596 lines
24 KiB
ReStructuredText
596 lines
24 KiB
ReStructuredText
.. _urllib-howto:
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***********************************************************
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HOWTO Fetch Internet Resources Using The urllib Package
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***********************************************************
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:Author: `Michael Foord <http://www.voidspace.org.uk/python/index.shtml>`_
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.. note::
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There is a French translation of an earlier revision of this
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HOWTO, available at `urllib2 - Le Manuel manquant
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<http://www.voidspace.org.uk/python/articles/urllib2_francais.shtml>`_.
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Introduction
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============
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.. sidebar:: Related Articles
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You may also find useful the following article on fetching web resources
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with Python:
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* `Basic Authentication <http://www.voidspace.org.uk/python/articles/authentication.shtml>`_
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A tutorial on *Basic Authentication*, with examples in Python.
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**urllib.request** is a Python module for fetching URLs
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(Uniform Resource Locators). It offers a very simple interface, in the form of
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the *urlopen* function. This is capable of fetching URLs using a variety of
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different protocols. It also offers a slightly more complex interface for
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handling common situations - like basic authentication, cookies, proxies and so
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on. These are provided by objects called handlers and openers.
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urllib.request supports fetching URLs for many "URL schemes" (identified by the string
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before the ":" in URL - for example "ftp" is the URL scheme of
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"ftp://python.org/") using their associated network protocols (e.g. FTP, HTTP).
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This tutorial focuses on the most common case, HTTP.
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For straightforward situations *urlopen* is very easy to use. But as soon as you
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encounter errors or non-trivial cases when opening HTTP URLs, you will need some
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understanding of the HyperText Transfer Protocol. The most comprehensive and
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authoritative reference to HTTP is :rfc:`2616`. This is a technical document and
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not intended to be easy to read. This HOWTO aims to illustrate using *urllib*,
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with enough detail about HTTP to help you through. It is not intended to replace
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the :mod:`urllib.request` docs, but is supplementary to them.
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Fetching URLs
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=============
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The simplest way to use urllib.request is as follows::
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import urllib.request
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with urllib.request.urlopen('http://python.org/') as response:
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html = response.read()
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If you wish to retrieve a resource via URL and store it in a temporary location,
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you can do so via the :func:`~urllib.request.urlretrieve` function::
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import urllib.request
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local_filename, headers = urllib.request.urlretrieve('http://python.org/')
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html = open(local_filename)
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Many uses of urllib will be that simple (note that instead of an 'http:' URL we
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could have used a URL starting with 'ftp:', 'file:', etc.). However, it's the
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purpose of this tutorial to explain the more complicated cases, concentrating on
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HTTP.
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HTTP is based on requests and responses - the client makes requests and servers
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send responses. urllib.request mirrors this with a ``Request`` object which represents
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the HTTP request you are making. In its simplest form you create a Request
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object that specifies the URL you want to fetch. Calling ``urlopen`` with this
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Request object returns a response object for the URL requested. This response is
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a file-like object, which means you can for example call ``.read()`` on the
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response::
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import urllib.request
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req = urllib.request.Request('http://www.voidspace.org.uk')
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with urllib.request.urlopen(req) as response:
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the_page = response.read()
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Note that urllib.request makes use of the same Request interface to handle all URL
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schemes. For example, you can make an FTP request like so::
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req = urllib.request.Request('ftp://example.com/')
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In the case of HTTP, there are two extra things that Request objects allow you
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to do: First, you can pass data to be sent to the server. Second, you can pass
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extra information ("metadata") *about* the data or the about request itself, to
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the server - this information is sent as HTTP "headers". Let's look at each of
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these in turn.
