"""Core disk and file backed cache API. """ import codecs import contextlib as cl import errno import functools as ft import io import json import os import os.path as op import pickle import pickletools import sqlite3 import struct import tempfile import threading import time import warnings import zlib from sg_helpers import touch_file def full_name(func): "Return full name of `func` by adding the module and function name." return func.__module__ + '.' + func.__qualname__ try: WindowsError except NameError: class WindowsError(Exception): "Windows error place-holder on platforms without support." class Constant(tuple): "Pretty display of immutable constant." def __new__(cls, name): return tuple.__new__(cls, (name,)) def __repr__(self): return '%s' % self[0] DBNAME = 'cache.db' ENOVAL = Constant('ENOVAL') UNKNOWN = Constant('UNKNOWN') MODE_NONE = 0 MODE_RAW = 1 MODE_BINARY = 2 MODE_TEXT = 3 MODE_PICKLE = 4 DEFAULT_SETTINGS = { u'statistics': 0, # False u'tag_index': 0, # False u'eviction_policy': u'least-recently-stored', u'size_limit': 2 ** 30, # 1gb u'cull_limit': 10, u'sqlite_auto_vacuum': 1, # FULL u'sqlite_cache_size': 2 ** 13, # 8,192 pages u'sqlite_journal_mode': u'wal', u'sqlite_mmap_size': 2 ** 26, # 64mb u'sqlite_synchronous': 1, # NORMAL u'disk_min_file_size': 2 ** 15, # 32kb u'disk_pickle_protocol': pickle.HIGHEST_PROTOCOL, } METADATA = { u'count': 0, u'size': 0, u'hits': 0, u'misses': 0, } EVICTION_POLICY = { 'none': { 'init': None, 'get': None, 'cull': None, }, 'least-recently-stored': { 'init': ( 'CREATE INDEX IF NOT EXISTS Cache_store_time ON' ' Cache (store_time)' ), 'get': None, 'cull': 'SELECT {fields} FROM Cache ORDER BY store_time LIMIT ?', }, 'least-recently-used': { 'init': ( 'CREATE INDEX IF NOT EXISTS Cache_access_time ON' ' Cache (access_time)' ), 'get': 'access_time = {now}', 'cull': 'SELECT {fields} FROM Cache ORDER BY access_time LIMIT ?', }, 'least-frequently-used': { 'init': ( 'CREATE INDEX IF NOT EXISTS Cache_access_count ON' ' Cache (access_count)' ), 'get': 'access_count = access_count + 1', 'cull': 'SELECT {fields} FROM Cache ORDER BY access_count LIMIT ?', }, } class Disk(object): "Cache key and value serialization for SQLite database and files." def __init__(self, directory, min_file_size=0, pickle_protocol=0): """Initialize disk instance. :param str directory: directory path :param int min_file_size: minimum size for file use :param int pickle_protocol: pickle protocol for serialization """ self._directory = directory self.min_file_size = min_file_size self.pickle_protocol = pickle_protocol def hash(self, key): """Compute portable hash for `key`. :param key: key to hash :return: hash value """ mask = 0xFFFFFFFF disk_key, _ = self.put(key) type_disk_key = type(disk_key) if type_disk_key is sqlite3.Binary: return zlib.adler32(disk_key) & mask elif type_disk_key is str: return zlib.adler32(disk_key.encode('utf-8')) & mask # noqa elif type_disk_key is int: return disk_key % mask else: assert type_disk_key is float return zlib.adler32(struct.pack('!d', disk_key)) & mask def put(self, key): """Convert `key` to fields key and raw for Cache table. :param key: key to convert :return: (database key, raw boolean) pair """ # pylint: disable=unidiomatic-typecheck type_key = type(key) if type_key is bytes: return sqlite3.Binary(key), True elif ((type_key is str) or (type_key is int and -9223372036854775808 <= key <= 9223372036854775807) or (type_key is float)): return key, True else: data = pickle.dumps(key, protocol=self.pickle_protocol) result = pickletools.optimize(data) return sqlite3.Binary(result), False def get(self, key, raw): """Convert fields `key` and `raw` from Cache table to key. :param key: database key to convert :param bool raw: flag indicating raw database storage :return: corresponding Python key """ # pylint: disable=no-self-use,unidiomatic-typecheck if raw: return bytes(key) if type(key) is sqlite3.Binary else key else: return pickle.load(io.BytesIO(key)) def store(self, value, read, key=UNKNOWN): """Convert `value` to fields size, mode, filename, and value for Cache table. :param value: value to convert :param bool read: True when value is file-like object :param key: key for item (default UNKNOWN) :return: (size, mode, filename, value) tuple for Cache table """ # pylint: disable=unidiomatic-typecheck type_value = type(value) min_file_size = self.min_file_size if ((type_value is str and len(value) < min_file_size) or (type_value is int and -9223372036854775808 <= value <= 9223372036854775807) or (type_value is float)): return 0, MODE_RAW, None, value elif type_value is bytes: if len(value) < min_file_size: return 0, MODE_RAW, None, sqlite3.Binary(value) else: filename, full_path = self.filename(key, value) with open(full_path, 'wb') as writer: writer.write(value) return len(value), MODE_BINARY, filename, None elif type_value is str: filename, full_path = self.filename(key, value) with open(full_path, 'w', encoding='UTF-8') as writer: writer.write(value) size = op.getsize(full_path) return size, MODE_TEXT, filename, None elif read: size = 0 reader = ft.partial(value.read, 2 ** 22) filename, full_path = self.filename(key, value) with open(full_path, 'wb') as writer: for chunk in iter(reader, b''): size += len(chunk) writer.write(chunk) return size, MODE_BINARY, filename, None else: result = pickle.dumps(value, protocol=self.pickle_protocol) if len(result) < min_file_size: return 0, MODE_PICKLE, None, sqlite3.Binary(result) else: filename, full_path = self.filename(key, value) with open(full_path, 'wb') as writer: writer.write(result) return len(result), MODE_PICKLE, filename, None def fetch(self, mode, filename, value, read): """Convert fields `mode`, `filename`, and `value` from Cache table to value. :param int mode: value mode raw, binary, text, or pickle :param str filename: filename of corresponding value :param value: database value :param bool read: when True, return an open file handle :return: corresponding Python value """ # pylint: disable=no-self-use,unidiomatic-typecheck if mode == MODE_RAW: return bytes(value) if type(value) is sqlite3.Binary else value elif mode == MODE_BINARY: if read: return open(op.join(self._directory, filename), 'rb') else: with open(op.join(self._directory, filename), 'rb') as reader: return reader.read() elif mode == MODE_TEXT: full_path = op.join(self._directory, filename) with open(full_path, 'r', encoding='UTF-8') as reader: return reader.read() elif mode == MODE_PICKLE: if value is None: with open(op.join(self._directory, filename), 'rb') as reader: return pickle.load(reader) else: return pickle.load(io.BytesIO(value)) def filename(self, key=UNKNOWN, value=UNKNOWN): """Return filename and full-path tuple for file storage. Filename will be a randomly generated 28 character hexadecimal string with ".val" suffixed. Two levels of sub-directories will be used to reduce the size of directories. On older filesystems, lookups in directories with many files may be slow. The default implementation ignores the `key` and `value` parameters. In some scenarios, for example :meth:`Cache.push `, the `key` or `value` may not be known when the item is stored in the cache. :param key: key for item (default UNKNOWN) :param value: value for item (default UNKNOWN) """ # pylint: disable=unused-argument hex_name = codecs.encode(os.urandom(16), 'hex').decode('utf-8') sub_dir = op.join(hex_name[:2], hex_name[2:4]) name = hex_name[4:] + '.val' directory = op.join(self._directory, sub_dir) try: os.makedirs(directory) except OSError as error: if error.errno != errno.EEXIST: raise filename = op.join(sub_dir, name) full_path = op.join(self._directory, filename) return filename, full_path def remove(self, filename): """Remove a file given by `filename`. This method is cross-thread and cross-process safe. If an "error no entry" occurs, it is suppressed. :param str filename: relative path to file """ full_path = op.join(self._directory, filename) try: os.remove(full_path) except WindowsError: pass except OSError as error: if error.errno != errno.ENOENT: # ENOENT may occur if two caches attempt to delete the same # file at the same time. raise class JSONDisk(Disk): "Cache key and value using JSON serialization with zlib compression." def __init__(self, directory, compress_level=1, **kwargs): """Initialize JSON disk instance. Keys and values are compressed using the zlib library. The `compress_level` is an integer from 0 to 9 controlling the level of compression; 1 is fastest and produces the least compression, 9 is slowest and produces the most compression, and 0 is no compression. :param str directory: directory path :param int compress_level: zlib compression level (default 1) :param kwargs: super class arguments """ self.compress_level = compress_level super().__init__(directory, **kwargs) def put(self, key): json_bytes = json.dumps(key).encode('utf-8') data = zlib.compress(json_bytes, self.compress_level) return super().put(data) def get(self, key, raw): data = super().get(key, raw) return json.loads(zlib.decompress(data).decode('utf-8')) def store(self, value, read, key=UNKNOWN): if not read: json_bytes = json.dumps(value).encode('utf-8') value = zlib.compress(json_bytes, self.compress_level) return super().store(value, read, key=key) def fetch(self, mode, filename, value, read): data = super().fetch(mode, filename, value, read) if not read: data = json.loads(zlib.decompress(data).decode('utf-8')) return data class Timeout(Exception): "Database timeout expired." class UnknownFileWarning(UserWarning): "Warning used by Cache.check for unknown files." class EmptyDirWarning(UserWarning): "Warning used by Cache.check for empty directories." def args_to_key(base, args, kwargs, typed): """Create cache key out of function arguments. :param tuple base: base of key :param tuple args: function arguments :param dict kwargs: function keyword arguments :param bool typed: include types in cache key :return: cache key tuple """ key = base + args if kwargs: key += (ENOVAL,) sorted_items = sorted(kwargs.items()) for item in sorted_items: key += item if typed: key += tuple(type(arg) for arg in args) if kwargs: key += tuple(type(value) for _, value in sorted_items) return key class Cache(object): "Disk and file backed cache." def __init__(self, directory=None, timeout=60, disk=Disk, **settings): """Initialize cache instance. :param str directory: cache directory :param float timeout: SQLite connection timeout :param disk: Disk type or subclass for serialization :param settings: any of DEFAULT_SETTINGS """ try: assert issubclass(disk, Disk) except (TypeError, AssertionError): raise ValueError('disk must subclass diskcache.Disk') from None if directory is None: directory = tempfile.mkdtemp(prefix='diskcache-') directory = op.expanduser(directory) directory = op.expandvars(directory) self._directory = directory self._timeout = 0 # Manually handle retries during initialization. self._local = threading.local() self._txn_id = None if not op.isdir(directory): try: os.makedirs(directory, 0o755) except OSError as error: if error.errno != errno.EEXIST: raise EnvironmentError( error.errno, 'Cache directory "%s" does not exist' ' and could not be created' % self._directory ) from None sql = self._sql_retry # Setup Settings table. try: current_settings = dict(sql( 'SELECT key, value FROM Settings' ).fetchall()) except sqlite3.OperationalError: current_settings = {} sets = DEFAULT_SETTINGS.copy() sets.update(current_settings) sets.update(settings) for key in METADATA: sets.pop(key, None) # Chance to set pragmas before any tables are created. for key, value in sorted(sets.items()): if key.startswith('sqlite_'): self.reset(key, value, update=False) sql('CREATE TABLE IF NOT EXISTS Settings (' ' key TEXT NOT NULL UNIQUE,' ' value)' ) # Setup Disk object (must happen after settings initialized). kwargs = { key[5:]: value for key, value in sets.items() if key.startswith('disk_') } self._disk = disk(directory, **kwargs) # Set cached attributes: updates settings and sets pragmas. for key, value in sets.items(): query = 'INSERT OR REPLACE INTO Settings VALUES (?, ?)' sql(query, (key, value)) self.reset(key, value) for key, value in METADATA.items(): query = 'INSERT OR IGNORE INTO Settings VALUES (?, ?)' sql(query, (key, value)) self.reset(key) (self._page_size,), = sql('PRAGMA page_size').fetchall() # Setup Cache table. sql('CREATE TABLE IF NOT EXISTS Cache (' ' rowid INTEGER PRIMARY KEY,' ' key BLOB,' ' raw INTEGER,' ' store_time REAL,' ' expire_time REAL,' ' access_time REAL,' ' access_count INTEGER DEFAULT 0,' ' tag BLOB,' ' size INTEGER DEFAULT 0,' ' mode INTEGER DEFAULT 0,' ' filename TEXT,' ' value BLOB)' ) sql('CREATE UNIQUE INDEX IF NOT EXISTS Cache_key_raw ON' ' Cache(key, raw)' ) sql('CREATE INDEX IF NOT EXISTS Cache_expire_time ON' ' Cache (expire_time)' ) query = EVICTION_POLICY[self.eviction_policy]['init'] if query is not None: sql(query) # Use triggers to keep Metadata updated. sql('CREATE TRIGGER IF NOT EXISTS Settings_count_insert' ' AFTER INSERT ON Cache FOR EACH ROW BEGIN' ' UPDATE Settings SET value = value + 1' ' WHERE key = "count"; END' ) sql('CREATE TRIGGER IF NOT EXISTS Settings_count_delete' ' AFTER DELETE ON Cache FOR EACH ROW BEGIN' ' UPDATE Settings SET value = value - 1' ' WHERE key = "count"; END' ) sql('CREATE TRIGGER IF NOT EXISTS Settings_size_insert' ' AFTER INSERT ON Cache FOR EACH ROW BEGIN' ' UPDATE Settings SET value = value + NEW.size' ' WHERE key = "size"; END' ) sql('CREATE TRIGGER IF NOT EXISTS Settings_size_update' ' AFTER UPDATE ON Cache FOR EACH ROW BEGIN' ' UPDATE Settings' ' SET value = value + NEW.size - OLD.size' ' WHERE key = "size"; END' ) sql('CREATE TRIGGER IF NOT EXISTS Settings_size_delete' ' AFTER DELETE ON Cache FOR EACH ROW BEGIN' ' UPDATE Settings SET value = value - OLD.size' ' WHERE key = "size"; END' ) # Create tag index if requested. if self.tag_index: # pylint: disable=no-member self.create_tag_index() else: self.drop_tag_index() # Close and re-open database connection with given timeout. self.close() self._timeout = timeout self._sql # pylint: disable=pointless-statement @property def directory(self): """Cache directory.""" return self._directory @property def timeout(self): """SQLite connection timeout value in seconds.""" return self._timeout @property def disk(self): """Disk used for serialization.""" return self._disk @property def _con(self): # Check process ID to support process forking. If the process # ID changes, close the connection and update the process ID. local_pid = getattr(self._local, 'pid', None) pid = os.getpid() if local_pid != pid: self.close() self._local.pid = pid con = getattr(self._local, 'con', None) if con is None: touch_file(DBNAME, dir_name=self._directory) con = self._local.con = sqlite3.connect( op.join(self._directory, DBNAME), timeout=self._timeout ) # Some SQLite pragmas work on a per-connection basis so # query the Settings table and reset the pragmas. The # Settings table may not exist so catch and ignore the # OperationalError that may occur. try: select = 'SELECT key, value FROM Settings' settings = con.execute(select).fetchall() except sqlite3.OperationalError: pass else: for key, value in settings: if key.startswith('sqlite_'): self.reset(key, value, update=False) return con def _execute(self, *args, **kwargs): result = self._con.execute(*args, **kwargs) try: self._con.commit() except (BaseException, Exception): pass return result @property def _sql(self): return self._execute @property def _sql_retry(self): sql = self._sql # 2018-11-01 GrantJ - Some SQLite builds/versions handle # the SQLITE_BUSY return value and connection parameter # "timeout" differently. For a more reliable duration, # manually retry the statement for 60 seconds. Only used # by statements which modify the database and do not use # a transaction (like those in ``__init__`` or ``reset``). # See Issue #85 for and tests/issue_85.py for more details. def _execute_with_retry(statement, *args, **kwargs): start = time.time() while True: try: return sql(statement, *args, **kwargs) except sqlite3.OperationalError as exc: if str(exc) != 'database is locked': raise diff = time.time() - start if diff > 60: raise time.sleep(1) return _execute_with_retry @cl.contextmanager def transact(self, retry=False): """Context manager to perform a transaction by locking the cache. While the cache is locked, no other write operation is permitted. Transactions should therefore be as short as possible. Read and write operations performed in a transaction are atomic. Read operations may occur concurrent to a transaction. Transactions may be nested and may not be shared between threads. Raises :exc:`Timeout` error when database timeout occurs and `retry` is `False` (default). >>> cache = Cache() >>> with cache.transact(): # Atomically increment two keys. ... _ = cache.incr('total', 123.4) ... _ = cache.incr('count', 1) >>> with cache.transact(): # Atomically calculate average. ... average = cache['total'] / cache['count'] >>> average 123.4 :param bool retry: retry if database timeout occurs (default False) :return: context manager for use in `with` statement :raises Timeout: if database timeout occurs """ with self._transact(retry=retry): yield @cl.contextmanager def _transact(self, retry=False, filename=None): sql = self._sql filenames = [] _disk_remove = self._disk.remove tid = threading.get_ident() txn_id = self._txn_id if tid == txn_id: begin = False else: while True: try: # sql('BEGIN IMMEDIATE', no_commit_call=True) begin = True self._txn_id = tid break except sqlite3.OperationalError: if retry: continue if filename is not None: _disk_remove(filename) raise Timeout from None try: yield sql, filenames.append except BaseException: if begin: assert self._txn_id == tid self._txn_id = None # sql('ROLLBACK') self._con.rollback() raise else: if begin: assert self._txn_id == tid self._txn_id = None # sql('COMMIT') self._con.commit() for name in filenames: if name is not None: _disk_remove(name) def set(self, key, value, expire=None, read=False, tag=None, retry=False): """Set `key` and `value` item in cache. When `read` is `True`, `value` should be a file-like object opened for reading in binary mode. Raises :exc:`Timeout` error when database timeout occurs and `retry` is `False` (default). :param key: key for item :param value: value for item :param float expire: seconds until item expires (default None, no expiry) :param bool read: read value as bytes from file (default False) :param str tag: text to associate with key (default None) :param bool retry: retry if database timeout occurs (default False) :return: True if item was set :raises Timeout: if database timeout occurs """ now = time.time() db_key, raw = self._disk.put(key) expire_time = None if expire is None else now + expire size, mode, filename, db_value = self._disk.store(value, read, key=key) columns = (expire_time, tag, size, mode, filename, db_value) # The order of SELECT, UPDATE, and INSERT is important below. # # Typical cache usage pattern is: # # value = cache.get(key) # if value is None: # value = expensive_calculation() # cache.set(key, value) # # Cache.get does not evict expired keys to avoid writes during lookups. # Commonly used/expired keys will therefore remain in the cache making # an UPDATE the preferred path. # # The alternative is to assume the key is not present by first trying # to INSERT and then handling the IntegrityError that occurs from # violating the UNIQUE constraint. This optimistic approach was # rejected based on the common cache usage pattern. # # INSERT OR REPLACE aka UPSERT is not used because the old filename may # need cleanup. with self._transact(retry, filename) as (sql, cleanup): rows = sql( 'SELECT rowid, filename FROM Cache' ' WHERE key = ? AND raw = ?', (db_key, raw), ).fetchall() if rows: (rowid, old_filename), = rows cleanup(old_filename) self._row_update(rowid, now, columns) else: self._row_insert(db_key, raw, now, columns) self._cull(now, sql, cleanup) return True def __setitem__(self, key, value): """Set corresponding `value` for `key` in cache. :param key: key for item :param value: value for item :return: corresponding value :raises KeyError: if key is not found """ self.set(key, value, retry=True) def _row_update(self, rowid, now, columns): sql = self._sql expire_time, tag, size, mode, filename, value = columns sql('UPDATE Cache SET' ' store_time = ?,' ' expire_time = ?,' ' access_time = ?,' ' access_count = ?,' ' tag = ?,' ' size = ?,' ' mode = ?,' ' filename = ?,' ' value = ?' ' WHERE rowid = ?', ( now, # store_time expire_time, now, # access_time 0, # access_count tag, size, mode, filename, value, rowid, ), ) def _row_insert(self, key, raw, now, columns): sql = self._sql expire_time, tag, size, mode, filename, value = columns sql('INSERT INTO Cache(' ' key, raw, store_time, expire_time, access_time,' ' access_count, tag, size, mode, filename, value' ') VALUES (?, ?, ?, ?, ?, ?, ?, ?, ?, ?, ?)', ( key, raw, now, # store_time expire_time, now, # access_time 0, # access_count tag, size, mode, filename, value, ), ) def _cull(self, now, sql, cleanup, limit=None): cull_limit = self.cull_limit if limit is None else limit if cull_limit == 0: return # Evict expired keys. select_expired_template = ( 'SELECT %s FROM Cache' ' WHERE expire_time IS NOT NULL AND expire_time < ?' ' ORDER BY expire_time LIMIT ?' ) select_expired = select_expired_template % 'filename' rows = sql(select_expired, (now, cull_limit)).fetchall() if rows: delete_expired = ( 'DELETE FROM Cache WHERE rowid IN (%s)' % (select_expired_template % 'rowid') ) sql(delete_expired, (now, cull_limit)) for filename, in rows: cleanup(filename) cull_limit -= len(rows) if cull_limit == 0: return # Evict keys by policy. select_policy = EVICTION_POLICY[self.eviction_policy]['cull'] if select_policy is None or self.volume() < self.size_limit: return select_filename = select_policy.format(fields='filename', now=now) rows = sql(select_filename, (cull_limit,)).fetchall() if rows: delete = ( 'DELETE FROM Cache WHERE rowid IN (%s)' % (select_policy.format(fields='rowid', now=now)) ) sql(delete, (cull_limit,)) for filename, in rows: cleanup(filename) def touch(self, key, expire=None, retry=False): """Touch `key` in cache and update `expire` time. Raises :exc:`Timeout` error when database timeout occurs and `retry` is `False` (default). :param key: key for item :param float expire: seconds until item expires (default None, no expiry) :param bool retry: retry if database timeout occurs (default False) :return: True if key was touched :raises Timeout: if database timeout occurs """ now = time.time() db_key, raw = self._disk.put(key) expire_time = None if expire is None else now + expire with self._transact(retry) as (sql, _): rows = sql( 'SELECT rowid, expire_time FROM Cache' ' WHERE key = ? AND raw = ?', (db_key, raw), ).fetchall() if rows: (rowid, old_expire_time), = rows if old_expire_time is None or old_expire_time > now: sql('UPDATE Cache SET expire_time = ? WHERE rowid = ?', (expire_time, rowid), ) return True return False def add(self, key, value, expire=None, read=False, tag=None, retry=False): """Add `key` and `value` item to cache. Similar to `set`, but only add to cache if key not present. Operation is atomic. Only one concurrent add operation for a given key will succeed. When `read` is `True`, `value` should be a file-like object opened for reading in binary mode. Raises :exc:`Timeout` error when database timeout occurs and `retry` is `False` (default). :param key: key for item :param value: value for item :param float expire: seconds until the key expires (default None, no expiry) :param bool read: read value as bytes from file (default False) :param str tag: text to associate with key (default None) :param bool retry: retry if database timeout occurs (default False) :return: True if item was added :raises Timeout: if database timeout occurs """ now = time.time() db_key, raw = self._disk.put(key) expire_time = None if expire is None else now + expire size, mode, filename, db_value = self._disk.store(value, read, key=key) columns = (expire_time, tag, size, mode, filename, db_value) with self._transact(retry, filename) as (sql, cleanup): rows = sql( 'SELECT rowid, filename, expire_time FROM Cache' ' WHERE key = ? AND raw = ?', (db_key, raw), ).fetchall() if rows: (rowid, old_filename, old_expire_time), = rows if old_expire_time is None or old_expire_time > now: cleanup(filename) return False cleanup(old_filename) self._row_update(rowid, now, columns) else: self._row_insert(db_key, raw, now, columns) self._cull(now, sql, cleanup) return True def incr(self, key, delta=1, default=0, retry=False): """Increment value by delta for item with key. If key is missing and default is None then raise KeyError. Else if key is missing and default is not None then use default for value. Operation is atomic. All concurrent increment operations will be counted individually. Assumes value may be stored in a SQLite column. Most builds that target machines with 64-bit pointer widths will support 64-bit signed integers. Raises :exc:`Timeout` error when database timeout occurs and `retry` is `False` (default). :param key: key for item :param int delta: amount to increment (default 1) :param int default: value if key is missing (default 0) :param bool retry: retry if database timeout occurs (default False) :return: new value for item :raises KeyError: if key is not found and default is None :raises Timeout: if database timeout occurs """ now = time.time() db_key, raw = self._disk.put(key) select = ( 'SELECT rowid, expire_time, filename, value FROM Cache' ' WHERE key = ? AND raw = ?' ) with self._transact(retry) as (sql, cleanup): rows = sql(select, (db_key, raw)).fetchall() if not rows: if default is None: raise KeyError(key) value = default + delta columns = ( (None, None) + self._disk.store(value, False, key=key) ) self._row_insert(db_key, raw, now, columns) self._cull(now, sql, cleanup) return value (rowid, expire_time, filename, value), = rows if expire_time is not None and expire_time < now: if default is None: raise KeyError(key) value = default + delta columns = ( (None, None) + self._disk.store(value, False, key=key) ) self._row_update(rowid, now, columns) self._cull(now, sql, cleanup) cleanup(filename) return value value += delta columns = 'store_time = ?, value = ?' update_column = EVICTION_POLICY[self.eviction_policy]['get'] if update_column is not None: columns += ', ' + update_column.format(now=now) update = 'UPDATE Cache SET %s WHERE rowid = ?' % columns sql(update, (now, value, rowid)) return value def decr(self, key, delta=1, default=0, retry=False): """Decrement value by delta for item with key. If key is missing and default is None then raise KeyError. Else if key is missing and default is not None then use default for value. Operation is atomic. All concurrent decrement operations will be counted individually. Unlike Memcached, negative values are supported. Value may be decremented below zero. Assumes value may be stored in a SQLite column. Most builds that target machines with 64-bit pointer widths will support 64-bit signed integers. Raises :exc:`Timeout` error when database timeout occurs and `retry` is `False` (default). :param key: key for item :param int delta: amount to decrement (default 1) :param int default: value if key is missing (default 0) :param bool retry: retry if database timeout occurs (default False) :return: new value for item :raises KeyError: if key is not found and default is None :raises Timeout: if database timeout occurs """ return self.incr(key, -delta, default, retry) def get(self, key, default=None, read=False, expire_time=False, tag=False, retry=False): """Retrieve value from cache. If `key` is missing, return `default`. Raises :exc:`Timeout` error when database timeout occurs and `retry` is `False` (default). :param key: key for item :param default: value to return if key is missing (default None) :param bool read: if True, return file handle to value (default False) :param bool expire_time: if True, return expire_time in tuple (default False) :param bool tag: if True, return tag in tuple (default False) :param bool retry: retry if database timeout occurs (default False) :return: value for item or default if key not found :raises Timeout: if database timeout occurs """ db_key, raw = self._disk.put(key) update_column = EVICTION_POLICY[self.eviction_policy]['get'] select = ( 'SELECT rowid, expire_time, tag, mode, filename, value' ' FROM Cache WHERE key = ? AND raw = ?' ' AND (expire_time IS NULL OR expire_time > ?)' ) if expire_time and tag: default = (default, None, None) elif expire_time or tag: default = (default, None) if not self.statistics and update_column is None: # Fast path, no transaction necessary. rows = self._sql(select, (db_key, raw, time.time())).fetchall() if not rows: return default (rowid, db_expire_time, db_tag, mode, filename, db_value), = rows try: value = self._disk.fetch(mode, filename, db_value, read) except IOError: # Key was deleted before we could retrieve result. return default else: # Slow path, transaction required. cache_hit = ( 'UPDATE Settings SET value = value + 1 WHERE key = "hits"' ) cache_miss = ( 'UPDATE Settings SET value = value + 1 WHERE key = "misses"' ) with self._transact(retry) as (sql, _): rows = sql(select, (db_key, raw, time.time())).fetchall() if not rows: if self.statistics: sql(cache_miss) return default (rowid, db_expire_time, db_tag, mode, filename, db_value), = rows # noqa: E127 try: value = self._disk.fetch(mode, filename, db_value, read) except IOError as error: if error.errno == errno.ENOENT: # Key was deleted before we could retrieve result. if self.statistics: sql(cache_miss) return default else: raise if self.statistics: sql(cache_hit) now = time.time() update = 'UPDATE Cache SET %s WHERE rowid = ?' if update_column is not None: sql(update % update_column.format(now=now), (rowid,)) if expire_time and tag: return (value, db_expire_time, db_tag) elif expire_time: return (value, db_expire_time) elif tag: return (value, db_tag) else: return value def __getitem__(self, key): """Return corresponding value for `key` from cache. :param key: key matching item :return: corresponding value :raises KeyError: if key is not found """ value = self.get(key, default=ENOVAL, retry=True) if value is ENOVAL: raise KeyError(key) return value def read(self, key, retry=False): """Return file handle value corresponding to `key` from cache. Raises :exc:`Timeout` error when database timeout occurs and `retry` is `False` (default). :param key: key matching item :param bool retry: retry if database timeout occurs (default False) :return: file open for reading in binary mode :raises KeyError: if key is not found :raises Timeout: if database timeout occurs """ handle = self.get(key, default=ENOVAL, read=True, retry=retry) if handle is ENOVAL: raise KeyError(key) return handle def __contains__(self, key): """Return `True` if `key` matching item is found in cache. :param key: key matching item :return: True if key matching item """ sql = self._sql db_key, raw = self._disk.put(key) select = ( 'SELECT rowid FROM Cache' ' WHERE key = ? AND raw = ?' ' AND (expire_time IS NULL OR expire_time > ?)' ) rows = sql(select, (db_key, raw, time.time())).fetchall() return bool(rows) def pop(self, key, default=None, expire_time=False, tag=False, retry=False): # noqa: E501 """Remove corresponding item for `key` from cache and return value. If `key` is missing, return `default`. Operation is atomic. Concurrent operations will be serialized. Raises :exc:`Timeout` error when database timeout occurs and `retry` is `False` (default). :param key: key for item :param default: value to return if key is missing (default None) :param bool expire_time: if True, return expire_time in tuple (default False) :param bool tag: if True, return tag in tuple (default False) :param bool retry: retry if database timeout occurs (default False) :return: value for item or default if key not found :raises Timeout: if database timeout occurs """ db_key, raw = self._disk.put(key) select = ( 'SELECT rowid, expire_time, tag, mode, filename, value' ' FROM Cache WHERE key = ? AND raw = ?' ' AND (expire_time IS NULL OR expire_time > ?)' ) if expire_time and tag: default = default, None, None elif expire_time or tag: default = default, None with self._transact(retry) as (sql, _): rows = sql(select, (db_key, raw, time.time())).fetchall() if not rows: return default (rowid, db_expire_time, db_tag, mode, filename, db_value), = rows sql('DELETE FROM Cache WHERE rowid = ?', (rowid,)) try: value = self._disk.fetch(mode, filename, db_value, False) except IOError as error: if error.errno == errno.ENOENT: # Key was deleted before we could retrieve result. return default else: raise finally: if filename is not None: self._disk.remove(filename) if expire_time and tag: return value, db_expire_time, db_tag elif expire_time: return value, db_expire_time elif tag: return value, db_tag else: return value def __delitem__(self, key, retry=True): """Delete corresponding item for `key` from cache. Raises :exc:`Timeout` error when database timeout occurs and `retry` is `False` (default `True`). :param key: key matching item :param bool retry: retry if database timeout occurs (default True) :raises KeyError: if key is not found :raises Timeout: if database timeout occurs """ db_key, raw = self._disk.put(key) with self._transact(retry) as (sql, cleanup): rows = sql( 'SELECT rowid, filename FROM Cache' ' WHERE key = ? AND raw = ?' ' AND (expire_time IS NULL OR expire_time > ?)', (db_key, raw, time.time()), ).fetchall() if not rows: raise KeyError(key) (rowid, filename), = rows sql('DELETE FROM Cache WHERE rowid = ?', (rowid,)) cleanup(filename) return True def delete(self, key, retry=False): """Delete corresponding item for `key` from cache. Missing keys are ignored. Raises :exc:`Timeout` error when database timeout occurs and `retry` is `False` (default). :param key: key matching item :param bool retry: retry if database timeout occurs (default False) :return: True if item was deleted :raises Timeout: if database timeout occurs """ try: return self.__delitem__(key, retry=retry) except KeyError: return False def push(self, value, prefix=None, side='back', expire=None, read=False, tag=None, retry=False): """Push `value` onto `side` of queue identified by `prefix` in cache. When prefix is None, integer keys are used. Otherwise, string keys are used in the format "prefix-integer". Integer starts at 500 trillion. Defaults to pushing value on back of queue. Set side to 'front' to push value on front of queue. Side must be one of 'back' or 'front'. Operation is atomic. Concurrent operations will be serialized. When `read` is `True`, `value` should be a file-like object opened for reading in binary mode. Raises :exc:`Timeout` error when database timeout occurs and `retry` is `False` (default). See also `Cache.pull`. >>> cache = Cache() >>> print(cache.push('first value')) 500000000000000 >>> cache.get(500000000000000) 'first value' >>> print(cache.push('second value')) 500000000000001 >>> print(cache.push('third value', side='front')) 499999999999999 >>> cache.push(1234, prefix='userids') 'userids-500000000000000' :param value: value for item :param str prefix: key prefix (default None, key is integer) :param str side: either 'back' or 'front' (default 'back') :param float expire: seconds until the key expires (default None, no expiry) :param bool read: read value as bytes from file (default False) :param str tag: text to associate with key (default None) :param bool retry: retry if database timeout occurs (default False) :return: key for item in cache :raises Timeout: if database timeout occurs """ if prefix is None: min_key = 0 max_key = 999999999999999 else: min_key = prefix + '-000000000000000' max_key = prefix + '-999999999999999' now = time.time() raw = True expire_time = None if expire is None else now + expire size, mode, filename, db_value = self._disk.store(value, read) columns = (expire_time, tag, size, mode, filename, db_value) order = {'back': 'DESC', 'front': 'ASC'} select = ( 'SELECT key FROM Cache' ' WHERE ? < key AND key < ? AND raw = ?' ' ORDER BY key %s LIMIT 1' ) % order[side] with self._transact(retry, filename) as (sql, cleanup): rows = sql(select, (min_key, max_key, raw)).fetchall() if rows: (key,), = rows if prefix is not None: num = int(key[(key.rfind('-') + 1):]) else: num = key if side == 'back': num += 1 else: assert side == 'front' num -= 1 else: num = 500000000000000 if prefix is not None: db_key = '{0}-{1:015d}'.format(prefix, num) else: db_key = num self._row_insert(db_key, raw, now, columns) self._cull(now, sql, cleanup) return db_key def pull(self, prefix=None, default=(None, None), side='front', expire_time=False, tag=False, retry=False): """Pull key and value item pair from `side` of queue in cache. When prefix is None, integer keys are used. Otherwise, string keys are used in the format "prefix-integer". Integer starts at 500 trillion. If queue is empty, return default. Defaults to pulling key and value item pairs from front of queue. Set side to 'back' to pull from back of queue. Side must be one of 'front' or 'back'. Operation is atomic. Concurrent operations will be serialized. Raises :exc:`Timeout` error when database timeout occurs and `retry` is `False` (default). See also `Cache.push` and `Cache.get`. >>> cache = Cache() >>> cache.pull() (None, None) >>> for letter in 'abc': ... print(cache.push(letter)) 500000000000000 500000000000001 500000000000002 >>> key, value = cache.pull() >>> print(key) 500000000000000 >>> value 'a' >>> _, value = cache.pull(side='back') >>> value 'c' >>> cache.push(1234, 'userids') 'userids-500000000000000' >>> _, value = cache.pull('userids') >>> value 1234 :param str prefix: key prefix (default None, key is integer) :param default: value to return if key is missing (default (None, None)) :param str side: either 'front' or 'back' (default 'front') :param bool expire_time: if True, return expire_time in tuple (default False) :param bool tag: if True, return tag in tuple (default False) :param bool retry: retry if database timeout occurs (default False) :return: key and value item pair or default if queue is empty :raises Timeout: if database timeout occurs """ # Caution: Nearly identical code exists in Cache.peek if prefix is None: min_key = 0 max_key = 999999999999999 else: min_key = prefix + '-000000000000000' max_key = prefix + '-999999999999999' order = {'front': 'ASC', 'back': 'DESC'} select = ( 'SELECT rowid, key, expire_time, tag, mode, filename, value' ' FROM Cache WHERE ? < key AND key < ? AND raw = 1' ' ORDER BY key %s LIMIT 1' ) % order[side] if expire_time and tag: default = default, None, None elif expire_time or tag: default = default, None while True: while True: with self._transact(retry) as (sql, cleanup): rows = sql(select, (min_key, max_key)).fetchall() if not rows: return default (rowid, key, db_expire, db_tag, mode, name, db_value), = rows sql('DELETE FROM Cache WHERE rowid = ?', (rowid,)) if db_expire is not None and db_expire < time.time(): cleanup(name) else: break try: value = self._disk.fetch(mode, name, db_value, False) except IOError as error: if error.errno == errno.ENOENT: # Key was deleted before we could retrieve result. continue raise finally: if name is not None: self._disk.remove(name) break if expire_time and tag: return (key, value), db_expire, db_tag elif expire_time: return (key, value), db_expire elif tag: return (key, value), db_tag else: return key, value def peek(self, prefix=None, default=(None, None), side='front', expire_time=False, tag=False, retry=False): """Peek at key and value item pair from `side` of queue in cache. When prefix is None, integer keys are used. Otherwise, string keys are used in the format "prefix-integer". Integer starts at 500 trillion. If queue is empty, return default. Defaults to peeking at key and value item pairs from front of queue. Set side to 'back' to pull from back of queue. Side must be one of 'front' or 'back'. Expired items are deleted from cache. Operation is atomic. Concurrent operations will be serialized. Raises :exc:`Timeout` error when database timeout occurs and `retry` is `False` (default). See also `Cache.pull` and `Cache.push`. >>> cache = Cache() >>> for letter in 'abc': ... print(cache.push(letter)) 500000000000000 500000000000001 500000000000002 >>> key, value = cache.peek() >>> print(key) 500000000000000 >>> value 'a' >>> key, value = cache.peek(side='back') >>> print(key) 500000000000002 >>> value 'c' :param str prefix: key prefix (default None, key is integer) :param default: value to return if key is missing (default (None, None)) :param str side: either 'front' or 'back' (default 'front') :param bool expire_time: if True, return expire_time in tuple (default False) :param bool tag: if True, return tag in tuple (default False) :param bool retry: retry if database timeout occurs (default False) :return: key and value item pair or default if queue is empty :raises Timeout: if database timeout occurs """ # Caution: Nearly identical code exists in Cache.pull if prefix is None: min_key = 0 max_key = 999999999999999 else: min_key = prefix + '-000000000000000' max_key = prefix + '-999999999999999' order = {'front': 'ASC', 'back': 'DESC'} select = ( 'SELECT rowid, key, expire_time, tag, mode, filename, value' ' FROM Cache WHERE ? < key AND key < ? AND raw = 1' ' ORDER BY key %s LIMIT 1' ) % order[side] if expire_time and tag: default = default, None, None elif expire_time or tag: default = default, None while True: while True: with self._transact(retry) as (sql, cleanup): rows = sql(select, (min_key, max_key)).fetchall() if not rows: return default (rowid, key, db_expire, db_tag, mode, name, db_value), = rows if db_expire is not None and db_expire < time.time(): sql('DELETE FROM Cache WHERE rowid = ?', (rowid,)) cleanup(name) else: break try: value = self._disk.fetch(mode, name, db_value, False) except IOError as error: if error.errno == errno.ENOENT: # Key was deleted before we could retrieve result. continue raise finally: if name is not None: self._disk.remove(name) break if expire_time and tag: return (key, value), db_expire, db_tag elif expire_time: return (key, value), db_expire elif tag: return (key, value), db_tag else: return key, value def peekitem(self, last=True, expire_time=False, tag=False, retry=False): """Peek at key and value item pair in cache based on iteration order. Expired items are deleted from cache. Operation is atomic. Concurrent operations will be serialized. Raises :exc:`Timeout` error when database timeout occurs and `retry` is `False` (default). >>> cache = Cache() >>> for num, letter in enumerate('abc'): ... cache[letter] = num >>> cache.peekitem() ('c', 2) >>> cache.peekitem(last=False) ('a', 0) :param bool last: last item in iteration order (default True) :param bool expire_time: if True, return expire_time in tuple (default False) :param bool tag: if True, return tag in tuple (default False) :param bool retry: retry if database timeout occurs (default False) :return: key and value item pair :raises KeyError: if cache is empty :raises Timeout: if database timeout occurs """ order = ('ASC', 'DESC') select = ( 'SELECT rowid, key, raw, expire_time, tag, mode, filename, value' ' FROM Cache ORDER BY rowid %s LIMIT 1' ) % order[last] while True: while True: with self._transact(retry) as (sql, cleanup): rows = sql(select).fetchall() if not rows: raise KeyError('dictionary is empty') (rowid, db_key, raw, db_expire, db_tag, mode, name, db_value), = rows if db_expire is not None and db_expire < time.time(): sql('DELETE FROM Cache WHERE rowid = ?', (rowid,)) cleanup(name) else: break key = self._disk.get(db_key, raw) try: value = self._disk.fetch(mode, name, db_value, False) except IOError as error: if error.errno == errno.ENOENT: # Key was deleted before we could retrieve result. continue raise break if expire_time and tag: return (key, value), db_expire, db_tag elif expire_time: return (key, value), db_expire elif tag: return (key, value), db_tag else: return key, value def memoize(self, name=None, typed=False, expire=None, tag=None): """Memoizing cache decorator. Decorator to wrap callable with memoizing function using cache. Repeated calls with the same arguments will lookup result in cache and avoid function evaluation. If name is set to None (default), the callable name will be determined automatically. When expire is set to zero, function results will not be set in the cache. Cache lookups still occur, however. Read :doc:`case-study-landing-page-caching` for example usage. If typed is set to True, function arguments of different types will be cached separately. For example, f(3) and f(3.0) will be treated as distinct calls with distinct results. The original underlying function is accessible through the __wrapped__ attribute. This is useful for introspection, for bypassing the cache, or for rewrapping the function with a different cache. >>> from diskcache import Cache >>> cache = Cache() >>> @cache.memoize(expire=1, tag='fib') ... def fibonacci(number): ... if number == 0: ... return 0 ... elif number == 1: ... return 1 ... else: ... return fibonacci(number - 1) + fibonacci(number - 2) >>> print(fibonacci(100)) 354224848179261915075 An additional `__cache_key__` attribute can be used to generate the cache key used for the given arguments. >>> key = fibonacci.