forked-synapse/synapse/logging/context.py

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# Copyright 2014-2016 OpenMarket Ltd
# Copyright 2019 The Matrix.org Foundation C.I.C.
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#
# 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.
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""" Thread-local-alike tracking of log contexts within synapse
This module provides objects and utilities for tracking contexts through
synapse code, so that log lines can include a request identifier, and so that
CPU and database activity can be accounted for against the request that caused
them.
See doc/log_contexts.rst for details on how this works.
"""
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import logging
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import threading
import typing
import warnings
from types import TracebackType
from typing import (
TYPE_CHECKING,
Awaitable,
Callable,
Optional,
Tuple,
Type,
TypeVar,
Union,
overload,
)
import attr
from typing_extensions import Literal, ParamSpec
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from twisted.internet import defer, threads
from twisted.python.threadpool import ThreadPool
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if TYPE_CHECKING:
from synapse.logging.scopecontextmanager import _LogContextScope
from synapse.types import ISynapseReactor
logger = logging.getLogger(__name__)
try:
import resource
# Python doesn't ship with a definition of RUSAGE_THREAD but it's defined
# to be 1 on linux so we hard code it.
RUSAGE_THREAD = 1
# If the system doesn't support RUSAGE_THREAD then this should throw an
# exception.
resource.getrusage(RUSAGE_THREAD)
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is_thread_resource_usage_supported = True
def get_thread_resource_usage() -> "Optional[resource.struct_rusage]":
return resource.getrusage(RUSAGE_THREAD)
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except Exception:
# If the system doesn't support resource.getrusage(RUSAGE_THREAD) then we
# won't track resource usage.
is_thread_resource_usage_supported = False
def get_thread_resource_usage() -> "Optional[resource.struct_rusage]":
return None
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# a hook which can be set during testing to assert that we aren't abusing logcontexts.
def logcontext_error(msg: str) -> None:
logger.warning(msg)
# get an id for the current thread.
#
# threading.get_ident doesn't actually return an OS-level tid, and annoyingly,
# on Linux it actually returns the same value either side of a fork() call. However
# we only fork in one place, so it's not worth the hoop-jumping to get a real tid.
#
get_thread_id = threading.get_ident
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class ContextResourceUsage:
"""Object for tracking the resources used by a log context
Attributes:
ru_utime (float): user CPU time (in seconds)
ru_stime (float): system CPU time (in seconds)
db_txn_count (int): number of database transactions done
db_sched_duration_sec (float): amount of time spent waiting for a
database connection
db_txn_duration_sec (float): amount of time spent doing database
transactions (excluding scheduling time)
evt_db_fetch_count (int): number of events requested from the database
"""
__slots__ = [
"ru_stime",
"ru_utime",
"db_txn_count",
"db_txn_duration_sec",
"db_sched_duration_sec",
"evt_db_fetch_count",
]
def __init__(self, copy_from: "Optional[ContextResourceUsage]" = None) -> None:
"""Create a new ContextResourceUsage
Args:
copy_from: if not None, an object to copy stats from
"""
if copy_from is None:
self.reset()
else:
# FIXME: mypy can't infer the types set via reset() above, so specify explicitly for now
self.ru_utime: float = copy_from.ru_utime
self.ru_stime: float = copy_from.ru_stime
self.db_txn_count: int = copy_from.db_txn_count
self.db_txn_duration_sec: float = copy_from.db_txn_duration_sec
self.db_sched_duration_sec: float = copy_from.db_sched_duration_sec
self.evt_db_fetch_count: int = copy_from.evt_db_fetch_count
def copy(self) -> "ContextResourceUsage":
return ContextResourceUsage(copy_from=self)
def reset(self) -> None:
self.ru_stime = 0.0
self.ru_utime = 0.0
self.db_txn_count = 0
self.db_txn_duration_sec = 0.0
self.db_sched_duration_sec = 0.0
self.evt_db_fetch_count = 0
def __repr__(self) -> str:
return (
"<ContextResourceUsage ru_stime='%r', ru_utime='%r', "
"db_txn_count='%r', db_txn_duration_sec='%r', "
"db_sched_duration_sec='%r', evt_db_fetch_count='%r'>"
) % (
self.ru_stime,
self.ru_utime,
self.db_txn_count,
self.db_txn_duration_sec,
self.db_sched_duration_sec,
self.evt_db_fetch_count,
)
def __iadd__(self, other: "ContextResourceUsage") -> "ContextResourceUsage":
"""Add another ContextResourceUsage's stats to this one's.
