zulip/zerver/decorator.py

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from __future__ import absolute_import
from django.http import HttpResponseRedirect
from django.contrib.auth.decorators import login_required
from django.views.decorators.csrf import csrf_exempt
from django.http import QueryDict, HttpResponseNotAllowed
from django.http.multipartparser import MultiPartParser
from zerver.models import UserProfile, get_client, get_user_profile_by_email
from zerver.lib.response import json_error, json_unauthorized
from django.utils.timezone import now
from django.conf import settings
import ujson
from StringIO import StringIO
from zerver.lib.queue import queue_json_publish
from zerver.lib.timestamp import datetime_to_timestamp
from zerver.lib.utils import statsd
from zerver.exceptions import RateLimited
from zerver.lib.rate_limiter import incr_ratelimit, is_ratelimited, \
api_calls_left
from functools import wraps
import base64
import logging
import cProfile
from zerver.lib.mandrill_client import get_mandrill_client
if not settings.ENTERPRISE:
from zilencer.models import get_deployment_by_domain, Deployment
else:
from mock import Mock
get_deployment_by_domain = Mock()
Deployment = Mock()
def get_deployment_or_userprofile(role):
return get_user_profile_by_email(role) if "@" in role else get_deployment_by_domain(role)
class _RespondAsynchronously(object):
pass
# Return RespondAsynchronously from an @asynchronous view if the
# response will be provided later by calling handler.zulip_finish(),
# or has already been provided this way. We use this for longpolling
# mode.
RespondAsynchronously = _RespondAsynchronously()
def asynchronous(method):
@wraps(method)
def wrapper(request, *args, **kwargs):
return method(request, handler=request._tornado_handler, *args, **kwargs)
if getattr(method, 'csrf_exempt', False):
wrapper.csrf_exempt = True
return wrapper
def update_user_activity(request, user_profile):
# update_active_status also pushes to rabbitmq, and it seems
# redundant to log that here as well.
if request.META["PATH_INFO"] == '/json/update_active_status':
return
if hasattr(request, '_query'):
query = request._query
else:
query = request.META['PATH_INFO']
event={'query': query,
'user_profile_id': user_profile.id,
'time': datetime_to_timestamp(now()),
'client': request.client.name}
queue_json_publish("user_activity", event, lambda event: None)
# Based on django.views.decorators.http.require_http_methods
def require_post(func):
@wraps(func)
def wrapper(request, *args, **kwargs):
if (request.method != "POST"
and not (request.method == "SOCKET"
and request.META['zulip.emulated_method'] == "POST")):
if request.method == "SOCKET":
err_method = "SOCKET/%s" % (request.META['zulip.emulated_method'],)
else:
err_method = request.method
logging.warning('Method Not Allowed (%s): %s', err_method, request.path,
extra={'status_code': 405, 'request': request})
return HttpResponseNotAllowed(["POST"])
return func(request, *args, **kwargs)
return wrapper
def require_realm_admin(func):
@wraps(func)
def wrapper(request, user_profile, *args, **kwargs):
if not user_profile.has_perm('administer', user_profile.realm):
raise JsonableError("Must be a realm administrator")
return func(request, user_profile, *args, **kwargs)
return wrapper
from zerver.lib.user_agent import parse_user_agent
def get_client_name(request, is_json_view):
# If the API request specified a client in the request content,
# that has priority. Otherwise, extract the client from the
# User-Agent.
if 'client' in request.REQUEST:
return request.REQUEST['client']
elif "HTTP_USER_AGENT" in request.META:
user_agent = parse_user_agent(request.META["HTTP_USER_AGENT"])
# We could check for a browser's name being "Mozilla", but
# e.g. Opera and MobileSafari don't set that, and it seems
# more robust to just key off whether it was a json view
if user_agent["name"] != "ZulipDesktop" and is_json_view:
# Avoid changing the client string for browsers Once this
# is out to prod, we can name the field to something like
# Browser for consistency.
return "website"
else:
return user_agent["name"]
else:
# In the future, we will require setting USER_AGENT, but for
# now we just want to tag these requests so we can review them
# in logs and figure out the extent of the problem
if is_json_view:
return "website"
else:
return "Unspecified"
def process_client(request, user_profile, is_json_view=False):
client_name = get_client_name(request, is_json_view)
# Transitional hack for early 2014. Eventually the ios clients
# will all report ZulipiOS, and we can remove the next couple lines.
if client_name == 'ios':
client_name = 'ZulipiOS'
request.client = get_client(client_name)
update_user_activity(request, user_profile)
def validate_api_key(role, api_key):
