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MatrixSynapse/synapse/storage/databases/main/end_to_end_keys.py

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# Copyright 2015, 2016 OpenMarket Ltd
# Copyright 2019 New Vector Ltd
# Copyright 2019,2020 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.
import abc
from typing import (
TYPE_CHECKING,
Any,
Collection,
Dict,
Iterable,
List,
Mapping,
Optional,
Sequence,
Tuple,
Union,
cast,
overload,
)
import attr
from canonicaljson import encode_canonical_json
from typing_extensions import Literal
from synapse.api.constants import DeviceKeyAlgorithms
from synapse.appservice import (
TransactionOneTimeKeysCount,
TransactionUnusedFallbackKeys,
)
from synapse.logging.opentracing import log_kv, set_tag, trace
from synapse.replication.tcp.streams._base import DeviceListsStream
from synapse.storage._base import SQLBaseStore, db_to_json
from synapse.storage.database import (
DatabasePool,
LoggingDatabaseConnection,
LoggingTransaction,
make_in_list_sql_clause,
make_tuple_in_list_sql_clause,
)
from synapse.storage.databases.main.cache import CacheInvalidationWorkerStore
from synapse.storage.engines import PostgresEngine
from synapse.storage.util.id_generators import StreamIdGenerator
from synapse.types import JsonDict, JsonMapping
from synapse.util import json_decoder, json_encoder
from synapse.util.caches.descriptors import cached, cachedList
from synapse.util.cancellation import cancellable
from synapse.util.iterutils import batch_iter
if TYPE_CHECKING:
from synapse.handlers.e2e_keys import SignatureListItem
from synapse.server import HomeServer
@attr.s(slots=True, auto_attribs=True)
class DeviceKeyLookupResult:
"""The type returned by get_e2e_device_keys_and_signatures"""
display_name: Optional[str]
# the key data from e2e_device_keys_json. Typically includes fields like
# "algorithm", "keys" (including the curve25519 identity key and the ed25519 signing
# key) and "signatures" (a map from (user id) to (key id/device_id) to signature.)
keys: Optional[JsonDict]
class EndToEndKeyBackgroundStore(SQLBaseStore):
def __init__(
self,
database: DatabasePool,
db_conn: LoggingDatabaseConnection,
hs: "HomeServer",
):
super().__init__(database, db_conn, hs)
self.db_pool.updates.register_background_index_update(
"e2e_cross_signing_keys_idx",
index_name="e2e_cross_signing_keys_stream_idx",
table="e2e_cross_signing_keys",
columns=["stream_id"],
unique=True,
)
class EndToEndKeyWorkerStore(EndToEndKeyBackgroundStore, CacheInvalidationWorkerStore):
def __init__(
self,
database: DatabasePool,
db_conn: LoggingDatabaseConnection,
hs: "HomeServer",
):
super().__init__(database, db_conn, hs)
self._allow_device_name_lookup_over_federation = (
self.hs.config.federation.allow_device_name_lookup_over_federation
)
def process_replication_rows(
self,
stream_name: str,
instance_name: str,
token: int,
rows: Iterable[Any],
) -> None:
if stream_name == DeviceListsStream.NAME:
for row in rows:
assert isinstance(row, DeviceListsStream.DeviceListsStreamRow)
if row.entity.startswith("@"):
self._get_e2e_device_keys_for_federation_query_inner.invalidate(
(row.entity,)
)
super().process_replication_rows(stream_name, instance_name, token, rows)
async def get_e2e_device_keys_for_federation_query(
self, user_id: str
) -> Tuple[int, Sequence[JsonMapping]]:
"""Get all devices (with any device keys) for a user
Returns:
(stream_id, devices)
"""
now_stream_id = self.get_device_stream_token()
# We need to be careful with the caching here, as we need to always
# return *all* persisted devices, however there may be a lag between a
# new device being persisted and the cache being invalidated.
cached_results = (
self._get_e2e_device_keys_for_federation_query_inner.cache.get_immediate(
user_id, None
)
)
if cached_results is not None:
# Check that there have been no new devices added by another worker
# after the cache. This should be quick as there should be few rows
# with a higher stream ordering.
#
# Note that we invalidate based on the device stream, so we only
# have to check for potential invalidations after the
# `now_stream_id`.
sql = """
SELECT user_id FROM device_lists_stream
WHERE stream_id >= ? AND user_id = ?
"""
rows = await self.db_pool.execute(
"get_e2e_device_keys_for_federation_query_check",
None,
sql,
now_stream_id,
user_id,
)
if not rows:
# No new rows, so cache is still valid.
return now_stream_id, cached_results
# There has, so let's invalidate the cache and run the query.
self._get_e2e_device_keys_for_federation_query_inner.invalidate((user_id,))
results = await self._get_e2e_device_keys_for_federation_query_inner(user_id)
return now_stream_id, results
@cached(iterable=True)
async def _get_e2e_device_keys_for_federation_query_inner(
self, user_id: str
) -> Sequence[JsonMapping]:
"""Get all devices (with any device keys) for a user"""
devices = await self.get_e2e_device_keys_and_signatures([(user_id, None)])
if devices:
user_devices = devices[user_id]
results = []
for device_id, device in user_devices.items():
result: JsonDict = {"device_id": device_id}
keys = device.keys
if keys:
result["keys"] = keys
device_display_name = None
if self._allow_device_name_lookup_over_federation:
device_display_name = device.display_name
if device_display_name:
result["device_display_name"] = device_display_name
results.append(result)
return results
return []
@trace
@cancellable
async def get_e2e_device_keys_for_cs_api(
self,
query_list: Collection[Tuple[str, Optional[str]]],
include_displaynames: bool = True,
) -> Dict[str, Dict[str, JsonDict]]:
"""Fetch a list of device keys, formatted suitably for the C/S API.
