Source code for pyramid.view

import inspect
import itertools
import sys
import venusian
from zope.interface import providedBy

from pyramid.exceptions import ConfigurationError, PredicateMismatch
from pyramid.httpexceptions import (
    HTTPNotFound,
    HTTPTemporaryRedirect,
    default_exceptionresponse_view,
)
from pyramid.interfaces import (
    IExceptionViewClassifier,
    IMultiView,
    IRequest,
    IRoutesMapper,
    ISecuredView,
    IView,
    IViewClassifier,
)
from pyramid.threadlocal import get_current_registry, manager
from pyramid.util import hide_attrs, reraise as reraise_

_marker = object()


[docs] def render_view_to_response(context, request, name='', secure=True): """Call the :term:`view callable` configured with a :term:`view configuration` that matches the :term:`view name` ``name`` registered against the specified ``context`` and ``request`` and return a :term:`response` object. This function will return ``None`` if a corresponding :term:`view callable` cannot be found (when no :term:`view configuration` matches the combination of ``name`` / ``context`` / and ``request``). If `secure`` is ``True``, and the :term:`view callable` found is protected by a permission, the permission will be checked before calling the view function. If the permission check disallows view execution (based on the current :term:`authorization policy`), a :exc:`pyramid.httpexceptions.HTTPForbidden` exception will be raised. The exception's ``args`` attribute explains why the view access was disallowed. If ``secure`` is ``False``, no permission checking is done.""" registry = getattr(request, 'registry', None) if registry is None: registry = get_current_registry() context_iface = providedBy(context) # We explicitly pass in the interfaces provided by the request as # request_iface to _call_view; we don't want _call_view to use # request.request_iface, because render_view_to_response and friends are # pretty much limited to finding views that are not views associated with # routes, and the only thing request.request_iface is used for is to find # route-based views. The render_view_to_response API is (and always has # been) a stepchild API reserved for use of those who actually use # traversal. Doing this fixes an infinite recursion bug introduced in # Pyramid 1.6a1, and causes the render_view* APIs to behave as they did in # 1.5 and previous. We should probably provide some sort of different API # that would allow people to find views for routes. See # https://github.com/Pylons/pyramid/issues/1643 for more info. request_iface = providedBy(request) response = _call_view( registry, request, context, context_iface, name, secure=secure, request_iface=request_iface, ) return response # NB: might be None
[docs] def render_view_to_iterable(context, request, name='', secure=True): """Call the :term:`view callable` configured with a :term:`view configuration` that matches the :term:`view name` ``name`` registered against the specified ``context`` and ``request`` and return an iterable object which represents the body of a response. This function will return ``None`` if a corresponding :term:`view callable` cannot be found (when no :term:`view configuration` matches the combination of ``name`` / ``context`` / and ``request``). Additionally, this function will raise a :exc:`ValueError` if a view function is found and called but the view function's result does not have an ``app_iter`` attribute. You can usually get the bytestring representation of the return value of this function by calling ``b''.join(iterable)``, or just use :func:`pyramid.view.render_view` instead. If ``secure`` is ``True``, and the view is protected by a permission, the permission will be checked before the view function is invoked. If the permission check disallows view execution (based on the current :term:`security policy`), a :exc:`pyramid.httpexceptions.HTTPForbidden` exception will be raised; its ``args`` attribute explains why the view access was disallowed. If ``secure`` is ``False``, no permission checking is done.""" response = render_view_to_response(context, request, name, secure) if response is None: return None return response.app_iter
[docs] def render_view(context, request, name='', secure=True): """Call the :term:`view callable` configured with a :term:`view configuration` that matches the :term:`view name` ``name`` registered against the specified ``context`` and ``request`` and unwind the view response's ``app_iter`` (see :ref:`the_response`) into a single bytestring. This function will return ``None`` if a corresponding :term:`view callable` cannot be found (when no :term:`view configuration` matches the combination of ``name`` / ``context`` / and ``request``). Additionally, this function will raise a :exc:`ValueError` if a view function is found and called but the view function's result does not have an ``app_iter`` attribute. This function will return ``None`` if a corresponding view cannot be found. If ``secure`` is ``True``, and the view is protected by a permission, the permission will be checked before the view is invoked. If the permission check disallows view execution (based on the current :term:`authorization policy`), a :exc:`pyramid.httpexceptions.HTTPForbidden` exception will be raised; its ``args`` attribute explains why the view access was disallowed. If ``secure`` is ``False``, no permission checking is done.""" iterable = render_view_to_iterable(context, request, name, secure) if iterable is None: return None return b''.join(iterable)
