forked-synapse/synapse/storage/databases/main/search.py

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#
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# This file is licensed under the Affero General Public License (AGPL) version 3.
#
# Copyright (C) 2023 New Vector, Ltd
#
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU Affero General Public License as
# published by the Free Software Foundation, either version 3 of the
# License, or (at your option) any later version.
#
# See the GNU Affero General Public License for more details:
# <https://www.gnu.org/licenses/agpl-3.0.html>.
#
# Originally licensed under the Apache License, Version 2.0:
# <http://www.apache.org/licenses/LICENSE-2.0>.
#
# [This file includes modifications made by New Vector Limited]
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#
#
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import enum
import logging
import re
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from collections import deque
from dataclasses import dataclass
from typing import (
TYPE_CHECKING,
Any,
Collection,
Iterable,
List,
Optional,
Set,
Tuple,
Union,
cast,
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)
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import attr
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from synapse.api.errors import SynapseError
from synapse.events import EventBase
from synapse.storage._base import SQLBaseStore, db_to_json, make_in_list_sql_clause
from synapse.storage.database import (
DatabasePool,
LoggingDatabaseConnection,
LoggingTransaction,
)
from synapse.storage.databases.main.events_worker import EventRedactBehaviour
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from synapse.storage.engines import PostgresEngine, Sqlite3Engine
from synapse.types import JsonDict
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if TYPE_CHECKING:
from synapse.server import HomeServer
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logger = logging.getLogger(__name__)
@attr.s(slots=True, frozen=True, auto_attribs=True)
class SearchEntry:
key: str
value: str
event_id: str
room_id: str
stream_ordering: Optional[int]
origin_server_ts: int
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def _clean_value_for_search(value: str) -> str:
"""
Replaces any null code points in the string with spaces as
Postgres and SQLite do not like the insertion of strings with
null code points into the full-text search tables.
"""
return value.replace("\u0000", " ")
class SearchWorkerStore(SQLBaseStore):
def store_search_entries_txn(
self, txn: LoggingTransaction, entries: Iterable[SearchEntry]
) -> None:
"""Add entries to the search table
Args:
txn:
entries: entries to be added to the table
"""
if not self.hs.config.server.enable_search:
return
if isinstance(self.database_engine, PostgresEngine):
sql = """
INSERT INTO event_search
(event_id, room_id, key, vector, stream_ordering, origin_server_ts)
VALUES (?,?,?,to_tsvector('english', ?),?,?)
"""
args1 = (
(
entry.event_id,
entry.room_id,
entry.key,
_clean_value_for_search(entry.value),
entry.stream_ordering,
entry.origin_server_ts,
)
for entry in entries
)
txn.execute_batch(sql, args1)
elif isinstance(self.database_engine, Sqlite3Engine):
self.db_pool.simple_insert_many_txn(
txn,
table="event_search",
keys=("event_id", "room_id", "key", "value"),
values=[
(
entry.event_id,
entry.room_id,
entry.key,
_clean_value_for_search(entry.value),
)
for entry in entries
],
)
else:
# This should be unreachable.
raise Exception("Unrecognized database engine")
class SearchBackgroundUpdateStore(SearchWorkerStore):
EVENT_SEARCH_UPDATE_NAME = "event_search"
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EVENT_SEARCH_ORDER_UPDATE_NAME = "event_search_order"
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EVENT_SEARCH_USE_GIN_POSTGRES_NAME = "event_search_postgres_gin"
EVENT_SEARCH_DELETE_NON_STRINGS = "event_search_sqlite_delete_non_strings"
def __init__(
self,
database: DatabasePool,
db_conn: LoggingDatabaseConnection,
hs: "HomeServer",
):
super().__init__(database, db_conn, hs)
self.db_pool.updates.register_background_update_handler(
self.EVENT_SEARCH_UPDATE_NAME, self._background_reindex_search
)
self.db_pool.updates.register_background_update_handler(
self.EVENT_SEARCH_ORDER_UPDATE_NAME, self._background_reindex_search_order
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)
self.db_pool.updates.register_background_update_handler(
self.EVENT_SEARCH_USE_GIN_POSTGRES_NAME, self._background_reindex_gin_search
)
self.db_pool.updates.register_background_update_handler(
self.EVENT_SEARCH_DELETE_NON_STRINGS, self._background_delete_non_strings
)
async def _background_reindex_search(
self, progress: JsonDict, batch_size: int
) -> int:
# we work through the events table from highest stream id to lowest
target_min_stream_id = progress["target_min_stream_id_inclusive"]
max_stream_id = progress["max_stream_id_exclusive"]
rows_inserted = progress.get("rows_inserted", 0)
TYPES = ["m.room.name", "m.room.message", "m.room.topic"]
def reindex_search_txn(txn: LoggingTransaction) -> int:
sql = """
SELECT stream_ordering, event_id, room_id, type, json, origin_server_ts
FROM events
JOIN event_json USING (room_id, event_id)
WHERE ? <= stream_ordering AND stream_ordering < ?
