vyos-documentation/docs/vpn/wireguard.rst
2019-11-28 21:41:32 +01:00

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.. _wireguard:
WireGuard VPN Interface
-----------------------
WireGuard is an extremely simple yet fast and modern VPN that utilizes
state-of-the-art cryptography. See https://www.wireguard.com for more
information.
Configuration
^^^^^^^^^^^^^
Wireguard requires the generation of a keypair, a private key which will decrypt
incoming traffic and a public key, which the peer(s) will use to encrypt traffic.
Generate a keypair
~~~~~~~~~~~~~~~~~~
Generate the keypair, which creates a public and private part and stores it
within VyOS.
It will be used per default on any configured wireguard interface, even if
multiple interfaces are being configured.
.. code-block:: none
wg01:~$ configure
wg01# run generate wireguard keypair
The public key is being shared with your peer(s), your peer will encrypt all
traffic to your system using this public key.
.. code-block:: none
wg01# run show wireguard pubkey
u41jO3OF73Gq1WARMMFG7tOfk7+r8o8AzPxJ1FZRhzk=
Generate named keypairs
~~~~~~~~~~~~~~~~~~~~~~~
Named keypairs can be used on a interface basis, if configured.
If multiple wireguard interfaces are being configured, each can have
their own keypairs.
The commands below will generate 2 keypairs, which are not related
to each other.
.. code-block:: none
wg01:~$ configure
wg01# run generate wireguard named-keypairs KP01
wg01# run generate wireguard named-keypairs KP02
Wireguard Interface configuration
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
The next step is to configure your local side as well as the policy based
trusted destination addresses. If you only initiate a connection, the listen
port and endpoint is optional, if you however act as a server and endpoints
initiate the connections to your system, you need to define a port your clients
can connect to, otherwise it's randomly chosen and may make it difficult with
firewall rules, since the port may be a different one when you reboot your
system.
You will also need the public key of your peer as well as the network(s) you
want to tunnel (allowed-ips) to configure a wireguard tunnel. The public key
below is always the public key from your peer, not your local one.
**local side**
.. code-block:: none
set interfaces wireguard wg01 address '10.1.0.1/24'
set interfaces wireguard wg01 description 'VPN-to-wg02'
set interfaces wireguard wg01 peer to-wg02 allowed-ips '10.2.0.0/24'
set interfaces wireguard wg01 peer to-wg02 endpoint '192.168.0.142:12345'
set interfaces wireguard wg01 peer to-wg02 pubkey 'XMrlPykaxhdAAiSjhtPlvi30NVkvLQliQuKP7AI7CyI='
set interfaces wireguard wg01 port '12345'
set protocols static interface-route 10.2.0.0/24 next-hop-interface wg01
.. note:: The `endpoint` must be an IP and not a fully qualified domain name (FQDN). Using a FQDN will result in unexpected behavior.
The last step is to define an interface route for 10.2.0.0/24 to get through
the wireguard interface `wg01`. Multiple IPs or networks can be defined and
routed, the last check is allowed-ips which either prevents or allows the
traffic.
To use a named key on an interface, the option private-key needs to be set.
.. code-block:: none
set interfaces wireguard wg01 private-key KP01
set interfaces wireguard wg02 private-key KP02
The command ``run show wireguard named-keypairs pubkey KP01`` will then show the public key,
which needs to be shared with the peer.
**remote side**
.. code-block:: none
set interfaces wireguard wg01 address '10.2.0.1/24'
set interfaces wireguard wg01 description 'VPN-to-wg01'
set interfaces wireguard wg01 peer to-wg02 allowed-ips '10.1.0.0/24'
set interfaces wireguard wg01 peer to-wg02 endpoint '192.168.0.124:12345'
set interfaces wireguard wg01 peer to-wg02 pubkey 'u41jO3OF73Gq1WARMMFG7tOfk7+r8o8AzPxJ1FZRhzk='
set interfaces wireguard wg01 port '12345'
set protocols static interface-route 10.1.0.0/24 next-hop-interface wg01
Assure that your firewall rules allow the traffic, in which case you have a
working VPN using wireguard.
.. code-block:: none
wg01# ping 10.2.0.1
PING 10.2.0.1 (10.2.0.1) 56(84) bytes of data.
64 bytes from 10.2.0.1: icmp_seq=1 ttl=64 time=1.16 ms
64 bytes from 10.2.0.1: icmp_seq=2 ttl=64 time=1.77 ms
wg02# ping 10.1.0.1
PING 10.1.0.1 (10.1.0.1) 56(84) bytes of data.