Args:
other: the other resource usage object
"""
self.ru_utime += other.ru_utime
self.ru_stime += other.ru_stime
self.db_txn_count += other.db_txn_count
self.db_txn_duration_sec += other.db_txn_duration_sec
self.db_sched_duration_sec += other.db_sched_duration_sec
self.evt_db_fetch_count += other.evt_db_fetch_count
return self
def __isub__(self, other: "ContextResourceUsage") -> "ContextResourceUsage":
self.ru_utime -= other.ru_utime
self.ru_stime -= other.ru_stime
self.db_txn_count -= other.db_txn_count
self.db_txn_duration_sec -= other.db_txn_duration_sec
self.db_sched_duration_sec -= other.db_sched_duration_sec
self.evt_db_fetch_count -= other.evt_db_fetch_count
return self
def __add__(self, other: "ContextResourceUsage") -> "ContextResourceUsage":
res = ContextResourceUsage(copy_from=self)
res += other
return res
def __sub__(self, other: "ContextResourceUsage") -> "ContextResourceUsage":
res = ContextResourceUsage(copy_from=self)
res -= other
return res
@attr.s(slots=True, auto_attribs=True)
class ContextRequest:
"""
A bundle of attributes from the SynapseRequest object.
This exists to:
* Avoid a cycle between LoggingContext and SynapseRequest.
* Be a single variable that can be passed from parent LoggingContexts to
their children.
"""
request_id: str
ip_address: str
site_tag: str
requester: Optional[str]
authenticated_entity: Optional[str]
method: str
url: str
protocol: str
user_agent: str
LoggingContextOrSentinel = Union["LoggingContext", "_Sentinel"]
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class _Sentinel:
"""Sentinel to represent the root context"""
__slots__ = ["previous_context", "finished", "request", "scope", "tag"]
def __init__(self) -> None:
# Minimal set for compatibility with LoggingContext
self.previous_context = None
self.finished = False
self.request = None
self.scope = None
self.tag = None
def __str__(self) -> str:
return "sentinel"
def start(self, rusage: "Optional[resource.struct_rusage]") -> None:
pass
def stop(self, rusage: "Optional[resource.struct_rusage]") -> None:
pass
def add_database_transaction(self, duration_sec: float) -> None:
pass
def add_database_scheduled(self, sched_sec: float) -> None:
pass
def record_event_fetch(self, event_count: int) -> None:
pass
def __bool__(self) -> Literal[False]:
return False
SENTINEL_CONTEXT = _Sentinel()
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class LoggingContext:
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"""Additional context for log formatting. Contexts are scoped within a
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"with" block.
If a parent is given when creating a new context, then:
- logging fields are copied from the parent to the new context on entry
- when the new context exits, the cpu usage stats are copied from the
child to the parent
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Args:
name: Name for the context for logging. If this is omitted, it is
inherited from the parent context.
