary on non-Debian systems,
or if you've installed from
source).</para>
</listitem>
</itemizedlist>
</para>
</sect4>
</sect3>
<sect3 id="deployment-installation-freeradius">
<title>FreeRADIUS</title>
<para>The VPN setup needs to authenticate against something,
that is the users database which we chose to be a FreeRADIUS
server backed with a MySQL database.</para>
<sect4 id="deployment-installation-freeradius-install">
<title>Installation</title>
<blockquote>
<para>FreeRADIUS is the premiere open source RADIUS
server. While detailed statistics are not available, we
believe that FreeRADIUS is well within the top 5 RADIUS
servers world-wide, in terms of the number of people who
use it daily for authentication. It scales from embedded
systems with small amounts of memory, to systems with
millions of users. It is fast, flexible, configurable,
and supports more authentication protocols than many
commercial servers.</para>
</blockquote>
<para>Installing on Debian:
<screen># apt-get install freeradius freeradius-mysql</screen>
</para>
<para>From source: Download the latest freeradius package from
<ulink url="http://freeradius.org/getting.html">freeradius.org
</ulink>
<screen># tar xvzf freeradius.tar.gz
# cd freeradius
# ./configure &amp;&amp; make &amp;&amp; make install</screen>
</para>
</sect4>
<sect4 id="deployment-installation-freeradius-config">
<title>Configuration</title>
<para>This will appear a bit complex but it isn't, it's just
a lot of configuration.</para>
<para>Following are the configurations you need to have in your
<filename>/etc/freeradius/</filename> files.</para>
<para>In this section I will not give you a dump of the
configuration since they are very long and mostly default.
I'll just post which changes to make.</para>
<para>We haven't yet configured MySQL, but it'll come
afterwards, don't worry.</para>
<para>Make the following changes to the file
<filename>/etc/freeradius/sql.conf</filename>:
<programlisting>server = "192.168.0.1"
login = "radius"
password = "12345678"</programlisting>
</para>
<para>Add the following to the file
<filename>/etc/freeradius/clients.conf</filename>:
<programlisting>client 192.168.0.1 {
secret = my_secret
shortname = localhost
nastype = other
}</programlisting>
</para>
<para>Don't confuse the secret directive there with IPsec.
RADIUS server are using secret keys also to identify their
allowed NAS (Network Access Servers), these are the
clients that talk to the RADIUS server.</para>
<para>Also, change the <code>client 127.0.0.1 {}</code>
directive to hold the secret "my_secret" like we
configured for 192.168.0.1 to avoid conflicts.</para>
<para>Uncomment the <code>sql</code> directive in the
<code>authorize</code>, <code>accounting</code>, and
<code>session</code> sections of
<filename>/etc/freeradius/radiusd.conf</filename>.</para>
<para>Now for populating FreeRADIUS with MySQL. If you
don't know or haven't set root password for MySQL you can
do it now with:
<screen># mysqladmin -u root password password_here</screen>
Then add the following to
<filename>/root/.my.cnf</filename>:
<programlisting>[mysqladmin]
user = root
password = password_here</programlisting>
</para>
<para>Create the <code>radius</code> database, using the
schema given in
<filename>/usr/share/doc/freeradius/examples/db_mysql.sql.gz
</filename>.</para>
<note>
<para>It may be necessary to modify the column definition
of <code>id</code> in the <code>nas</code> table,
removing <code>DEFAULT '0'</code> such that the
definition reads:
<programlisting>id int(10) NOT NULL auto_increment,</programlisting>
</para>
</note>
<screen># mysqladmin create radius
# mysql radius
mysql> source db_mysql.sql
mysql> GRANT ALL ON * TO 'radius'@'localhost' IDENTIFIED BY 'radius_password';</screen>
<para>All the configuration is now done. Let's add a user
to our VPN database.
<screen># mysql radius
mysql> INSERT INTO radcheck values (0, "test", "User-Password", "==", "1234");</screen>
</para>
<para>We have now created a user in the database of username
<code>test</code> and password <code>1234</code>.</para>
<para>Testing the RADIUS setup is simple using the radtest
utility provided with it.
<screen># radtest
Usage: radtest user passwd radius-server[:port] nas-port-number secret [ppphint] [nasname]
# radtest test 1234 192.168.0.1 1812 my_secret</screen>
</para>
<para>radtest sends an Access-Request to the RADIUS server
and expects an Access-Accept back from it. If you're not
getting an Access-Accept from the RADIUS you're advised to
check the configuration again and see what you might have
missed.</para>
</sect4>
</sect3>
<sect3 id="deployment-installation-firewall">
<title>Firewall Configuration</title>
<para>We need to apply a few things to iptables configuration
and kernel networking.</para>
<para>First off, we need to accept VPN-specific packets
through the firewall. Of course you will have to adjust the
rules to fits you needs, in this case, ppp0 is the Internet
interface.
<screen># iptables --append INPUT --in-interface ppp0 -p udp --dport 1701 -j ACCEPT
# iptables --append INPUT --in-interface ppp0 -p udp --dport 500 -j ACCEPT
# iptables --append INPUT --in-interface ppp0 -p udp --dport 4500 -j ACCEPT
# iptables --append INPUT --in-interface ppp0 -p 50 -j ACCEPT</screen>
</para>
<para>If you haven't setup your Linux box as a gateway yet
then you have to allow forwarding/masqing for the boxes on
the LAN (and therefore for the VPN clients):
<screen># iptables --table nat --append POSTROUTING --out-interface ppp0 -j MASQUERADE
# iptables --append FORWARD --in-interface eth0 -j ACCEPT
# echo 1 > /proc/sys/net/ipv4/ip_forward</screen>
</para>
</sect3>
</sect2>
</sect1>
<sect1 id="references">
<title>References</title>
<variablelist>
<varlistentry>
<term>VPN Reference</term>
<listitem>
<para>
<ulink url="http://www.jacco2.dds.nl/networking/freeswan-l2tp.html"></ulink>
</para>
</listitem>
</varlistentry>
<varlistentry>
<term>L2TPns Project</term>
<listitem>
<para><ulink url="http://l2tpns.sourceforge.net"></ulink></para>
</listitem>
</varlistentry>
<varlistentry>
<term>OpenSWAN Project</term>
<listitem>
<para><ulink url="http://www.openswan.org"></ulink></para>
</listitem>
</varlistentry>
</variablelist>
</sect1>
</article>

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2
l2tpns.spec
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@ -43,5 +43,5 @@ rm -rf %{buildroot}
%attr(644,root,root) /usr/share/man/man[58]/* %attr(644,root,root) /usr/share/man/man[58]/*
%changelog %changelog
* Mon Apr 24 2006 Brendan O'Dea <bod@optus.net> 2.1.19-1 * Tue Apr 25 2006 Brendan O'Dea <bod@optus.net> 2.1.19-1
- 2.1.19 release, see /usr/share/doc/l2tpns-2.1.19/Changes - 2.1.19 release, see /usr/share/doc/l2tpns-2.1.19/Changes