forked-synapse/synapse/http/site.py
2021-12-14 07:00:47 -05:00

574 lines
21 KiB
Python

# Copyright 2016 OpenMarket Ltd
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
import contextlib
import logging
import time
from typing import Any, Generator, Optional, Tuple, Union
import attr
from zope.interface import implementer
from twisted.internet.interfaces import IAddress, IReactorTime
from twisted.python.failure import Failure
from twisted.web.http import HTTPChannel
from twisted.web.resource import IResource, Resource
from twisted.web.server import Request, Site
from synapse.config.server import ListenerConfig
from synapse.http import get_request_user_agent, redact_uri
from synapse.http.request_metrics import RequestMetrics, requests_counter
from synapse.logging.context import (
ContextRequest,
LoggingContext,
PreserveLoggingContext,
)
from synapse.types import Requester
logger = logging.getLogger(__name__)
_next_request_seq = 0
class SynapseRequest(Request):
"""Class which encapsulates an HTTP request to synapse.
All of the requests processed in synapse are of this type.
It extends twisted's twisted.web.server.Request, and adds:
* Unique request ID
* A log context associated with the request
* Redaction of access_token query-params in __repr__
* Logging at start and end
* Metrics to record CPU, wallclock and DB time by endpoint.
* A limit to the size of request which will be accepted
It also provides a method `processing`, which returns a context manager. If this
method is called, the request won't be logged until the context manager is closed;
this is useful for asynchronous request handlers which may go on processing the
request even after the client has disconnected.
Attributes:
logcontext: the log context for this request
"""
def __init__(
self,
channel: HTTPChannel,
site: "SynapseSite",
*args: Any,
max_request_body_size: int = 1024,
**kw: Any,
):
super().__init__(channel, *args, **kw)
self._max_request_body_size = max_request_body_size
self.synapse_site = site
self.reactor = site.reactor
self._channel = channel # this is used by the tests
self.start_time = 0.0
# The requester, if authenticated. For federation requests this is the
# server name, for client requests this is the Requester object.
self._requester: Optional[Union[Requester, str]] = None
# we can't yet create the logcontext, as we don't know the method.
self.logcontext: Optional[LoggingContext] = None
global _next_request_seq
self.request_seq = _next_request_seq
_next_request_seq += 1
# whether an asynchronous request handler has called processing()
self._is_processing = False
# the time when the asynchronous request handler completed its processing
self._processing_finished_time: Optional[float] = None
# what time we finished sending the response to the client (or the connection
# dropped)
self.finish_time: Optional[float] = None
def __repr__(self) -> str:
# We overwrite this so that we don't log ``access_token``
return "<%s at 0x%x method=%r uri=%r clientproto=%r site=%r>" % (
self.__class__.__name__,
id(self),
self.get_method(),
self.get_redacted_uri(),
self.clientproto.decode("ascii", errors="replace"),
self.synapse_site.site_tag,
)
def handleContentChunk(self, data: bytes) -> None:
# we should have a `content` by now.
assert self.content, "handleContentChunk() called before gotLength()"
if self.content.tell() + len(data) > self._max_request_body_size:
logger.warning(
"Aborting connection from %s because the request exceeds maximum size: %s %s",
self.client,
self.get_method(),
self.get_redacted_uri(),
)
self.transport.abortConnection()
return
super().handleContentChunk(data)
@property
def requester(self) -> Optional[Union[Requester, str]]:
return self._requester
@requester.setter
def requester(self, value: Union[Requester, str]) -> None:
# Store the requester, and update some properties based on it.
# This should only be called once.
assert self._requester is None
self._requester = value
# A logging context should exist by now (and have a ContextRequest).
assert self.logcontext is not None
assert self.logcontext.request is not None
(
requester,
authenticated_entity,
) = self.get_authenticated_entity()
self.logcontext.request.requester = requester
# If there's no authenticated entity, it was the requester.
self.logcontext.request.authenticated_entity = authenticated_entity or requester
def get_request_id(self) -> str:
return "%s-%i" % (self.get_method(), self.request_seq)
def get_redacted_uri(self) -> str:
"""Gets the redacted URI associated with the request (or placeholder if the URI
has not yet been received).
