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# ------------------------------------
# Copyright (c) Microsoft Corporation.
# Licensed under the MIT License.
# ------------------------------------
import asyncio
import functools
import codecs
import logging
import json
from azure.core.exceptions import ResourceExistsError
from azure.keyvault.keys import JsonWebKey
from azure.keyvault.keys.aio import KeyClient
from devtools_testutils import ResourceGroupPreparer, KeyVaultPreparer
from _shared.preparer_async import KeyVaultClientPreparer as _KeyVaultClientPreparer
from _shared.test_case_async import KeyVaultTestCase
from dateutil import parser as date_parse
# pre-apply the client_cls positional argument so it needn't be explicitly passed below
KeyVaultClientPreparer = functools.partial(_KeyVaultClientPreparer, KeyClient)
# used for logging tests
class MockHandler(logging.Handler):
def __init__(self):
super(MockHandler, self).__init__()
self.messages = []
def emit(self, record):
self.messages.append(record)
class KeyVaultKeyTest(KeyVaultTestCase):
def _assert_jwks_equal(self, jwk1, jwk2):
assert jwk1.kid == jwk2.kid
assert jwk1.kty == jwk2.kty
assert jwk1.key_ops == jwk2.key_ops
assert jwk1.n == jwk2.n
assert jwk1.e == jwk2.e
assert jwk1.d == jwk2.d
assert jwk1.dp == jwk2.dp
assert jwk1.dq == jwk2.dq
assert jwk1.qi == jwk2.qi
assert jwk1.p == jwk2.p
assert jwk1.q == jwk2.q
assert jwk1.k == jwk2.k
assert jwk1.t == jwk2.t
assert jwk1.crv == jwk2.crv
assert jwk1.x == jwk2.x
assert jwk1.y == jwk2.y
def _assert_key_attributes_equal(self, k1, k2):
self.assertEqual(k1.name, k2.name)
self.assertEqual(k1.vault_url, k2.vault_url)
self.assertEqual(k1.enabled, k2.enabled)
self.assertEqual(k1.not_before, k2.not_before)
self.assertEqual(k1.expires_on, k2.expires_on)
self.assertEqual(k1.created_on, k2.created_on)
self.assertEqual(k1.updated_on, k2.updated_on)
self.assertEqual(k1.tags, k2.tags)
self.assertEqual(k1.recovery_level, k2.recovery_level)
async def _create_rsa_key(self, client, key_name, hsm=False):
# create key with optional arguments
key_size = 2048
key_ops = ["encrypt", "decrypt", "sign", "verify", "wrapKey", "unwrapKey"]
tags = {"purpose": "unit test", "test name ": "CreateRSAKeyTest"}
created_key = await client.create_rsa_key(
key_name, hardware_protected=hsm, size=key_size, key_operations=key_ops, tags=tags
)
self.assertTrue(created_key.properties.tags, "Missing the optional key attributes.")
self.assertEqual(tags, created_key.properties.tags)
key_type = "RSA-HSM" if hsm else "RSA"
self._validate_rsa_key_bundle(created_key, client.vault_url, key_name, key_type, key_ops)
return created_key
async def _create_ec_key(self, client, key_name, hsm=False):
# create ec key with optional arguments
enabled = True
tags = {"purpose": "unit test", "test name": "CreateECKeyTest"}
created_key = await client.create_ec_key(key_name, hardware_protected=hsm, enabled=enabled, tags=tags)
self.assertTrue(created_key.properties.enabled, "Missing the optional key attributes.")
self.assertEqual(enabled, created_key.properties.enabled)
self.assertEqual(tags, created_key.properties.tags)
key_type = "EC-HSM" if hsm else "EC"
self._validate_ec_key_bundle(created_key, client.vault_url, key_name, key_type)
return created_key
def _validate_ec_key_bundle(self, key_attributes, vault, key_name, kty):
key_curve = "P-256"
prefix = "/".join(s.strip("/") for s in [vault, "keys", key_name])
key = key_attributes.key
kid = key_attributes.id
self.assertEqual(key_curve, key.crv)
self.assertTrue(kid.index(prefix) == 0, "Key Id should start with '{}', but value is '{}'".format(prefix, kid))
self.assertEqual(key.kty, kty, "kty should by '{}', but is '{}'".format(key, key.kty))
self.assertTrue(
key_attributes.properties.created_on and key_attributes.properties.updated_on,
"Missing required date attributes.",
)
def _validate_rsa_key_bundle(self, key_attributes, vault, key_name, kty, key_ops):
prefix = "/".join(s.strip("/") for s in [vault, "keys", key_name])
key = key_attributes.key
kid = key_attributes.id
self.assertTrue(kid.index(prefix) == 0, "Key Id should start with '{}', but value is '{}'".format(prefix, kid))
self.assertEqual(key.kty, kty, "kty should by '{}', but is '{}'".format(key, key.kty))
self.assertTrue(key.n and key.e, "Bad RSA public material.")
