zulip/zerver/middleware.py

474 lines
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Python
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import cProfile
import logging
import time
import traceback
from typing import Any, AnyStr, Dict, \
Iterable, List, MutableMapping, Optional
from django.conf import settings
from django.core.exceptions import DisallowedHost
from django.db import connection
from django.http import HttpRequest, HttpResponse, StreamingHttpResponse
from django.middleware.common import CommonMiddleware
from django.shortcuts import render
from django.utils.deprecation import MiddlewareMixin
from django.utils.translation import ugettext as _
from django.views.csrf import csrf_failure as html_csrf_failure
from zerver.lib.bugdown import get_bugdown_requests, get_bugdown_time
from zerver.lib.cache import get_remote_cache_requests, get_remote_cache_time
from zerver.lib.debug import maybe_tracemalloc_listen
from zerver.lib.db import reset_queries
from zerver.lib.exceptions import ErrorCode, JsonableError, RateLimited
from zerver.lib.html_to_text import get_content_description
from zerver.lib.queue import queue_json_publish
from zerver.lib.rate_limiter import RateLimitResult
from zerver.lib.response import json_error, json_response_from_error
from zerver.lib.subdomains import get_subdomain
from zerver.lib.utils import statsd
from zerver.lib.types import ViewFuncT
from zerver.models import Realm, flush_per_request_caches, get_realm
logger = logging.getLogger('zulip.requests')
def record_request_stop_data(log_data: MutableMapping[str, Any]) -> None:
log_data['time_stopped'] = time.time()
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log_data['remote_cache_time_stopped'] = get_remote_cache_time()
log_data['remote_cache_requests_stopped'] = get_remote_cache_requests()
log_data['bugdown_time_stopped'] = get_bugdown_time()
log_data['bugdown_requests_stopped'] = get_bugdown_requests()
if settings.PROFILE_ALL_REQUESTS:
log_data["prof"].disable()
def async_request_timer_stop(request: HttpRequest) -> None:
record_request_stop_data(request._log_data)
def record_request_restart_data(log_data: MutableMapping[str, Any]) -> None:
if settings.PROFILE_ALL_REQUESTS:
log_data["prof"].enable()
log_data['time_restarted'] = time.time()
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log_data['remote_cache_time_restarted'] = get_remote_cache_time()
log_data['remote_cache_requests_restarted'] = get_remote_cache_requests()
log_data['bugdown_time_restarted'] = get_bugdown_time()
log_data['bugdown_requests_restarted'] = get_bugdown_requests()
def async_request_timer_restart(request: HttpRequest) -> None:
if "time_restarted" in request._log_data:
# Don't destroy data when being called from
# finish_current_handler
return
record_request_restart_data(request._log_data)
def record_request_start_data(log_data: MutableMapping[str, Any]) -> None:
if settings.PROFILE_ALL_REQUESTS:
log_data["prof"] = cProfile.Profile()
log_data["prof"].enable()
reset_queries()
log_data['time_started'] = time.time()
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log_data['remote_cache_time_start'] = get_remote_cache_time()
log_data['remote_cache_requests_start'] = get_remote_cache_requests()
log_data['bugdown_time_start'] = get_bugdown_time()
log_data['bugdown_requests_start'] = get_bugdown_requests()
def timedelta_ms(timedelta: float) -> float:
return timedelta * 1000
def format_timedelta(timedelta: float) -> str:
if (timedelta >= 1):
return "%.1fs" % (timedelta,)
return "%.0fms" % (timedelta_ms(timedelta),)
def is_slow_query(time_delta: float, path: str) -> bool:
if time_delta < 1.2:
return False
is_exempt = \
path in ["/activity", "/json/report/error",
"/api/v1/deployments/report_error"] \
or path.startswith("/realm_activity/") \
or path.startswith("/user_activity/")
if is_exempt:
return time_delta >= 5
if 'webathena_kerberos' in path:
return time_delta >= 10
return True
statsd_blacklisted_requests = [
'do_confirm', 'signup_send_confirm', 'new_realm_send_confirm,'
'eventslast_event_id', 'webreq.content', 'avatar', 'user_uploads',
'password.reset', 'static', 'json.bots', 'json.users', 'json.streams',
'accounts.unsubscribe', 'apple-touch-icon', 'emoji', 'json.bots',
'upload_file', 'realm_activity', 'user_activity'
]
def write_log_line(log_data: MutableMapping[str, Any], path: str, method: str, remote_ip: str,
requestor_for_logs: str, client_name: str, status_code: int=200,
error_content: Optional[AnyStr]=None,
error_content_iter: Optional[Iterable[AnyStr]]=None) -> None:
assert error_content is None or error_content_iter is None
if error_content is not None:
error_content_iter = (error_content,)
if settings.STATSD_HOST != '':
# For statsd timer name
if path == '/':
statsd_path = 'webreq'
else:
statsd_path = "webreq.%s" % (path[1:].replace('/', '.'),)
# Remove non-ascii chars from path (there should be none, if there are it's
# because someone manually entered a nonexistent path), as UTF-8 chars make
# statsd sad when it sends the key name over the socket
statsd_path = statsd_path.encode('ascii', errors='ignore').decode("ascii")
