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Direktori : /proc/thread-self/root/proc/self/root/opt/alt/python37/lib/python3.7/site-packages/beaker/ |
Current File : //proc/thread-self/root/proc/self/root/opt/alt/python37/lib/python3.7/site-packages/beaker/util.py |
"""Beaker utilities""" import hashlib import socket import binascii from ._compat import PY2, string_type, unicode_text, NoneType, dictkeyslist, im_class, im_func, pickle, func_signature, \ default_im_func try: import threading as _threading except ImportError: import dummy_threading as _threading from datetime import datetime, timedelta import os import re import string import types import weakref import warnings import sys import inspect import json import zlib from beaker.converters import asbool from beaker import exceptions from threading import local as _tlocal DEFAULT_CACHE_KEY_LENGTH = 250 __all__ = ["ThreadLocal", "WeakValuedRegistry", "SyncDict", "encoded_path", "verify_directory", "serialize", "deserialize"] def function_named(fn, name): """Return a function with a given __name__. Will assign to __name__ and return the original function if possible on the Python implementation, otherwise a new function will be constructed. """ fn.__name__ = name return fn def skip_if(predicate, reason=None): """Skip a test if predicate is true.""" reason = reason or predicate.__name__ from nose import SkipTest def decorate(fn): fn_name = fn.__name__ def maybe(*args, **kw): if predicate(): msg = "'%s' skipped: %s" % ( fn_name, reason) raise SkipTest(msg) else: return fn(*args, **kw) return function_named(maybe, fn_name) return decorate def assert_raises(except_cls, callable_, *args, **kw): """Assert the given exception is raised by the given function + arguments.""" try: callable_(*args, **kw) success = False except except_cls: success = True # assert outside the block so it works for AssertionError too ! assert success, "Callable did not raise an exception" def verify_directory(dir): """verifies and creates a directory. tries to ignore collisions with other threads and processes.""" tries = 0 while not os.access(dir, os.F_OK): try: tries += 1 os.makedirs(dir) except: if tries > 5: raise def has_self_arg(func): """Return True if the given function has a 'self' argument.""" args = list(func_signature(func).parameters) if args and args[0] in ('self', 'cls'): return True else: return False def warn(msg, stacklevel=3): """Issue a warning.""" if isinstance(msg, string_type): warnings.warn(msg, exceptions.BeakerWarning, stacklevel=stacklevel) else: warnings.warn(msg, stacklevel=stacklevel) def deprecated(message): def wrapper(fn): def deprecated_method(*args, **kargs): warnings.warn(message, DeprecationWarning, 2) return fn(*args, **kargs) # TODO: use decorator ? functools.wrapper ? deprecated_method.__name__ = fn.__name__ deprecated_method.__doc__ = "%s\n\n%s" % (message, fn.__doc__) return deprecated_method return wrapper class ThreadLocal(object): """stores a value on a per-thread basis""" __slots__ = '_tlocal' def __init__(self): self._tlocal = _tlocal() def put(self, value): self._tlocal.value = value def has(self): return hasattr(self._tlocal, 'value') def get(self, default=None): return getattr(self._tlocal, 'value', default) def remove(self): del self._tlocal.value class SyncDict(object): """ An efficient/threadsafe singleton map algorithm, a.k.a. "get a value based on this key, and create if not found or not valid" paradigm: exists && isvalid ? get : create Designed to work with weakref dictionaries to expect items to asynchronously disappear from the dictionary. Use python 2.3.3 or greater ! a major bug was just fixed in Nov. 2003 that was driving me nuts with garbage collection/weakrefs in this section. """ def __init__(self): self.mutex = _threading.Lock() self.dict = {} def get(self, key, createfunc, *args, **kwargs): try: if key in self.dict: return self.dict[key] else: return self.sync_get(key, createfunc, *args, **kwargs) except KeyError: return self.sync_get(key, createfunc, *args, **kwargs) def sync_get(self, key, createfunc, *args, **kwargs): self.mutex.acquire() try: try: if key in self.dict: return self.dict[key] else: return self._create(key, createfunc, *args, **kwargs) except KeyError: return self._create(key, createfunc, *args, **kwargs) finally: self.mutex.release() def _create(self, key, createfunc, *args, **kwargs): self[key] = obj = createfunc(*args, **kwargs) return obj def has_key(self, key): return key in self.dict def __contains__(self, key): return self.dict.__contains__(key) def __getitem__(self, key): return self.dict.__getitem__(key) def __setitem__(self, key, value): self.dict.__setitem__(key, value) def __delitem__(self, key): return self.dict.