This document describes adding subcommands to
the twistd command, as a way to facilitate the deployment
of your applications. (This feature was added in Twisted 2.5)
The target audience of this document are those that have developed a Twisted application which needs a command line-based deployment mechanism.
There are a few prerequisites to understanding this document:
A basic understanding of the Twisted Plugin System (i.e., the twisted.plugin module) is necessary, however, step-by-step instructions will be given. Reading The Twisted Plugin System is recommended, in particular the “Extending an Existing Program” section.
The Application infrastructure
is used in twistd plugins; in particular, you should
know how to expose your program’s functionality as a Service.
In order to parse command line arguments, the twistd plugin
mechanism relies
on twisted.python.usage , which is documented
in Using usage.Options .
After reading this document, the reader should be able to expose
their Service-using application as a subcommand
of twistd , taking into consideration whatever was passed
on the command line.
The major alternative to the twistd plugin mechanism is the .tac
file, which is a simple script to be used with the
twistd -y/--python parameter. The twistd plugin mechanism
exists to offer a more extensible command-line-driven interface to
your application. For more information on .tac files, see
the document Using the Twisted Application Framework .
The following directory structure is assumed of your project:
MyProject - Top level directory
myproject - Python package
__init__.py
During development of your project, Twisted plugins can be loaded
from a special directory in your project, assuming your top level
directory ends up in sys.path. Create a directory
named twisted containing a directory
named plugins , and add a file
named myproject_plugin.py to it. This file will contain your
plugin. Note that you should not add any __init__.py files
to this directory structure, and the plugin file should not
be named myproject.py (because that would conflict with
your project’s module name).
In this file, define an object which provides the interfaces twisted.plugin.IPlugin and twisted.application.service.IServiceMaker .
The tapname attribute of your IServiceMaker provider
will be used as the subcommand name in a command
like twistd [subcommand] [args...] , and
the options attribute (which should be
a usage.Options
subclass) will be used to parse the given args.
from zope.interface import implementer
from twisted.python import usage
from twisted.plugin import IPlugin
from twisted.application.service import IServiceMaker
from twisted.application import internet
from myproject import MyFactory
class Options(usage.Options):
optParameters = [["port", "p", 1235, "The port number to listen on."]]
@implementer(IServiceMaker, IPlugin)
class MyServiceMaker(object):
tapname = "myproject"
description = "Run this! It'll make your dog happy."
options = Options
def makeService(self, options):
"""
Construct a TCPServer from a factory defined in myproject.
"""
return internet.TCPServer(int(options["port"]), MyFactory())
# Now construct an object which *provides* the relevant interfaces
# The name of this variable is irrelevant, as long as there is *some*
# name bound to a provider of IPlugin and IServiceMaker.
serviceMaker = MyServiceMaker()
Now running twistd --help should
print myproject in the list of available subcommands,
followed by the description that we specified in the
plugin. twistd -n myproject would,
assuming we defined a MyFactory factory
inside myproject , start a listening server on port 1235
with that factory.
Twisted ships with a robust authentication framework to use with your application. If your server needs authentication functionality, and you haven’t read about twisted.cred yet, read up on it first.
If you are building a twistd plugin and you want to support a wide variety of authentication patterns, Twisted provides an easy-to-use mixin for your Options subclass: strcred.AuthOptionMixin . The following code is an example of using this mixin:
from twisted.cred import credentials, portal, strcred
from twisted.python import usage
from twisted.plugin import IPlugin
from twisted.application.service import IServiceMaker
from myserver import myservice
class ServerOptions(usage.Options, strcred.AuthOptionMixin):
# This part is optional; it tells AuthOptionMixin what
# kinds of credential interfaces the user can give us.
supportedInterfaces = (credentials.IUsernamePassword,)
optParameters = [
["port", "p", 1234, "Server port number"],
["host", "h", "localhost", "Server hostname"]]
@implementer(IServiceMaker, IPlugin)
class MyServerServiceMaker(object):
tapname = "myserver"
description = "This server does nothing productive."
options = ServerOptions
def makeService(self, options):
"""Construct a service object."""
# The realm is a custom object that your server defines.
realm = myservice.MyServerRealm(options["host"])
# The portal is something Cred can provide, as long as
# you have a list of checkers that you'll support. This
# list is provided my AuthOptionMixin.
portal = portal.Portal(realm, options["credCheckers"])
# OR, if you know you might get multiple interfaces, and
# only want to give your application one of them, you
# also have that option with AuthOptionMixin:
interface = credentials.IUsernamePassword
portal = portal.Portal(realm, options["credInterfaces"][interface])
# The protocol factory is, like the realm, something you implement.
factory = myservice.ServerFactory(realm, portal)
# Finally, return a service that will listen for connections.
return internet.TCPServer(int(options["port"]), factory)
# As in our example above, we have to construct an object that
# provides the IPlugin and IServiceMaker interfaces.
serviceMaker = MyServerServiceMaker()
Now that you have your TAP configured to support any authentication we can throw at it, you’re ready to use it. Here is an example of starting your server using the /etc/passwd file for authentication. (Clearly, this won’t work on servers with shadow passwords.)
$ twistd myserver --auth passwd:/etc/passwd
For a full list of cred plugins supported, see twisted.plugins , or use the command-line help:
$ twistd myserver --help-auth
$ twistd myserver --help-auth-type passwd
You should now be able to
Create a twistd plugin
Incorporate authentication into your plugin
Use it from your development environment
Install it correctly and use it in deployment