def test_selfservice(self, musicians_realm):
"""Creates User-Id-Resolvers"""
self.manage_ui.policy_view.clear_policies_via_api()
Policy(self.manage_ui, "SE_policy_selfservice", "selfservice",
"setOTPPIN, ", musicians_realm)
login_user = "******"
login_password = "******"
self.selfservice.login(login_user, login_password, musicians_realm)
self.selfservice.select_tab(self.selfservice.tab_set_pin)
def test_selfservice(self):
"""Creates User-Id-Resolvers"""
self.manage_ui.policy_view.clear_policies()
Policy(self.manage_ui, "SE_policy_selfservice",
"selfservice", "setOTPPIN, ", self.realm_name.lower())
login_user = u"郎"
login_password = "******"
self.selfservice.login(
login_user, login_password, self.realm_name.lower())
self.selfservice.select_tab(self.selfservice.tab_set_pin)
def test_selfservice(self, musicians_realm, selfservice):
"""Creates User-Id-Resolvers"""
self.manage_ui.policy_view.clear_policies_via_api()
Policy(self.manage_ui, "SE_policy_selfservice", "selfservice",
"setOTPPIN, enrollPW, enrollHMAC", musicians_realm)
selfservice.open()
login_user = "******"
login_password = "******"
selfservice.login(login_user, login_password, musicians_realm)
selfservice.expect_ui_state(tokens=0, enrollment_options=2)
selfservice.logout()
def test_selfservice(self):
"""Creates User-Id-Resolvers"""
driver = self.driver
Policy(driver, self.base_url, "SE_policy_selfservice",
"selfservice", "setOTPPIN, ", self.realm_name.lower())
login_user = u"郎"
login_password = "******"
driver.get(self.base_url + "/account/login")
driver.find_element_by_id("login").clear()
driver.find_element_by_id("login").send_keys(login_user + "@" + self.realm_name.lower())
driver.find_element_by_id("password").clear()
driver.find_element_by_id("password").send_keys(login_password)
driver.find_element_by_css_selector("input[type=\"submit\"]").click()
try:
self.assertRegexpMatches(driver.find_element_by_css_selector("BODY").text,
r"^[\s\S]*set PIN[\s\S]*$")
except AssertionError as assertion_error:
self.verification_errors.append(str(assertion_error))
def test_scenario01(self):
"""Tests Scenario 01 (https://wally/projects/linotp/wiki/TestingTest_Szenario_01)"""
driver = self.driver
token_view = self.manage_ui.token_view
user_view = self.manage_ui.user_view
selfservice = SelfService(self.driver, self.base_url)
# reset all views
self.reset_resolvers_and_realms()
self.manage_ui.policy_view.clear_policies()
token_view.delete_all_tokens()
self._announce_test("1. UserIdResolver anlegen")
# Create LDAP UserIdResolver
ldap_data = data.musicians_ldap_resolver
ldap_resolver = self.useridresolver_manager.create_resolver(ldap_data)
# Create SQL UserIdResolver
sql_data = data.sql_resolver
sql_resolver = self.useridresolver_manager.create_resolver(sql_data)
self.useridresolver_manager.close()
# Create realm for all resolvers
realm_name1 = "SE_scenario01_realm1"
realm_name2 = "SE_scenario01_realm2"
self.realm_manager.create(realm_name1, [ldap_resolver])
self.realm_manager.create(realm_name2, [sql_resolver])
self.realm_manager.close()
self._announce_test(
"2. In Management Webinterface, check that all users are visible")
self.check_users(realm_name1, ldap_data)
self.check_users(realm_name2, sql_data)
self._announce_test("3. eToken.xml ueber das Webinterface importieren")
seed_oath137332 = "ff06df50017d3b981cfbc4ec4d374040164d8d19"
seed_oath137332_bin = binascii.unhexlify(seed_oath137332)
file_content = """<Tokens>
<Token serial="00040008CFA5">
<CaseModel>5</CaseModel>
<Model>101</Model>
<ProductionDate>02/19/2009</ProductionDate>
<ProductName>Safeword Alpine</ProductName>
<Applications>
<Application ConnectorID="{ab1397d2-ddb6-4705-b66e-9f83f322deb9}">
<Seed>123412354</Seed>
<MovingFactor>1</MovingFactor>
</Application>
</Applications>
</Token>
<Token serial="00040008CFA52">
<CaseModel>5</CaseModel>
<Model>101</Model>
<ProductionDate>02/19/2009</ProductionDate>
<ProductName>Safeword Alpine</ProductName>
<Applications>
<Application ConnectorID="{ab1397d2-ddb6-4705-b66e-9f83f322deb9}">
<Seed>123456</Seed>
<MovingFactor>1</MovingFactor>
</Application>
</Applications>
</Token>
<Token serial="oath137332">
<CaseModel>5</CaseModel>
<Model>101</Model>
<ProductionDate>02/19/2009</ProductionDate>
<ProductName>Safeword Alpine</ProductName>
<Applications>
<Application ConnectorID="{ab1397d2-ddb6-4705-b66e-9f83f322deb1}">
<Seed>""" + seed_oath137332 + """</Seed>
<MovingFactor>1</MovingFactor>
</Application>
</Applications>
</Token>
<Token serial="oath12482B">
<CaseModel>5</CaseModel>
<Model>101</Model>
<ProductionDate>02/19/2009</ProductionDate>
<ProductName>Safeword Alpine</ProductName>
<Applications>
<Application ConnectorID="{ab1397d2-ddb6-4705-b66e-9f83f322deb2}">
<Seed>6ec1d0e9915a2bebf84745b318e39e481249c1eb</Seed>
<MovingFactor>1</MovingFactor>
</Application>
</Applications>
</Token>
</Tokens>"""
TokenImport(driver, self.base_url, "safenet", file_content, None)
serial_token_bach = "oath137332"
test1_realm = realm_name1.lower()
self._announce_test(
"4. Im Management Webinterface nun eine Policy anlegen")
Policy(self.manage_ui, "SE_scenario01", "selfservice",
"enrollMOTP, setOTPPIN, setMOTPPIN, resync, disable ",
test1_realm)
self._announce_test("5. eToken zuweisen")
user_view.select_realm(test1_realm)
user_view.select_user("bach")
token_view.assign_token(serial_token_bach, "1234")
self._announce_test("6. Remote Token zuweisen")
user_view.select_user("debussy")
remote_token = RemoteToken(
driver=self.driver,
base_url=self.base_url,
url="https://billybones",
remote_serial="LSSP0002F653",
pin="1234",
remote_otp_length=6,
)
serial_token_debussy = remote_token.serial
self._announce_test("7. Spass-Token zuweisen")
user_view.select_user("beethoven")
spass_token = SpassToken(
driver=self.driver,
base_url=self.base_url,
pin=u"beethovenspass#ñô",
description="SPass Token enrolled with Selenium")
serial_token_beethoven = spass_token.serial
self._announce_test("8. Selfservice mOTP")
motp_key = "1234123412341234"
motp_pin = "1234"
selfservice.login("mozart", "Test123!", test1_realm)
driver.find_element_by_id("motp_secret").clear()
driver.find_element_by_id("motp_secret").send_keys(motp_key)
driver.find_element_by_id("motp_s_pin1").clear()
driver.find_element_by_id("motp_s_pin1").send_keys(motp_pin)
driver.find_element_by_id("motp_s_pin2").clear()
driver.find_element_by_id("motp_s_pin2").send_keys(motp_pin)
driver.find_element_by_id("motp_self_desc").clear()
driver.find_element_by_id("motp_self_desc").send_keys(
"Selenium self enrolled")
driver.find_element_by_id("button_register_motp").click()
alert_box_text = driver.find_element_by_id("alert_box_text").text
m = re.match(
r"""
.*?