__delitem__(key) def clear(self): self.dict.clear() class WeakValuedRegistry(SyncDict): def __init__(self): self.mutex = _threading.RLock() self.dict = weakref.WeakValueDictionary() sha1 = None def encoded_path(root, identifiers, extension=".enc", depth=3, digest_filenames=True): """Generate a unique file-accessible path from the given list of identifiers starting at the given root directory.""" ident = "_".join(identifiers) global sha1 if sha1 is None: from beaker.crypto import sha1 if digest_filenames: if isinstance(ident, unicode_text): ident = sha1(ident.encode('utf-8')).hexdigest() else: ident = sha1(ident).hexdigest() ident = os.path.basename(ident) tokens = [] for d in range(1, depth): tokens.append(ident[0:d]) dir = os.path.join(root, *tokens) verify_directory(dir) return os.path.join(dir, ident + extension) def asint(obj): if isinstance(obj, int): return obj elif isinstance(obj, string_type) and re.match(r'^\d+$', obj): return int(obj) else: raise Exception("This is not a proper int") def verify_options(opt, types, error): if not isinstance(opt, types): if not isinstance(types, tuple): types = (types,) coerced = False for typ in types: try: if typ in (list, tuple): opt = [x.strip() for x in opt.split(',')] else: if typ == bool: typ = asbool elif typ == int: typ = asint elif typ in (timedelta, datetime): if not isinstance(opt, typ): raise Exception("%s requires a timedelta type", typ) opt = typ(opt) coerced = True except: pass if coerced: break if not coerced: raise Exception(error) elif isinstance(opt, str) and not opt.strip(): raise Exception("Empty strings are invalid for: %s" % error) return opt def verify_rules(params, ruleset): for key, types, message in ruleset: if key in params: params[key] = verify_options(params[key], types, message) return params def coerce_session_params(params): rules = [ ('data_dir', (str, NoneType), "data_dir must be a string referring to a directory."), ('lock_dir', (str, NoneType), "lock_dir must be a string referring to a directory."), ('type', (str, NoneType), "Session type must be a string."), ('cookie_expires', (bool, datetime, timedelta, int), "Cookie expires was not a boolean, datetime, int, or timedelta instance."), ('cookie_domain', (str, NoneType), "Cookie domain must be a string."), ('cookie_path', (str, NoneType), "Cookie path must be a string."), ('id', (str,), "Session id must be a string."), ('key', (str,), "Session key must be a string."), ('secret', (str, NoneType), "Session secret must be a string."), ('validate_key', (str, NoneType), "Session encrypt_key must be a string."), ('encrypt_key', (str, NoneType), "Session validate_key must be a string."), ('encrypt_nonce_bits', (int, NoneType), "Session encrypt_nonce_bits must be a number"), ('secure', (bool, NoneType), "Session secure must be a boolean."), ('httponly', (bool, NoneType), "Session httponly must be a boolean."), ('timeout', (int, NoneType), "Session timeout must be an integer."), ('save_accessed_time', (bool, NoneType), "Session save_accessed_time must be a boolean (defaults to true)."), ('auto', (bool, NoneType), "Session is created if accessed."), ('webtest_varname', (str, NoneType), "Session varname must be a string."), ('data_serializer', (str,), "data_serializer must be a string.") ] opts = verify_rules(params, rules) cookie_expires = opts.get('cookie_expires') if cookie_expires and isinstance(cookie_expires, int) and \ not isinstance(cookie_expires, bool): opts['cookie_expires'] = timedelta(seconds=cookie_expires) if opts.get('timeout') is not None and not opts.get('save_accessed_time', True): raise Exception("save_accessed_time must be true to use timeout") return opts def coerce_cache_params(params): rules = [ ('data_dir', (str, NoneType), "data_dir must be a string referring to a directory."), ('lock_dir', (str, NoneType), "lock_dir must be a string referring to a directory."), ('type', (str,), "Cache type must be a string."), ('enabled', (bool, NoneType), "enabled must be true/false if present."), ('expire', (int, NoneType), "expire must be an integer representing how many seconds the cache is valid for"), ('regions', (list, tuple, NoneType), "Regions must be a comma separated list of valid regions"), ('key_length', (int, NoneType), "key_length must be an integer which indicates the longest a key can be before hashing"), ] return verify_rules(params, rules) def coerce_memcached_behaviors(behaviors): rules = [ ('cas', (bool, int), 'cas must be a boolean or an integer'), ('no_block', (bool, int), 'no_block must be a boolean or an integer'), ('receive_timeout', (int,), 'receive_timeout must be an integer'), ('send_timeout', (int,), 'send_timeout must be an integer'), ('ketama_hash', (str,), 'ketama_hash must be a string designating a valid hashing strategy option'), ('_poll_timeout', (int,), '_poll_timeout must be an integer'), ('auto_eject', (bool, int), 