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authorSzczepan Zalega <szczepan@nitrokey.com>2017-09-20 08:42:54 +0200
committerSzczepan Zalega <szczepan@nitrokey.com>2017-09-20 08:42:54 +0200
commitdc7bd3da09eb5d6048558a160684eece4d51ff38 (patch)
tree1550bfcbf8ab947c0533071affc376dabeb01188 /unittest
parentec500f102cc63b89539c1376ac0d522ad04634ab (diff)
downloadlibnitrokey-dc7bd3da09eb5d6048558a160684eece4d51ff38.tar.gz
libnitrokey-dc7bd3da09eb5d6048558a160684eece4d51ff38.tar.bz2
Organize tests into categorieswip-show_information_about_invalid_CRC
Signed-off-by: Szczepan Zalega <szczepan@nitrokey.com>
Diffstat (limited to 'unittest')
-rw-r--r--unittest/test_pro.py60
1 files changed, 55 insertions, 5 deletions
diff --git a/unittest/test_pro.py b/unittest/test_pro.py
index c292940..0db23ab 100644
--- a/unittest/test_pro.py
+++ b/unittest/test_pro.py
@@ -5,7 +5,8 @@ from constants import DefaultPasswords, DeviceErrorCode, RFC_SECRET
from misc import ffi, gs, wait, cast_pointer_to_tuple
from misc import is_pro_rtm_07, is_pro_rtm_08, is_storage
-
+@pytest.mark.lock_device
+@pytest.mark.PWS
def test_enable_password_safe(C):
"""
All Password Safe tests depend on AES keys being initialized. They will fail otherwise.
@@ -14,7 +15,8 @@ def test_enable_password_safe(C):
assert C.NK_enable_password_safe('wrong_password') == DeviceErrorCode.WRONG_PASSWORD
assert C.NK_enable_password_safe(DefaultPasswords.USER) == DeviceErrorCode.STATUS_OK
-
+@pytest.mark.lock_device
+@pytest.mark.PWS
def test_write_password_safe_slot(C):
assert C.NK_lock_device() == DeviceErrorCode.STATUS_OK
assert C.NK_write_password_safe_slot(0, 'slotname1', 'login1', 'pass1') == DeviceErrorCode.STATUS_NOT_AUTHORIZED
@@ -22,6 +24,8 @@ def test_write_password_safe_slot(C):
assert C.NK_write_password_safe_slot(0, 'slotname1', 'login1', 'pass1') == DeviceErrorCode.STATUS_OK
+@pytest.mark.lock_device
+@pytest.mark.PWS
@pytest.mark.slowtest
def test_write_all_password_safe_slots_and_read_10_times(C):
def fill(s, wid):
@@ -57,6 +61,8 @@ def test_write_all_password_safe_slots_and_read_10_times(C):
assert gs(C.NK_get_password_safe_slot_password(i)) == get_pass(iss)
+@pytest.mark.lock_device
+@pytest.mark.PWS
@pytest.mark.slowtest
@pytest.mark.xfail(reason="This test should be run directly after test_write_all_password_safe_slots_and_read_10_times")
def test_read_all_password_safe_slots_10_times(C):
@@ -88,6 +94,8 @@ def test_read_all_password_safe_slots_10_times(C):
assert gs(C.NK_get_password_safe_slot_password(i)) == get_pass(iss)
+@pytest.mark.lock_device
+@pytest.mark.PWS
def test_get_password_safe_slot_name(C):
assert C.NK_enable_password_safe(DefaultPasswords.USER) == DeviceErrorCode.STATUS_OK
assert C.NK_write_password_safe_slot(0, 'slotname1', 'login1', 'pass1') == DeviceErrorCode.STATUS_OK
@@ -100,6 +108,7 @@ def test_get_password_safe_slot_name(C):
assert C.NK_get_last_command_status() == DeviceErrorCode.STATUS_OK
+@pytest.mark.PWS
def test_get_password_safe_slot_login_password(C):
assert C.NK_enable_password_safe(DefaultPasswords.USER) == DeviceErrorCode.STATUS_OK
assert C.NK_write_password_safe_slot(0, 'slotname1', 'login1', 'pass1') == DeviceErrorCode.STATUS_OK
@@ -111,6 +120,7 @@ def test_get_password_safe_slot_login_password(C):
assert slot_password == 'pass1'
+@pytest.mark.PWS
def test_erase_password_safe_slot(C):
assert C.NK_enable_password_safe(DefaultPasswords.USER) == DeviceErrorCode.STATUS_OK
assert C.NK_erase_password_safe_slot(0) == DeviceErrorCode.STATUS_OK
@@ -118,6 +128,7 @@ def test_erase_password_safe_slot(C):
assert C.NK_get_last_command_status() == DeviceErrorCode.STATUS_OK # TODO CHECK shouldn't this be DeviceErrorCode.NOT_PROGRAMMED ?
