266 lines
8.5 KiB
Nix
266 lines
8.5 KiB
Nix
{
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config,
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lib,
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secrets,
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...
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}: {
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systemd.network = {
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config = {
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routeTables = {
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"wg-sigma-public" = 42;
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"wg-sigma-p2p" = 6881;
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};
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};
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# Rename network interfaces. The PermanentMACAddress is found using
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# `ethtool -P enp5s0`.
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links."10-wan0" = {
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# Realtek motherboard port
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matchConfig.PermanentMACAddress = "9c:6b:00:27:00:89";
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linkConfig.Name = "wan0";
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};
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links."11-lan0" = {
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# Intel pci port (right)
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matchConfig.PermanentMACAddress = "00:15:17:a6:ee:a0";
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linkConfig.Name = "lan0";
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};
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# The following configures the server as a typical "home router" with a
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# DHCP server to hand out client addresses and NATing. The server's own
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# address is requested from the ISP through DHCP.
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networks."20-wan" = {
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matchConfig.Name = "wan0";
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networkConfig = {
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# Enable DHCP *client* to request an IP address from the ISP. Denmark
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# does not use IPv6.
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DHCP = "ipv4";
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};
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# Ignore ISP DNS server(s) received from the DHCP server
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dhcpV4Config.UseDNS = false;
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dhcpV6Config.UseDNS = false;
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};
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networks."21-lan" = {
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matchConfig.Name = "lan0";
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address = [
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"192.168.0.1/24"
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];
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networkConfig = {
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# Enable DHCP *server*. By default, the DHCP leases handed out to
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# clients contain DNS information from our own uplink interface and
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# specify our own address as the router. See DHCP leases with
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# `networkctl status lan0` and `dhcpdump -i lan0`.
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DHCPServer = true;
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# Enable IP masquerading (NAT) to rewrite the address on packets
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# forwarded from this interface so as to appear as coming from this
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# host. Required to share a single external IP address and act as a
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# "router" since each lan host does not get its own public IP address.
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IPMasquerade = "ipv4";
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};
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};
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# The following establishes a wireguard tunnel to alpha and configures
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# receiving traffic destined for 49.13.33.75. This allows us to have a
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# public address even though we are behind NAT.
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netdevs."50-wg-sigma-public" = {
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netdevConfig = {
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Name = "wg-sigma-public";
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Kind = "wireguard";
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};
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wireguardConfig = {
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PrivateKeyFile = config.age.secrets.wireguard-private-key-file-sigma.path;
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};
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wireguardPeers = [
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{
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wireguardPeerConfig = {
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PublicKey = "AlphazUR/z+1DRCFSvxTeKPIJnyPQvYsDoSgESvqJhM=";
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PresharedKeyFile = config.age.secrets.wireguard-preshared-key-file.path;
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# Explicit IPv4 address of alpha.caspervk.net to avoid attempting
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# to (re)connect through IPv6(??).
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Endpoint = "116.203.179.206:51820";
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# Keep NAT mappings and stateful firewalls open at the ISP
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PersistentKeepalive = 25;
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# AllowedIPs is both an ACL for incoming traffic, as well as a
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# routing table specifying to which peer outgoing traffic should be
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# sent. We want to allow incoming traffic from any address on the
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# internet (routed through alpha), but only replies to this should
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# be routed back over wireguard. Unlike if we had used NAT, IP
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# routes are stateless, so we have no notion of "replies". Instead,
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# we add these routes to a specific routing table and configure a
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# routing policy rule to only use it for packets being sent as the
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# public IP.
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AllowedIPs = ["0.0.0.0/0"];
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RouteTable = "wg-sigma-public";
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};
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}
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];
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};
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networks."50-wg-sigma-public" = {
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matchConfig.Name = "wg-sigma-public";
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address = ["49.13.33.75/32"];
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routingPolicyRules = [
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{
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# Allow hosts on the local network to contact us directly on the
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# public address instead of routing the packet through Wireguard and
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# back again.
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routingPolicyRuleConfig = {
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Priority = 10;
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To = "192.168.0.0/24";
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Table = "main";
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};
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}
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{
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# The postfix systemd service has
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# RestrictNetworkInterfaces=wg-sigma-public, but that does not tell
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# it to use the correct routing table. You can check that this works
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# as expected using `sudo -u postfix curl ip.caspervk.net`.
