/usr/lib/python3/dist-packages/beaker/util.py is in python3-beaker 1.6.4-2.
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try:
import _thread as _thread
import threading as _threading
except ImportError:
import _dummy_thread as _thread
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
py3k = getattr(sys, 'py3kwarning', False) or sys.version_info >= (3, 0)
py24 = sys.version_info < (2, 5)
jython = sys.platform.startswith('java')
if py3k or jython:
import pickle
else:
import pickle as pickle
from beaker.converters import asbool
from beaker import exceptions
from threading import local as _tlocal
__all__ = ["ThreadLocal", "WeakValuedRegistry", "SyncDict", "encoded_path",
"verify_directory"]
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 = inspect.getargspec(func)
if args and args[0] and args[0][0] in ('self', 'cls'):
return True
else:
return False
def warn(msg, stacklevel=3):
"""Issue a warning."""
if isinstance(msg, str):
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 = _thread.allocate_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 py3k:
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, str) 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, type(None)), "data_dir must be a string "
"referring to a directory."),
('lock_dir', (str, type(None)), "lock_dir must be a string referring to a "
"directory."),
('type', (str, type(None)), "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, type(None)), "Cookie domain must be a "
"string."),
('cookie_path', (str, type(None)), "Cookie path must be a "
"string."),
('id', (str,), "Session id must be a string."),
('key', (str,), "Session key must be a string."),
('secret', (str, type(None)), "Session secret must be a string."),
('validate_key', (str, type(None)), "Session encrypt_key must be "
"a string."),
('encrypt_key', (str, type(None)), "Session validate_key must be "
"a string."),
('secure', (bool, type(None)), "Session secure must be a boolean."),
('httponly', (bool, type(None)), "Session httponly must be a boolean."),
('timeout', (int, type(None)), "Session timeout must be an "
"integer."),
('auto', (bool, type(None)), "Session is created if accessed."),
('webtest_varname', (str, type(None)), "Session varname 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)
return opts
def coerce_cache_params(params):
rules = [
('data_dir', (str, type(None)), "data_dir must be a string "
"referring to a directory."),
('lock_dir', (str, type(None)), "lock_dir must be a string referring to a "
"directory."),
('type', (str,), "Cache type must be a string."),
('enabled', (bool, type(None)), "enabled must be true/false "
"if present."),
('expire', (int, type(None)), "expire must be an integer representing "
"how many seconds the cache is valid for"),
('regions', (list, tuple, type(None)), "Regions must be a "
"comma seperated list of valid regions"),
('key_length', (int, type(None)), "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', 250))
region_prefix = '%s.' % region
region_len = len(region_prefix)
for key in list(options.keys()):
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'):
kls = func.__self__.__class__
func = func.__func__
if kls:
return '%s.%s' % (kls.__module__, kls.__name__)
else:
return '%s|%s' % (inspect.getsourcefile(func), func.__name__)
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