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|
// Copyright (C) 2018-2020 Robin Krahl <robin.krahl@ireas.org>
// SPDX-License-Identifier: MIT
mod util;
use std::ffi::CStr;
use std::process::Command;
use std::{thread, time};
use nitrokey::{
Authenticate, CommandError, CommunicationError, Config, ConfigureOtp, Device, DeviceInfo,
Error, GenerateOtp, GetPasswordSafe, LibraryError, OperationStatus, OtpMode, OtpSlotData,
SerialNumber, Storage, VolumeMode, DEFAULT_ADMIN_PIN, DEFAULT_USER_PIN,
};
use nitrokey_test::test as test_device;
static ADMIN_NEW_PASSWORD: &str = "1234567890";
static UPDATE_PIN: &str = "12345678";
static UPDATE_NEW_PIN: &str = "87654321";
static USER_NEW_PASSWORD: &str = "abcdefghij";
fn count_nitrokey_block_devices() -> usize {
thread::sleep(time::Duration::from_secs(2));
let output = Command::new("lsblk")
.args(&["-o", "MODEL"])
.output()
.expect("Could not list block devices");
String::from_utf8_lossy(&output.stdout)
.split("\n")
.filter(|&s| s.replace("_", " ") == "Nitrokey Storage")
.count()
}
#[test_device]
fn list_no_devices() {
let devices = nitrokey::list_devices();
assert_ok!(Vec::<DeviceInfo>::new(), devices);
}
#[test_device]
fn list_devices(_device: DeviceWrapper) {
let devices = unwrap_ok!(nitrokey::list_devices());
for device in devices {
assert!(!device.path.is_empty());
if Some(nitrokey::Model::Storage) == device.model {
assert_eq!(None, device.serial_number);
} else {
assert!(device.serial_number.is_some());
let serial_number = device.serial_number.unwrap();
assert!(serial_number != SerialNumber::empty());
}
}
}
#[test_device]
fn connect_no_device() {
let mut manager = unwrap_ok!(nitrokey::take());
assert_cmu_err!(CommunicationError::NotConnected, manager.connect());
assert_cmu_err!(
CommunicationError::NotConnected,
manager.connect_model(nitrokey::Model::Pro)
);
assert_cmu_err!(
CommunicationError::NotConnected,
manager.connect_model(nitrokey::Model::Storage)
);
assert_cmu_err!(CommunicationError::NotConnected, manager.connect_pro());
assert_cmu_err!(CommunicationError::NotConnected, manager.connect_storage());
}
#[test_device]
fn connect_pro(device: Pro) {
assert_eq!(device.get_model(), nitrokey::Model::Pro);
let manager = device.into_manager();
assert_any_ok!(manager.connect());
assert_any_ok!(manager.connect_model(nitrokey::Model::Pro));
assert_any_ok!(manager.connect_pro());
}
#[test_device]
fn connect_storage(device: Storage) {
assert_eq!(device.get_model(), nitrokey::Model::Storage);
let manager = device.into_manager();
assert_any_ok!(manager.connect());
assert_any_ok!(manager.connect_model(nitrokey::Model::Storage));
assert_any_ok!(manager.connect_storage());
}
fn assert_empty_serial_number() {
unsafe {
let ptr = nitrokey_sys::NK_device_serial_number();
assert!(!ptr.is_null());
let cstr = CStr::from_ptr(ptr);
assert_eq!(cstr.to_string_lossy(), "");
}
}
#[test_device]
fn connect_path_no_device() {
let mut manager = unwrap_ok!(nitrokey::take());
assert_cmu_err!(CommunicationError::NotConnected, manager.connect_path(""));
assert_cmu_err!(
CommunicationError::NotConnected,
manager.connect_path("foobar")
);
// TODO: add realistic path
}
#[test_device]
fn connect_path(device: DeviceWrapper) {
let manager = device.into_manager();
assert_cmu_err!(CommunicationError::NotConnected, manager.connect_path(""));
assert_cmu_err!(
CommunicationError::NotConnected,
manager.connect_path("foobar")
);
// TODO: add realistic path
let devices = unwrap_ok!(nitrokey::list_devices());