+@pytest.mark.PWS
def test_password_safe_slot_status(C):
C.NK_set_debug(True)
assert C.NK_enable_password_safe(DefaultPasswords.USER) == DeviceErrorCode.STATUS_OK
@@ -131,6 +142,7 @@ def test_password_safe_slot_status(C):
assert is_slot_programmed[1] == 1
+@pytest.mark.aes
def test_issue_device_locks_on_second_key_generation_in_sequence(C):
if is_pro_rtm_07(C) or is_pro_rtm_08(C):
pytest.skip("issue to register: device locks up "
@@ -139,6 +151,7 @@ def test_issue_device_locks_on_second_key_generation_in_sequence(C):
assert C.NK_build_aes_key(DefaultPasswords.ADMIN) == DeviceErrorCode.STATUS_OK
+@pytest.mark.aes
def test_regenerate_aes_key(C):
C.NK_set_debug(True)
assert C.NK_first_authenticate(DefaultPasswords.ADMIN, DefaultPasswords.ADMIN_TEMP) == DeviceErrorCode.STATUS_OK
@@ -146,6 +159,9 @@ def test_regenerate_aes_key(C):
assert C.NK_enable_password_safe(DefaultPasswords.USER) == DeviceErrorCode.STATUS_OK
+@pytest.mark.lock_device
+@pytest.mark.aes
+@pytest.mark.factory_reset
def test_enable_password_safe_after_factory_reset(C):
assert C.NK_lock_device() == DeviceErrorCode.STATUS_OK
if is_storage(C):
@@ -161,7 +177,8 @@ def test_enable_password_safe_after_factory_reset(C):
assert C.NK_build_aes_key(DefaultPasswords.ADMIN) == DeviceErrorCode.STATUS_OK
assert C.NK_enable_password_safe(DefaultPasswords.USER) == DeviceErrorCode.STATUS_OK
-
+@pytest.mark.lock_device
+@pytest.mark.aes
@pytest.mark.xfail(reason="NK Pro firmware bug: regenerating AES key command not always results in cleared slot data")
def test_destroy_password_safe(C):
"""
@@ -196,6 +213,7 @@ def test_destroy_password_safe(C):
assert is_slot_programmed[0] == 0
+@pytest.mark.aes
def test_is_AES_supported(C):
if is_storage(C):
pytest.skip("Storage does not implement this command")
@@ -205,6 +223,7 @@ def test_is_AES_supported(C):
assert C.NK_get_last_command_status() == DeviceErrorCode.STATUS_OK
+@pytest.mark.pin
def test_admin_PIN_change(C):
new_password = '123123123'
assert C.NK_change_admin_PIN('wrong_password', new_password) == DeviceErrorCode.WRONG_PASSWORD
@@ -212,6 +231,7 @@ def test_admin_PIN_change(C):
assert C.NK_change_admin_PIN(new_password, DefaultPasswords.ADMIN) == DeviceErrorCode.STATUS_OK
+@pytest.mark.pin
def test_user_PIN_change(C):
new_password = '123123123'
assert C.NK_change_user_PIN('wrong_password', new_password) == DeviceErrorCode.WRONG_PASSWORD
@@ -219,6 +239,8 @@ def test_user_PIN_change(C):
assert C.NK_change_user_PIN(new_password, DefaultPasswords.USER) == DeviceErrorCode.STATUS_OK
+@pytest.mark.lock_device
+@pytest.mark.pin
def test_admin_retry_counts(C):
default_admin_retry_count = 3
assert C.NK_lock_device() == DeviceErrorCode.STATUS_OK
@@ -229,6 +251,8 @@ def test_admin_retry_counts(C):
assert C.NK_get_admin_retry_count() == default_admin_retry_count
+@pytest.mark.lock_device
+@pytest.mark.pin
def test_user_retry_counts_change_PIN(C):
assert C.NK_change_user_PIN(DefaultPasswords.USER, DefaultPasswords.USER) == DeviceErrorCode.STATUS_OK
wrong_password = 'wrong_password'
@@ -240,6 +264,9 @@ def test_user_retry_counts_change_PIN(C):
assert C.NK_change_user_PIN(DefaultPasswords.USER, DefaultPasswords.USER) == DeviceErrorCode.STATUS_OK
assert C.NK_get_user_retry_count() == default_user_retry_count
+
+@pytest.mark.lock_device
+@pytest.mark.pin
def test_user_retry_counts_PWSafe(C):