# TODO: This could probably be optimized to use a regular expression rather than a loop.
suppress_statsd = any(blacklisted in statsd_path for blacklisted in statsd_blacklisted_requests)
else:
suppress_statsd = True
statsd_path = ''
time_delta = -1
# A time duration of -1 means the StartLogRequests middleware
# didn't run for some reason
optional_orig_delta = ""
if 'time_started' in log_data:
time_delta = time.time() - log_data['time_started']
if 'time_stopped' in log_data:
orig_time_delta = time_delta
time_delta = ((log_data['time_stopped'] - log_data['time_started']) +
(time.time() - log_data['time_restarted']))
optional_orig_delta = " (lp: %s)" % (format_timedelta(orig_time_delta),)
remote_cache_output = ""
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if 'remote_cache_time_start' in log_data:
remote_cache_time_delta = get_remote_cache_time() - log_data['remote_cache_time_start']
remote_cache_count_delta = get_remote_cache_requests() - log_data['remote_cache_requests_start']
if 'remote_cache_requests_stopped' in log_data:
# (now - restarted) + (stopped - start) = (now - start) + (stopped - restarted)
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remote_cache_time_delta += (log_data['remote_cache_time_stopped'] -
log_data['remote_cache_time_restarted'])
remote_cache_count_delta += (log_data['remote_cache_requests_stopped'] -
log_data['remote_cache_requests_restarted'])
2016-03-31 03:23:21 +02:00
if (remote_cache_time_delta > 0.005):
remote_cache_output = " (mem: %s/%s)" % (format_timedelta(remote_cache_time_delta),
remote_cache_count_delta)
if not suppress_statsd:
statsd.timing("%s.remote_cache.time" % (statsd_path,), timedelta_ms(remote_cache_time_delta))
statsd.incr("%s.remote_cache.querycount" % (statsd_path,), remote_cache_count_delta)
startup_output = ""
if 'startup_time_delta' in log_data and log_data["startup_time_delta"] > 0.005:
startup_output = " (+start: %s)" % (format_timedelta(log_data["startup_time_delta"]),)
bugdown_output = ""
if 'bugdown_time_start' in log_data:
bugdown_time_delta = get_bugdown_time() - log_data['bugdown_time_start']
bugdown_count_delta = get_bugdown_requests() - log_data['bugdown_requests_start']
if 'bugdown_requests_stopped' in log_data:
# (now - restarted) + (stopped - start) = (now - start) + (stopped - restarted)
bugdown_time_delta += (log_data['bugdown_time_stopped'] -
log_data['bugdown_time_restarted'])
bugdown_count_delta += (log_data['bugdown_requests_stopped'] -
log_data['bugdown_requests_restarted'])
if (bugdown_time_delta > 0.005):
bugdown_output = " (md: %s/%s)" % (format_timedelta(bugdown_time_delta),
bugdown_count_delta)
if not suppress_statsd:
statsd.timing("%s.markdown.time" % (statsd_path,), timedelta_ms(bugdown_time_delta))
statsd.incr("%s.markdown.count" % (statsd_path,), bugdown_count_delta)
# Get the amount of time spent doing database queries
db_time_output = ""
queries = connection.connection.queries if connection.connection is not None else []
if len(queries) > 0:
query_time = sum(float(query.get('time', 0)) for query in queries)
db_time_output = " (db: %s/%sq)" % (format_timedelta(query_time),
len(queries))
if not suppress_statsd:
# Log ms, db ms, and num queries to statsd
statsd.timing("%s.dbtime" % (statsd_path,), timedelta_ms(query_time))
statsd.incr("%s.dbq" % (statsd_path,), len(queries))
statsd.timing("%s.total" % (statsd_path,), timedelta_ms(time_delta))
if 'extra' in log_data:
extra_request_data = " %s" % (log_data['extra'],)
else:
extra_request_data = ""
logger_client = "(%s via %s)" % (requestor_for_logs, client_name)
logger_timing = ('%5s%s%s%s%s%s %s' %
(format_timedelta(time_delta), optional_orig_delta,
remote_cache_output, bugdown_output,
db_time_output, startup_output, path))
logger_line = ('%-15s %-7s %3d %s%s %s' %
(remote_ip, method, status_code,
logger_timing, extra_request_data, logger_client))
if (status_code in [200, 304] and method == "GET" and path.startswith("/static")):
logger.debug(logger_line)
else:
logger.info(logger_line)
if (is_slow_query(time_delta, path)):
queue_json_publish("slow_queries", dict(