self.assertEqual(key_ops, key.key_ops, "keyOps should be '{}', but is '{}'".format(key_ops, key.key_ops))
self.assertTrue(
key_attributes.properties.created_on and key_attributes.properties.updated_on,
"Missing required date attributes.",
)
async def _update_key_properties(self, client, key):
expires = date_parse.parse("2050-01-02T08:00:00.000Z")
tags = {"foo": "updated tag"}
key_bundle = await client.update_key_properties(key.name, expires_on=expires, tags=tags)
self.assertEqual(tags, key_bundle.properties.tags)
self.assertEqual(key.id, key_bundle.id)
self.assertNotEqual(key.properties.updated_on, key_bundle.properties.updated_on)
return key_bundle
async def _validate_key_list(self, keys, expected):
async for key in keys:
if key.name in expected.keys():
self._assert_key_attributes_equal(expected[key.name].properties, key)
del expected[key.name]
self.assertEqual(len(expected), 0)
async def _import_test_key(self, client, name):
def _to_bytes(hex):
if len(hex) % 2:
hex = "0{}".format(hex)
return codecs.decode(hex, "hex_codec")
key = JsonWebKey(
kty="RSA",
key_ops=["encrypt", "decrypt", "sign", "verify", "wrapKey", "unwrapKey"],
n=_to_bytes(
"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"
),
e=_to_bytes("10001"),
d=_to_bytes(
"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"
),
p=_to_bytes(
"00d1deac8d68ddd2c1fd52d5999655b2cf1565260de5269e43fd2a85f39280e1708ffff0682166cb6106ee5ea5e9ffd9f98d0becc9ff2cda2febc97259215ad84b9051e563e14a051dce438bc6541a24ac4f014cf9732d36ebfc1e61a00d82cbe412090f7793cfbd4b7605be133dfc3991f7e1bed5786f337de5036fc1e2df4cf3"
),
q=_to_bytes(
"00c3dc66b641a9b73cd833bc439cd34fc6574465ab5b7e8a92d32595a224d56d911e74624225b48c15a670282a51c40d1dad4bc2e9a3c8dab0c76f10052dfb053bc6ed42c65288a8e8bace7a8881184323f94d7db17ea6dfba651218f931a93b8f738f3d8fd3f6ba218d35b96861a0f584b0ab88ddcf446b9815f4d287d83a3237"
),
dp=_to_bytes(
"00c9a159be7265cbbabc9afcc4967eb74fe58a4c4945431902d1142da599b760e03838f8cbd26b64324fea6bdc9338503f459793636e59b5361d1e6951e08ddb089e1b507be952a81fbeaf7e76890ea4f536e25505c3f648b1e88377dfc19b4c304e738dfca07211b792286a392a704d0f444c0a802539110b7f1f121c00cff0a9"
),
dq=_to_bytes(
"00a0bd4c0a3d9f64436a082374b5caf2488bac1568696153a6a5e4cd85d186db31e2f58f024c617d29f37b4e6b54c97a1e25efec59c4d1fd3061ac33509ce8cae5c11f4cd2e83f41a8264f785e78dc0996076ee23dfdfc43d67c463afaa0180c4a718357f9a6f270d542479a0f213870e661fb950abca4a14ca290570ba7983347"
),
qi=_to_bytes(
"009fe7ae42e92bc04fcd5780464bd21d0c8ac0c599f9af020fde6ab0a7e7d1d39902f5d8fb6c614184c4c1b103fb46e94cd10a6c8a40f9991a1f28269f326435b6c50276fda6493353c650a833f724d80c7d522ba16c79f0eb61f672736b68fb8be3243d10943c4ab7028d09e76cfb5892222e38bc4d35585bf35a88cd68c73b07"
),
)
imported_key = await client.import_key(name, key)
self._validate_rsa_key_bundle(imported_key, client.vault_url, name, "RSA", key.key_ops)
return imported_key
@ResourceGroupPreparer(random_name_enabled=True)
@KeyVaultPreparer()
@KeyVaultClientPreparer()
async def test_key_crud_operations(self, client, **kwargs):
self.assertIsNotNone(client)
# create ec key
await self._create_ec_key(client, key_name="crud-ec-key", hsm=True)
# create ec with curve
created_ec_key_curve = await client.create_ec_key(name="crud-P-256-ec-key", curve="P-256")
self.assertEqual("P-256", created_ec_key_curve.key.crv)
# import key
await self._import_test_key(client, "import-test-key")
# create rsa key
created_rsa_key = await self._create_rsa_key(client, key_name="crud-rsa-key")
# get the created key with version
key = await client.get_key(created_rsa_key.name, created_rsa_key.properties.version)
self.assertEqual(key.properties.version, created_rsa_key.properties.version)
self._assert_key_attributes_equal(created_rsa_key.properties, key.properties)
