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|
# Copyright 2019 The Matrix.org Foundation C.I.C.
#
# 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.
# NOTE
# This is a small wrapper around opentracing because opentracing is not currently
# packaged downstream (specifically debian). Since opentracing instrumentation is
# fairly invasive it was awkward to make it optional. As a result we opted to encapsulate
# all opentracing state in these methods which effectively noop if opentracing is
# not present. We should strongly consider encouraging the downstream distributers
# to package opentracing and making opentracing a full dependency. In order to facilitate
# this move the methods have work very similarly to opentracing's and it should only
# be a matter of few regexes to move over to opentracing's access patterns proper.
"""
============================
Using OpenTracing in Synapse
============================
Python-specific tracing concepts are at https://opentracing.io/guides/python/.
Note that Synapse wraps OpenTracing in a small module (this one) in order to make the
OpenTracing dependency optional. That means that the access patterns are
different to those demonstrated in the OpenTracing guides. However, it is
still useful to know, especially if OpenTracing is included as a full dependency
in the future or if you are modifying this module.
OpenTracing is encapsulated so that
no span objects from OpenTracing are exposed in Synapse's code. This allows
OpenTracing to be easily disabled in Synapse and thereby have OpenTracing as
an optional dependency. This does however limit the number of modifiable spans
at any point in the code to one. From here out references to `opentracing`
in the code snippets refer to the Synapses module.
Most methods provided in the module have a direct correlation to those provided
by opentracing. Refer to docs there for a more in-depth documentation on some of
the args and methods.
Tracing
-------
In Synapse it is not possible to start a non-active span. Spans can be started
using the ``start_active_span`` method. This returns a scope (see
OpenTracing docs) which is a context manager that needs to be entered and
exited. This is usually done by using ``with``.
.. code-block:: python
from synapse.logging.opentracing import start_active_span
with start_active_span("operation name"):
# Do something we want to tracer
Forgetting to enter or exit a scope will result in some mysterious and grievous log
context errors.
At anytime where there is an active span ``opentracing.set_tag`` can be used to
set a tag on the current active span.
Tracing functions
-----------------
Functions can be easily traced using decorators. The name of
the function becomes the operation name for the span.
.. code-block:: python
from synapse.logging.opentracing import trace
# Start a span using 'interesting_function' as the operation name
@trace
def interesting_function(*args, **kwargs):
# Does all kinds of cool and expected things
return something_usual_and_useful
Operation names can be explicitly set for a function by using ``trace_with_opname``:
.. code-block:: python
from synapse.logging.opentracing import trace_with_opname
@trace_with_opname("a_better_operation_name")
def interesting_badly_named_function(*args, **kwargs):
# Does all kinds of cool and expected things
return something_usual_and_useful
Setting Tags
------------
To set a tag on the active span do
.. code-block:: python
from synapse.logging.opentracing import set_tag
set_tag(tag_name, tag_value)
There's a convenient decorator to tag all the args of the method. It uses
inspection in order to use the formal parameter names prefixed with 'ARG_' as
tag names. It uses kwarg names as tag names without the prefix.
.. code-block:: python
from synapse.logging.opentracing import tag_args
@tag_args
def set_fates(clotho, lachesis, atropos, father="Zues", mother="Themis"):
pass
set_fates("the story", "the end", "the act")
# This will have the following tags
# - ARG_clotho: "the story"
# - ARG_lachesis: "the end"
# - ARG_atropos: "the act"
# - father: "Zues"
# - mother: "Themis"
Contexts and carriers
---------------------
There are a selection of wrappers for injecting and extracting contexts from
carriers provided. Unfortunately OpenTracing's three context injection
techniques are not adequate for our inject of OpenTracing span-contexts into
Twisted's http headers, EDU contents and our database tables. Also note that
the binary encoding format mandated by OpenTracing is not actually implemented
by jaeger_client v4.0.0 - it will silently noop.
Please refer to the end of ``logging/opentracing.py`` for the available
injection and extraction methods.