query="%s (%s)" % (logger_line, requestor_for_logs)))
if settings.PROFILE_ALL_REQUESTS:
log_data["prof"].disable()
profile_path = "/tmp/profile.data.%s.%s" % (path.split("/")[-1], int(time_delta * 1000),)
log_data["prof"].dump_stats(profile_path)
# Log some additional data whenever we return certain 40x errors
if 400 <= status_code < 500 and status_code not in [401, 404, 405]:
assert error_content_iter is not None
error_content_list = list(error_content_iter)
if not error_content_list:
error_data = ''
elif isinstance(error_content_list[0], str):
error_data = ''.join(error_content_list)
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elif isinstance(error_content_list[0], bytes):
error_data = repr(b''.join(error_content_list))
if len(error_data) > 200:
error_data = "[content more than 200 characters]"
logger.info('status=%3d, data=%s, uid=%s' % (status_code, error_data, requestor_for_logs))
class LogRequests(MiddlewareMixin):
# We primarily are doing logging using the process_view hook, but
# for some views, process_view isn't run, so we call the start
# method here too
def process_request(self, request: HttpRequest) -> None:
maybe_tracemalloc_listen()
tornado: Rewrite Django integration to duplicate less code. Since essentially the first use of Tornado in Zulip, we've been maintaining our Tornado+Django system, AsyncDjangoHandler, with several hundred lines of Django code copied into it. The goal for that code was simple: We wanted a way to use our Django middleware (for code sharing reasons) inside a Tornado process (since we wanted to use Tornado for our async events system). As part of the Django 2.2.x upgrade, I looked at upgrading this implementation to be based off modern Django, and it's definitely possible to do that: * Continue forking load_middleware to save response middleware. * Continue manually running the Django response middleware. * Continue working out a hack involving copying all of _get_response to change a couple lines allowing us our Tornado code to not actually return the Django HttpResponse so we can long-poll. The previous hack of returning None stopped being viable with the Django 2.2 MiddlewareMixin.__call__ implementation. But I decided to take this opportunity to look at trying to avoid copying material Django code, and there is a way to do it: * Replace RespondAsynchronously with a response.asynchronous attribute on the HttpResponse; this allows Django to run its normal plumbing happily in a way that should be stable over time, and then we proceed to discard the response inside the Tornado `get()` method to implement long-polling. (Better yet might be raising an exception?). This lets us eliminate maintaining a patched copy of _get_response. * Removing the @asynchronous decorator, which didn't add anything now that we only have one API endpoint backend (with two frontend call points) that could call into this. Combined with the last bullet, this lets us remove a significant hack from our never_cache_responses function. * Calling the normal Django `get_response` method from zulip_finish after creating a duplicate request to process, rather than writing totally custom code to do that. This lets us eliminate maintaining a patched copy of Django's load_middleware. * Adding detailed comments explaining how this is supposed to work, what problems we encounter, and how we solve various problems, which is critical to being able to modify this code in the future. A key advantage of these changes is that the exact same code should work on Django 1.11, Django 2.2, and Django 3.x, because we're no longer copying large blocks of core Django code and thus should be much less vulnerable to refactors. There may be a modest performance downside, in that we now run both request and response middleware twice when longpolling (once for the request we discard). We may be able to avoid the expensive part of it, Zulip's own request/response middleware, with a bit of additional custom code to save work for requests where we're planning to discard the response. Profiling will be important to understanding what's worth doing here.
