# ------------------------------------ # Copyright (c) Microsoft Corporation. # Licensed under the MIT License. # ------------------------------------ """ Tests for the HTTP challenge authentication implementation. These tests aren't parallelizable, because the challenge cache is global to the process. """ import base64 import functools from itertools import product import os import time from unittest.mock import Mock, patch from urllib.parse import urlparse from uuid import uuid4 from devtools_testutils import recorded_by_proxy import pytest from azure.core.credentials import AccessToken, AccessTokenInfo from azure.core.exceptions import ServiceRequestError from azure.core.pipeline import Pipeline from azure.core.pipeline.policies import SansIOHTTPPolicy from azure.core.rest import HttpRequest from azure.keyvault.keys import KeyClient from azure.keyvault.keys._shared import ChallengeAuthPolicy, HttpChallenge, HttpChallengeCache from azure.keyvault.keys._shared.client_base import DEFAULT_VERSION from _shared.helpers import Request, mock_response, validating_transport from _shared.test_case import KeyVaultTestCase from _test_case import KeysClientPreparer, get_decorator from _keys_test_case import KeysTestCase only_default_version = get_decorator(api_versions=[DEFAULT_VERSION]) TOKEN_TYPES = [AccessToken, AccessTokenInfo] class TestChallengeAuth(KeyVaultTestCase, KeysTestCase): @pytest.mark.parametrize("api_version,is_hsm", only_default_version) @KeysClientPreparer() @recorded_by_proxy def test_multitenant_authentication(self, client, is_hsm, **kwargs): if not self.is_live: pytest.skip("This test is incompatible with test proxy in playback") # we set up a client for this method to align with the async test, but we actually want to create a new client # this new client should use a credential with an initially fake tenant ID and still succeed with a real request original_tenant = os.environ.get("AZURE_TENANT_ID") os.environ["AZURE_TENANT_ID"] = str(uuid4()) credential = self.get_credential(KeyClient, additionally_allowed_tenants="*") managed_hsm_url = kwargs.pop("managed_hsm_url", None) keyvault_url = kwargs.pop("vault_url", None) vault_url = managed_hsm_url if is_hsm else keyvault_url client = KeyClient(vault_url=vault_url, credential=credential) if self.is_live: time.sleep(2) # to avoid throttling by the service key_name = self.get_resource_name("multitenant-key") key = client.create_rsa_key(key_name) assert key.id # try making another request with the credential's token revoked # the challenge policy should correctly request a new token for the correct tenant when a challenge is cached client._client._config.authentication_policy._token = None fetched_key = client.get_key(key_name) assert key.id == fetched_key.id # clear the fake tenant if original_tenant: os.environ["AZURE_TENANT_ID"] = original_tenant else: os.environ.pop("AZURE_TENANT_ID") def empty_challenge_cache(fn): @functools.wraps(fn) def wrapper(**kwargs): HttpChallengeCache.clear() assert len(HttpChallengeCache._cache) == 0 return fn(**kwargs) return wrapper def get_random_url(): """The challenge cache is keyed on URLs. Random URLs defend against tests interfering with each other.""" return f"https://{uuid4()}.vault.azure.net/{uuid4()}".replace("-", "") URL = f'authorization_uri="{get_random_url()}"' CLIENT_ID = 'client_id="00000003-0000-0000-c000-000000000000"' CAE_ERROR = 'error="insufficient_claims"' CAE_DECODED_CLAIM = '{"access_token": {"foo": "bar"}}' # Claim token is a string of the base64 encoding of the claim CLAIM_TOKEN = base64.b64encode(CAE_DECODED_CLAIM.encode()).decode() # Note that no resource or scope is necessarily provided in a CAE challenge CLAIM_CHALLENGE = f'Bearer realm="", {URL}, {CLIENT_ID}, {CAE_ERROR}, claims="{CLAIM_TOKEN}"' CAE_CHALLENGE_RESPONSE = Mock(status_code=401, headers={"WWW-Authenticate": CLAIM_CHALLENGE}) KV_CHALLENGE_TENANT = "tenant-id" ENDPOINT = f"https://authority.net/{KV_CHALLENGE_TENANT}" RESOURCE = "https://vault.azure.net" KV_CHALLENGE_RESPONSE = Mock( status_code=401, headers={"WWW-Authenticate": f'Bearer authorization="{ENDPOINT}", resource={RESOURCE}'}, ) def add_url_port(url: str): """Like `get_random_url`, but includes a port number (comes after the domain, and before the path of the URL).""" parsed = urlparse(url) return f"{parsed.scheme}://{parsed.netloc}:443{parsed.path}" def test_enforces_tls(): url = "http://not.secure" HttpChallengeCache.set_challenge_for_url(url, HttpChallenge(url, "Bearer