assert!(!devices.is_empty());
for device in devices {
let connected_device = unwrap_ok!(manager.connect_path(device.path));
assert_eq!(device.model, Some(connected_device.get_model()));
if nitrokey::Model::Storage == device.model.unwrap() {
assert_eq!(None, device.serial_number);
} else {
assert!(device.serial_number.is_some());
assert_ok!(
device.serial_number.unwrap(),
connected_device.get_serial_number()
);
}
}
}
#[test_device]
fn disconnect(device: DeviceWrapper) {
drop(device);
assert_empty_serial_number();
}
#[test_device]
fn get_status(device: DeviceWrapper) {
let status = unwrap_ok!(device.get_status());
assert_ok!(status.firmware_version, device.get_firmware_version());
assert_ok!(status.serial_number, device.get_serial_number());
assert_ok!(status.config, device.get_config());
}
#[test_device]
fn get_serial_number(device: DeviceWrapper) {
let serial_number = unwrap_ok!(device.get_serial_number());
assert!(serial_number != SerialNumber::empty());
}
#[test_device]
fn get_firmware_version(device: Pro) {
let version = unwrap_ok!(device.get_firmware_version());
assert_eq!(0, version.major);
assert!(version.minor > 0);
}
fn admin_retry<'a, T>(device: T, suffix: &str, count: u8) -> T
where
T: Authenticate<'a> + Device<'a> + 'a,
{
let result = device.authenticate_admin(&(DEFAULT_ADMIN_PIN.to_owned() + suffix));
let device = match result {
Ok(admin) => admin.device(),
Err((device, _)) => device,
};
assert_ok!(count, device.get_admin_retry_count());
return device;
}
fn user_retry<'a, T>(device: T, suffix: &str, count: u8) -> T
where
T: Authenticate<'a> + Device<'a> + 'a,
{
let result = device.authenticate_user(&(DEFAULT_USER_PIN.to_owned() + suffix));
let device = match result {
Ok(admin) => admin.device(),
Err((device, _)) => device,
};
assert_ok!(count, device.get_user_retry_count());
return device;
}
#[test_device]
fn get_retry_count(device: DeviceWrapper) {
let device = admin_retry(device, "", 3);
let device = admin_retry(device, "123", 2);
let device = admin_retry(device, "456", 1);
let device = admin_retry(device, "", 3);
let device = user_retry(device, "", 3);
let device = user_retry(device, "123", 2);
let device = user_retry(device, "456", 1);
user_retry(device, "", 3);
}
#[test_device]
fn config(device: DeviceWrapper) {
let mut admin = unwrap_ok!(device.authenticate_admin(DEFAULT_ADMIN_PIN));
let config = Config::new(None, None, None, true);
assert_ok!((), admin.write_config(config));
assert_ok!(config, admin.get_config());
let config = Config::new(None, Some(9), None, true);
assert_lib_err!(LibraryError::InvalidSlot, admin.write_config(config));
let config = Config::new(Some(1), None, Some(0), false);
assert_ok!((), admin.write_config(config));
assert_ok!(config, admin.get_config());
let config = Config::new(None, None, None, false);
assert_ok!((), admin.write_config(config));
assert_ok!(config, admin.get_config());
}
#[test_device]
fn change_user_pin(device: DeviceWrapper) {
let device = device.authenticate_user(DEFAULT_USER_PIN).unwrap().device();
let device = device.authenticate_user(USER_NEW_PASSWORD).unwrap_err().0;
let mut device = device;
assert_ok!(
(),
device.change_user_pin(DEFAULT_USER_PIN, USER_NEW_PASSWORD)
);
let device = device.authenticate_user(DEFAULT_USER_PIN).unwrap_err().0;
let device = device
.authenticate_user(USER_NEW_PASSWORD)
.unwrap()
.device();
let mut device = device;
let result = device.change_user_pin(DEFAULT_USER_PIN, DEFAULT_USER_PIN);