Homeserver whitelisting
-----------------------
Most of the whitelist checks are encapsulated in the modules's injection
and extraction method but be aware that using custom carriers or crossing
unchartered waters will require the enforcement of the whitelist.
``logging/opentracing.py`` has a ``whitelisted_homeserver`` method which takes
in a destination and compares it to the whitelist.
Most injection methods take a 'destination' arg. The context will only be injected
if the destination matches the whitelist or the destination is None.
=======
Gotchas
=======
- Checking whitelists on span propagation
- Inserting pii
- Forgetting to enter or exit a scope
- Span source: make sure that the span you expect to be active across a
function call really will be that one. Does the current function have more
than one caller? Will all of those calling functions have be in a context
with an active span?
"""
import contextlib
import enum
import inspect
import logging
import re
from functools import wraps
from typing import (
TYPE_CHECKING,
Any,
Awaitable,
Callable,
Collection,
ContextManager,
Dict,
Generator,
Iterable,
List,
Optional,
Pattern,
Type,
TypeVar,
Union,
cast,
overload,
)
import attr
from typing_extensions import Concatenate, ParamSpec
from twisted.internet import defer
from twisted.web.http import Request
from twisted.web.http_headers import Headers
from synapse.config import ConfigError
from synapse.util import json_decoder, json_encoder
if TYPE_CHECKING:
from synapse.http.site import SynapseRequest
from synapse.server import HomeServer
# Helper class
# Matches the number suffix in an instance name like "matrix.org client_reader-8"
STRIP_INSTANCE_NUMBER_SUFFIX_REGEX = re.compile(r"[_-]?\d+$")
class _DummyTagNames:
"""wrapper of opentracings tags. We need to have them if we
want to reference them without opentracing around. Clearly they
should never actually show up in a trace. `set_tags` overwrites
these with the correct ones."""
INVALID_TAG = "invalid-tag"
COMPONENT = INVALID_TAG
DATABASE_INSTANCE = INVALID_TAG
DATABASE_STATEMENT = INVALID_TAG
DATABASE_TYPE = INVALID_TAG
DATABASE_USER = INVALID_TAG
ERROR = INVALID_TAG
HTTP_METHOD = INVALID_TAG
HTTP_STATUS_CODE = INVALID_TAG
HTTP_URL = INVALID_TAG
MESSAGE_BUS_DESTINATION = INVALID_TAG
PEER_ADDRESS = INVALID_TAG
PEER_HOSTNAME = INVALID_TAG
PEER_HOST_IPV4 = INVALID_TAG
PEER_HOST_IPV6 = INVALID_TAG
PEER_PORT = INVALID_TAG
PEER_SERVICE = INVALID_TAG
SAMPLING_PRIORITY = INVALID_TAG
SERVICE = INVALID_TAG
SPAN_KIND = INVALID_TAG
SPAN_KIND_CONSUMER = INVALID_TAG
SPAN_KIND_PRODUCER = INVALID_TAG
SPAN_KIND_RPC_CLIENT = INVALID_TAG
SPAN_KIND_RPC_SERVER = INVALID_TAG
try:
import opentracing
import opentracing.tags
tags = opentracing.tags
except ImportError:
opentracing = None # type: ignore[assignment]
tags = _DummyTagNames # type: ignore[assignment]
try:
from jaeger_client import Config as JaegerConfig
from synapse.logging.scopecontextmanager import LogContextScopeManager
except ImportError:
JaegerConfig = None # type: ignore
LogContextScopeManager = None # type: ignore
try:
from rust_python_jaeger_reporter import Reporter
# jaeger-client 4.7.0 requires that reporters inherit from BaseReporter, which
# didn't exist before that version.
try:
from jaeger_client.reporter import BaseReporter
except ImportError:
class BaseReporter: # type: ignore[no-redef]
pass
@attr.s(slots=True, frozen=True, auto_attribs=True)
class _WrappedRustReporter(BaseReporter):
"""Wrap the reporter to ensure `report_span` never throws."""
