<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.0 Transitional//EN" "http://www.w3.org/TR/REC-html40/loose.dtd"> <HTML> <HEAD> <TITLE>Introduction to FreeS/WAN</TITLE> <META HTTP-EQUIV="Content-Type" CONTENT="text/html; CHARSET=iso-8859-1"> <STYLE TYPE="text/css"><!-- BODY { font-family: serif } H1 { font-family: sans-serif } H2 { font-family: sans-serif } H3 { font-family: sans-serif } H4 { font-family: sans-serif } H5 { font-family: sans-serif } H6 { font-family: sans-serif } SUB { font-size: smaller } SUP { font-size: smaller } PRE { font-family: monospace } --></STYLE> </HEAD> <BODY> <A HREF="toc.html">Contents</A> <A HREF="install.html">Previous</A> <A HREF="background.html">Next</A> <HR> <H1><A NAME="config">How to configure FreeS/WAN</A></H1> <P>This page will teach you how to configure a simple network-to-network link or a Road Warrior connection between two Linux FreeS/WAN boxes.</P> <P>See also these related documents:</P> <UL> <LI>our<A HREF="quickstart.html#quickstart"> quickstart</A> guide to<A HREF="glossary.html#carpediem"> opportunistic encryption</A></LI> <LI>our guide to configuration with<A HREF="policygroups.html#policygroups"> policy groups</A></LI> <LI>our<A HREF="adv_config.html#adv_config"> advanced configuration</A> document</LI> </UL> <P> The network-to-network setup allows you to connect two office networks into one Virtual Private Network, while the Road Warrior connection secures a laptop's telecommute to work. Our examples also show the basic procedure on the Linux FreeS/WAN side where another IPsec peer is in play.</P> <P> Shortcut to<A HREF="#config.netnet"> net-to-net</A>. <BR> Shortcut to<A HREF="#config.rw"> Road Warrior</A>.</P> <H2><A NAME="16_1">Requirements</A></H2> <P>To configure the network-to-network connection you must have:</P> <UL> <LI>two Linux gateways with static IPs</LI> <LI>a network behind each gate. Networks must have non-overlapping IP ranges.</LI> <LI>Linux FreeS/WAN<A HREF="install.html#install"> installed</A> on both gateways</LI> <LI><A HREF="http://www.tcpdump.org"><VAR>tcpdump</VAR></A> on the local gate, to test the connection</LI> </UL> <P>For the Road Warrior you need:</P> <UL> <LI>one Linux box with a static IP</LI> <LI>a Linux laptop with a dynamic IP</LI> <LI>Linux FreeS/WAN installed on both</LI> <LI>for testing,<VAR> tcpdump</VAR> on your gateway or laptop</LI> </UL> <P>If both IPs are dynamic, your situation is a bit trickier. Your best bet is a variation on the<A HREF="#config.rw"> Road Warrior</A>, as described in<A HREF="http://lists.freeswan.org/archives/users/2003-October/msg00282.html"> this mailing list message</A>.</P> <H2><A name="config.netnet"></A>Net-to-Net connection</H2> <H3><A name="netnet.info.ex">Gather information</A></H3> <P>For each gateway, compile the following information:</P> <UL> <LI>gateway IP</LI> <LI>IP range of the subnet you will be protecting. This doesn't have to be your whole physical subnet.</LI> <LI>a name by which that gateway can identify itself for IPsec negotiations. Its form is a Fully Qualified Domain Name preceded by an @ sign, ie. @xy.example.com. <BR> It does not need to be within a domain that you own. It can be a made-up name.</LI> </UL> <H4>Get your leftrsasigkey</H4> <P>On your local Linux FreeS/WAN gateway, print your IPsec public key:</P> <PRE> ipsec showhostkey --left</PRE> <P>The output should look like this (with the key shortened for easy reading):</P> <PRE> # RSA 2048 bits xy.example.com Fri Apr 26 15:01:41 2002 leftrsasigkey=0sAQOnwiBPt...