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"""MySQLdb database engine.""" import time import logging import datetime import itertools import functools import threading try: import queue except ImportError: import queue as Queue try: import MySQLdb import MySQLdb.cursors _has_mysql = True except ImportError: _has_mysql = False from pyzor.engines.common import * class MySQLDBHandle(BaseEngine): absolute_source = False handles_one_step = True # The table must already exist, and have this schema: # CREATE TABLE `public` ( # `digest` char(40) default NULL, # `r_count` int(11) default NULL, # `wl_count` int(11) default NULL, # `r_entered` datetime default NULL, # `wl_entered` datetime default NULL, # `r_updated` datetime default NULL, # `wl_updated` datetime default NULL, # PRIMARY KEY (`digest`) # ) # XXX Re-organising might be faster with a r_updated index. However, # XXX the re-organisation time isn't that important, and that would # XXX (slightly) slow down all inserts, so we leave it for now. reorganize_period = 3600 * 24 # 1 day reconnect_period = 60 # seconds log = logging.getLogger("pyzord") def __init__(self, fn, mode, max_age=None): self.max_age = max_age self.db = None # The 'fn' is host,user,password,db,table. We ignore mode. # We store the authentication details so that we can reconnect if # necessary. self.host, self.user, self.passwd, self.db_name, \ self.table_name = fn.split(",") self.last_connect_attempt = 0 # We have never connected. self.reorganize_timer = None self.reconnect() self.start_reorganizing() def _get_new_connection(self): """Returns a new db connection.""" db = MySQLdb.connect(host=self.host, user=self.user, db=self.db_name, passwd=self.passwd) db.autocommit(True) return db def _check_reconnect_time(self): if time.time() - self.last_connect_attempt < self.reconnect_period: # Too soon to reconnect. self.log.debug("Can't reconnect until %s", (time.ctime(self.last_connect_attempt + self.reconnect_period))) return False return True def reconnect(self): if not self._check_reconnect_time(): return if self.db: try: self.db.close() except MySQLdb.Error: pass try: self.db = self._get_new_connection() except MySQLdb.Error as e: self.log.error("Unable to connect to database: %s", e) self.db = None # Keep track of when we connected, so that we don't retry too often. self.last_connect_attempt = time.time() def _iter(self, db): c = db.cursor(cursorclass=MySQLdb.cursors.SSCursor) c.execute("SELECT digest FROM %s" % self.table_name) while True: row = c.fetchone() if not row: break yield row[0] c.close() def __iter__(self): return self._safe_call("iter", self._iter, ()) def _iteritems(self, db): c = db.cursor(cursorclass=MySQLdb.cursors.SSCursor) c.execute("SELECT digest, r_count, wl_count, r_entered, r_updated, " "wl_entered, wl_updated FROM %s" % self.table_name) while True: row = c.fetchone() if not row: break yield row[0], Record(*row[1:]) c.close() def iteritems(self): return self._safe_call("iteritems", self._iteritems, ()) def items(self): return list(self._safe_call("iteritems", self._iteritems, ())) def __del__(self): """Close the database when the object is no longer needed.""" try: if self.db: self.db.close() except MySQLdb.Error: pass def _safe_call(self, name, method, args): try: return method(*args, db=self.db) except (MySQLdb.Error, AttributeError) as ex: self.log.error("%s failed: %s", name, ex) self.reconnect() # Retrying just complicates the logic - we don't really care if # a single query fails (and it's possible that it would fail) # on the second attempt anyway. Any exceptions are caught by # the server, and a 'nice' message provided to the caller. raise DatabaseError("Database temporarily unavailable.") def report(self, keys): return self._safe_call("report", self._report, (keys,)) def whitelist(self, keys): return self._safe_call("whitelist", self._whitelist, (keys,)) def __getitem__(self, key): return self._safe_call("getitem", self._really__getitem__, (key,)) def __setitem__(self, key, value): return self._safe_call("setitem", self._really__setitem__, (key, value)) def __delitem__(self, key): return self._safe_call("delitem", self._really__delitem__, (key,)) def _report(self, keys, db=None): c = db.cursor() try: c.executemany("INSERT INTO %s (digest, r_count, wl_count, " "r_entered, r_updated, wl_entered, wl_updated) " "VALUES (%%s, 1, 0, NOW(), NOW(), NOW(), NOW()) ON " "DUPLICATE KEY UPDATE r_count=r_count+1, " "r_updated=NOW()" % self.table_name, map(lambda key: (key,), keys)) finally: c.close() def _whitelist(self, keys, db=None): c = db.cursor() try: c.executemany("INSERT INTO %s (digest, r_count, wl_count, " "r_entered, r_updated, wl_entered, wl_updated) " "VALUES (%%s, 0, 1, NOW(), NOW(), NOW(), NOW()) ON " "DUPLICATE KEY UPDATE wl_count=wl_count+1, " "wl_updated=NOW()" % self.table_name, map(lambda key: (key,), keys)) finally: c.close() def _really__getitem__(self, key, db=None): """__getitem__ without the exception handling.""" c = db.cursor() # The order here must match the order of the arguments to the # Record constructor. c.execute("SELECT r_count, wl_count, r_entered, r_updated, " "wl_entered, wl_updated FROM %s WHERE digest=%%s" % self.table_name, (key,)) try: try: return Record(*c.fetchone()) except TypeError: # fetchone() returned None, i.e. there is no such record raise KeyError() finally: c.close() def _really__setitem__(self, key, value, db=None): """__setitem__ without the exception handling.""" c = db.cursor() try: c.execute("INSERT INTO %s (digest, r_count, wl_count, " "r_entered, r_updated, wl_entered, wl_updated) " "VALUES (%%s, %%s, %%s, %%s, %%s, %%s, %%s) ON " "DUPLICATE KEY UPDATE r_count=%%s, wl_count=%%s, " "r_entered=%%s, r_updated=%%s, wl_entered=%%s, " "wl_updated=%%s" % self.table_name, (key, value.r_count, value.wl_count, value.r_entered, value.r_updated, value.wl_entered, value.wl_updated, value.r_count, value.wl_count, value.r_entered, value.r_updated, value.wl_entered, value.wl_updated)) finally: c.close() def _really__delitem__(self, key, db=None): """__delitem__ without the exception handling.""" c = db.cursor() try: c.execute("DELETE FROM %s WHERE digest=%%s" % self.table_name, (key,)) finally: c.close() def start_reorganizing(self): if not self.max_age: return self.log.debug("reorganizing the database") breakpoint = (datetime.datetime.now() - datetime.timedelta(seconds=self.max_age)) db = self._get_new_connection() c = db.cursor() try: c.execute("DELETE FROM %s WHERE r_updated<%%s" % self.table_name, (breakpoint,)) except (MySQLdb.Error, AttributeError) as e: self.log.warn("Unable to reorganise: %s", e) finally: c.close() db.close() self.reorganize_timer = threading.Timer(self.reorganize_period, self.start_reorganizing) self.reorganize_timer.setDaemon(True) self.reorganize_timer.start() @classmethod def get_prefork_connections(cls, fn, mode, max_age=None): """Yields a number of database connections suitable for a Pyzor pre-fork server. """ # Only run the reorganize timer in the first child process. yield functools.partial(cls, fn, mode, max_age=max_age) while True: yield functools.partial(cls, fn, mode, max_age=None) class ThreadedMySQLDBHandle(MySQLDBHandle): def __init__(self, fn, mode, max_age=None, bound=None): self.bound = bound if self.bound: self.db_queue = queue.Queue() MySQLDBHandle.__init__(self, fn, mode, max_age=max_age) def _get_connection(self): if self.bound: return self.db_queue.get() else: return self._get_new_connection() def _release_connection(self, db): if self.bound: self.db_queue.put(db) else: db.close() def _safe_call(self, name, method, args): db = self._get_connection() try: return method(*args, db=db) except (MySQLdb.Error, AttributeError) as ex: self.log.error("%s failed: %s", name, ex) if not self.bound: raise DatabaseError("Database temporarily unavailable.") try: # Connection might be timeout, ping and retry db.ping(True) return method(*args, db=db) except (MySQLdb.Error, AttributeError) as ex: # attempt a new connection, if we can retry db = self._reconnect(db) raise DatabaseError("Database temporarily unavailable.") finally: self._release_connection(db) def reconnect(self): if not self.bound: return for _ in range(self.bound): self.db_queue.put(self._get_new_connection()) def _reconnect(self, db): if not self._check_reconnect_time(): return db else: self.last_connect_attempt = time.time() return self._get_new_connection() def __del__(self): if not self.bound: return for db in iter(self.db_queue.get_nowait): try: db.close() except MySQLdb.Error: continue except queue.Empty: break class ProcessMySQLDBHandle(MySQLDBHandle): def __init__(self, fn, mode, max_age=None): MySQLDBHandle.__init__(self, fn, mode, max_age=max_age) def reconnect(self): pass def __del__(self): pass def _safe_call(self, name, method, args): db = None try: db = self._get_new_connection() return method(*args, db=db) except (MySQLdb.Error, AttributeError) as ex: self.log.error("%s failed: %s", name, ex) raise DatabaseError("Database temporarily unavailable.") finally: if db is not None: db.close() if not _has_mysql: handle = DBHandle(single_threaded=None, multi_threaded=None, multi_processing=None, prefork=None) else: handle = DBHandle(single_threaded=MySQLDBHandle, multi_threaded=ThreadedMySQLDBHandle, multi_processing=ProcessMySQLDBHandle, prefork=MySQLDBHandle)