_reporter: Reporter = attr.Factory(Reporter)
def set_process(self, *args: Any, **kwargs: Any) -> None:
return self._reporter.set_process(*args, **kwargs)
def report_span(self, span: "opentracing.Span") -> None:
try:
return self._reporter.report_span(span)
except Exception:
logger.exception("Failed to report span")
RustReporter: Optional[Type[_WrappedRustReporter]] = _WrappedRustReporter
except ImportError:
RustReporter = None
logger = logging.getLogger(__name__)
class SynapseTags:
# The message ID of any to_device EDU processed
TO_DEVICE_EDU_ID = "to_device.edu_id"
# Details about to-device messages
TO_DEVICE_TYPE = "to_device.type"
TO_DEVICE_SENDER = "to_device.sender"
TO_DEVICE_RECIPIENT = "to_device.recipient"
TO_DEVICE_RECIPIENT_DEVICE = "to_device.recipient_device"
TO_DEVICE_MSGID = "to_device.msgid" # client-generated ID
# Whether the sync response has new data to be returned to the client.
SYNC_RESULT = "sync.new_data"
INSTANCE_NAME = "instance_name"
# incoming HTTP request ID (as written in the logs)
REQUEST_ID = "request_id"
# HTTP request tag (used to distinguish full vs incremental syncs, etc)
REQUEST_TAG = "request_tag"
# Text description of a database transaction
DB_TXN_DESC = "db.txn_desc"
# Uniqueish ID of a database transaction
DB_TXN_ID = "db.txn_id"
# The name of the external cache
CACHE_NAME = "cache.name"
# Boolean. Present on /v2/send_join requests, omitted from all others.
# True iff partial state was requested and we provided (or intended to provide)
# partial state in the response.
SEND_JOIN_RESPONSE_IS_PARTIAL_STATE = "send_join.partial_state_response"
# Used to tag function arguments
#
# Tag a named arg. The name of the argument should be appended to this prefix.
FUNC_ARG_PREFIX = "ARG."
# Tag extra variadic number of positional arguments (`def foo(first, second, *extras)`)
FUNC_ARGS = "args"
# Tag keyword args
FUNC_KWARGS = "kwargs"
# Some intermediate result that's interesting to the function. The label for
# the result should be appended to this prefix.
RESULT_PREFIX = "RESULT."
class SynapseBaggage:
FORCE_TRACING = "synapse-force-tracing"
# Block everything by default
# A regex which matches the server_names to expose traces for.
# None means 'block everything'.
_homeserver_whitelist: Optional[Pattern[str]] = None
# Util methods
class _Sentinel(enum.Enum):
# defining a sentinel in this way allows mypy to correctly handle the
# type of a dictionary lookup.
sentinel = object()
P = ParamSpec("P")
R = TypeVar("R")
T = TypeVar("T")
def only_if_tracing(func: Callable[P, R]) -> Callable[P, Optional[R]]:
"""Executes the function only if we're tracing. Otherwise returns None."""
@wraps(func)
def _only_if_tracing_inner(*args: P.args, **kwargs: P.kwargs) -> Optional[R]:
if opentracing:
return func(*args, **kwargs)
else:
return None
return _only_if_tracing_inner
@overload
def ensure_active_span(
message: str,
) -> Callable[[Callable[P, R]], Callable[P, Optional[R]]]:
...
@overload
def ensure_active_span(
message: str, ret: T
) -> Callable[[Callable[P, R]], Callable[P, Union[T, R]]]:
...
def ensure_active_span(
message: str, ret: Optional[T] = None
) -> Callable[[Callable[P, R]], Callable[P, Union[Optional[T], R]]]:
"""Executes the operation only if opentracing is enabled and there is an active span.
If there is no active span it logs message at the error level.
Args:
message: Message which fills in "There was no active span when trying to %s"
in the error log if there is no active span and opentracing is enabled.
ret: return value if opentracing is None or there is no active span.
Returns:
The result of the func, falling back to ret if opentracing is disabled or there
was no active span.
