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make changes based on PR feedback

This commit is contained in:
Hubert Chathi 2019-09-24 14:12:20 -04:00
parent d3f2fbcfe5
commit 26113fb7de
2 changed files with 168 additions and 121 deletions

View file

@ -19,6 +19,8 @@ import logging
from six import iteritems from six import iteritems
import attr
from canonicaljson import encode_canonical_json, json from canonicaljson import encode_canonical_json, json
from signedjson.key import decode_verify_key_bytes from signedjson.key import decode_verify_key_bytes
from signedjson.sign import SignatureVerifyException, verify_signed_json from signedjson.sign import SignatureVerifyException, verify_signed_json
@ -26,7 +28,7 @@ from unpaddedbase64 import decode_base64
from twisted.internet import defer from twisted.internet import defer
from synapse.api.errors import CodeMessageException, Codes, SynapseError from synapse.api.errors import CodeMessageException, Codes, NotFoundError, SynapseError
from synapse.logging.context import make_deferred_yieldable, run_in_background from synapse.logging.context import make_deferred_yieldable, run_in_background
from synapse.logging.opentracing import log_kv, set_tag, tag_args, trace from synapse.logging.opentracing import log_kv, set_tag, tag_args, trace
from synapse.types import ( from synapse.types import (
@ -617,12 +619,18 @@ class E2eKeysHandler(object):
Args: Args:
user_id (string): the user uploading the signatures user_id (string): the user uploading the signatures
signatures (dict[string, dict[string, dict]]): map of users to signatures (dict[string, dict[string, dict]]): map of users to
devices to signed keys devices to signed keys. This is the submission from the user; an
exception will be raised if it is malformed.
Returns:
dict: response to be sent back to the client. The response will have
a "failures" key, which will be a dict mapping users to devices
to errors for the signatures that failed.
Raises:
SynapseError: if the signatures dict is not valid.
""" """
failures = {} failures = {}
# signatures to be stored. Each item will be a tuple of # signatures to be stored. Each item will be a SignatureListItem
# (signing_key_id, target_user_id, target_device_id, signature)
signature_list = [] signature_list = []
# split between checking signatures for own user and signatures for # split between checking signatures for own user and signatures for
@ -646,10 +654,10 @@ class E2eKeysHandler(object):
logger.debug("upload signature failures: %r", failures) logger.debug("upload signature failures: %r", failures)
yield self.store.store_e2e_cross_signing_signatures(user_id, signature_list) yield self.store.store_e2e_cross_signing_signatures(user_id, signature_list)
self_device_ids = [device_id for (_, _, device_id, _) in self_signature_list] self_device_ids = [item.target_device_id for item in self_signature_list]
if self_device_ids: if self_device_ids:
yield self.device_handler.notify_device_update(user_id, self_device_ids) yield self.device_handler.notify_device_update(user_id, self_device_ids)
signed_users = [user_id for (_, user_id, _, _) in other_signature_list] signed_users = [item.target_user_id for item in other_signature_list]
if signed_users: if signed_users:
yield self.device_handler.notify_user_signature_update( yield self.device_handler.notify_user_signature_update(
user_id, signed_users user_id, signed_users
@ -661,48 +669,58 @@ class E2eKeysHandler(object):
def _process_self_signatures(self, user_id, signatures): def _process_self_signatures(self, user_id, signatures):
"""Process uploaded signatures of the user's own keys. """Process uploaded signatures of the user's own keys.
Signatures of the user's own keys from this API come in two forms:
- signatures of the user's devices by the user's self-signing key,
- signatures of the user's master key by the user's devices.