Token\ enrolled\ successfully
.*?
[sS]erial(\ number)?: # 'serial:' or 'Serial number:'
\s*
(?P<serial>\w+) # For example: LSMO0001222C
""", alert_box_text, re.DOTALL | re.VERBOSE)
self.assertTrue(
m is not None,
"alert_box_text does not match regex. Possibly the token was not enrolled properly. %r"
% alert_box_text)
serial_token_mozart = m.group('serial')
self.driver.find_element_by_xpath(
"//button[@type='button' and ancestor::div[@aria-describedby='alert_box']]"
).click()
driver.find_element_by_link_text("Logout").click()
self._announce_test(
"9. Alle 4 Benutzer melden sich im selfservice Portal an und setzen die PIN"
)
user_token_dict = {
"bach": serial_token_bach,
"debussy": serial_token_debussy,
"mozart": serial_token_mozart,
"beethoven": serial_token_beethoven
}
for user, token in user_token_dict.iteritems():
selfservice.login(user, "Test123!", test1_realm)
selfservice.set_pin(token, user + "newpin")
selfservice.logout()
self._announce_test("10. Authentisierung der 4 Benutzer ###")
validate = Validate(self.http_protocol, self.http_host, self.http_port,
self.http_username, self.http_password)
# Validate HOTP Token - bach
hotp = HmacOtp()
for counter in range(0, 20):
otp = "bachnewpin" + \
hotp.generate(counter=counter, key=seed_oath137332_bin)
access_granted, _ = validate.validate(user="******" + test1_realm,
password=otp)
self.assertTrue(
access_granted, "OTP: " + otp + " for user " + "bach@" +
test1_realm + " returned False")
access_granted, _ = validate.validate(user="******" + test1_realm,
password="******")
self.assertFalse(access_granted,
"OTP: 1234111111 should be False for user bach")
# Validate Remote token - debussy
# deactivated remote token test while no remote linotp integration
# server is available
'''
remote_token_otp = "666666"
access_granted, _ = validate.validate(user="******" + test1_realm,
password="******" + remote_token_otp)
self.assertTrue(access_granted, "OTP: " + remote_token_otp + " for user " +
"debussy@" + test1_realm + " returned False")
access_granted, _ = validate.validate(user="******" + test1_realm,
password="******")
self.assertFalse(access_granted, "OTP: 1234111111 should be False for user debussy")'''
# Validate Spass token - beethoven
access_granted, _ = validate.validate(user="******" + test1_realm,
password="******")
self.assertTrue(
access_granted, "OTP: " + "beethovennewpin" + " for user " +
"beethoven@" + test1_realm + " returned False")
access_granted, _ = validate.validate(user="******" + test1_realm,
password="******")
self.assertFalse(
access_granted,
"OTP: randominvalidpin should be False for user beethoven")
# Validate mOTP token - mozart
current_epoch = time.time()
motp_otp = calculate_motp(epoch=current_epoch,
key=motp_key,
pin=motp_pin)
access_granted, _ = validate.validate(user="******" + test1_realm,
password="******" +
motp_otp)
time.sleep(1)
self.assertTrue(
access_granted, "OTP: " + motp_otp + " for user " + "mozart@" +
test1_realm + " returned False")
motp_otp = calculate_motp(epoch=current_epoch - 4000,
key=motp_key,
pin=motp_pin)
access_granted, _ = validate.validate(user="******" + test1_realm,
password="******" +
motp_otp)
self.assertFalse(
access_granted,
"OTP: mozartnewpin%s should be False for user mozart" % motp_otp)
self._announce_test("11. mOTP Pin im selfservice ändern")
new_motp_pin = "5588"
selfservice.login("mozart", "Test123!", test1_realm)
selfservice.set_motp_pin(token, new_motp_pin)
selfservice.logout()
time.sleep(10) # otherwise next mOTP value might not be valid
current_epoch = time.time()
motp_otp = calculate_motp(epoch=current_epoch,
key=motp_key,
pin=new_motp_pin)
access_granted, _ = validate.validate(user="******" + test1_realm,
password="******" +
motp_otp)
self.assertTrue(
access_granted, "OTP: mozartnewpin" + motp_otp + " for user " +
"mozart@" + test1_realm + " returned False")
self._announce_test("12. Token Resynchronisierung")
# Bach 'presses' his token more than 10 times and fails to authenticate
counter = 50 # was 19
hotp = HmacOtp()
otp = "bachnewpin" + \
hotp.generate(counter=counter, key=seed_oath137332_bin)
access_granted, _ = validate.validate(user="******" + test1_realm,
password=otp)
self.assertFalse(access_granted,
"OTP: %s should be False for user bach" % otp)
selfservice.login("bach", "Test123!", test1_realm)
otp1 = hotp.generate(counter=counter + 1, key=seed_oath137332_bin)
otp2 = hotp.generate(counter=counter + 2, key=seed_oath137332_bin)
selfservice.resync_token(serial_token_bach, otp1, otp2)
selfservice.logout()
# Should be able to authenticate again
otp = "bachnewpin" + \
hotp.generate(counter=counter + 3, key=seed_oath137332_bin)
access_granted, _ = validate.validate(user="******" + test1_realm,
password=otp)
self.assertTrue(access_granted,
"OTP: %s should be True for user bach" % otp)
self._announce_test(
"13. Benutzer beethoven deaktiviert seinen Token im Selfservice portal und versucht sich anzumelden."