AND (%s)
ORDER BY stream_ordering DESC
LIMIT ?
""" % (
" OR ".join("type = '%s'" % (t,) for t in TYPES),
)
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txn.execute(sql, (target_min_stream_id, max_stream_id, batch_size))
# we could stream straight from the results into
# store_search_entries_txn with a generator function, but that
# would mean having two cursors open on the database at once.
# Instead we just build a list of results.
rows = txn.fetchall()
if not rows:
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return 0
min_stream_id = rows[-1][0]
event_search_rows = []
for (
stream_ordering,
event_id,
room_id,
etype,
json,
origin_server_ts,
) in rows:
try:
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try:
event_json = db_to_json(json)
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content = event_json["content"]
except Exception:
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continue
if etype == "m.room.message":
key = "content.body"
value = content["body"]
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elif etype == "m.room.topic":
key = "content.topic"
value = content["topic"]
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elif etype == "m.room.name":
key = "content.name"
value = content["name"]
else:
raise Exception("unexpected event type %s" % etype)
except (KeyError, AttributeError):
# If the event is missing a necessary field then
# skip over it.
continue
if not isinstance(value, str):
# If the event body, name or topic isn't a string
# then skip over it
continue
event_search_rows.append(
SearchEntry(
key=key,
value=value,
event_id=event_id,
room_id=room_id,
stream_ordering=stream_ordering,
origin_server_ts=origin_server_ts,
)
)
self.store_search_entries_txn(txn, event_search_rows)
progress = {
"target_min_stream_id_inclusive": target_min_stream_id,
"max_stream_id_exclusive": min_stream_id,
"rows_inserted": rows_inserted + len(event_search_rows),
}
self.db_pool.updates._background_update_progress_txn(
txn, self.EVENT_SEARCH_UPDATE_NAME, progress
)
return len(event_search_rows)
if self.hs.config.server.enable_search:
result = await self.db_pool.runInteraction(
self.EVENT_SEARCH_UPDATE_NAME, reindex_search_txn
)
else:
# Don't index anything if search is not enabled.
result = 0
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if not result:
await self.db_pool.updates._end_background_update(
self.EVENT_SEARCH_UPDATE_NAME
)
return result
async def _background_reindex_gin_search(
self, progress: JsonDict, batch_size: int
) -> int:
"""This handles old synapses which used GIST indexes, if any;
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converting them back to be GIN as per the actual schema.
"""
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def create_index(conn: LoggingDatabaseConnection) -> None:
conn.rollback()
# we have to set autocommit, because postgres refuses to
# CREATE INDEX CONCURRENTLY without it.
conn.engine.attempt_to_set_autocommit(conn.conn, True)
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try:
c = conn.cursor()
# if we skipped the conversion to GIST, we may already/still
# have an event_search_fts_idx; unfortunately postgres 9.4
# doesn't support CREATE INDEX IF EXISTS so we just catch the
# exception and ignore it.
import psycopg2
try:
c.execute(
"""
CREATE INDEX CONCURRENTLY event_search_fts_idx
ON event_search USING GIN (vector)
"""
)
except psycopg2.ProgrammingError as e:
logger.warning(
"Ignoring error %r when trying to switch from GIST to GIN", e
)