Args:
query_list: List of pairs of user_ids and device_ids.
include_displaynames: Whether to include the displayname of returned devices
(if one exists).
Returns:
Dict mapping from user-id to dict mapping from device_id to
key data. The key data will be a dict in the same format as the
DeviceKeys type returned by POST /_matrix/client/r0/keys/query.
"""
set_tag("query_list", str(query_list))
if not query_list:
return {}
results = await self.get_e2e_device_keys_and_signatures(query_list)
# Build the result structure, un-jsonify the results, and add the
# "unsigned" section
rv: Dict[str, Dict[str, JsonDict]] = {}
for user_id, device_keys in results.items():
rv[user_id] = {}
for device_id, device_info in device_keys.items():
r = device_info.keys
if r is None:
continue
r["unsigned"] = {}
if include_displaynames:
# Include the device's display name in the "unsigned" dictionary
display_name = device_info.display_name
if display_name is not None:
r["unsigned"]["device_display_name"] = display_name
rv[user_id][device_id] = r
return rv
@overload
async def get_e2e_device_keys_and_signatures(
self,
query_list: Collection[Tuple[str, Optional[str]]],
include_all_devices: Literal[False] = False,
) -> Dict[str, Dict[str, DeviceKeyLookupResult]]:
...
@overload
async def get_e2e_device_keys_and_signatures(
self,
query_list: Collection[Tuple[str, Optional[str]]],
include_all_devices: bool = False,
include_deleted_devices: Literal[False] = False,
) -> Dict[str, Dict[str, DeviceKeyLookupResult]]:
...
@overload
async def get_e2e_device_keys_and_signatures(
self,
query_list: Collection[Tuple[str, Optional[str]]],
include_all_devices: Literal[True],
include_deleted_devices: Literal[True],
) -> Dict[str, Dict[str, Optional[DeviceKeyLookupResult]]]:
...
@trace
@cancellable
async def get_e2e_device_keys_and_signatures(
self,
query_list: Collection[Tuple[str, Optional[str]]],
include_all_devices: bool = False,
include_deleted_devices: bool = False,
) -> Union[
Dict[str, Dict[str, DeviceKeyLookupResult]],
Dict[str, Dict[str, Optional[DeviceKeyLookupResult]]],
]:
"""Fetch a list of device keys
Any cross-signatures made on the keys by the owner of the device are also
included.
The cross-signatures are added to the `signatures` field within the `keys`
object in the response.
Args:
query_list: List of pairs of user_ids and device_ids. Device id can be None
to indicate "all devices for this user"
include_all_devices: whether to return devices without device keys
include_deleted_devices: whether to include null entries for
devices which no longer exist (but were in the query_list).
This option only takes effect if include_all_devices is true.
Returns:
Dict mapping from user-id to dict mapping from device_id to
key data.
"""
set_tag("include_all_devices", include_all_devices)
set_tag("include_deleted_devices", include_deleted_devices)
result = await self._get_e2e_device_keys(
query_list,
include_all_devices,
include_deleted_devices,
)
# get the (user_id, device_id) tuples to look up cross-signatures for
signature_query = (
(user_id, device_id)
for user_id, dev in result.items()
for device_id, d in dev.items()
if d is not None and d.keys is not None
)
for batch in batch_iter(signature_query, 50):
cross_sigs_result = await self.db_pool.runInteraction(
"get_e2e_cross_signing_signatures_for_devices",
self._get_e2e_cross_signing_signatures_for_devices_txn,
batch,
)
# add each cross-signing signature to the correct device in the result dict.
for user_id, key_id, device_id, signature in cross_sigs_result:
target_device_result = result[user_id][device_id]
# We've only looked up cross-signatures for non-deleted devices with key
# data.
assert target_device_result is not None
assert target_device_result.keys is not None
target_device_signatures = target_device_result.keys.setdefault(
"signatures", {}
)
signing_user_signatures = target_device_signatures.setdefault(
user_id, {}
)
signing_user_signatures[key_id] = signature
log_kv(result)
return result
async def _get_e2e_device_keys(
self,
query_list: Collection[Tuple[str, Optional[str]]],
include_all_devices: bool = False,
include_deleted_devices: bool = False,
) -> Dict[str, Dict[str, Optional[DeviceKeyLookupResult]]]:
"""Get information on devices from the database
The results include the device's keys and self-signatures, but *not* any
cross-signing signatures which have been added subsequently (for which, see
get_e2e_device_keys_and_signatures)
"""
query_clauses: List[str] = []
query_params_list: List[List[object]] = []
if include_all_devices is False:
include_deleted_devices = False
if include_deleted_devices:
deleted_devices = set(query_list)
# Split the query list into queries for users and queries for particular
# devices.
user_list = []
user_device_list = []
for user_id, device_id in query_list:
if device_id is None:
user_list.append(user_id)
else:
user_device_list.append((user_id, device_id))
if user_list:
user_id_in_list_clause, user_args = make_in_list_sql_clause(
self.database_engine, "user_id", user_list
)
query_clauses.append(user_id_in_list_clause)
query_params_list.append(user_args)
if user_device_list:
