forked-synapse/synapse/util/caches/descriptors.py

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# Copyright 2015, 2016 OpenMarket Ltd
# Copyright 2018 New Vector Ltd
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
import enum
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import functools
import inspect
import logging
from typing import (
Any,
Callable,
Dict,
Generic,
Hashable,
Iterable,
Mapping,
Optional,
Sequence,
Tuple,
Type,
TypeVar,
Union,
cast,
)
from weakref import WeakValueDictionary
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from twisted.internet import defer
from twisted.python.failure import Failure
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from synapse.logging.context import make_deferred_yieldable, preserve_fn
from synapse.util import unwrapFirstError
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from synapse.util.caches.deferred_cache import DeferredCache
from synapse.util.caches.lrucache import LruCache
logger = logging.getLogger(__name__)
CacheKey = Union[Tuple, Any]
F = TypeVar("F", bound=Callable[..., Any])
class _CachedFunction(Generic[F]):
invalidate: Any = None
invalidate_all: Any = None
prefill: Any = None
cache: Any = None
num_args: Any = None
__name__: str
# Note: This function signature is actually fiddled with by the synapse mypy
# plugin to a) make it a bound method, and b) remove any `cache_context` arg.
__call__: F
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class _CacheDescriptorBase:
def __init__(
self,
orig: Callable[..., Any],
num_args: Optional[int],
cache_context: bool = False,
):
self.orig = orig
arg_spec = inspect.getfullargspec(orig)
all_args = arg_spec.args
if "cache_context" in all_args:
if not cache_context:
raise ValueError(
"Cannot have a 'cache_context' arg without setting"
" cache_context=True"
)
elif cache_context:
raise ValueError(
"Cannot have cache_context=True without having an arg"
" named `cache_context`"
)
if num_args is None:
num_args = len(all_args) - 1
if cache_context:
num_args -= 1
if len(all_args) < num_args + 1:
raise Exception(
"Not enough explicit positional arguments to key off for %r: "
"got %i args, but wanted %i. (@cached cannot key off *args or "
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"**kwargs)" % (orig.__name__, len(all_args), num_args)
)
self.num_args = num_args
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# list of the names of the args used as the cache key
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self.arg_names = all_args[1 : num_args + 1]
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# self.arg_defaults is a map of arg name to its default value for each
# argument that has a default value
if arg_spec.defaults:
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self.arg_defaults = dict(
zip(all_args[-len(arg_spec.defaults) :], arg_spec.defaults)
)
else:
self.arg_defaults = {}
if "cache_context" in self.arg_names:
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raise Exception("cache_context arg cannot be included among the cache keys")
self.add_cache_context = cache_context
self.cache_key_builder = get_cache_key_builder(
self.arg_names, self.arg_defaults
)
class _LruCachedFunction(Generic[F]):
cache: LruCache[CacheKey, Any]
__call__: F
def lru_cache(
max_entries: int = 1000,
cache_context: bool = False,
) -> Callable[[F], _LruCachedFunction[F]]:
"""A method decorator that applies a memoizing cache around the function.
This is more-or-less a drop-in equivalent to functools.lru_cache, although note
that the signature is slightly different.
The main differences with functools.lru_cache are:
(a) the size of the cache can be controlled via the cache_factor mechanism
(b) the wrapped function can request a "cache_context" which provides a
callback mechanism to indicate that the result is no longer valid
(c) prometheus metrics are exposed automatically.
The function should take zero or more arguments, which are used as the key for the
cache. Single-argument functions use that argument as the cache key; otherwise the
arguments are built into a tuple.
Cached functions can be "chained" (i.e. a cached function can call other cached
functions and get appropriately invalidated when they called caches are
invalidated) by adding a special "cache_context" argument to the function
and passing that as a kwarg to all caches called. For example:
@lru_cache(cache_context=True)
def foo(self, key, cache_context):
r1 = self.bar1(key, on_invalidate=cache_context.invalidate)
r2 = self.bar2(key, on_invalidate=cache_context.invalidate)
return r1 + r2
The wrapped function also has a 'cache' property which offers direct access to the
underlying LruCache.