64 bytes from 10.1.0.1: icmp_seq=1 ttl=64 time=4.40 ms
64 bytes from 10.1.0.1: icmp_seq=2 ttl=64 time=1.02 ms
An additional layer of symmetric-key crypto can be used on top of the
asymmetric crypto, which is optional.
.. code-block:: none
wg01# run generate wireguard preshared-key
rvVDOoc2IYEnV+k5p7TNAmHBMEGTHbPU8Qqg8c/sUqc=
Copy the key, as it is not stored on the local file system. Make sure you
distribute that key in a safe manner, it's a symmetric key, so only you and
your peer should have knowledge of its content.
.. code-block:: none
wg01# set interfaces wireguard wg01 peer to-wg02 preshared-key 'rvVDOoc2IYEnV+k5p7TNAmHBMEGTHbPU8Qqg8c/sUqc='
wg02# set interfaces wireguard wg01 peer to-wg01 preshared-key 'rvVDOoc2IYEnV+k5p7TNAmHBMEGTHbPU8Qqg8c/sUqc='
Road Warrior Example
~~~~~~~~~~~~~~~~~~~~
With WireGuard, a Road Warrior VPN config is similar to a site-to-site VPN. It just lacks the ``endpoint`` address.
In the following example, the IPs for the remote clients are defined in the peers. This would allow the peers to interact with one another.
.. code-block:: none
wireguard wg0 {
address 10.172.24.1/24
address 2001:DB8:470:22::1/64
description RoadWarrior
peer MacBook {
allowed-ips 10.172.24.30/32
allowed-ips 2001:DB8:470:22::30/128
persistent-keepalive 15
pubkey F5MbW7ye7DsoxdOaixjdrudshjjxN5UdNV+pGFHqehc=
}
peer iPhone {
allowed-ips 10.172.24.20/32
allowed-ips 2001:DB8:470:22::30/128
persistent-keepalive 15
pubkey BknHcLFo8nOo8Dwq2CjaC/TedchKQ0ebxC7GYn7Al00=
}
port 2224
}
The following is the config for the iPhone peer above. It's important to note that the ``AllowedIPs`` setting
directs all IPv4 and IPv6 traffic through the connection.
.. code-block:: none
[Interface]
PrivateKey = ARAKLSDJsadlkfjasdfiowqeruriowqeuasdf=
Address = 10.172.24.20/24, 2001:DB8:470:22::20/64
DNS = 10.0.0.53, 10.0.0.54
[Peer]
PublicKey = RIbtUTCfgzNjnLNPQ/ulkGnnB2vMWHm7l2H/xUfbyjc=
AllowedIPs = 0.0.0.0/0, ::/0
Endpoint = 192.0.2.1:2224
PersistentKeepalive = 25
This MacBook peer is doing split-tunneling, where only the subnets local to the server go over the connection.
.. code-block:: none
[Interface]
PrivateKey = 8Iasdfweirousd1EVGUk5XsT+wYFZ9mhPnQhmjzaJE6Go=
Address = 10.172.24.30/24, 2001:DB8:470:22::30/64
[Peer]
PublicKey = RIbtUTCfgzNjnLNPQ/ulkGnnB2vMWHm7l2H/xUfbyjc=
AllowedIPs = 10.172.24.30/24, 2001:DB8:470:22::/64
Endpoint = 192.0.2.1:2224
PersistentKeepalive = 25
Operational commands
^^^^^^^^^^^^^^^^^^^^
**Show interface status**
.. code-block:: none
vyos@wg01# run show interfaces wireguard wg01
interface: wg1
description: VPN-to-wg01
address: 10.2.0.1/24
public key: RIbtUTCfgzNjnLNPQ/asldkfjhaERDFl2H/xUfbyjc=
private key: (hidden)
listening port: 53665
peer: to-wg02
public key: u41jO3OF73Gq1WARMMFG7tOfk7+r8o8AzPxJ1FZRhzk=
latest handshake: 0:01:20
status: active
endpoint: 192.168.0.124:12345
allowed ips: 10.2.0.0/24
transfer: 42 GB received, 487 MB sent
persistent keepalive: every 15 seconds
RX:
bytes packets errors dropped overrun mcast
45252407916 31192260 0 244493 0 0
TX:
bytes packets errors dropped carrier collisions
511649780 5129601 24465 0 0 0
**Show public key of the default key**
.. code-block:: none
vyos@wg01# run show wireguard keypair pubkey default
FAXCPb6EbTlSH5200J5zTopt9AYXneBthAySPBLbZwM=
**Show public key of a named key**
.. code-block:: none
vyos@wg01# run show wireguard keypair pubkey KP01
HUtsu198toEnm1poGoRTyqkUKfKUdyh54f45dtcahDM=
**Delete wireguard keypairs**
.. code-block:: none
vyos@wg01# wireguard keypair default