"""
def ensure_active_span_inner_1(
func: Callable[P, R]
) -> Callable[P, Union[Optional[T], R]]:
@wraps(func)
def ensure_active_span_inner_2(
*args: P.args, **kwargs: P.kwargs
) -> Union[Optional[T], R]:
if not opentracing:
return ret
if not opentracing.tracer.active_span:
logger.error(
"There was no active span when trying to %s."
" Did you forget to start one or did a context slip?",
message,
stack_info=True,
)
return ret
return func(*args, **kwargs)
return ensure_active_span_inner_2
return ensure_active_span_inner_1
# Setup
def init_tracer(hs: "HomeServer") -> None:
"""Set the whitelists and initialise the JaegerClient tracer"""
global opentracing
if not hs.config.tracing.opentracer_enabled:
# We don't have a tracer
opentracing = None # type: ignore[assignment]
return
if opentracing is None or JaegerConfig is None:
raise ConfigError(
"The server has been configured to use opentracing but opentracing is not "
"installed."
)
# Pull out the jaeger config if it was given. Otherwise set it to something sensible.
# See https://github.com/jaegertracing/jaeger-client-python/blob/master/jaeger_client/config.py
set_homeserver_whitelist(hs.config.tracing.opentracer_whitelist)
from jaeger_client.metrics.prometheus import PrometheusMetricsFactory
# Instance names are opaque strings but by stripping off the number suffix,
# we can get something that looks like a "worker type", e.g.
# "client_reader-1" -> "client_reader" so we don't spread the traces across
# so many services.
instance_name_by_type = re.sub(
STRIP_INSTANCE_NUMBER_SUFFIX_REGEX, "", hs.get_instance_name()
)
jaeger_config = hs.config.tracing.jaeger_config
tags = jaeger_config.setdefault("tags", {})
# tag the Synapse instance name so that it's an easy jumping
# off point into the logs. Can also be used to filter for an
# instance that is under load.
tags[SynapseTags.INSTANCE_NAME] = hs.get_instance_name()
config = JaegerConfig(
config=jaeger_config,
service_name=f"{hs.config.server.server_name} {instance_name_by_type}",
scope_manager=LogContextScopeManager(),
metrics_factory=PrometheusMetricsFactory(),
)
# If we have the rust jaeger reporter available let's use that.
if RustReporter:
logger.info("Using rust_python_jaeger_reporter library")
assert config.sampler is not None
tracer = config.create_tracer(RustReporter(), config.sampler)
opentracing.set_global_tracer(tracer)
else:
config.initialize_tracer()
# Whitelisting
@only_if_tracing
def set_homeserver_whitelist(homeserver_whitelist: Iterable[str]) -> None:
"""Sets the homeserver whitelist
Args:
homeserver_whitelist: regexes specifying whitelisted homeservers
"""
global _homeserver_whitelist
if homeserver_whitelist:
# Makes a single regex which accepts all passed in regexes in the list
_homeserver_whitelist = re.compile(
"({})".format(")|(".join(homeserver_whitelist))
)
@only_if_tracing
def whitelisted_homeserver(destination: str) -> bool:
"""Checks if a destination matches the whitelist
Args:
destination
"""
if _homeserver_whitelist:
return _homeserver_whitelist.match(destination) is not None
return False
# Start spans and scopes
# Could use kwargs but I want these to be explicit
def start_active_span(
operation_name: str,
child_of: Optional[Union["opentracing.Span", "opentracing.SpanContext"]] = None,
references: Optional[List["opentracing.Reference"]] = None,
tags: Optional[Dict[str, str]] = None,
start_time: Optional[float] = None,
ignore_active_span: bool = False,
finish_on_close: bool = True,
*,
tracer: Optional["opentracing.Tracer"] = None,
) -> "opentracing.Scope":
"""Starts an active opentracing span.
Records the start time for the span, and sets it as the "active span" in the
scope manager.