"""
def func(orig: F) -> _LruCachedFunction[F]:
desc = LruCacheDescriptor(
orig,
max_entries=max_entries,
cache_context=cache_context,
)
return cast(_LruCachedFunction[F], desc)
return func
class LruCacheDescriptor(_CacheDescriptorBase):
"""Helper for @lru_cache"""
class _Sentinel(enum.Enum):
sentinel = object()
def __init__(
self,
orig: Callable[..., Any],
max_entries: int = 1000,
cache_context: bool = False,
):
super().__init__(orig, num_args=None, cache_context=cache_context)
self.max_entries = max_entries
def __get__(self, obj: Optional[Any], owner: Optional[Type]) -> Callable[..., Any]:
cache: LruCache[CacheKey, Any] = LruCache(
cache_name=self.orig.__name__,
max_size=self.max_entries,
)
get_cache_key = self.cache_key_builder
sentinel = LruCacheDescriptor._Sentinel.sentinel
@functools.wraps(self.orig)
def _wrapped(*args: Any, **kwargs: Any) -> Any:
invalidate_callback = kwargs.pop("on_invalidate", None)
callbacks = (invalidate_callback,) if invalidate_callback else ()
cache_key = get_cache_key(args, kwargs)
ret = cache.get(cache_key, default=sentinel, callbacks=callbacks)
if ret != sentinel:
return ret
# Add our own `cache_context` to argument list if the wrapped function
# has asked for one
if self.add_cache_context:
kwargs["cache_context"] = _CacheContext.get_instance(cache, cache_key)
ret2 = self.orig(obj, *args, **kwargs)
cache.set(cache_key, ret2, callbacks=callbacks)
return ret2
wrapped = cast(_CachedFunction, _wrapped)
wrapped.cache = cache
obj.__dict__[self.orig.__name__] = wrapped
return wrapped
class DeferredCacheDescriptor(_CacheDescriptorBase):
"""A method decorator that applies a memoizing cache around the function.
This caches deferreds, rather than the results themselves. Deferreds that
fail are removed from the cache.
The function is presumed to take zero or more arguments, which are used in
a tuple as the key for the cache. Hits are served directly from the cache;
misses use the function body to generate the value.
The wrapped function has an additional member, a callable called
"invalidate". This can be used to remove individual entries from the cache.
The wrapped function has another additional callable, called "prefill",
which can be used to insert values into the cache specifically, without
calling the calculation function.
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Cached functions can be "chained" (i.e. a cached function can call other cached
functions and get appropriately invalidated when they called caches are
invalidated) by adding a special "cache_context" argument to the function
and passing that as a kwarg to all caches called. For example::
@cached(cache_context=True)
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def foo(self, key, cache_context):
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r1 = yield self.bar1(key, on_invalidate=cache_context.invalidate)
r2 = yield self.bar2(key, on_invalidate=cache_context.invalidate)
return r1 + r2
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Args:
num_args: number of positional arguments (excluding ``self`` and
``cache_context``) to use as cache keys. Defaults to all named
args of the function.
"""
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def __init__(
self,
orig: Callable[..., Any],
max_entries: int = 1000,
num_args: Optional[int] = None,
tree: bool = False,
cache_context: bool = False,
iterable: bool = False,
prune_unread_entries: bool = True,
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):
super().__init__(orig, num_args=num_args, cache_context=cache_context)
if tree and self.num_args < 2:
raise RuntimeError(
"tree=True is nonsensical for cached functions with a single parameter"
)
self.max_entries = max_entries
self.tree = tree
self.iterable = iterable
self.prune_unread_entries = prune_unread_entries
def __get__(self, obj: Optional[Any], owner: Optional[Type]) -> Callable[..., Any]:
cache: DeferredCache[CacheKey, Any] = DeferredCache(
name=self.orig.__name__,
max_entries=self.max_entries,
tree=self.tree,
iterable=self.iterable,
prune_unread_entries=self.prune_unread_entries,
)
get_cache_key = self.cache_key_builder
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@functools.wraps(self.orig)
def _wrapped(*args: Any, **kwargs: Any) -> Any:
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# If we're passed a cache_context then we'll want to call its invalidate()
# whenever we are invalidated
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invalidate_callback = kwargs.pop("on_invalidate", None)
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cache_key = get_cache_key(args, kwargs)
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try:
ret = cache.get(cache_key, callback=invalidate_callback)
except KeyError:
# Add our own `cache_context` to argument list if the wrapped function
# has asked for one
if self.add_cache_context:
kwargs["cache_context"] = _CacheContext.get_instance(
cache, cache_key
)
ret = defer.maybeDeferred(preserve_fn(self.orig), obj, *args, **kwargs)
ret = cache.set(cache_key, ret, callback=invalidate_callback)
return make_deferred_yieldable(ret)
wrapped = cast(_CachedFunction, _wrapped)
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if self.num_args == 1:
assert not self.tree
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wrapped.invalidate = lambda key: cache.invalidate(key[0])
wrapped.prefill = lambda key, val: cache.prefill(key[0], val)
else:
wrapped.invalidate = cache.invalidate
wrapped.prefill = cache.prefill
wrapped.invalidate_all = cache.invalidate_all
wrapped.cache = cache
wrapped.num_args = self.num_args
obj.__dict__[self.orig.__name__] = wrapped
return wrapped
class DeferredCacheListDescriptor(_CacheDescriptorBase):
"""Wraps an existing cache to support bulk fetching of keys.