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Data
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----
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Sometimes you want to send data to a URL (often the URL will refer to a CGI
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(Common Gateway Interface) script or other web application). With HTTP,
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this is often done using what's known as a **POST** request. This is often what
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your browser does when you submit a HTML form that you filled in on the web. Not
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all POSTs have to come from forms: you can use a POST to transmit arbitrary data
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to your own application. In the common case of HTML forms, the data needs to be
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encoded in a standard way, and then passed to the Request object as the ``data``
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argument. The encoding is done using a function from the :mod:`urllib.parse`
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library. ::
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import urllib.parse
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import urllib.request
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url = 'http://www.someserver.com/cgi-bin/register.cgi'
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values = {'name' : 'Michael Foord',
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'location' : 'Northampton',
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'language' : 'Python' }
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data = urllib.parse.urlencode(values)
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data = data.encode('ascii') # data should be bytes
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req = urllib.request.Request(url, data)
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with urllib.request.urlopen(req) as response:
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the_page = response.read()
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Note that other encodings are sometimes required (e.g. for file upload from HTML
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forms - see `HTML Specification, Form Submission
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<https://www.w3.org/TR/REC-html40/interact/forms.html#h-17.13>`_ for more
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details).
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If you do not pass the ``data`` argument, urllib uses a **GET** request. One
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way in which GET and POST requests differ is that POST requests often have
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"side-effects": they change the state of the system in some way (for example by
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placing an order with the website for a hundredweight of tinned spam to be
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delivered to your door). Though the HTTP standard makes it clear that POSTs are
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intended to *always* cause side-effects, and GET requests *never* to cause
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side-effects, nothing prevents a GET request from having side-effects, nor a
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POST requests from having no side-effects. Data can also be passed in an HTTP
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GET request by encoding it in the URL itself.
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This is done as follows::
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>>> import urllib.request
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>>> import urllib.parse
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>>> data = {}
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>>> data['name'] = 'Somebody Here'
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>>> data['location'] = 'Northampton'
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>>> data['language'] = 'Python'
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>>> url_values = urllib.parse.urlencode(data)
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>>> print(url_values) # The order may differ from below. #doctest: +SKIP
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name=Somebody+Here&language=Python&location=Northampton
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>>> url = 'http://www.example.com/example.cgi'
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>>> full_url = url + '?' + url_values
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>>> data = urllib.request.urlopen(full_url)
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Notice that the full URL is created by adding a ``?`` to the URL, followed by
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the encoded values.
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Headers
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-------
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We'll discuss here one particular HTTP header, to illustrate how to add headers
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to your HTTP request.
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Some websites [#]_ dislike being browsed by programs, or send different versions
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to different browsers [#]_. By default urllib identifies itself as
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``Python-urllib/x.y`` (where ``x`` and ``y`` are the major and minor version
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numbers of the Python release,
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e.g. ``Python-urllib/2.5``), which may confuse the site, or just plain
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not work. The way a browser identifies itself is through the
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``User-Agent`` header [#]_. When you create a Request object you can
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pass a dictionary of headers in. The following example makes the same
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request as above, but identifies itself as a version of Internet
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Explorer [#]_. ::
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import urllib.parse
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import urllib.request
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url = 'http://www.someserver.com/cgi-bin/register.cgi'
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user_agent = 'Mozilla/5.0 (Windows NT 6.1; Win64; x64)'
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values = {'name': 'Michael Foord',
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'location': 'Northampton',
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'language': 'Python' }
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headers = {'User-Agent': user_agent}
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data = urllib.parse.urlencode(values)
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data = data.encode('ascii')
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req = urllib.request.Request(url, data, headers)
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with urllib.request.urlopen(req) as response:
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the_page = response.read()
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The response also has two useful methods. See the section on `info and geturl`_
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which comes after we have a look at what happens when things go wrong.
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Handling Exceptions
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===================
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*urlopen* raises :exc:`URLError` when it cannot handle a response (though as
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usual with Python APIs, built-in exceptions such as :exc:`ValueError`,
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:exc:`TypeError` etc. may also be raised).
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:exc:`HTTPError` is the subclass of :exc:`URLError` raised in the specific case of
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HTTP URLs.
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The exception classes are exported from the :mod:`urllib.error` module.
