cpython/Doc/library/nntplib.rst

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:mod:`nntplib` --- NNTP protocol client
=======================================
.. module:: nntplib
:synopsis: NNTP protocol client (requires sockets).
:deprecated:
**Source code:** :source:`Lib/nntplib.py`
.. index::
pair: NNTP; protocol
single: Network News Transfer Protocol
.. deprecated:: 3.11
The :mod:`nntplib` module is deprecated (see :pep:`594` for details).
.. testsetup::
import warnings
with warnings.catch_warnings():
warnings.simplefilter('ignore', category=DeprecationWarning)
import nntplib
.. testcleanup::
try:
s.quit()
except NameError:
pass
import sys
# Force a warning if any other file imports nntplib
sys.modules.pop('nntplib')
--------------
This module defines the class :class:`NNTP` which implements the client side of
the Network News Transfer Protocol. It can be used to implement a news reader
or poster, or automated news processors. It is compatible with :rfc:`3977`
as well as the older :rfc:`977` and :rfc:`2980`.
.. include:: ../includes/wasm-notavail.rst
Here are two small examples of how it can be used. To list some statistics
about a newsgroup and print the subjects of the last 10 articles::
>>> s = nntplib.NNTP('news.gmane.io')
>>> resp, count, first, last, name = s.group('gmane.comp.python.committers')
>>> print('Group', name, 'has', count, 'articles, range', first, 'to', last)
Group gmane.comp.python.committers has 1096 articles, range 1 to 1096
>>> resp, overviews = s.over((last - 9, last))
>>> for id, over in overviews:
... print(id, nntplib.decode_header(over['subject']))
...
1087 Re: Commit privileges for Łukasz Langa
1088 Re: 3.2 alpha 2 freeze
1089 Re: 3.2 alpha 2 freeze
1090 Re: Commit privileges for Łukasz Langa
1091 Re: Commit privileges for Łukasz Langa
1092 Updated ssh key
1093 Re: Updated ssh key
1094 Re: Updated ssh key
1095 Hello fellow committers!
1096 Re: Hello fellow committers!
>>> s.quit()
'205 Bye!'
To post an article from a binary file (this assumes that the article has valid
headers, and that you have right to post on the particular newsgroup)::
>>> s = nntplib.NNTP('news.gmane.io')
>>> f = open('article.txt', 'rb')
>>> s.post(f)
'240 Article posted successfully.'
>>> s.quit()
'205 Bye!'
The module itself defines the following classes:
.. class:: NNTP(host, port=119, user=None, password=None, readermode=None, usenetrc=False, [timeout])
Return a new :class:`NNTP` object, representing a connection
to the NNTP server running on host *host*, listening at port *port*.
An optional *timeout* can be specified for the socket connection.
If the optional *user* and *password* are provided, or if suitable
credentials are present in :file:`/.netrc` and the optional flag *usenetrc*
is true, the ``AUTHINFO USER`` and ``AUTHINFO PASS`` commands are used
to identify and authenticate the user to the server. If the optional
flag *readermode* is true, then a ``mode reader`` command is sent before
authentication is performed. Reader mode is sometimes necessary if you are
connecting to an NNTP server on the local machine and intend to call
reader-specific commands, such as ``group``. If you get unexpected
:exc:`NNTPPermanentError`\ s, you might need to set *readermode*.
The :class:`NNTP` class supports the :keyword:`with` statement to
unconditionally consume :exc:`OSError` exceptions and to close the NNTP
connection when done, e.g.:
>>> from nntplib import NNTP
>>> with NNTP('news.gmane.io') as n:
... n.group('gmane.comp.python.committers')
... # doctest: +SKIP
('211 1755 1 1755 gmane.comp.python.committers', 1755, 1, 1755, 'gmane.comp.python.committers')
>>>
.. audit-event:: nntplib.connect self,host,port nntplib.NNTP
.. audit-event:: nntplib.putline self,line nntplib.NNTP
All commands will raise an :ref:`auditing event <auditing>`
``nntplib.putline`` with arguments ``self`` and ``line``,
where ``line`` is the bytes about to be sent to the remote host.
.. versionchanged:: 3.2
*usenetrc* is now ``False`` by default.
.. versionchanged:: 3.3
Support for the :keyword:`with` statement was added.
.. versionchanged:: 3.9
If the *timeout* parameter is set to be zero, it will raise a
:class:`ValueError` to prevent the creation of a non-blocking socket.