)
selfservice.login("beethoven", "Test123!", test1_realm)
selfservice.disable_token(serial_token_beethoven)
selfservice.logout()
# beethoven should be unable to authenticate
access_granted, _ = validate.validate(user="******" + test1_realm,
password="******")
self.assertFalse(
access_granted,
"OTP: beethovennewpin should be False for user beethoven")
self._announce_test(
"14. Der Admin entsperrt diesen Token, der Benutzer beethoven kann sich wieder anmelden."
)
token_view.open()
token_view.select_token(serial_token_beethoven)
driver.find_element_by_id("button_enable").click()
time.sleep(1)
# beethoven should be able to authenticate
access_granted, _ = validate.validate(user="******" + test1_realm,
password="******")
self.assertTrue(
access_granted,
"OTP: beethovennewpin should be able to authenticate after re-enabled token."
)
def test_scenario01(self):
"""
Scenario01 (https://wally/projects/linotp/wiki/TestingTest_Szenario_01)
"""
driver = self.testcase.driver
token_view = self.testcase.manage_ui.token_view
user_view = self.testcase.manage_ui.user_view
token_enroll = self.testcase.manage_ui.token_enroll
selfservice = SelfService(self.testcase)
# reset all views
self.testcase.reset_resolvers_and_realms()
self.testcase.manage_ui.policy_view.clear_policies()
token_view.delete_all_tokens()
self._announce_test("1. UserIdResolver anlegen")
# Create LDAP UserIdResolver
ldap_data = data.musicians_ldap_resolver
ldap_resolver = self.testcase.useridresolver_manager.create_resolver(
ldap_data)
# Create SQL UserIdResolver
sql_data = data.sql_resolver
sql_resolver = self.testcase.useridresolver_manager.create_resolver(
sql_data)
self.testcase.useridresolver_manager.close()
# Create realm for all resolvers
realm_name1 = "SE_scenario01_realm1"
realm_name2 = "SE_scenario01_realm2"
self.testcase.realm_manager.create(realm_name1, [ldap_resolver])
self.testcase.realm_manager.create(realm_name2, [sql_resolver])
self.testcase.realm_manager.close()
self._announce_test(
"2. In Management Webinterface, check that all users are visible")
self.check_users(realm_name1, ldap_data)
self.check_users(realm_name2, sql_data)
self._announce_test("3. eToken.xml ueber das Webinterface importieren")
token_import_aladdin = TokenImportAladdin(self.testcase.manage_ui)
aladdin_xml_path = os.path.join(self.testcase.manage_ui.test_data_dir,
"aladdin.xml")
token_import_aladdin.do_import(file_path=aladdin_xml_path)
serial_token_bach = "oath137332"
test1_realm = realm_name1.lower()
self._announce_test(
"4. Im Management Webinterface nun eine Policy anlegen")
Policy(
self.testcase.manage_ui,
"SE_scenario01",
"selfservice",
"enrollMOTP, setOTPPIN, setMOTPPIN, resync, disable ",
test1_realm,
)
self._announce_test("5. eToken zuweisen")
user_view.select_realm(test1_realm)
user_view.select_user("bach")
token_view.assign_token(serial_token_bach, "1234")
self._announce_test("6. Remote Token zuweisen")
user_view.select_user("debussy")
serial_token_debussy = token_enroll.create_remote_token(
url="https://billybones",
remote_serial="LSSP0002F653",
pin="1234",
remote_otp_length=6,
)
self._announce_test("7. Spass-Token zuweisen")
user_view.select_user("beethoven")
beethoven_token_password = "******"
serial_token_beethoven = token_enroll.create_static_password_token(
password=beethoven_token_password,
description="Password Token enrolled with Selenium",
)
self._announce_test("8. Selfservice mOTP")
motp_key = "1234123412341234"
motp_pin = "1234"
selfservice.open()
selfservice.login("mozart", "Test123!", test1_realm)
driver.find_element(By.ID, "motp_secret").clear()
driver.find_element(By.ID, "motp_secret").send_keys(motp_key)
driver.find_element(By.ID, "motp_s_pin1").clear()
driver.find_element(By.ID, "motp_s_pin1").send_keys(motp_pin)
driver.find_element(By.ID, "motp_s_pin2").clear()
driver.find_element(By.ID, "motp_s_pin2").send_keys(motp_pin)
driver.find_element(By.ID, "motp_self_desc").clear()
driver.find_element(
By.ID, "motp_self_desc").send_keys("Selenium self enrolled")
driver.find_element(By.ID, "button_register_motp").click()
alert_box_text = driver.find_element(By.ID, "alert_box_text").text
m = re.match(
r"""
.*?
Token\ enrolled\ successfully
.*?