# Divide the device queries into batches, to avoid excessively large
# queries.
for user_device_batch in batch_iter(user_device_list, 1024):
(
user_device_id_in_list_clause,
user_device_args,
) = make_tuple_in_list_sql_clause(
self.database_engine, ("user_id", "device_id"), user_device_batch
)
query_clauses.append(user_device_id_in_list_clause)
query_params_list.append(user_device_args)
result: Dict[str, Dict[str, Optional[DeviceKeyLookupResult]]] = {}
def get_e2e_device_keys_txn(
txn: LoggingTransaction, query_clause: str, query_params: list
) -> None:
sql = (
"SELECT user_id, device_id, "
" d.display_name, "
" k.key_json"
" FROM devices d"
" %s JOIN e2e_device_keys_json k USING (user_id, device_id)"
" WHERE %s AND NOT d.hidden"
) % (
"LEFT" if include_all_devices else "INNER",
query_clause,
)
txn.execute(sql, query_params)
for user_id, device_id, display_name, key_json in txn:
assert device_id is not None
if include_deleted_devices:
deleted_devices.remove((user_id, device_id))
result.setdefault(user_id, {})[device_id] = DeviceKeyLookupResult(
display_name, db_to_json(key_json) if key_json else None
)
for query_clause, query_params in zip(query_clauses, query_params_list):
await self.db_pool.runInteraction(
"_get_e2e_device_keys",
get_e2e_device_keys_txn,
query_clause,
query_params,
)
if include_deleted_devices:
for user_id, device_id in deleted_devices:
if device_id is None:
continue
result.setdefault(user_id, {})[device_id] = None
return result
def _get_e2e_cross_signing_signatures_for_devices_txn(
self, txn: LoggingTransaction, device_query: Iterable[Tuple[str, str]]
) -> List[Tuple[str, str, str, str]]:
"""Get cross-signing signatures for a given list of devices
Returns signatures made by the owners of the devices.
Returns: a list of results; each entry in the list is a tuple of
(user_id, key_id, target_device_id, signature).
"""
signature_query_clauses = []
signature_query_params = []
for user_id, device_id in device_query:
signature_query_clauses.append(
"target_user_id = ? AND target_device_id = ? AND user_id = ?"
)
signature_query_params.extend([user_id, device_id, user_id])
signature_sql = """
SELECT user_id, key_id, target_device_id, signature
FROM e2e_cross_signing_signatures WHERE %s
""" % (
" OR ".join("(" + q + ")" for q in signature_query_clauses)
)
txn.execute(signature_sql, signature_query_params)
return cast(
List[
Tuple[
str,
str,
str,
str,
]
],
txn.fetchall(),
)
async def get_e2e_one_time_keys(
self, user_id: str, device_id: str, key_ids: List[str]
) -> Dict[Tuple[str, str], str]:
"""Retrieve a number of one-time keys for a user
Args:
user_id: id of user to get keys for
device_id: id of device to get keys for
key_ids: list of key ids (excluding algorithm) to retrieve
Returns:
A map from (algorithm, key_id) to json string for key
"""
rows = await self.db_pool.simple_select_many_batch(
table="e2e_one_time_keys_json",
column="key_id",
iterable=key_ids,
retcols=("algorithm", "key_id", "key_json"),
keyvalues={"user_id": user_id, "device_id": device_id},
desc="add_e2e_one_time_keys_check",
)
result = {(row["algorithm"], row["key_id"]): row["key_json"] for row in rows}
log_kv({"message": "Fetched one time keys for user", "one_time_keys": result})
return result
async def add_e2e_one_time_keys(
self,
user_id: str,
device_id: str,
time_now: int,
new_keys: Iterable[Tuple[str, str, str]],
) -> None:
"""Insert some new one time keys for a device. Errors if any of the
keys already exist.
Args:
user_id: id of user to get keys for
device_id: id of device to get keys for
time_now: insertion time to record (ms since epoch)
new_keys: keys to add - each a tuple of (algorithm, key_id, key json)
"""
await self.db_pool.runInteraction(
"add_e2e_one_time_keys_insert",
self._add_e2e_one_time_keys_txn,
user_id,
device_id,
time_now,
new_keys,
)
def _add_e2e_one_time_keys_txn(
self,
txn: LoggingTransaction,
user_id: str,
device_id: str,
time_now: int,
new_keys: Iterable[Tuple[str, str, str]],
) -> None:
"""Insert some new one time keys for a device. Errors if any of the keys already exist.
Args:
user_id: id of user to get keys for
device_id: id of device to get keys for
time_now: insertion time to record (ms since epoch)
new_keys: keys to add - each a tuple of (algorithm, key_id, key json) - note
that the key JSON must be in canonical JSON form
"""
set_tag("user_id", user_id)
set_tag("device_id", device_id)
set_tag("new_keys", str(new_keys))
# We are protected from race between lookup and insertion due to
# a unique constraint. If there is a race of two calls to
# `add_e2e_one_time_keys` then they'll conflict and we will only
# insert one set.
self.db_pool.simple_insert_many_txn(
txn,
table="e2e_one_time_keys_json",
keys=(
"user_id",
"device_id",
"algorithm",
"key_id",
"ts_added_ms",
"key_json",
),
values=[
(user_id, device_id, algorithm, key_id, time_now, json_bytes)
for algorithm, key_id, json_bytes in new_keys
],
)
self._invalidate_cache_and_stream(
txn, self.count_e2e_one_time_keys, (user_id, device_id)
)
@cached(max_entries=10000)
async def count_e2e_one_time_keys(
self, user_id: str, device_id: str
) -> Mapping[str, int]:
"""Count the number of one time keys the server has for a device
Returns:
A mapping from algorithm to number of keys for that algorithm.
"""
def _count_e2e_one_time_keys(txn: LoggingTransaction) -> Dict[str, int]:
sql = (
"SELECT algorithm, COUNT(key_id) FROM e2e_one_time_keys_json"
" WHERE user_id = ? AND device_id = ?"