</PRE> <P>Don't have a key? Use<A HREF="manpage.d/ipsec_newhostkey.8.html"><VAR> ipsec newhostkey</VAR></A> to create one.</P> <H4>...and your rightrsasigkey</H4> <P>Get a console on the remote side:</P> <PRE> ssh2 ab.example.com</PRE> <P>In that window, type:</P> <PRE> ipsec showhostkey --right</PRE> <P>You'll see something like:</P> <PRE> # RSA 2192 bits ab.example.com Thu May 16 15:26:20 2002 rightrsasigkey=0sAQOqH55O...</PRE> <H3><A NAME="16_2_2">Edit<VAR> /etc/ipsec.conf</VAR></A></H3> <P>Back on the local gate, copy our template to<VAR> /etc/ipsec.conf</VAR> . (on Mandrake,<VAR> /etc/freeswan/ipsec.conf</VAR>). Substitute the information you've gathered for our example data.</P> <PRE>conn net-to-net left=192.0.2.2 # Local vitals leftsubnet=192.0.2.128/29 # leftid=@xy.example.com # leftrsasigkey=0s1LgR7/oUM... # leftnexthop=%defaultroute # correct in many situations right=192.0.2.9 # Remote vitals rightsubnet=10.0.0.0/24 # rightid=@ab.example.com # rightrsasigkey=0sAQOqH55O... # rightnexthop=%defaultroute # correct in many situations auto=add # authorizes but doesn't start this # connection at startup</PRE> <P> "Left" and "right" should represent the machines that have FreeS/WAN installed on them, and "leftsubnet" and "rightsubnet" machines that are being protected. /32 is assumed for left/right and left/rightsubnet parameters.</P> <P>Copy<VAR> conn net-to-net</VAR> to the remote-side /etc/ipsec.conf. If you've made no other modifications to either<VAR> ipsec.conf</VAR>, simply:</P> <PRE> scp2 ipsec.conf root@ab.example.com:/etc/ipsec.conf</PRE> <H3><A NAME="16_2_3">Start your connection</A></H3> <P>Locally, type:</P> <PRE> ipsec auto --up net-to-net</PRE> <P>You should see:</P> <PRE> 104 "net-net" #223: STATE_MAIN_I1: initiate 106 "net-net" #223: STATE_MAIN_I2: sent MI2, expecting MR2 108 "net-net" #223: STATE_MAIN_I3: sent MI3, expecting MR3 004 "net-net" #223: STATE_MAIN_I4: ISAKMP SA established 112 "net-net" #224: STATE_QUICK_I1: initiate 004 "net-net" #224: STATE_QUICK_I2: sent QI2, IPsec SA established</PRE> <P>The important thing is<VAR> IPsec SA established</VAR>. If you're unsuccessful, see our<A HREF="trouble.html#trouble"> troubleshooting tips</A>.</P> <H3><A NAME="16_2_4">Do not MASQ or NAT packets to be tunneled</A></H3> <P>If you are using<A HREF="glossary.html#masq"> IP masquerade</A> or<A HREF="glossary.html#NAT.gloss"> Network Address Translation (NAT)</A> on either gateway, you must now exempt the packets you wish to tunnel from this treatment. For example, if you have a rule like:</P> <PRE>iptables -t nat -A POSTROUTING -o eth0 -s 10.0.0.0/24 -j MASQUERADE </PRE> <P>change it to something like:</P> <PRE>iptables -t nat -A POSTROUTING -o eth0 -s 10.0.0.0/24 -d \! 192.0.2.128/29 -j MASQUERADE</PRE> <P>This may be necessary on both gateways.</P> <H3><A NAME="16_2_5">Test your connection</A></H3> <P>Sit at one of your local subnet nodes (not the gateway), and ping a subnet node on the other (again, not the gateway).</P> <PRE> ping fileserver.toledo.example.com</PRE> <P>While still pinging, go to the local gateway and snoop your outgoing interface, for example:</P> <PRE> tcpdump -i ppp0</PRE> <P>You want to see ESP (Encapsulating Security Payload) packets moving<B> back and forth</B> between the two gateways at the same frequency as your pings:</P> <PRE> 19:16:32.046220 192.0.2.2 > 192.0.2.9: ESP(spi=0x3be6c4dc,seq=0x3) 19:16:32.085630 192.0.2.9 > 192.0.2.2: ESP(spi=0x5fdd1cf8,seq=0x6)</PRE> <P>If you see this, congratulations are in order! You have a tunnel which will protect any IP data from one subnet to the other, as it passes between the two gates. If not, go and<A HREF="trouble.html#trouble"> troubleshoot</A>.