[sS]erial(\ number)?: # 'serial:' or 'Serial number:'
\s*
(?P<serial>\w+) # For example: LSMO0001222C
""",
alert_box_text,
re.DOTALL | re.VERBOSE,
)
assert m is not None, (
"alert_box_text does not match regex. Possibly the token was not enrolled properly. %r"
% alert_box_text)
serial_token_mozart = m.group("serial")
self.testcase.driver.find_element(
By.XPATH,
"//button[@type='button' and ancestor::div[@aria-describedby='alert_box']]",
).click()
selfservice.logout()
self._announce_test(
"9. Alle 4 Benutzer melden sich im selfservice Portal an und setzen die PIN"
)
user_token_dict = {
"bach": serial_token_bach,
"debussy": serial_token_debussy,
"mozart": serial_token_mozart,
"beethoven": serial_token_beethoven,
}
for user, token in user_token_dict.items():
selfservice.login(user, "Test123!", test1_realm)
selfservice.set_pin(token, user + "newpin")
selfservice.logout()
self._announce_test("10. Authentisierung der 4 Benutzer ###")
validate = Validate(
self.testcase.http_protocol,
self.testcase.http_host,
self.testcase.http_port,
self.testcase.http_username,
self.testcase.http_password,
)
# seed is also set in testdata/aladdin.xml
seed_oath137332 = "ff06df50017d3b981cfbc4ec4d374040164d8d19"
seed_oath137332_bin = binascii.unhexlify(seed_oath137332)
# Validate HOTP Token - bach
hotp = HmacOtp()
for counter in range(0, 4):
otp = "bachnewpin" + hotp.generate(counter=counter,
key=seed_oath137332_bin)
access_granted, _ = validate.validate(user="******" + test1_realm,
password=otp)
assert access_granted, ("OTP: " + otp + " for user " + "bach@" +
test1_realm + " returned False")
access_granted, _ = validate.validate(user="******" + test1_realm,
password="******")
assert (not access_granted
), "OTP: 1234111111 should be False for user bach"
# Validate Remote token - debussy
# deactivated remote token test while no remote linotp integration
# server is available
'''
remote_token_otp = "666666"
access_granted, _ = validate.validate(user="******" + test1_realm,
password="******" + remote_token_otp)
assert access_granted is True, "OTP: " + remote_token_otp + " for user " +
"debussy@" + test1_realm + " returned False"
access_granted, _ = validate.validate(user="******" + test1_realm,
password="******")
assert access_granted is False, "OTP: 1234111111 should be False for user debussy"'''
# Validate Spass token - beethoven
# Correct PIN + password = success
access_granted, _ = validate.validate(
user="******" + test1_realm,
password="******" + beethoven_token_password,
)
assert access_granted, ("OTP: " + "beethovennewpin" + " for user " +
"beethoven@" + test1_realm + " returned False")
# wrong PIN + empty password = fail
access_granted, _ = validate.validate(user="******" + test1_realm,
password="******")
assert (not access_granted
), "OTP: randominvalidpin should be False for user beethoven"
# correct PIN + wrong password = fail
access_granted, _ = validate.validate(
user="******" + test1_realm,
password="******" + "wrongpassword",
)
assert (not access_granted
), "beethoven should not auth with wrong token password"
# Password without pin = fail
access_granted, _ = validate.validate(
user="******" + test1_realm, password=beethoven_token_password)
assert (not access_granted
), "beethoven should not auth with password and old pin"
# Correct PIN + password = success (again)
access_granted, _ = validate.validate(
user="******" + test1_realm,
password="******" + beethoven_token_password,
)
assert access_granted, ("OTP: " + "beethovennewpin" + " for user " +
"beethoven@" + test1_realm + " returned False")
time.sleep(2)
# Validate mOTP token - mozart
current_epoch = time.time()
motp_otp = calculate_motp(epoch=current_epoch,
key=motp_key,
pin=motp_pin)
access_granted, _ = validate.validate(user="******" + test1_realm,
password="******" +
motp_otp)
time.sleep(1)
assert access_granted, ("OTP: " + motp_otp + " for user " + "mozart@" +
test1_realm + " returned False")
motp_otp = calculate_motp(epoch=current_epoch - 4000,
key=motp_key,
pin=motp_pin)
access_granted, _ = validate.validate(user="******" + test1_realm,
password="******" +
motp_otp)
assert not access_granted, (
"OTP: mozartnewpin%s should be False for user mozart" % motp_otp)
self._announce_test("11. mOTP Pin im selfservice ändern")
new_motp_pin = "5588"
selfservice.open()
selfservice.login("mozart", "Test123!", test1_realm)
selfservice.set_motp_pin(serial_token_mozart, new_motp_pin)
selfservice.logout()
time.sleep(10) # otherwise next mOTP value might not be valid
current_epoch = time.time()
motp_otp = calculate_motp(epoch=current_epoch,
key=motp_key,
pin=new_motp_pin)
access_granted, _ = validate.validate(user="******" + test1_realm,
password="******" +
motp_otp)
assert access_granted, ("OTP: mozartnewpin" + motp_otp + " for user " +
"mozart@" + test1_realm + " returned False")
self._announce_test("12. Token Resynchronisierung")
# Bach 'presses' his token more than 10 times and fails to authenticate
counter = 50 # was 19
hotp = HmacOtp()
otp = "bachnewpin" + hotp.generate(counter=counter,
key=seed_oath137332_bin)
access_granted, _ = validate.validate(user="******" + test1_realm,
password=otp)
assert not access_granted, ("OTP: %s should be False for user bach" %
otp)
selfservice.login("bach", "Test123!", test1_realm)
otp1 = hotp.generate(counter=counter + 1, key=seed_oath137332_bin)
otp2 = hotp.generate(counter=counter + 2, key=seed_oath137332_bin)
selfservice.resync_token(serial_token_bach, otp1, otp2)
selfservice.logout()
# Should be able to authenticate again
otp = "bachnewpin" + hotp.generate(counter=counter + 3,
key=seed_oath137332_bin)
access_granted, _ = validate.validate(user="******" + test1_realm,
password=otp)
assert access_granted, "OTP: %s should be True for user bach" % otp
self._announce_test(
"13. Benutzer beethoven deaktiviert seinen Token im Selfservice portal und versucht sich anzumelden."
)
selfservice.login("beethoven", "Test123!", test1_realm)
selfservice.disable_token(serial_token_beethoven)
selfservice.logout()
# beethoven should be unable to authenticate
access_granted, _ = validate.validate(
user="******" + test1_realm,
password="******" + beethoven_token_password,
)
assert (not access_granted
), "OTP: beethovennewpin should be False for user beethoven"
self._announce_test(
"14. Der Admin entsperrt diesen Token, der Benutzer beethoven kann sich wieder anmelden."
)
token_view.open()
token_view.enable_token(serial_token_beethoven)
# beethoven should be able to authenticate
access_granted, _ = validate.validate(
user="******" + test1_realm,
password="******" + beethoven_token_password,
)
assert (
access_granted
), "OTP: beethovennewpin should be able to authenticate after re-enabled token."
def test_otppin_3(self):
"""
Test policy otppin=3 (ignore_pin) : TestRail C1910
First we do some authentications with user a with
otppin=3.