" GROUP BY algorithm"
)
txn.execute(sql, (user_id, device_id))
# Initially set the key count to 0. This ensures that the client will always
# receive *some count*, even if it's 0.
result = {DeviceKeyAlgorithms.SIGNED_CURVE25519: 0}
# Override entries with the count of any keys we pulled from the database
for algorithm, key_count in txn:
result[algorithm] = key_count
return result
return await self.db_pool.runInteraction(
"count_e2e_one_time_keys", _count_e2e_one_time_keys
)
async def count_bulk_e2e_one_time_keys_for_as(
self, user_ids: Collection[str]
) -> TransactionOneTimeKeysCount:
"""
Counts, in bulk, the one-time keys for all the users specified.
Intended to be used by application services for populating OTK counts in
transactions.
Return structure is of the shape:
user_id -> device_id -> algorithm -> count
Empty algorithm -> count dicts are created if needed to represent a
lack of unused one-time keys.
"""
def _count_bulk_e2e_one_time_keys_txn(
txn: LoggingTransaction,
) -> TransactionOneTimeKeysCount:
user_in_where_clause, user_parameters = make_in_list_sql_clause(
self.database_engine, "user_id", user_ids
)
sql = f"""
SELECT user_id, device_id, algorithm, COUNT(key_id)
FROM devices
LEFT JOIN e2e_one_time_keys_json USING (user_id, device_id)
WHERE {user_in_where_clause}
GROUP BY user_id, device_id, algorithm
"""
txn.execute(sql, user_parameters)
result: TransactionOneTimeKeysCount = {}
for user_id, device_id, algorithm, count in txn:
# We deliberately construct empty dictionaries for
# users and devices without any unused one-time keys.
# We *could* omit these empty dicts if there have been no
# changes since the last transaction, but we currently don't
# do any change tracking!
device_count_by_algo = result.setdefault(user_id, {}).setdefault(
device_id, {}
)
if algorithm is not None:
# algorithm will be None if this device has no keys.
device_count_by_algo[algorithm] = count
return result
return await self.db_pool.runInteraction(
"count_bulk_e2e_one_time_keys", _count_bulk_e2e_one_time_keys_txn
)
async def get_e2e_bulk_unused_fallback_key_types(
self, user_ids: Collection[str]
) -> TransactionUnusedFallbackKeys:
"""
Finds, in bulk, the types of unused fallback keys for all the users specified.
Intended to be used by application services for populating unused fallback
keys in transactions.
Return structure is of the shape:
user_id -> device_id -> algorithms
Empty lists are created for devices if there are no unused fallback
keys. This matches the response structure of MSC3202.
"""
if len(user_ids) == 0:
return {}
def _get_bulk_e2e_unused_fallback_keys_txn(
txn: LoggingTransaction,
) -> TransactionUnusedFallbackKeys:
user_in_where_clause, user_parameters = make_in_list_sql_clause(
self.database_engine, "devices.user_id", user_ids
)
# We can't use USING here because we require the `.used` condition
# to be part of the JOIN condition so that we generate empty lists
# when all keys are used (as opposed to just when there are no keys at all).
sql = f"""
SELECT devices.user_id, devices.device_id, algorithm
FROM devices
LEFT JOIN e2e_fallback_keys_json AS fallback_keys
ON devices.user_id = fallback_keys.user_id
AND devices.device_id = fallback_keys.device_id
AND NOT fallback_keys.used
WHERE
{user_in_where_clause}
"""
txn.execute(sql, user_parameters)
result: TransactionUnusedFallbackKeys = {}
for user_id, device_id, algorithm in txn:
# We deliberately construct empty dictionaries and lists for
# users and devices without any unused fallback keys.
# We *could* omit these empty dicts if there have been no
# changes since the last transaction, but we currently don't
# do any change tracking!
device_unused_keys = result.setdefault(user_id, {}).setdefault(
device_id, []
)
if algorithm is not None:
# algorithm will be None if this device has no keys.
device_unused_keys.append(algorithm)
return result
return await self.db_pool.runInteraction(
"_get_bulk_e2e_unused_fallback_keys", _get_bulk_e2e_unused_fallback_keys_txn
)
async def set_e2e_fallback_keys(
self, user_id: str, device_id: str, fallback_keys: JsonDict
) -> None:
"""Set the user's e2e fallback keys.
Args:
user_id: the user whose keys are being set
device_id: the device whose keys are being set
fallback_keys: the keys to set. This is a map from key ID (which is
of the form "algorithm:id") to key data.
"""
await self.db_pool.runInteraction(
"set_e2e_fallback_keys_txn",
self._set_e2e_fallback_keys_txn,
user_id,
device_id,
fallback_keys,
)
await self.invalidate_cache_and_stream(
"get_e2e_unused_fallback_key_types", (user_id, device_id)
)
def _set_e2e_fallback_keys_txn(
self,
txn: LoggingTransaction,
user_id: str,
device_id: str,
fallback_keys: JsonDict,
) -> None:
"""Set the user's e2e fallback keys.
Args:
user_id: the user whose keys are being set
device_id: the device whose keys are being set
fallback_keys: the keys to set. This is a map from key ID (which is
of the form "algorithm:id") to key data.