Args: Args:
user_id (string): the user uploading the keys user_id (string): the user uploading the keys
signatures (dict[string, dict]): map of devices to signed keys signatures (dict[string, dict]): map of devices to signed keys
Returns: Returns:
(list[(string, string, string, string)], dict[string, dict[string, dict]]): (list[SignatureListItem], dict[string, dict[string, dict]]):
a list of signatures to upload, in the form (signing_key_id, target_user_id, a list of signatures to upload, and a map of users to devices to failure
target_device_id, signature), and a map of users to devices to failure
reasons reasons
Raises:
SynapseError: if the input is malformed
""" """
signature_list = [] signature_list = []
failures = {} failures = {}
if not signatures: if not signatures:
return signature_list, failures return signature_list, failures
if not isinstance(signatures, dict):
raise SynapseError(400, "Invalid parameter", Codes.INVALID_PARAM)
try: try:
# get our self-signing key to verify the signatures # get our self-signing key to verify the signatures
self_signing_key, self_signing_key_id, self_signing_verify_key = yield self._get_e2e_cross_signing_verify_key( _, self_signing_key_id, self_signing_verify_key = yield self._get_e2e_cross_signing_verify_key(
user_id, "self_signing" user_id, "self_signing"
) )
# get our master key, since it may be signed # get our master key, since it may be signed
master_key, master_key_id, master_verify_key = yield self._get_e2e_cross_signing_verify_key( master_key, _, master_verify_key = yield self._get_e2e_cross_signing_verify_key(
user_id, "master" user_id, "master"
) )
# fetch our stored devices. This is used to 1. verify # fetch our stored devices. This is used to 1. verify
# signatures on the master key, and 2. to can compare with what # signatures on the master key, and 2. to compare with what
# was sent if the device was signed # was sent if the device was signed
devices = yield self.store.get_e2e_device_keys([(user_id, None)]) devices = yield self.store.get_e2e_device_keys([(user_id, None)])
if user_id not in devices: if user_id not in devices:
raise SynapseError(404, "No device keys found", Codes.NOT_FOUND) raise NotFoundError("No device keys found")
devices = devices[user_id] devices = devices[user_id]
except SynapseError as e: except SynapseError as e:
failures[user_id] = { failure = _exception_to_failure(e)
device: _exception_to_failure(e) for device in signatures.keys() failures[user_id] = {device: failure for device in signatures.keys()}
}
return signature_list, failures return signature_list, failures
for device_id, device in signatures.items(): for device_id, device in signatures.items():
if not isinstance(device, dict):
raise SynapseError(400, "Invalid parameter", Codes.INVALID_PARAM)
try: try:
if "signatures" not in device or user_id not in device["signatures"]: if "signatures" not in device or user_id not in device["signatures"]:
# no signature was sent # no signature was sent
@ -711,45 +729,9 @@ class E2eKeysHandler(object):
) )
if device_id == master_verify_key.version: if device_id == master_verify_key.version:
# we have master key signed by devices: for each master_key_signature_list = self._check_master_key_signature(
# device that signed, check the signature. Since user_id, device_id, device, master_key, devices
# the "failures" property in the response only has
# granularity up to the signed device, either all
# of the signatures on the master key succeed, or
# all fail. So loop over the signatures and add
# them to a separate signature list. If everything
# works out, then add them all to the main
# signature list. (In practice, we're likely to
# only have only one signature anyways.)
master_key_signature_list = []
sigs = device["signatures"]
for signing_key_id, signature in sigs[user_id].items():
alg, signing_device_id = signing_key_id.split(":", 1)
if (
signing_device_id not in devices
or signing_key_id
not in devices[signing_device_id]["keys"]["keys"]
):
# signed by an unknown device, or the
# device does not have the key
raise SynapseError(
400, "Invalid signature", Codes.INVALID_SIGNATURE
) )
# get the key and check the signature
pubkey = devices[signing_device_id]["keys"]["keys"][
signing_key_id
]
verify_key = decode_verify_key_bytes(
signing_key_id, decode_base64(pubkey)
)
_check_device_signature(user_id, verify_key, device, master_key)
device["signatures"] = sigs
master_key_signature_list.append(
(signing_key_id, user_id, device_id, signature)
)
signature_list.extend(master_key_signature_list) signature_list.extend(master_key_signature_list)
continue continue
@ -765,7 +747,7 @@ class E2eKeysHandler(object):
try: try:
stored_device = devices[device_id]["keys"] stored_device = devices[device_id]["keys"]
except KeyError: except KeyError:
raise SynapseError(404, "Unknown device", Codes.NOT_FOUND) raise NotFoundError("Unknown device")
if self_signing_key_id in stored_device.get("signatures", {}).get( if self_signing_key_id in stored_device.get("signatures", {}).get(
user_id, {} user_id, {}
): ):
@ -779,26 +761,75 @@ class E2eKeysHandler(object):
signature = device["signatures"][user_id][self_signing_key_id] signature = device["signatures"][user_id][self_signing_key_id]
signature_list.append( signature_list.append(
(self_signing_key_id, user_id, device_id, signature) SignatureListItem(
self_signing_key_id, user_id, device_id, signature
)
) )
except SynapseError as e: except SynapseError as e:
failures.setdefault(user_id, {})[device_id] = _exception_to_failure(e) failures.setdefault(user_id, {})[device_id] = _exception_to_failure(e)
return signature_list, failures return signature_list, failures
@defer.inlineCallbacks def _check_master_key_signature(
def _process_other_signatures(self, user_id, signatures): self, user_id, master_key_id, signed_master_key, stored_master_key, devices
"""Process uploaded signatures of other users' keys. ):
"""Check signatures of the user's master key made by their devices.