# we should now be able to delete the GIST index.
c.execute("DROP INDEX IF EXISTS event_search_fts_idx_gist")
finally:
conn.engine.attempt_to_set_autocommit(conn.conn, False)
if isinstance(self.database_engine, PostgresEngine):
await self.db_pool.runWithConnection(create_index)
await self.db_pool.updates._end_background_update(
self.EVENT_SEARCH_USE_GIN_POSTGRES_NAME
)
return 1
async def _background_reindex_search_order(
self, progress: JsonDict, batch_size: int
) -> int:
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target_min_stream_id = progress["target_min_stream_id_inclusive"]
max_stream_id = progress["max_stream_id_exclusive"]
rows_inserted = progress.get("rows_inserted", 0)
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have_added_index = progress["have_added_indexes"]
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if not have_added_index:
def create_index(conn: LoggingDatabaseConnection) -> None:
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conn.rollback()
conn.engine.attempt_to_set_autocommit(conn.conn, True)
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c = conn.cursor()
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# We create with NULLS FIRST so that when we search *backwards*
# we get the ones with non null origin_server_ts *first*
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c.execute(
"""
CREATE INDEX CONCURRENTLY event_search_room_order
ON event_search(room_id, origin_server_ts NULLS FIRST, stream_ordering NULLS FIRST)
"""
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)
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c.execute(
"""
CREATE INDEX CONCURRENTLY event_search_order
ON event_search(origin_server_ts NULLS FIRST, stream_ordering NULLS FIRST)
"""
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)
conn.engine.attempt_to_set_autocommit(conn.conn, False)
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await self.db_pool.runWithConnection(create_index)
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pg = dict(progress)
pg["have_added_indexes"] = True
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await self.db_pool.runInteraction(
self.EVENT_SEARCH_ORDER_UPDATE_NAME,
self.db_pool.updates._background_update_progress_txn,
self.EVENT_SEARCH_ORDER_UPDATE_NAME,
pg,
)
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def reindex_search_txn(txn: LoggingTransaction) -> Tuple[int, bool]:
sql = """
UPDATE event_search AS es
SET stream_ordering = e.stream_ordering, origin_server_ts = e.origin_server_ts
FROM events AS e
WHERE e.event_id = es.event_id
AND ? <= e.stream_ordering AND e.stream_ordering < ?
RETURNING es.stream_ordering
"""
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min_stream_id = max_stream_id - batch_size
txn.execute(sql, (min_stream_id, max_stream_id))
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rows = txn.fetchall()
if min_stream_id < target_min_stream_id:
# We've recached the end.
return len(rows), False
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progress = {
"target_min_stream_id_inclusive": target_min_stream_id,
"max_stream_id_exclusive": min_stream_id,
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"rows_inserted": rows_inserted + len(rows),
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"have_added_indexes": True,
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}
self.db_pool.updates._background_update_progress_txn(
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txn, self.EVENT_SEARCH_ORDER_UPDATE_NAME, progress
)
return len(rows), True
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num_rows, finished = await self.db_pool.runInteraction(
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self.EVENT_SEARCH_ORDER_UPDATE_NAME, reindex_search_txn
)
if not finished:
await self.db_pool.updates._end_background_update(
self.EVENT_SEARCH_ORDER_UPDATE_NAME
)
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return num_rows
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async def _background_delete_non_strings(
self, progress: JsonDict, batch_size: int
) -> int:
"""Deletes rows with non-string `value`s from `event_search` if using sqlite.
Prior to Synapse 1.44.0, malformed events received over federation could cause integers
to be inserted into the `event_search` table when using sqlite.
"""
def delete_non_strings_txn(txn: LoggingTransaction) -> None:
txn.execute("DELETE FROM event_search WHERE typeof(value) != 'text'")
await self.db_pool.runInteraction(
self.EVENT_SEARCH_DELETE_NON_STRINGS, delete_non_strings_txn
)
await self.db_pool.updates._end_background_update(
self.EVENT_SEARCH_DELETE_NON_STRINGS
)
return 1
class SearchStore(SearchBackgroundUpdateStore):
def __init__(
self,
database: DatabasePool,
db_conn: LoggingDatabaseConnection,
hs: "HomeServer",
):
super().__init__(database, db_conn, hs)
async def search_msgs(
self, room_ids: Collection[str], search_term: str, keys: Iterable[str]
) -> JsonDict:
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"""Performs a full text search over events with given keys.
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Args:
room_ids: List of room ids to search in
search_term: Search term to search for
keys: List of keys to search in, currently supports
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"content.body", "content.name", "content.topic"
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Returns:
Dictionary of results
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"""
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clauses = []
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args: List[Any] = []
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# Make sure we don't explode because the person is in too many rooms.
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# We filter the results below regardless.