"""
# fallback_keys will usually only have one item in it, so using a for
# loop (as opposed to calling simple_upsert_many_txn) won't be too bad
# FIXME: make sure that only one key per algorithm is uploaded
for key_id, fallback_key in fallback_keys.items():
algorithm, key_id = key_id.split(":", 1)
old_key_json = self.db_pool.simple_select_one_onecol_txn(
txn,
table="e2e_fallback_keys_json",
keyvalues={
"user_id": user_id,
"device_id": device_id,
"algorithm": algorithm,
},
retcol="key_json",
allow_none=True,
)
new_key_json = encode_canonical_json(fallback_key).decode("utf-8")
# If the uploaded key is the same as the current fallback key,
# don't do anything. This prevents marking the key as unused if it
# was already used.
if old_key_json != new_key_json:
self.db_pool.simple_upsert_txn(
txn,
table="e2e_fallback_keys_json",
keyvalues={
"user_id": user_id,
"device_id": device_id,
"algorithm": algorithm,
},
values={
"key_id": key_id,
"key_json": json_encoder.encode(fallback_key),
"used": False,
},
)
@cached(max_entries=10000)
async def get_e2e_unused_fallback_key_types(
self, user_id: str, device_id: str
) -> Sequence[str]:
"""Returns the fallback key types that have an unused key.
Args:
user_id: the user whose keys are being queried
device_id: the device whose keys are being queried
Returns:
a list of key types
"""
return await self.db_pool.simple_select_onecol(
"e2e_fallback_keys_json",
keyvalues={"user_id": user_id, "device_id": device_id, "used": False},
retcol="algorithm",
desc="get_e2e_unused_fallback_key_types",
)
async def get_e2e_cross_signing_key(
self, user_id: str, key_type: str, from_user_id: Optional[str] = None
) -> Optional[JsonMapping]:
"""Returns a user's cross-signing key.
Args:
user_id: the user whose key is being requested
key_type: the type of key that is being requested: either 'master'
for a master key, 'self_signing' for a self-signing key, or
'user_signing' for a user-signing key
from_user_id: if specified, signatures made by this user on
the self-signing key will be included in the result
Returns:
dict of the key data or None if not found
"""
res = await self.get_e2e_cross_signing_keys_bulk([user_id], from_user_id)
user_keys = res.get(user_id)
if not user_keys:
return None
return user_keys.get(key_type)
@cached(num_args=1)
def _get_bare_e2e_cross_signing_keys(
self, user_id: str
) -> Mapping[str, JsonMapping]:
"""Dummy function. Only used to make a cache for
_get_bare_e2e_cross_signing_keys_bulk.
"""
raise NotImplementedError()
@cachedList(
cached_method_name="_get_bare_e2e_cross_signing_keys",
list_name="user_ids",
num_args=1,
)
async def _get_bare_e2e_cross_signing_keys_bulk(
self, user_ids: Iterable[str]
) -> Mapping[str, Optional[Mapping[str, JsonMapping]]]:
"""Returns the cross-signing keys for a set of users. The output of this
function should be passed to _get_e2e_cross_signing_signatures_txn if
the signatures for the calling user need to be fetched.
Args:
user_ids: the users whose keys are being requested
Returns:
A mapping from user ID to key type to key data. If a user's cross-signing
keys were not found, either their user ID will not be in the dict, or
their user ID will map to None.
"""
return await self.db_pool.runInteraction(
"get_bare_e2e_cross_signing_keys_bulk",
self._get_bare_e2e_cross_signing_keys_bulk_txn,
user_ids,
)
def _get_bare_e2e_cross_signing_keys_bulk_txn(
self,
txn: LoggingTransaction,
user_ids: Iterable[str],
) -> Dict[str, Dict[str, JsonDict]]:
"""Returns the cross-signing keys for a set of users. The output of this
function should be passed to _get_e2e_cross_signing_signatures_txn if
the signatures for the calling user need to be fetched.
Args:
txn: db connection
user_ids: the users whose keys are being requested
Returns:
Mapping from user ID to key type to key data.
If a user's cross-signing keys were not found, their user ID will not be in
the dict.
"""
result: Dict[str, Dict[str, JsonDict]] = {}
for user_chunk in batch_iter(user_ids, 100):
clause, params = make_in_list_sql_clause(
txn.database_engine, "user_id", user_chunk
)
# Fetch the latest key for each type per user.
if isinstance(self.database_engine, PostgresEngine):
# The `DISTINCT ON` clause will pick the *first* row it
# encounters, so ordering by stream ID desc will ensure we get
# the latest key.
sql = """
SELECT DISTINCT ON (user_id, keytype) user_id, keytype, keydata, stream_id
FROM e2e_cross_signing_keys
WHERE %(clause)s
ORDER BY user_id, keytype, stream_id DESC
""" % {
"clause": clause
}
else:
# SQLite has special handling for bare columns when using
# MIN/MAX with a `GROUP BY` clause where it picks the value from
# a row that matches the MIN/MAX.
sql = """
SELECT user_id, keytype, keydata, MAX(stream_id)
FROM e2e_cross_signing_keys
WHERE %(clause)s
GROUP BY user_id, keytype
""" % {
"clause": clause
}
txn.execute(sql, params)
rows = self.db_pool.cursor_to_dict(txn)
for row in rows:
user_id = row["user_id"]
key_type = row["keytype"]
key = db_to_json(row["keydata"])
user_keys = result.setdefault(user_id, {})
user_keys[key_type] = key
return result
def _get_e2e_cross_signing_signatures_txn(
self,
txn: LoggingTransaction,
keys: Dict[str, Optional[Dict[str, JsonDict]]],
from_user_id: str,
) -> Dict[str, Optional[Dict[str, JsonDict]]]:
"""Returns the cross-signing signatures made by a user on a set of keys.
Args:
txn: db connection
keys: a map of user ID to key type to key data.
This dict will be modified to add signatures.
from_user_id: fetch the signatures made by this user
Returns:
Mapping from user ID to key type to key data.
The return value will be the same as the keys argument, with the
modifications included.