default_user_retry_count = 3
assert C.NK_lock_device() == DeviceErrorCode.STATUS_OK
@@ -250,6 +277,7 @@ def test_user_retry_counts_PWSafe(C):
assert C.NK_get_user_retry_count() == default_user_retry_count
+@pytest.mark.pin
def test_unlock_user_password(C):
C.NK_set_debug(True)
default_user_retry_count = 3
@@ -269,16 +297,19 @@ def test_unlock_user_password(C):
assert C.NK_get_admin_retry_count() == default_admin_retry_count
+@pytest.mark.pin
def test_admin_auth(C):
assert C.NK_first_authenticate('wrong_password', DefaultPasswords.ADMIN_TEMP) == DeviceErrorCode.WRONG_PASSWORD
assert C.NK_first_authenticate(DefaultPasswords.ADMIN, DefaultPasswords.ADMIN_TEMP) == DeviceErrorCode.STATUS_OK
+@pytest.mark.pin
def test_user_auth(C):
assert C.NK_user_authenticate('wrong_password', DefaultPasswords.USER_TEMP) == DeviceErrorCode.WRONG_PASSWORD
assert C.NK_user_authenticate(DefaultPasswords.USER, DefaultPasswords.USER_TEMP) == DeviceErrorCode.STATUS_OK
+@pytest.mark.otp
def check_HOTP_RFC_codes(C, func, prep=None, use_8_digits=False):
"""
# https://tools.ietf.org/html/rfc4226#page-32
@@ -298,6 +329,7 @@ def check_HOTP_RFC_codes(C, func, prep=None, use_8_digits=False):
assert code == r
+@pytest.mark.otp
@pytest.mark.parametrize("use_8_digits", [False, True, ])
@pytest.mark.parametrize("use_pin_protection", [False, True, ])
def test_HOTP_RFC_use8digits_usepin(C, use_8_digits, use_pin_protection):
@@ -313,6 +345,7 @@ def test_HOTP_RFC_use8digits_usepin(C, use_8_digits, use_pin_protection):
check_HOTP_RFC_codes(C, lambda x: gs(C.NK_get_hotp_code(x)), use_8_digits=use_8_digits)
+@pytest.mark.otp
def test_HOTP_token(C):
"""
Check HOTP routine with written token ID to slot.
@@ -331,6 +364,7 @@ def test_HOTP_token(C):
assert C.NK_get_last_command_status() == DeviceErrorCode.STATUS_OK
+@pytest.mark.otp
def test_HOTP_counters(C):
"""
# https://tools.ietf.org/html/rfc4226#page-32
@@ -355,6 +389,7 @@ def test_HOTP_counters(C):
INT32_MAX = 2 ** 31 - 1
+@pytest.mark.otp
def test_HOTP_64bit_counter(C):
if is_storage(C):
pytest.xfail('bug in NK Storage HOTP firmware - counter is set with a 8 digits string, '
@@ -379,6 +414,7 @@ def test_HOTP_64bit_counter(C):
assert dev_res == lib_res
+@pytest.mark.otp
def test_TOTP_64bit_time(C):
if is_storage(C):
pytest.xfail('bug in NK Storage TOTP firmware')
@@ -404,6 +440,7 @@ def test_TOTP_64bit_time(C):
assert dev_res == lib_res
+@pytest.mark.otp
@pytest.mark.xfail(reason="NK Pro: Test fails in 50% of cases due to test vectors set 1 second before interval count change"
"Here time is changed on seconds side only and miliseconds part is not being reset apparently"
"This results in available time to test of half a second on average, thus 50% failed cases"
@@ -452,6 +489,7 @@ def test_TOTP_RFC_usepin(C, PIN_protection):
assert data == responses or correct == len(test_data)
+@pytest.mark.otp
def test_get_slot_names(C):
C.NK_set_debug(True)
assert C.NK_first_authenticate(DefaultPasswords.ADMIN, DefaultPasswords.ADMIN_TEMP) == DeviceErrorCode.STATUS_OK
@@ -470,6 +508,7 @@ def test_get_slot_names(C):
assert C.NK_get_last_command_status() == DeviceErrorCode.NOT_PROGRAMMED
+@pytest.mark.otp
def test_get_OTP_codes(C):
assert C.NK_first_authenticate(DefaultPasswords.ADMIN, DefaultPasswords.ADMIN_TEMP) == DeviceErrorCode.STATUS_OK