[docs] class view_config: """A function, class or method :term:`decorator` which allows a developer to create view registrations nearer to a :term:`view callable` definition than use :term:`imperative configuration` to do the same. For example, this code in a module ``views.py``:: from resources import MyResource @view_config(name='my_view', context=MyResource, permission='read', route_name='site1') def my_view(context, request): return 'OK' Might replace the following call to the :meth:`pyramid.config.Configurator.add_view` method:: import views from resources import MyResource config.add_view(views.my_view, context=MyResource, name='my_view', permission='read', route_name='site1') .. note: :class:`pyramid.view.view_config` is also importable, for backwards compatibility purposes, as the name :class:`pyramid.view.bfg_view`. :class:`pyramid.view.view_config` supports the following keyword arguments: ``context``, ``exception``, ``permission``, ``name``, ``request_type``, ``route_name``, ``request_method``, ``request_param``, ``containment``, ``xhr``, ``accept``, ``header``, ``path_info``, ``custom_predicates``, ``decorator``, ``mapper``, ``http_cache``, ``require_csrf``, ``match_param``, ``physical_path``, and ``view_options``. The meanings of these arguments are the same as the arguments passed to :meth:`pyramid.config.Configurator.add_view`. If any argument is left out, its default will be the equivalent ``add_view`` default. Two additional keyword arguments which will be passed to the :term:`venusian` ``attach`` function are ``_depth`` and ``_category``. ``_depth`` is provided for people who wish to reuse this class from another decorator. The default value is ``0`` and should be specified relative to the ``view_config`` invocation. It will be passed in to the :term:`venusian` ``attach`` function as the depth of the callstack when Venusian checks if the decorator is being used in a class or module context. It's not often used, but it can be useful in this circumstance. ``_category`` sets the decorator category name. It can be useful in combination with the ``category`` argument of ``scan`` to control which views should be processed. See the :py:func:`venusian.attach` function in Venusian for more information about the ``_depth`` and ``_category`` arguments. .. seealso:: See also :ref:`mapping_views_using_a_decorator_section` for details about using :class:`pyramid.view.view_config`. .. note:: Because of a limitation with ``venusian.Scanner.scan``, note that ``view_config`` will work only for the following conditions. - In Python packages that have an ``__init__.py`` file in their directory. .. seealso:: See also https://github.com/Pylons/venusian/issues/68 - On module top level members. - On Python source (``.py``) files. Compiled Python files (``.pyc``, ``.pyo``) without a corresponding source file are ignored. .. seealso:: See also the `Venusian documentation <https://docs.pylonsproject.org/projects/venusian/en/latest/#using-venusian>`_. """ venusian = venusian # for testing injection def __init__(self, **settings): if 'for_' in settings: if settings.get('context') is None: settings['context'] = settings['for_'] self.__dict__.update(settings) self._get_info() def _get_info(self): depth = self.__dict__.get('_depth', 0) frame = sys._getframe(depth + 2) frameinfo = inspect.getframeinfo(frame) sourceline = frameinfo[3][0].strip() self._info = frameinfo[0], frameinfo[1], frameinfo[2], sourceline def __call__(self, wrapped): settings = self.__dict__.copy() depth = settings.pop('_depth', 0) category = settings.pop('_category', 'pyramid') def callback(context, name, ob): config = context.config.with_package(info.module) config.add_view(view=ob, **settings) info = self.venusian.attach( wrapped, callback, category=category, depth=depth + 1 ) if info.scope == 'class': # if the decorator was attached to a method in a class, or # otherwise executed at class scope, we need to set an # 'attr' into the settings if one isn't already in there if settings.get('attr') is None: settings['attr'] = wrapped.__name__ return wrapped
bfg_view = view_config # bw compat (forever)
[docs] def view_defaults(**settings): """A class :term:`decorator` which, when applied to a class, will provide defaults for all view configurations that use the class. This decorator accepts all the arguments accepted by :meth:`pyramid.view.view_config`, and each has the same meaning. See :ref:`view_defaults` for more information. """ def wrap(wrapped): wrapped.__view_defaults__ = settings return wrapped return wrap