Args:
See opentracing.tracer
Returns:
scope (Scope) or contextlib.nullcontext
"""
if opentracing is None:
return contextlib.nullcontext() # type: ignore[unreachable]
if tracer is None:
# use the global tracer by default
tracer = opentracing.tracer
return tracer.start_active_span(
operation_name,
child_of=child_of,
references=references,
tags=tags,
start_time=start_time,
ignore_active_span=ignore_active_span,
finish_on_close=finish_on_close,
)
def start_active_span_follows_from(
operation_name: str,
contexts: Collection,
child_of: Optional[Union["opentracing.Span", "opentracing.SpanContext"]] = None,
start_time: Optional[float] = None,
*,
inherit_force_tracing: bool = False,
tracer: Optional["opentracing.Tracer"] = None,
) -> "opentracing.Scope":
"""Starts an active opentracing span, with additional references to previous spans
Args:
operation_name: name of the operation represented by the new span
contexts: the previous spans to inherit from
child_of: optionally override the parent span. If unset, the currently active
span will be the parent. (If there is no currently active span, the first
span in `contexts` will be the parent.)
start_time: optional override for the start time of the created span. Seconds
since the epoch.
inherit_force_tracing: if set, and any of the previous contexts have had tracing
forced, the new span will also have tracing forced.
tracer: override the opentracing tracer. By default the global tracer is used.
"""
if opentracing is None:
return contextlib.nullcontext() # type: ignore[unreachable]
references = [opentracing.follows_from(context) for context in contexts]
scope = start_active_span(
operation_name,
child_of=child_of,
references=references,
start_time=start_time,
tracer=tracer,
)
if inherit_force_tracing and any(
is_context_forced_tracing(ctx) for ctx in contexts
):
force_tracing(scope.span)
return scope
def start_active_span_from_edu(
edu_content: Dict[str, Any],
operation_name: str,
references: Optional[List["opentracing.Reference"]] = None,
tags: Optional[Dict[str, str]] = None,
start_time: Optional[float] = None,
ignore_active_span: bool = False,
finish_on_close: bool = True,
) -> "opentracing.Scope":
"""
Extracts a span context from an edu and uses it to start a new active span
Args:
edu_content: an edu_content with a `context` field whose value is
canonical json for a dict which contains opentracing information.
For the other args see opentracing.tracer
"""
references = references or []
if opentracing is None:
return contextlib.nullcontext() # type: ignore[unreachable]
carrier = json_decoder.decode(edu_content.get("context", "{}")).get(
"opentracing", {}
)
context = opentracing.tracer.extract(opentracing.Format.TEXT_MAP, carrier)
_references = [
opentracing.child_of(span_context_from_string(x))
for x in carrier.get("references", [])
]
# For some reason jaeger decided not to support the visualization of multiple parent
# spans or explicitly show references. I include the span context as a tag here as
# an aid to people debugging but it's really not an ideal solution.
references += _references
scope = opentracing.tracer.start_active_span(
operation_name,
child_of=context,
references=references,
tags=tags,
start_time=start_time,
ignore_active_span=ignore_active_span,
finish_on_close=finish_on_close,
)
scope.span.set_tag("references", carrier.get("references", []))
return scope
# Opentracing setters for tags, logs, etc
@only_if_tracing
def active_span() -> Optional["opentracing.Span"]:
"""Get the currently active span, if any"""
return opentracing.tracer.active_span
@ensure_active_span("set a tag")
def set_tag(key: str, value: Union[str, bool, int, float]) -> None:
"""Sets a tag on the active span"""
assert opentracing.tracer.active_span is not None
opentracing.tracer.active_span.set_tag(key, value)
@ensure_active_span("log")
def log_kv(key_values: Dict[str, Any], timestamp: Optional[float] = None) -> None:
"""Log to the active span"""
assert opentracing.tracer.active_span is not None
opentracing.tracer.active_span.log_kv(key_values, timestamp)
@ensure_active_span("set the traces operation name")
def set_operation_name(operation_name: str) -> None:
"""Sets the operation name of the active span"""
assert opentracing.tracer.active_span is not None
opentracing.tracer.active_span.set_operation_name(operation_name)
@only_if_tracing
def force_tracing(
span: Union["opentracing.Span", _Sentinel] = _Sentinel.sentinel
) -> None:
"""Force sampling for the active/given span and its children.
Args:
span: span to force tracing for. By default, the active span.