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URLError
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--------
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Often, URLError is raised because there is no network connection (no route to
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the specified server), or the specified server doesn't exist. In this case, the
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exception raised will have a 'reason' attribute, which is a tuple containing an
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error code and a text error message.
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e.g. ::
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>>> req = urllib.request.Request('http://www.pretend_server.org')
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>>> try: urllib.request.urlopen(req)
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... except urllib.error.URLError as e:
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... print(e.reason) #doctest: +SKIP
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...
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(4, 'getaddrinfo failed')
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HTTPError
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---------
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Every HTTP response from the server contains a numeric "status code". Sometimes
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the status code indicates that the server is unable to fulfil the request. The
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default handlers will handle some of these responses for you (for example, if
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the response is a "redirection" that requests the client fetch the document from
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a different URL, urllib will handle that for you). For those it can't handle,
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urlopen will raise an :exc:`HTTPError`. Typical errors include '404' (page not
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found), '403' (request forbidden), and '401' (authentication required).
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See section 10 of RFC 2616 for a reference on all the HTTP error codes.
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The :exc:`HTTPError` instance raised will have an integer 'code' attribute, which
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corresponds to the error sent by the server.
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Error Codes
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~~~~~~~~~~~
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Because the default handlers handle redirects (codes in the 300 range), and
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codes in the 100--299 range indicate success, you will usually only see error
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codes in the 400--599 range.
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:attr:`http.server.BaseHTTPRequestHandler.responses` is a useful dictionary of
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response codes in that shows all the response codes used by RFC 2616. The
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dictionary is reproduced here for convenience ::
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# Table mapping response codes to messages; entries have the
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# form {code: (shortmessage, longmessage)}.
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responses = {
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100: ('Continue', 'Request received, please continue'),
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101: ('Switching Protocols',
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'Switching to new protocol; obey Upgrade header'),
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200: ('OK', 'Request fulfilled, document follows'),
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201: ('Created', 'Document created, URL follows'),
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202: ('Accepted',
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'Request accepted, processing continues off-line'),
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203: ('Non-Authoritative Information', 'Request fulfilled from cache'),
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204: ('No Content', 'Request fulfilled, nothing follows'),
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205: ('Reset Content', 'Clear input form for further input.'),
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206: ('Partial Content', 'Partial content follows.'),
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300: ('Multiple Choices',
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'Object has several resources -- see URI list'),
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301: ('Moved Permanently', 'Object moved permanently -- see URI list'),
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302: ('Found', 'Object moved temporarily -- see URI list'),
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303: ('See Other', 'Object moved -- see Method and URL list'),
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304: ('Not Modified',
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'Document has not changed since given time'),
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305: ('Use Proxy',
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'You must use proxy specified in Location to access this '
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'resource.'),
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307: ('Temporary Redirect',
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'Object moved temporarily -- see URI list'),
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400: ('Bad Request',
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'Bad request syntax or unsupported method'),
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401: ('Unauthorized',
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'No permission -- see authorization schemes'),
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402: ('Payment Required',
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'No payment -- see charging schemes'),
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403: ('Forbidden',
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'Request forbidden -- authorization will not help'),
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404: ('Not Found', 'Nothing matches the given URI'),
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405: ('Method Not Allowed',
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'Specified method is invalid for this server.'),
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406: ('Not Acceptable', 'URI not available in preferred format.'),
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407: ('Proxy Authentication Required', 'You must authenticate with '
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'this proxy before proceeding.'),
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408: ('Request Timeout', 'Request timed out; try again later.'),
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409: ('Conflict', 'Request conflict.'),
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410: ('Gone',
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'URI no longer exists and has been permanently removed.'),
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411: ('Length Required', 'Client must specify Content-Length.'),
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412: ('Precondition Failed', 'Precondition in headers is false.'),
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413: ('Request Entity Too Large', 'Entity is too large.'),
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414: ('Request-URI Too Long', 'URI is too long.'),
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415: ('Unsupported Media Type', 'Entity body in unsupported format.'),
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416: ('Requested Range Not Satisfiable',
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'Cannot satisfy request range.'),
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417: ('Expectation Failed',