assert_cmd_err!(CommandError::WrongPassword, result);
assert_ok!(
(),
device.change_user_pin(USER_NEW_PASSWORD, DEFAULT_USER_PIN)
);
let device = device.authenticate_user(DEFAULT_USER_PIN).unwrap().device();
assert!(device.authenticate_user(USER_NEW_PASSWORD).is_err());
}
#[test_device]
fn change_admin_pin(device: DeviceWrapper) {
let device = device
.authenticate_admin(DEFAULT_ADMIN_PIN)
.unwrap()
.device();
let mut device = device.authenticate_admin(ADMIN_NEW_PASSWORD).unwrap_err().0;
assert_ok!(
(),
device.change_admin_pin(DEFAULT_ADMIN_PIN, ADMIN_NEW_PASSWORD)
);
let device = device.authenticate_admin(DEFAULT_ADMIN_PIN).unwrap_err().0;
let mut device = device
.authenticate_admin(ADMIN_NEW_PASSWORD)
.unwrap()
.device();
assert_cmd_err!(
CommandError::WrongPassword,
device.change_admin_pin(DEFAULT_ADMIN_PIN, DEFAULT_ADMIN_PIN)
);
assert_ok!(
(),
device.change_admin_pin(ADMIN_NEW_PASSWORD, DEFAULT_ADMIN_PIN)
);
let device = device
.authenticate_admin(DEFAULT_ADMIN_PIN)
.unwrap()
.device();
device.authenticate_admin(ADMIN_NEW_PASSWORD).unwrap_err();
}
fn require_failed_user_login<'a, D>(device: D, password: &str, error: CommandError) -> D
where
D: Device<'a> + Authenticate<'a> + 'a,
nitrokey::User<'a, D>: std::fmt::Debug,
{
let result = device.authenticate_user(password);
assert!(result.is_err());
let err = result.unwrap_err();
match err.1 {
Error::CommandError(err) => assert_eq!(error, err),
_ => assert!(false),
};
err.0
}
#[test_device]
fn unlock_user_pin(device: DeviceWrapper) {
let mut device = device.authenticate_user(DEFAULT_USER_PIN).unwrap().device();
assert_ok!(
(),
device.unlock_user_pin(DEFAULT_ADMIN_PIN, DEFAULT_USER_PIN)
);
assert_cmd_err!(
CommandError::WrongPassword,
device.unlock_user_pin(DEFAULT_USER_PIN, DEFAULT_USER_PIN)
);
// block user PIN
let wrong_password = DEFAULT_USER_PIN.to_owned() + "foo";
let device = require_failed_user_login(device, &wrong_password, CommandError::WrongPassword);
let device = require_failed_user_login(device, &wrong_password, CommandError::WrongPassword);
let device = require_failed_user_login(device, &wrong_password, CommandError::WrongPassword);
let mut device =
require_failed_user_login(device, DEFAULT_USER_PIN, CommandError::WrongPassword);
// unblock with current PIN
assert_cmd_err!(
CommandError::WrongPassword,
device.unlock_user_pin(DEFAULT_USER_PIN, DEFAULT_USER_PIN)
);
assert_ok!(
(),
device.unlock_user_pin(DEFAULT_ADMIN_PIN, DEFAULT_USER_PIN)
);
let device = device.authenticate_user(DEFAULT_USER_PIN).unwrap().device();
// block user PIN
let device = require_failed_user_login(device, &wrong_password, CommandError::WrongPassword);
let device = require_failed_user_login(device, &wrong_password, CommandError::WrongPassword);
let device = require_failed_user_login(device, &wrong_password, CommandError::WrongPassword);
let mut device =
require_failed_user_login(device, DEFAULT_USER_PIN, CommandError::WrongPassword);
// unblock with new PIN
assert_cmd_err!(
CommandError::WrongPassword,
device.unlock_user_pin(DEFAULT_USER_PIN, DEFAULT_USER_PIN)
);
assert_ok!(
(),
device.unlock_user_pin(DEFAULT_ADMIN_PIN, USER_NEW_PASSWORD)
);
// reset user PIN
assert_ok!(
(),
device.change_user_pin(USER_NEW_PASSWORD, DEFAULT_USER_PIN)
);
}
fn assert_utf8_err_or_ne(left: &str, right: Result<String, Error>) {
match right {
Ok(s) => assert_ne!(left.to_string(), s),
Err(Error::Utf8Error(_)) => {}
Err(err) => panic!("Expected Utf8Error, got {}!", err),
}
}
#[test_device]
