gvpe/doc/gvpe.5.pod

=head1 NAME

GNU-VPE - Overview of the GNU Virtual Private Ethernet suite.

=head1 DESCRIPTION

GVPE is a suite designed to provide a virtual private network for multiple
nodes over an untrusted network. This document first gives an introduction
to VPNs in general and then describes the specific implementation of GVPE.

=head2 WHAT IS A VPN?

VPN is an acronym, it stands for:

=over 4

=item Virtual

Virtual means that no physical network is created (of course), but a
network is I<emulated> by creating multiple tunnels between the member
nodes by encapsulating and sending data over another transport network.

Usually the emulated network is a normal IP or Ethernet, and the transport
network is the Internet. However, using a VPN system like GVPE to connect
nodes over other untrusted networks such as Wireless LAN is not uncommon.

=item Private

Private means that non-participating nodes cannot decode ("sniff)" nor
inject ("spoof") packets. This means that nodes can be connected over
untrusted networks such as the public Internet without fear of being
eavesdropped while at the same time being able to trust data sent by other
nodes.

In the case of GVPE, even participating nodes cannot sniff packets
send to other nodes or spoof packets as if sent from other nodes, so
communications between any two nodes is private to those two nodes.

=item Network

Network means that more than two parties can participate in the network,
so for instance it's possible to connect multiple branches of a company
into a single network. Many so-called "VPN" solutions only create
point-to-point tunnels, which in turn can be used to build larger
networks.

GVPE provides a true multi-point network in which any number of nodes (at
least a few dozen in practise, the theoretical limit is 4095 nodes) can
participate.

=back

=head2 GVPE DESIGN GOALS

=over 4

=item SIMPLE DESIGN

Cipher, HMAC algorithms and other key parameters must be selected
at compile time - this makes it possible to only link in algorithms
you actually need. It also makes the crypto part of the source very
transparent and easy to inspect, and last not least this makes it possible
to hardcode the layout of all packets into the binary. GVPE goes a step
further and internally reserves blocks of the same length for all packets,
which virtually removes all possibilities of buffer overflows, as there is
only a single type of buffer and it's always of fixed length.

=item EASY TO SETUP

A few lines of config (the config file is shared unmodified between all
hosts) and generating an RSA key-pair on each node suffices to make it
work.

=item MAC-BASED SECURITY

Since every host has it's own private key, other hosts cannot spoof
traffic from this host. That makes it possible to filter packet by MAC
address, e.g. to ensure that packets from a specific IP address come, in
fact, from a specific host that is associated with that IP and not from
another host.

=back

=head1 PROGRAMS

Gvpe comes with two programs: one daemon (C<gvpe>) and one control program
(C<gvpectrl>).

=over 4

=item gvpectrl

This program is used to generate the keys, check and give an overview of of the
configuration and to control the daemon (restarting etc.).

=item gvpe

This is the daemon used to establish and maintain connections to the other
network nodes. It should be run on the gateway of each VPN subnet.

=back

=head1 COMPILETIME CONFIGURATION

Please have a look at the C<gvpe.osdep(5)> manpage for platform-specific
information.

Gvpe hardcodes most encryption parameters. While this reduces flexibility,
it makes the program much simpler and helps making buffer overflows
impossible under most circumstances.

Here are a few recipes for compiling your gvpe, showing the extremes
(fast, small, insecure OR slow, large, more secure), between which you
should choose:

=head2 AS LOW PACKET OVERHEAD AS POSSIBLE

   ./configure --enable-hmac-length=4 --enable-rand-length=0

Minimize the header overhead of VPN packets (the above will result in
only 4 bytes of overhead over the raw ethernet frame). This is a insecure
configuration because a HMAC length of 4 makes collision attacks almost
trivial.

=head2 MINIMIZE CPU TIME REQUIRED

   ./configure --enable-cipher=bf --enable-digest=md4

Use the fastest cipher and digest algorithms currently available in
gvpe. MD4 has been broken and is quite insecure, though, so using another
digest algorithm is recommended.

=head2 MAXIMIZE SECURITY

   ./configure --enable-hmac-length=16 --enable-rand-length=12 --enable-digest=ripemd610

This uses a 16 byte HMAC checksum to authenticate packets (I guess 8-12
would also be pretty secure ;) and will additionally prefix each packet
with 12 bytes of random data.