Args: Args:
user_id (string): the user uploading the keys user_id (string): the user uploading the keys
signatures (dict[string, dict]): map of users to devices to signed keys signatures (dict[string, dict]): map of users to devices to signed keys
Returns: Returns:
(list[(string, string, string, string)], dict[string, dict[string, dict]]): (list[SignatureListItem], dict[string, dict[string, dict]]):
a list of signatures to upload, in the form (signing_key_id, target_user_id, a list of signatures to upload, and a map of users to devices to failure
target_device_id, signature), and a map of users to devices to failure
reasons reasons
Raises:
SynapseError: if the input is malformed
"""
# for each device that signed the master key, check the signature.
master_key_signature_list = []
sigs = signed_master_key["signatures"]
for signing_key_id, signature in sigs[user_id].items():
_, signing_device_id = signing_key_id.split(":", 1)
if (
signing_device_id not in devices
or signing_key_id not in devices[signing_device_id]["keys"]["keys"]
):
# signed by an unknown device, or the
# device does not have the key
raise SynapseError(400, "Invalid signature", Codes.INVALID_SIGNATURE)
# get the key and check the signature
pubkey = devices[signing_device_id]["keys"]["keys"][signing_key_id]
verify_key = decode_verify_key_bytes(signing_key_id, decode_base64(pubkey))
_check_device_signature(
user_id, verify_key, signed_master_key, stored_master_key
)
master_key_signature_list.append(
SignatureListItem(signing_key_id, user_id, master_key_id, signature)
)
return master_key_signature_list
@defer.inlineCallbacks
def _process_other_signatures(self, user_id, signatures):
"""Process uploaded signatures of other users' keys. These will be the
target user's master keys, signed by the uploading user's user-signing
key.
Args:
user_id (string): the user uploading the keys
signatures (dict[string, dict]): map of users to devices to signed keys
Returns:
(list[SignatureListItem], dict[string, dict[string, dict]]):
a list of signatures to upload, and a map of users to devices to failure
reasons
Raises:
SynapseError: if the input is malformed
""" """
signature_list = [] signature_list = []
failures = {} failures = {}
@ -816,70 +847,89 @@ class E2eKeysHandler(object):
failures[user] = {device_id: failure for device_id in devicemap.keys()} failures[user] = {device_id: failure for device_id in devicemap.keys()}
return signature_list, failures return signature_list, failures
for user, devicemap in signatures.items(): for target_user, devicemap in signatures.items():
if not isinstance(devicemap, dict):
raise SynapseError(400, "Invalid parameter", Codes.INVALID_PARAM)
for device in devicemap.values():
if not isinstance(device, dict):
raise SynapseError(400, "Invalid parameter", Codes.INVALID_PARAM)
device_id = None device_id = None
try: try:
# get the user's master key, to make sure it matches # get the target user's master key, to make sure it matches
# what was sent # what was sent
stored_key, stored_key_id, _ = yield self._get_e2e_cross_signing_verify_key( master_key, master_key_id, _ = yield self._get_e2e_cross_signing_verify_key(
user, "master", user_id target_user, "master", user_id
) )
# make sure that the user's master key is the one that # make sure that the target user's master key is the one that
# was signed (and no others) # was signed (and no others)
device_id = stored_key_id.split(":", 1)[1] device_id = master_key_id.split(":", 1)[1]
if device_id not in devicemap: if device_id not in devicemap:
logger.error( logger.debug(
"upload signature: could not find signature for device %s", "upload signature: could not find signature for device %s",
device_id, device_id,
) )
# set device to None so that the failure gets # set device to None so that the failure gets
# marked on all the signatures # marked on all the signatures
device_id = None device_id = None