# get key without version
self._assert_key_attributes_equal(
created_rsa_key.properties, (await client.get_key(created_rsa_key.name)).properties
)
# update key with version
if self.is_live:
# wait to ensure the key's update time won't equal its creation time
await asyncio.sleep(1)
await self._update_key_properties(client, created_rsa_key)
# delete the new key
deleted_key = await client.delete_key(created_rsa_key.name)
self.assertIsNotNone(deleted_key)
self._assert_jwks_equal(created_rsa_key.key, deleted_key.key)
self.assertEqual(deleted_key.id, created_rsa_key.id)
self.assertTrue(
deleted_key.recovery_id and deleted_key.deleted_date and deleted_key.scheduled_purge_date,
"Missing required deleted key attributes.",
)
# get the deleted key when soft deleted enabled
deleted_key = await client.get_deleted_key(created_rsa_key.name)
self.assertIsNotNone(deleted_key)
self.assertEqual(created_rsa_key.id, deleted_key.id)
@ResourceGroupPreparer(random_name_enabled=True)
@KeyVaultPreparer()
@KeyVaultClientPreparer()
async def test_key_list(self, client, **kwargs):
self.assertIsNotNone(client)
max_keys = self.list_test_size
expected = {}
# create many keys
for x in range(max_keys):
key_name = "key{}".format(x)
key = await client.create_key(key_name, "RSA")
expected[key.name] = key
# list keys
result = client.list_properties_of_keys(max_page_size=max_keys - 1)
async for key in result:
if key.name in expected.keys():
self._assert_key_attributes_equal(expected[key.name].properties, key)
del expected[key.name]
self.assertEqual(len(expected), 0)
@ResourceGroupPreparer(random_name_enabled=True)
@KeyVaultPreparer()
@KeyVaultClientPreparer()
async def test_list_versions(self, client, **kwargs):
self.assertIsNotNone(client)
key_name = self.get_resource_name("testKey")
max_keys = self.list_test_size
expected = {}
# create many key versions
for _ in range(max_keys):
key = await client.create_key(key_name, "RSA")
expected[key.id] = key
result = client.list_properties_of_key_versions(key_name, max_page_size=max_keys - 1)
# validate list key versions with attributes
async for key in result:
if key.id in expected.keys():
expected_key = expected[key.id]
del expected[key.id]
self._assert_key_attributes_equal(expected_key.properties, key)
self.assertEqual(0, len(expected))
@ResourceGroupPreparer(random_name_enabled=True)
@KeyVaultPreparer()
@KeyVaultClientPreparer()
async def test_list_deleted_keys(self, client, **kwargs):
self.assertIsNotNone(client)
key_name = self.get_resource_name("sec")
key_type = "RSA"
expected = {}
# create keys to delete
for _ in range(self.list_test_size):
expected[key_name] = await client.create_key(key_name, key_type)
# delete all keys
for key_name in expected.keys():
await client.delete_key(key_name)
# validate list deleted keys with attributes
async for deleted_key in client.list_deleted_keys():
self.assertIsNotNone(deleted_key.deleted_date)
self.assertIsNotNone(deleted_key.scheduled_purge_date)
self.assertIsNotNone(deleted_key.recovery_id)
# validate all our deleted keys are returned by list_deleted_keys
result = client.list_deleted_keys()
async for key in result:
if key.name in expected.keys():
self._assert_key_attributes_equal(expected[key.name].properties, key.properties)
del expected[key.name]
self.assertEqual(len(expected), 0)
@ResourceGroupPreparer(random_name_enabled=True)
@KeyVaultPreparer()
@KeyVaultClientPreparer()
async def test_backup_restore(self, client, **kwargs):
self.assertIsNotNone(client)
key_name = self.get_resource_name("keybak")
key_type = "RSA"
# create key
created_bundle = await client.create_key(key_name, key_type)
# backup key
key_backup = await client.backup_key(created_bundle.name)
