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nixpkgs/nixos/tests/wpa_supplicant.nix
rnhmjoj 89eb93dc3f
nixos/wireless: link config to /etc by default 
This links the generated configuration to /etc/wpa_supplicant.conf
unless `allowAuxiliaryImperativeNetworks`. In the latter case the
file in /etc should be writable and the generated one remains only
in the Nix store.
2024-08-22 21:46:05 +02:00

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6.2 KiB
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{ pkgs, runTest }:
let
inherit (pkgs) lib;
meta = with lib.maintainers; {
maintainers = [ oddlama rnhmjoj ];
};
runConnectionTest = name: extraConfig: runTest {
name = "wpa_supplicant-${name}";
inherit meta;
nodes.machine = {
# add a virtual wlan interface
boot.kernelModules = [ "mac80211_hwsim" ];
# wireless access point
services.hostapd = {
enable = true;
radios.wlan0 = {
band = "2g";
countryCode = "US";
networks = {
wlan0 = {
ssid = "nixos-test-sae";
authentication = {
mode = "wpa3-sae";
saePasswords = [ { password = "reproducibility"; } ];
};
bssid = "02:00:00:00:00:00";
};
wlan0-1 = {
ssid = "nixos-test-mixed";
authentication = {
mode = "wpa3-sae-transition";
saeAddToMacAllow = true;
saePasswordsFile = pkgs.writeText "password" "reproducibility";
wpaPasswordFile = pkgs.writeText "password" "reproducibility";
};
bssid = "02:00:00:00:00:01";
};
wlan0-2 = {
ssid = "nixos-test-wpa2";
authentication = {
mode = "wpa2-sha256";
wpaPassword = "reproducibility";
};
bssid = "02:00:00:00:00:02";
};
};
};
};
# wireless client
networking.wireless = lib.mkMerge [
{
# the override is needed because the wifi is
# disabled with mkVMOverride in qemu-vm.nix.
enable = lib.mkOverride 0 true;
userControlled.enable = true;
interfaces = [ "wlan1" ];
fallbackToWPA2 = lib.mkDefault true;
# secrets
secretsFile = pkgs.writeText "wpa-secrets" ''
psk_nixos_test=reproducibility
'';
}
extraConfig
];
};
testScript = ''
# save hostapd config file for manual inspection
machine.wait_for_unit("hostapd.service")
machine.copy_from_vm("/run/hostapd/wlan0.hostapd.conf")
with subtest("Daemon can connect to the access point"):
machine.wait_for_unit("wpa_supplicant-wlan1.service")
machine.wait_until_succeeds(
"wpa_cli -i wlan1 status | grep -q wpa_state=COMPLETED"
)
'';
};
in
{
# Test the basic setup:
# - automatic interface discovery
# - WPA2 fallbacks
# - connecting to the daemon
basic = runTest {
name = "wpa_supplicant-basic";
inherit meta;
nodes.machine = {
# add a virtual wlan interface
boot.kernelModules = [ "mac80211_hwsim" ];
# wireless client
networking.wireless = {
# the override is needed because the wifi is
# disabled with mkVMOverride in qemu-vm.nix.
enable = lib.mkOverride 0 true;
userControlled.enable = true;
fallbackToWPA2 = true;
networks = {
# test WPA2 fallback
mixed-wpa = {
psk = "password";
authProtocols = [ "WPA-PSK" "SAE" ];
};
sae-only = {
psk = "password";
authProtocols = [ "SAE" ];
};
};
};
};
testScript = ''
config_file = "/etc/static/wpa_supplicant.conf"
with subtest("Daemon is running and accepting connections"):
machine.wait_for_unit("wpa_supplicant.service")
status = machine.wait_until_succeeds("wpa_cli status")
assert "Failed to connect" not in status, \
"Failed to connect to the daemon"
with subtest("WPA2 fallbacks have been generated"):
assert int(machine.succeed(f"grep -c sae-only {config_file}")) == 1
assert int(machine.succeed(f"grep -c mixed-wpa {config_file}")) == 2
# save file for manual inspection
machine.copy_from_vm(config_file)
'';
};
# Test configuring the daemon imperatively
imperative = runTest {
name = "wpa_supplicant-imperative";
inherit meta;
nodes.machine = {
# add a virtual wlan interface
boot.kernelModules = [ "mac80211_hwsim" ];
# wireless client
networking.wireless = {
enable = lib.mkOverride 0 true;
userControlled.enable = true;
allowAuxiliaryImperativeNetworks = true;
interfaces = [ "wlan1" ];
};
};
testScript = ''
with subtest("Daemon is running and accepting connections"):
machine.wait_for_unit("wpa_supplicant-wlan1.service")
status = machine.wait_until_succeeds("wpa_cli -i wlan1 status")
assert "Failed to connect" not in status, \
"Failed to connect to the daemon"
with subtest("Daemon can be configured imperatively"):
machine.succeed("wpa_cli -i wlan1 add_network")
machine.succeed("wpa_cli -i wlan1 set_network 0 ssid '\"nixos-test\"'")
machine.succeed("wpa_cli -i wlan1 set_network 0 psk '\"reproducibility\"'")
machine.succeed("wpa_cli -i wlan1 save_config")
machine.succeed("grep -q nixos-test /etc/wpa_supplicant.conf")
'';
};
# Test connecting to a SAE-only hotspot using SAE
saeOnly = runConnectionTest "sae-only" {
fallbackToWPA2 = false;
networks.nixos-test-sae = {
pskRaw = "ext:psk_nixos_test";
authProtocols = [ "SAE" ];
};
};
# Test connecting to a mixed SAE/WPA2 hotspot using SAE
mixedUsingSae = runConnectionTest "mixed-using-sae" {
fallbackToWPA2 = false;
networks.nixos-test-mixed = {
pskRaw = "ext:psk_nixos_test";
authProtocols = [ "SAE" ];
};
};
# Test connecting to a mixed SAE/WPA2 hotspot using WPA2
mixedUsingWpa2 = runConnectionTest "mixed-using-wpa2" {
fallbackToWPA2 = true;
networks.nixos-test-mixed = {
pskRaw = "ext:psk_nixos_test";
authProtocols = [ "WPA-PSK-SHA256" ];
};
};
# Test connecting to a legacy WPA2-only hotspot using WPA2
legacy = runConnectionTest "legacy" {
fallbackToWPA2 = true;
networks.nixos-test-wpa2 = {
pskRaw = "ext:psk_nixos_test";
authProtocols = [ "WPA-PSK-SHA256" ];
};
};
}
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