Given an iterable of keys it looks in the cache to find any hits, then passes
the tuple of missing keys to the wrapped function.
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Once wrapped, the function returns a Deferred which resolves to the list
of results.
"""
def __init__(
self,
orig: Callable[..., Any],
cached_method_name: str,
list_name: str,
num_args: Optional[int] = None,
):
"""
Args:
orig
cached_method_name: The name of the cached method.
list_name: Name of the argument which is the bulk lookup list
num_args: number of positional arguments (excluding ``self``,
but including list_name) to use as cache keys. Defaults to all
named args of the function.
"""
super().__init__(orig, num_args=num_args)
self.list_name = list_name
self.list_pos = self.arg_names.index(self.list_name)
self.cached_method_name = cached_method_name
self.sentinel = object()
if self.list_name not in self.arg_names:
raise Exception(
"Couldn't see arguments %r for %r."
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% (self.list_name, cached_method_name)
)
def __get__(
self, obj: Optional[Any], objtype: Optional[Type] = None
) -> Callable[..., Any]:
cached_method = getattr(obj, self.cached_method_name)
cache: DeferredCache[CacheKey, Any] = cached_method.cache
num_args = cached_method.num_args
@functools.wraps(self.orig)
def wrapped(*args: Any, **kwargs: Any) -> Any:
# If we're passed a cache_context then we'll want to call its
# invalidate() whenever we are invalidated
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invalidate_callback = kwargs.pop("on_invalidate", None)
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arg_dict = inspect.getcallargs(self.orig, obj, *args, **kwargs)
keyargs = [arg_dict[arg_nm] for arg_nm in self.arg_names]
list_args = arg_dict[self.list_name]
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results = {}
def update_results_dict(res: Any, arg: Hashable) -> None:
results[arg] = res
# list of deferreds to wait for
cached_defers = []
missing = set()
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# If the cache takes a single arg then that is used as the key,
# otherwise a tuple is used.
if num_args == 1:
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def arg_to_cache_key(arg: Hashable) -> Hashable:
return arg
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else:
keylist = list(keyargs)
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def arg_to_cache_key(arg: Hashable) -> Hashable:
keylist[self.list_pos] = arg
return tuple(keylist)
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for arg in list_args:
try:
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res = cache.get(arg_to_cache_key(arg), callback=invalidate_callback)
if not res.called:
res.addCallback(update_results_dict, arg)
cached_defers.append(res)
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else:
results[arg] = res.result
except KeyError:
missing.add(arg)
if missing:
# we need a deferred for each entry in the list,
# which we put in the cache. Each deferred resolves with the
# relevant result for that key.
deferreds_map = {}
for arg in missing:
deferred: "defer.Deferred[Any]" = defer.Deferred()
deferreds_map[arg] = deferred
key = arg_to_cache_key(arg)
cache.set(key, deferred, callback=invalidate_callback)
def complete_all(res: Dict[Hashable, Any]) -> None:
# the wrapped function has completed. It returns a
# a dict. We can now resolve the observable deferreds in
# the cache and update our own result map.
for e in missing:
val = res.get(e, None)
deferreds_map[e].callback(val)
results[e] = val
def errback(f: Failure) -> Failure:
# the wrapped function has failed. Invalidate any cache
# entries we're supposed to be populating, and fail
# their deferreds.
for e in missing:
key = arg_to_cache_key(e)
cache.invalidate(key)
deferreds_map[e].errback(f)
# return the failure, to propagate to our caller.
return f
args_to_call = dict(arg_dict)
# copy the missing set before sending it to the callee, to guard against
# modification.
args_to_call[self.list_name] = tuple(missing)
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cached_defers.append(
defer.maybeDeferred(
preserve_fn(self.orig), **args_to_call
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).addCallbacks(complete_all, errback)
)
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if cached_defers:
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d = defer.gatherResults(cached_defers, consumeErrors=True).addCallbacks(
lambda _: results, unwrapFirstError
)
return make_deferred_yieldable(d)
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else:
return defer.succeed(results)
obj.__dict__[self.orig.__name__] = wrapped
return wrapped
class _CacheContext:
"""Holds cache information from the cached function higher in the calling order.