Note: This is necessary as the placeholder value in twisted is str
rather than bytes, so we need to sanitise `self.uri`.
Returns:
The redacted URI as a string.
"""
uri: Union[bytes, str] = self.uri
if isinstance(uri, bytes):
uri = uri.decode("ascii", errors="replace")
return redact_uri(uri)
def get_method(self) -> str:
"""Gets the method associated with the request (or placeholder if method
has not yet been received).
Note: This is necessary as the placeholder value in twisted is str
rather than bytes, so we need to sanitise `self.method`.
Returns:
The request method as a string.
"""
method: Union[bytes, str] = self.method
if isinstance(method, bytes):
return self.method.decode("ascii")
return method
def get_authenticated_entity(self) -> Tuple[Optional[str], Optional[str]]:
"""
Get the "authenticated" entity of the request, which might be the user
performing the action, or a user being puppeted by a server admin.
Returns:
A tuple:
The first item is a string representing the user making the request.
The second item is a string or None representing the user who
authenticated when making this request. See
Requester.authenticated_entity.
"""
# Convert the requester into a string that we can log
if isinstance(self._requester, str):
return self._requester, None
elif isinstance(self._requester, Requester):
requester = self._requester.user.to_string()
authenticated_entity = self._requester.authenticated_entity
# If this is a request where the target user doesn't match the user who
# authenticated (e.g. and admin is puppetting a user) then we return both.
if self._requester.user.to_string() != authenticated_entity:
return requester, authenticated_entity
return requester, None
elif self._requester is not None:
# This shouldn't happen, but we log it so we don't lose information
# and can see that we're doing something wrong.
return repr(self._requester), None # type: ignore[unreachable]
return None, None
def render(self, resrc: Resource) -> None:
# this is called once a Resource has been found to serve the request; in our
# case the Resource in question will normally be a JsonResource.
# create a LogContext for this request
request_id = self.get_request_id()
self.logcontext = LoggingContext(
request_id,
request=ContextRequest(
request_id=request_id,
ip_address=self.getClientIP(),
site_tag=self.synapse_site.site_tag,
# The requester is going to be unknown at this point.
requester=None,
authenticated_entity=None,
method=self.get_method(),
url=self.get_redacted_uri(),
protocol=self.clientproto.decode("ascii", errors="replace"),
user_agent=get_request_user_agent(self),
),
)
# override the Server header which is set by twisted
self.setHeader("Server", self.synapse_site.server_version_string)
with PreserveLoggingContext(self.logcontext):
# we start the request metrics timer here with an initial stab
# at the servlet name. For most requests that name will be
# JsonResource (or a subclass), and JsonResource._async_render
# will update it once it picks a servlet.
servlet_name = resrc.__class__.__name__
self._started_processing(servlet_name)
Request.render(self, resrc)
# record the arrival of the request *after*
# dispatching to the handler, so that the handler
# can update the servlet name in the request
# metrics
requests_counter.labels(self.get_method(), self.request_metrics.name).inc()
@contextlib.contextmanager
def processing(self) -> Generator[None, None, None]:
"""Record the fact that we are processing this request.
Returns a context manager; the correct way to use this is:
async def handle_request(request):
with request.processing("FooServlet"):
await really_handle_the_request()
Once the context manager is closed, the completion of the request will be logged,
and the various metrics will be updated.
"""
if self._is_processing:
raise RuntimeError("Request is already processing")
self._is_processing = True
try:
yield
except Exception:
# this should already have been caught, and sent back to the client as a 500.
logger.exception(
"Asynchronous message handler raised an uncaught exception"
)
finally:
# the request handler has finished its work and either sent the whole response
# back, or handed over responsibility to a Producer.
self._processing_finished_time = time.time()
self._is_processing = False
# if we've already sent the response, log it now; otherwise, we wait for the
# response to be sent.
if self.finish_time is not None:
self._finished_processing()
def finish(self) -> None:
"""Called when all response data has been written to this Request.