"""
# find out what cross-signing keys (a.k.a. devices) we need to get
# signatures for. This is a map of (user_id, device_id) to key type
# (device_id is the key's public part).
devices: Dict[Tuple[str, str], str] = {}
for user_id, user_keys in keys.items():
if user_keys is None:
continue
for key_type, key in user_keys.items():
device_id = None
for k in key["keys"].values():
device_id = k
# `key` ought to be a `CrossSigningKey`, whose .keys property is a
# dictionary with a single entry:
# "algorithm:base64_public_key": "base64_public_key"
# See https://spec.matrix.org/v1.1/client-server-api/#cross-signing
assert isinstance(device_id, str)
devices[(user_id, device_id)] = key_type
for batch in batch_iter(devices.keys(), size=100):
sql = """
SELECT target_user_id, target_device_id, key_id, signature
FROM e2e_cross_signing_signatures
WHERE user_id = ?
AND (%s)
""" % (
" OR ".join(
"(target_user_id = ? AND target_device_id = ?)" for _ in batch
)
)
query_params = [from_user_id]
for item in batch:
# item is a (user_id, device_id) tuple
query_params.extend(item)
txn.execute(sql, query_params)
rows = self.db_pool.cursor_to_dict(txn)
# and add the signatures to the appropriate keys
for row in rows:
key_id: str = row["key_id"]
target_user_id: str = row["target_user_id"]
target_device_id: str = row["target_device_id"]
key_type = devices[(target_user_id, target_device_id)]
# We need to copy everything, because the result may have come
# from the cache. dict.copy only does a shallow copy, so we
# need to recursively copy the dicts that will be modified.
user_keys = keys[target_user_id]
# `user_keys` cannot be `None` because we only fetched signatures for
# users with keys
assert user_keys is not None
user_keys = keys[target_user_id] = user_keys.copy()
target_user_key = user_keys[key_type] = user_keys[key_type].copy()
if "signatures" in target_user_key:
signatures = target_user_key["signatures"] = target_user_key[
"signatures"
].copy()
if from_user_id in signatures:
user_sigs = signatures[from_user_id] = signatures[from_user_id]
user_sigs[key_id] = row["signature"]
else:
signatures[from_user_id] = {key_id: row["signature"]}
else:
target_user_key["signatures"] = {
from_user_id: {key_id: row["signature"]}
}
return keys
@cancellable
async def get_e2e_cross_signing_keys_bulk(
self, user_ids: List[str], from_user_id: Optional[str] = None
) -> Mapping[str, Optional[Mapping[str, JsonMapping]]]:
"""Returns the cross-signing keys for a set of users.
Args:
user_ids: the users whose keys are being requested
from_user_id: if specified, signatures made by this user on
the self-signing keys will be included in the result
Returns:
A map of user ID to key type to key data. If a user's cross-signing
keys were not found, either their user ID will not be in the dict,
or their user ID will map to None.
"""
result = await self._get_bare_e2e_cross_signing_keys_bulk(user_ids)
if from_user_id:
result = cast(
Dict[str, Optional[Mapping[str, JsonMapping]]],
await self.db_pool.runInteraction(
"get_e2e_cross_signing_signatures",
self._get_e2e_cross_signing_signatures_txn,
result,
from_user_id,
),
)
return result
async def get_all_user_signature_changes_for_remotes(
self, instance_name: str, last_id: int, current_id: int, limit: int
) -> Tuple[List[Tuple[int, tuple]], int, bool]:
"""Get updates for groups replication stream.
Note that the user signature stream represents when a user signs their
device with their user-signing key, which is not published to other
users or servers, so no `destination` is needed in the returned
list. However, this is needed to poke workers.
Args:
instance_name: The writer we want to fetch updates from. Unused
here since there is only ever one writer.
last_id: The token to fetch updates from. Exclusive.
current_id: The token to fetch updates up to. Inclusive.
limit: The requested limit for the number of rows to return. The
function may return more or fewer rows.
Returns:
A tuple consisting of: the updates, a token to use to fetch
subsequent updates, and whether we returned fewer rows than exists
between the requested tokens due to the limit.
The token returned can be used in a subsequent call to this
function to get further updatees.
The updates are a list of 2-tuples of stream ID and the row data
"""
if last_id == current_id:
return [], current_id, False
def _get_all_user_signature_changes_for_remotes_txn(
txn: LoggingTransaction,
) -> Tuple[List[Tuple[int, tuple]], int, bool]:
sql = """
SELECT stream_id, from_user_id AS user_id
FROM user_signature_stream
WHERE ? < stream_id AND stream_id <= ?
ORDER BY stream_id ASC
LIMIT ?
"""
txn.execute(sql, (last_id, current_id, limit))
updates = [(row[0], (row[1:])) for row in txn]
limited = False
upto_token = current_id
if len(updates) >= limit:
upto_token = updates[-1][0]
limited = True
return updates, upto_token, limited
return await self.db_pool.runInteraction(
"get_all_user_signature_changes_for_remotes",
_get_all_user_signature_changes_for_remotes_txn,
)
@abc.abstractmethod
def get_device_stream_token(self) -> int:
"""Get the current stream id from the _device_list_id_gen"""
...
async def claim_e2e_one_time_keys(
self, query_list: Iterable[Tuple[str, str, str, int]]
) -> Tuple[
Dict[str, Dict[str, Dict[str, JsonDict]]], List[Tuple[str, str, str, int]]
]:
"""Take a list of one time keys out of the database.
Args:
query_list: An iterable of tuples of (user ID, device ID, algorithm).
Returns:
A tuple pf:
A map of user ID -> a map device ID -> a map of key ID -> JSON.
A copy of the input which has not been fulfilled.
"""
@trace
def _claim_e2e_one_time_key_simple(
txn: LoggingTransaction,
user_id: str,
device_id: str,
algorithm: str,
count: int,
) -> List[Tuple[str, str]]:
"""Claim OTK for device for DBs that don't support RETURNING.