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'Expect condition could not be satisfied.'),
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500: ('Internal Server Error', 'Server got itself in trouble'),
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501: ('Not Implemented',
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'Server does not support this operation'),
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502: ('Bad Gateway', 'Invalid responses from another server/proxy.'),
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503: ('Service Unavailable',
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'The server cannot process the request due to a high load'),
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504: ('Gateway Timeout',
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'The gateway server did not receive a timely response'),
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505: ('HTTP Version Not Supported', 'Cannot fulfill request.'),
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}
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When an error is raised the server responds by returning an HTTP error code
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*and* an error page. You can use the :exc:`HTTPError` instance as a response on the
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page returned. This means that as well as the code attribute, it also has read,
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geturl, and info, methods as returned by the ``urllib.response`` module::
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>>> req = urllib.request.Request('http://www.python.org/fish.html')
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>>> try:
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... urllib.request.urlopen(req)
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... except urllib.error.HTTPError as e:
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... print(e.code)
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... print(e.read()) #doctest: +ELLIPSIS, +NORMALIZE_WHITESPACE
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...
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404
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b'<!DOCTYPE html PUBLIC "-//W3C//DTD XHTML 1.0 Transitional//EN"
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"http://www.w3.org/TR/xhtml1/DTD/xhtml1-transitional.dtd">\n\n\n<html
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...
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<title>Page Not Found</title>\n
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...
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Wrapping it Up
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--------------
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So if you want to be prepared for :exc:`HTTPError` *or* :exc:`URLError` there are two
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basic approaches. I prefer the second approach.
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Number 1
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~~~~~~~~
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::
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from urllib.request import Request, urlopen
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from urllib.error import URLError, HTTPError
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req = Request(someurl)
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try:
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response = urlopen(req)
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except HTTPError as e:
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print('The server couldn\'t fulfill the request.')
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print('Error code: ', e.code)
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except URLError as e:
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print('We failed to reach a server.')
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print('Reason: ', e.reason)
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else:
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# everything is fine
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.. note::
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The ``except HTTPError`` *must* come first, otherwise ``except URLError``
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will *also* catch an :exc:`HTTPError`.
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Number 2
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~~~~~~~~
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::
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from urllib.request import Request, urlopen
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from urllib.error import URLError
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req = Request(someurl)
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try:
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response = urlopen(req)
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except URLError as e:
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if hasattr(e, 'reason'):
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print('We failed to reach a server.')
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print('Reason: ', e.reason)
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elif hasattr(e, 'code'):
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print('The server couldn\'t fulfill the request.')
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print('Error code: ', e.code)
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else:
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# everything is fine
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info and geturl
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===============
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The response returned by urlopen (or the :exc:`HTTPError` instance) has two
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useful methods :meth:`info` and :meth:`geturl` and is defined in the module
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:mod:`urllib.response`..
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**geturl** - this returns the real URL of the page fetched. This is useful
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because ``urlopen`` (or the opener object used) may have followed a
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redirect. The URL of the page fetched may not be the same as the URL requested.
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**info** - this returns a dictionary-like object that describes the page
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fetched, particularly the headers sent by the server. It is currently an
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:class:`http.client.HTTPMessage` instance.
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Typical headers include 'Content-length', 'Content-type', and so on. See the
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`Quick Reference to HTTP Headers <https://www.cs.tut.fi/~jkorpela/http.html>`_
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for a useful listing of HTTP headers with brief explanations of their meaning
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and use.
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Openers and Handlers
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====================
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When you fetch a URL you use an opener (an instance of the perhaps
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confusingly-named :class:`urllib.request.OpenerDirector`). Normally we have been using
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the default opener - via ``urlopen`` - but you can create custom
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openers. Openers use handlers. All the "heavy lifting" is done by the
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handlers. Each handler knows how to open URLs for a particular URL scheme (http,
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ftp, etc.), or how to handle an aspect of URL opening, for example HTTP
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redirections or HTTP cookies.
