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synapse/tests/rest/key/v2/test_remote_key_resource.py

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# Copyright 2020 The Matrix.org Foundation C.I.C.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
from io import BytesIO, StringIO
from typing import Any, Dict, Optional, Union
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from unittest.mock import Mock
import signedjson.key
from canonicaljson import encode_canonical_json
from signedjson.sign import sign_json
from signedjson.types import SigningKey
from twisted.test.proto_helpers import MemoryReactor
from twisted.web.resource import NoResource, Resource
from synapse.crypto.keyring import PerspectivesKeyFetcher
from synapse.http.site import SynapseRequest
from synapse.rest.key.v2 import KeyResource
from synapse.server import HomeServer
from synapse.storage.keys import FetchKeyResult
from synapse.types import JsonDict
from synapse.util import Clock
from synapse.util.httpresourcetree import create_resource_tree
from synapse.util.stringutils import random_string
from tests import unittest
from tests.server import FakeChannel
from tests.utils import default_config
class BaseRemoteKeyResourceTestCase(unittest.HomeserverTestCase):
def make_homeserver(self, reactor: MemoryReactor, clock: Clock) -> HomeServer:
self.http_client = Mock()
return self.setup_test_homeserver(federation_http_client=self.http_client)
def create_test_resource(self) -> Resource:
return create_resource_tree(
{"/_matrix/key/v2": KeyResource(self.hs)}, root_resource=NoResource()
)
def expect_outgoing_key_request(
self, server_name: str, signing_key: SigningKey
) -> None:
"""
Tell the mock http client to expect an outgoing GET request for the given key
"""
async def get_json(
destination: str,
path: str,
ignore_backoff: bool = False,
**kwargs: Any,
) -> Union[JsonDict, list]:
self.assertTrue(ignore_backoff)
self.assertEqual(destination, server_name)
key_id = "%s:%s" % (signing_key.alg, signing_key.version)
self.assertEqual(path, "/_matrix/key/v2/server")
response = {
"server_name": server_name,
"old_verify_keys": {},
"valid_until_ts": 200 * 1000,
"verify_keys": {
key_id: {
"key": signedjson.key.encode_verify_key_base64(
signedjson.key.get_verify_key(signing_key)
)
}
},
}
sign_json(response, server_name, signing_key)
return response
self.http_client.get_json.side_effect = get_json
class RemoteKeyResourceTestCase(BaseRemoteKeyResourceTestCase):
def make_notary_request(self, server_name: str, key_id: str) -> dict:
"""Send a GET request to the test server requesting the given key.
Checks that the response is a 200 and returns the decoded json body.
"""
channel = FakeChannel(self.site, self.reactor)
# channel is a `FakeChannel` but `HTTPChannel` is expected
req = SynapseRequest(channel, self.site) # type: ignore[arg-type]
req.content = BytesIO(b"")
req.requestReceived(
b"GET",
b"/_matrix/key/v2/query/%s/%s"
% (server_name.encode("utf-8"), key_id.encode("utf-8")),
b"1.1",
)
channel.await_result()
self.assertEqual(channel.code, 200)
resp = channel.json_body
return resp
def test_get_key(self) -> None:
"""Fetch a remote key"""
SERVER_NAME = "remote.server"
testkey = signedjson.key.generate_signing_key("ver1")
self.expect_outgoing_key_request(SERVER_NAME, testkey)
resp = self.make_notary_request(SERVER_NAME, "ed25519:ver1")
keys = resp["server_keys"]
self.assertEqual(len(keys), 1)
self.assertIn("ed25519:ver1", keys[0]["verify_keys"])
self.assertEqual(len(keys[0]["verify_keys"]), 1)
# it should be signed by both the origin server and the notary
self.assertIn(SERVER_NAME, keys[0]["signatures"])
self.assertIn(self.hs.hostname, keys[0]["signatures"])
def test_get_own_key(self) -> None:
"""Fetch our own key"""
testkey = signedjson.key.generate_signing_key("ver1")
self.expect_outgoing_key_request(self.hs.hostname, testkey)
resp = self.make_notary_request(self.hs.hostname, "ed25519:ver1")
keys = resp["server_keys"]
self.assertEqual(len(keys), 1)
# it should be signed by both itself, and the notary signing key
sigs = keys[0]["signatures"]
self.assertEqual(len(sigs), 1)
self.assertIn(self.hs.hostname, sigs)
oursigs = sigs[self.hs.hostname]
self.assertEqual(len(oursigs), 2)
# the requested key should be present in the verify_keys section
self.assertIn("ed25519:ver1", keys[0]["verify_keys"])
class EndToEndPerspectivesTests(BaseRemoteKeyResourceTestCase):
"""End-to-end tests of the perspectives fetch case
The idea here is to actually wire up a PerspectivesKeyFetcher to the notary
endpoint, to check that the two implementations are compatible.