# Remove whitespace to protect users from trivial errors.
role, api_key = role.strip(), api_key.strip()
try:
profile = get_deployment_or_userprofile(role)
except UserProfile.DoesNotExist:
raise JsonableError("Invalid user: %s" % (role,))
except Deployment.DoesNotExist:
raise JsonableError("Invalid deployment: %s" % (role,))
if api_key != profile.api_key:
if len(api_key) != 32:
reason = "Incorrect API key length (keys should be 32 characters long)"
else:
reason = "Invalid API key"
raise JsonableError(reason + " for role '%s'" % (role,))
if not profile.is_active:
raise JsonableError("Account not active")
return profile
# Use this for webhook views that don't get an email passed in.
def api_key_only_webhook_view(view_func):
@csrf_exempt
@has_request_variables
@wraps(view_func)
def _wrapped_view_func(request, api_key=REQ,
*args, **kwargs):
try:
user_profile = UserProfile.objects.get(api_key=api_key, is_active=True)
except UserProfile.DoesNotExist:
raise JsonableError("Invalid API key")
request.user = user_profile
request._email = user_profile.email
process_client(request, user_profile)
rate_limit_user(request, user_profile, domain='all')
return view_func(request, user_profile, *args, **kwargs)
return _wrapped_view_func
def zulip_internal(view_func):
@login_required(login_url = settings.HOME_NOT_LOGGED_IN)
@wraps(view_func)
def _wrapped_view_func(request, *args, **kwargs):
request._query = view_func.__name__
if request.user.realm.domain != 'zulip.com':
return HttpResponseRedirect(settings.HOME_NOT_LOGGED_IN)
request._email = request.user.email
process_client(request, request.user)
return view_func(request, *args, **kwargs)
return _wrapped_view_func
# authenticated_api_view will add the authenticated user's
# user_profile to the view function's arguments list, since we have to
# look it up anyway. It is deprecated in favor on the REST API
# versions.
def authenticated_api_view(view_func):
@csrf_exempt
@require_post
@has_request_variables
@wraps(view_func)
def _wrapped_view_func(request, email=REQ, api_key=REQ('api_key', default=None),
api_key_legacy=REQ('api-key', default=None),
*args, **kwargs):
if not api_key and not api_key_legacy:
raise RequestVariableMissingError("api_key")
elif not api_key:
api_key = api_key_legacy
user_profile = validate_api_key(email, api_key)
request.user = user_profile
request._email = user_profile.email
process_client(request, user_profile)
# Apply rate limiting
limited_func = rate_limit()(view_func)
return limited_func(request, user_profile, *args, **kwargs)
return _wrapped_view_func
# A more REST-y authentication decorator, using, in particular, HTTP Basic
# authentication.
def authenticated_rest_api_view(view_func):
@csrf_exempt
@wraps(view_func)
def _wrapped_view_func(request, *args, **kwargs):
# First try block attempts to get the credentials we need to do authentication
try:
# Grab the base64-encoded authentication string, decode it, and split it into
# the email and API key
auth_type, encoded_value = request.META['HTTP_AUTHORIZATION'].split()
# case insensitive per RFC 1945
if auth_type.lower() != "basic":
return json_error("Only Basic authentication is supported.")
role, api_key = base64.b64decode(encoded_value).split(":")
except ValueError:
return json_error("Invalid authorization header for basic auth")
except KeyError:
return json_unauthorized("Missing authorization header for basic auth")
# Now we try to do authentication or die
try:
# Could be a UserProfile or a Deployment
profile = validate_api_key(role, api_key)
except JsonableError, e:
return json_unauthorized(e.error)
request.user = profile
process_client(request, profile)
if isinstance(profile, UserProfile):
request._email = profile.email
else:
request._email = "deployment:" + role
profile.rate_limits = ""
# Apply rate limiting
return rate_limit()(view_func)(request, profile, *args, **kwargs)
return _wrapped_view_func
def process_as_post(view_func):
@wraps(view_func)
def _wrapped_view_func(request, *args, **kwargs):
# Adapted from django/http/__init__.py.
# So by default Django doesn't populate request.POST for anything besides
# POST requests. We want this dict populated for PATCH/PUT, so we have to
# do it ourselves.
#
# This will not be required in the future, a bug will be filed against
# Django upstream.
if not request.POST:
# Only take action if POST is empty.
if request.META.get('CONTENT_TYPE', '').startswith('multipart'):