"""
if isinstance(span, _Sentinel):
span_to_trace = opentracing.tracer.active_span
else:
span_to_trace = span
if span_to_trace is None:
logger.error("No active span in force_tracing")
return
span_to_trace.set_tag(opentracing.tags.SAMPLING_PRIORITY, 1)
# also set a bit of baggage, so that we have a way of figuring out if
# it is enabled later
span_to_trace.set_baggage_item(SynapseBaggage.FORCE_TRACING, "1")
def is_context_forced_tracing(
span_context: Optional["opentracing.SpanContext"],
) -> bool:
"""Check if sampling has been force for the given span context."""
if span_context is None:
return False
return span_context.baggage.get(SynapseBaggage.FORCE_TRACING) is not None
# Injection and extraction
@ensure_active_span("inject the span into a header dict")
def inject_header_dict(
headers: Dict[bytes, List[bytes]],
destination: Optional[str] = None,
check_destination: bool = True,
) -> None:
"""
Injects a span context into a dict of HTTP headers
Args:
headers: the dict to inject headers into
destination: address of entity receiving the span context. Must be given unless
check_destination is False. The context will only be injected if the
destination matches the opentracing whitelist
check_destination: If false, destination will be ignored and the context
will always be injected.
Note:
The headers set by the tracer are custom to the tracer implementation which
should be unique enough that they don't interfere with any headers set by
synapse or twisted. If we're still using jaeger these headers would be those
here:
https://github.com/jaegertracing/jaeger-client-python/blob/master/jaeger_client/constants.py
"""
if check_destination:
if destination is None:
raise ValueError(
"destination must be given unless check_destination is False"
)
if not whitelisted_homeserver(destination):
return
span = opentracing.tracer.active_span
carrier: Dict[str, str] = {}
assert span is not None
opentracing.tracer.inject(span.context, opentracing.Format.HTTP_HEADERS, carrier)
for key, value in carrier.items():
headers[key.encode()] = [value.encode()]
def inject_response_headers(response_headers: Headers) -> None:
"""Inject the current trace id into the HTTP response headers"""
if not opentracing:
return
span = opentracing.tracer.active_span
if not span:
return
# This is a bit implementation-specific.
#
# Jaeger's Spans have a trace_id property; other implementations (including the
# dummy opentracing.span.Span which we use if init_tracer is not called) do not
# expose it
trace_id = getattr(span, "trace_id", None)
if trace_id is not None:
response_headers.addRawHeader("Synapse-Trace-Id", f"{trace_id:x}")
@ensure_active_span(
"get the active span context as a dict", ret=cast(Dict[str, str], {})
)
def get_active_span_text_map(destination: Optional[str] = None) -> Dict[str, str]:
"""
Gets a span context as a dict. This can be used instead of manually
injecting a span into an empty carrier.
Args:
destination: the name of the remote server.
Returns:
the active span's context if opentracing is enabled, otherwise empty.
"""
if destination and not whitelisted_homeserver(destination):
return {}
carrier: Dict[str, str] = {}
assert opentracing.tracer.active_span is not None
opentracing.tracer.inject(
opentracing.tracer.active_span.context, opentracing.Format.TEXT_MAP, carrier
)
return carrier
@ensure_active_span("get the span context as a string.", ret={})
def active_span_context_as_string() -> str:
"""
Returns:
The active span context encoded as a string.
"""
carrier: Dict[str, str] = {}
if opentracing:
assert opentracing.tracer.active_span is not None
opentracing.tracer.inject(
opentracing.tracer.active_span.context, opentracing.Format.TEXT_MAP, carrier
)
return json_encoder.encode(carrier)
def span_context_from_request(request: Request) -> "Optional[opentracing.SpanContext]":
"""Extract an opentracing context from the headers on an HTTP request
This is useful when we have received an HTTP request from another part of our
system, and want to link our spans to those of the remote system.