In general, remember that AES-128 seems to be as secure but faster than
AES-192 or AES-256, more randomness helps against sniffing and a longer
HMAC helps against spoofing. MD4 is a fast digest, SHA1, RIPEMD160, SHA256
are consecutively better, and Blowfish is a fast cipher (and also quite
secure).

=head1 HOW TO SET UP A SIMPLE VPN

In this section I will describe how to get a simple VPN consisting of
three hosts up and running.

=head2 STEP 1: configuration

First you have to create a daemon configuration file and put it into the
configuration directory. This is usually C</etc/gvpe>, depending on how you
configured gvpe, and can be overwritten using the C<-c> command line switch.

Put the following lines into C</etc/gvpe/gvpe.conf>:

   udp-port = 50000 # the external port to listen on (configure your firewall)
   mtu = 1400       # minimum MTU of all outgoing interfaces on all hosts
   ifname = vpn0    # the local network device name

   node = first     # just a nickname
   hostname = first.example.net # the DNS name or IP address of the host

   node = second
   hostname = 133.55.82.9

   node = third
   hostname = third.example.net

The only other file necessary is the C<if-up> script that initializes the
virtual ethernet interface on the local host. Put the following lines into
C</etc/gvpe/if-up> and make it executable (C<chmod 755 /etc/gvpe/if-up>):

   #!/bin/sh
   ip link set $IFNAME address $MAC mtu $MTU up
   [ $NODENAME = first  ] && ip addr add 10.0.1.1 dev $IFNAME
   [ $NODENAME = second ] && ip addr add 10.0.2.1 dev $IFNAME
   [ $NODENAME = third  ] && ip addr add 10.0.3.1 dev $IFNAME
   ip route add 10.0.0.0/16 dev $IFNAME

This script will give each node a different IP address in the C<10.0/16>
network.  The internal network (if gvpe runs on a router) should then be
set to a subset of that network, e.g.  C<10.0.1.0/24> on node C<first>,
C<10.0.2.0/24> on node C<second>, and so on.

By enabling routing on the gateway host that runs C<gvpe> all nodes will
be able to reach the other nodes. You can, of course, also use proxy ARP
or other means of pseudo-bridging, or (best) full routing - the choice is
yours.

=head2 STEP 2: create the RSA key pair for each node

Next you have to generate the RSA keys for the nodes. While you can set
up GVPE so you can generate all keys on a single host and centrally
distribute all keys, it is safer to generate the key for each node on the
node, so that the secret/private key does not have to be copied over the
network.

To do so, run the following command to generate a key pair:

   gvpectrl -c /etc/gvpe -g nodekey

This will create two files, F<nodekey> and F<nodekey.privkey>. The former
should be copied to F<< /etc/gvpe/pubkey/I<nodename> >> on the host where
your config file is (you will have to create the F<pubkey> directory
first):

   scp nodekey confighost:/etc/gvpe/pubkey/nodename

The private key F<nodekey.privkey> should be moved to F</etc/gvpe/hostkey>:

   mkdir -p /etc/gvpe
   mv nodekey.privkey /etc/gvpe/hostkey

=head2 STEP 3: distribute the config files to all nodes

Now distribute the config files and public keys to the other nodes.

The example uses rsync-over-ssh to copy the config file and all the public
keys:

   rsync -avzessh /etc/gvpe first.example.net:/etc/. --exclude hostkey
   rsync -avzessh /etc/gvpe 133.55.82.9:/etc/.       --exclude hostkey
   rsync -avzessh /etc/gvpe third.example.net:/etc/. --exclude hostkey

You should now check the configuration by issuing the command C<gvpectrl
-c /etc/gvpe -s> on each node and verify it's output.

=head2 STEP 4: starting gvpe

You should then start gvpe on each node by issuing a command like:

   gvpe -D -l info first # first is the nodename

This will make the gvpe daemon stay in foreground. You should then see
"connection established" messages. If you don't see them check your
firewall and routing (use tcpdump ;).

If this works you should check your networking setup by pinging various
endpoints.

To make gvpe run more permanently you can either run it as a daemon (by
starting it without the C<-D> switch), or, much better, from your inittab
or equivalent. I use a line like this on all my systems:

   t1:2345:respawn:/opt/gvpe/sbin/gvpe -D -L first >/dev/null 2>&1

=head2 STEP 5: enjoy

... and play around. Sending a -HUP (C<gvpectrl -kHUP>) to the daemon
will make it try to connect to all other nodes again. If you run it from
inittab C<gvpectrl -k> (or simply C<killall gvpe>) will kill the daemon,
start it again, making it read it's configuration files again.