"""
def default_config(self) -> Dict[str, Any]:
config = super().default_config()
# replace the signing key with our own
self.hs_signing_key = signedjson.key.generate_signing_key("kssk")
strm = StringIO()
signedjson.key.write_signing_keys(strm, [self.hs_signing_key])
config["signing_key"] = strm.getvalue()
return config
def prepare(self, reactor: MemoryReactor, clock: Clock, hs: HomeServer) -> None:
# make a second homeserver, configured to use the first one as a key notary
self.http_client2 = Mock()
config = default_config(name="keyclient")
config["trusted_key_servers"] = [
{
"server_name": self.hs.hostname,
"verify_keys": {
"ed25519:%s"
% (
self.hs_signing_key.version,
): signedjson.key.encode_verify_key_base64(
signedjson.key.get_verify_key(self.hs_signing_key)
)
},
}
]
self.hs2 = self.setup_test_homeserver(
federation_http_client=self.http_client2, config=config
)
# wire up outbound POST /key/v2/query requests from hs2 so that they
# will be forwarded to hs1
async def post_json(
destination: str, path: str, data: Optional[JsonDict] = None
) -> Union[JsonDict, list]:
self.assertEqual(destination, self.hs.hostname)
self.assertEqual(
path,
"/_matrix/key/v2/query",
)
channel = FakeChannel(self.site, self.reactor)
# channel is a `FakeChannel` but `HTTPChannel` is expected
req = SynapseRequest(channel, self.site) # type: ignore[arg-type]
req.content = BytesIO(encode_canonical_json(data))
req.requestReceived(
b"POST",
path.encode("utf-8"),
b"1.1",
)
channel.await_result()
self.assertEqual(channel.code, 200)
resp = channel.json_body
return resp
self.http_client2.post_json.side_effect = post_json
def test_get_key(self) -> None:
"""Fetch a key belonging to a random server"""
# make up a key to be fetched.
testkey = signedjson.key.generate_signing_key("abc")
# we expect hs1 to make a regular key request to the target server
self.expect_outgoing_key_request("targetserver", testkey)
keyid = "ed25519:%s" % (testkey.version,)
fetcher = PerspectivesKeyFetcher(self.hs2)
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d = fetcher.get_keys("targetserver", [keyid], 1000)
res = self.get_success(d)
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self.assertIn(keyid, res)
keyres = res[keyid]
assert isinstance(keyres, FetchKeyResult)
self.assertEqual(
signedjson.key.encode_verify_key_base64(keyres.verify_key),
signedjson.key.encode_verify_key_base64(
signedjson.key.get_verify_key(testkey)
),
)
def test_get_notary_key(self) -> None:
"""Fetch a key belonging to the notary server"""
# make up a key to be fetched. We randomise the keyid to try to get it to
# appear before the key server signing key sometimes (otherwise we bail out
# before fetching its signature)
testkey = signedjson.key.generate_signing_key(random_string(5))
# we expect hs1 to make a regular key request to itself
self.expect_outgoing_key_request(self.hs.hostname, testkey)
keyid = "ed25519:%s" % (testkey.version,)
fetcher = PerspectivesKeyFetcher(self.hs2)
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d = fetcher.get_keys(self.hs.hostname, [keyid], 1000)
res = self.get_success(d)
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self.assertIn(keyid, res)
keyres = res[keyid]
assert isinstance(keyres, FetchKeyResult)
self.assertEqual(
signedjson.key.encode_verify_key_base64(keyres.verify_key),
signedjson.key.encode_verify_key_base64(
signedjson.key.get_verify_key(testkey)
),
)
def test_get_notary_keyserver_key(self) -> None:
"""Fetch the notary's keyserver key"""
# we expect hs1 to make a regular key request to itself
self.expect_outgoing_key_request(self.hs.hostname, self.hs_signing_key)
keyid = "ed25519:%s" % (self.hs_signing_key.version,)
fetcher = PerspectivesKeyFetcher(self.hs2)
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d = fetcher.get_keys(self.hs.hostname, [keyid], 1000)
res = self.get_success(d)
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self.assertIn(keyid, res)
keyres = res[keyid]
assert isinstance(keyres, FetchKeyResult)
self.assertEqual(
signedjson.key.encode_verify_key_base64(keyres.verify_key),
signedjson.key.encode_verify_key_base64(
signedjson.key.get_verify_key(self.hs_signing_key)
),
)