parent_context (LoggingContext|None): The parent of the new context
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"""
__slots__ = [
"previous_context",
"name",
"parent_context",
"_resource_usage",
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"usage_start",
"main_thread",
"finished",
"request",
"tag",
Add basic opentracing support (#5544) * Configure and initialise tracer Includes config options for the tracer and sets up JaegerClient. * Scope manager using LogContexts We piggy-back our tracer scopes by using log context. The current log context gives us the current scope. If new scope is created we create a stack of scopes in the context. * jaeger is a dependency now * Carrier inject and extraction for Twisted Headers * Trace federation requests on the way in and out. The span is created in _started_processing and closed in _finished_processing because we need a meaningful log context. * Create logcontext for new scope. Instead of having a stack of scopes in a logcontext we create a new context for a new scope if the current logcontext already has a scope. * Remove scope from logcontext if logcontext is top level * Disable tracer if not configured * typo * Remove dependence on jaeger internals * bools * Set service name * :Explicitely state that the tracer is disabled * Black is the new black * Newsfile * Code style * Use the new config setup. * Generate config. * Copyright * Rename config to opentracing * Remove user whitelisting * Empty whitelist by default * User ConfigError instead of RuntimeError * Use isinstance * Use tag constants for opentracing. * Remove debug comment and no need to explicitely record error * Two errors a "s(c)entry" * Docstrings! * Remove debugging brainslip * Homeserver Whitlisting * Better opentracing config comment * linting * Inclue worker name in service_name * Make opentracing an optional dependency * Neater config retreival * Clean up dummy tags * Instantiate tracing as object instead of global class * Inlcude opentracing as a homeserver member. * Thread opentracing to the request level * Reference opetnracing through hs * Instantiate dummy opentracin g for tests. * About to revert, just keeping the unfinished changes just in case * Revert back to global state, commit number: 9ce4a3d9067bf9889b86c360c05ac88618b85c4f * Use class level methods in tracerutils * Start and stop requests spans in a place where we have access to the authenticated entity * Seen it, isort it * Make sure to close the active span. * I'm getting black and blue from this. * Logger formatting Co-Authored-By: Erik Johnston <erik@matrix.org> * Outdated comment * Import opentracing at the top * Return a contextmanager * Start tracing client requests from the servlet * Return noop context manager if not tracing * Explicitely say that these are federation requests * Include servlet name in client requests * Use context manager * Move opentracing to logging/ * Seen it, isort it again! * Ignore twisted return exceptions on context exit * Escape the scope * Scopes should be entered to make them useful. * Nicer decorator names * Just one init, init? * Don't need to close something that isn't open * Docs make you smarter
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"scope",
]
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def __init__(
self,
name: Optional[str] = None,
parent_context: "Optional[LoggingContext]" = None,
request: Optional[ContextRequest] = None,
) -> None:
self.previous_context = current_context()
# track the resources used by this context so far
self._resource_usage = ContextResourceUsage()
# The thread resource usage when the logcontext became active. None
# if the context is not currently active.
self.usage_start: Optional[resource.struct_rusage] = None
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self.main_thread = get_thread_id()
self.request = None
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self.tag = ""
self.scope: Optional["_LogContextScope"] = None
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# keep track of whether we have hit the __exit__ block for this context
# (suggesting that the the thing that created the context thinks it should
# be finished, and that re-activating it would suggest an error).
self.finished = False
self.parent_context = parent_context
if self.parent_context is not None:
# we track the current request_id
self.request = self.parent_context.request
# we also track the current scope:
self.scope = self.parent_context.scope
if request is not None:
# the request param overrides the request from the parent context
self.request = request
# if we don't have a `name`, but do have a parent context, use its name.
if self.parent_context and name is None:
name = str(self.parent_context)
if name is None:
raise ValueError(
"LoggingContext must be given either a name or a parent context"
)
self.name = name
def __str__(self) -> str:
return self.name
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@classmethod
def current_context(cls) -> LoggingContextOrSentinel:
"""Get the current logging context from thread local storage
This exists for backwards compatibility. ``current_context()`` should be
called directly.
Returns:
The current logging context
"""
warnings.warn(
"synapse.logging.context.LoggingContext.current_context() is deprecated "
"in favor of synapse.logging.context.current_context().",
DeprecationWarning,
stacklevel=2,
)
return current_context()
@classmethod
def set_current_context(
cls, context: LoggingContextOrSentinel
) -> LoggingContextOrSentinel:
"""Set the current logging context in thread local storage
This exists for backwards compatibility. ``set_current_context()`` should be
called directly.
Args:
context: The context to activate.
Returns:
The context that was previously active
"""
warnings.warn(
"synapse.logging.context.LoggingContext.set_current_context() is deprecated "
"in favor of synapse.logging.context.set_current_context().",
DeprecationWarning,
stacklevel=2,
)
return set_current_context(context)
def __enter__(self) -> "LoggingContext":
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"""Enters this logging context into thread local storage"""
old_context = set_current_context(self)
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if self.previous_context != old_context:
logcontext_error(
"Expected previous context %r, found %r"
% (
self.previous_context,
old_context,
)
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)
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return self
def __exit__(
self,
type: Optional[Type[BaseException]],
value: Optional[BaseException],
traceback: Optional[TracebackType],
) -> None:
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"""Restore the logging context in thread local storage to the state it
was before this context was entered.