Then we change the policy, that only users from
a specific resolver (user B) get through with otppin=3.
"""
# Define user A
user_a = "bach"
user_a_pw = "Test123!"
user_a_realm = self.two_resolvers_realm_name
user_a_token_pin = "1234"
# Define user B
user_b = "kay"
user_b_pw = "test123!"
user_b_realm = self.two_resolvers_realm_name
user_b_token_pin = ""
user_b_token_key = "3132333435363738393031323334353637383930"
# Unhexlify for hotp.generate method
user_b_token_seed_bin = binascii.unhexlify(user_b_token_key)
# Create Token
self.user_view.select_user(user_b)
self.manage_ui.token_enroll.create_hotp_token(
pin=user_b_token_pin,
hmac_key=user_b_token_key)
###############################
##
# First some tests with user A
##
###############################
# Create policy
Policy(self.manage_ui, "otppin3", "authentication",
"otppin=3",
"*",
"*") # user = "******"
# Create event based HMAC token
# Tokens were imported by self.import_tokens()
self.user_view.select_realm(user_a_realm)
self.user_view.select_user(user_a)
# Unhexlify for hotp.generate method
seed_oath137332_bin = binascii.unhexlify(self.seed_oath137332)
# Assign token to user
# Set a pin
self.token_view.assign_token(self.serial_oath137332,
user_a_token_pin)
# authentication tests
# - PIN+OTP -> successfully
# - PW+OTP -> successfully
# - nonsense+OTP -> successfully
# - OTP -> successfully
# - wront OTP -> fails
hotp_a = HmacOtp()
# PIN+OTP -> success
otp = user_a_token_pin + \
hotp_a.generate(counter=0,
key=seed_oath137332_bin)
access_granted, _ = self.validate.validate(user=user_a + "@" +
user_a_realm, password=otp)
assert access_granted, "OTPPIN=3, PIN+OTP: " + otp + " for user " + \
user_a + "@" + user_a_realm + " returned False"
# PW+OTP -> success
otp = user_a_pw + \
hotp_a.generate(counter=1,
key=seed_oath137332_bin)
access_granted, _ = self.validate.validate(user=user_a + "@" +
user_a_realm, password=otp)
assert access_granted, "OTPPIN=3, PW+OTP: " + otp + " for user " + \
user_a + "@" + user_a_realm + " returned False"
# nonsense+OTP -> success
otp = "nonsense" + \
hotp_a.generate(counter=2,
key=seed_oath137332_bin)
access_granted, _ = self.validate.validate(user=user_a + "@" +
user_a_realm, password=otp)
assert access_granted, "OTPPIN=3, nonsense+OTP: " + otp + " for user " + \
user_a + "@" + user_a_realm + " returned False"
# OTP -> success
otp = hotp_a.generate(counter=3,
key=seed_oath137332_bin)
access_granted, _ = self.validate.validate(user=user_a + "@" +
user_a_realm, password=otp)
assert access_granted, "OTPPIN=3, OTP: " + otp + " for user " + \
user_a + "@" + user_a_realm + " returned False"
# wrong OTP -> fails
otp = "111111"
access_denied, _ = self.validate.validate(user=user_a + "@" +
user_a_realm, password=otp)
assert not access_denied, "OTPPIN=3, wrong OTP: " + otp + " for user " + \
user_a + "@" + user_a_realm + " returned True"
###########################
#
# Bring user B into game
#
# change policy
# user = resolverB:
#
# So the ignore_pin should
# should only affect users
# in resolverB
#
###########################
# Change policy
Policy(self.manage_ui, "otppin3", "authentication",
"otppin=3",
"*", # realm
data.sql_resolver["name"] + ":") # pick specific resolver
hotp_b = HmacOtp()
# PIN+OTP -> success
otp = user_b_token_pin + \
hotp_b.generate(counter=0,
key=user_b_token_seed_bin)
access_granted, _ = self.validate.validate(user=user_b + "@" +
user_b_realm, password=otp)
assert access_granted, "OTPPIN=3, PIN+OTP: " + otp + " for user " + \
user_b + "@" + user_b_realm + " returned False"
# PW+OTP -> success
otp = user_b_pw + \
hotp_b.generate(counter=1,
key=user_b_token_seed_bin)
access_granted, _ = self.validate.validate(user=user_b + "@" +
user_b_realm, password=otp)
assert access_granted, "OTPPIN=3, PW+OTP: " + otp + " for user " + \
user_b + "@" + user_b_realm + " returned False"
# OTP -> success
otp = hotp_b.generate(counter=2,
key=user_b_token_seed_bin)
access_granted, _ = self.validate.validate(user=user_b + "@" +
user_b_realm, password=otp)
assert access_granted, "OTPPIN=3, OTP: " + otp + " for user " + \
user_b + "@" + user_b_realm + " returned False"
# wrong OTP -> fails
otp = "111111"
access_denied, _ = self.validate.validate(user=user_b + "@" +
user_b_realm, password=otp)
assert not access_denied, "OTPPIN=3, wrong OTP: " + otp + " for user " + \
user_b + "@" + user_b_realm + " returned False"
