Many of the previous examples have looked at how to serve content by using existing resource classes or implementing new ones. In this example we’ll use Twisted Web’s basic or digest HTTP authentication to control access to these resources.
guard , the Twisted Web module which provides most of the APIs that will be used in this example, helps you to add authentication and authorization to a resource hierarchy. It does this by providing a resource which implements getChild to return a dynamically selected resource . The selection is based on the authentication headers in the request. If those headers indicate that the request is made on behalf of Alice, then Alice’s resource will be returned. If they indicate that it was made on behalf of Bob, his will be returned. If the headers contain invalid credentials, an error resource is returned. Whatever happens, once this resource is returned, URL traversal continues as normal from that resource.
The resource that implements this is HTTPAuthSessionWrapper , though it is directly responsible for very little of the process. It will extract headers from the request and hand them off to a credentials factory to parse them according to the appropriate standards (eg HTTPAuthentication: Basic and Digest Access Authentication ) and then hand the resulting credentials object off to a Portal , the core of Twisted Cred , a system for uniform handling of authentication and authorization. We won’t discuss Twisted Cred in much depth here. To make use of it with Twisted Web, the only thing you really need to know is how to implement an IRealm .
You need to implement a realm because the realm is the object that
actually decides which resources are used for which users. This can be
as complex or as simple as it suitable for your application. For this
example we’ll keep it very simple: each user will have a resource
which is a static file listing of the public_html
directory in their UNIX home directory. First, we need to
import implements
from zope.interface
and IRealm
from twisted.cred.portal
. Together these will let me mark
this class as a realm (this is mostly - but not entirely - a
documentation thing). We’ll also need File for the actual implementation
later.
from zope.interface import implementer
from twisted.cred.portal import IRealm
from twisted.web.static import File
@implementer(IRealm)
class PublicHTMLRealm(object):
A realm only needs to implement one method: requestAvatar . This method is called
after any successful authentication attempt (ie, Alice supplied the right
password). Its job is to return the avatar for the user who succeeded in
authenticating. An avatar is just an object that represents a user. In
this case, it will be a File
. In general, with Guard
,
the avatar must be a resource of some sort.
...
def requestAvatar(self, avatarId, mind, *interfaces):
if IResource in interfaces:
return (IResource, File("/home/%s/public_html" % (avatarId,)), lambda: None)
raise NotImplementedError()
A few notes on this method:
The avatarId
parameter is essentially the username. It’s the
job of some other code to extract the username from the request headers and
make sure it gets passed here.
The mind
is always None
when writing a realm to
be used with Guard
. You can ignore it until you want to write a
realm for something else.
Guard
is always
passed IResource
as
the interfaces
parameter. If interfaces
only
contains interfaces your code doesn’t understand,
raising NotImplementedError
is the thing to do, as
above. You’ll only need to worry about getting a different interface when
you write a realm for something other than Guard
.
If you want to track when a user logs out, that’s what the last element of
the returned tuple is for. It will be called when this avatar logs
out. lambda: None
is the idiomatic no-op logout function.
Notice that the path handling code in this example is written very poorly. This example may be vulnerable to certain unintentional information disclosure attacks. This sort of problem is exactly the reason FilePath exists. However, that’s an example for another day…
We’re almost ready to set up the resource for this example. To
create an HTTPAuthSessionWrapper
, though, we need two
things. First, a portal, which requires the realm above, plus at least
one credentials checker:
from twisted.cred.portal import Portal
from twisted.cred.checkers import FilePasswordDB
portal = Portal(PublicHTMLRealm(), [FilePasswordDB('httpd.password')])
FilePasswordDB is the
credentials checker. It knows how to read passwd(5)
-style (loosely)
files to check credentials against. It is responsible for the authentication
work after HTTPAuthSessionWrapper
extracts the credentials from the
request.
Next we need either BasicCredentialFactory or DigestCredentialFactory . The former knows how to challenge HTTP clients to do basic authentication; the latter, digest authentication. We’ll use digest here:
from twisted.web.guard import DigestCredentialFactory
credentialFactory = DigestCredentialFactory("md5", "example.org")
The two parameters to this constructor are the hash algorithm and the HTTP authentication realm which will be used. The only other valid hash algorithm is “sha” (but be careful, MD5 is more widely supported than SHA). The HTTP authentication realm is mostly just a string that is presented to the user to let them know why they’re authenticating (you can read more about this in the RFC ).
With those things created, we can finally
instantiate HTTPAuthSessionWrapper
:
from twisted.web.guard import HTTPAuthSessionWrapper
resource = HTTPAuthSessionWrapper(portal, [credentialFactory])
There’s just one last thing that needs to be done
here. When rpy scripts were
introduced, it was mentioned that they are evaluated in an unusual
context. This is the first example that actually needs to take this
into account. It so happens that DigestCredentialFactory
instances are stateful. Authentication will only succeed if the same
instance is used to both generate challenges and examine the responses
to those challenges. However, the normal mode of operation for an rpy
script is for it to be re-executed for every request. This leads to a
new DigestCredentialFactory
being created for every request, preventing
any authentication attempt from ever succeeding.
There are two ways to deal with this. First, and the better of the two ways,
we could move almost all of the code into a real Python module, including the
code that instantiates the DigestCredentialFactory
. This would
ensure that the same instance was used for every request. Second, and the easier
of the two ways, we could add a call to cache()
to the beginning of
the rpy script:
cache()
cache
is part of the globals of any rpy script, so you don’t
need to import it (it’s okay to be cringing at this
point). Calling cache
makes Twisted re-use the result of the first
evaluation of the rpy script for subsequent requests too - just what we want in
this case.
Here’s the complete example (with imports re-arranged to the more conventional style):
cache()
from zope.interface import implementer
from twisted.cred.portal import IRealm, Portal
from twisted.cred.checkers import FilePasswordDB
from twisted.web.static import File
from twisted.web.resource import IResource
from twisted.web.guard import HTTPAuthSessionWrapper, DigestCredentialFactory
@implementer(IRealm)
class PublicHTMLRealm(object):
def requestAvatar(self, avatarId, mind, *interfaces):
if IResource in interfaces:
return (IResource, File("/home/%s/public_html" % (avatarId,)), lambda: None)
raise NotImplementedError()
portal = Portal(PublicHTMLRealm(), [FilePasswordDB('httpd.password')])
credentialFactory = DigestCredentialFactory("md5", "localhost:8080")
resource = HTTPAuthSessionWrapper(portal, [credentialFactory])
And voila, a password-protected per-user Twisted Web server.