self.assertIsNotNone(key_backup, "key_backup")
# delete key
await client.delete_key(created_bundle.name)
# can add test case to see if we do get_deleted should return error
# purge key
await client.purge_deleted_key(created_bundle.name)
# restore key
restore_function = functools.partial(client.restore_key_backup, key_backup)
restored_key = await self._poll_until_no_exception(restore_function, expected_exception=ResourceExistsError)
self._assert_key_attributes_equal(created_bundle.properties, restored_key.properties)
@ResourceGroupPreparer(random_name_enabled=True)
@KeyVaultPreparer()
@KeyVaultClientPreparer()
async def test_recover(self, client, **kwargs):
self.assertIsNotNone(client)
keys = {}
# create keys
for i in range(self.list_test_size):
key_name = "key{}".format(i)
keys[key_name] = await client.create_key(key_name, "RSA")
# delete them
for key_name in keys.keys():
await client.delete_key(key_name)
# recover them
for key_name in keys.keys():
recovered_key = await client.recover_deleted_key(key_name)
expected_key = keys[key_name]
self._assert_key_attributes_equal(expected_key.properties, recovered_key.properties)
# validate the recovered keys
expected = {k: v for k, v in keys.items()}
actual = {}
for k in expected.keys():
actual[k] = await client.get_key(k)
self.assertEqual(len(set(expected.keys()) & set(actual.keys())), len(expected))
@ResourceGroupPreparer(random_name_enabled=True)
@KeyVaultPreparer()
@KeyVaultClientPreparer()
async def test_purge(self, client, **kwargs):
self.assertIsNotNone(client)
keys = {}
# create keys
for i in range(self.list_test_size):
key_name = "key{}".format(i)
keys[key_name] = await client.create_key(key_name, "RSA")
# delete them
for key_name in keys.keys():
await client.delete_key(key_name)
# purge them
for key_name in keys.keys():
await client.purge_deleted_key(key_name)
@ResourceGroupPreparer(random_name_enabled=True)
@KeyVaultPreparer()
@KeyVaultClientPreparer(client_kwargs={"logging_enable": True})
async def test_logging_enabled(self, client, **kwargs):
mock_handler = MockHandler()
logger = logging.getLogger("azure")
logger.addHandler(mock_handler)
logger.setLevel(logging.DEBUG)
await client.create_rsa_key("rsa-key-name", size=2048)
for message in mock_handler.messages:
if message.levelname == "DEBUG" and message.funcName == "on_request":
try:
body = json.loads(message.message)
if body["kty"] == "RSA":
return
except (ValueError, KeyError):
# this means the message is not JSON or has no kty property
pass
assert False, "Expected request body wasn't logged"
@ResourceGroupPreparer(random_name_enabled=True)
@KeyVaultPreparer()
@KeyVaultClientPreparer()
async def test_logging_disabled(self, client, **kwargs):
mock_handler = MockHandler()
logger = logging.getLogger("azure")
logger.addHandler(mock_handler)
logger.setLevel(logging.DEBUG)
await client.create_rsa_key("rsa-key-name", size=2048)
for message in mock_handler.messages:
if message.levelname == "DEBUG" and message.funcName == "on_request":
try:
body = json.loads(message.message)
assert body["kty"] != "RSA", "Client request body was logged"
except (ValueError, KeyError):
# this means the message is not JSON or has no kty property
pass
def test_service_headers_allowed_in_logs():
service_headers = {"x-ms-keyvault-network-info", "x-ms-keyvault-region", "x-ms-keyvault-service-version"}
client = KeyClient("...", object())
assert service_headers.issubset(client._client._config.http_logging_policy.allowed_header_names)
def test_custom_hook_policy():
class CustomHookPolicy(object):
pass
client = KeyClient("...", object(), custom_hook_policy=CustomHookPolicy())
assert isinstance(client._client._config.custom_hook_policy, CustomHookPolicy)
|