fn factory_reset(device: DeviceWrapper) {
let mut admin = unwrap_ok!(device.authenticate_admin(DEFAULT_ADMIN_PIN));
let otp_data = OtpSlotData::new(1, "test", "0123468790", OtpMode::SixDigits);
assert_ok!((), admin.write_totp_slot(otp_data, 30));
let mut device = admin.device();
let mut pws = unwrap_ok!(device.get_password_safe(DEFAULT_USER_PIN));
assert_ok!((), pws.write_slot(0, "test", "testlogin", "testpw"));
drop(pws);
assert_ok!(
(),
device.change_user_pin(DEFAULT_USER_PIN, USER_NEW_PASSWORD)
);
assert_ok!(
(),
device.change_admin_pin(DEFAULT_ADMIN_PIN, ADMIN_NEW_PASSWORD)
);
assert_cmd_err!(
CommandError::WrongPassword,
device.factory_reset(USER_NEW_PASSWORD)
);
assert_cmd_err!(
CommandError::WrongPassword,
device.factory_reset(DEFAULT_ADMIN_PIN)
);
assert_ok!((), device.factory_reset(ADMIN_NEW_PASSWORD));
let device = device
.authenticate_admin(DEFAULT_ADMIN_PIN)
.unwrap()
.device();
let user = unwrap_ok!(device.authenticate_user(DEFAULT_USER_PIN));
assert_cmd_err!(CommandError::SlotNotProgrammed, user.get_totp_slot_name(1));
let mut device = user.device();
let pws = unwrap_ok!(device.get_password_safe(DEFAULT_USER_PIN));
assert_utf8_err_or_ne("test", pws.get_slot_name(0));
assert_utf8_err_or_ne("testlogin", pws.get_slot_login(0));
assert_utf8_err_or_ne("testpw", pws.get_slot_password(0));
drop(pws);
assert_ok!(3, device.get_user_retry_count());
assert_ok!((), device.build_aes_key(DEFAULT_ADMIN_PIN));
}
#[test_device]
fn build_aes_key(device: DeviceWrapper) {
let mut device = device;
let mut pws = unwrap_ok!(device.get_password_safe(DEFAULT_USER_PIN));
assert_ok!((), pws.write_slot(0, "test", "testlogin", "testpw"));
drop(pws);
assert_cmd_err!(
CommandError::WrongPassword,
device.build_aes_key(DEFAULT_USER_PIN)
);
assert_ok!((), device.build_aes_key(DEFAULT_ADMIN_PIN));
let mut device = device
.authenticate_admin(DEFAULT_ADMIN_PIN)
.unwrap()
.device();
let pws = unwrap_ok!(device.get_password_safe(DEFAULT_USER_PIN));
assert_utf8_err_or_ne("test", pws.get_slot_name(0));
assert_utf8_err_or_ne("testlogin", pws.get_slot_login(0));
assert_utf8_err_or_ne("testpw", pws.get_slot_password(0));
}
#[test_device]
fn change_update_pin(device: Storage) {
let mut device = device;
assert_cmd_err!(
CommandError::WrongPassword,
device.change_update_pin(UPDATE_NEW_PIN, UPDATE_PIN)
);
assert_ok!((), device.change_update_pin(UPDATE_PIN, UPDATE_NEW_PIN));
assert_ok!((), device.change_update_pin(UPDATE_NEW_PIN, UPDATE_PIN));
}
#[test_device]
fn encrypted_volume(device: Storage) {
let mut device = device;
assert_ok!((), device.lock());
assert_eq!(1, count_nitrokey_block_devices());
assert_ok!((), device.disable_encrypted_volume());
assert_eq!(1, count_nitrokey_block_devices());
assert_cmd_err!(
CommandError::WrongPassword,
device.enable_encrypted_volume("123")
);
assert_eq!(1, count_nitrokey_block_devices());
assert_ok!((), device.enable_encrypted_volume(DEFAULT_USER_PIN));
assert_eq!(2, count_nitrokey_block_devices());
assert_ok!((), device.disable_encrypted_volume());
assert_eq!(1, count_nitrokey_block_devices());
}
#[test_device]
fn hidden_volume(device: Storage) {
let mut device = device;
assert_ok!((), device.lock());
assert_eq!(1, count_nitrokey_block_devices());
assert_ok!((), device.disable_hidden_volume());
assert_eq!(1, count_nitrokey_block_devices());
assert_ok!((), device.enable_encrypted_volume(DEFAULT_USER_PIN));
assert_eq!(2, count_nitrokey_block_devices());
// TODO: why this error code?
