WireGuard is a simple, fast VPN protocol using modern `cryptography <https://www.wireguard.com/protocol>`__. It aims to be faster and less complex than IPsec whilst also being a considerably more performant alternative to OpenVPN. Initially released for the Linux kernel, it is now cross-platform and widely deployable.
The tunnel address must be in CIDR notation and must be a unique IP and subnet for your network. The subnet should be an appropriate size that includes all the client peers that will use the tunnel. For IPv4 it should be a private (RFC1918) address, for example 10.10.10.1/24. For IPv6, it could either be a unique ULA /64 address, or a unique GUA /64 address derived from your prefix delegation. **Do not use a tunnel address that is a /32 (IPv4) or a /128 (IPv6)**
**Allowed IPs***Unique tunnel IP address (IPv4 and/or IPv6) of client - it should be a /32 or /128 (as applicable) within the subnet configured on the local peer. For example, 10.10.10.2/32*
-**Save** the Endpoint configuration, and then click **Save** again
- Now go back to :menuselection:`VPN --> WireGuard --> Local`
- Open the Local configuration that was created in Step 1 (eg :code:`HomeWireGuard`)
- In the Peers dropdown, select the newly created Endpoint (eg :code:`Phone`)
-**Save** the Local peer configuration again, and then click **Save** once more
- Repeat this Step 3 for as many clients as you wish to configure
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Step 4 - Turn on/restart WireGuard
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- Turn on WireGuard under :menuselection:`VPN --> WireGuard --> General` if it is not already on (click **Apply** after checking the checkbox)
- Otherwise, restart WireGuard - you can do this by turning it off and on under :menuselection:`VPN --> WireGuard --> General` (click **Apply** after both unchecking and checking the checkbox)
The steps outlined in Steps 5(a) and 5(b) below may not be required at all in your circumstances. Strictly speaking, if you only intend for your clients to use the tunnel to access local IPs/subnets behind OPNsense, then neither step is actually necessary. If you intend to use the WireGuard tunnel to also access IPs outside of the local network, for example the public internet, then at least one, and perhaps both, of the steps will be required. This is explained below
First, it generates an alias for the tunnel subnet(s) that can be used in firewall rules. Otherwise you will need to define your own alias or at least manually specify the subnet(s)
Second, it automatically adds an IPv4 outbound NAT rule, which will allow the tunnel to access IPv4 IPs outside of the local network (if that is desired), without needing to manually add a rule
Finally, it allows separation of the firewall rules of each WireGuard instance (each :code:`wgX` device). Otherwise they all need to be configured on the default WireGuard group that OPNsense creates. This is more an organisational aesthetic, rather than an issue of substance
There is no need to configure IPs on the interface. The tunnel address(es) specified in the Local configuration for your WireGuard server will be automatically assigned to the interface once WireGuard is restarted
-**Save** the interface configuration and then click **Apply changes**
- Restart WireGuard - you can do this by turning it off and on under :menuselection:`VPN --> WireGuard --> General` (click **Apply** after both unchecking and checking the checkbox)
When assigning interfaces, gateways can be added to them. This is useful if balancing traffic across multiple tunnels is required or in more complex routing scenarios. To do this, go to :menuselection:`System --> Gateways --> Single` and add a new gateway. Choose the relevant WireGuard interface and set the Gateway to **dynamic**. These scenarios are otherwise beyond the scope of this how-to
If Unbound DNS is configured with all interfaces registered it requires a reload of Unbound DNS to get the new Wireguard interface added. This is necessary get DNS working trough the VPN tunnel.
