zulip/zerver/lib/exceptions.py

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from enum import Enum
from typing import Any, Dict, List, Optional, Text, Type
from django.core.exceptions import PermissionDenied
class AbstractEnum(Enum):
'''An enumeration whose members are used strictly for their names.'''
def __new__(cls: Type['AbstractEnum']) -> 'AbstractEnum':
obj = object.__new__(cls)
obj._value_ = len(cls.__members__) + 1
return obj
# Override all the `Enum` methods that use `_value_`.
def __repr__(self) -> str:
return str(self)
def value(self) -> None:
assert False
def __reduce_ex__(self, proto: int) -> None:
assert False
class ErrorCode(AbstractEnum):
BAD_REQUEST = () # Generic name, from the name of HTTP 400.
REQUEST_VARIABLE_MISSING = ()
REQUEST_VARIABLE_INVALID = ()
BAD_IMAGE = ()
QUOTA_EXCEEDED = ()
BAD_NARROW = ()
UNAUTHORIZED_PRINCIPAL = ()
BAD_EVENT_QUEUE_ID = ()
CSRF_FAILED = ()
INVITATION_FAILED = ()
INVALID_ZULIP_SERVER = ()
class JsonableError(Exception):
'''A standardized error format we can turn into a nice JSON HTTP response.
This class can be invoked in several ways.
* Easiest, but completely machine-unreadable:
raise JsonableError(_("No such widget: {}").format(widget_name))
The message may be passed through to clients and shown to a user,
so translation is required. Because the text will vary depending
on the user's language, it's not possible for code to distinguish
this error from others in a non-buggy way.
* Partially machine-readable, with an error code:
raise JsonableError(_("No such widget: {}").format(widget_name),
ErrorCode.NO_SUCH_WIDGET)
Now the error's `code` attribute can be used, both in server
and client code, to identify this type of error. The data
(here, the widget name) is still embedded inside a translated
string, and can't be accessed by code.
* Fully machine-readable, with an error code and structured data:
class NoSuchWidgetError(JsonableError):
code = ErrorCode.NO_SUCH_WIDGET
data_fields = ['widget_name']
def __init__(self, widget_name: str) -> None:
self.widget_name = widget_name # type: str
@staticmethod
def msg_format() -> str:
return _("No such widget: {widget_name}")
raise NoSuchWidgetError(widget_name)
Now both server and client code see a `widget_name` attribute.
Subclasses may also override `http_status_code`.
'''
# Override this in subclasses, or just pass a `code` argument
# to the JsonableError constructor.
code = ErrorCode.BAD_REQUEST # type: ErrorCode
# Override this in subclasses if providing structured data.
data_fields = [] # type: List[str]
# Optionally override this in subclasses to return a different HTTP status,
# like 403 or 404.
http_status_code = 400 # type: int
def __init__(self, msg: Text, code: Optional[ErrorCode]=None) -> None:
if code is not None:
self.code = code
# `_msg` is an implementation detail of `JsonableError` itself.
self._msg = msg # type: Text
@staticmethod
def msg_format() -> Text:
'''Override in subclasses. Gets the items in `data_fields` as format args.
This should return (a translation of) a string literal.
The reason it's not simply a class attribute is to allow
translation to work.
'''
# Secretly this gets one more format arg not in `data_fields`: `_msg`.
# That's for the sake of the `JsonableError` base logic itself, for
# the simplest form of use where we just get a plain message string
# at construction time.
return '{_msg}'
#
# Infrastructure -- not intended to be overridden in subclasses.
#
@property
def msg(self) -> Text:
format_data = dict(((f, getattr(self, f)) for f in self.data_fields),
_msg=getattr(self, '_msg', None))
return self.msg_format().format(**format_data)
@property
def data(self) -> Dict[str, Any]:
return dict(((f, getattr(self, f)) for f in self.data_fields),
code=self.code.name)
def to_json(self) -> Dict[str, Any]:
d = {'result': 'error', 'msg': self.msg}
d.update(self.data)
return d
def __str__(self) -> str:
return self.msg
class RateLimited(PermissionDenied):
def __init__(self, msg: str="") -> None:
super().__init__(msg)