assert_cmd_err!(
CommandError::WrongPassword,
device.create_hidden_volume(5, 0, 100, "hiddenpw")
);
assert_ok!((), device.create_hidden_volume(0, 20, 21, "hidden-pw"));
assert_ok!((), device.create_hidden_volume(0, 20, 21, "hiddenpassword"));
assert_ok!((), device.create_hidden_volume(1, 0, 1, "otherpw"));
// TODO: test invalid range (not handled by libnitrokey)
assert_eq!(2, count_nitrokey_block_devices());
assert_cmd_err!(
CommandError::WrongPassword,
device.enable_hidden_volume("blubb")
);
assert_ok!((), device.enable_hidden_volume("hiddenpassword"));
assert_eq!(2, count_nitrokey_block_devices());
assert_ok!((), device.enable_hidden_volume("otherpw"));
assert_eq!(2, count_nitrokey_block_devices());
assert_ok!((), device.disable_hidden_volume());
assert_eq!(1, count_nitrokey_block_devices());
}
#[test_device]
fn lock(device: Storage) {
let mut device = device;
assert_ok!((), device.enable_encrypted_volume(DEFAULT_USER_PIN));
assert_ok!((), device.lock());
assert_eq!(1, count_nitrokey_block_devices());
}
#[test_device]
fn set_encrypted_volume_mode(device: Storage) {
// This test case does not check the device status as the command only works with firmware
// version 0.49. For later versions, it does not do anything and always returns Ok(()).
let mut device = device;
assert_ok!(
(),
device.set_encrypted_volume_mode(DEFAULT_ADMIN_PIN, VolumeMode::ReadOnly)
);
// TODO: re-enable once the password is checked in the firmware
// assert_cmd_err!(
// CommandError::WrongPassword,
// device.set_encrypted_volume_mode(DEFAULT_USER_PIN, VolumeMode::ReadOnly)
// );
assert_ok!(
(),
device.set_encrypted_volume_mode(DEFAULT_ADMIN_PIN, VolumeMode::ReadOnly)
);
assert_ok!(
(),
device.set_encrypted_volume_mode(DEFAULT_ADMIN_PIN, VolumeMode::ReadWrite)
);
assert_ok!(
(),
device.set_encrypted_volume_mode(DEFAULT_ADMIN_PIN, VolumeMode::ReadOnly)
);
}
#[test_device]
fn set_unencrypted_volume_mode(device: Storage) {
fn assert_mode(device: &Storage, mode: VolumeMode) {
let status = unwrap_ok!(device.get_storage_status());
assert_eq!(
status.unencrypted_volume.read_only,
mode == VolumeMode::ReadOnly
);
}
fn assert_success(device: &mut Storage, mode: VolumeMode) {
assert_ok!(
(),
device.set_unencrypted_volume_mode(DEFAULT_ADMIN_PIN, mode)
);
assert_mode(&device, mode);
}
let mut device = device;
assert_success(&mut device, VolumeMode::ReadOnly);
assert_cmd_err!(
CommandError::WrongPassword,
device.set_unencrypted_volume_mode(DEFAULT_USER_PIN, VolumeMode::ReadOnly)
);
assert_mode(&device, VolumeMode::ReadOnly);
assert_success(&mut device, VolumeMode::ReadWrite);
assert_success(&mut device, VolumeMode::ReadWrite);
assert_success(&mut device, VolumeMode::ReadOnly);
}
#[test_device]
fn get_storage_status(device: Storage) {
let status = unwrap_ok!(device.get_storage_status());
assert!(status.serial_number_sd_card > 0);
assert!(status.serial_number_smart_card > 0);
}
#[test_device]
fn get_production_info(device: Storage) {
let info = unwrap_ok!(device.get_production_info());
assert_eq!(0, info.firmware_version.major);
assert!(info.firmware_version.minor != 0);
assert!(info.serial_number_cpu != 0);