# Note that request._files is just the private attribute that backs the
# FILES property, so we are essentially setting request.FILES here. (In
# Django 1.5 FILES was still a read-only property.)
request.POST, request._files = MultiPartParser(request.META, StringIO(request.body),
request.upload_handlers, request.encoding).parse()
else:
request.POST = QueryDict(request.body, encoding=request.encoding)
return view_func(request, *args, **kwargs)
return _wrapped_view_func
def authenticate_log_and_execute_json(request, view_func, *args, **kwargs):
if not request.user.is_authenticated():
return json_error("Not logged in", status=401)
user_profile = request.user
process_client(request, user_profile, True)
request._email = user_profile.email
return view_func(request, user_profile, *args, **kwargs)
# Checks if the request is a POST request and that the user is logged
# in. If not, return an error (the @login_required behavior of
# redirecting to a login page doesn't make sense for json views)
def authenticated_json_post_view(view_func):
@require_post
@has_request_variables
@wraps(view_func)
def _wrapped_view_func(request,
*args, **kwargs):
return authenticate_log_and_execute_json(request, view_func, *args, **kwargs)
return _wrapped_view_func
def authenticated_json_view(view_func):
@wraps(view_func)
def _wrapped_view_func(request,
*args, **kwargs):
return authenticate_log_and_execute_json(request, view_func, *args, **kwargs)
return _wrapped_view_func
# These views are used by the main Django server to notify the Tornado server
# of events. We protect them from the outside world by checking a shared
# secret, and also the originating IP (for now).
def authenticate_notify(request):
return (request.META['REMOTE_ADDR'] in ('127.0.0.1', '::1')
and request.POST.get('secret') == settings.SHARED_SECRET)
def internal_notify_view(view_func):
@csrf_exempt
@require_post
@wraps(view_func)
def _wrapped_view_func(request, *args, **kwargs):
if not authenticate_notify(request):
return json_error('Access denied', status=403)
if not hasattr(request, '_tornado_handler'):
# We got called through the non-Tornado server somehow.
# This is not a security check; it's an internal assertion
# to help us find bugs.
raise RuntimeError, 'notify view called with no Tornado handler'
request._email = "internal"
return view_func(request, *args, **kwargs)
return _wrapped_view_func
class JsonableError(Exception):
def __init__(self, error):
self.error = error
def __str__(self):
return self.to_json_error_msg()
def to_json_error_msg(self):
return self.error
class RequestVariableMissingError(JsonableError):
def __init__(self, var_name):
self.var_name = var_name
def to_json_error_msg(self):
return "Missing '%s' argument" % (self.var_name,)
class RequestVariableConversionError(JsonableError):
def __init__(self, var_name, bad_value):
self.var_name = var_name
self.bad_value = bad_value
def to_json_error_msg(self):
return "Bad value for '%s': %s" % (self.var_name, self.bad_value)
# Used in conjunction with @has_request_variables, below
class REQ(object):
# NotSpecified is a sentinel value for determining whether a
# default value was specified for a request variable. We can't
# use None because that could be a valid, user-specified default
class _NotSpecified(object):
pass
NotSpecified = _NotSpecified()
def __init__(self, whence=None, converter=None, default=NotSpecified, validator=None):
"""
whence: the name of the request variable that should be used
for this parameter. Defaults to a request variable of the
same name as the parameter.
converter: a function that takes a string and returns a new
value. If specified, this will be called on the request
variable value before passing to the function
default: a value to be used for the argument if the parameter
is missing in the request
validator: similar to converter, but takes an already parsed JSON
data structure. If specified, we will parse the JSON request
variable value before passing to the function
"""
self.post_var_name = whence
self.func_var_name = None
self.converter = converter
self.validator = validator
self.default = default
if converter and validator:
raise Exception('converter and validator are mutually exclusive')
# Extracts variables from the request object and passes them as
# named function arguments. The request object must be the first
# argument to the function.
#
# To use, assign a function parameter a default value that is an
# instance of the REQ class. That paramter will then be automatically
# populated from the HTTP request. The request object must be the
# first argument to the decorated function.
#
# This should generally be the innermost (syntactically bottommost)
# decorator applied to a view, since other decorators won't preserve
# the default parameter values used by has_request_variables.
#
# Note that this can't be used in helper functions which are not
# expected to call json_error or json_success, as it uses json_error
# internally when it encounters an error
def has_request_variables(view_func):
num_params = view_func.func_code.co_argcount
if view_func.func_defaults is None:
num_default_params = 0
else:
num_default_params = len(view_func.func_defaults)
default_param_names = view_func.func_code.co_varnames[num_params - num_default_params:]
default_param_values = view_func.func_defaults
if default_param_values is None:
default_param_values = []
post_params = []
for (name, value) in zip(default_param_names, default_param_values):
if isinstance(value, REQ):
value.func_var_name = name
if value.post_var_name is None:
value.post_var_name = name
post_params.append(value)
elif value == REQ:
# If the function definition does not actually instantiate
# a REQ object but instead uses the REQ class itself as a
# value, we instantiate it as a convenience
post_var = value(name)
post_var.func_var_name = name
post_params.append(post_var)
@wraps(view_func)
def _wrapped_view_func(request, *args, **kwargs):
for param in post_params:
if param.func_var_name in kwargs:
continue
default_assigned = False
try:
val = request.REQUEST[param.post_var_name]
except KeyError:
if param.default is REQ.NotSpecified:
raise RequestVariableMissingError(param.post_var_name)
val = param.default
default_assigned = True
if param.converter is not None and not default_assigned:
try:
val = param.converter(val)
except JsonableError:
raise
except:
raise RequestVariableConversionError(param.post_var_name, val)