Returns:
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None to avoid suppressing any exceptions that were thrown.
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"""
current = set_current_context(self.previous_context)
if current is not self:
if current is SENTINEL_CONTEXT:
logcontext_error("Expected logging context %s was lost" % (self,))
else:
logcontext_error(
"Expected logging context %s but found %s" % (self, current)
)
# the fact that we are here suggests that the caller thinks that everything
# is done and dusted for this logcontext, and further activity will not get
# recorded against the correct metrics.
self.finished = True
def start(self, rusage: "Optional[resource.struct_rusage]") -> None:
"""
Record that this logcontext is currently running.
This should not be called directly: use set_current_context
Args:
rusage: the resources used by the current thread, at the point of
switching to this logcontext. May be None if this platform doesn't
support getrusuage.
"""
if get_thread_id() != self.main_thread:
logcontext_error("Started logcontext %s on different thread" % (self,))
return
if self.finished:
logcontext_error("Re-starting finished log context %s" % (self,))
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# If we haven't already started record the thread resource usage so
# far
if self.usage_start:
logcontext_error("Re-starting already-active log context %s" % (self,))
else:
self.usage_start = rusage
def stop(self, rusage: "Optional[resource.struct_rusage]") -> None:
"""
Record that this logcontext is no longer running.
This should not be called directly: use set_current_context
Args:
rusage: the resources used by the current thread, at the point of
switching away from this logcontext. May be None if this platform
doesn't support getrusuage.
"""
try:
if get_thread_id() != self.main_thread:
logcontext_error("Stopped logcontext %s on different thread" % (self,))
return
if not rusage:
return
# Record the cpu used since we started
if not self.usage_start:
logcontext_error(
"Called stop on logcontext %s without recording a start rusage"
% (self,)
)
return
utime_delta, stime_delta = self._get_cputime(rusage)
self.add_cputime(utime_delta, stime_delta)
finally:
self.usage_start = None
def get_resource_usage(self) -> ContextResourceUsage:
"""Get resources used by this logcontext so far.
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Returns:
A *copy* of the object tracking resource usage so far
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"""
# we always return a copy, for consistency
res = self._resource_usage.copy()
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# If we are on the correct thread and we're currently running then we
# can include resource usage so far.
is_main_thread = get_thread_id() == self.main_thread
if self.usage_start and is_main_thread:
rusage = get_thread_resource_usage()
assert rusage is not None
utime_delta, stime_delta = self._get_cputime(rusage)
res.ru_utime += utime_delta
res.ru_stime += stime_delta
return res
def _get_cputime(self, current: "resource.struct_rusage") -> Tuple[float, float]:
"""Get the cpu usage time between start() and the given rusage
Args:
rusage: the current resource usage
Returns: Tuple[float, float]: seconds in user mode, seconds in system mode
"""
assert self.usage_start is not None
utime_delta = current.ru_utime - self.usage_start.ru_utime
stime_delta = current.ru_stime - self.usage_start.ru_stime
# sanity check
if utime_delta < 0:
logger.error(
"utime went backwards! %f < %f",
current.ru_utime,
self.usage_start.ru_utime,
)
utime_delta = 0
if stime_delta < 0:
logger.error(
"stime went backwards! %f < %f",
current.ru_stime,
self.usage_start.ru_stime,
)
stime_delta = 0
return utime_delta, stime_delta
def add_cputime(self, utime_delta: float, stime_delta: float) -> None:
"""Update the CPU time usage of this context (and any parents, recursively).
Args:
utime_delta: additional user time, in seconds, spent in this context.
stime_delta: additional system time, in seconds, spent in this context.