Returns:
A tuple of key name (algorithm + key ID) and key JSON, if an
OTK was found.
"""
sql = """
SELECT key_id, key_json FROM e2e_one_time_keys_json
WHERE user_id = ? AND device_id = ? AND algorithm = ?
LIMIT ?
"""
txn.execute(sql, (user_id, device_id, algorithm, count))
otk_rows = list(txn)
if not otk_rows:
return []
self.db_pool.simple_delete_many_txn(
txn,
table="e2e_one_time_keys_json",
column="key_id",
values=[otk_row[0] for otk_row in otk_rows],
keyvalues={
"user_id": user_id,
"device_id": device_id,
"algorithm": algorithm,
},
)
self._invalidate_cache_and_stream(
txn, self.count_e2e_one_time_keys, (user_id, device_id)
)
return [
(f"{algorithm}:{key_id}", key_json) for key_id, key_json in otk_rows
]
@trace
def _claim_e2e_one_time_key_returning(
txn: LoggingTransaction,
user_id: str,
device_id: str,
algorithm: str,
count: int,
) -> List[Tuple[str, str]]:
"""Claim OTK for device for DBs that support RETURNING.
Returns:
A tuple of key name (algorithm + key ID) and key JSON, if an
OTK was found.
"""
# We can use RETURNING to do the fetch and DELETE in once step.
sql = """
DELETE FROM e2e_one_time_keys_json
WHERE user_id = ? AND device_id = ? AND algorithm = ?
AND key_id IN (
SELECT key_id FROM e2e_one_time_keys_json
WHERE user_id = ? AND device_id = ? AND algorithm = ?
LIMIT ?
)
RETURNING key_id, key_json
"""
txn.execute(
sql,
(user_id, device_id, algorithm, user_id, device_id, algorithm, count),
)
otk_rows = list(txn)
if not otk_rows:
return []
self._invalidate_cache_and_stream(
txn, self.count_e2e_one_time_keys, (user_id, device_id)
)
return [
(f"{algorithm}:{key_id}", key_json) for key_id, key_json in otk_rows
]
results: Dict[str, Dict[str, Dict[str, JsonDict]]] = {}
missing: List[Tuple[str, str, str, int]] = []
for user_id, device_id, algorithm, count in query_list:
if self.database_engine.supports_returning:
# If we support RETURNING clause we can use a single query that
# allows us to use autocommit mode.
_claim_e2e_one_time_key = _claim_e2e_one_time_key_returning
db_autocommit = True
else:
_claim_e2e_one_time_key = _claim_e2e_one_time_key_simple
db_autocommit = False
claim_rows = await self.db_pool.runInteraction(
"claim_e2e_one_time_keys",
_claim_e2e_one_time_key,
user_id,
device_id,
algorithm,
count,
db_autocommit=db_autocommit,
)
if claim_rows:
device_results = results.setdefault(user_id, {}).setdefault(
device_id, {}
)
for claim_row in claim_rows:
device_results[claim_row[0]] = json_decoder.decode(claim_row[1])
# Did we get enough OTKs?
count -= len(claim_rows)
if count:
missing.append((user_id, device_id, algorithm, count))
return results, missing
async def claim_e2e_fallback_keys(
self, query_list: Iterable[Tuple[str, str, str, bool]]
) -> Dict[str, Dict[str, Dict[str, JsonDict]]]:
"""Take a list of fallback keys out of the database.
Args:
query_list: An iterable of tuples of
(user ID, device ID, algorithm, whether the key should be marked as used).
Returns:
A map of user ID -> a map device ID -> a map of key ID -> JSON.
"""
results: Dict[str, Dict[str, Dict[str, JsonDict]]] = {}
for user_id, device_id, algorithm, mark_as_used in query_list:
row = await self.db_pool.simple_select_one(
table="e2e_fallback_keys_json",
keyvalues={
"user_id": user_id,
"device_id": device_id,
"algorithm": algorithm,
},
retcols=("key_id", "key_json", "used"),
desc="_get_fallback_key",
allow_none=True,
)
if row is None:
continue
key_id = row["key_id"]
key_json = row["key_json"]
used = row["used"]
# Mark fallback key as used if not already.
if not used and mark_as_used:
await self.db_pool.simple_update_one(
table="e2e_fallback_keys_json",
keyvalues={
"user_id": user_id,
"device_id": device_id,
"algorithm": algorithm,
"key_id": key_id,
},
updatevalues={"used": True},
desc="_get_fallback_key_set_used",
)
await self.invalidate_cache_and_stream(
"get_e2e_unused_fallback_key_types", (user_id, device_id)
)
device_results = results.setdefault(user_id, {}).setdefault(device_id, {})
device_results[f"{algorithm}:{key_id}"] = json_decoder.decode(key_json)
return results
class EndToEndKeyStore(EndToEndKeyWorkerStore, SQLBaseStore):
def __init__(
self,
database: DatabasePool,
db_conn: LoggingDatabaseConnection,
hs: "HomeServer",
):
super().__init__(database, db_conn, hs)
self._cross_signing_id_gen = StreamIdGenerator(
db_conn,
hs.get_replication_notifier(),
"e2e_cross_signing_keys",
"stream_id",
)
async def set_e2e_device_keys(
self, user_id: str, device_id: str, time_now: int, device_keys: JsonDict
) -> bool:
"""Stores device keys for a device. Returns whether there was a change
or the keys were already in the database.