raise SynapseError(404, "Unknown device", Codes.NOT_FOUND) raise NotFoundError("Unknown device")
key = devicemap[device_id] key = devicemap[device_id]
other_devices = [k for k in devicemap.keys() if k != device_id] other_devices = [k for k in devicemap.keys() if k != device_id]
if other_devices: if other_devices:
# other devices were signed -- mark those as failures # other devices were signed -- mark those as failures
logger.error("upload signature: too many devices specified") logger.debug("upload signature: too many devices specified")
failure = _exception_to_failure( failure = _exception_to_failure(NotFoundError("Unknown device"))
SynapseError(404, "Unknown device", Codes.NOT_FOUND) failures[target_user] = {
) device: failure for device in other_devices
failures[user] = {device: failure for device in other_devices} }
if user_signing_key_id in stored_key.get("signatures", {}).get( if user_signing_key_id in master_key.get("signatures", {}).get(
user_id, {} user_id, {}
): ):
# we already have the signature, so we can skip it # we already have the signature, so we can skip it
continue continue
_check_device_signature( _check_device_signature(
user_id, user_signing_verify_key, key, stored_key user_id, user_signing_verify_key, key, master_key
) )
signature = key["signatures"][user_id][user_signing_key_id] signature = key["signatures"][user_id][user_signing_key_id]
signature_list.append((user_signing_key_id, user, device_id, signature)) signature_list.append(
SignatureListItem(
user_signing_key_id, target_user, device_id, signature
)
)
except SynapseError as e: except SynapseError as e:
failure = _exception_to_failure(e) failure = _exception_to_failure(e)
if device_id is None: if device_id is None:
failures[user] = { failures[target_user] = {
device_id: failure for device_id in devicemap.keys() device_id: failure for device_id in devicemap.keys()
} }
else: else:
failures.setdefault(user, {})[device_id] = failure failures.setdefault(target_user, {})[device_id] = failure
return signature_list, failures return signature_list, failures
@defer.inlineCallbacks @defer.inlineCallbacks
def _get_e2e_cross_signing_verify_key(self, user_id, key_type, from_user_id=None): def _get_e2e_cross_signing_verify_key(self, user_id, key_type, from_user_id=None):
"""Fetch the cross-signing public key from storage and interpret it.
Args:
user_id (str): the user whose key should be fetched
key_type (str): the type of key to fetch
from_user_id (str): the user that we are fetching the keys for.
This affects what signatures are fetched.
Returns:
dict, str, VerifyKey: the raw key data, the key ID, and the
signedjson verify key
"""
key = yield self.store.get_e2e_cross_signing_key( key = yield self.store.get_e2e_cross_signing_key(
user_id, key_type, from_user_id user_id, key_type, from_user_id
) )
if key is None: if key is None:
logger.error("no %s key found for %s", key_type, user_id) logger.error("no %s key found for %s", key_type, user_id)
raise SynapseError( raise NotFoundError("No %s key found for %s" % (key_type, user_id))
404, "No %s key found for %s" % (key_type, user_id), Codes.NOT_FOUND
)
key_id, verify_key = get_verify_key_from_cross_signing_key(key) key_id, verify_key = get_verify_key_from_cross_signing_key(key)
return key, key_id, verify_key return key, key_id, verify_key
@ -912,36 +962,30 @@ def _check_cross_signing_key(key, user_id, key_type, signing_key=None):
def _check_device_signature(user_id, verify_key, signed_device, stored_device): def _check_device_signature(user_id, verify_key, signed_device, stored_device):
"""Check that a device signature is correct and matches the copy of the device """Check that a signature on a device or cross-signing key is correct and
that we have. Throws an exception if an error is detected. matches the copy of the device/key that we have stored. Throws an
exception if an error is detected.