__cache_key__(100) >>> print(cache[key]) 354224848179261915075 Remember to call memoize when decorating a callable. If you forget, then a TypeError will occur. Note the lack of parenthenses after memoize below: >>> @cache.memoize ... def test(): ... pass Traceback (most recent call last): ... TypeError: name cannot be callable :param cache: cache to store callable arguments and return values :param str name: name given for callable (default None, automatic) :param bool typed: cache different types separately (default False) :param float expire: seconds until arguments expire (default None, no expiry) :param str tag: text to associate with arguments (default None) :return: callable decorator """ # Caution: Nearly identical code exists in DjangoCache.memoize if callable(name): raise TypeError('name cannot be callable') def decorator(func): "Decorator created by memoize() for callable `func`." base = (full_name(func),) if name is None else (name,) @ft.wraps(func) def wrapper(*args, **kwargs): "Wrapper for callable to cache arguments and return values." key = wrapper.__cache_key__(*args, **kwargs) result = self.get(key, default=ENOVAL, retry=True) if result is ENOVAL: result = func(*args, **kwargs) if expire is None or expire > 0: self.set(key, result, expire, tag=tag, retry=True) return result def __cache_key__(*args, **kwargs): "Make key for cache given function arguments." return args_to_key(base, args, kwargs, typed) wrapper.__cache_key__ = __cache_key__ return wrapper return decorator def check(self, fix=False, retry=False): """Check database and file system consistency. Intended for use in testing and post-mortem error analysis. While checking the Cache table for consistency, a writer lock is held on the database. The lock blocks other cache clients from writing to the database. For caches with many file references, the lock may be held for a long time. For example, local benchmarking shows that a cache with 1,000 file references takes ~60ms to check. Raises :exc:`Timeout` error when database timeout occurs and `retry` is `False` (default). :param bool fix: correct inconsistencies :param bool retry: retry if database timeout occurs (default False) :return: list of warnings :raises Timeout: if database timeout occurs """ # pylint: disable=access-member-before-definition,W0201 with warnings.catch_warnings(record=True) as warns: sql = self._sql # Check integrity of database. rows = sql('PRAGMA integrity_check').fetchall() if len(rows) != 1 or rows[0][0] != u'ok': for message, in rows: warnings.warn(message) if fix: sql('VACUUM') with self._transact(retry) as (sql, _): # Check Cache.filename against file system. filenames = set() select = ( 'SELECT rowid, size, filename FROM Cache' ' WHERE filename IS NOT NULL' ) rows = sql(select).fetchall() for rowid, size, filename in rows: full_path = op.join(self._directory, filename) filenames.add(full_path) if op.exists(full_path): real_size = op.getsize(full_path) if size != real_size: message = 'wrong file size: %s, %d != %d' args = full_path, real_size, size warnings.warn(message % args) if fix: sql('UPDATE Cache SET size = ?' ' WHERE rowid = ?', (real_size, rowid), ) continue warnings.warn('file not found: %s' % full_path) if fix: sql('DELETE FROM Cache WHERE rowid = ?', (rowid,)) # Check file system against Cache.filename. for dirpath, _, files in os.walk(self._directory): paths = [op.join(dirpath, filename) for filename in files] error = set(paths) - filenames for full_path in error: if DBNAME in full_path: continue message = 'unknown file: %s' % full_path warnings.warn(message, UnknownFileWarning) if fix: os.remove(full_path) # Check for empty directories. for dirpath, dirs, files in os.walk(self._directory): if not (dirs or files): message = 'empty directory: %s' % dirpath warnings.warn(message, EmptyDirWarning) if fix: os.rmdir(dirpath) # Check Settings.count against count of Cache rows. self.reset('count') (count,), = sql('SELECT COUNT(key) FROM Cache').fetchall() if self.count != count: message = 'Settings.count != COUNT(Cache.key); %d != %d' warnings.warn(message % (self.count, count)) if fix: sql('UPDATE Settings SET value = ? WHERE key = ?', (count, 'count'), ) # Check Settings.size against sum of Cache.size column. self.reset('size') select_size = 'SELECT COALESCE(SUM(size), 0) FROM Cache' (size,), = sql(select_size).fetchall() if self.size != size: message = 'Settings.size != SUM(Cache.size); %d != %d' warnings.warn(message % (self.size, size)) if fix: sql('UPDATE Settings SET value = ? WHERE key =?', (size, 'size'), ) return warns def create_tag_index(self): """Create tag index on cache database. It is better to initialize cache with `tag_index=True` than use this. :raises Timeout: if database timeout occurs """ sql = self._sql sql('CREATE INDEX IF NOT EXISTS Cache_tag_rowid ON Cache(tag, rowid)') self.reset('tag_index', 1) def drop_tag_index(self): """Drop tag index on cache database. :raises Timeout: if database timeout occurs """ sql = self._sql sql('DROP INDEX IF EXISTS Cache_tag_rowid') self.reset('tag_index', 0) def evict(self, tag, retry=False): """Remove items with matching `tag` from cache. Removing items is an iterative process. In each iteration, a subset of items is removed. Concurrent writes may occur between iterations. If a :exc:`Timeout` occurs, the first element of the exception's `args` attribute will be the number of items removed before the exception occurred. Raises :exc:`Timeout` error when database timeout occurs and `retry` is `False` (default). :param str tag: tag identifying items :param bool retry: retry if database timeout occurs (default False) :return: count of rows removed :raises Timeout: if database timeout occurs """ select = ( 'SELECT rowid, filename FROM Cache' ' WHERE tag = ? AND rowid > ?' ' ORDER BY rowid LIMIT ?' ) args = [tag, 0, 100] return self._select_delete(select, args, arg_index=1, retry=retry) def expire(self, now=None, retry=False): """Remove expired items from cache. Removing items is an iterative process. In each iteration, a subset of items is removed. Concurrent writes may occur between iterations. If a :exc:`Timeout` occurs, the first element of the exception's `args` attribute will be the number of items removed before the exception occurred. Raises :exc:`Timeout` error when database timeout occurs and `retry` is `False` (default). :param float now: current time (default None, ``time.time()`` used) :param bool retry: retry if database timeout occurs (default False) :return: count of items removed :raises Timeout: if database timeout occurs """ select = ( 'SELECT rowid, expire_time, filename FROM Cache' ' WHERE ? < expire_time AND expire_time < ?' ' ORDER BY expire_time LIMIT ?' ) args = [0, now or time.time(), 100] return self._select_delete(select, args, row_index=1, retry=retry) def cull(self, retry=False): """Cull items from cache until volume is less than size limit. Removing items is an iterative process. In each iteration, a subset of items is removed. Concurrent writes may occur between iterations. If a :exc:`Timeout` occurs, the first element of the exception's `args` attribute will be the number of items removed before the exception occurred. Raises :exc:`Timeout` error when database timeout occurs and `retry` is `False` (default). :param bool retry: retry if database timeout occurs (default False) :return: count of items removed :raises Timeout: if database timeout occurs """ now = time.time() # Remove expired items. count = self.expire(now) # Remove items by policy. select_policy = EVICTION_POLICY[self.eviction_policy]['cull'] if select_policy is None: return select_filename = select_policy.format(fields='filename', now=now) try: while self.volume() > self.size_limit: with self._transact(retry) as (sql, cleanup): rows = sql(select_filename, (10,)).fetchall() if not rows: break count += len(rows) delete = ( 'DELETE FROM Cache WHERE rowid IN (%s)' % select_policy.format(fields='rowid', now=now) ) sql(delete, (10,)) for filename, in rows: cleanup(filename) except Timeout: raise Timeout(count) from None return count def clear(self, retry=False): """Remove all items from cache. Removing items is an iterative process. In each iteration, a subset of items is removed. Concurrent writes may occur between iterations. If a :exc:`Timeout` occurs, the first element of the exception's `args` attribute will be the number of items removed before the exception occurred. Raises :exc:`Timeout` error when database timeout occurs and `retry` is `False` (default). :param bool retry: retry if database timeout occurs (default False) :return: count of rows removed :raises Timeout: if database timeout occurs """ select = ( 'SELECT rowid, filename FROM Cache' ' WHERE rowid > ?' ' ORDER BY rowid LIMIT ?' ) args = [0, 100] return self._select_delete(select, args, retry=retry) def _select_delete(self, select, args, row_index=0, arg_index=0, retry=False): count = 0 delete = 'DELETE FROM Cache WHERE rowid IN (%s)' try: while True: with self._transact(retry) as (sql, cleanup): rows = sql(select, args).fetchall() if not rows: break count += len(rows) sql(delete % ','.join(str(row[0]) for row in rows)) for row in rows: args[arg_index] = row[row_index] cleanup(row[-1]) except Timeout: raise Timeout(count) from None return count def iterkeys(self, reverse=False): """Iterate Cache keys in database sort order. >>> cache = Cache() >>> for key in [4, 1, 3, 0, 2]: ... cache[key] = key >>> list(cache.iterkeys()) [0, 1, 2, 3, 4] >>> list(cache.iterkeys(reverse=True)) [4, 3, 2, 1, 0] :param bool reverse: reverse sort order (default False) :return: iterator of Cache keys """ sql = self._sql limit = 100 _disk_get = self._disk.get if reverse: select = ( 'SELECT key, raw FROM Cache' ' ORDER BY key DESC, raw DESC LIMIT 1' ) iterate = ( 'SELECT key, raw FROM Cache' ' WHERE key = ? AND raw < ? OR key < ?' ' ORDER BY key DESC, raw DESC LIMIT ?' ) else: select = ( 'SELECT key, raw FROM Cache' ' ORDER BY key ASC, raw ASC LIMIT 1' ) iterate = ( 'SELECT key, raw FROM Cache' ' WHERE key = ? AND raw > ? OR key > ?' ' ORDER BY key ASC, raw ASC LIMIT ?' ) row = sql(select).fetchall() if row: (key, raw), = row else: return yield _disk_get(key, raw) while True: rows = sql(iterate, (key, raw, key, limit)).fetchall() if not rows: break for key, raw in rows: yield _disk_get(key, raw) def _iter(self, ascending=True): sql = self._sql rows = sql('SELECT MAX(rowid) FROM Cache').fetchall() (max_rowid,), = rows yield # Signal ready. if max_rowid is None: return bound = max_rowid + 1 limit = 100 _disk_get = self._disk.get rowid = 0 if ascending else bound select = ( 'SELECT rowid, key, raw FROM Cache' ' WHERE ? < rowid AND rowid < ?' ' ORDER BY rowid %s LIMIT ?' ) % ('ASC' if ascending else 'DESC') while True: if ascending: args = (rowid, bound, limit) else: args = (0, rowid, limit) rows = sql(select, args).fetchall() if not rows: break for rowid, key, raw in rows: yield _disk_get(key, raw) def __iter__(self): "Iterate keys in cache including expired items." iterator = self._iter() next(iterator) return iterator def __reversed__(self): "Reverse iterate keys in cache including expired items." iterator = self._iter(ascending=False) next(iterator) return iterator def stats(self, enable=True, reset=False): """Return cache statistics hits and misses. :param bool enable: enable collecting statistics (default True) :param bool reset: reset hits and misses to 0 (default False) :return: (hits, misses) """ # pylint: disable=E0203,W0201 result = (self.reset('hits'), self.reset('misses')) if reset: self.reset('hits', 0) self.reset('misses', 0) self.reset('statistics', enable) return result def volume(self): """Return estimated total size of cache on disk. :return: size in bytes """ (page_count,), = self._sql('PRAGMA page_count').fetchall() total_size = self._page_size * page_count + self.reset('size') return total_size def close(self): """Close database connection. """ con = getattr(self._local, 'con', None) if con is None: return try: con.commit() except (BaseException, Exception): pass con.close() try: delattr(self._local, 'con') except AttributeError: pass def __enter__(self): # Create connection in thread. # pylint: disable=unused-variable connection = self._con # noqa return self def __exit__(self, *exception): self.close() def __len__(self): "Count of items in cache including expired items." return self.reset('count') def __getstate__(self): return (self.directory, self.timeout, type(self.disk)) def __setstate__(self, state): self.__init__(*state) def reset(self, key, value=ENOVAL, update=True): """Reset `key` and `value` item from Settings table. Use `reset` to update the value of Cache settings correctly. Cache settings are stored in the Settings table of the SQLite database. If `update` is ``False`` then no attempt is made to update the database. If `value` is not given, it is reloaded from the Settings table. Otherwise, the Settings table is updated. Settings with the ``disk_`` prefix correspond to Disk attributes. Updating the value will change the unprefixed attribute on the associated Disk instance. Settings with the ``sqlite_`` prefix correspond to SQLite pragmas. Updating the value will execute the corresponding PRAGMA statement. SQLite PRAGMA statements may be executed before the Settings table exists in the database by setting `update` to ``False``. :param str key: Settings key for item :param value: value for item (optional) :param bool update: update database Settings table (default True) :return: updated value for item :raises Timeout: if database timeout occurs """ sql = self._sql sql_retry = self._sql_retry if value is ENOVAL: select = 'SELECT value FROM Settings WHERE key = ?' (value,), = sql_retry(select, (key,)).fetchall() setattr(self, key, value) return value if update: statement = 'UPDATE Settings SET value = ? WHERE key = ?' sql_retry(statement, (value, key)) if key.startswith('sqlite_'): pragma = key[7:] # 2016-02-17 GrantJ - PRAGMA and isolation_level=None # don't always play nicely together. Retry setting the # PRAGMA. I think some PRAGMA statements expect to # immediately take an EXCLUSIVE lock on the database. I # can't find any documentation for this but without the # retry, stress will intermittently fail with multiple # processes. # 2018-11-05 GrantJ - Avoid setting pragma values that # are already set. Pragma settings like auto_vacuum and # journal_mode can take a long time or may not work after # tables have been created. start = time.time() while True: try: try: (old_value,), = sql('PRAGMA %s' % (pragma)).fetchall() update = old_value != value except ValueError: update = True if update: sql('PRAGMA %s = %s' % (pragma, value)).fetchall() break except sqlite3.OperationalError as exc: if str(exc) != 'database is locked': raise diff = time.time() - start if diff > 60: raise time.sleep(1) elif key.startswith('disk_'): attr = key[5:] setattr(self._disk, attr, value) setattr(self, key, value) return value