class AppendSlashNotFoundViewFactory: """There can only be one :term:`Not Found view` in any :app:`Pyramid` application. Even if you use :func:`pyramid.view.append_slash_notfound_view` as the Not Found view, :app:`Pyramid` still must generate a ``404 Not Found`` response when it cannot redirect to a slash-appended URL; this not found response will be visible to site users. If you don't care what this 404 response looks like, and you only need redirections to slash-appended route URLs, you may use the :func:`pyramid.view.append_slash_notfound_view` object as the Not Found view. However, if you wish to use a *custom* notfound view callable when a URL cannot be redirected to a slash-appended URL, you may wish to use an instance of this class as the Not Found view, supplying a :term:`view callable` to be used as the custom notfound view as the first argument to its constructor. For instance: .. code-block:: python from pyramid.httpexceptions import HTTPNotFound from pyramid.view import AppendSlashNotFoundViewFactory def notfound_view(context, request): return HTTPNotFound('nope') custom_append_slash = AppendSlashNotFoundViewFactory(notfound_view) config.add_view(custom_append_slash, context=HTTPNotFound) The ``notfound_view`` supplied must adhere to the two-argument view callable calling convention of ``(context, request)`` (``context`` will be the exception object). .. deprecated:: 1.3 """ def __init__( self, notfound_view=None, redirect_class=HTTPTemporaryRedirect ): if notfound_view is None: notfound_view = default_exceptionresponse_view self.notfound_view = notfound_view self.redirect_class = redirect_class def __call__(self, context, request): path = request.path_info registry = request.registry mapper = registry.queryUtility(IRoutesMapper) if mapper is not None and not path.endswith('/'): slashpath = path + '/' for route in mapper.get_routes(): if route.match(slashpath) is not None: qs = request.query_string if qs: qs = '?' + qs return self.redirect_class( location=request.path + '/' + qs ) return self.notfound_view(context, request) append_slash_notfound_view = AppendSlashNotFoundViewFactory() append_slash_notfound_view.__doc__ = """\ For behavior like Django's ``APPEND_SLASH=True``, use this view as the :term:`Not Found view` in your application. When this view is the Not Found view (indicating that no view was found), and any routes have been defined in the configuration of your application, if the value of the ``PATH_INFO`` WSGI environment variable does not already end in a slash, and if the value of ``PATH_INFO`` *plus* a slash matches any route's path, do an HTTP redirect to the slash-appended PATH_INFO. Note that this will *lose* ``POST`` data information (turning it into a GET), so you shouldn't rely on this to redirect POST requests. Note also that static routes are not considered when attempting to find a matching route. Use the :meth:`pyramid.config.Configurator.add_view` method to configure this view as the Not Found view:: from pyramid.httpexceptions import HTTPNotFound from pyramid.view import append_slash_notfound_view config.add_view(append_slash_notfound_view, context=HTTPNotFound) .. deprecated:: 1.3 """
[docs] class notfound_view_config: """ .. versionadded:: 1.3 An analogue of :class:`pyramid.view.view_config` which registers a :term:`Not Found View` using :meth:`pyramid.config.Configurator.add_notfound_view`. The ``notfound_view_config`` constructor accepts most of the same arguments as the constructor of :class:`pyramid.view.view_config`. It can be used in the same places, and behaves in largely the same way, except it always registers a not found exception view instead of a 'normal' view. Example: .. code-block:: python from pyramid.view import notfound_view_config from pyramid.response import Response @notfound_view_config() def notfound(request): return Response('Not found!', status='404 Not Found') All arguments except ``append_slash`` have the same meaning as :meth:`pyramid.view.view_config` and each predicate argument restricts the set of circumstances under which this notfound view will be invoked. If ``append_slash`` is ``True``, when the Not Found View is invoked, and the current path info does not end in a slash, the notfound logic will attempt to find a :term:`route` that matches the request's path info suffixed with a slash. If such a route exists, Pyramid will issue a redirect to the URL implied by the route; if it does not, Pyramid will return the result of the view callable provided as ``view``, as normal. If the argument provided as ``append_slash`` is not a boolean but instead implements :class:`~pyramid.interfaces.IResponse`, the append_slash logic will behave as if ``append_slash=True`` was passed, but the provided class will be used as the response class instead of the default :class:`~pyramid.httpexceptions.HTTPTemporaryRedirect` response class when a redirect is performed. For example: .. code-block:: python from pyramid.httpexceptions import ( HTTPMovedPermanently, HTTPNotFound ) @notfound_view_config(append_slash=HTTPMovedPermanently) def aview(request): return HTTPNotFound('not found') The above means that a redirect to a slash-appended route will be attempted, but instead of :class:`~pyramid.httpexceptions.HTTPTemporaryRedirect` being used, :class:`~pyramid.httpexceptions.HTTPMovedPermanently will be used` for the redirect response if a slash-appended route is found. See :ref:`changing_the_notfound_view` for detailed usage information. .. versionchanged:: 1.9.1 Added the ``_depth`` and ``_category`` arguments. """ venusian = venusian def __init__(self, **settings): self.