authorization=_, resource=_")) credential = Mock() pipeline = Pipeline(transport=Mock(), policies=[ChallengeAuthPolicy(credential)]) with pytest.raises(ServiceRequestError): pipeline.run(HttpRequest("GET", url)) def test_challenge_cache(): url_a = get_random_url() challenge_a = HttpChallenge(url_a, "Bearer authorization=authority A, resource=resource A") url_b = get_random_url() challenge_b = HttpChallenge(url_b, "Bearer authorization=authority B, resource=resource B") for url, challenge in zip((url_a, url_b), (challenge_a, challenge_b)): HttpChallengeCache.set_challenge_for_url(url, challenge) assert HttpChallengeCache.get_challenge_for_url(url) == challenge assert HttpChallengeCache.get_challenge_for_url(url + "/some/path") == challenge assert HttpChallengeCache.get_challenge_for_url(url + "/some/path?with-query=string") == challenge assert HttpChallengeCache.get_challenge_for_url(add_url_port(url)) == challenge HttpChallengeCache.remove_challenge_for_url(url) assert not HttpChallengeCache.get_challenge_for_url(url) def test_challenge_parsing(): tenant = "tenant" authority = f"https://login.authority.net/{tenant}" resource = "https://challenge.resource" challenge = HttpChallenge( "https://request.uri", challenge=f"Bearer authorization={authority}, resource={resource}" ) assert challenge.get_authorization_server() == authority assert challenge.get_resource() == resource assert challenge.tenant_id == tenant @empty_challenge_cache @pytest.mark.parametrize("token_type", TOKEN_TYPES) def test_scope(token_type): """The policy's token requests should always be for an AADv2 scope""" expected_content = b"a duck" def test_with_challenge(challenge, expected_scope): expected_token = "expected_token" class Requests: count = 0 def send(request): Requests.count += 1 if Requests.count == 1: # first request should be unauthorized and have no content assert not request.body assert request.headers["Content-Length"] == "0" return challenge elif Requests.count == 2: # second request should be authorized according to challenge and have the expected content assert request.headers["Content-Length"] assert request.body == expected_content assert expected_token in request.headers["Authorization"] return Mock(status_code=200) raise ValueError("unexpected request") def get_token(*scopes, **_): assert len(scopes) == 1 assert scopes[0] == expected_scope return token_type(expected_token, 0) if token_type == AccessToken: credential = Mock(spec_set=["get_token"], get_token=Mock(wraps=get_token)) else: credential = Mock(spec_set=["get_token_info"], get_token_info=Mock(wraps=get_token)) pipeline = Pipeline(policies=[ChallengeAuthPolicy(credential=credential)], transport=Mock(send=send)) request = HttpRequest("POST", get_random_url()) request.set_bytes_body(expected_content) pipeline.run(request) if hasattr(credential, "get_token"): assert credential.get_token.call_count == 1 else: assert credential.get_token_info.call_count == 1 endpoint = "https://authority.net/tenant" # an AADv1 resource becomes an AADv2 scope with the addition of '/.default' resource = "https://vault.azure.net" scope = resource + "/.default" challenge_with_resource = Mock( status_code=401, headers={"WWW-Authenticate": f'Bearer authorization="{endpoint}", resource={resource}'}, ) challenge_with_scope = Mock( status_code=401, headers={"WWW-Authenticate": f'Bearer authorization="{endpoint}", scope={scope}'} ) test_with_challenge(challenge_with_resource, scope) test_with_challenge(challenge_with_scope, scope) @empty_challenge_cache @pytest.mark.parametrize("token_type", TOKEN_TYPES) def test_tenant(token_type): """The policy's token requests should pass the parsed tenant ID from the challenge""" expected_content = b"a duck" def test_with_challenge(challenge, expected_tenant): expected_token = "expected_token" class Requests: count = 0 def send(request): Requests.count += 1 if Requests.count == 1: # first request should be unauthorized and have no content assert not request.body assert request.headers["Content-Length"] == "0" return challenge elif Requests.count == 2: # second request should be authorized according to challenge and have the expected content assert request.headers["Content-Length"] assert request.body == expected_content assert expected_token in request.headers["Authorization"] return Mock(status_code=200) raise ValueError("unexpected request") def get_token(*_, options=None, **kwargs): options_bag = options if options else kwargs assert