2020-02-06 22:09:10 +01:00
if hasattr(request, "_log_data"):
# Sanity check to ensure this is being called from the
# Tornado code path that returns responses asynchronously.
assert getattr(request, "saved_response", False)
# Avoid re-initializing request._log_data if it's already there.
return
request._log_data = dict()
record_request_start_data(request._log_data)
def process_view(self, request: HttpRequest, view_func: ViewFuncT,
args: List[str], kwargs: Dict[str, Any]) -> None:
tornado: Rewrite Django integration to duplicate less code. Since essentially the first use of Tornado in Zulip, we've been maintaining our Tornado+Django system, AsyncDjangoHandler, with several hundred lines of Django code copied into it. The goal for that code was simple: We wanted a way to use our Django middleware (for code sharing reasons) inside a Tornado process (since we wanted to use Tornado for our async events system). As part of the Django 2.2.x upgrade, I looked at upgrading this implementation to be based off modern Django, and it's definitely possible to do that: * Continue forking load_middleware to save response middleware. * Continue manually running the Django response middleware. * Continue working out a hack involving copying all of _get_response to change a couple lines allowing us our Tornado code to not actually return the Django HttpResponse so we can long-poll. The previous hack of returning None stopped being viable with the Django 2.2 MiddlewareMixin.__call__ implementation. But I decided to take this opportunity to look at trying to avoid copying material Django code, and there is a way to do it: * Replace RespondAsynchronously with a response.asynchronous attribute on the HttpResponse; this allows Django to run its normal plumbing happily in a way that should be stable over time, and then we proceed to discard the response inside the Tornado `get()` method to implement long-polling. (Better yet might be raising an exception?). This lets us eliminate maintaining a patched copy of _get_response. * Removing the @asynchronous decorator, which didn't add anything now that we only have one API endpoint backend (with two frontend call points) that could call into this. Combined with the last bullet, this lets us remove a significant hack from our never_cache_responses function. * Calling the normal Django `get_response` method from zulip_finish after creating a duplicate request to process, rather than writing totally custom code to do that. This lets us eliminate maintaining a patched copy of Django's load_middleware. * Adding detailed comments explaining how this is supposed to work, what problems we encounter, and how we solve various problems, which is critical to being able to modify this code in the future. A key advantage of these changes is that the exact same code should work on Django 1.11, Django 2.2, and Django 3.x, because we're no longer copying large blocks of core Django code and thus should be much less vulnerable to refactors. There may be a modest performance downside, in that we now run both request and response middleware twice when longpolling (once for the request we discard). We may be able to avoid the expensive part of it, Zulip's own request/response middleware, with a bit of additional custom code to save work for requests where we're planning to discard the response. Profiling will be important to understanding what's worth doing here.