</P> <P>Note: your new tunnel protects only net-net traffic, not gateway-gateway, or gateway-subnet. If you need this (for example, if machines on one net need to securely contact a fileserver on the IPsec gateway), you'll need to create<A HREF="adv_config.html#adv_config"> extra connections</A>.</P> <H3><A NAME="16_2_6">Finishing touches</A></H3> <P>Now that your connection works, name it something sensible, like:</P> <PRE>conn winstonnet-toledonet</PRE> <P>To have the tunnel come up on-boot, replace</P> <PRE> auto=add</PRE> <P>with:</P> <PRE> auto=start</PRE> <P>Copy these changes to the other side, for example:</P> <PRE> scp2 ipsec.conf root@ab.example.com:/etc/ipsec.conf</PRE> <P>Enjoy!</P> <H2><A name="config.rw"></A>Road Warrior Configuration</H2> <H3><A name="rw.info.ex">Gather information</A></H3> <P>You'll need to know:</P> <UL> <LI>the gateway's static IP</LI> <LI>the IP range of the subnet behind that gateway</LI> <LI>a name by which each side can identify itself for IPsec negotiations. Its form is a Fully Qualified Domain Name preceded by an @ sign, ie. @road.example.com. <BR> It does not need to be within a domain that you own. It can be a made-up name.</LI> </UL> <H4>Get your leftrsasigkey...</H4> <P>On your laptop, print your IPsec public key:</P> <PRE> ipsec showhostkey --left</PRE> <P>The output should look like this (with the key shortened for easy reading):</P> <PRE> # RSA 2192 bits road.example.com Sun Jun 9 02:45:02 2002 leftrsasigkey=0sAQPIPN9uI...</PRE> <P>Don't have a key? See<A HREF="old_config.html#genrsakey"> these instructions</A>.</P> <H4>...and your rightrsasigkey</H4> <P>Get a console on the gateway:</P> <PRE> ssh2 xy.example.com</PRE> <P>View the gateway's public key with:</P> <PRE> ipsec showhostkey --right</PRE> <P>This will yield something like</P> <PRE> # RSA 2048 bits xy.example.com Fri Apr 26 15:01:41 2002 rightrsasigkey=0sAQOnwiBPt...</PRE> <H3><A NAME="16_3_2">Customize<VAR> /etc/ipsec.conf</VAR></A></H3> <P>On your laptop, copy this template to<VAR> /etc/ipsec.conf</VAR>. (on Mandrake,<VAR> /etc/freeswan/ipsec.conf</VAR>). Substitute the information you've gathered for our example data.</P> <PRE>conn road left=%defaultroute # Picks up our dynamic IP leftnexthop=%defaultroute # leftid=@road.example.com # Local information leftrsasigkey=0sAQPIPN9uI... # right=192.0.2.10 # Remote information rightsubnet=10.0.0.0/24 # rightid=@xy.example.com # rightrsasigkey=0sAQOnwiBPt... # auto=add # authorizes but doesn't start this # connection at startup</PRE> <P>The template for the gateway is different. Notice how it reverses<VAR> left</VAR> and<VAR> right</VAR>, in keeping with our convention that<STRONG> L</STRONG>eft is<STRONG> L</STRONG>ocal,<STRONG> R</STRONG>ight<STRONG> R</STRONG>emote. Be sure to switch your rsasigkeys in keeping with this.