options_bag.get("tenant_id") == expected_tenant return token_type(expected_token, 0) if token_type == AccessToken: credential = Mock(spec_set=["get_token"], get_token=Mock(wraps=get_token)) else: credential = Mock(spec_set=["get_token_info"], get_token_info=Mock(wraps=get_token)) pipeline = Pipeline(policies=[ChallengeAuthPolicy(credential=credential)], transport=Mock(send=send)) request = HttpRequest("POST", get_random_url()) request.set_bytes_body(expected_content) pipeline.run(request) if hasattr(credential, "get_token"): assert credential.get_token.call_count == 1 else: assert credential.get_token_info.call_count == 1 tenant = "tenant-id" endpoint = f"https://authority.net/{tenant}" resource = "https://vault.azure.net" challenge = Mock( status_code=401, headers={"WWW-Authenticate": f'Bearer authorization="{endpoint}", resource={resource}'}, ) test_with_challenge(challenge, tenant) @empty_challenge_cache @pytest.mark.parametrize("token_type", TOKEN_TYPES) def test_adfs(token_type): """The policy should handle AD FS challenges as a special case and omit the tenant ID from token requests""" expected_content = b"a duck" def test_with_challenge(challenge, expected_tenant): expected_token = "expected_token" class Requests: count = 0 def send(request): Requests.count += 1 if Requests.count == 1: # first request should be unauthorized and have no content assert not request.body assert request.headers["Content-Length"] == "0" return challenge elif Requests.count in (2, 3): # second request should be authorized according to challenge and have the expected content assert request.headers["Content-Length"] assert request.body == expected_content assert expected_token in request.headers["Authorization"] return Mock(status_code=200) raise ValueError("unexpected request") def get_token(*_, **kwargs): # we shouldn't provide a tenant ID during AD FS authentication assert "tenant_id" not in kwargs return token_type(expected_token, 0) if token_type == AccessToken: credential = Mock(spec_set=["get_token"], get_token=Mock(wraps=get_token)) else: credential = Mock(spec_set=["get_token_info"], get_token_info=Mock(wraps=get_token)) policy = ChallengeAuthPolicy(credential=credential) pipeline = Pipeline(policies=[policy], transport=Mock(send=send)) request = HttpRequest("POST", get_random_url()) request.set_bytes_body(expected_content) pipeline.run(request) if hasattr(credential, "get_token"): assert credential.get_token.call_count == 1 else: assert credential.get_token_info.call_count == 1 # Regression test: https://github.com/Azure/azure-sdk-for-python/issues/33621 policy._token = None pipeline.run(request) tenant = "tenant-id" # AD FS challenges have an unusual authority format; see https://github.com/Azure/azure-sdk-for-python/issues/28648 endpoint = f"https://adfs.redmond.azurestack.corp.microsoft.com/adfs/{tenant}" resource = "https://vault.azure.net" challenge = Mock( status_code=401, headers={"WWW-Authenticate": f'Bearer authorization="{endpoint}", resource={resource}'}, ) test_with_challenge(challenge, tenant) @pytest.mark.parametrize("token_type", TOKEN_TYPES) def test_policy_updates_cache(token_type): """ It's possible for the challenge returned for a request to change, e.g. when a vault is moved to a new tenant. When the policy receives a 401, it should update the cached challenge for the requested URL, if one exists. """ url = get_random_url() first_scope = "https://vault.azure.net/first-scope" first_token = "first-scope-token" second_scope = "https://vault.azure.net/second-scope" second_token = "second-scope-token" challenge_fmt = 'Bearer authorization="https://login.authority.net/tenant", resource=' # mocking a tenant change: # 1. first request -> respond with challenge # 2. second request should be authorized according to the challenge # 3. third request should match the second (using a cached access token) # 4. fourth request should also match the second -> respond with a new challenge # 5. fifth request should be authorized according to the new challenge # 6. sixth request should match the fifth transport = validating_transport( requests=( Request(url), Request(url, required_headers={"Authorization": f"Bearer {first_token}"}), Request(url, required_headers={"Authorization": f"Bearer {first_token}"}), Request(url, required_headers={"Authorization": f"Bearer {first_token}"}), Request(url, required_headers={"Authorization": f"Bearer {second_token}"}), Request(url, required_headers={"Authorization": f"Bearer {second_token}"}), ), responses=( mock_response(status_code=401, headers={"WWW-Authenticate": challenge_fmt + first_scope}), mock_response(status_code=200), mock_response(status_code=200), mock_response(status_code=401, headers={"WWW-Authenticate": challenge_fmt + second_scope}), mock_response(status_code=200), mock_response(status_code=200), ), ) token = token_type(first_token, time.time() + 3600) def get_token(*_, **__): return token if token_type == AccessToken: credential = Mock(spec_set=["get_token"], get_token=Mock(wraps=get_token)) else: credential = Mock(spec_set=["get_token_info"], get_token_info=Mock(wraps=get_token)) pipeline = Pipeline(policies=[ChallengeAuthPolicy(credential=credential)], transport=transport) # policy should complete and cache the first challenge and access token for _ in range(2): pipeline.run(HttpRequest("GET", url)) if hasattr(credential, "get_token"): assert credential.get_token.call_count == 1 else: assert credential.get_token_info.call_count == 1 # The next request will receive a new challenge. The policy should handle it and update caches. token = token_type(second_token, time.time() + 3600) for _ in range(2): pipeline.run(HttpRequest("GET", url)) if hasattr(credential, "get_token"): assert credential.get_token.call_count == 2 else: assert credential.get_token_info.call_count == 2 @empty_challenge_cache @pytest.mark.parametrize("token_type", TOKEN_TYPES) def test_token_expiration(token_type): """policy should not use a cached token which has expired""" url = get_random_url() expires_on = time.time() + 3600 first_token = "*" second_token = "**" resource = "https://vault.azure.net" token = token_type(first_token, expires_on) def get_token(*_, **__): return token if token_type == AccessToken: credential = Mock(spec_set=["get_token"], get_token=Mock(wraps=get_token)) else: credential = Mock(spec_set=["get_token_info"], get_token_info=Mock(wraps=get_token)) transport = validating_transport( requests=[ Request(), Request(required_headers={"Authorization": "Bearer " + first_token}), Request(required_headers={"Authorization": "Bearer " + first_token}), Request(required_headers={"Authorization": "Bearer " + second_token}), ], responses=[ mock_response( status_code=401, headers={"WWW-Authenticate": f'Bearer authorization="{url}", resource={resource}'} ) ] + [mock_response()] * 3, ) pipeline = Pipeline(policies=[ChallengeAuthPolicy(credential=credential)], transport=transport) for _ in range(2): pipeline.run(HttpRequest("GET", url)) if hasattr(credential, "get_token"): assert credential.get_token.call_count == 1 else: assert credential.get_token_info.call_count == 1 token = token_type(second_token, time.time() + 3600) with patch("time.time", lambda: expires_on): pipeline.run(HttpRequest("GET", url)) if hasattr(credential, "get_token"): assert credential.get_token.call_count == 2 else: assert credential.get_token_info.call_count == 2 @empty_challenge_cache @pytest.mark.parametrize("token_type", TOKEN_TYPES) def test_preserves_options_and_headers(token_type): """After a challenge, the policy should send the original request with its options and headers preserved""" url = get_random_url() token = "**" resource = "https://vault.azure.net" def get_token(*_, **__): return token_type(token, 0) if token_type == AccessToken: credential = Mock(spec_set=["get_token"], get_token=Mock(wraps=get_token)) else: credential = Mock(spec_set=["get_token_info"], get_token_info=Mock(wraps=get_token)) transport = validating_transport( requests=[Request()] * 2 + [Request(required_headers={"Authorization": "Bearer " + token})], responses=[ mock_response( status_code=401, headers={"WWW-Authenticate": f'Bearer authorization="{url}", resource={resource}'} ) ] + [mock_response()] * 2, ) key = "foo" value = "bar" def add(request): # add the expected option and header request.context.options[key] = value request.http_request.headers[key] = value adder = Mock(spec_set=SansIOHTTPPolicy, on_request=Mock(wraps=add), on_exception=lambda _: False) def verify(request): # authorized (non-challenge) requests should have the expected option and header if request.http_request.headers.get("Authorization"): assert request.context.options.get(key) == value, "request option wasn't preserved across challenge" assert request.http_request.headers.get(key) == value, "headers wasn't preserved across challenge" verifier = Mock(spec=SansIOHTTPPolicy, on_request=Mock(wraps=verify)) challenge_policy = ChallengeAuthPolicy(credential=credential) policies = [adder, challenge_policy, verifier] pipeline = Pipeline(policies=policies, transport=transport) pipeline.run(HttpRequest("GET", url)) # ensure the mock sans I/O policies were called assert adder.on_request.called, "mock policy wasn't invoked" assert verifier.on_request.called, "mock policy wasn't invoked" @empty_challenge_cache @pytest.mark.parametrize("verify_challenge_resource,token_type", product([True, False], TOKEN_TYPES)) def test_verify_challenge_resource_matches(verify_challenge_resource, token_type): """The auth policy should raise if the challenge resource doesn't match the request URL unless check is disabled""" url = get_random_url() url_with_port = add_url_port(url) token = "**" resource = "https://myvault.azure.net" # Doesn't match a "".vault.azure.net" resource because of the "my" prefix def get_token(*_, **__): return token_type(token, 0) if token_type == AccessToken: credential = Mock(spec_set=["get_token"], get_token=Mock(wraps=get_token)) else: credential = Mock(spec_set=["get_token_info"], get_token_info=Mock(wraps=get_token)) transport = validating_transport( requests=[Request(), Request(required_headers={"Authorization": f"Bearer {token}"})], responses=[ mock_response( status_code=401, headers={"WWW-Authenticate": f'Bearer authorization="{url}", resource={resource}'} ), mock_response(status_code=200, json_payload={"key": {"kid": f"{url}/key-name"}}) ] ) transport_2 = validating_transport( requests=[Request(), Request(required_headers={"Authorization": f"Bearer {token}"})], responses=[ mock_response( status_code=401, headers={"WWW-Authenticate": f'Bearer authorization="{url}", resource={resource}'} ), mock_response(status_code=200, json_payload={"key": {"kid": f"{url}/key-name"}}) ] ) client = KeyClient(url, credential, transport=transport, verify_challenge_resource=verify_challenge_resource) client_with_port = KeyClient( url_with_port, credential, transport=transport_2, verify_challenge_resource=verify_challenge_resource ) if verify_challenge_resource: with pytest.raises(ValueError) as e: client.get_key("key-name") assert f"The challenge resource 'myvault.azure.net' does not match the requested domain" in str(e.value) with pytest.raises(ValueError) as e: client_with_port.get_key("key-name") assert f"The challenge resource 'myvault.azure.net' does not match the requested domain" in str(e.value) else: key = client.get_key("key-name") assert key.name == "key-name" key = client_with_port.get_key("key-name") assert key.name == "key-name" @empty_challenge_cache @pytest.mark.parametrize("verify_challenge_resource,token_type", product([True, False], TOKEN_TYPES)) def test_verify_challenge_resource_valid(verify_challenge_resource, token_type): """The auth policy should raise if the challenge resource isn't a valid URL unless check is disabled""" url = get_random_url() token = "**" resource = "bad-resource" def get_token(*_, **__): return token_type(token, 0) if token_type == AccessToken: credential = Mock(spec_set=["get_token"], get_token=Mock(wraps=get_token)) else: credential = Mock(spec_set=["get_token_info"], get_token_info=Mock(wraps=get_token)) transport = validating_transport( requests=[Request(), Request(required_headers={"Authorization": f"Bearer {token}"})], responses=[ mock_response( status_code=401, headers={"WWW-Authenticate": f'Bearer authorization="{url}", resource={resource}'} ), mock_response(status_code=200, json_payload={"key": {"kid": f"{url}/key-name"}}) ] ) client = KeyClient(url, credential, transport=transport, verify_challenge_resource=verify_challenge_resource) if verify_challenge_resource: with pytest.raises(ValueError) as e: client.get_key("key-name") assert "The challenge contains invalid scope" in str(e.value) else: key = client.get_key("key-name") assert key.name == "key-name" @empty_challenge_cache @pytest.mark.parametrize("token_type", TOKEN_TYPES) def test_cae(token_type): """The policy should handle claims in a challenge response after having successfully authenticated prior.""" expected_content = b"a duck" def test_with_challenge(claims_challenge, expected_claim): first_token = "first_token" expected_token = "expected_token" class Requests: count = 0 def send(request): Requests.count += 1 if Requests.count == 1: # first request should be unauthorized and have no content; triggers a KV challenge response assert not request.body assert "Authorization" not in request.headers assert request.headers["Content-Length"] == "0" return KV_CHALLENGE_RESPONSE elif Requests.count == 2: # second request should be authorized according to challenge and have the expected content assert request.headers["Content-Length"] assert request.body == expected_content assert first_token in request.headers["Authorization"] return Mock(status_code=200) elif Requests.count == 3: # third request will trigger a CAE challenge response in this test scenario assert request.headers["Content-Length"] assert request.body == expected_content assert first_token in request.headers["Authorization"] return claims_challenge elif Requests.count == 4: # fourth request should include the required claims and correctly use content from the first challenge assert request.headers["Content-Length"] assert request.body == expected_content assert expected_token in request.headers["Authorization"] return Mock(status_code=200) elif Requests.count == 5: # fifth request should be a regular request with the expected token assert request.headers["Content-Length"] assert request.body == expected_content assert expected_token in request.headers["Authorization"] return KV_CHALLENGE_RESPONSE elif Requests.count == 6: # sixth request should respond to the KV challenge WITHOUT including claims # we return another challenge to confirm that the policy will return consecutive 401s to the user assert request.headers["Content-Length"] assert request.body == expected_content assert first_token in request.headers["Authorization"] return KV_CHALLENGE_RESPONSE raise ValueError("unexpected request") def get_token(*scopes, options=None, **kwargs): options_bag = options if options else kwargs assert options_bag.get("enable_cae") == True assert options_bag.get("tenant_id") == KV_CHALLENGE_TENANT assert scopes[0] == RESOURCE + "/.default" # Response to KV challenge if Requests.count == 1: assert options_bag.get("claims") == None return AccessToken(first_token, time.time() + 3600) # Response to CAE challenge elif Requests.count == 3: assert options_bag.get("claims") == expected_claim return AccessToken(expected_token, time.time() + 3600) # Response to second KV challenge elif Requests.count == 5: assert options_bag.get("claims") == None return AccessToken(first_token, time.time() + 3600) elif Requests.count == 6: raise ValueError("unexpected token request") if token_type == AccessToken: credential = Mock(spec_set=["get_token"], get_token=Mock(wraps=get_token)) else: credential = Mock(spec_set=["get_token_info"], get_token_info=Mock(wraps=get_token)) pipeline = Pipeline(policies=[ChallengeAuthPolicy(credential=credential)], transport=Mock(send=send)) request = HttpRequest("POST", get_random_url()) request.set_bytes_body(expected_content) pipeline.run(request) # Send the request once to trigger a regular auth challenge pipeline.run(request) # Send the request again to trigger a CAE challenge pipeline.run(request) # Send the request once to trigger another regular auth challenge # token requests made for the CAE challenge and first two KV challenges, but not the final KV challenge if hasattr(credential, "get_token"): assert credential.get_token.call_count == 3 else: assert credential.get_token_info.call_count == 3 test_with_challenge(CAE_CHALLENGE_RESPONSE, CAE_DECODED_CLAIM) @empty_challenge_cache @pytest.mark.parametrize("token_type", TOKEN_TYPES) def test_cae_consecutive_challenges(token_type): """The policy should correctly handle consecutive challenges in cases where the flow is valid or invalid.""" expected_content = b"a duck" def test_with_challenge(claims_challenge, expected_claim): first_token = "first_token" expected_token = "expected_token" class Requests: count = 0 def send(request): Requests.count += 1 if Requests.count == 1: # first request should be unauthorized and have no content; triggers a KV challenge response assert not request.body assert "Authorization" not in request.headers assert request.headers["Content-Length"] == "0" return KV_CHALLENGE_RESPONSE elif Requests.count == 2: # second request will trigger a CAE challenge response in this test scenario assert request.headers["Content-Length"] assert request.body == expected_content assert first_token in request.headers["Authorization"] return claims_challenge elif Requests.count == 3: # third request should include the required claims and correctly use content from the first challenge # we return another CAE challenge to verify that the policy will return consecutive CAE 401s to the user assert request.headers["Content-Length"] assert request.body == expected_content assert