2020-02-06 22:09:10 +01:00
if hasattr(request, "saved_response"):
# The below logging adjustments are unnecessary (because
# we've already imported everything) and incorrect
# (because they'll overwrite data from pre-long-poll
# request processing) when returning a saved response.
return
# process_request was already run; we save the initialization
# time (i.e. the time between receiving the request and
# figuring out which view function to call, which is primarily
# importing modules on the first start)
request._log_data["startup_time_delta"] = time.time() - request._log_data["time_started"]
# And then completely reset our tracking to only cover work
# done as part of this request
record_request_start_data(request._log_data)
def process_response(self, request: HttpRequest,
response: StreamingHttpResponse) -> StreamingHttpResponse:
tornado: Rewrite Django integration to duplicate less code. Since essentially the first use of Tornado in Zulip, we've been maintaining our Tornado+Django system, AsyncDjangoHandler, with several hundred lines of Django code copied into it. The goal for that code was simple: We wanted a way to use our Django middleware (for code sharing reasons) inside a Tornado process (since we wanted to use Tornado for our async events system). As part of the Django 2.2.x upgrade, I looked at upgrading this implementation to be based off modern Django, and it's definitely possible to do that: * Continue forking load_middleware to save response middleware. * Continue manually running the Django response middleware. * Continue working out a hack involving copying all of _get_response to change a couple lines allowing us our Tornado code to not actually return the Django HttpResponse so we can long-poll. The previous hack of returning None stopped being viable with the Django 2.2 MiddlewareMixin.__call__ implementation. But I decided to take this opportunity to look at trying to avoid copying material Django code, and there is a way to do it: * Replace RespondAsynchronously with a response.asynchronous attribute on the HttpResponse; this allows Django to run its normal plumbing happily in a way that should be stable over time, and then we proceed to discard the response inside the Tornado `get()` method to implement long-polling. (Better yet might be raising an exception?). This lets us eliminate maintaining a patched copy of _get_response. * Removing the @asynchronous decorator, which didn't add anything now that we only have one API endpoint backend (with two frontend call points) that could call into this. Combined with the last bullet, this lets us remove a significant hack from our never_cache_responses function. * Calling the normal Django `get_response` method from zulip_finish after creating a duplicate request to process, rather than writing totally custom code to do that. This lets us eliminate maintaining a patched copy of Django's load_middleware. * Adding detailed comments explaining how this is supposed to work, what problems we encounter, and how we solve various problems, which is critical to being able to modify this code in the future. A key advantage of these changes is that the exact same code should work on Django 1.11, Django 2.2, and Django 3.x, because we're no longer copying large blocks of core Django code and thus should be much less vulnerable to refactors. There may be a modest performance downside, in that we now run both request and response middleware twice when longpolling (once for the request we discard). We may be able to avoid the expensive part of it, Zulip's own request/response middleware, with a bit of additional custom code to save work for requests where we're planning to discard the response. Profiling will be important to understanding what's worth doing here.
2020-02-06 22:09:10 +01:00
if getattr(response, "asynchronous", False):
# This special Tornado "asynchronous" response is
# discarded after going through this code path as Tornado
# intends to block, so we stop here to avoid unnecessary work.
return response
# The reverse proxy might have sent us the real external IP
remote_ip = request.META.get('HTTP_X_REAL_IP')
if remote_ip is None:
remote_ip = request.META['REMOTE_ADDR']
# Get the requestor's identifier and client, if available.
try:
requestor_for_logs = request._requestor_for_logs
except Exception:
if hasattr(request, 'user') and hasattr(request.user, 'format_requestor_for_logs'):
requestor_for_logs = request.user.format_requestor_for_logs()
else:
requestor_for_logs = "unauth@%s" % (get_subdomain(request) or 'root',)
try:
client = request.client.name
except Exception:
client = "?"