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You will want to create openers if you want to fetch URLs with specific handlers
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installed, for example to get an opener that handles cookies, or to get an
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opener that does not handle redirections.
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To create an opener, instantiate an ``OpenerDirector``, and then call
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``.add_handler(some_handler_instance)`` repeatedly.
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Alternatively, you can use ``build_opener``, which is a convenience function for
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creating opener objects with a single function call. ``build_opener`` adds
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several handlers by default, but provides a quick way to add more and/or
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override the default handlers.
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Other sorts of handlers you might want to can handle proxies, authentication,
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and other common but slightly specialised situations.
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``install_opener`` can be used to make an ``opener`` object the (global) default
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opener. This means that calls to ``urlopen`` will use the opener you have
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installed.
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Opener objects have an ``open`` method, which can be called directly to fetch
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urls in the same way as the ``urlopen`` function: there's no need to call
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``install_opener``, except as a convenience.
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Basic Authentication
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====================
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To illustrate creating and installing a handler we will use the
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``HTTPBasicAuthHandler``. For a more detailed discussion of this subject --
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including an explanation of how Basic Authentication works - see the `Basic
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Authentication Tutorial
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<http://www.voidspace.org.uk/python/articles/authentication.shtml>`_.
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When authentication is required, the server sends a header (as well as the 401
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error code) requesting authentication. This specifies the authentication scheme
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and a 'realm'. The header looks like: ``WWW-Authenticate: SCHEME
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realm="REALM"``.
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e.g. ::
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WWW-Authenticate: Basic realm="cPanel Users"
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The client should then retry the request with the appropriate name and password
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for the realm included as a header in the request. This is 'basic
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authentication'. In order to simplify this process we can create an instance of
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``HTTPBasicAuthHandler`` and an opener to use this handler.
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The ``HTTPBasicAuthHandler`` uses an object called a password manager to handle
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the mapping of URLs and realms to passwords and usernames. If you know what the
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realm is (from the authentication header sent by the server), then you can use a
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``HTTPPasswordMgr``. Frequently one doesn't care what the realm is. In that
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case, it is convenient to use ``HTTPPasswordMgrWithDefaultRealm``. This allows
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you to specify a default username and password for a URL. This will be supplied
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in the absence of you providing an alternative combination for a specific
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realm. We indicate this by providing ``None`` as the realm argument to the
|
|
``add_password`` method.
|
|
|
|
The top-level URL is the first URL that requires authentication. URLs "deeper"
|
|
than the URL you pass to .add_password() will also match. ::
|
|
|
|
# create a password manager
|
|
password_mgr = urllib.request.HTTPPasswordMgrWithDefaultRealm()
|
|
|
|
# Add the username and password.
|
|
# If we knew the realm, we could use it instead of None.
|
|
top_level_url = "http://example.com/foo/"
|
|
password_mgr.add_password(None, top_level_url, username, password)
|
|
|
|
handler = urllib.request.HTTPBasicAuthHandler(password_mgr)
|
|
|
|
# create "opener" (OpenerDirector instance)
|
|
opener = urllib.request.build_opener(handler)
|
|
|
|
# use the opener to fetch a URL
|
|
opener.open(a_url)
|
|
|
|
# Install the opener.
|
|
# Now all calls to urllib.request.urlopen use our opener.
|
|
urllib.request.install_opener(opener)
|
|
|
|
.. note::
|
|
|
|
In the above example we only supplied our ``HTTPBasicAuthHandler`` to
|
|
``build_opener``. By default openers have the handlers for normal situations
|
|
-- ``ProxyHandler`` (if a proxy setting such as an :envvar:`http_proxy`
|
|
environment variable is set), ``UnknownHandler``, ``HTTPHandler``,
|
|
``HTTPDefaultErrorHandler``, ``HTTPRedirectHandler``, ``FTPHandler``,
|
|
``FileHandler``, ``DataHandler``, ``HTTPErrorProcessor``.
