from synapse.storage._base import SQLBaseStore from synapse.storage.signatures import SignatureStore from synapse.storage.event_federation import EventFederationStore from syutil.base64util import encode_base64, decode_base64 from synapse.events import FrozenEvent from synapse.events.builder import EventBuilder from synapse.events.utils import prune_event from synapse.crypto.event_signing import check_event_content_hash from syutil.crypto.jsonsign import verify_signed_json, SignatureVerifyException from syutil.crypto.signing_key import ( decode_verify_key_bytes, write_signing_keys ) import dns.resolver import hashlib import json import sqlite3 import sys import urllib2 class Store(object): _get_event_signatures_txn = SignatureStore.__dict__["_get_event_signatures_txn"] _get_event_content_hashes_txn = SignatureStore.__dict__["_get_event_content_hashes_txn"] _get_event_reference_hashes_txn = SignatureStore.__dict__["_get_event_reference_hashes_txn"] _get_prev_event_hashes_txn = SignatureStore.__dict__["_get_prev_event_hashes_txn"] _get_prev_events_and_state = EventFederationStore.__dict__["_get_prev_events_and_state"] _get_auth_events = EventFederationStore.__dict__["_get_auth_events"] cursor_to_dict = SQLBaseStore.__dict__["cursor_to_dict"] _simple_select_onecol_txn = SQLBaseStore.__dict__["_simple_select_onecol_txn"] _simple_select_list_txn = SQLBaseStore.__dict__["_simple_select_list_txn"] def _generate_event_json(self, txn, rows): sql = "SELECT * FROM events WHERE event_id = ? ORDER BY rowid asc" events = [] for row in rows: d = dict(row) d.pop("stream_ordering", None) d.pop("topological_ordering", None) d.pop("processed", None) if "origin_server_ts" not in d: d["origin_server_ts"] = d.pop("ts", 0) else: d.pop("ts", 0) d.pop("prev_state", None) d.update(json.loads(d.pop("unrecognized_keys"))) d["sender"] = d.pop("user_id") d["content"] = json.loads(d["content"]) if "age_ts" not in d: # For compatibility d["age_ts"] = d.get("origin_server_ts", 0) d.setdefault("unsigned", {})["age_ts"] = d.pop("age_ts") d.pop("outlier", None) # d.pop("membership", None) d.pop("state_hash", None) d.pop("replaces_state", None) events.append(EventBuilder(d)) for i, ev in enumerate(events): signatures = self._get_event_signatures_txn( txn, ev.event_id, ) ev.signatures = { n: { k: encode_base64(v) for k, v in s.items() } for n, s in signatures.items() } hashes = self._get_event_content_hashes_txn( txn, ev.event_id, ) ev.hashes = { k: encode_base64(v) for k, v in hashes.items() } prevs = self._get_prev_events_and_state(txn, ev.event_id) ev.prev_events = [ (e_id, h) for e_id, h, is_state in prevs if is_state == 0 ] # ev.auth_events = self._get_auth_events(txn, ev.event_id) hashes = dict(ev.auth_events) for e_id, hash in ev.prev_events: if e_id in hashes and not hash: hash.update(hashes[e_id]) # # if hasattr(ev, "state_key"): # ev.prev_state = [ # (e_id, h) # for e_id, h, is_state in prevs # if is_state == 1 # ] return [e.build() for e in events] store = Store() def get_key(server_name): print "Getting keys for: %s" % (server_name,) targets = [] if ":" in server_name: target, port = server_name.split(":") targets.append((target, int(port))) return try: answers = dns.resolver.query("_matrix._tcp." + server_name, "SRV") for srv in answers: targets.append((srv.target, srv.port)) except dns.resolver.NXDOMAIN: targets.append((server_name, 8448)) except: print "Failed to lookup keys for %s" % (server_name,) return {} for target, port in targets: url = "https://%s:%i/_matrix/key/v1" % (target, port) try: keys = json.load(urllib2.urlopen(url, timeout=2)) verify_keys = {} for key_id, key_base64 in keys["verify_keys"].items(): verify_key = decode_verify_key_bytes(key_id, decode_base64(key_base64)) verify_signed_json(keys, server_name, verify_key) verify_keys[key_id] = verify_key print "Got keys for: %s" % (server_name,) return verify_keys except urllib2.URLError: pass print "Failed to get keys for %s" % (server_name,) return {} def get_events(cursor): # cursor.execute( # "SELECT * FROM events WHERE event_id = ? ORDER BY rowid DESC", # ("$14182049031533SMfTT:matrix.org",) # ) # cursor.execute( # "SELECT * FROM events ORDER BY rowid DESC LIMIT 10000" # ) cursor.execute( "SELECT * FROM events ORDER BY rowid DESC" ) rows = store.cursor_to_dict(cursor) events = store._generate_event_json(cursor, rows) print "Got events from DB." algorithms = { "sha256": hashlib.sha256, } server_keys = {} for event in events: for alg_name in event.hashes: if check_event_content_hash(event, algorithms[alg_name]): # print "PASS content hash %s" % (alg_name,) pass else: pass print "FAIL content hash %s %s" % (alg_name, event.event_id, ) # print "%s %d" % (event.event_id, event.origin_server_ts) # print json.dumps(event.get_pdu_json(), indent=4, sort_keys=True) for host, sigs in event.signatures.items(): pruned = prune_event(event) for key_id in sigs: if host not in server_keys: server_keys[host] = get_key(host) if key_id in server_keys[host]: try: verify_signed_json( pruned.get_pdu_json(), host, server_keys[host][key_id] ) except SignatureVerifyException as e: # print e print "FAIL signature check %s %s" % (key_id, event.event_id) # print json.dumps(pruned.get_pdu_json(), indent=4, sort_keys=True) def main(): conn = sqlite3.connect(sys.argv[1]) cursor = conn.cursor() get_events(cursor) conn.commit() if __name__ == "__main__": main()