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if len(room_ids) < 500:
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clause, args = make_in_list_sql_clause(
self.database_engine, "room_id", room_ids
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)
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clauses = [clause]
local_clauses = []
for key in keys:
local_clauses.append("key = ?")
args.append(key)
clauses.append("(%s)" % (" OR ".join(local_clauses),))
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count_args = args
count_clauses = clauses
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if isinstance(self.database_engine, PostgresEngine):
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search_query = search_term
sql = """
SELECT ts_rank_cd(vector, websearch_to_tsquery('english', ?)) AS rank,
room_id, event_id
FROM event_search
WHERE vector @@ websearch_to_tsquery('english', ?)
"""
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args = [search_query, search_query] + args
count_sql = """
SELECT room_id, count(*) as count FROM event_search
WHERE vector @@ websearch_to_tsquery('english', ?)
"""
count_args = [search_query] + count_args
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elif isinstance(self.database_engine, Sqlite3Engine):
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search_query = _parse_query_for_sqlite(search_term)
sql = """
SELECT rank(matchinfo(event_search)) as rank, room_id, event_id
FROM event_search
WHERE value MATCH ?
"""
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args = [search_query] + args
count_sql = """
SELECT room_id, count(*) as count FROM event_search
WHERE value MATCH ?
"""
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count_args = [search_query] + count_args
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else:
# This should be unreachable.
raise Exception("Unrecognized database engine")
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for clause in clauses:
sql += " AND " + clause
for clause in count_clauses:
count_sql += " AND " + clause
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# We add an arbitrary limit here to ensure we don't try to pull the
# entire table from the database.
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sql += " ORDER BY rank DESC LIMIT 500"
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# List of tuples of (rank, room_id, event_id).
results = cast(
List[Tuple[Union[int, float], str, str]],
await self.db_pool.execute("search_msgs", sql, *args),
)
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results = list(filter(lambda row: row[1] in room_ids, results))
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# We set redact_behaviour to block here to prevent redacted events being returned in
# search results (which is a data leak)
events = await self.get_events_as_list( # type: ignore[attr-defined]
[r[2] for r in results],
redact_behaviour=EventRedactBehaviour.block,
)
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event_map = {ev.event_id: ev for ev in events}
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highlights = None
if isinstance(self.database_engine, PostgresEngine):
highlights = await self._find_highlights_in_postgres(search_query, events)
count_sql += " GROUP BY room_id"
# List of tuples of (room_id, count).
count_results = cast(
List[Tuple[str, int]],
await self.db_pool.execute("search_rooms_count", count_sql, *count_args),
)
count = sum(row[1] for row in count_results if row[0] in room_ids)
return {
"results": [
{"event": event_map[r[2]], "rank": r[0]}
for r in results
if r[2] in event_map
],
"highlights": highlights,
"count": count,
}
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async def search_rooms(
self,
room_ids: Collection[str],
search_term: str,
keys: Iterable[str],
limit: int,
pagination_token: Optional[str] = None,
) -> JsonDict:
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"""Performs a full text search over events with given keys.
Args:
room_ids: The room_ids to search in
search_term: Search term to search for
keys: List of keys to search in, currently supports "content.body",
"content.name", "content.topic"
pagination_token: A pagination token previously returned
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Returns:
Each match as a dictionary.
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"""
clauses = []
args: List[Any] = []
# Make sure we don't explode because the person is in too many rooms.
# We filter the results below regardless.
if len(room_ids) < 500:
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clause, args = make_in_list_sql_clause(
self.database_engine, "room_id", room_ids
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)
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clauses = [clause]
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local_clauses = []
for key in keys:
local_clauses.append("key = ?")
args.append(key)
clauses.append("(%s)" % (" OR ".join(local_clauses),))
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# take copies of the current args and clauses lists, before adding
# pagination clauses to main query.
count_args = list(args)
count_clauses = list(clauses)
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if pagination_token:
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try:
origin_server_ts_str, stream_str = pagination_token.split(",")
origin_server_ts = int(origin_server_ts_str)
stream = int(stream_str)
except Exception:
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raise SynapseError(400, "Invalid pagination token")
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clauses.append(
"""
(origin_server_ts < ? OR (origin_server_ts = ? AND stream_ordering < ?))