"""
self._resource_usage.ru_utime += utime_delta
self._resource_usage.ru_stime += stime_delta
if self.parent_context:
self.parent_context.add_cputime(utime_delta, stime_delta)
def add_database_transaction(self, duration_sec: float) -> None:
"""Record the use of a database transaction and the length of time it took.
Args:
duration_sec: The number of seconds the database transaction took.
"""
if duration_sec < 0:
raise ValueError("DB txn time can only be non-negative")
self._resource_usage.db_txn_count += 1
self._resource_usage.db_txn_duration_sec += duration_sec
if self.parent_context:
self.parent_context.add_database_transaction(duration_sec)
def add_database_scheduled(self, sched_sec: float) -> None:
"""Record a use of the database pool
Args:
sched_sec: number of seconds it took us to get a connection
"""
if sched_sec < 0:
raise ValueError("DB scheduling time can only be non-negative")
self._resource_usage.db_sched_duration_sec += sched_sec
if self.parent_context:
self.parent_context.add_database_scheduled(sched_sec)
def record_event_fetch(self, event_count: int) -> None:
"""Record a number of events being fetched from the db
Args:
event_count: number of events being fetched
"""
self._resource_usage.evt_db_fetch_count += event_count
if self.parent_context:
self.parent_context.record_event_fetch(event_count)
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class LoggingContextFilter(logging.Filter):
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"""Logging filter that adds values from the current logging context to each
record.
"""
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def __init__(self, request: str = ""):
self._default_request = request
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def filter(self, record: logging.LogRecord) -> Literal[True]:
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"""Add each fields from the logging contexts to the record.
Returns:
True to include the record in the log output.
"""
context = current_context()
record.request = self._default_request
# context should never be None, but if it somehow ends up being, then
# we end up in a death spiral of infinite loops, so let's check, for
# robustness' sake.
if context is not None:
# Logging is interested in the request ID. Note that for backwards
# compatibility this is stored as the "request" on the record.
record.request = str(context)
# Add some data from the HTTP request.
request = context.request
if request is None:
return True
record.ip_address = request.ip_address
record.site_tag = request.site_tag
record.requester = request.requester
record.authenticated_entity = request.authenticated_entity
record.method = request.method
record.url = request.url
record.protocol = request.protocol
record.user_agent = request.user_agent
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return True
class PreserveLoggingContext:
"""Context manager which replaces the logging context
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The previous logging context is restored on exit."""
__slots__ = ["_old_context", "_new_context"]
def __init__(
self, new_context: LoggingContextOrSentinel = SENTINEL_CONTEXT
) -> None:
self._new_context = new_context
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def __enter__(self) -> None:
self._old_context = set_current_context(self._new_context)
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def __exit__(
self,
type: Optional[Type[BaseException]],
value: Optional[BaseException],
traceback: Optional[TracebackType],
) -> None:
context = set_current_context(self._old_context)
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if context != self._new_context:
if not context:
logcontext_error(
"Expected logging context %s was lost" % (self._new_context,)
)
else:
logcontext_error(
"Expected logging context %s but found %s"
% (
self._new_context,
context,
)
)
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_thread_local = threading.local()
_thread_local.current_context = SENTINEL_CONTEXT
def current_context() -> LoggingContextOrSentinel:
"""Get the current logging context from thread local storage"""
return getattr(_thread_local, "current_context", SENTINEL_CONTEXT)
def set_current_context(context: LoggingContextOrSentinel) -> LoggingContextOrSentinel:
"""Set the current logging context in thread local storage
Args:
context: The context to activate.
Returns:
The context that was previously active
"""
# everything blows up if we allow current_context to be set to None, so sanity-check
# that now.
if context is None:
raise TypeError("'context' argument may not be None")
current = current_context()
if current is not context:
rusage = get_thread_resource_usage()
current.stop(rusage)
_thread_local.current_context = context
context.start(rusage)
return current
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def nested_logging_context(suffix: str) -> LoggingContext:
"""Creates a new logging context as a child of another.
The nested logging context will have a 'name' made up of the parent context's
name, plus the given suffix.
CPU/db usage stats will be added to the parent context's on exit.
Normal usage looks like:
with nested_logging_context(suffix):
# ... do stuff
Args:
suffix: suffix to add to the parent context's 'name'.