# Back to user A and try to authenticate
# with changed policy!
# OTP -> fails
otp = hotp_a.generate(counter=4,
inc_counter=False,
key=seed_oath137332_bin)
access_denied, _ = self.validate.validate(user=user_a + "@" +
user_a_realm, password=otp)
assert not access_denied, "OTPPIN=3, OTP: " + otp + " for user " + \
user_a + "@" + user_a_realm + " returned True"
# PIN+OTP -> success
otp = user_a_token_pin + \
hotp_a.generate(counter=4,
key=seed_oath137332_bin)
access_granted, _ = self.validate.validate(user=user_a + "@" +
user_a_realm, password=otp)
assert access_granted, "OTPPIN=3, PIN+OTP: " + otp + " for user " + \
user_a + "@" + user_a_realm + " returned False"
def test_scenario01(self):
"""Tests Scenario 01 (https://wally/projects/linotp/wiki/TestingTest_Szenario_01)"""
driver = self.driver
### 1. UserIdResolver anlegen ###
CA001_cert = \
"""-----BEGIN CERTIFICATE-----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-----END CERTIFICATE-----"""
# Create LDAP UserIdResolver
ldap_name = "SE_scenario01_ldap"
ldap_expected_users = [
'bach', 'beethoven', 'berlioz', 'brahms', 'debussy', u'dvořák',
'haydn', 'mozart', u'حافظ', u'郎'
]
ldap_num_expected_users = len(ldap_expected_users)
ldap_id_resolver = LdapUserIdResolver(
ldap_name,
driver,
self.base_url,
uri="ldaps://blackdog",
certificate=CA001_cert,
basedn="ou=people,dc=blackdog,dc=office,dc=lsexperts,dc=de",
# You may also use cn="Wolfgang Amadeus Mozart"
binddn=
u'cn="عبد الحليم حافظ",ou=people,dc=blackdog,dc=office,dc=lsexperts,dc=de',
password="******",
preset_ldap=True)
time.sleep(1)
# Create SQL UserIdResolver
sql_name = "SE_scenario01_sql"
sql_server = "blackdog"
sql_database = "userdb"
sql_user = "******"
sql_password = "******"
sql_table = "user"
sql_limit = "500"
sql_encoding = "latin1"
sql_expected_users = ["corny", "kay", "eric", u"knöt"]
sql_num_expected_users = len(sql_expected_users)
sql_id_resolver = SqlUserIdResolver(sql_name, driver, self.base_url,
sql_server, sql_database, sql_user,
sql_password, sql_table, sql_limit,
sql_encoding)
time.sleep(1)
# Create realm for all resolvers
resolvers_realm1 = [ldap_id_resolver]
realm_name1 = "SE_scenario01_realm1"
realm1 = Realm(realm_name1, resolvers_realm1)
realm1.create(driver, self.base_url)
time.sleep(1)
resolvers_realm2 = [sql_id_resolver]
realm_name2 = "SE_scenario01_realm2"
realm2 = Realm(realm_name2, resolvers_realm2)
realm2.create(driver, self.base_url)
time.sleep(1)
### 2. Im Management Webinterface testen, dass alle Benutzer sichtbar sind ###
user_view = UserView(driver, self.base_url, realm_name1)
self.assertEqual(ldap_num_expected_users, user_view.get_num_users(),
"Not the expected number of users")
for user in ldap_expected_users:
self.assertTrue(user_view.user_exists(user),
"User '" + user + "' should exist.")
time.sleep(1)
user_view = UserView(driver, self.base_url, realm_name2)
self.assertEqual(sql_num_expected_users, user_view.get_num_users(),
"Not the expected number of users")
for user in sql_expected_users:
self.assertTrue(user_view.user_exists(user),
"User '" + user + "' should exist.")
### 3. eToken.xml ueber das Webinterface importieren ###
seed_oath137332 = "ff06df50017d3b981cfbc4ec4d374040164d8d19"
seed_oath137332_bin = binascii.unhexlify(seed_oath137332)
file_content = """<Tokens>
<Token serial="00040008CFA5">
<CaseModel>5</CaseModel>
<Model>101</Model>
<ProductionDate>02/19/2009</ProductionDate>
<ProductName>Safeword Alpine</ProductName>
<Applications>
<Application ConnectorID="{ab1397d2-ddb6-4705-b66e-9f83f322deb9}">
<Seed>123412354</Seed>
<MovingFactor>1</MovingFactor>
</Application>
</Applications>
</Token>
<Token serial="00040008CFA52">
<CaseModel>5</CaseModel>
<Model>101</Model>
<ProductionDate>02/19/2009</ProductionDate>
<ProductName>Safeword Alpine</ProductName>
<Applications>
<Application ConnectorID="{ab1397d2-ddb6-4705-b66e-9f83f322deb9}">
<Seed>123456</Seed>
<MovingFactor>1</MovingFactor>
</Application>
</Applications>
</Token>
<Token serial="oath137332">
<CaseModel>5</CaseModel>
<Model>101</Model>
<ProductionDate>02/19/2009</ProductionDate>
<ProductName>Safeword Alpine</ProductName>
<Applications>
<Application ConnectorID="{ab1397d2-ddb6-4705-b66e-9f83f322deb1}">
<Seed>""" + seed_oath137332 + """</Seed>
<MovingFactor>1</MovingFactor>
</Application>
</Applications>
</Token>
<Token serial="oath12482B">
<CaseModel>5</CaseModel>
<Model>101</Model>
<ProductionDate>02/19/2009</ProductionDate>
<ProductName>Safeword Alpine</ProductName>
<Applications>
<Application ConnectorID="{ab1397d2-ddb6-4705-b66e-9f83f322deb2}">
<Seed>6ec1d0e9915a2bebf84745b318e39e481249c1eb</Seed>
<MovingFactor>1</MovingFactor>
</Application>
</Applications>
</Token>
</Tokens>"""
TokenImport(driver, self.base_url, "safenet", file_content, None)
serial_token_bach = "oath137332"
test1_realm = realm_name1.lower()
### 4. Im Management Webinterface nun eine Policy anlegen ###
Policy(driver, self.base_url, "SE_scenario01", "selfservice",
"enrollMOTP, setOTPPIN, setMOTPPIN, resync, disable ",
test1_realm)
### 5. eToken zuweisen ###
user_view = UserView(driver, self.base_url, test1_realm)
user_view.select_user("bach")
token_view = TokenView(driver, self.base_url)
token_view.select_token(serial_token_bach)
driver.find_element_by_id("button_assign").click()
time.sleep(2)
driver.find_element_by_id("pin1").clear()
driver.find_element_by_id("pin1").send_keys("1234")
driver.find_element_by_id("pin2").clear()
driver.find_element_by_id("pin2").send_keys("1234")
driver.find_element_by_id("button_setpin_setpin").click()
time.sleep(1)
### 6. Remote Token zuweisen ###
user_view = UserView(driver, self.base_url, test1_realm)
user_view.select_user("debussy")
remote_token = RemoteToken(
driver=self.driver,
base_url=self.base_url,
url="https://billybones",
remote_serial="LSSP0002F653",
pin="1234",
remote_otp_length=6,
)
serial_token_debussy = remote_token.serial
remote_token_otp = "666666"
time.sleep(1)
### 7. Spass-Token zuweisen ###
user_view = UserView(driver, self.base_url, test1_realm)
user_view.select_user("beethoven")
spass_token = SpassToken(
driver=self.driver,
base_url=self.base_url,
pin=u"beethovenspass#ñô",
description="SPass Token enrolled with Selenium")
serial_token_beethoven = spass_token.serial
time.sleep(1)
### 8. Selfservice mOTP ###
motp_key = "1234123412341234"
motp_pin = "1234"
driver.get(self.base_url + "/account/login")
driver.find_element_by_id("login").clear()
driver.find_element_by_id("login").send_keys("mozart@" + test1_realm)
driver.find_element_by_id("password").clear()
driver.find_element_by_id("password").send_keys("Test123!")