"""
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)
args.extend([origin_server_ts, origin_server_ts, stream])
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if isinstance(self.database_engine, PostgresEngine):
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search_query = search_term
sql = """
SELECT ts_rank_cd(vector, websearch_to_tsquery('english', ?)) as rank,
room_id, event_id, origin_server_ts, stream_ordering
FROM event_search
WHERE vector @@ websearch_to_tsquery('english', ?) AND
"""
args = [search_query, search_query] + args
count_sql = """
SELECT room_id, count(*) as count FROM event_search
WHERE vector @@ websearch_to_tsquery('english', ?) AND
"""
count_args = [search_query] + count_args
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elif isinstance(self.database_engine, Sqlite3Engine):
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# We use CROSS JOIN here to ensure we use the right indexes.
# https://sqlite.org/optoverview.html#crossjoin
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#
# We want to use the full text search index on event_search to
# extract all possible matches first, then lookup those matches
# in the events table to get the topological ordering. We need
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# to use the indexes in this order because sqlite refuses to
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# MATCH unless it uses the full text search index
sql = """
SELECT
rank(matchinfo) as rank, room_id, event_id, origin_server_ts, stream_ordering
FROM (
SELECT key, event_id, matchinfo(event_search) as matchinfo
FROM event_search
WHERE value MATCH ?
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)
CROSS JOIN events USING (event_id)
WHERE
"""
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search_query = _parse_query_for_sqlite(search_term)
args = [search_query] + args
count_sql = """
SELECT room_id, count(*) as count FROM event_search
WHERE value MATCH ? AND
"""
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count_args = [search_query] + count_args
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else:
# This should be unreachable.
raise Exception("Unrecognized database engine")
sql += " AND ".join(clauses)
count_sql += " AND ".join(count_clauses)
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# We add an arbitrary limit here to ensure we don't try to pull the
# entire table from the database.
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if isinstance(self.database_engine, PostgresEngine):
sql += """
ORDER BY origin_server_ts DESC NULLS LAST, stream_ordering DESC NULLS LAST
LIMIT ?
"""
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elif isinstance(self.database_engine, Sqlite3Engine):
sql += " ORDER BY origin_server_ts DESC, stream_ordering DESC LIMIT ?"
else:
raise Exception("Unrecognized database engine")
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# mypy expects to append only a `str`, not an `int`
args.append(limit)
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# List of tuples of (rank, room_id, event_id, origin_server_ts, stream_ordering).
results = cast(
List[Tuple[Union[int, float], str, str, int, int]],
await self.db_pool.execute("search_rooms", sql, *args),
)
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results = list(filter(lambda row: row[1] in room_ids, results))
# We set redact_behaviour to block here to prevent redacted events being returned in
# search results (which is a data leak)
events = await self.get_events_as_list( # type: ignore[attr-defined]
[r[2] for r in results],
redact_behaviour=EventRedactBehaviour.block,
)
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event_map = {ev.event_id: ev for ev in events}
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highlights = None
if isinstance(self.database_engine, PostgresEngine):
highlights = await self._find_highlights_in_postgres(search_query, events)
count_sql += " GROUP BY room_id"
# List of tuples of (room_id, count).
count_results = cast(
List[Tuple[str, int]],
await self.db_pool.execute("search_rooms_count", count_sql, *count_args),
)
count = sum(row[1] for row in count_results if row[0] in room_ids)
return {
"results": [
{
"event": event_map[r[2]],
"rank": r[0],
"pagination_token": "%s,%s" % (r[3], r[4]),
}
for r in results
if r[2] in event_map
],
"highlights": highlights,
"count": count,
}
async def _find_highlights_in_postgres(
self, search_query: str, events: List[EventBase]
) -> Set[str]:
"""Given a list of events and a search term, return a list of words
that match from the content of the event.
This is used to give a list of words that clients can match against to
highlight the matching parts.
Args:
search_query
events: A list of events
Returns:
A set of strings.
