# RhodeCode VCSServer provides access to different vcs backends via network. # Copyright (C) 2014-2023 RhodeCode GmbH # # This program is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation; either version 3 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program; if not, write to the Free Software Foundation, # Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA #import errno import fcntl import functools import logging import os import pickle #import time #import gevent import msgpack import redis flock_org = fcntl.flock from typing import Union from dogpile.cache.api import Deserializer, Serializer from dogpile.cache.backends import file as file_backend from dogpile.cache.backends import memory as memory_backend from dogpile.cache.backends import redis as redis_backend from dogpile.cache.backends.file import FileLock from dogpile.cache.util import memoized_property from vcsserver.lib.memory_lru_dict import LRUDict, LRUDictDebug from vcsserver.str_utils import safe_bytes, safe_str from vcsserver.type_utils import str2bool _default_max_size = 1024 log = logging.getLogger(__name__) class LRUMemoryBackend(memory_backend.MemoryBackend): key_prefix = 'lru_mem_backend' pickle_values = False def __init__(self, arguments): self.max_size = arguments.pop('max_size', _default_max_size) LRUDictClass = LRUDict if arguments.pop('log_key_count', None): LRUDictClass = LRUDictDebug arguments['cache_dict'] = LRUDictClass(self.max_size) super().__init__(arguments) def __repr__(self): return f'{self.__class__}(maxsize=`{self.max_size}`)' def __str__(self): return self.__repr__() def delete(self, key): try: del self._cache[key] except KeyError: # we don't care if key isn't there at deletion pass def list_keys(self, prefix): return list(self._cache.keys()) def delete_multi(self, keys): for key in keys: self.delete(key) def delete_multi_by_prefix(self, prefix): cache_keys = self.list_keys(prefix=prefix) num_affected_keys = len(cache_keys) if num_affected_keys: self.delete_multi(cache_keys) return num_affected_keys class PickleSerializer: serializer: None | Serializer = staticmethod( # type: ignore functools.partial(pickle.dumps, protocol=pickle.HIGHEST_PROTOCOL) ) deserializer: None | Deserializer = staticmethod( # type: ignore functools.partial(pickle.loads) ) class MsgPackSerializer: serializer: None | Serializer = staticmethod( # type: ignore msgpack.packb ) deserializer: None | Deserializer = staticmethod( # type: ignore functools.partial(msgpack.unpackb, use_list=False) ) class CustomLockFactory(FileLock): pass class FileNamespaceBackend(PickleSerializer, file_backend.DBMBackend): key_prefix = 'file_backend' def __init__(self, arguments): arguments['lock_factory'] = CustomLockFactory db_file = arguments.get('filename') log.debug('initialing cache-backend=%s db in %s', self.__class__.__name__, db_file) db_file_dir = os.path.dirname(db_file) if not os.path.isdir(db_file_dir): os.makedirs(db_file_dir) try: super().__init__(arguments) except Exception: log.exception('Failed to initialize db at: %s', db_file) raise def __repr__(self): return f'{self.__class__}(file=`{self.filename}`)' def __str__(self): return self.__repr__() def _get_keys_pattern(self, prefix: bytes = b''): return b'%b:%b' % (safe_bytes(self.key_prefix), safe_bytes(prefix)) def list_keys(self, prefix: bytes = b''): prefix = self._get_keys_pattern(prefix) def cond(dbm_key: bytes): if not prefix: return True if dbm_key.startswith(prefix): return True return False with self._dbm_file(True) as dbm: try: return list(filter(cond, dbm.keys())) except Exception: log.error('Failed to fetch DBM keys from DB: %s', self.get_store()) raise def delete_multi_by_prefix(self, prefix): cache_keys = self.list_keys(prefix=prefix) num_affected_keys = len(cache_keys) if num_affected_keys: self.delete_multi(cache_keys) return num_affected_keys def get_store(self): return self.filename class BaseRedisBackend(redis_backend.RedisBackend): key_prefix = '' def __init__(self, arguments): self.db_conn = arguments.get('host', '') or arguments.get('url', '') or 'redis-host' super().__init__(arguments) self._lock_timeout = self.lock_timeout self._lock_auto_renewal = str2bool(arguments.pop("lock_auto_renewal", True)) if self._lock_auto_renewal and not self._lock_timeout: # set default timeout for auto_renewal self._lock_timeout = 30 def __repr__(self): return f'{self.__class__}(conn=`{self.db_conn}`)' def __str__(self): return self.__repr__() def _create_client(self): args = {} if self.url is not None: args.update(url=self.url) else: args.update( host=self.host, password=self.password, port=self.port, db=self.db ) connection_pool = redis.ConnectionPool(**args) self.writer_client = redis.StrictRedis( connection_pool=connection_pool ) self.reader_client = self.writer_client def _get_keys_pattern(self, prefix: bytes = b''): return b'%b:%b*' % (safe_bytes(self.key_prefix), safe_bytes(prefix)) def list_keys(self, prefix: bytes = b''): prefix = self._get_keys_pattern(prefix) return self.reader_client.keys(prefix) def delete_multi_by_prefix(self, prefix, use_lua=False): if use_lua: # high efficient LUA script to delete ALL keys by prefix... lua = """local keys = redis.call('keys', ARGV[1]) for i=1,#keys,5000 do redis.call('del', unpack(keys, i, math.min(i+(5000-1), #keys))) end return #keys""" num_affected_keys = self.writer_client.eval( lua, 0, f"{prefix}*") else: cache_keys = self.list_keys(prefix=prefix) num_affected_keys = len(cache_keys) if num_affected_keys: self.delete_multi(cache_keys) return num_affected_keys def get_store(self): return self.reader_client.connection_pool def get_mutex(self, key): if self.distributed_lock: lock_key = f'_lock_{safe_str(key)}' return get_mutex_lock( self.writer_client, lock_key, self._lock_timeout, auto_renewal=self._lock_auto_renewal ) else: return None class RedisPickleBackend(PickleSerializer, BaseRedisBackend): key_prefix = 'redis_pickle_backend' pass class RedisMsgPackBackend(MsgPackSerializer, BaseRedisBackend): key_prefix = 'redis_msgpack_backend' pass def get_mutex_lock(client, lock_key, lock_timeout, auto_renewal=False): from vcsserver.lib._vendor import redis_lock class _RedisLockWrapper: """LockWrapper for redis_lock""" @classmethod def get_lock(cls): return redis_lock.Lock( redis_client=client, name=lock_key, expire=lock_timeout, auto_renewal=auto_renewal, strict=True, ) def __repr__(self): return f"{self.__class__.__name__}:{lock_key}" def __str__(self): return f"{self.__class__.__name__}:{lock_key}" def __init__(self): self.lock = self.get_lock() self.lock_key = lock_key def acquire(self, wait=True): log.debug('Trying to acquire Redis lock for key %s', self.lock_key) try: acquired = self.lock.acquire(wait) log.debug('Got lock for key %s, %s', self.lock_key, acquired) return acquired except redis_lock.AlreadyAcquired: return False except redis_lock.AlreadyStarted: # refresh thread exists, but it also means we acquired the lock return True def release(self): try: self.lock.release() except redis_lock.NotAcquired: pass return _RedisLockWrapper()