# Validators are like converters, but they don't handle JSON parsing; we do.
if param.validator is not None and not default_assigned:
try:
val = ujson.loads(val)
except:
raise JsonableError('argument "%s" is not valid json.' % (param.post_var_name,))
error = param.validator(param.post_var_name, val)
if error:
raise JsonableError(error)
kwargs[param.func_var_name] = val
return view_func(request, *args, **kwargs)
return _wrapped_view_func
# Converter functions for use with has_request_variables
def to_non_negative_int(x):
x = int(x)
if x < 0:
raise ValueError("argument is negative")
return x
def to_non_negative_float(x):
x = float(x)
if x < 0:
raise ValueError("argument is negative")
return x
def json_to_foo(json, type):
data = ujson.loads(json)
if not isinstance(data, type):
raise ValueError("argument is not a %s" % (type().__class__.__name__))
return data
def json_to_bool(json):
return json_to_foo(json, bool)
def ruby_boolean(boolean):
"""ruby booleans may be "true", "false" or ""
Returns a (python) bool"""
if boolean == "true":
return True
else:
return False
def statsd_increment(counter, val=1):
"""Increments a statsd counter on completion of the
decorated function.
Pass the name of the counter to this decorator-returning function."""
def wrapper(func):
@wraps(func)
def wrapped_func(*args, **kwargs):
ret = func(*args, **kwargs)
statsd.incr(counter, val)
return ret
return wrapped_func
return wrapper
def rate_limit_user(request, user, domain):
"""Returns whether or not a user was rate limited. Will raise a RateLimited exception
if the user has been rate limited, otherwise returns and modifies request to contain
the rate limit information"""
ratelimited, time = is_ratelimited(user, domain)
request._ratelimit_applied_limits = True
request._ratelimit_secs_to_freedom = time
request._ratelimit_over_limit = ratelimited
# Abort this request if the user is over her rate limits
if ratelimited:
statsd.incr("ratelimiter.limited.%s.%s" % (type(user), user.id))
raise RateLimited()
incr_ratelimit(user, domain)
calls_remaining, time_reset = api_calls_left(user, domain)
request._ratelimit_remaining = calls_remaining
request._ratelimit_secs_to_freedom = time_reset
def rate_limit(domain='all'):
"""Rate-limits a view. Takes an optional 'domain' param if you wish to rate limit different
types of API calls independently.
Returns a decorator"""
def wrapper(func):
@wraps(func)
def wrapped_func(request, *args, **kwargs):
# Don't rate limit requests from Django that come from our own servers,
# and don't rate-limit dev instances
no_limits = False
if request.client and request.client.name.lower() == 'internal' and \
(request.META['REMOTE_ADDR'] in ['::1', '127.0.0.1'] or settings.DEBUG):
no_limits = True
if no_limits:
return func(request, *args, **kwargs)
try:
user = request.user
except:
user = None
# Rate-limiting data is stored in redis
# We also only support rate-limiting authenticated
# views right now.
# TODO(leo) - implement per-IP non-authed rate limiting
if not settings.RATE_LIMITING or not user:
if not user:
logging.error("Requested rate-limiting on %s but user is not authenticated!" % \
func.__name__)
return func(request, *args, **kwargs)
rate_limit_user(request, user, domain)
return func(request, *args, **kwargs)
return wrapped_func
return wrapper
def profiled(func):
"""
This decorator should obviously be used only in a dev environment.
It works best when surrounding a function that you expect to be
called once. One strategy is to write a test case in zerver/tests.py
and wrap the test case with the profiled decorator.
You can run a single test case like this:
# edit zerver/tests.py and place @profiled above the test case below
./tools/test-backend zerver.RateLimitTests.test_ratelimit_decrease
Then view the results like this:
./tools/show-profile-results.py test_ratelimit_decrease.profile
"""
@wraps(func)
def wrapped_func(*args, **kwargs):
fn = func.__name__ + ".profile"
prof = cProfile.Profile()
retval = prof.runcall(func, *args, **kwargs)
prof.dump_stats(fn)
return retval
return wrapped_func
def uses_mandrill(func):
"""
This decorator takes a function with keyword argument "mail_client" and
fills it in with the mail_client for the Mandrill account.
"""
@wraps(func)
def wrapped_func(*args, **kwargs):
kwargs['mail_client'] = get_mandrill_client()
return func(*args, **kwargs)
return wrapped_func