"""
if not opentracing:
return None
header_dict = {
k.decode(): v[0].decode() for k, v in request.requestHeaders.getAllRawHeaders()
}
return opentracing.tracer.extract(opentracing.Format.HTTP_HEADERS, header_dict)
@only_if_tracing
def span_context_from_string(carrier: str) -> Optional["opentracing.SpanContext"]:
"""
Returns:
The active span context decoded from a string.
"""
payload: Dict[str, str] = json_decoder.decode(carrier)
return opentracing.tracer.extract(opentracing.Format.TEXT_MAP, payload)
@only_if_tracing
def extract_text_map(carrier: Dict[str, str]) -> Optional["opentracing.SpanContext"]:
"""
Wrapper method for opentracing's tracer.extract for TEXT_MAP.
Args:
carrier: a dict possibly containing a span context.
Returns:
The active span context extracted from carrier.
"""
return opentracing.tracer.extract(opentracing.Format.TEXT_MAP, carrier)
# Tracing decorators
def _custom_sync_async_decorator(
func: Callable[P, R],
wrapping_logic: Callable[Concatenate[Callable[P, R], P], ContextManager[None]],
) -> Callable[P, R]:
"""
Decorates a function that is sync or async (coroutines), or that returns a Twisted
`Deferred`. The custom business logic of the decorator goes in `wrapping_logic`.
Example usage:
```py
# Decorator to time the function and log it out
def duration(func: Callable[P, R]) -> Callable[P, R]:
@contextlib.contextmanager
def _wrapping_logic(func: Callable[P, R], *args: P.args, **kwargs: P.kwargs) -> Generator[None, None, None]:
start_ts = time.time()
try:
yield
finally:
end_ts = time.time()
duration = end_ts - start_ts
logger.info("%s took %s seconds", func.__name__, duration)
return _custom_sync_async_decorator(func, _wrapping_logic)
```
Args:
func: The function to be decorated
wrapping_logic: The business logic of your custom decorator.
This should be a ContextManager so you are able to run your logic
before/after the function as desired.
"""
if inspect.iscoroutinefunction(func):
# For this branch, we handle async functions like `async def func() -> RInner`.
# In this branch, R = Awaitable[RInner], for some other type RInner
@wraps(func)
async def _wrapper(
*args: P.args, **kwargs: P.kwargs
) -> Any: # Return type is RInner
with wrapping_logic(func, *args, **kwargs):
# type-ignore: func() returns R, but mypy doesn't know that R is
# Awaitable here.
return await func(*args, **kwargs) # type: ignore[misc]
else:
# The other case here handles sync functions including those decorated with
# `@defer.inlineCallbacks` or that return a `Deferred` or other `Awaitable`.
@wraps(func)
def _wrapper(*args: P.args, **kwargs: P.kwargs) -> Any:
scope = wrapping_logic(func, *args, **kwargs)
scope.__enter__()
try:
result = func(*args, **kwargs)
if isinstance(result, defer.Deferred):
def call_back(result: R) -> R:
scope.__exit__(None, None, None)
return result
def err_back(result: R) -> R:
# TODO: Pass the error details into `scope.__exit__(...)` for
# consistency with the other paths.
scope.__exit__(None, None, None)
return result
result.addCallbacks(call_back, err_back)
elif inspect.isawaitable(result):
async def wrap_awaitable() -> Any:
try:
assert isinstance(result, Awaitable)
awaited_result = await result
scope.__exit__(None, None, None)
return awaited_result
except Exception as e:
scope.__exit__(type(e), None, e.__traceback__)
raise
# The original method returned an awaitable, eg. a coroutine, so we
# create another awaitable wrapping it that calls
# `scope.__exit__(...)`.
return wrap_awaitable()
else:
# Just a simple sync function so we can just exit the scope and
# return the result without any fuss.
scope.__exit__(None, None, None)
return result
except Exception as e:
scope.__exit__(type(e), None, e.__traceback__)
raise
return _wrapper # type: ignore[return-value]
def trace_with_opname(
opname: str,
*,
tracer: Optional["opentracing.Tracer"] = None,
) -> Callable[[Callable[P, R]], Callable[P, R]]:
"""
Decorator to trace a function with a custom opname.
See the module's doc string for usage examples.
