##// END OF EJS Templates
wireprotov2: define semantics for content redirects...
wireprotov2: define semantics for content redirects When I implemented the clonebundles feature and deployed it on hg.mozilla.org using Amazon S3 as a content server, server-side CPU and bandwidth usage dropped off a cliff and a ton of server scaling headaches went away pretty much the instant clients with support for clonebundles were rolled out to Firefox CI. An obvious takeaway from that experience was that offloading server load to scalable file servers - potentially backed by a CDN - is a really good idea. Another takeaway was that Mercurial's wire protocol wasn't in a good position to support data offload generally. In wire protocol version 1, there isn't a mechanism in the protocol to say "grab the data from over here instead." For HTTP, we could teach the client to follow HTTP redirects. Or we could invent a media type that encoded redirects inline. But for SSH, we were pretty much out of luck because that protocol wasn't very flexible. Wire protocol version 2 offers the opportunity to do something better. The recent generic server-side content caching layer in the wire protocol version 2 server demonstrated that it is possible to have drop-in caching of responses to command requests. This by itself adds tons of value and already makes the built-in server much more scalable. But I don't want to stop there. The existing server-side caching implementation has a big weakness: it requires the server to send data to the client. This means that the Mercurial server is potentially sending gigabytes of data to thousands of clients. This is problematic because compared to scaling static file servers, scaling dynamic servers is *hard*. A solution to this is to "offload" serving of content to something that isn't the Mercurial server. By offloading content serving, you turn the Mercurial server from a centralized monolithic service to a distributed mostly-indexing service. Assuming high rates of content offload, this should drastically reduce the total work performed by the Mercurial server, both in terms of CPU and data transfer. This will make Mercurial servers vastly easier to scale. This commit defines the semantics for "content redirects" in wire protocol version 2. Essentially: * Servers advertise the set of locations a response could be served from. * When making requests, clients advertise the set of locations they are willing to fetch content from. * Servers can then replace the inline response with one that says "get the response from over here instead." This feature - when fully implemented - will allow extending the server-side caching layer to facilitate such things as integrating your server-side cache with a scalable blob store (such as S3 or a CDN) and offloading most data transfer to that external service. This feature could also be leveraged for load balancing. e.g. requests could come into a central server and then get redirected to an available mirror depending on server availability or locality. There's tons of potential :) Differential Revision: https://phab.mercurial-scm.org/D4774

File last commit:

r34398:765eb17a default
r40058:33eb670e default
Show More
validators.py
166 lines | 4.9 KiB | text/x-python | PythonLexer
Siddharth Agarwal
thirdparty: vendor attrs...
r34398 """
Commonly useful validators.
"""
from __future__ import absolute_import, division, print_function
from ._make import attr, attributes, and_, _AndValidator
__all__ = [
"and_",
"in_",
"instance_of",
"optional",
"provides",
]
@attributes(repr=False, slots=True, hash=True)
class _InstanceOfValidator(object):
type = attr()
def __call__(self, inst, attr, value):
"""
We use a callable class to be able to change the ``__repr__``.
"""
if not isinstance(value, self.type):
raise TypeError(
"'{name}' must be {type!r} (got {value!r} that is a "
"{actual!r})."
.format(name=attr.name, type=self.type,
actual=value.__class__, value=value),
attr, self.type, value,
)
def __repr__(self):
return (
"<instance_of validator for type {type!r}>"
.format(type=self.type)
)
def instance_of(type):
"""
A validator that raises a :exc:`TypeError` if the initializer is called
with a wrong type for this particular attribute (checks are perfomed using
:func:`isinstance` therefore it's also valid to pass a tuple of types).
:param type: The type to check for.
:type type: type or tuple of types
:raises TypeError: With a human readable error message, the attribute
(of type :class:`attr.Attribute`), the expected type, and the value it
got.
"""
return _InstanceOfValidator(type)
@attributes(repr=False, slots=True, hash=True)
class _ProvidesValidator(object):
interface = attr()
def __call__(self, inst, attr, value):
"""
We use a callable class to be able to change the ``__repr__``.
"""
if not self.interface.providedBy(value):
raise TypeError(
"'{name}' must provide {interface!r} which {value!r} "
"doesn't."
.format(name=attr.name, interface=self.interface, value=value),
attr, self.interface, value,
)
def __repr__(self):
return (
"<provides validator for interface {interface!r}>"
.format(interface=self.interface)
)
def provides(interface):
"""
A validator that raises a :exc:`TypeError` if the initializer is called
with an object that does not provide the requested *interface* (checks are
performed using ``interface.providedBy(value)`` (see `zope.interface
<https://zopeinterface.readthedocs.io/en/latest/>`_).
:param zope.interface.Interface interface: The interface to check for.
:raises TypeError: With a human readable error message, the attribute
(of type :class:`attr.Attribute`), the expected interface, and the
value it got.
"""
return _ProvidesValidator(interface)
@attributes(repr=False, slots=True, hash=True)
class _OptionalValidator(object):
validator = attr()
def __call__(self, inst, attr, value):
if value is None:
return
self.validator(inst, attr, value)
def __repr__(self):
return (
"<optional validator for {what} or None>"
.format(what=repr(self.validator))
)
def optional(validator):
"""
A validator that makes an attribute optional. An optional attribute is one
which can be set to ``None`` in addition to satisfying the requirements of
the sub-validator.
:param validator: A validator (or a list of validators) that is used for
non-``None`` values.
:type validator: callable or :class:`list` of callables.
.. versionadded:: 15.1.0
.. versionchanged:: 17.1.0 *validator* can be a list of validators.
"""
if isinstance(validator, list):
return _OptionalValidator(_AndValidator(validator))
return _OptionalValidator(validator)
@attributes(repr=False, slots=True, hash=True)
class _InValidator(object):
options = attr()
def __call__(self, inst, attr, value):
if value not in self.options:
raise ValueError(
"'{name}' must be in {options!r} (got {value!r})"
.format(name=attr.name, options=self.options, value=value)
)
def __repr__(self):
return (
"<in_ validator with options {options!r}>"
.format(options=self.options)
)
def in_(options):
"""
A validator that raises a :exc:`ValueError` if the initializer is called
with a value that does not belong in the options provided. The check is
performed using ``value in options``.
:param options: Allowed options.
:type options: list, tuple, :class:`enum.Enum`, ...
:raises ValueError: With a human readable error message, the attribute (of
type :class:`attr.Attribute`), the expected options, and the value it
got.
.. versionadded:: 17.1.0
"""
return _InValidator(options)