</P> <PRE> ssh2 xy.example.com vi /etc/ipsec.conf</PRE> <P>and add:</P> <PRE>conn road left=192.0.2.2 # Gateway's information leftid=@xy.example.com # leftsubnet=192.0.2.128/29 # leftrsasigkey=0sAQOnwiBPt... # rightnexthop=%defaultroute # correct in many situations right=%any # Wildcard: we don't know the laptop's IP rightid=@road.example.com # rightrsasigkey=0sAQPIPN9uI... # auto=add # authorizes but doesn't start this # connection at startup</PRE> <H3><A NAME="16_3_3">Start your connection</A></H3> <P>You must start the connection from the Road Warrior side. On your laptop, type:</P> <PRE> ipsec auto --start net-to-net</PRE> <P>You should see:</P> <PRE>104 "net-net" #223: STATE_MAIN_I1: initiate 106 "road" #301: STATE_MAIN_I2: sent MI2, expecting MR2 108 "road" #301: STATE_MAIN_I3: sent MI3, expecting MR3 004 "road" #301: STATE_MAIN_I4: ISAKMP SA established 112 "road" #302: STATE_QUICK_I1: initiate 004 "road" #302: STATE_QUICK_I2: sent QI2, IPsec SA established</PRE> <P>Look for<VAR> IPsec SA established</VAR>. If you're unsuccessful, see our<A HREF="trouble.html#trouble"> troubleshooting tips</A>.</P> <H3><A NAME="16_3_4">Do not MASQ or NAT packets to be tunneled</A></H3> <P>If you are using<A HREF="glossary.html#masq"> IP masquerade</A> or<A HREF="glossary.html#NAT.gloss"> Network Address Translation (NAT)</A> on either gateway, you must now exempt the packets you wish to tunnel from this treatment. For example, if you have a rule like:</P> <PRE>iptables -t nat -A POSTROUTING -o eth0 -s 10.0.0.0/24 -j MASQUERADE </PRE> <P>change it to something like:</P> <PRE>iptables -t nat -A POSTROUTING -o eth0 -s 10.0.0.0/24 -d \! 192.0.2.128/29 -j MASQUERADE</PRE> <H3><A NAME="16_3_5">Test your connection</A></H3> <P>From your laptop, ping a subnet node behind the remote gateway. Do not choose the gateway itself for this test.</P> <PRE> ping ns.winston.example.com</PRE> <P>Snoop the packets exiting the laptop, with a command like:</P> <PRE> tcpdump -i wlan0</PRE> <P>You have success if you see (Encapsulating Security Payload) packets travelling<B> in both directions</B>:</P> <PRE> 19:16:32.046220 192.0.2.2 > 192.0.2.9: ESP(spi=0x3be6c4dc,seq=0x3) 19:16:32.085630 192.0.2.9 > 192.0.2.2: ESP(spi=0x5fdd1cf8,seq=0x6)</PRE> <P>If you do, great! Traffic between your Road Warrior and the net behind your gateway is protected. If not, see our<A HREF="trouble.html#trouble"> troubleshooting hints</A>.</P> <P>Your new tunnel protects only traffic addressed to the net, not to the IPsec gateway itself. If you need the latter, you'll want to make an<A HREF="adv_config.html#adv_config"> extra tunnel.</A>.</P> <H3><A NAME="16_3_6">Finishing touches</A></H3> <P>On both ends, name your connection wisely, like:</P> <PRE>conn mike-to-office</PRE> <P><B>On the laptop only,</B> replace</P> <PRE> auto=add</PRE> <P>with:</P> <PRE> auto=start</PRE> <P>so that you'll be connected on-boot.</P> <P>Happy telecommuting!</P> <H3><A NAME="16_3_7">Multiple Road Warriors</A></H3> <P>If you're using RSA keys, as we did in this example, you can add as many Road Warriors as you like. The left/rightid parameter lets Linux FreeS/WAN distinguish between multiple Road Warrior peers, each with its own public key.</P> <P>The situation is different for shared secrets (PSK). During a PSK negotiation, ID information is not available at the time Pluto is trying to determine which secret to use, so, effectively, you can only define one Roadwarrior connection. All your PSK road warriors must therefore share one secret.</P> <H2><A NAME="16_4">What next?</A></H2> <P>Using the principles illustrated here, you can try variations such as:</P> <UL> <LI>a telecommuter with a static IP</LI> <LI>a road warrior with a subnet behind it</LI> </UL> <P>Or, look at some of our<A HREF="adv_config.html#adv_config"> more complex configuration examples.</A>.</P> <HR> <A HREF="toc.html">Contents</A> <A HREF="install.html">Previous</A> <A HREF="background.html">Next</A> </BODY> </HTML>