# -*- coding: utf-8 -*- # Copyright (C) 2017-2019 RhodeCode GmbH # # This program is free software: you can redistribute it and/or modify # it under the terms of the GNU Affero General Public License, version 3 # (only), as published by the Free Software Foundation. # # 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 Affero General Public License # along with this program. If not, see . # # This program is dual-licensed. If you wish to learn more about the # RhodeCode Enterprise Edition, including its added features, Support services, # and proprietary license terms, please see https://rhodecode.com/licenses/ import os import re import time import datetime import dateutil from rhodecode.model.db import DbSession, Session class CleanupCommand(Exception): pass class BaseAuthSessions(object): SESSION_TYPE = None NOT_AVAILABLE = 'NOT AVAILABLE' def __init__(self, config): session_conf = {} for k, v in config.items(): if k.startswith('beaker.session'): session_conf[k] = v self.config = session_conf def get_count(self): raise NotImplementedError def get_expired_count(self, older_than_seconds=None): raise NotImplementedError def clean_sessions(self, older_than_seconds=None): raise NotImplementedError def _seconds_to_date(self, seconds): return datetime.datetime.utcnow() - dateutil.relativedelta.relativedelta( seconds=seconds) class DbAuthSessions(BaseAuthSessions): SESSION_TYPE = 'ext:database' def get_count(self): return DbSession.query().count() def get_expired_count(self, older_than_seconds=None): expiry_date = self._seconds_to_date(older_than_seconds) return DbSession.query().filter(DbSession.accessed < expiry_date).count() def clean_sessions(self, older_than_seconds=None): expiry_date = self._seconds_to_date(older_than_seconds) to_remove = DbSession.query().filter(DbSession.accessed < expiry_date).count() DbSession.query().filter(DbSession.accessed < expiry_date).delete() Session().commit() return to_remove class FileAuthSessions(BaseAuthSessions): SESSION_TYPE = 'file sessions' def _get_sessions_dir(self): data_dir = self.config.get('beaker.session.data_dir') return data_dir def _count_on_filesystem(self, path, older_than=0, callback=None): value = dict(percent=0, used=0, total=0, items=0, callbacks=0, path=path, text='') items_count = 0 used = 0 callbacks = 0 cur_time = time.time() for root, dirs, files in os.walk(path): for f in files: final_path = os.path.join(root, f) try: mtime = os.stat(final_path).st_mtime if (cur_time - mtime) > older_than: items_count += 1 if callback: callback_res = callback(final_path) callbacks += 1 else: used += os.path.getsize(final_path) except OSError: pass value.update({ 'percent': 100, 'used': used, 'total': used, 'items': items_count, 'callbacks': callbacks }) return value def get_count(self): try: sessions_dir = self._get_sessions_dir() items_count = self._count_on_filesystem(sessions_dir)['items'] except Exception: items_count = self.NOT_AVAILABLE return items_count def get_expired_count(self, older_than_seconds=0): try: sessions_dir = self._get_sessions_dir() items_count = self._count_on_filesystem( sessions_dir, older_than=older_than_seconds)['items'] except Exception: items_count = self.NOT_AVAILABLE return items_count def clean_sessions(self, older_than_seconds=0): # find . -mtime +60 -exec rm {} \; sessions_dir = self._get_sessions_dir() def remove_item(path): os.remove(path) stats = self._count_on_filesystem( sessions_dir, older_than=older_than_seconds, callback=remove_item) return stats['callbacks'] class MemcachedAuthSessions(BaseAuthSessions): SESSION_TYPE = 'ext:memcached' _key_regex = re.compile(r'ITEM (.*_session) \[(.*); (.*)\]') def _get_client(self): import memcache client = memcache.Client([self.config.get('beaker.session.url')]) return client def _get_telnet_client(self, host, port): import telnetlib client = telnetlib.Telnet(host, port, None) return client def _run_telnet_cmd(self, client, cmd): client.write("%s\n" % cmd) return client.read_until('END') def key_details(self, client, slab_ids, limit=100): """ Return a list of tuples containing keys and details """ cmd = 'stats cachedump %s %s' for slab_id in slab_ids: for key in self._key_regex.finditer( self._run_telnet_cmd(client, cmd % (slab_id, limit))): yield key def get_count(self): client = self._get_client() count = self.NOT_AVAILABLE try: slabs = [] for server, slabs_data in client.get_slabs(): slabs.extend(slabs_data.keys()) host, port = client.servers[0].address telnet_client = self._get_telnet_client(host, port) keys = self.key_details(telnet_client, slabs) count = 0 for _k in keys: count += 1 except Exception: return count return count def get_expired_count(self, older_than_seconds=None): return self.NOT_AVAILABLE def clean_sessions(self, older_than_seconds=None): raise CleanupCommand('Cleanup for this session type not yet available') class MemoryAuthSessions(BaseAuthSessions): SESSION_TYPE = 'memory' def get_count(self): return self.NOT_AVAILABLE def get_expired_count(self, older_than_seconds=None): return self.NOT_AVAILABLE def clean_sessions(self, older_than_seconds=None): raise CleanupCommand('Cleanup for this session type not yet available') def get_session_handler(session_type): types = { 'file': FileAuthSessions, 'ext:memcached': MemcachedAuthSessions, 'ext:database': DbAuthSessions, 'memory': MemoryAuthSessions } try: return types[session_type] except KeyError: raise ValueError( 'This type {} is not supported'.format(session_type))