Returns:
A new logging context.
"""
curr_context = current_context()
if not curr_context:
logger.warning(
"Starting nested logging context from sentinel context: metrics will be lost"
)
parent_context = None
else:
assert isinstance(curr_context, LoggingContext)
parent_context = curr_context
prefix = str(curr_context)
return LoggingContext(
prefix + "-" + suffix,
parent_context=parent_context,
)
P = ParamSpec("P")
R = TypeVar("R")
async def _unwrap_awaitable(awaitable: Awaitable[R]) -> R:
"""Unwraps an arbitrary awaitable by awaiting it."""
return await awaitable
@overload
def preserve_fn( # type: ignore[misc]
f: Callable[P, Awaitable[R]],
) -> Callable[P, "defer.Deferred[R]"]:
# The `type: ignore[misc]` above suppresses
# "Overloaded function signatures 1 and 2 overlap with incompatible return types"
...
@overload
def preserve_fn(f: Callable[P, R]) -> Callable[P, "defer.Deferred[R]"]:
...
def preserve_fn(
f: Union[
Callable[P, R],
Callable[P, Awaitable[R]],
]
) -> Callable[P, "defer.Deferred[R]"]:
"""Function decorator which wraps the function with run_in_background"""
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def g(*args: P.args, **kwargs: P.kwargs) -> "defer.Deferred[R]":
return run_in_background(f, *args, **kwargs)
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return g
@overload
def run_in_background( # type: ignore[misc]
f: Callable[P, Awaitable[R]], *args: P.args, **kwargs: P.kwargs
) -> "defer.Deferred[R]":
# The `type: ignore[misc]` above suppresses
# "Overloaded function signatures 1 and 2 overlap with incompatible return types"
...
@overload
def run_in_background(
f: Callable[P, R], *args: P.args, **kwargs: P.kwargs
) -> "defer.Deferred[R]":
...
def run_in_background( # type: ignore[misc]
# The `type: ignore[misc]` above suppresses
# "Overloaded function implementation does not accept all possible arguments of signature 1"
# "Overloaded function implementation does not accept all possible arguments of signature 2"
# which seems like a bug in mypy.
f: Union[
Callable[P, R],
Callable[P, Awaitable[R]],
],
*args: P.args,
**kwargs: P.kwargs,
) -> "defer.Deferred[R]":
"""Calls a function, ensuring that the current context is restored after
return from the function, and that the sentinel context is set once the
deferred returned by the function completes.
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Useful for wrapping functions that return a deferred or coroutine, which you don't
yield or await on (for instance because you want to pass it to
deferred.gatherResults()).
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If f returns a Coroutine object, it will be wrapped into a Deferred (which will have
the side effect of executing the coroutine).
Note that if you completely discard the result, you should make sure that
`f` doesn't raise any deferred exceptions, otherwise a scary-looking
CRITICAL error about an unhandled error will be logged without much
indication about where it came from.
"""
current = current_context()
try:
res = f(*args, **kwargs)
except Exception:
# the assumption here is that the caller doesn't want to be disturbed
# by synchronous exceptions, so let's turn them into Failures.
return defer.fail()
# `res` may be a coroutine, `Deferred`, some other kind of awaitable, or a plain
# value. Convert it to a `Deferred`.
d: "defer.Deferred[R]"
if isinstance(res, typing.Coroutine):
# Wrap the coroutine in a `Deferred`.
d = defer.ensureDeferred(res)
elif isinstance(res, defer.Deferred):
d = res
elif isinstance(res, Awaitable):
# `res` is probably some kind of completed awaitable, such as a `DoneAwaitable`
# or `Future` from `make_awaitable`.
d = defer.ensureDeferred(_unwrap_awaitable(res))
else:
# `res` is a plain value. Wrap it in a `Deferred`.
d = defer.succeed(res)
if d.called and not d.paused:
# The function should have maintained the logcontext, so we can
# optimise out the messing about
return d
# The function may have reset the context before returning, so
# we need to restore it now.
ctx = set_current_context(current)
