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nixpkgs/nixos/tests/systemd-networkd-vrf.nix
Maximilian Bosch c4fd7cf16d
nixos/networkd: get rid of *Config attributes in lists
This patch is about removing `wireguardPeerConfig`,
`dhcpServerStaticLeaseConfig` - a.k.a. the
AbstractSingletonProxyFactoryBean of nixpkgs - and friends.

As a former colleague said

> worst abstraction ever

I second that. I've written enough networkd config for NixOS systems so
far to have a strong dislike. In fact, these don't even make sense:
`netdevs.wireguardPeers._.wireguardPeerConfig` will be rendered into
the key `[WireGuardPeer]` and every key from `wireguardPeerConfig` is in
there. Since it's INI, there's no place where sections on the same level
as wireguardPeerConfig fit into. Hence, get rid of it all.

For the transition, using the old way is still allowed, but gives a
warning. I think we could drop this after one release.

The tests of rosenpass and systemd-networkd-dhcpserver-static-leases
were broken on the rev before, hence they were updated, but are still
not building.
2024-05-20 17:26:42 +02:00

183 lines
5.4 KiB
Nix

import ./make-test-python.nix ({ pkgs, lib, ... }: let
inherit (import ./ssh-keys.nix pkgs) snakeOilPrivateKey snakeOilPublicKey;
mkNode = vlan: id: {
virtualisation.vlans = [ vlan ];
networking = {
useDHCP = false;
useNetworkd = true;
};
systemd.network = {
enable = true;
networks."10-eth${toString vlan}" = {
matchConfig.Name = "eth${toString vlan}";
linkConfig.RequiredForOnline = "no";
networkConfig = {
Address = "192.168.${toString vlan}.${toString id}/24";
IPForward = "yes";
};
};
};
};
in {
name = "systemd-networkd-vrf";
meta.maintainers = with lib.maintainers; [ ma27 ];
nodes = {
client = { pkgs, ... }: {
virtualisation.vlans = [ 1 2 ];
networking = {
useDHCP = false;
useNetworkd = true;
firewall.checkReversePath = "loose";
};
systemd.network = {
enable = true;
netdevs."10-vrf1" = {
netdevConfig = {
Kind = "vrf";
Name = "vrf1";
MTUBytes = "1300";
};
vrfConfig.Table = 23;
};
netdevs."10-vrf2" = {
netdevConfig = {
Kind = "vrf";
Name = "vrf2";
MTUBytes = "1300";
};
vrfConfig.Table = 42;
};
networks."10-vrf1" = {
matchConfig.Name = "vrf1";
networkConfig.IPForward = "yes";
routes = [
{ Destination = "192.168.1.2"; Metric = 100; }
];
};
networks."10-vrf2" = {
matchConfig.Name = "vrf2";
networkConfig.IPForward = "yes";
routes = [
{ Destination = "192.168.2.3"; Metric = 100; }
];
};
networks."10-eth1" = {
matchConfig.Name = "eth1";
linkConfig.RequiredForOnline = "no";
networkConfig = {
VRF = "vrf1";
Address = "192.168.1.1/24";
IPForward = "yes";
};
};
networks."10-eth2" = {
matchConfig.Name = "eth2";
linkConfig.RequiredForOnline = "no";
networkConfig = {
VRF = "vrf2";
Address = "192.168.2.1/24";
IPForward = "yes";
};
};
};
};
node1 = lib.mkMerge [
(mkNode 1 2)
{
services.openssh.enable = true;
users.users.root.openssh.authorizedKeys.keys = [ snakeOilPublicKey ];
}
];
node2 = mkNode 2 3;
node3 = mkNode 2 4;
};
testScript = ''
import json
def compare(raw_json, to_compare):
data = json.loads(raw_json)
assert len(raw_json) >= len(to_compare)
for i, row in enumerate(to_compare):
actual = data[i]
assert len(row.keys()) > 0
for key, value in row.items():
assert value == actual[key], f"""
In entry {i}, value {key}: got: {actual[key]}, expected {value}
"""
start_all()
client.wait_for_unit("network.target")
node1.wait_for_unit("network.target")
node2.wait_for_unit("network.target")
node3.wait_for_unit("network.target")
# Check that networkd properly configures the main routing table
# and the routing tables for the VRF.
with subtest("check vrf routing tables"):
compare(
client.succeed("ip --json -4 route list"),
[
{"dst": "192.168.1.2", "dev": "vrf1", "metric": 100},
{"dst": "192.168.2.3", "dev": "vrf2", "metric": 100}
]
)
compare(
client.succeed("ip --json -4 route list table 23"),
[
{"dst": "192.168.1.0/24", "dev": "eth1", "prefsrc": "192.168.1.1"},
{"type": "local", "dst": "192.168.1.1", "dev": "eth1", "prefsrc": "192.168.1.1"},
{"type": "broadcast", "dev": "eth1", "prefsrc": "192.168.1.1", "dst": "192.168.1.255"}
]
)
compare(
client.succeed("ip --json -4 route list table 42"),
[
{"dst": "192.168.2.0/24", "dev": "eth2", "prefsrc": "192.168.2.1"},
{"type": "local", "dst": "192.168.2.1", "dev": "eth2", "prefsrc": "192.168.2.1"},
{"type": "broadcast", "dev": "eth2", "prefsrc": "192.168.2.1", "dst": "192.168.2.255"}
]
)
# Ensure that other nodes are reachable via ICMP through the VRF.
with subtest("icmp through vrf works"):
client.succeed("ping -c5 192.168.1.2")
client.succeed("ping -c5 192.168.2.3")
# Test whether TCP through a VRF IP is possible.
with subtest("tcp traffic through vrf works"):
node1.wait_for_open_port(22)
client.succeed(
"cat ${snakeOilPrivateKey} > privkey.snakeoil"
)
client.succeed("chmod 600 privkey.snakeoil")
client.succeed(
"ulimit -l 2048; ip vrf exec vrf1 ssh -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no -i privkey.snakeoil root@192.168.1.2 true"
)
# Only configured routes through the VRF from the main routing table should
# work. Additional IPs are only reachable when binding to the vrf interface.
with subtest("only routes from main routing table work by default"):
client.fail("ping -c5 192.168.2.4")
client.succeed("ping -I vrf2 -c5 192.168.2.4")
client.shutdown()
node1.shutdown()
node2.shutdown()
node3.shutdown()
'';
})