Request and Response Objects¶
Note
This chapter is adapted from a portion of the WebOb documentation, originally written by Ian Bicking.
Pyramid uses the WebOb package as a basis for its
request and response object implementations. The
request object that is passed to a Pyramid view is an
instance of the pyramid.request.Request
class, which is a subclass of
webob.Request
. The response returned from a Pyramid
view renderer is an instance of the
pyramid.response.Response
class, which is a subclass of the
webob.Response
class. Users can also return an instance of
pyramid.response.Response
directly from a view as necessary.
WebOb is a project separate from Pyramid with a separate set of authors and a fully separate set of documentation. Pyramid adds some functionality to the standard WebOb request, which is documented in the pyramid.request API documentation.
WebOb provides objects for HTTP requests and responses. Specifically it does this by wrapping the WSGI request environment and response status, header list, and app_iter (body) values.
WebOb request and response objects provide many conveniences for parsing WSGI requests and forming WSGI responses. WebOb is a nice way to represent "raw" WSGI requests and responses. However, we won't cover that use case in this document, as users of Pyramid don't typically need to use the WSGI-related features of WebOb directly. The reference documentation shows many examples of creating requests and using response objects in this manner, however.
Request¶
The request object is a wrapper around the WSGI environ dictionary. This
dictionary contains keys for each header, keys that describe the request
(including the path and query string), a file-like object for the request body,
and a variety of custom keys. You can always access the environ with
req.environ
.
Some of the most important and interesting attributes of a request object are below.
req.method
The request method, e.g.,
GET
,POST
req.GET
A multidict with all the variables in the query string.
req.POST
A multidict with all the variables in the request body. This only has variables if the request was a
POST
and it is a form submission.req.params
A multidict with a combination of everything in
req.GET
andreq.POST
.req.body
The contents of the body of the request. This contains the entire request body as a string. This is useful when the request is a
POST
that is not a form submission, or a request like aPUT
. You can also getreq.body_file
for a file-like object.req.json_body
The JSON-decoded contents of the body of the request. See Dealing with a JSON-Encoded Request Body.
req.cookies
A simple dictionary of all the cookies.
req.headers
A dictionary of all the headers. This dictionary is case-insensitive.
req.urlvars
andreq.urlargs
req.urlvars
are the keyword parameters associated with the request URL.req.urlargs
are the positional parameters. These are set by products like Routes and Selector.
Also for standard HTTP request headers, there are usually attributes such as
req.accept_language
, req.content_length
, and req.user_agent
. These
properties expose the parsed form of each header, for whatever parsing makes
sense. For instance, req.if_modified_since
returns a datetime
object (or None if the header is was not provided).
Note
Full API documentation for the Pyramid request object is available in pyramid.request.
Special Attributes Added to the Request by Pyramid¶
In addition to the standard WebOb attributes, Pyramid adds
special attributes to every request: context
, registry
, root
,
subpath
, traversed
, view_name
, virtual_root
,
virtual_root_path
, session
, matchdict
, and matched_route
. These
attributes are documented further within the pyramid.request.Request
API documentation.
URLs¶
In addition to these attributes, there are several ways to get the URL of the
request and its parts. We'll show various values for an example URL
http://localhost/app/blog?id=10
, where the application is mounted at
http://localhost/app
.
req.url
The full request URL with query string, e.g.,
http://localhost/app/blog?id=10
req.host
The host information in the URL, e.g.,
localhost
req.host_url
The URL with the host, e.g.,
http://localhost
req.application_url
The URL of the application (just the
SCRIPT_NAME
portion of the path, notPATH_INFO
), e.g.,http://localhost/app
req.path_url
The URL of the application including the
PATH_INFO
, e.g.,http://localhost/app/blog
req.path
The URL including
PATH_INFO
without the host or scheme, e.g.,/app/blog
req.path_qs
The URL including
PATH_INFO
and the query string, e.g,/app/blog?id=10
req.query_string
The query string in the URL, e.g.,
id=10
req.relative_url(url, to_application=False)
Gives a URL relative to the current URL. If
to_application
is True, then resolves it relative toreq.application_url
.
Methods¶
There are methods of request objects documented in
pyramid.request.Request
but you'll find that you won't use very many
of them. Here are a couple that might be useful:
Request.blank(base_url)
Creates a new request with blank information, based at the given URL. This can be useful for subrequests and artificial requests. You can also use
req.copy()
to copy an existing request, or for subrequestsreq.copy_get()
which copies the request but always turns it into a GET (which is safer to share for subrequests).req.get_response(wsgi_application)
This method calls the given WSGI application with this request, and returns a
pyramid.response.Response
object. You can also use this for subrequests or testing.