if response.streaming:
content_iter = response.streaming_content
content = None
else:
content = response.content
content_iter = None
write_log_line(request._log_data, request.path, request.method,
remote_ip, requestor_for_logs, client, status_code=response.status_code,
error_content=content, error_content_iter=content_iter)
return response
class JsonErrorHandler(MiddlewareMixin):
def process_exception(self, request: HttpRequest, exception: Exception) -> Optional[HttpResponse]:
if isinstance(exception, JsonableError):
return json_response_from_error(exception)
if request.error_format == "JSON":
logging.error(traceback.format_exc(), extra=dict(request=request))
return json_error(_("Internal server error"), status=500)
return None
class TagRequests(MiddlewareMixin):
def process_view(self, request: HttpRequest, view_func: ViewFuncT,
args: List[str], kwargs: Dict[str, Any]) -> None:
self.process_request(request)
def process_request(self, request: HttpRequest) -> None:
if request.path.startswith("/api/") or request.path.startswith("/json/"):
request.error_format = "JSON"
else:
request.error_format = "HTML"
class CsrfFailureError(JsonableError):
http_status_code = 403
code = ErrorCode.CSRF_FAILED
data_fields = ['reason']
def __init__(self, reason: str) -> None:
self.reason = reason # type: str
@staticmethod
def msg_format() -> str:
return _("CSRF Error: {reason}")
def csrf_failure(request: HttpRequest, reason: str="") -> HttpResponse:
if request.error_format == "JSON":
return json_response_from_error(CsrfFailureError(reason))
else:
return html_csrf_failure(request, reason)
class RateLimitMiddleware(MiddlewareMixin):
def set_response_headers(self, response: HttpResponse,
rate_limit_results: List[RateLimitResult]) -> None:
# The limit on the action that was requested is the minimum of the limits that get applied:
limit = min([result.entity.max_api_calls() for result in rate_limit_results])
response['X-RateLimit-Limit'] = str(limit)
# Same principle applies to remaining api calls:
remaining_api_calls = min([result.remaining for result in rate_limit_results])
response['X-RateLimit-Remaining'] = str(remaining_api_calls)
# The full reset time is the maximum of the reset times for the limits that get applied:
reset_time = time.time() + max([result.secs_to_freedom for result in rate_limit_results])
response['X-RateLimit-Reset'] = str(int(reset_time))
def process_response(self, request: HttpRequest, response: HttpResponse) -> HttpResponse:
if not settings.RATE_LIMITING:
return response
# Add X-RateLimit-*** headers
if hasattr(request, '_ratelimits_applied'):
self.set_response_headers(response, request._ratelimits_applied)
return response
def process_exception(self, request: HttpRequest,
exception: Exception) -> Optional[HttpResponse]:
if isinstance(exception, RateLimited):
secs_to_freedom = float(str(exception)) # secs_to_freedom is passed to RateLimited when raising
resp = json_error(
_("API usage exceeded rate limit"),
data={'retry-after': secs_to_freedom},
status=429
)
resp['Retry-After'] = secs_to_freedom
return resp
return None
class FlushDisplayRecipientCache(MiddlewareMixin):
def process_response(self, request: HttpRequest, response: HttpResponse) -> HttpResponse:
# We flush the per-request caches after every request, so they
# are not shared at all between requests.
flush_per_request_caches()
return response
class HostDomainMiddleware(MiddlewareMixin):
def process_response(self, request: HttpRequest, response: HttpResponse) -> HttpResponse:
tornado: Rewrite Django integration to duplicate less code. Since essentially the first use of Tornado in Zulip, we've been maintaining our Tornado+Django system, AsyncDjangoHandler, with several hundred lines of Django code copied into it. The goal for that code was simple: We wanted a way to use our Django middleware (for code sharing reasons) inside a Tornado process (since we wanted to use Tornado for our async events system). As part of the Django 2.2.x upgrade, I looked at upgrading this implementation to be based off modern Django, and it's definitely possible to do that: * Continue forking load_middleware to save response middleware. * Continue manually running the Django response middleware. * Continue working out a hack involving copying all of _get_response to change a couple lines allowing us our Tornado code to not actually return the Django HttpResponse so we can long-poll. The previous hack of returning None stopped being viable with the Django 2.2 MiddlewareMixin.__call__ implementation. But I decided to take this opportunity to look at trying to avoid copying material Django code, and there is a way to do it: * Replace RespondAsynchronously with a response.asynchronous attribute on the HttpResponse; this allows Django to run its normal plumbing happily in a way that should be stable over time, and then we proceed to discard the response inside the Tornado `get()` method to implement long-polling. (Better yet might be raising an exception?). This lets us eliminate maintaining a patched copy of _get_response. * Removing the @asynchronous decorator, which didn't add anything now that we only have one API endpoint backend (with two frontend call points) that could call into this. Combined with the last bullet, this lets us remove a significant hack from our never_cache_responses function. * Calling the normal Django `get_response` method from zulip_finish after creating a duplicate request to process, rather than writing totally custom code to do that. This lets us eliminate maintaining a patched copy of Django's load_middleware. * Adding detailed comments explaining how this is supposed to work, what problems we encounter, and how we solve various problems, which is critical to being able to modify this code in the future. A key advantage of these changes is that the exact same code should work on Django 1.11, Django 2.2, and Django 3.x, because we're no longer copying large blocks of core Django code and thus should be much less vulnerable to refactors. There may be a modest performance downside, in that we now run both request and response middleware twice when longpolling (once for the request we discard). We may be able to avoid the expensive part of it, Zulip's own request/response middleware, with a bit of additional custom code to save work for requests where we're planning to discard the response. Profiling will be important to understanding what's worth doing here.