__dict__.update(settings) def __call__(self, wrapped): settings = self.__dict__.copy() depth = settings.pop('_depth', 0) category = settings.pop('_category', 'pyramid') def callback(context, name, ob): config = context.config.with_package(info.module) config.add_notfound_view(view=ob, **settings) info = self.venusian.attach( wrapped, callback, category=category, depth=depth + 1 ) if info.scope == 'class': # if the decorator was attached to a method in a class, or # otherwise executed at class scope, we need to set an # 'attr' into the settings if one isn't already in there if settings.get('attr') is None: settings['attr'] = wrapped.__name__ settings['_info'] = info.codeinfo # fbo "action_method" return wrapped
[docs] class forbidden_view_config: """ .. versionadded:: 1.3 An analogue of :class:`pyramid.view.view_config` which registers a :term:`forbidden view` using :meth:`pyramid.config.Configurator.add_forbidden_view`. The forbidden_view_config constructor accepts most of the same arguments as the constructor of :class:`pyramid.view.view_config`. It can be used in the same places, and behaves in largely the same way, except it always registers a forbidden exception view instead of a 'normal' view. Example: .. code-block:: python from pyramid.view import forbidden_view_config from pyramid.response import Response @forbidden_view_config() def forbidden(request): return Response('You are not allowed', status='403 Forbidden') All arguments passed to this function have the same meaning as :meth:`pyramid.view.view_config` and each predicate argument restricts the set of circumstances under which this notfound view will be invoked. See :ref:`changing_the_forbidden_view` for detailed usage information. .. versionchanged:: 1.9.1 Added the ``_depth`` and ``_category`` arguments. """ venusian = venusian def __init__(self, **settings): self.__dict__.update(settings) def __call__(self, wrapped): settings = self.__dict__.copy() depth = settings.pop('_depth', 0) category = settings.pop('_category', 'pyramid') def callback(context, name, ob): config = context.config.with_package(info.module) config.add_forbidden_view(view=ob, **settings) info = self.venusian.attach( wrapped, callback, category=category, depth=depth + 1 ) if info.scope == 'class': # if the decorator was attached to a method in a class, or # otherwise executed at class scope, we need to set an # 'attr' into the settings if one isn't already in there if settings.get('attr') is None: settings['attr'] = wrapped.__name__ settings['_info'] = info.codeinfo # fbo "action_method" return wrapped
[docs] class exception_view_config: """ .. versionadded:: 1.8 An analogue of :class:`pyramid.view.view_config` which registers an :term:`exception view` using :meth:`pyramid.config.Configurator.add_exception_view`. The ``exception_view_config`` constructor requires an exception context, and additionally accepts most of the same arguments as the constructor of :class:`pyramid.view.view_config`. It can be used in the same places, and behaves in largely the same way, except it always registers an exception view instead of a "normal" view that dispatches on the request :term:`context`. Example: .. code-block:: python from pyramid.view import exception_view_config from pyramid.response import Response @exception_view_config(ValueError, renderer='json') def error_view(request): return {'error': str(request.exception)} All arguments passed to this function have the same meaning as :meth:`pyramid.view.view_config`, and each predicate argument restricts the set of circumstances under which this exception view will be invoked. .. versionchanged:: 1.9.1 Added the ``_depth`` and ``_category`` arguments. """ venusian = venusian def __init__(self, *args, **settings): if 'context' not in settings and len(args) > 0: exception, args = args[0], args[1:] settings['context'] = exception if len(args) > 0: raise ConfigurationError('unknown positional arguments') self.__dict__.update(settings) def __call__(self, wrapped): settings = self.__dict__.copy() depth = settings.pop('_depth', 0) category = settings.pop('_category', 'pyramid') def callback(context, name, ob): config = context.config.with_package(info.module) config.add_exception_view(view=ob, **settings) info = self.venusian.attach( wrapped, callback, category=category, depth=depth + 1 ) if info.scope == 'class': # if the decorator was attached to a method in a class, or # otherwise executed at class scope, we need to set an # 'attr' in the settings if one isn't already in there if settings.get('attr') is None: settings['attr'] = wrapped.__name__ settings['_info'] = info.codeinfo # fbo "action_method" return wrapped