"""
def f(txn: LoggingTransaction) -> Set[str]:
highlight_words = set()
for event in events:
# As a hack we simply join values of all possible keys. This is
# fine since we're only using them to find possible highlights.
values = []
for key in ("body", "name", "topic"):
v = event.content.get(key, None)
if v:
v = _clean_value_for_search(v)
values.append(v)
if not values:
continue
value = " ".join(values)
# We need to find some values for StartSel and StopSel that
# aren't in the value so that we can pick results out.
start_sel = "<"
stop_sel = ">"
while start_sel in value:
start_sel += "<"
while stop_sel in value:
stop_sel += ">"
query = (
"SELECT ts_headline(?, websearch_to_tsquery('english', ?), %s)"
% (
_to_postgres_options(
{
"StartSel": start_sel,
"StopSel": stop_sel,
"MaxFragments": "50",
}
)
)
)
txn.execute(query, (value, search_query))
(headline,) = txn.fetchall()[0]
# Now we need to pick the possible highlights out of the haedline
# result.
matcher_regex = "%s(.*?)%s" % (
re.escape(start_sel),
re.escape(stop_sel),
)
res = re.findall(matcher_regex, headline)
highlight_words.update([r.lower() for r in res])
return highlight_words
return await self.db_pool.runInteraction("_find_highlights", f)
def _to_postgres_options(options_dict: JsonDict) -> str:
return "'%s'" % (",".join("%s=%s" % (k, v) for k, v in options_dict.items()),)
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@dataclass
class Phrase:
phrase: List[str]
class SearchToken(enum.Enum):
Not = enum.auto()
Or = enum.auto()
And = enum.auto()
Token = Union[str, Phrase, SearchToken]
TokenList = List[Token]
def _is_stop_word(word: str) -> bool:
# TODO Pull these out of the dictionary:
# https://github.com/postgres/postgres/blob/master/src/backend/snowball/stopwords/english.stop
return word in {"the", "a", "you", "me", "and", "but"}
def _tokenize_query(query: str) -> TokenList:
"""
Convert the user-supplied `query` into a TokenList, which can be translated into
some DB-specific syntax.
The following constructs are supported:
- phrase queries using "double quotes"
- case-insensitive `or` and `and` operators
- negation of a keyword via unary `-`
- unary hyphen to denote NOT e.g. 'include -exclude'
The following differs from websearch_to_tsquery:
- Stop words are not removed.
- Unclosed phrases are treated differently.
"""
tokens: TokenList = []
# Find phrases.
in_phrase = False
parts = deque(query.split('"'))
for i, part in enumerate(parts):
# The contents inside double quotes is treated as a phrase.
in_phrase = bool(i % 2)
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# Pull out the individual words, discarding any non-word characters.
words = deque(re.findall(r"([\w\-]+)", part, re.UNICODE))
# Phrases have simplified handling of words.
if in_phrase:
# Skip stop words.
phrase = [word for word in words if not _is_stop_word(word)]
# Consecutive words are implicitly ANDed together.
if tokens and tokens[-1] not in (SearchToken.Not, SearchToken.Or):
tokens.append(SearchToken.And)
# Add the phrase.
tokens.append(Phrase(phrase))
continue
# Otherwise, not in a phrase.
while words:
word = words.popleft()
if word.startswith("-"):
tokens.append(SearchToken.Not)
# If there's more word, put it back to be processed again.
word = word[1:]
if word:
words.appendleft(word)
elif word.lower() == "or":
tokens.append(SearchToken.Or)
else:
# Skip stop words.
if _is_stop_word(word):
continue
# Consecutive words are implicitly ANDed together.
if tokens and tokens[-1] not in (SearchToken.Not, SearchToken.Or):
tokens.append(SearchToken.And)
# Add the search term.
tokens.append(word)
return tokens
def _tokens_to_sqlite_match_query(tokens: TokenList) -> str:
"""
Convert the list of tokens to a string suitable for passing to sqlite's MATCH.
Assume sqlite was compiled with enhanced query syntax.
Ref: https://www.sqlite.org/fts3.html#full_text_index_queries
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"""
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match_query = []
for token in tokens:
if isinstance(token, str):
match_query.append(token)
elif isinstance(token, Phrase):
match_query.append('"' + " ".join(token.phrase) + '"')
elif token == SearchToken.Not:
# TODO: SQLite treats NOT as a *binary* operator. Hopefully a search
# term has already been added before this.
match_query.append(" NOT ")
elif token == SearchToken.Or:
match_query.append(" OR ")
elif token == SearchToken.And:
match_query.append(" AND ")
else:
raise ValueError(f"unknown token {token}")
return "".join(match_query)
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def _parse_query_for_sqlite(search_term: str) -> str:
"""Takes a plain unicode string from the user and converts it into a form
that can be passed to sqllite's matchinfo().
"""
return _tokens_to_sqlite_match_query(_tokenize_query(search_term))