nixos-config/machines/shinobu/services/router/default.nix

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2023-09-24 14:41:22 +02:00
# Home network configuration
# (2.5GbE clients)
# | |
# +----------+ +----------+
# | | | | | | (1GbE clients)
# | | | | | +|-|-|-|-|+
# +---+----+ +-+-+-+-+-+ |5 4 3 2 1|
# |upstream| | 1 2 3 4 | |TL-SG105 |
# +--------+ | shinobu | +---------+
# +---------+
#
# It consists of shinobu as a router (this configuration),
# connected to a TP-LINK TL-SG105E “smart managed” (i.e., it can do VLANs) 5-port switch.
# The upstream comes (for now) from a PŸUR “WLAN-Kabelbox” (Compal CH7467CE).
# Sadly, I could not enable bridge mode on it, so the packets now go through (at least) four layers of NAT:
# device → NAT on shinobu (→ NAT on plastic router → PŸUR CGNAT) → NAT on VPN
#
# Because the switch only supports GbE,
# the two clients I currently have with support for 2.5GbE are connected
# directly to the two remaining network interfaces on shinobu.
# Once I have more devices with support for 2.5GbE
# or I find a good deal on a matching switch,
# I will change this.
#
# Wireless is configured by providing the whole hostapd configuration file as a secret.
# Once nixpkgs PR 222536 is merged, I will migrate to using the NixOS module.
# Thanks to Intels wisdom, its not possible to use 5GHz in AP mode.
{ config, lib, pkgs, ... }:
let
cfg = import ./common.nix;
in
{
imports = [
./dnsmasq.nix
./nft.nix
./wlan.nix
];
boot.kernel.sysctl = {
"net.ipv4.conf.all.forwarding" = true;
"net.ipv6.conf.all.forwarding" = true;
};
environment.systemPackages = with pkgs; [
ethtool
];
sops.secrets.wg-upstream-private-key = {
owner = config.users.users.systemd-network.name;
sopsFile = ../../secrets.yaml;
};
networking.useDHCP = false;
systemd.network = {
enable = true;
# not all interfaces need to be up
wait-online.extraArgs = [ "--any" ];
netdevs = {
br-lan = {
netdevConfig = {
Name = "br-lan";
Kind = "bridge";
};
};
wg-upstream = {
netdevConfig = {
Kind = "wireguard";
Name = "wg-upstream";
};
wireguardConfig = {
PrivateKeyFile = config.sops.secrets.wg-upstream-private-key.path;
FirewallMark = 51820;
};
wireguardPeers = lib.singleton {
wireguardPeerConfig = with cfg.wg-upstream; {
Endpoint = endpoint.full;
PublicKey = publicKey;
AllowedIPs = [ "0.0.0.0/0" "::0/0" ];
PersistentKeepalive = 25;
};
};
};
};
networks = {
wan = {
name = "enp1s0";
DHCP = "ipv4";
networkConfig = {
IPv6AcceptRA = "yes";
};
dhcpV4Config = {
UseDNS = "no";
};
ipv6AcceptRAConfig = {
# Only use RA
DHCPv6Client = false;
UseDNS = "no";
};
};
lan1 = {
name = "enp2s0";
bridge = [ "br-lan" ];
};
lan2 = {
name = "enp3s0";
bridge = [ "br-lan" ];
};
lan3 = {
name = "enp4s0";
bridge = [ "br-lan" ];
};
br-lan = {
name = "br-lan";
domains = [ cfg.domain ];
address = [ "10.80.1.1/24" "fd00:80:1::1/64" ];
};
wg-upstream = {
name = "wg-upstream";
address = cfg.wg-upstream.addresses;
routingPolicyRules = [
{
routingPolicyRuleConfig = {
Family = "both"; # default is only ipv4
FirewallMark = 51820;
InvertRule = "yes";
Table = 51820;
Priority = 10;
#SuppressPrefixLength = 0; # cant be used here (forwarding does not work with it)
};
}
# FIXME: those two shouldnt be necessary
# It should automatically detect those routes existing and prioritise them
# LAN (v4)
{
routingPolicyRuleConfig = {
To = "10.80.1.0/24";
Priority = 9;
};
}
# LAN (v6)
{
routingPolicyRuleConfig = {
To = "fd00:80:1::/64";
Priority = 9;
};
}
# wg-home
{
routingPolicyRuleConfig = {
To = "10.80.0.0/24";
Priority = 9;
};
}
# VPN bypass
{
routingPolicyRuleConfig = {
Family = "both"; # welcome in the year 2023, where ipv4 is the default
FirewallMark = cfg.vpnBypassFwMark;
Priority = 9;
};
}
# plastic router
{
routingPolicyRuleConfig = {
To = "192.168.0.0/24";
Priority = 9;
};
}
];
routes = [
{
routeConfig = {
Gateway = "0.0.0.0"; # point-to-point connection
Table = 51820;
};
}
{
routeConfig = {
Gateway = "::";
Table = 51820;
};
}
];
};
};
};
services.resolved.enable = false;
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}