Can be used to invalidate the higher level cache entry if something changes
on a lower level.
"""
Cache = Union[DeferredCache, LruCache]
_cache_context_objects: """WeakValueDictionary[
Tuple["_CacheContext.Cache", CacheKey], "_CacheContext"
]""" = WeakValueDictionary()
def __init__(self, cache: "_CacheContext.Cache", cache_key: CacheKey) -> None:
self._cache = cache
self._cache_key = cache_key
def invalidate(self) -> None:
"""Invalidates the cache entry referred to by the context."""
self._cache.invalidate(self._cache_key)
@classmethod
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def get_instance(
cls, cache: "_CacheContext.Cache", cache_key: CacheKey
) -> "_CacheContext":
"""Returns an instance constructed with the given arguments.
A new instance is only created if none already exists.
"""
# We make sure there are no identical _CacheContext instances. This is
# important in particular to dedupe when we add callbacks to lru cache
# nodes, otherwise the number of callbacks would grow.
return cls._cache_context_objects.setdefault(
(cache, cache_key), cls(cache, cache_key)
)
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def cached(
max_entries: int = 1000,
num_args: Optional[int] = None,
tree: bool = False,
cache_context: bool = False,
iterable: bool = False,
prune_unread_entries: bool = True,
) -> Callable[[F], _CachedFunction[F]]:
func = lambda orig: DeferredCacheDescriptor(
orig,
max_entries=max_entries,
num_args=num_args,
tree=tree,
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cache_context=cache_context,
iterable=iterable,
prune_unread_entries=prune_unread_entries,
)
return cast(Callable[[F], _CachedFunction[F]], func)
def cachedList(
cached_method_name: str, list_name: str, num_args: Optional[int] = None
) -> Callable[[F], _CachedFunction[F]]:
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"""Creates a descriptor that wraps a function in a `CacheListDescriptor`.
Used to do batch lookups for an already created cache. A single argument
is specified as a list that is iterated through to lookup keys in the
original cache. A new tuple consisting of the (deduplicated) keys that weren't in
the cache gets passed to the original function, the result of which is stored in the
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cache.
Args:
cached_method_name: The name of the single-item lookup method.
This is only used to find the cache to use.
list_name: The name of the argument that is the iterable to use to
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do batch lookups in the cache.
num_args: Number of arguments to use as the key in the cache
(including list_name). Defaults to all named parameters.
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Example:
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class Example:
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@cached(num_args=2)
def do_something(self, first_arg):
...
@cachedList(do_something.cache, list_name="second_args", num_args=2)
def batch_do_something(self, first_arg, second_args):
...
"""
func = lambda orig: DeferredCacheListDescriptor(
orig,
cached_method_name=cached_method_name,
list_name=list_name,
num_args=num_args,
)
return cast(Callable[[F], _CachedFunction[F]], func)
def get_cache_key_builder(
param_names: Sequence[str], param_defaults: Mapping[str, Any]
) -> Callable[[Sequence[Any], Mapping[str, Any]], CacheKey]:
"""Construct a function which will build cache keys suitable for a cached function
Args:
param_names: list of formal parameter names for the cached function
param_defaults: a mapping from parameter name to default value for that param
Returns:
A function which will take an (args, kwargs) pair and return a cache key
"""
# By default our cache key is a tuple, but if there is only one item
# then don't bother wrapping in a tuple. This is to save memory.
if len(param_names) == 1:
nm = param_names[0]
def get_cache_key(args: Sequence[Any], kwargs: Mapping[str, Any]) -> CacheKey:
if nm in kwargs:
return kwargs[nm]
elif len(args):
return args[0]
else:
return param_defaults[nm]
else:
def get_cache_key(args: Sequence[Any], kwargs: Mapping[str, Any]) -> CacheKey:
return tuple(_get_cache_key_gen(param_names, param_defaults, args, kwargs))
return get_cache_key
def _get_cache_key_gen(
param_names: Iterable[str],
param_defaults: Mapping[str, Any],
args: Sequence[Any],
kwargs: Mapping[str, Any],
) -> Iterable[Any]:
"""Given some args/kwargs return a generator that resolves into
the cache_key.
This is essentially the same operation as `inspect.getcallargs`, but optimised so
that we don't need to inspect the target function for each call.
"""
# We loop through each arg name, looking up if its in the `kwargs`,
# otherwise using the next argument in `args`. If there are no more
# args then we try looking the arg name up in the defaults.
pos = 0
for nm in param_names:
if nm in kwargs:
yield kwargs[nm]
elif pos < len(args):
yield args[pos]
pos += 1
else:
yield param_defaults[nm]