"""
# type-ignore: mypy bug, see https://github.com/python/mypy/issues/12909
@contextlib.contextmanager # type: ignore[arg-type]
def _wrapping_logic(
func: Callable[P, R], *args: P.args, **kwargs: P.kwargs
) -> Generator[None, None, None]:
with start_active_span(opname, tracer=tracer):
yield
def _decorator(func: Callable[P, R]) -> Callable[P, R]:
if not opentracing:
return func
# type-ignore: mypy seems to be confused by the ParamSpecs here.
# I think the problem is https://github.com/python/mypy/issues/12909
return _custom_sync_async_decorator(
func, _wrapping_logic # type: ignore[arg-type]
)
return _decorator
def trace(func: Callable[P, R]) -> Callable[P, R]:
"""
Decorator to trace a function.
Sets the operation name to that of the function's name.
See the module's doc string for usage examples.
"""
return trace_with_opname(func.__name__)(func)
def tag_args(func: Callable[P, R]) -> Callable[P, R]:
"""
Decorator to tag all of the args to the active span.
Args:
func: `func` is assumed to be a method taking a `self` parameter, or a
`classmethod` taking a `cls` parameter. In either case, a tag is not
created for this parameter.
"""
if not opentracing:
return func
# type-ignore: mypy bug, see https://github.com/python/mypy/issues/12909
@contextlib.contextmanager # type: ignore[arg-type]
def _wrapping_logic(
func: Callable[P, R], *args: P.args, **kwargs: P.kwargs
) -> Generator[None, None, None]:
argspec = inspect.getfullargspec(func)
# We use `[1:]` to skip the `self` object reference and `start=1` to
# make the index line up with `argspec.args`.
#
# FIXME: We could update this to handle any type of function by ignoring the
# first argument only if it's named `self` or `cls`. This isn't fool-proof
# but handles the idiomatic cases.
for i, arg in enumerate(args[1:], start=1):
set_tag(SynapseTags.FUNC_ARG_PREFIX + argspec.args[i], str(arg))
set_tag(SynapseTags.FUNC_ARGS, str(args[len(argspec.args) :]))
set_tag(SynapseTags.FUNC_KWARGS, str(kwargs))
yield
# type-ignore: mypy seems to be confused by the ParamSpecs here.
# I think the problem is https://github.com/python/mypy/issues/12909
return _custom_sync_async_decorator(func, _wrapping_logic) # type: ignore[arg-type]
@contextlib.contextmanager
def trace_servlet(
request: "SynapseRequest", extract_context: bool = False
) -> Generator[None, None, None]:
"""Returns a context manager which traces a request. It starts a span
with some servlet specific tags such as the request metrics name and
request information.
Args:
request
extract_context: Whether to attempt to extract the opentracing
context from the request the servlet is handling.
"""
if opentracing is None:
yield # type: ignore[unreachable]
return
request_tags = {
SynapseTags.REQUEST_ID: request.get_request_id(),
tags.SPAN_KIND: tags.SPAN_KIND_RPC_SERVER,
tags.HTTP_METHOD: request.get_method(),
tags.HTTP_URL: request.get_redacted_uri(),
tags.PEER_HOST_IPV6: request.getClientAddress().host,
}
request_name = request.request_metrics.name
context = span_context_from_request(request) if extract_context else None
# we configure the scope not to finish the span immediately on exit, and instead
# pass the span into the SynapseRequest, which will finish it once we've finished
# sending the response to the client.
scope = start_active_span(request_name, child_of=context, finish_on_close=False)
request.set_opentracing_span(scope.span)
with scope:
inject_response_headers(request.responseHeaders)
try:
yield
finally:
# We set the operation name again in case its changed (which happens
# with JsonResource).
scope.span.set_operation_name(request.request_metrics.name)
request_tags[
SynapseTags.REQUEST_TAG
] = request.request_metrics.start_context.tag
# set the tags *after* the servlet completes, in case it decided to
# prioritise the span (tags will get dropped on unprioritised spans)
for k, v in request_tags.items():
scope.span.set_tag(k, v)
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