Text (Unicode)¶
Many of the properties of the request object will be text values (unicode
under Python 2 or str
under Python 3) if the request encoding/charset is
provided. If it is provided, the values in req.POST
, req.GET
,
req.params
, and req.cookies
will contain text. The client can
indicate the charset with something like Content-Type:
application/x-www-form-urlencoded; charset=utf8
, but browsers seldom set
this. You can reset the charset of an existing request with newreq =
req.decode('utf-8')
, or during instantiation with Request(environ,
charset='utf8')
.
Multidict¶
Several attributes of a WebOb request are multidict structures (such as
request.GET
, request.POST
, and request.params
). A multidict is a
dictionary where a key can have multiple values. The quintessential example is
a query string like ?pref=red&pref=blue
; the pref
variable has two
values: red
and blue
.
In a multidict, when you do request.GET['pref']
, you'll get back only
"blue"
(the last value of pref
). This returned result might not be
expected—sometimes returning a string, and sometimes returning a list—and may
be cause of frequent exceptions. If you want all the values back, use
request.GET.getall('pref')
. If you want to be sure there is one and only
one value, use request.GET.getone('pref')
, which will raise an exception
if there is zero or more than one value for pref
.
When you use operations like request.GET.items()
, you'll get back something
like [('pref', 'red'), ('pref', 'blue')]
. All the key/value pairs will
show up. Similarly request.GET.keys()
returns ['pref', 'pref']
.
Multidict is a view on a list of tuples; all the keys are ordered, and all the
values are ordered.
API documentation for a multidict exists as
pyramid.interfaces.IMultiDict
.
Dealing with a JSON-Encoded Request Body¶
New in version 1.1.
pyramid.request.Request.json_body
is a property that returns a
JSON-decoded representation of the request body. If the request does
not have a body, or the body is not a properly JSON-encoded value, an exception
will be raised when this attribute is accessed.
This attribute is useful when you invoke a Pyramid view callable via,
for example, jQuery's $.ajax
function, which has the potential to send a
request with a JSON-encoded body.
Using request.json_body
is equivalent to:
from json import loads
loads(request.body, encoding=request.charset)
Here's how to construct an AJAX request in JavaScript using jQuery that
allows you to use the request.json_body
attribute when the request is sent
to a Pyramid application:
jQuery.ajax({type:'POST',
url: 'http://localhost:6543/', // the pyramid server
data: JSON.stringify({'a':1}),
contentType: 'application/json; charset=utf-8'});
When such a request reaches a view in your application, the
request.json_body
attribute will be available in the view callable body.
@view_config(renderer='string')
def aview(request):
print(request.json_body)
return 'OK'
For the above view, printed to the console will be:
{u'a': 1}
For bonus points, here's a bit of client-side code that will produce a request
that has a body suitable for reading via request.json_body
using Python's
urllib2
instead of a JavaScript AJAX request:
import urllib2
import json
json_payload = json.dumps({'a':1})
headers = {'Content-Type':'application/json; charset=utf-8'}
req = urllib2.Request('http://localhost:6543/', json_payload, headers)
resp = urllib2.urlopen(req)
If you are doing Cross-origin resource sharing (CORS), then the standard
requires the browser to do a pre-flight HTTP OPTIONS request. The easiest way
to handle this is to add an extra view_config
for the same route, with
request_method
set to OPTIONS
, and set the desired response header
before returning. You can find examples of response headers Access control
CORS, Preflighted requests.
Cleaning up after a Request¶
Sometimes it's required to perform some cleanup at the end of a request when a database connection is involved.
For example, let's say you have a mypackage
Pyramid application
package that uses SQLAlchemy, and you'd like the current SQLAlchemy database
session to be removed after each request. Put the following in the
mypackage.__init__
module:
1from mypackage.models import DBSession
2
3from pyramid.events import subscriber
4from pyramid.events import NewRequest
5
6def cleanup_callback(request):
7 DBSession.remove()
8
9@subscriber(NewRequest)
10def add_cleanup_callback(event):
11 event.request.add_finished_callback(cleanup_callback)
Registering the cleanup_callback
finished callback at the start of a
request (by causing the add_cleanup_callback
to receive a
pyramid.events.NewRequest
event at the start of each request) will
cause the DBSession to be removed whenever request processing has ended. Note
that in the example above, for the pyramid.events.subscriber
decorator
to work, the pyramid.config.Configurator.scan()
method must be called
against your mypackage
package during application initialization.