Overrides twisted.web.server.Request.finish to record the finish time and do
logging.
"""
self.finish_time = time.time()
Request.finish(self)
if not self._is_processing:
assert self.logcontext is not None
with PreserveLoggingContext(self.logcontext):
self._finished_processing()
def connectionLost(self, reason: Union[Failure, Exception]) -> None:
"""Called when the client connection is closed before the response is written.
Overrides twisted.web.server.Request.connectionLost to record the finish time and
do logging.
"""
# There is a bug in Twisted where reason is not wrapped in a Failure object
# Detect this and wrap it manually as a workaround
# More information: https://github.com/matrix-org/synapse/issues/7441
if not isinstance(reason, Failure):
reason = Failure(reason)
self.finish_time = time.time()
Request.connectionLost(self, reason)
if self.logcontext is None:
logger.info(
"Connection from %s lost before request headers were read", self.client
)
return
# we only get here if the connection to the client drops before we send
# the response.
#
# It's useful to log it here so that we can get an idea of when
# the client disconnects.
with PreserveLoggingContext(self.logcontext):
logger.info("Connection from client lost before response was sent")
if not self._is_processing:
self._finished_processing()
def _started_processing(self, servlet_name: str) -> None:
"""Record the fact that we are processing this request.
This will log the request's arrival. Once the request completes,
be sure to call finished_processing.
Args:
servlet_name (str): the name of the servlet which will be
processing this request. This is used in the metrics.
It is possible to update this afterwards by updating
self.request_metrics.name.
"""
self.start_time = time.time()
self.request_metrics = RequestMetrics()
self.request_metrics.start(
self.start_time, name=servlet_name, method=self.get_method()
)
self.synapse_site.access_logger.debug(
"%s - %s - Received request: %s %s",
self.getClientIP(),
self.synapse_site.site_tag,
self.get_method(),
self.get_redacted_uri(),
)
def _finished_processing(self) -> None:
"""Log the completion of this request and update the metrics"""
assert self.logcontext is not None
assert self.finish_time is not None
usage = self.logcontext.get_resource_usage()
if self._processing_finished_time is None:
# we completed the request without anything calling processing()
self._processing_finished_time = time.time()
# the time between receiving the request and the request handler finishing
processing_time = self._processing_finished_time - self.start_time
# the time between the request handler finishing and the response being sent
# to the client (nb may be negative)
response_send_time = self.finish_time - self._processing_finished_time
user_agent = get_request_user_agent(self, "-")
code = str(self.code)
if not self.finished:
# we didn't send the full response before we gave up (presumably because
# the connection dropped)
code += "!"
log_level = logging.INFO if self._should_log_request() else logging.DEBUG
# If this is a request where the target user doesn't match the user who
# authenticated (e.g. and admin is puppetting a user) then we log both.
requester, authenticated_entity = self.get_authenticated_entity()
if authenticated_entity:
requester = f"{authenticated_entity}|{requester}"
self.synapse_site.access_logger.log(
log_level,
"%s - %s - {%s}"
" Processed request: %.3fsec/%.3fsec (%.3fsec, %.3fsec) (%.3fsec/%.3fsec/%d)"
' %sB %s "%s %s %s" "%s" [%d dbevts]',
self.getClientIP(),
self.synapse_site.site_tag,
requester,
processing_time,
response_send_time,
usage.ru_utime,
usage.ru_stime,
usage.db_sched_duration_sec,
usage.db_txn_duration_sec,
int(usage.db_txn_count),
self.sentLength,
code,
self.get_method(),
self.get_redacted_uri(),
self.clientproto.decode("ascii", errors="replace"),
user_agent,
usage.evt_db_fetch_count,
)
try:
self.request_metrics.stop(self.finish_time, self.code, self.sentLength)
except Exception as e:
logger.warning("Failed to stop metrics: %r", e)
def _should_log_request(self) -> bool:
"""Whether we should log at INFO that we processed the request."""
if self.path == b"/health":
return False
if self.method == b"OPTIONS":
return False
return True
class XForwardedForRequest(SynapseRequest):
"""Request object which honours proxy headers
Extends SynapseRequest to replace getClientIP, getClientAddress, and isSecure with
information from request headers.