assert C.NK_write_config(255, 255, 255, False, True, DefaultPasswords.ADMIN_TEMP) == DeviceErrorCode.STATUS_OK
@@ -484,6 +523,7 @@ def test_get_OTP_codes(C):
assert C.NK_get_last_command_status() == DeviceErrorCode.NOT_PROGRAMMED
+@pytest.mark.otp
def test_get_OTP_code_from_not_programmed_slot(C):
assert C.NK_first_authenticate(DefaultPasswords.ADMIN, DefaultPasswords.ADMIN_TEMP) == DeviceErrorCode.STATUS_OK
assert C.NK_write_config(255, 255, 255, False, True, DefaultPasswords.ADMIN_TEMP) == DeviceErrorCode.STATUS_OK
@@ -501,6 +541,7 @@ def test_get_OTP_code_from_not_programmed_slot(C):
assert C.NK_get_last_command_status() == DeviceErrorCode.NOT_PROGRAMMED
+@pytest.mark.otp
def test_get_code_user_authorize(C):
C.NK_set_debug(True)
assert C.NK_first_authenticate(DefaultPasswords.ADMIN, DefaultPasswords.ADMIN_TEMP) == DeviceErrorCode.STATUS_OK
@@ -546,7 +587,8 @@ def test_read_write_config(C):
config = cast_pointer_to_tuple(config_raw_data, 'uint8_t', 5)
assert config == (255, 255, 255, False, True)
-
+@pytest.mark.lock_device
+@pytest.mark.factory_reset
def test_factory_reset(C):
C.NK_set_debug(True)
assert C.NK_first_authenticate(DefaultPasswords.ADMIN, DefaultPasswords.ADMIN_TEMP) == DeviceErrorCode.STATUS_OK
@@ -568,12 +610,13 @@ def test_factory_reset(C):
assert C.NK_clear_new_sd_card_warning(DefaultPasswords.ADMIN) == DeviceErrorCode.STATUS_OK
+@pytest.mark.status
def test_get_status(C):
status = C.NK_status()
s = gs(status)
assert len(s) > 0
-
+@pytest.mark.status
def test_get_serial_number(C):
sn = C.NK_device_serial_number()
sn = gs(sn)
@@ -581,6 +624,7 @@ def test_get_serial_number(C):
print(('Serial number of the device: ', sn))
+@pytest.mark.otp
@pytest.mark.parametrize("secret", ['000001', '00'*10+'ff', '00'*19+'ff', '000102',
'00'*29+'ff', '00'*39+'ff', '002EF43F51AFA97BA2B46418768123C9E1809A5B' ])
def test_OTP_secret_started_from_null(C, secret):
@@ -612,6 +656,7 @@ def test_OTP_secret_started_from_null(C, secret):
assert dev_res == lib_res
+@pytest.mark.otp
@pytest.mark.parametrize("counter", [0, 3, 7, 0xffff,
0xffffffff,
0xffffffffffffffff] )
@@ -644,6 +689,7 @@ def test_HOTP_slots_read_write_counter(C, counter):
assert dev_res == lib_res
+@pytest.mark.otp
@pytest.mark.parametrize("period", [30,60] )
@pytest.mark.parametrize("time", range(21,70,20) )
def test_TOTP_slots_read_write_at_time_period(C, time, period):
@@ -674,6 +720,7 @@ def test_TOTP_slots_read_write_at_time_period(C, time, period):
assert dev_res == lib_res
+@pytest.mark.otp
@pytest.mark.parametrize("secret", [RFC_SECRET, 2*RFC_SECRET, '12'*10, '12'*30] )
def test_TOTP_secrets(C, secret):
'''
@@ -706,6 +753,7 @@ def test_TOTP_secrets(C, secret):
assert dev_res == lib_res
+@pytest.mark.otp
@pytest.mark.parametrize("secret", [RFC_SECRET, 2*RFC_SECRET, '12'*10, '12'*30] )
def test_HOTP_secrets(C, secret):
"""
@@ -757,6 +805,7 @@ def test_special_double_press(C):
# requires manual check
+@pytest.mark.otp
def test_edit_OTP_slot(C):
"""
should change slots counter and name without changing its secret (using null secret for second update)
@@ -790,6 +839,7 @@ def test_edit_OTP_slot(C):
assert gs(C.NK_get_hotp_slot_name(slot_number)) == changed_name
+@pytest.mark.otp
@pytest.mark.skip
@pytest.mark.parametrize("secret", ['31323334353637383930'*2,'31323334353637383930'*4] )
def test_TOTP_codes_from_nitrokeyapp(secret, C):