Back out ill-advised notary server hackery (#6657)

This was ill-advised. We can't modify verify_keys here, because the response object has already been signed by the requested key. Furthermore, it's somewhat unnecessary because existing versions of Synapse (which get upset that the notary key isn't present in verify_keys) will fall back to a direct fetch via `/key/v2/server`. Also: more tests for fetching keys via perspectives: it would be nice if we actually tested when our fetcher can't talk to our notary impl.
2024-10-01 08:25:44 -04:00 · 2020-01-08 13:24:10 +00:00 · 2020-01-08 13:24:10 +00:00 · 573fee759c
commit 573fee759c
parent 235d977e1f
5 changed files with 140 additions and 26 deletions
--- a/changelog.d/6657.bugfix
+++ b/changelog.d/6657.bugfix
@ -0,0 +1 @@
 Fix incorrect signing of responses from the key server implementation.
--- a/synapse/rest/key/v2/remote_key_resource.py
+++ b/synapse/rest/key/v2/remote_key_resource.py
@ -15,7 +15,6 @@
 import logging
 from canonicaljson import encode_canonical_json, json
 from signedjson.key import encode_verify_key_base64
 from signedjson.sign import sign_json
 from twisted.internet import defer
@ -217,23 +216,10 @@ class RemoteKey(DirectServeResource):
        if cache_misses and query_remote_on_cache_miss:
            yield self.fetcher.get_keys(cache_misses)
            yield self.query_keys(request, query, query_remote_on_cache_miss=False)
-            return
+        else:
            signed_keys = []
            for key_json in json_results:
                key_json = json.loads(key_json)
            # backwards-compatibility hack for #6596: if the requested key belongs
            # to us, make sure that all of the signing keys appear in the
            # "verify_keys" section.
            if key_json["server_name"] == self.config.server_name:
                verify_keys = key_json["verify_keys"]
                for signing_key in self.config.key_server_signing_keys:
                    key_id = "%s:%s" % (signing_key.alg, signing_key.version)
                    verify_keys[key_id] = {
                        "key": encode_verify_key_base64(signing_key.verify_key)
                    }
                for signing_key in self.config.key_server_signing_keys:
                    key_json = sign_json(key_json, self.config.server_name, signing_key)
--- a/tests/rest/key/init.py
+++ b/tests/rest/key/init.py
--- a/tests/rest/key/v2/init.py
+++ b/tests/rest/key/v2/init.py
--- a/tests/rest/key/v2/test_remote_key_resource.py
+++ b/tests/rest/key/v2/test_remote_key_resource.py
@ -13,25 +13,30 @@
 # See the License for the specific language governing permissions and
 # limitations under the License.
 import urllib.parse
-from io import BytesIO
+from io import BytesIO, StringIO
 from mock import Mock
 import signedjson.key
 from canonicaljson import encode_canonical_json
 from nacl.signing import SigningKey
 from signedjson.sign import sign_json
 from twisted.web.resource import NoResource
 from synapse.crypto.keyring import PerspectivesKeyFetcher
 from synapse.http.site import SynapseRequest
 from synapse.rest.key.v2 import KeyApiV2Resource
 from synapse.storage.keys import FetchKeyResult
 from synapse.util.httpresourcetree import create_resource_tree
 from synapse.util.stringutils import random_string
 from tests import unittest
 from tests.server import FakeChannel, wait_until_result
 from tests.utils import default_config
-class RemoteKeyResourceTestCase(unittest.HomeserverTestCase):
+class BaseRemoteKeyResourceTestCase(unittest.HomeserverTestCase):
    def make_homeserver(self, reactor, clock):
        self.http_client = Mock()
        return self.setup_test_homeserver(http_client=self.http_client)
@ -73,6 +78,8 @@ class RemoteKeyResourceTestCase(unittest.HomeserverTestCase):
        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.
@ -125,6 +132,126 @@ class RemoteKeyResourceTestCase(unittest.HomeserverTestCase):
        oursigs = sigs[self.hs.hostname]
        self.assertEqual(len(oursigs), 2)
-        # and both keys should be present in the verify_keys section
+        # the requested key should be present in the verify_keys section
        self.assertIn("ed25519:ver1", keys[0]["verify_keys"])
-        self.assertIn("ed25519:a_lPym", 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, *args, **kwargs):
        config = super().default_config(*args, **kwargs)
        # 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, clock, homeserver):
        # 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(
                        self.hs_signing_key.verify_key
                    )
                },
            }
        ]
        self.hs2 = self.setup_test_homeserver(
            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
        def post_json(destination, path, data):
            self.assertEqual(destination, self.hs.hostname)
            self.assertEqual(
                path, "/_matrix/key/v2/query",
            )
            channel = FakeChannel(self.site, self.reactor)
            req = SynapseRequest(channel)
            req.content = BytesIO(encode_canonical_json(data))
            req.requestReceived(
                b"POST", path.encode("utf-8"), b"1.1",
            )
            wait_until_result(self.reactor, req)
            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):
        """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)
        d = fetcher.get_keys({"targetserver": {keyid: 1000}})
        res = self.get_success(d)
        self.assertIn("targetserver", res)
        keyres = res["targetserver"][keyid]
        assert isinstance(keyres, FetchKeyResult)
        self.assertEqual(
            signedjson.key.encode_verify_key_base64(keyres.verify_key),
            signedjson.key.encode_verify_key_base64(testkey.verify_key),
        )
    def test_get_notary_key(self):
        """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)
        d = fetcher.get_keys({self.hs.hostname: {keyid: 1000}})
        res = self.get_success(d)
        self.assertIn(self.hs.hostname, res)
        keyres = res[self.hs.hostname][keyid]
        assert isinstance(keyres, FetchKeyResult)
        self.assertEqual(
            signedjson.key.encode_verify_key_base64(keyres.verify_key),
            signedjson.key.encode_verify_key_base64(testkey.verify_key),
        )
    def test_get_notary_keyserver_key(self):
        """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)
        d = fetcher.get_keys({self.hs.hostname: {keyid: 1000}})
        res = self.get_success(d)
        self.assertIn(self.hs.hostname, res)
        keyres = res[self.hs.hostname][keyid]
        assert isinstance(keyres, FetchKeyResult)
        self.assertEqual(
            signedjson.key.encode_verify_key_base64(keyres.verify_key),
            signedjson.key.encode_verify_key_base64(self.hs_signing_key.verify_key),
        )
		`@ -0,0 +1 @@`
							`Fix incorrect signing of responses from the key server implementation.`