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routingPolicyRuleConfig = {
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Priority = 100;
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User = config.services.postfix.user;
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Table = "wg-sigma-public";
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};
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}
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{
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# See the AllowedIPs comment above for why this is necessary
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routingPolicyRuleConfig = {
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Priority = 1000;
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From = "49.13.33.75/32";
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Table = "wg-sigma-public";
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};
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}
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];
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};
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# The following establishes a wireguard tunnel to alpha and configures
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# receiving traffic destined for the sigma-p2p address. This allows the
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# server to have a public address and help others sail the high seas even
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# though it is behind NAT.
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netdevs."50-wg-sigma-p2p" = {
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netdevConfig = {
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Name = "wg-sigma-p2p";
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Kind = "wireguard";
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};
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wireguardConfig = {
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PrivateKeyFile = config.age.secrets.wireguard-private-key-file-sigma.path;
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};
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wireguardPeers = [
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{
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wireguardPeerConfig = {
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PublicKey = "AlphazUR/z+1DRCFSvxTeKPIJnyPQvYsDoSgESvqJhM=";
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PresharedKeyFile = config.age.secrets.wireguard-preshared-key-file.path;
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# Explicit IPv4 address of alpha.caspervk.net to avoid attempting
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# to (re)connect through IPv6(??).
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Endpoint = "116.203.179.206:51821";
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PersistentKeepalive = 25;
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AllowedIPs = ["0.0.0.0/0"];
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RouteTable = "wg-sigma-p2p";
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};
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}
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];
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};
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networks."50-wg-sigma-p2p" = {
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matchConfig.Name = "wg-sigma-p2p";
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address = ["${secrets.hosts.sigma.sigma-p2p-ip-address}/32"];
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routingPolicyRules = [
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{
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# The deluge systemd service has
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# RestrictNetworkInterfaces=wg-sigma-p2p, but that does not tell it
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# to use the correct routing table. You can check that this works as
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# expected using `sudo -u deluge curl ip.caspervk.net`.
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routingPolicyRuleConfig = {
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Priority = 100;
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User = config.services.deluge.user;
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Table = "wg-sigma-p2p";
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};
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}
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{
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routingPolicyRuleConfig = {
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Priority = 1000;
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From = "${secrets.hosts.sigma.sigma-p2p-ip-address}/32";
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Table = "wg-sigma-p2p";
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};
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}
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];
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};
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};
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# Force explicit firewall configuration to ensure we allow the right services
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# on the right interfaces.
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networking.firewall = {
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allowedTCPPorts = lib.mkForce [];
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allowedUDPPorts = lib.mkForce [];
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allowedTCPPortRanges = lib.mkForce [];
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allowedUDPPortRanges = lib.mkForce [];
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interfaces = {
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"lan0" = {
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allowedTCPPorts = [
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22 # SSH
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25 # Mail SMTP
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80 # Caddy
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139 # Samba
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443 # Caddy
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445 # Samba
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465 # Mail ESMTP
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993 # Mail IMAPS
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1234 # ad hoc
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1337 # ad hoc
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8000 # ad hoc
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8080 # ad hoc
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22000 # syncthing
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];
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allowedUDPPorts = [
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67 # DHCP server
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445 # Samba
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21027 # syncthing
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22000 # syncthing
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];
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};
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"wg-sigma-public" = {
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allowedTCPPorts = [
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22 # SSH
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25 # Mail SMTP
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80 # Caddy
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443 # Caddy
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465 # Mail ESMTP
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993 # Mail IMAPS
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1234 # ad hoc
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1337 # ad hoc
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8000 # ad hoc
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8080 # ad hoc
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22000 # syncthing
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];
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allowedUDPPorts = [
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21027 # syncthing
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22000 # syncthing
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];
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};
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"wg-sigma-p2p" = {
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allowedTCPPorts = [
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60881 # Deluge
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];
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allowedUDPPorts = [
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60881 # Deluge
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];
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};
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};
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};
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# Enable forwarding of packets
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boot.kernel.sysctl = {
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"net.ipv4.conf.all.forwarding" = true;
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};
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age.secrets.wireguard-preshared-key-file = {
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file = "${secrets}/secrets/wireguard-preshared-key-file.age";
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mode = "440";
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owner = "root";
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group = "systemd-network";
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};
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age.secrets.wireguard-private-key-file-sigma = {
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file = "${secrets}/secrets/wireguard-private-key-file-sigma.age";
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mode = "440";
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owner = "root";
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group = "systemd-network";
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};
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}
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