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author | Julien Dessaux | 2023-02-21 23:28:00 +0100 |
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committer | Julien Dessaux | 2023-02-21 23:28:00 +0100 |
commit | c867116905d42360005cdc30f3ebfd5ce572ec07 (patch) | |
tree | 4ceb1e5689f0d7e8878a115354c17892fad34acb /content/blog | |
parent | added wireguard on linux blog article (diff) | |
download | www-c867116905d42360005cdc30f3ebfd5ce572ec07.tar.gz www-c867116905d42360005cdc30f3ebfd5ce572ec07.tar.bz2 www-c867116905d42360005cdc30f3ebfd5ce572ec07.zip |
Added wireguard routing part one blog article
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-rw-r--r-- | content/blog/miscellaneous/wireguard-routing.md | 92 |
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diff --git a/content/blog/miscellaneous/wireguard-routing.md b/content/blog/miscellaneous/wireguard-routing.md new file mode 100644 index 0000000..46343b7 --- /dev/null +++ b/content/blog/miscellaneous/wireguard-routing.md @@ -0,0 +1,92 @@ +--- +title: Wireguard routing part one +description: The basics to know about wireguard routing +date: 2023-02-21 +tage: +- vpn +- wireguard +--- + +## Introduction + +Now that we learned how to configure wireguard on multiple operating systems, let's take a break and review what running wireguard does to your routing table. + +## Wireguard routing basics + +The most important thing to understand is that you do not configure routes with wireguard: the `AllowedIPs` you configure for a peer become your routes! + +This has several consequences: +- These routes are always in your routing table, even when the peer is unreachable. +- If you accept traffic from a range of IPs through wireguard, all traffic towards this range will go through wireguard too. + +This is what you want most of the time, but it is cumbersome if you ever: +- want to redirect all your internet traffic through wireguard. +- would like to have redundancy to reach a distant host through more than one wireguard peer. +- want to route all traffic destined to the internet. + +## The simplest setup + +Let's consider the two hosts and two networks in the following schematic: + +![Simplest setup](/static/wireguard-routing-1.drawio.svg) + +The first network is physical and connects the eth0 interfaces of the two hosts on `192.168.1.0/24`. The second network is virtual and virtually connects the wg0 wireguard interfaces of the two hosts on `10.1.2.0/24`. + +The first host is named Dalinar and has a single physical network interface eth0 with ip address `192.168.1.10/24`. We will configure wireguard with ip address `10.1.2.1/24`, wireguard private key `kIrQqJA1kEX56J9IbF8crSZOEZQLIAywjyoOqmjzjHU=` and public key `zfxxxWIMFYbEoX55mXO0gMuHk26iybehNR9tv3ZwJSg=`. + +The second host is named Kaladin and has a single physical network interface eth0 with ip address `192.168.1.20/24`. We will configure wireguard with ip address `10.1.2.2/24`, wireguard private key `SIg6cOoTyJRGIYSZ9ACRryL182yufKAtTLHK/Chb+lo=` and public key `BN89Ckhy4TEHjy37zz/Mvi6cOksnKzHHrnHXx5YkMlg=`. + +## Wireguard configurations + +Dalinar's wireguard configuration looks like: +```cfg +[Interface] +PrivateKey = kIrQqJA1kEX56J9IbF8crSZOEZQLIAywjyoOqmjzjHU= +ListenPort = 342 +Address = 10.1.2.1/32 + +[Peer] +PublicKey = BN89Ckhy4TEHjy37zz/Mvi6cOksnKzHHrnHXx5YkMlg= +Endpoint = 192.168.1.20:342 +AllowedIPs = 10.1.2.2/32 +``` + +Kaladin's wireguard configuration looks like: +```cfg +[Interface] +PrivateKey = SIg6cOoTyJRGIYSZ9ACRryL182yufKAtTLHK/Chb+lo= +ListenPort = 342 +Address = 10.1.2.2/32 + +[Peer] +PublicKey = zfxxxWIMFYbEoX55mXO0gMuHk26iybehNR9tv3ZwJSg= +Endpoint = 192.168.1.10:342 +AllowedIPs = 10.1.2.1/32 +``` + +## Important things to note + +Look carefully at the netmask in the `Address` and `AllowedIPs`: I did not use `/24` anywhere! I did this because: +- wireguard does not need it. +- it would become confusing with many peers. +- we should try and keep the cleanest routing tables possible. + +I could have used a `/24` netmask for the `Address` field, this would work and look natural as this is how all networking devices usually work. I do not because I do not want the OS to have a `/24` route to the wg0 interface without a next hop, I will need it when we introduce a distant host to our configuration in the next article. + +I could have put one for the AllowedIPs though, but this would only work in this particular case. As soon as you add more than one peer the configuration would break. + +A key takeaway is this: Even though with other vpn solutions (or traditional networking) we are used to have hosts logically sharing a network like `10.1.2.0/24` in our case, this is absolutely not a wireguard requirement. We could have used `10.1.2.1` for Dalinar's wg0 and `172.16.0.1` for Kaladin's wg0 and besides changing these IPs the configuration would be exactly the same and work directly. Let that sink in! + +## Routing tables + +With this setup if Dalinar was a Linux, its routing table would looks like this with `ip -4 r`: +``` +10.1.2.2 dev wg0 scope link +192.168.1.0/24 dev eth0 proto kernel scope link src 192.168.1.10 metric 600 +``` + +Kaladin's would look very similar: +``` +10.1.2.1 dev wg0 scope link +192.168.1.0/24 dev eth0 proto kernel scope link src 192.168.1.20 metric 600 +```
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