driver.find_element_by_id("password").submit() # Submits the form
time.sleep(1)
driver.find_element_by_id("motp_secret").clear()
driver.find_element_by_id("motp_secret").send_keys(motp_key)
driver.find_element_by_id("motp_s_pin1").clear()
driver.find_element_by_id("motp_s_pin1").send_keys(motp_pin)
driver.find_element_by_id("motp_s_pin2").clear()
driver.find_element_by_id("motp_s_pin2").send_keys(motp_pin)
driver.find_element_by_id("motp_self_desc").clear()
driver.find_element_by_id("motp_self_desc").send_keys(
"Selenium self enrolled")
driver.find_element_by_id("button_register_motp").click()
time.sleep(1)
alert_box_text = driver.find_element_by_id("alert_box_text").text
m = re.match(
r"""
.*?
Token\ enrolled\ successfully
.*?
[sS]erial(\ number)?: # 'serial:' or 'Serial number:'
\s*
(?P<serial>\w+) # For example: LSMO0001222C
""", alert_box_text, re.DOTALL | re.VERBOSE)
self.assertTrue(
m is not None,
"alert_box_text does not match regex. Possibly the token was not enrolled properly. %r"
% alert_box_text)
serial_token_mozart = m.group('serial')
self.driver.find_element_by_xpath(
"//button[@type='button' and ancestor::div[@aria-describedby='alert_box']]"
).click()
driver.find_element_by_link_text("Logout").click()
### 9. Alle 4 Benutzer melden sich im selfservice Portal an und setzen die PIN
user_token_dict = {
"bach": serial_token_bach,
"debussy": serial_token_debussy,
"mozart": serial_token_mozart,
"beethoven": serial_token_beethoven
}
for user in user_token_dict:
driver.get(self.base_url + "/account/login")
driver.find_element_by_id("login").clear()
driver.find_element_by_id("login").send_keys("%s@%s" %
(user, test1_realm))
driver.find_element_by_id("password").clear()
driver.find_element_by_id("password").send_keys("Test123!")
driver.find_element_by_id("password").submit()
driver.find_element_by_xpath(
"//div[@id='tabs']/ul/li/a/span[text()='set PIN']").click()
time.sleep(1)
# driver.find_element_by_css_selector('#tokenDiv > ul > li > a').click()
driver.find_element_by_id(
'tokenDiv').find_element_by_partial_link_text(
user_token_dict[user]).click()
driver.find_element_by_id("pin1").clear()
driver.find_element_by_id("pin1").send_keys(user + "newpin")
driver.find_element_by_id("pin2").clear()
driver.find_element_by_id("pin2").send_keys(user + "newpin")
driver.find_element_by_id("button_setpin").click()
time.sleep(1)
self.assertEqual("PIN set successfully",
self.close_alert_and_get_its_text())
driver.find_element_by_link_text("Logout").click()
### 10. Authentisierung der 4 Benutzer ###
validate = Validate(self.http_protocol, self.http_host,
self.http_username, self.http_password)
# Validate HOTP Token - bach
hotp = HmacOtp()
for counter in range(0, 20):
otp = "bachnewpin" + hotp.generate(counter=counter,
key=seed_oath137332_bin)
access_granted, _ = validate.validate(user="******" + test1_realm,
password=otp)
self.assertTrue(
access_granted, "OTP: " + otp + " for user " + "bach@" +
test1_realm + " returned False")
access_granted, _ = validate.validate(user="******" + test1_realm,
password="******")
self.assertFalse(access_granted,
"OTP: 1234111111 should be False for user bach")
# Validate Remote token - debussy
access_granted, _ = validate.validate(user="******" + test1_realm,
password="******" +
remote_token_otp)
self.assertTrue(
access_granted, "OTP: " + remote_token_otp + " for user " +
"debussy@" + test1_realm + " returned False")
access_granted, _ = validate.validate(user="******" + test1_realm,
password="******")
self.assertFalse(access_granted,
"OTP: 1234111111 should be False for user debussy")
# Validate Spass token - beethoven
access_granted, _ = validate.validate(user="******" + test1_realm,
password="******")
self.assertTrue(
access_granted, "OTP: " + "beethovennewpin" + " for user " +
"beethoven@" + test1_realm + " returned False")
access_granted, _ = validate.validate(user="******" + test1_realm,
password="******")
self.assertFalse(
access_granted,
"OTP: randominvalidpin should be False for user beethoven")
# Validate mOTP token - mozart
current_epoch = time.time()
motp_otp = calculate_motp(epoch=current_epoch,
key=motp_key,
pin=motp_pin)
access_granted, _ = validate.validate(user="******" + test1_realm,
password="******" +
motp_otp)
self.assertTrue(
access_granted, "OTP: " + motp_otp + " for user " + "mozart@" +
test1_realm + " returned False")
motp_otp = calculate_motp(epoch=current_epoch - 4000,
key=motp_key,
pin=motp_pin)
access_granted, _ = validate.validate(user="******" + test1_realm,
password="******" +
motp_otp)
self.assertFalse(
access_granted,
"OTP: mozartnewpin%s should be False for user mozart" % motp_otp)
### 11. mOTP Pin im selfservice ändern ###
driver.get(self.base_url + "/account/login")
driver.find_element_by_id("login").clear()
driver.find_element_by_id("login").send_keys("%s@%s" %
("mozart", test1_realm))
driver.find_element_by_id("password").clear()
driver.find_element_by_id("password").send_keys("Test123!")