|
|
|
|
``top_level_url`` is in fact *either* a full URL (including the 'http:' scheme
|
|
component and the hostname and optionally the port number)
|
|
e.g. "http://example.com/" *or* an "authority" (i.e. the hostname,
|
|
optionally including the port number) e.g. "example.com" or "example.com:8080"
|
|
(the latter example includes a port number). The authority, if present, must
|
|
NOT contain the "userinfo" component - for example "joe:password@example.com" is
|
|
not correct.
|
|
|
|
|
|
Proxies
|
|
=======
|
|
|
|
**urllib** will auto-detect your proxy settings and use those. This is through
|
|
the ``ProxyHandler``, which is part of the normal handler chain when a proxy
|
|
setting is detected. Normally that's a good thing, but there are occasions
|
|
when it may not be helpful [#]_. One way to do this is to setup our own
|
|
``ProxyHandler``, with no proxies defined. This is done using similar steps to
|
|
setting up a `Basic Authentication`_ handler: ::
|
|
|
|
>>> proxy_support = urllib.request.ProxyHandler({})
|
|
>>> opener = urllib.request.build_opener(proxy_support)
|
|
>>> urllib.request.install_opener(opener)
|
|
|
|
.. note::
|
|
|
|
Currently ``urllib.request`` *does not* support fetching of ``https`` locations
|
|
through a proxy. However, this can be enabled by extending urllib.request as
|
|
shown in the recipe [#]_.
|
|
|
|
.. note::
|
|
|
|
``HTTP_PROXY`` will be ignored if a variable ``REQUEST_METHOD`` is set; see
|
|
the documentation on :func:`~urllib.request.getproxies`.
|
|
|
|
|
|
Sockets and Layers
|
|
==================
|
|
|
|
The Python support for fetching resources from the web is layered. urllib uses
|
|
the :mod:`http.client` library, which in turn uses the socket library.
|
|
|
|
As of Python 2.3 you can specify how long a socket should wait for a response
|
|
before timing out. This can be useful in applications which have to fetch web
|
|
pages. By default the socket module has *no timeout* and can hang. Currently,
|
|
the socket timeout is not exposed at the http.client or urllib.request levels.
|
|
However, you can set the default timeout globally for all sockets using ::
|
|
|
|
import socket
|
|
import urllib.request
|
|
|
|
# timeout in seconds
|
|
timeout = 10
|
|
socket.setdefaulttimeout(timeout)
|
|
|
|
# this call to urllib.request.urlopen now uses the default timeout
|
|
# we have set in the socket module
|
|
req = urllib.request.Request('http://www.voidspace.org.uk')
|
|
response = urllib.request.urlopen(req)
|
|
|
|
|
|
-------
|
|
|
|
|
|
Footnotes
|
|
=========
|
|
|
|
This document was reviewed and revised by John Lee.
|
|
|
|
.. [#] Google for example.
|
|
.. [#] Browser sniffing is a very bad practise for website design - building
|
|
sites using web standards is much more sensible. Unfortunately a lot of
|
|
sites still send different versions to different browsers.
|
|
.. [#] The user agent for MSIE 6 is
|
|
*'Mozilla/4.0 (compatible; MSIE 6.0; Windows NT 5.1; SV1; .NET CLR 1.1.4322)'*
|
|
.. [#] For details of more HTTP request headers, see
|
|
`Quick Reference to HTTP Headers`_.
|
|
.. [#] In my case I have to use a proxy to access the internet at work. If you
|
|
attempt to fetch *localhost* URLs through this proxy it blocks them. IE
|
|
is set to use the proxy, which urllib picks up on. In order to test
|
|
scripts with a localhost server, I have to prevent urllib from using
|
|
the proxy.
|
|
.. [#] urllib opener for SSL proxy (CONNECT method): `ASPN Cookbook Recipe
|
|
<https://code.activestate.com/recipes/456195/>`_.
|
|
|