import cProfile import logging import time import traceback from typing import Any, AnyStr, Callable, Dict, \ Iterable, List, MutableMapping, Optional, Text from django.conf import settings from django.contrib.sessions.middleware import SessionMiddleware from django.core.exceptions import DisallowedHost from django.db import connection from django.http import HttpRequest, HttpResponse, StreamingHttpResponse from django.shortcuts import redirect, render from django.utils.cache import patch_vary_headers from django.utils.deprecation import MiddlewareMixin from django.utils.http import cookie_date 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.exceptions import ErrorCode, JsonableError, RateLimited from zerver.lib.queue import queue_json_publish 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.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() 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_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() 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_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() log_data['time_started'] = time.time() 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: Text) -> 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 def write_log_line(log_data: MutableMapping[str, Any], path: Text, method: str, remote_ip: str, email: Text, client_name: Text, 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,) # For statsd timer name if path == '/': statsd_path = u'webreq' else: statsd_path = u"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") blacklisted_requests = ['do_confirm', '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'] suppress_statsd = any((blacklisted in statsd_path for blacklisted in blacklisted_requests)) 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 = "" 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) 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']) 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)" % (email, 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", "%s (%s)" % (logger_line, email)) 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 error_content_list: error_data = u'' elif isinstance(error_content_list[0], Text): error_data = u''.join(error_content_list) elif isinstance(error_content_list[0], bytes): error_data = repr(b''.join(error_content_list)) if len(error_data) > 100: error_data = u"[content more than 100 characters]" logger.info('status=%3d, data=%s, uid=%s' % (status_code, error_data, email)) 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() request._log_data = dict() record_request_start_data(request._log_data) if connection.connection is not None: connection.connection.queries = [] def process_view(self, request: HttpRequest, view_func: Callable[..., HttpResponse], args: List[str], kwargs: Dict[str, Any]) -> None: # 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) if connection.connection is not None: connection.connection.queries = [] def process_response(self, request: HttpRequest, response: StreamingHttpResponse) -> StreamingHttpResponse: # 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 email address and client, if available. try: email = request._email except Exception: email = "unauth" 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, email, 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: Callable[..., HttpResponse], 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: Text) -> None: self.reason = reason # type: Text @staticmethod def msg_format() -> Text: return _("CSRF Error: {reason}") def csrf_failure(request: HttpRequest, reason: Text="") -> HttpResponse: if request.error_format == "JSON": return json_response_from_error(CsrfFailureError(reason)) else: return html_csrf_failure(request, reason) class RateLimitMiddleware(MiddlewareMixin): def process_response(self, request: HttpRequest, response: HttpResponse) -> HttpResponse: if not settings.RATE_LIMITING: return response from zerver.lib.rate_limiter import max_api_calls, RateLimitedUser # Add X-RateLimit-*** headers if hasattr(request, '_ratelimit_applied_limits'): entity = RateLimitedUser(request.user) response['X-RateLimit-Limit'] = str(max_api_calls(entity)) if hasattr(request, '_ratelimit_secs_to_freedom'): response['X-RateLimit-Reset'] = str(int(time.time() + request._ratelimit_secs_to_freedom)) if hasattr(request, '_ratelimit_remaining'): response['X-RateLimit-Remaining'] = str(request._ratelimit_remaining) return response def process_exception(self, request: HttpRequest, exception: Exception) -> Optional[HttpResponse]: if isinstance(exception, RateLimited): resp = json_error( _("API usage exceeded rate limit"), data={'retry-after': request._ratelimit_secs_to_freedom}, status=429 ) resp['Retry-After'] = request._ratelimit_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 SessionHostDomainMiddleware(SessionMiddleware): def process_response(self, request: HttpRequest, response: HttpResponse) -> HttpResponse: 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: realm = get_realm(subdomain) if (realm is None): return render(request, "zerver/invalid_realm.html") """ If request.session was modified, or if the configuration is to save the session every time, save the changes and set a session cookie. """ try: accessed = request.session.accessed modified = request.session.modified except AttributeError: pass else: if accessed: patch_vary_headers(response, ('Cookie',)) if modified or settings.SESSION_SAVE_EVERY_REQUEST: if request.session.get_expire_at_browser_close(): max_age = None expires = None else: max_age = request.session.get_expiry_age() expires_time = time.time() + max_age expires = cookie_date(expires_time) # Save the session data and refresh the client cookie. # Skip session save for 500 responses, refs #3881. if response.status_code != 500: request.session.save() host = request.get_host().split(':')[0] # The subdomains feature overrides the # SESSION_COOKIE_DOMAIN setting, since the setting # is a fixed value and with subdomains enabled, # the session cookie domain has to vary with the # subdomain. session_cookie_domain = host response.set_cookie(settings.SESSION_COOKIE_NAME, request.session.session_key, max_age=max_age, expires=expires, domain=session_cookie_domain, path=settings.SESSION_COOKIE_PATH, secure=settings.SESSION_COOKIE_SECURE or None, httponly=settings.SESSION_COOKIE_HTTPONLY or None) 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