To run the GVPE daemon permanently from your SysV init, you can add it to
your F<inittab>, e.g.:

   t1:2345:respawn:/bin/sh -c "exec nice -n-20 /path/to/gvpe -D node >/var/log/gvpe.log 2>&1"

For systems using systemd, you can use a unit file similar to this one:

   [Unit]
   Description=gvpe
   After=network.target
   Before=remote-fs.target

   [Service]
   ExecStart=/path/to/gvpe -D node
   KillMode=process
   Restart=always

   [Install]
   WantedBy=multi-user.target

=head1 SEE ALSO

gvpe.osdep(5) for OS-dependent information, gvpe.conf(5), gvpectrl(8),
and for a description of the transports, protocol, and routing algorithm,
gvpe.protocol(7).

The GVPE mailing list, at L<http://lists.schmorp.de/>, or
C<gvpe@lists.schmorp.de>.

=head1 AUTHOR

Marc Lehmann <gvpe@schmorp.de>

=head1 COPYRIGHTS AND LICENSES

GVPE itself is distributed under the GENERAL PUBLIC LICENSE (see the file
COPYING that should be part of your distribution).

In some configurations it uses modified versions of the tinc vpn suite,
which is also available under the GENERAL PUBLIC LICENSE.

Revision:	1.13
Committed:	Wed Nov 2 06:58:35 2016 UTC (7 years, 6 months ago) by root
Branch:	MAIN
CVS Tags:	rel-3_0, HEAD
Changes since 1.12:	+5 -6 lines
Log Message:	* empty log message *
#	Content
1	=head1 NAME
2
3	GNU-VPE - Overview of the GNU Virtual Private Ethernet suite.
4
5	=head1 DESCRIPTION
6
7	GVPE is a suite designed to provide a virtual private network for multiple
8	nodes over an untrusted network. This document first gives an introduction
9	to VPNs in general and then describes the specific implementation of GVPE.
10
11	=head2 WHAT IS A VPN?
12
13	VPN is an acronym, it stands for:
14
15	=over 4
16
17	=item Virtual
18
19	Virtual means that no physical network is created (of course), but a
20	network is I<emulated> by creating multiple tunnels between the member
21	nodes by encapsulating and sending data over another transport network.
22
23	Usually the emulated network is a normal IP or Ethernet, and the transport
24	network is the Internet. However, using a VPN system like GVPE to connect
25	nodes over other untrusted networks such as Wireless LAN is not uncommon.
26
27	=item Private
28
29	Private means that non-participating nodes cannot decode ("sniff)" nor
30	inject ("spoof") packets. This means that nodes can be connected over
31	untrusted networks such as the public Internet without fear of being
32	eavesdropped while at the same time being able to trust data sent by other
33	nodes.
34
35	In the case of GVPE, even participating nodes cannot sniff packets
36	send to other nodes or spoof packets as if sent from other nodes, so
37	communications between any two nodes is private to those two nodes.
38
39	=item Network
40
41	Network means that more than two parties can participate in the network,
42	so for instance it's possible to connect multiple branches of a company
43	into a single network. Many so-called "VPN" solutions only create
44	point-to-point tunnels, which in turn can be used to build larger
45	networks.
46
47	GVPE provides a true multi-point network in which any number of nodes (at
48	least a few dozen in practise, the theoretical limit is 4095 nodes) can
49	participate.
50
51	=back
52
53	=head2 GVPE DESIGN GOALS
54
55	=over 4
56
57	=item SIMPLE DESIGN
58
59	Cipher, HMAC algorithms and other key parameters must be selected
60	at compile time - this makes it possible to only link in algorithms
61	you actually need. It also makes the crypto part of the source very
62	transparent and easy to inspect, and last not least this makes it possible
63	to hardcode the layout of all packets into the binary. GVPE goes a step
64	further and internally reserves blocks of the same length for all packets,
65	which virtually removes all possibilities of buffer overflows, as there is
66	only a single type of buffer and it's always of fixed length.
67
68	=item EASY TO SETUP
69
70	A few lines of config (the config file is shared unmodified between all
71	hosts) and generating an RSA key-pair on each node suffices to make it
72	work.
73
74	=item MAC-BASED SECURITY
75
76	Since every host has it's own private key, other hosts cannot spoof