Args:
user_id: user_id of the user to store keys for
device_id: device_id of the device to store keys for
time_now: time at the request to store the keys
device_keys: the keys to store
"""
return await self.db_pool.runInteraction(
"set_e2e_device_keys",
self._set_e2e_device_keys_txn,
user_id,
device_id,
time_now,
device_keys,
)
def _set_e2e_device_keys_txn(
self,
txn: LoggingTransaction,
user_id: str,
device_id: str,
time_now: int,
device_keys: JsonDict,
) -> bool:
"""Stores device keys for a device. Returns whether there was a change
or the keys were already in the database.
Args:
user_id: user_id of the user to store keys for
device_id: device_id of the device to store keys for
time_now: time at the request to store the keys
device_keys: the keys to store
"""
set_tag("user_id", user_id)
set_tag("device_id", device_id)
set_tag("time_now", time_now)
set_tag("device_keys", str(device_keys))
old_key_json = self.db_pool.simple_select_one_onecol_txn(
txn,
table="e2e_device_keys_json",
keyvalues={"user_id": user_id, "device_id": device_id},
retcol="key_json",
allow_none=True,
)
# In py3 we need old_key_json to match new_key_json type. The DB
# returns unicode while encode_canonical_json returns bytes.
new_key_json = encode_canonical_json(device_keys).decode("utf-8")
if old_key_json == new_key_json:
log_kv({"Message": "Device key already stored."})
return False
self.db_pool.simple_upsert_txn(
txn,
table="e2e_device_keys_json",
keyvalues={"user_id": user_id, "device_id": device_id},
values={"ts_added_ms": time_now, "key_json": new_key_json},
)
log_kv({"message": "Device keys stored."})
return True
async def delete_e2e_keys_by_device(self, user_id: str, device_id: str) -> None:
def delete_e2e_keys_by_device_txn(txn: LoggingTransaction) -> None:
log_kv(
{
"message": "Deleting keys for device",
"device_id": device_id,
"user_id": user_id,
}
)
self.db_pool.simple_delete_txn(
txn,
table="e2e_device_keys_json",
keyvalues={"user_id": user_id, "device_id": device_id},
)
self.db_pool.simple_delete_txn(
txn,
table="e2e_one_time_keys_json",
keyvalues={"user_id": user_id, "device_id": device_id},
)
self._invalidate_cache_and_stream(
txn, self.count_e2e_one_time_keys, (user_id, device_id)
)
self.db_pool.simple_delete_txn(
txn,
table="dehydrated_devices",
keyvalues={"user_id": user_id, "device_id": device_id},
)
self.db_pool.simple_delete_txn(
txn,
table="e2e_fallback_keys_json",
keyvalues={"user_id": user_id, "device_id": device_id},
)
self._invalidate_cache_and_stream(
txn, self.get_e2e_unused_fallback_key_types, (user_id, device_id)
)
await self.db_pool.runInteraction(
"delete_e2e_keys_by_device", delete_e2e_keys_by_device_txn
)
def _set_e2e_cross_signing_key_txn(
self,
txn: LoggingTransaction,
user_id: str,
key_type: str,
key: JsonDict,
stream_id: int,
) -> None:
"""Set a user's cross-signing key.
Args:
txn: db connection
user_id: the user to set the signing key for
key_type: the type of key that is being set: either 'master'
for a master key, 'self_signing' for a self-signing key, or
'user_signing' for a user-signing key
key: the key data
stream_id
"""
# the 'key' dict will look something like:
# {
# "user_id": "@alice:example.com",
# "usage": ["self_signing"],
# "keys": {
# "ed25519:base64+self+signing+public+key": "base64+self+signing+public+key",
# },
# "signatures": {
# "@alice:example.com": {
# "ed25519:base64+master+public+key": "base64+signature"
# }
# }
# }
# The "keys" property must only have one entry, which will be the public
# key, so we just grab the first value in there
pubkey = next(iter(key["keys"].values()))
# The cross-signing keys need to occupy the same namespace as devices,
# since signatures are identified by device ID. So add an entry to the
# device table to make sure that we don't have a collision with device
# IDs.
# We only need to do this for local users, since remote servers should be
# responsible for checking this for their own users.
if self.hs.is_mine_id(user_id):
self.db_pool.simple_insert_txn(
txn,
"devices",
values={
"user_id": user_id,
"device_id": pubkey,
"display_name": key_type + " signing key",
"hidden": True,
},
)
# and finally, store the key itself
self.db_pool.simple_insert_txn(
txn,
"e2e_cross_signing_keys",
values={
"user_id": user_id,
"keytype": key_type,
"keydata": json_encoder.encode(key),
"stream_id": stream_id,
},
)
self._invalidate_cache_and_stream(
txn, self._get_bare_e2e_cross_signing_keys, (user_id,)
)
async def set_e2e_cross_signing_key(
self, user_id: str, key_type: str, key: JsonDict
) -> None:
"""Set a user's cross-signing key.
Args:
user_id: the user to set the user-signing key for
key_type: the type of cross-signing key to set
key: the key data
"""
async with self._cross_signing_id_gen.get_next() as stream_id:
return await self.db_pool.runInteraction(
"add_e2e_cross_signing_key",
self._set_e2e_cross_signing_key_txn,
user_id,
key_type,
key,
stream_id,
)
async def store_e2e_cross_signing_signatures(
self, user_id: str, signatures: "Iterable[SignatureListItem]"
) -> None:
"""Stores cross-signing signatures.
Args:
user_id: the user who made the signatures
signatures: signatures to add
"""
await self.db_pool.simple_insert_many(
"e2e_cross_signing_signatures",
keys=(
"user_id",
"key_id",
"target_user_id",
"target_device_id",
"signature",
),
values=[
(
user_id,
item.signing_key_id,
item.target_user_id,
item.target_device_id,
item.signature,
)
for item in signatures
],
desc="add_e2e_signing_key",
)
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