"""
# the client IP and ssl flag, as extracted from the headers.
_forwarded_for: "Optional[_XForwardedForAddress]" = None
_forwarded_https: bool = False
def requestReceived(self, command: bytes, path: bytes, version: bytes) -> None:
# this method is called by the Channel once the full request has been
# received, to dispatch the request to a resource.
# We can use it to set the IP address and protocol according to the
# headers.
self._process_forwarded_headers()
return super().requestReceived(command, path, version)
def _process_forwarded_headers(self) -> None:
headers = self.requestHeaders.getRawHeaders(b"x-forwarded-for")
if not headers:
return
# for now, we just use the first x-forwarded-for header. Really, we ought
# to start from the client IP address, and check whether it is trusted; if it
# is, work backwards through the headers until we find an untrusted address.
# see https://github.com/matrix-org/synapse/issues/9471
self._forwarded_for = _XForwardedForAddress(
headers[0].split(b",")[0].strip().decode("ascii")
)
# if we got an x-forwarded-for header, also look for an x-forwarded-proto header
header = self.getHeader(b"x-forwarded-proto")
if header is not None:
self._forwarded_https = header.lower() == b"https"
else:
# this is done largely for backwards-compatibility so that people that
# haven't set an x-forwarded-proto header don't get a redirect loop.
logger.warning(
"forwarded request lacks an x-forwarded-proto header: assuming https"
)
self._forwarded_https = True
def isSecure(self) -> bool:
if self._forwarded_https:
return True
return super().isSecure()
def getClientIP(self) -> str:
"""
Return the IP address of the client who submitted this request.
This method is deprecated. Use getClientAddress() instead.
"""
if self._forwarded_for is not None:
return self._forwarded_for.host
return super().getClientIP()
def getClientAddress(self) -> IAddress:
"""
Return the address of the client who submitted this request.
"""
if self._forwarded_for is not None:
return self._forwarded_for
return super().getClientAddress()
@implementer(IAddress)
@attr.s(frozen=True, slots=True)
class _XForwardedForAddress:
host = attr.ib(type=str)
class SynapseSite(Site):
"""
Synapse-specific twisted http Site
This does two main things.
First, it replaces the requestFactory in use so that we build SynapseRequests
instead of regular t.w.server.Requests. All of the constructor params are really
just parameters for SynapseRequest.
Second, it inhibits the log() method called by Request.finish, since SynapseRequest
does its own logging.
"""
def __init__(
self,
logger_name: str,
site_tag: str,
config: ListenerConfig,
resource: IResource,
server_version_string: str,
max_request_body_size: int,
reactor: IReactorTime,
):
"""
Args:
logger_name: The name of the logger to use for access logs.
site_tag: A tag to use for this site - mostly in access logs.
config: Configuration for the HTTP listener corresponding to this site
resource: The base of the resource tree to be used for serving requests on
this site
server_version_string: A string to present for the Server header
max_request_body_size: Maximum request body length to allow before
dropping the connection
reactor: reactor to be used to manage connection timeouts
"""
Site.__init__(self, resource, reactor=reactor)
self.site_tag = site_tag
self.reactor = reactor
assert config.http_options is not None
proxied = config.http_options.x_forwarded
request_class = XForwardedForRequest if proxied else SynapseRequest
def request_factory(channel: HTTPChannel, queued: bool) -> Request:
return request_class(
channel,
self,
max_request_body_size=max_request_body_size,
queued=queued,
)
self.requestFactory = request_factory # type: ignore
self.access_logger = logging.getLogger(logger_name)
self.server_version_string = server_version_string.encode("ascii")
def log(self, request: SynapseRequest) -> None:
pass