77	traffic from this host. That makes it possible to filter packet by MAC
78	address, e.g. to ensure that packets from a specific IP address come, in
79	fact, from a specific host that is associated with that IP and not from
80	another host.
81
82	=back
83
84	=head1 PROGRAMS
85
86	Gvpe comes with two programs: one daemon (C<gvpe>) and one control program
87	(C<gvpectrl>).
88
89	=over 4
90
91	=item gvpectrl
92
93	This program is used to generate the keys, check and give an overview of of the
94	configuration and to control the daemon (restarting etc.).
95
96	=item gvpe
97
98	This is the daemon used to establish and maintain connections to the other
99	network nodes. It should be run on the gateway of each VPN subnet.
100
101	=back
102
103	=head1 COMPILETIME CONFIGURATION
104
105	Please have a look at the C<gvpe.osdep(5)> manpage for platform-specific
106	information.
107
108	Gvpe hardcodes most encryption parameters. While this reduces flexibility,
109	it makes the program much simpler and helps making buffer overflows
110	impossible under most circumstances.
111
112	Here are a few recipes for compiling your gvpe, showing the extremes
113	(fast, small, insecure OR slow, large, more secure), between which you
114	should choose:
115
116	=head2 AS LOW PACKET OVERHEAD AS POSSIBLE
117
118	./configure --enable-hmac-length=4 --enable-rand-length=0
119
120	Minimize the header overhead of VPN packets (the above will result in
121	only 4 bytes of overhead over the raw ethernet frame). This is a insecure
122	configuration because a HMAC length of 4 makes collision attacks almost
123	trivial.
124
125	=head2 MINIMIZE CPU TIME REQUIRED
126
127	./configure --enable-cipher=bf --enable-digest=md4
128
129	Use the fastest cipher and digest algorithms currently available in
130	gvpe. MD4 has been broken and is quite insecure, though, so using another
131	digest algorithm is recommended.
132
133	=head2 MAXIMIZE SECURITY
134
135	./configure --enable-hmac-length=16 --enable-rand-length=12 --enable-digest=ripemd610
136
137	This uses a 16 byte HMAC checksum to authenticate packets (I guess 8-12
138	would also be pretty secure ;) and will additionally prefix each packet
139	with 12 bytes of random data.
140
141	In general, remember that AES-128 seems to be as secure but faster than
142	AES-192 or AES-256, more randomness helps against sniffing and a longer
143	HMAC helps against spoofing. MD4 is a fast digest, SHA1, RIPEMD160, SHA256
144	are consecutively better, and Blowfish is a fast cipher (and also quite
145	secure).
146
147	=head1 HOW TO SET UP A SIMPLE VPN
148
149	In this section I will describe how to get a simple VPN consisting of
150	three hosts up and running.
151
152	=head2 STEP 1: configuration
153
154	First you have to create a daemon configuration file and put it into the
155	configuration directory. This is usually C</etc/gvpe>, depending on how you
156	configured gvpe, and can be overwritten using the C<-c> command line switch.
157
158	Put the following lines into C</etc/gvpe/gvpe.conf>:
159
160	udp-port = 50000 # the external port to listen on (configure your firewall)
161	mtu = 1400 # minimum MTU of all outgoing interfaces on all hosts
162	ifname = vpn0 # the local network device name
163
164	node = first # just a nickname
165	hostname = first.example.net # the DNS name or IP address of the host
166
167	node = second
168	hostname = 133.55.82.9
169
170	node = third
171	hostname = third.example.net
172
173	The only other file necessary is the C<if-up> script that initializes the
174	virtual ethernet interface on the local host. Put the following lines into
175	C</etc/gvpe/if-up> and make it executable (C<chmod 755 /etc/gvpe/if-up>):
176
177	#!/bin/sh
178	ip link set $IFNAME address $MAC mtu $MTU up
179	[ $NODENAME = first ] && ip addr add 10.0.1.1 dev $IFNAME
180	[ $NODENAME = second ] && ip addr add 10.0.2.1 dev $IFNAME
181	[ $NODENAME = third ] && ip addr add 10.0.3.1 dev $IFNAME
182	ip route add 10.0.0.0/16 dev $IFNAME
183
184	This script will give each node a different IP address in the C<10.0/16>
185	network. The internal network (if gvpe runs on a router) should then be