Args: Args:
user_id (str): the user ID whose signature is being checked user_id (str): the user ID whose signature is being checked
verify_key (VerifyKey): the key to verify the device with verify_key (VerifyKey): the key to verify the device with
signed_device (dict): the signed device data signed_device (dict): the uploaded signed device data
stored_device (dict): our previous copy of the device stored_device (dict): our previously stored copy of the device
Raises:
SynapseError: if the signature was invalid or the sent device is not the
same as the stored device
""" """
key_id = "%s:%s" % (verify_key.alg, verify_key.version)
# make sure the device is signed
if (
"signatures" not in signed_device
or user_id not in signed_device["signatures"]
or key_id not in signed_device["signatures"][user_id]
):
logger.error("upload signature: user not found in signatures")
raise SynapseError(400, "Invalid signature", Codes.INVALID_SIGNATURE)
signature = signed_device["signatures"][user_id][key_id]
# make sure that the device submitted matches what we have stored # make sure that the device submitted matches what we have stored
del signed_device["signatures"] stripped_signed_device = {
# use pop to avoid exception if key doesn't exist k: v for k, v in signed_device.items() if k not in ["signatures", "unsigned"]
signed_device.pop("unsigned", None) }
stored_device.pop("signatures", None) stripped_stored_device = {
stored_device.pop("unsigned", None) k: v for k, v in stored_device.items() if k not in ["signatures", "unsigned"]
if signed_device != stored_device: }
if stripped_signed_device != stripped_stored_device:
logger.error( logger.error(
"upload signatures: key does not match %s vs %s", "upload signatures: key does not match %s vs %s",
signed_device, signed_device,
@ -949,9 +993,6 @@ def _check_device_signature(user_id, verify_key, signed_device, stored_device):
) )
raise SynapseError(400, "Key does not match") raise SynapseError(400, "Key does not match")
# check the signature
signed_device["signatures"] = {user_id: {key_id: signature}}
try: try:
verify_signed_json(signed_device, user_id, verify_key) verify_signed_json(signed_device, user_id, verify_key)
except SignatureVerifyException: except SignatureVerifyException:
@ -990,3 +1031,14 @@ def _one_time_keys_match(old_key_json, new_key):
new_key_copy.pop("signatures", None) new_key_copy.pop("signatures", None)
return old_key == new_key_copy return old_key == new_key_copy
@attr.s
class SignatureListItem:
"""An item in the signature list as used by upload_signatures_for_device_keys.
"""
signing_key_id = attr.ib()
target_user_id = attr.ib()
target_device_id = attr.ib()
signature = attr.ib()

View file

@ -490,24 +490,19 @@ class EndToEndKeyStore(EndToEndKeyWorkerStore, SQLBaseStore):
Args: Args:
user_id (str): the user who made the signatures user_id (str): the user who made the signatures
signatures (iterable[(str, str, str, str)]): signatures to add - each signatures (iterable[SignatureListItem]): signatures to add
a tuple of (key_id, target_user_id, target_device_id, signature),
where key_id is the ID of the key (including the signature
algorithm) that made the signature, target_user_id and
target_device_id indicate the device being signed, and signature
is the signature of the device
""" """
return self._simple_insert_many( return self._simple_insert_many(
"e2e_cross_signing_signatures", "e2e_cross_signing_signatures",
[ [
{ {
"user_id": user_id, "user_id": user_id,
"key_id": key_id, "key_id": item.signing_key_id,
"target_user_id": target_user_id, "target_user_id": item.target_user_id,
"target_device_id": target_device_id, "target_device_id": item.target_device_id,
"signature": signature, "signature": item.signature,
} }
for (key_id, target_user_id, target_device_id, signature) in signatures for item in signatures
], ],
"add_e2e_signing_key", "add_e2e_signing_key",
) )