def _find_views( registry, request_iface, context_iface, view_name, view_types=None, view_classifier=None, ): if view_types is None: view_types = (IView, ISecuredView, IMultiView) if view_classifier is None: view_classifier = IViewClassifier registered = registry.adapters.registered cache = registry._view_lookup_cache views = cache.get((request_iface, context_iface, view_name)) if views is None: views = [] for req_type, ctx_type in itertools.product( request_iface.__sro__, context_iface.__sro__ ): source_ifaces = (view_classifier, req_type, ctx_type) for view_type in view_types: view_callable = registered( source_ifaces, view_type, name=view_name ) if view_callable is not None: views.append(view_callable) if views: # do not cache view lookup misses. rationale: dont allow cache to # grow without bound if somebody tries to hit the site with many # missing URLs. we could use an LRU cache instead, but then # purposeful misses by an attacker would just blow out the cache # anyway. downside: misses will almost always consume more CPU than # hits in steady state. with registry._lock: cache[(request_iface, context_iface, view_name)] = views return views def _call_view( registry, request, context, context_iface, view_name, view_types=None, view_classifier=None, secure=True, request_iface=None, ): if request_iface is None: request_iface = getattr(request, 'request_iface', IRequest) view_callables = _find_views( registry, request_iface, context_iface, view_name, view_types=view_types, view_classifier=view_classifier, ) pme = None response = None for view_callable in view_callables: # look for views that meet the predicate criteria try: if not secure: # the view will have a __call_permissive__ attribute if it's # secured; otherwise it won't. view_callable = getattr( view_callable, '__call_permissive__', view_callable ) # if this view is secured, it will raise a Forbidden # appropriately if the executing user does not have the proper # permission response = view_callable(context, request) return response except PredicateMismatch as _pme: pme = _pme if pme is not None: raise pme return response class ViewMethodsMixin: """Request methods mixin for BaseRequest having to do with executing views""" def invoke_exception_view( self, exc_info=None, request=None, secure=True, reraise=False ): """Executes an exception view related to the request it's called upon. The arguments it takes are these: ``exc_info`` If provided, should be a 3-tuple in the form provided by ``sys.exc_info()``. If not provided, ``sys.exc_info()`` will be called to obtain the current interpreter exception information. Default: ``None``. ``request`` If the request to be used is not the same one as the instance that this method is called upon, it may be passed here. Default: ``None``. ``secure`` If the exception view should not be rendered if the current user does not have the appropriate permission, this should be ``True``. Default: ``True``. ``reraise`` A boolean indicating whether the original error should be reraised if a :term:`response` object could not be created. If ``False`` then an :class:`pyramid.httpexceptions.HTTPNotFound`` exception will be raised. Default: ``False``. If a response is generated then ``request.exception`` and ``request.exc_info`` will be left at the values used to render the response. Otherwise the previous values for ``request.exception`` and ``request.exc_info`` will be restored. .. versionadded:: 1.7 .. versionchanged:: 1.9 The ``request.exception`` and ``request.exc_info`` properties will reflect the exception used to render the response where previously they were reset to the values prior to invoking the method. Also added the ``reraise`` argument. """ if request is None: request = self registry = getattr(request, 'registry', None) if registry is None: registry = get_current_registry() if registry is None: raise RuntimeError("Unable to retrieve registry") if exc_info is None: exc_info = sys.exc_info() exc = exc_info[1] attrs = request.__dict__ context_iface = providedBy(exc) # clear old generated request.response, if any; it may # have been mutated by the view, and its state is not # sane (e.g. caching headers) with hide_attrs(request, 'response', 'exc_info', 'exception'): attrs['exception'] = exc attrs['exc_info'] = exc_info # we use .get instead of .__getitem__ below due to # https://github.com/Pylons/pyramid/issues/700 request_iface = attrs.get('request_iface', IRequest) manager.push({'request': request, 'registry': registry}) try: response = _call_view( registry, request, exc, context_iface, '', view_types=None, view_classifier=IExceptionViewClassifier, secure=secure, request_iface=request_iface.combined, ) except Exception: if reraise: reraise_(*exc_info) raise finally: manager.pop() if response is None: if reraise: reraise_(*exc_info) raise HTTPNotFound # successful response, overwrite exception/exc_info attrs['exception'] = exc attrs['exc_info'] = exc_info return response