186	set to a subset of that network, e.g. C<10.0.1.0/24> on node C<first>,
187	C<10.0.2.0/24> on node C<second>, and so on.
188
189	By enabling routing on the gateway host that runs C<gvpe> all nodes will
190	be able to reach the other nodes. You can, of course, also use proxy ARP
191	or other means of pseudo-bridging, or (best) full routing - the choice is
192	yours.
193
194	=head2 STEP 2: create the RSA key pair for each node
195
196	Next you have to generate the RSA keys for the nodes. While you can set
197	up GVPE so you can generate all keys on a single host and centrally
198	distribute all keys, it is safer to generate the key for each node on the
199	node, so that the secret/private key does not have to be copied over the
200	network.
201
202	To do so, run the following command to generate a key pair:
203
204	gvpectrl -c /etc/gvpe -g nodekey
205
206	This will create two files, F<nodekey> and F<nodekey.privkey>. The former
207	should be copied to F<< /etc/gvpe/pubkey/I<nodename> >> on the host where
208	your config file is (you will have to create the F<pubkey> directory
209	first):
210
211	scp nodekey confighost:/etc/gvpe/pubkey/nodename
212
213	The private key F<nodekey.privkey> should be moved to F</etc/gvpe/hostkey>:
214
215	mkdir -p /etc/gvpe
216	mv nodekey.privkey /etc/gvpe/hostkey
217
218	=head2 STEP 3: distribute the config files to all nodes
219
220	Now distribute the config files and public keys to the other nodes.
221
222	The example uses rsync-over-ssh to copy the config file and all the public
223	keys:
224
225	rsync -avzessh /etc/gvpe first.example.net:/etc/. --exclude hostkey
226	rsync -avzessh /etc/gvpe 133.55.82.9:/etc/. --exclude hostkey
227	rsync -avzessh /etc/gvpe third.example.net:/etc/. --exclude hostkey
228
229	You should now check the configuration by issuing the command C<gvpectrl
230	-c /etc/gvpe -s> on each node and verify it's output.
231
232	=head2 STEP 4: starting gvpe
233
234	You should then start gvpe on each node by issuing a command like:
235
236	gvpe -D -l info first # first is the nodename
237
238	This will make the gvpe daemon stay in foreground. You should then see
239	"connection established" messages. If you don't see them check your
240	firewall and routing (use tcpdump ;).
241
242	If this works you should check your networking setup by pinging various
243	endpoints.
244
245	To make gvpe run more permanently you can either run it as a daemon (by
246	starting it without the C<-D> switch), or, much better, from your inittab
247	or equivalent. I use a line like this on all my systems:
248
249	t1:2345:respawn:/opt/gvpe/sbin/gvpe -D -L first >/dev/null 2>&1
250
251	=head2 STEP 5: enjoy
252
253	... and play around. Sending a -HUP (C<gvpectrl -kHUP>) to the daemon
254	will make it try to connect to all other nodes again. If you run it from
255	inittab C<gvpectrl -k> (or simply C<killall gvpe>) will kill the daemon,
256	start it again, making it read it's configuration files again.
257
258	To run the GVPE daemon permanently from your SysV init, you can add it to
259	your F<inittab>, e.g.:
260
261	t1:2345:respawn:/bin/sh -c "exec nice -n-20 /path/to/gvpe -D node >/var/log/gvpe.log 2>&1"
262
263	For systems using systemd, you can use a unit file similar to this one:
264
265	[Unit]
266	Description=gvpe
267	After=network.target
268	Before=remote-fs.target
269
270	[Service]
271	ExecStart=/path/to/gvpe -D node
272	KillMode=process
273	Restart=always
274
275	[Install]
276	WantedBy=multi-user.target
277
278	=head1 SEE ALSO
279
280	gvpe.osdep(5) for OS-dependent information, gvpe.conf(5), gvpectrl(8),
281	and for a description of the transports, protocol, and routing algorithm,
282	gvpe.protocol(7).
283
284	The GVPE mailing list, at L<http://lists.schmorp.de/>, or
285	C<gvpe@lists.schmorp.de>.
286
287	=head1 AUTHOR
288
289	Marc Lehmann <gvpe@schmorp.de>
290
291	=head1 COPYRIGHTS AND LICENSES
292
293	GVPE itself is distributed under the GENERAL PUBLIC LICENSE (see the file
294	COPYING that should be part of your distribution).
295
296	In some configurations it uses modified versions of the tinc vpn suite,
297	which is also available under the GENERAL PUBLIC LICENSE.
298