# The original context will be restored when the deferred
# completes, but there is nothing waiting for it, so it will
# get leaked into the reactor or some other function which
# wasn't expecting it. We therefore need to reset the context
# here.
#
# (If this feels asymmetric, consider it this way: we are
# effectively forking a new thread of execution. We are
# probably currently within a ``with LoggingContext()`` block,
# which is supposed to have a single entry and exit point. But
# by spawning off another deferred, we are effectively
# adding a new exit point.)
d.addBoth(_set_context_cb, ctx)
return d
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T = TypeVar("T")
def make_deferred_yieldable(deferred: "defer.Deferred[T]") -> "defer.Deferred[T]":
"""Given a deferred, make it follow the Synapse logcontext rules:
If the deferred has completed, essentially does nothing (just returns another
completed deferred with the result/failure).
If the deferred has not yet completed, resets the logcontext before
returning a deferred. Then, when the deferred completes, restores the
current logcontext before running callbacks/errbacks.
(This is more-or-less the opposite operation to run_in_background.)
"""
if deferred.called and not deferred.paused:
# it looks like this deferred is ready to run any callbacks we give it
# immediately. We may as well optimise out the logcontext faffery.
return deferred
# ok, we can't be sure that a yield won't block, so let's reset the
# logcontext, and add a callback to the deferred to restore it.
prev_context = set_current_context(SENTINEL_CONTEXT)
deferred.addBoth(_set_context_cb, prev_context)
return deferred
ResultT = TypeVar("ResultT")
def _set_context_cb(result: ResultT, context: LoggingContextOrSentinel) -> ResultT:
"""A callback function which just sets the logging context"""
set_current_context(context)
return result
def defer_to_thread(
reactor: "ISynapseReactor", f: Callable[P, R], *args: P.args, **kwargs: P.kwargs
) -> "defer.Deferred[R]":
"""
Calls the function `f` using a thread from the reactor's default threadpool and
returns the result as a Deferred.
Creates a new logcontext for `f`, which is created as a child of the current
logcontext (so its CPU usage metrics will get attributed to the current
logcontext). `f` should preserve the logcontext it is given.
The result deferred follows the Synapse logcontext rules: you should `yield`
on it.
Args:
reactor: The reactor in whose main thread the Deferred will be invoked,
and whose threadpool we should use for the function.
Normally this will be hs.get_reactor().
f: The function to call.
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args: positional arguments to pass to f.
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kwargs: keyword arguments to pass to f.
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Returns:
A Deferred which fires a callback with the result of `f`, or an
errback if `f` throws an exception.
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"""
return defer_to_threadpool(reactor, reactor.getThreadPool(), f, *args, **kwargs)
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def defer_to_threadpool(
reactor: "ISynapseReactor",
threadpool: ThreadPool,
f: Callable[P, R],
*args: P.args,
**kwargs: P.kwargs,
) -> "defer.Deferred[R]":
"""
A wrapper for twisted.internet.threads.deferToThreadpool, which handles
logcontexts correctly.
Calls the function `f` using a thread from the given threadpool and returns
the result as a Deferred.
Creates a new logcontext for `f`, which is created as a child of the current
logcontext (so its CPU usage metrics will get attributed to the current
logcontext). `f` should preserve the logcontext it is given.
The result deferred follows the Synapse logcontext rules: you should `yield`
on it.
Args:
reactor: The reactor in whose main thread the Deferred will be invoked.
Normally this will be hs.get_reactor().
threadpool: The threadpool to use for running `f`. Normally this will be
hs.get_reactor().getThreadPool().
f: The function to call.
args: positional arguments to pass to f.
kwargs: keyword arguments to pass to f.
Returns:
A Deferred which fires a callback with the result of `f`, or an
errback if `f` throws an exception.
"""
curr_context = current_context()
if not curr_context:
logger.warning(
"Calling defer_to_threadpool from sentinel context: metrics will be lost"
)
parent_context = None
else:
assert isinstance(curr_context, LoggingContext)
parent_context = curr_context
def g() -> R:
with LoggingContext(str(curr_context), parent_context=parent_context):
return f(*args, **kwargs)
return make_deferred_yieldable(threads.deferToThreadPool(reactor, threadpool, g))