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|
#
# This file is licensed under the Affero General Public License (AGPL) version 3.
#
# Copyright 2019 The Matrix.org Foundation C.I.C.
# Copyright 2014-2016 OpenMarket Ltd
# Copyright (C) 2023 New Vector, Ltd
#
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU Affero General Public License as
# published by the Free Software Foundation, either version 3 of the
# License, or (at your option) any later version.
#
# See the GNU Affero General Public License for more details:
# <https://www.gnu.org/licenses/agpl-3.0.html>.
#
# Originally licensed under the Apache License, Version 2.0:
# <http://www.apache.org/licenses/LICENSE-2.0>.
#
# [This file includes modifications made by New Vector Limited]
#
#
""" 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.
"""
import logging
import threading
import typing
import warnings
from collections.abc import Coroutine, Generator
from contextvars import ContextVar
from types import TracebackType
from typing import (
TYPE_CHECKING,
Any,
Awaitable,
Callable,
Optional,
Tuple,
Type,
TypeVar,
Union,
overload,
)
import attr
from prometheus_client import Counter
from typing_extensions import Literal, ParamSpec
from twisted.internet import defer, threads
from twisted.python.threadpool import ThreadPool
if TYPE_CHECKING:
from synapse.logging.scopecontextmanager import _LogContextScope
from synapse.types import ISynapseReactor
logger = logging.getLogger(__name__)
context_ru_utime = Counter(
"synapse_logging_context_ru_utime", "utime in log context", ("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)
is_thread_resource_usage_supported = True
def get_thread_resource_usage() -> "Optional[resource.struct_rusage]":
return resource.getrusage(RUSAGE_THREAD)
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
# 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
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"]
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()
class LoggingContext:
"""Additional context for log formatting. Contexts are scoped within a
"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
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
"""
__slots__ = [
"previous_context",
"name",
"parent_context",
"_resource_usage",
"usage_start",
"main_thread",
"finished",
"request",
"tag",
"scope",
]
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
self.main_thread = get_thread_id()
self.request = None
self.tag = ""
self.scope: Optional["_LogContextScope"] = None
# 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
@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":
"""Enters this logging context into thread local storage"""
old_context = set_current_context(self)
if self.previous_context != old_context:
logcontext_error(
"Expected previous context %r, found %r"
% (
self.previous_context,
old_context,
)
)
return self
def __exit__(
self,
type: Optional[Type[BaseException]],
value: Optional[BaseException],
traceback: Optional[TracebackType],
) -> None:
"""Restore the logging context in thread local storage to the state it
was before this context was entered.
Returns:
None to avoid suppressing any exceptions that were thrown.
"""
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,))
# 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.
Returns:
A *copy* of the object tracking resource usage so far
"""
# we always return a copy, for consistency
res = self._resource_usage.copy()
# 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)
class LoggingContextFilter(logging.Filter):
"""Logging filter that adds values from the current logging context to each
record.
"""
def __init__(self, request: str = ""):
self._default_request = request
def filter(self, record: logging.LogRecord) -> Literal[True]:
"""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
return True
class PreserveLoggingContext:
"""Context manager which replaces the logging context
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
def __enter__(self) -> None:
self._old_context = set_current_context(self._new_context)
def __exit__(
self,
type: Optional[Type[BaseException]],
value: Optional[BaseException],
traceback: Optional[TracebackType],
) -> None:
context = set_current_context(self._old_context)
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,
)
)
_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
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(
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"""
def g(*args: P.args, **kwargs: P.kwargs) -> "defer.Deferred[R]":
return run_in_background(f, *args, **kwargs)
return g
@overload
def run_in_background(
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(
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.
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()).
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(measure_coroutine(current.name, 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(
measure_coroutine(current.name, _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
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.
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.
"""
return defer_to_threadpool(reactor, reactor.getThreadPool(), f, *args, **kwargs)
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))
_T = TypeVar("_T")
@attr.s(frozen=True, slots=True, auto_attribs=True)
class _ResourceTracker(Generator[defer.Deferred[Any], Any, _T]):
name: str
gen: Generator[defer.Deferred[Any], Any, _T]
def send(self, val: Any) -> defer.Deferred[_T]:
rusage_start = get_thread_resource_usage()
try:
return self.gen.send(val)
finally:
rusage_end = get_thread_resource_usage()
if rusage_start and rusage_end:
context_ru_utime.labels(self.name).inc(
max(0, rusage_end.ru_utime - rusage_start.ru_utime)
)
@overload
def throw(
self,
a: Type[BaseException],
b: object = ...,
c: Optional[TracebackType] = ...,
/,
) -> defer.Deferred[Any]: ...
@overload
def throw(
self, a: BaseException, v: None = ..., c: Optional[TracebackType] = ..., /
) -> defer.Deferred[Any]: ...
def throw(self, a: Any, b: Any = None, c: Any = None) -> defer.Deferred[Any]:
try:
return self.gen.throw(a, b, c)
finally:
pass
@attr.s(frozen=True, slots=True, auto_attribs=True)
class _ResourceTracker2(Coroutine[defer.Deferred[Any], Any, _T]):
name: str
gen: Coroutine[defer.Deferred[Any], Any, _T]
def send(self, val: Any) -> defer.Deferred[_T]:
rusage_start = get_thread_resource_usage()
try:
return self.gen.send(val)
finally:
rusage_end = get_thread_resource_usage()
if rusage_start and rusage_end:
context_ru_utime.labels(self.name).inc(
max(0, rusage_end.ru_utime - rusage_start.ru_utime)
)
@overload
def throw(
self,
a: Type[BaseException],
b: object = ...,
c: Optional[TracebackType] = ...,
/,
) -> defer.Deferred[Any]: ...
@overload
def throw(
self, a: BaseException, v: None = ..., c: Optional[TracebackType] = ..., /
) -> defer.Deferred[Any]: ...
def throw(self, a: Any, b: Any = None, c: Any = None) -> defer.Deferred[Any]:
try:
return self.gen.throw(a, b, c)
finally:
pass
def __await__(self) -> Generator[defer.Deferred[Any], Any, _T]:
return _ResourceTracker(self.name, self.gen.__await__())
def close(self) -> None:
return self.gen.close()
async def measure_coroutine(
name: str, co: Coroutine[defer.Deferred[Any], Any, _T]
) -> _T:
return await _ResourceTracker2(name, co)
|