nixpkgs/nixos/tests/ipv6.nix
Frédéric Christ c6f6c28218 nixos/testing: Add ipv6 configuration
This contribution enables a working IPv6 setup by default. This works
analog to the current automatic IPv4 setup.
2024-07-18 10:22:32 +02:00

133 lines
5.0 KiB
Nix

# Test of IPv6 functionality in NixOS, including whether router
# solicication/advertisement using radvd works.
import ./make-test-python.nix ({ pkgs, lib, ...} : {
name = "ipv6";
meta = with pkgs.lib.maintainers; {
maintainers = [ ];
};
nodes =
{
# We use lib.mkForce here to remove the interface configuration
# provided by makeTest, so that the interfaces are all configured
# implicitly.
# This client should use privacy extensions fully, having a
# completely-default network configuration.
client_defaults.networking.interfaces = lib.mkForce {};
# Both of these clients should obtain temporary addresses, but
# not use them as the default source IP. We thus run the same
# checks against them — but the configuration resulting in this
# behaviour is different.
# Here, by using an altered default value for the global setting...
client_global_setting = {
networking.interfaces = lib.mkForce {};
networking.tempAddresses = "enabled";
};
# and here, by setting this on the interface explicitly.
client_interface_setting = {
networking.tempAddresses = "disabled";
networking.interfaces = lib.mkForce {
eth1.tempAddress = "enabled";
};
};
server =
{ services.httpd.enable = true;
services.httpd.adminAddr = "foo@example.org";
networking.firewall.allowedTCPPorts = [ 80 ];
# disable testing driver's default IPv6 address.
networking.interfaces.eth1.ipv6.addresses = lib.mkForce [ ];
};
router =
{ ... }:
{ services.radvd.enable = true;
services.radvd.config =
''
interface eth1 {
AdvSendAdvert on;
# ULA prefix (RFC 4193).
prefix fd60:cc69:b537:1::/64 { };
};
'';
};
};
testScript =
''
import re
# Start the router first so that it respond to router solicitations.
router.wait_for_unit("radvd")
clients = [client_defaults, client_global_setting, client_interface_setting]
start_all()
for client in clients:
client.wait_for_unit("network.target")
server.wait_for_unit("network.target")
server.wait_for_unit("httpd.service")
# Wait until the given interface has a non-tentative address of
# the desired scope (i.e. has completed Duplicate Address
# Detection).
def wait_for_address(machine, iface, scope, temporary=False):
temporary_flag = "temporary" if temporary else "-temporary"
cmd = f"ip -o -6 addr show dev {iface} scope {scope} -tentative {temporary_flag}"
machine.wait_until_succeeds(f"[ `{cmd} | wc -l` -eq 1 ]")
output = machine.succeed(cmd)
ip = re.search(r"inet6 ([0-9a-f:]{2,})/", output).group(1)
if temporary:
scope = scope + " temporary"
machine.log(f"{scope} address on {iface} is {ip}")
return ip
with subtest("Loopback address can be pinged"):
client_defaults.succeed("ping -c 1 ::1 >&2")
client_defaults.fail("ping -c 1 2001:db8:: >&2")
with subtest("Local link addresses can be obtained and pinged"):
for client in clients:
client_ip = wait_for_address(client, "eth1", "link")
server_ip = wait_for_address(server, "eth1", "link")
client.succeed(f"ping -c 1 {client_ip}%eth1 >&2")
client.succeed(f"ping -c 1 {server_ip}%eth1 >&2")
with subtest("Global addresses can be obtained, pinged, and reached via http"):
for client in clients:
client_ip = wait_for_address(client, "eth1", "global")
server_ip = wait_for_address(server, "eth1", "global")
client.succeed(f"ping -c 1 {client_ip} >&2")
client.succeed(f"ping -c 1 {server_ip} >&2")
client.succeed(f"curl --fail -g http://[{server_ip}]")
client.fail(f"curl --fail -g http://[{client_ip}]")
with subtest(
"Privacy extensions: Global temporary address is used as default source address"
):
ip = wait_for_address(client_defaults, "eth1", "global", temporary=True)
# Default route should have "src <temporary address>" in it
client_defaults.succeed(f"ip route get 2001:db8:: | grep 'src {ip}'")
for client, setting_desc in (
(client_global_setting, "global"),
(client_interface_setting, "interface"),
):
with subtest(f'Privacy extensions: "enabled" through {setting_desc} setting)'):
# We should be obtaining both a temporary address and an EUI-64 address...
ip = wait_for_address(client, "eth1", "global")
assert "ff:fe" in ip
ip_temp = wait_for_address(client, "eth1", "global", temporary=True)
# But using the EUI-64 one.
client.succeed(f"ip route get 2001:db8:: | grep 'src {ip}'")
'';
})