2020-02-06 22:09:10 +01:00
if getattr(response, "asynchronous", False):
# This special Tornado "asynchronous" response is
# discarded after going through this code path as Tornado
# intends to block, so we stop here to avoid unnecessary work.
return response
try:
request.get_host()
except DisallowedHost:
# If we get a DisallowedHost exception trying to access
# the host, (1) the request is failed anyway and so the
# below code will do nothing, and (2) the below will
# trigger a recursive exception, breaking things, so we
# just return here.
return response
if (not request.path.startswith("/static/") and not request.path.startswith("/api/") and
not request.path.startswith("/json/")):
subdomain = get_subdomain(request)
if subdomain != Realm.SUBDOMAIN_FOR_ROOT_DOMAIN:
try:
get_realm(subdomain)
except Realm.DoesNotExist:
return render(request, "zerver/invalid_realm.html", status=404)
return response
class SetRemoteAddrFromForwardedFor(MiddlewareMixin):
"""
Middleware that sets REMOTE_ADDR based on the HTTP_X_FORWARDED_FOR.
This middleware replicates Django's former SetRemoteAddrFromForwardedFor middleware.
Because Zulip sits behind a NGINX reverse proxy, if the HTTP_X_FORWARDED_FOR
is set in the request, then it has properly been set by NGINX.
Therefore HTTP_X_FORWARDED_FOR's value is trusted.
"""
def process_request(self, request: HttpRequest) -> None:
try:
real_ip = request.META['HTTP_X_FORWARDED_FOR']
except KeyError:
return None
else:
# HTTP_X_FORWARDED_FOR can be a comma-separated list of IPs.
# For NGINX reverse proxy servers, the client's IP will be the first one.
real_ip = real_ip.split(",")[0].strip()
request.META['REMOTE_ADDR'] = real_ip
def alter_content(request: HttpRequest, content: bytes) -> bytes:
first_paragraph_text = get_content_description(content, request)
return content.replace(request.placeholder_open_graph_description.encode("utf-8"),
first_paragraph_text.encode("utf-8"))
class FinalizeOpenGraphDescription(MiddlewareMixin):
def process_response(self, request: HttpRequest,
response: StreamingHttpResponse) -> StreamingHttpResponse:
if getattr(request, "placeholder_open_graph_description", None) is not None:
assert not response.streaming
response.content = alter_content(request, response.content)
return response
class ZulipCommonMiddleware(CommonMiddleware):
"""
Patched version of CommonMiddleware to disable the APPEND_SLASH
redirect behavior inside Tornado.
While this has some correctness benefit in encouraging clients
to implement the API correctly, this also saves about 600us in
the runtime of every GET /events query, as the APPEND_SLASH
route resolution logic is surprisingly expensive.
TODO: We should probably extend this behavior to apply to all of
our API routes. The APPEND_SLASH behavior is really only useful
for non-API endpoints things like /login. But doing that
transition will require more careful testing.
"""
def should_redirect_with_slash(self, request: HttpRequest) -> bool:
if settings.RUNNING_INSIDE_TORNADO:
return False
return super().should_redirect_with_slash(request)