expected_token in request.headers["Authorization"] return claims_challenge raise ValueError("unexpected request") def get_token(*scopes, options=None, **kwargs): options_bag = options if options else kwargs assert options_bag.get("enable_cae") == True assert options_bag.get("tenant_id") == KV_CHALLENGE_TENANT assert scopes[0] == RESOURCE + "/.default" # Response to KV challenge if Requests.count == 1: assert options_bag.get("claims") == None return token_type(first_token, time.time() + 3600) # Response to first CAE challenge elif Requests.count == 2: assert options_bag.get("claims") == expected_claim return token_type(expected_token, time.time() + 3600) if token_type == AccessToken: credential = Mock(spec_set=["get_token"], get_token=Mock(wraps=get_token)) else: credential = Mock(spec_set=["get_token_info"], get_token_info=Mock(wraps=get_token)) pipeline = Pipeline(policies=[ChallengeAuthPolicy(credential=credential)], transport=Mock(send=send)) request = HttpRequest("POST", get_random_url()) request.set_bytes_body(expected_content) pipeline.run(request) # token requests made for the KV challenge and first CAE challenge, but not the second CAE challenge if hasattr(credential, "get_token"): assert credential.get_token.call_count == 2 else: assert credential.get_token_info.call_count == 2 test_with_challenge(CAE_CHALLENGE_RESPONSE, CAE_DECODED_CLAIM) @empty_challenge_cache @pytest.mark.parametrize("token_type", TOKEN_TYPES) def test_cae_token_expiry(token_type): """The policy should avoid sending claims more than once when a token expires.""" expected_content = b"a duck" def test_with_challenge(claims_challenge, expected_claim): first_token = "first_token" second_token = "second_token" third_token = "third_token" class Requests: count = 0 def send(request): Requests.count += 1 if Requests.count == 1: # first request should be unauthorized and have no content; triggers a KV challenge response assert not request.body assert "Authorization" not in request.headers assert request.headers["Content-Length"] == "0" return KV_CHALLENGE_RESPONSE elif Requests.count == 2: # second request will trigger a CAE challenge response in this test scenario assert request.headers["Content-Length"] assert request.body == expected_content assert first_token in request.headers["Authorization"] return claims_challenge elif Requests.count == 3: # third request should include the required claims and correctly use content from the first challenge assert request.headers["Content-Length"] assert request.body == expected_content assert second_token in request.headers["Authorization"] return Mock(status_code=200) elif Requests.count == 4: # fourth request should not include claims, but otherwise use content from the first challenge assert request.headers["Content-Length"] assert request.body == expected_content assert third_token in request.headers["Authorization"] return Mock(status_code=200) raise ValueError("unexpected request") def get_token(*scopes, options=None, **kwargs): options_bag = options if options else kwargs assert options_bag.get("enable_cae") == True assert options_bag.get("tenant_id") == KV_CHALLENGE_TENANT assert scopes[0] == RESOURCE + "/.default" # Response to KV challenge if Requests.count == 1: assert options_bag.get("claims") == None return token_type(first_token, time.time() + 3600) # Response to first CAE challenge elif Requests.count == 2: assert options_bag.get("claims") == expected_claim return token_type(second_token, 0) # Return a token that expires immediately to trigger a refresh # Token refresh before making the final request elif Requests.count == 3: assert options_bag.get("claims") == None return token_type(third_token, time.time() + 3600) if token_type == AccessToken: credential = Mock(spec_set=["get_token"], get_token=Mock(wraps=get_token)) else: credential = Mock(spec_set=["get_token_info"], get_token_info=Mock(wraps=get_token)) pipeline = Pipeline(policies=[ChallengeAuthPolicy(credential=credential)], transport=Mock(send=send)) request = HttpRequest("POST", get_random_url()) request.set_bytes_body(expected_content) pipeline.run(request) pipeline.run(request) # Send the request again to trigger a token refresh upon expiry # token requests made for the KV and CAE challenges, as well as for the token refresh if hasattr(credential, "get_token"): assert credential.get_token.call_count == 3 else: assert credential.get_token_info.call_count == 3 test_with_challenge(CAE_CHALLENGE_RESPONSE, CAE_DECODED_CLAIM)