driver.find_element_by_id("password").submit()
driver.find_element_by_xpath(
"//div[@id='tabs']/ul/li/a/span[text()='set mOTP PIN']").click()
time.sleep(1)
driver.find_element_by_id('tokenDiv').find_element_by_link_text(
serial_token_mozart).click()
driver.find_element_by_id("mpin1").clear()
new_motp_pin = "5588"
driver.find_element_by_id("mpin1").send_keys(new_motp_pin)
driver.find_element_by_id("mpin2").clear()
driver.find_element_by_id("mpin2").send_keys(new_motp_pin)
driver.find_element_by_id("button_setmpin").click()
time.sleep(1)
self.assertEqual("mOTP PIN set successfully",
self.close_alert_and_get_its_text())
driver.find_element_by_link_text("Logout").click()
time.sleep(10) # otherwise next mOTP value might not be valid
current_epoch = time.time()
motp_otp = calculate_motp(epoch=current_epoch,
key=motp_key,
pin=new_motp_pin)
access_granted, _ = validate.validate(user="******" + test1_realm,
password="******" +
motp_otp)
self.assertTrue(
access_granted, "OTP: mozartnewpin" + motp_otp + " for user " +
"mozart@" + test1_realm + " returned False")
### 12. Token Resynchronisierung ###
# Bach 'presses' his token more than 10 times and fails to authenticate
counter = 50 # was 19
hotp = HmacOtp()
otp = "bachnewpin" + hotp.generate(counter=counter,
key=seed_oath137332_bin)
access_granted, _ = validate.validate(user="******" + test1_realm,
password=otp)
self.assertFalse(access_granted,
"OTP: %s should be False for user bach" % otp)
driver.get(self.base_url + "/account/login")
driver.find_element_by_id("login").clear()
driver.find_element_by_id("login").send_keys("%s@%s" %
("bach", test1_realm))
driver.find_element_by_id("password").clear()
driver.find_element_by_id("password").send_keys("Test123!")
driver.find_element_by_id("password").submit()
driver.find_element_by_xpath(
"//div[@id='tabs']/ul/li/a/span[text()='Resync Token']").click()
time.sleep(1)
driver.find_element_by_id('tokenDiv').find_element_by_link_text(
serial_token_bach).click()
otp1 = hotp.generate(counter=counter + 1, key=seed_oath137332_bin)
otp2 = hotp.generate(counter=counter + 2, key=seed_oath137332_bin)
driver.find_element_by_id("otp1").clear()
driver.find_element_by_id("otp1").send_keys(otp1)
driver.find_element_by_id("otp2").clear()
driver.find_element_by_id("otp2").send_keys(otp2)
driver.find_element_by_id("button_resync").click()
time.sleep(1)
self.assertEqual("Token resynced successfully",
self.close_alert_and_get_its_text())
driver.find_element_by_link_text("Logout").click()
# Should be able to authenticate again
otp = "bachnewpin" + hotp.generate(counter=counter + 3,
key=seed_oath137332_bin)
access_granted, _ = validate.validate(user="******" + test1_realm,
password=otp)
self.assertTrue(access_granted,
"OTP: %s should be True for user bach" % otp)
### 13. Ein Benutzer debussy deaktiviert seinen Token im Selfservice portal und versucht sich anzumelden. ###
driver.get(self.base_url + "/account/login")
driver.find_element_by_id("login").clear()
driver.find_element_by_id("login").send_keys("%s@%s" %
("debussy", test1_realm))
driver.find_element_by_id("password").clear()
driver.find_element_by_id("password").send_keys("Test123!")
driver.find_element_by_id("password").submit()
driver.find_element_by_xpath(
"//div[@id='tabs']/ul/li/a/span[text()='Disable Token']").click()
time.sleep(1)
driver.find_element_by_id('tokenDiv').find_element_by_link_text(
serial_token_debussy).click()
driver.find_element_by_id("button_disable").click()
time.sleep(1)
self.assertEqual("Token disabled successfully",
self.close_alert_and_get_its_text())
driver.find_element_by_link_text("Logout").click()
# debussy should be unable to authenticate
access_granted, _ = validate.validate(user="******" + test1_realm,
password="******" +
remote_token_otp)
self.assertFalse(
access_granted, "OTP: debussynewpin" + remote_token_otp +
"should be False for user debussy")
### 14. Der Admin entsperrt diesen Token, der Benutzer debussy kann sich wieder anmelden. ###
driver.get(self.base_url + "/manage")
time.sleep(1)
token_view = TokenView(driver, self.base_url)
token_view.select_token(serial_token_debussy)
driver.find_element_by_id("button_enable").click()
time.sleep(1)
# debussy should be able to authenticate
access_granted, _ = validate.validate(user="******" + test1_realm,
password="******" +
remote_token_otp)
self.assertTrue(
access_granted, "OTP: debussynewpin" + remote_token_otp +
"should be True for user debussy")
def test_selfservice(self):
"""Creates User-Id-Resolvers"""
driver = self.driver
ad_certificate = \
"""-----BEGIN CERTIFICATE-----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-----END CERTIFICATE-----"""
# Create LDAP resolver
music_ldap_name = "SE_selfservice"
music_ldap_id_resolver = LdapUserIdResolver(
music_ldap_name,
driver,
self.base_url,
uri="ldaps://blackdog",
certificate=ad_certificate,
basedn="ou=people,dc=blackdog,dc=office,dc=lsexperts,dc=de",
binddn=
u'cn="Antonín Dvořák",ou=people,dc=blackdog,dc=office,dc=lsexperts,dc=de',
password="******",
preset_ldap=True)
time.sleep(1)
# Create realm
resolvers_realm = [music_ldap_id_resolver]
realm_name = "SE_realm_selfservice"
realm = Realm(realm_name, resolvers_realm)
realm.create(driver, self.base_url)
time.sleep(1)
Policy(driver, self.base_url, "SE_policy_selfservice", "selfservice",
"setOTPPIN, ", realm_name.lower())
time.sleep(1)
login_user = u"郎"
login_password = "******"
driver.get(self.base_url + "/account/login")
driver.find_element_by_id("login").clear()
driver.find_element_by_id("login").send_keys(login_user + "@" +
realm_name.lower())
driver.find_element_by_id("password").clear()
driver.find_element_by_id("password").send_keys(login_password)
driver.find_element_by_css_selector("input[type=\"submit\"]").click()
time.sleep(3)
try:
self.assertRegexpMatches(
driver.find_element_by_css_selector("BODY").text,
r"^[\s\S]*set PIN[\s\S]*$")
except AssertionError as assertion_error:
self.verification_errors.append(str(assertion_error))