assert!(info.sd_card.serial_number != 0);
assert!(info.sd_card.size > 0);
assert!(info.sd_card.manufacturing_year > 10);
assert!(info.sd_card.manufacturing_year < 100);
// TODO: month value is not valid atm
// assert!(info.sd_card.manufacturing_month < 12);
assert!(info.sd_card.oem != 0);
assert!(info.sd_card.manufacturer != 0);
let status = unwrap_ok!(device.get_storage_status());
assert_eq!(status.firmware_version, info.firmware_version);
assert_eq!(status.serial_number_sd_card, info.sd_card.serial_number);
}
#[test_device]
fn clear_new_sd_card_warning(device: Storage) {
let mut device = device;
assert_ok!((), device.factory_reset(DEFAULT_ADMIN_PIN));
thread::sleep(time::Duration::from_secs(3));
assert_ok!((), device.build_aes_key(DEFAULT_ADMIN_PIN));
// We have to perform an SD card operation to reset the new_sd_card_found field
assert_ok!((), device.lock());
let status = unwrap_ok!(device.get_storage_status());
assert!(status.new_sd_card_found);
assert_ok!((), device.clear_new_sd_card_warning(DEFAULT_ADMIN_PIN));
let status = unwrap_ok!(device.get_storage_status());
assert!(!status.new_sd_card_found);
}
#[test_device]
fn get_sd_card_usage(device: Storage) {
let range = unwrap_ok!(device.get_sd_card_usage());
assert!(range.end >= range.start);
assert!(range.end <= 100);
}
#[test_device]
fn get_operation_status(device: Storage) {
assert_ok!(OperationStatus::Idle, device.get_operation_status());
}
#[test_device]
#[ignore]
fn fill_sd_card(device: Storage) {
// This test takes up to 60 min to execute and is therefore ignored by default. Use `cargo
// test -- --ignored fill_sd_card` to run the test.
let mut device = device;
assert_ok!((), device.factory_reset(DEFAULT_ADMIN_PIN));
thread::sleep(time::Duration::from_secs(3));
assert_ok!((), device.build_aes_key(DEFAULT_ADMIN_PIN));
let status = unwrap_ok!(device.get_storage_status());
assert!(!status.filled_with_random);
assert_ok!((), device.fill_sd_card(DEFAULT_ADMIN_PIN));
assert_cmd_err!(CommandError::WrongCrc, device.get_status());
let mut status = OperationStatus::Ongoing(0);
let mut last_progress = 0u8;
while status != OperationStatus::Idle {
status = unwrap_ok!(device.get_operation_status());
if let OperationStatus::Ongoing(progress) = status {
assert!(progress <= 100, "progress = {}", progress);
assert!(
progress >= last_progress,
"progress = {}, last_progress = {}",
progress,
last_progress
);
last_progress = progress;
thread::sleep(time::Duration::from_secs(10));
}
}
let status = unwrap_ok!(device.get_storage_status());
assert!(status.filled_with_random);
}
#[test_device]
fn export_firmware(device: Storage) {
let mut device = device;
assert_cmd_err!(
CommandError::WrongPassword,
device.export_firmware("someadminpn")
);
assert_ok!((), device.export_firmware(DEFAULT_ADMIN_PIN));
assert_ok!(
(),
device.set_unencrypted_volume_mode(DEFAULT_ADMIN_PIN, VolumeMode::ReadWrite)
);
assert_ok!((), device.export_firmware(DEFAULT_ADMIN_PIN));
assert_ok!(
(),
device.set_unencrypted_volume_mode(DEFAULT_ADMIN_PIN, VolumeMode::ReadOnly)
);
}
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