'auto_eject must be an integer'), ('retry_timeout', (int,), 'retry_timeout must be an integer'), ('_sort_hosts', (bool, int), '_sort_hosts must be an integer'), ('_io_msg_watermark', (int,), '_io_msg_watermark must be an integer'), ('ketama', (bool, int), 'ketama must be a boolean or an integer'), ('ketama_weighted', (bool, int), 'ketama_weighted must be a boolean or an integer'), ('_io_key_prefetch', (int, bool), '_io_key_prefetch must be a boolean or an integer'), ('_hash_with_prefix_key', (bool, int), '_hash_with_prefix_key must be a boolean or an integer'), ('tcp_nodelay', (bool, int), 'tcp_nodelay must be a boolean or an integer'), ('failure_limit', (int,), 'failure_limit must be an integer'), ('buffer_requests', (bool, int), 'buffer_requests must be a boolean or an integer'), ('_socket_send_size', (int,), '_socket_send_size must be an integer'), ('num_replicas', (int,), 'num_replicas must be an integer'), ('remove_failed', (int,), 'remove_failed must be an integer'), ('_noreply', (bool, int), '_noreply must be a boolean or an integer'), ('_io_bytes_watermark', (int,), '_io_bytes_watermark must be an integer'), ('_socket_recv_size', (int,), '_socket_recv_size must be an integer'), ('distribution', (str,), 'distribution must be a string designating a valid distribution option'), ('connect_timeout', (int,), 'connect_timeout must be an integer'), ('hash', (str,), 'hash must be a string designating a valid hashing option'), ('verify_keys', (bool, int), 'verify_keys must be a boolean or an integer'), ('dead_timeout', (int,), 'dead_timeout must be an integer') ] return verify_rules(behaviors, rules) def parse_cache_config_options(config, include_defaults=True): """Parse configuration options and validate for use with the CacheManager""" # Load default cache options if include_defaults: options = dict(type='memory', data_dir=None, expire=None, log_file=None) else: options = {} for key, val in config.items(): if key.startswith('beaker.cache.'): options[key[13:]] = val if key.startswith('cache.'): options[key[6:]] = val coerce_cache_params(options) # Set cache to enabled if not turned off if 'enabled' not in options and include_defaults: options['enabled'] = True # Configure region dict if regions are available regions = options.pop('regions', None) if regions: region_configs = {} for region in regions: if not region: # ensure region name is valid continue # Setup the default cache options region_options = dict(data_dir=options.get('data_dir'), lock_dir=options.get('lock_dir'), type=options.get('type'), enabled=options['enabled'], expire=options.get('expire'), key_length=options.get('key_length', DEFAULT_CACHE_KEY_LENGTH)) region_prefix = '%s.' % region region_len = len(region_prefix) for key in dictkeyslist(options): if key.startswith(region_prefix): region_options[key[region_len:]] = options.pop(key) coerce_cache_params(region_options) region_configs[region] = region_options options['cache_regions'] = region_configs return options def parse_memcached_behaviors(config): """Parse behavior options and validate for use with pylibmc client/PylibMCNamespaceManager, or potentially other memcached NamespaceManagers that support behaviors""" behaviors = {} for key, val in config.items(): if key.startswith('behavior.'): behaviors[key[9:]] = val coerce_memcached_behaviors(behaviors) return behaviors def func_namespace(func): """Generates a unique namespace for a function""" kls = None if hasattr(func, 'im_func') or hasattr(func, '__func__'): kls = im_class(func) func = im_func(func) if kls: return '%s.%s' % (kls.__module__, kls.__name__) else: return '%s|%s' % (inspect.getsourcefile(func), func.__name__) class PickleSerializer(object): def loads(self, data_string): return pickle.loads(data_string) def dumps(self, data): return pickle.dumps(data, 2) class JsonSerializer(object): def loads(self, data_string): return json.loads(zlib.decompress(data_string).decode('utf-8')) def dumps(self, data): return zlib.compress(json.dumps(data).encode('utf-8')) def serialize(data, method): if method == 'json': serializer = JsonSerializer() else: serializer = PickleSerializer() return serializer.dumps(data) def deserialize(data_string, method): if method == 'json': serializer = JsonSerializer() else: serializer = PickleSerializer() return serializer.loads(data_string) def machine_identifier(): machine_hash = hashlib.md5() if not PY2: machine_hash.update(socket.gethostname().encode()) else: machine_hash.update(socket.gethostname()) return binascii.hexlify(machine_hash.digest()[0:3]).decode('ascii') def safe_write (filepath, contents): if os.name == 'posix': tempname = '%s.temp' % (filepath) fh = open(tempname, 'wb') fh.write(contents) fh.close() os.rename(tempname, filepath) else: fh = open(filepath, 'wb') fh.write(contents) fh.close()