Note
This is only an example. In particular, it is not necessary to cause
DBSession.remove
to be called in an application generated from the
Pyramid cookiecutter, because these all use the pyramid_tm
package.
The cleanup done by DBSession.remove
is unnecessary when pyramid_tm
middleware is configured into the application.
More Details¶
More detail about the request object API is available as follows.
pyramid.request.Request
API documentationWebOb documentation. All methods and attributes of a
webob.Request
documented within the WebOb documentation will work with request objects created by Pyramid.
Response¶
The Pyramid response object can be imported as
pyramid.response.Response
. This class is a subclass of the
webob.Response
class. The subclass does not add or change any
functionality, so the WebOb Response documentation will be completely relevant
for this class as well.
A response object has three fundamental parts:
response.status
The response code plus reason message, like
200 OK
. To set the code without a message, usestatus_int
, i.e.,response.status_int = 200
.response.headerlist
A list of all the headers, like
[('Content-Type', 'text/html')]
. There's a case-insensitive multidict inresponse.headers
that also allows you to access these same headers.response.app_iter
An iterable (such as a list or generator) that will produce the content of the response. This is also accessible as
response.body
(a string),response.text
(a unicode object, informed byresponse.charset
), andresponse.body_file
(a file-like object; writing to it appends toapp_iter
).
Everything else in the object typically derives from this underlying state. Here are some highlights:
response.content_type
The content type not including the
charset
parameter.Typical use:
response.content_type = 'text/html'
.Default value:
response.content_type = 'text/html'
.response.charset
The
charset
parameter of the content-type, it also informs encoding inresponse.text
.response.content_type_params
is a dictionary of all the parameters.response.set_cookie(name, value, max_age=None, path='/', ...)
Set a cookie. The keyword arguments control the various cookie parameters. The
max_age
argument is the length for the cookie to live in seconds (you may also use a timedelta object). TheExpires
key will also be set based on the value ofmax_age
.response.delete_cookie(name, path='/', domain=None)
Delete a cookie from the client. This sets
max_age
to 0 and the cookie value to''
.response.cache_expires(seconds=0)
This makes the response cacheable for the given number of seconds, or if
seconds
is0
then the response is uncacheable (this also sets theExpires
header).response(environ, start_response)
The response object is a WSGI application. As an application, it acts according to how you create it. It can do conditional responses if you pass
conditional_response=True
when instantiating (or set that attribute later). It can also do HEAD and Range requests.
Headers¶
Like the request, most HTTP response headers are available as properties. These
are parsed, so you can do things like response.last_modified =
os.path.getmtime(filename)
.
The details are available in the webob.response
API documentation.
Instantiating the Response¶
Of course most of the time you just want to make a response. Generally any attribute of the response can be passed in as a keyword argument to the class, e.g.:
1from pyramid.response import Response
2response = Response(body='hello world!', content_type='text/plain')
The status defaults to '200 OK'
.
The value of content_type
defaults to
webob.response.Response.default_content_type
, which is text/html
. You
can subclass pyramid.response.Response
and set
default_content_type
to override this behavior.
Exception Responses¶
To facilitate error responses like 404 Not Found
, the module
pyramid.httpexceptions
contains classes for each kind of error response.
These include boring but appropriate error bodies. The exceptions exposed by
this module, when used under Pyramid, should be imported from the
pyramid.httpexceptions
module. This import location contains subclasses
and replacements that mirror those in the webob.exc
module.
Each class is named pyramid.httpexceptions.HTTP*
, where *
is the reason
for the error. For instance, pyramid.httpexceptions.HTTPNotFound
subclasses pyramid.response.Response
, so you can manipulate the
instances in the same way. A typical example is:
1from pyramid.httpexceptions import HTTPNotFound
2from pyramid.httpexceptions import HTTPMovedPermanently
3
4response = HTTPNotFound('There is no such resource')
5# or:
6response = HTTPMovedPermanently(location=new_url)
More Details¶
More details about the response object API are available in the
pyramid.response
documentation. More details about exception responses
are in the pyramid.httpexceptions
API documentation. The WebOb
documentation is also useful.