This step is only necessary (if at all) to allow client peers to access IPs outside of the local IPs/subnets behind OPNsense - see the note under Step 5. If an interface has already been assigned under Step 5(a), then it is not necessary for IPv4 traffic, and is only necessary for IPv6 traffic if the tunnel uses IPv6 ULAs (IPv6 GUAs don't need NAT). So in many use cases this step can be skipped
- Go to :menuselection:`Firewall --> NAT --> Outbound`
- Select "Hybrid outbound NAT rule generation” if it is not already selected, and click **Save** and then **Apply changes**
- Click **Add** to add a new rule
- Configure the rule as follows (if an option is not mentioned below, leave it as the default):
**Source address***If you assigned an interface under Step 5(a), select the generated alias for the interface subnet(s) (eg*:code:`HomeWireGuard net`*) - see note below if you didn't assign this interface*
-**Save** the rule, and then click **Apply changes**
- Restart WireGuard - you can do this by turning it off and on under :menuselection:`VPN --> WireGuard --> General` (click **Apply** after both unchecking and checking the checkbox)
If you didn't assign an interface as suggested in Step 5(a), then you will need to manually specify the source IPs/subnet(s) for the tunnel (for example, 10.10.10.0/24). It's probably easiest to define an alias (via :menuselection:`Firewall --> Aliases`) for those IPs/subnet(s) and use that. If you have only one local WireGuard instance and only one WireGuard endpoint configured, you can use the default :code:`WireGuard net`, although this is generally not recommended due to unexpected behaviour
This will involve two steps - first creating a firewall rule on the WAN interface to allow clients to connect to the OPNsense WireGuard server, and then creating a firewall rule to allow access by the clients to whatever IPs they are intended to have access to.
- Go to :menuselection:`Firewall --> Rules --> WAN`
- Click **Add** to add a new rule
- Configure the rule as follows (if an option is not mentioned below, leave it as the default):
**TCP/IP Version***IPv4 or IPv4+IPv6 (as desired, depending on how you want clients to connect to the server; note this is distinct from what type of traffic is allowed in the tunnel once established)*
**Protocol***UDP*
**Source / Invert***Unchecked*
**Source***any*
**Destination / Invert***Unchecked*
**Destination***WAN address*
**Destination port range***The WireGuard port specified in the Local configuration in Step 2*
**Interface***Whatever interface you are configuring the rule on (eg*:code:`HomeWireGuard`*) - see note below*
**Direction***in*
**TCP/IP Version***IPv4 or IPv4+IPv6 (as applicable)*
**Protocol***any*
**Source / Invert***Unchecked*
**Source***If you assigned an interface under Step 5(a), select the generated alias for the interface subnet(s) (eg*:code:`HomeWireGuard net`*) - see note below if you didn't assign this interface*
**Destination / Invert***Unchecked*
**Destination***Specify the IPs that client peers should be able to access, eg "any" or specific IPs/subnets*
-**Save** the rule, and then click **Apply Changes**
..Note::
If you didn't assign an interface as suggested in Step 5(a), then the second firewall rule outlined above will need to be configured on the automatically created :code:`WireGuard` group that appears once the Local configuration is enabled and WireGuard is started. You will also need to manually specify the source IPs/subnet(s) for the tunnel. It's probably easiest to define an alias (via :menuselection:`Firewall --> Aliases`) for those IPs/subnet(s) and use that. If you have only one local WireGuard instance and only one WireGuard endpoint configured, you can use the default :code:`WireGuard net`, although this is generally not recommended due to unexpected behaviour
Key generation can be performed on an appropriate device with `WireGuard client tools <https://www.wireguard.com/install>`__ installed. A one-liner for generating a matching private and public keypair is :code:`wg genkey | tee private.key | wg pubkey > public.key`. Alternatively, WireGuard apps that can be used on some devices can automate key generation for you
Client configuration is largely beyond the scope of this how-to since there is such a wide array of possible targets (and corresponding configuration methods). An example client (and server) configuration is in the Appendix. The key pieces of information required to configure a client are described below:
**Address***Refers to the IP(s) specified as Allowed IPs in the Endpoint configuration on OPNsense. For example, 10.10.10.2/32*
**PublicKey***Refers to the public key that (along with a private key) needs to be manually or automatically generated on the client. The public key must then be copied into the Endpoint configuration on OPNsense for the relevant client peer - see Step 3*
**DNS***Refers to the DNS servers that the client should use for the tunnel - see note below*
**PublicKey***Refers to the public key that is generated on OPNsense. Copy the public key from the Local configuration on OPNsense - see Step 2*
**Endpoint***Refers to the public IP address or publicly resolvable domain name of your OPNsense host, and the port specified in the Local configuration on OPNsense*
**AllowedIPs***Refers to the traffic (by destination IPs/subnets) that is to be sent via the tunnel. For example, if all traffic on the client is to be sent through the tunnel, specify 0.0.0.0/0 (IPv4) and/or ::/0 (IPv6)*
If the DNS server(s) specified are only accessible over the tunnel, or you want them to be accessed over the tunnel, make sure they are covered by the AllowedIPs