.. class:: NNTP_SSL(host, port=563, user=None, password=None, ssl_context=None, readermode=None, usenetrc=False, [timeout])
Return a new :class:`NNTP_SSL` object, representing an encrypted
connection to the NNTP server running on host *host*, listening at
port *port*. :class:`NNTP_SSL` objects have the same methods as
:class:`NNTP` objects. If *port* is omitted, port 563 (NNTPS) is used.
*ssl_context* is also optional, and is a :class:`~ssl.SSLContext` object.
Please read :ref:`ssl-security` for best practices.
All other parameters behave the same as for :class:`NNTP`.
Note that SSL-on-563 is discouraged per :rfc:`4642`, in favor of
STARTTLS as described below. However, some servers only support the
former.
.. audit-event:: nntplib.connect self,host,port nntplib.NNTP_SSL
.. audit-event:: nntplib.putline self,line nntplib.NNTP_SSL
All commands will raise an :ref:`auditing event <auditing>`
``nntplib.putline`` with arguments ``self`` and ``line``,
where ``line`` is the bytes about to be sent to the remote host.
.. versionadded:: 3.2
.. versionchanged:: 3.4
The class now supports hostname check with
:attr:`ssl.SSLContext.check_hostname` and *Server Name Indication* (see
:data:`ssl.HAS_SNI`).
.. versionchanged:: 3.9
If the *timeout* parameter is set to be zero, it will raise a
:class:`ValueError` to prevent the creation of a non-blocking socket.
.. exception:: NNTPError
Derived from the standard exception :exc:`Exception`, this is the base
class for all exceptions raised by the :mod:`nntplib` module. Instances
of this class have the following attribute:
.. attribute:: response
The response of the server if available, as a :class:`str` object.
.. exception:: NNTPReplyError
Exception raised when an unexpected reply is received from the server.
.. exception:: NNTPTemporaryError
Exception raised when a response code in the range 400--499 is received.
.. exception:: NNTPPermanentError
Exception raised when a response code in the range 500--599 is received.
.. exception:: NNTPProtocolError
Exception raised when a reply is received from the server that does not begin
with a digit in the range 1--5.
.. exception:: NNTPDataError
Exception raised when there is some error in the response data.
.. _nntp-objects:
NNTP Objects
------------
When connected, :class:`NNTP` and :class:`NNTP_SSL` objects support the
following methods and attributes.
Attributes
^^^^^^^^^^
.. attribute:: NNTP.nntp_version
An integer representing the version of the NNTP protocol supported by the
server. In practice, this should be ``2`` for servers advertising
:rfc:`3977` compliance and ``1`` for others.
.. versionadded:: 3.2
.. attribute:: NNTP.nntp_implementation
A string describing the software name and version of the NNTP server,
or :const:`None` if not advertised by the server.
.. versionadded:: 3.2
Methods
^^^^^^^
The *response* that is returned as the first item in the return tuple of almost
all methods is the server's response: a string beginning with a three-digit
code. If the server's response indicates an error, the method raises one of
the above exceptions.
Many of the following methods take an optional keyword-only argument *file*.
When the *file* argument is supplied, it must be either a :term:`file object`
opened for binary writing, or the name of an on-disk file to be written to.
The method will then write any data returned by the server (except for the
response line and the terminating dot) to the file; any list of lines,
tuples or objects that the method normally returns will be empty.
.. versionchanged:: 3.2
Many of the following methods have been reworked and fixed, which makes
them incompatible with their 3.1 counterparts.
.. method:: NNTP.quit()
Send a ``QUIT`` command and close the connection. Once this method has been
called, no other methods of the NNTP object should be called.
.. method:: NNTP.getwelcome()
Return the welcome message sent by the server in reply to the initial
connection. (This message sometimes contains disclaimers or help information
that may be relevant to the user.)
.. method:: NNTP.getcapabilities()
Return the :rfc:`3977` capabilities advertised by the server, as a
:class:`dict` instance mapping capability names to (possibly empty) lists
of values. On legacy servers which don't understand the ``CAPABILITIES``
command, an empty dictionary is returned instead.
>>> s = NNTP('news.gmane.io')
>>> 'POST' in s.getcapabilities()
True
.. versionadded:: 3.2
.. method:: NNTP.login(user=None, password=None, usenetrc=True)
Send ``AUTHINFO`` commands with the user name and password. If *user*
and *password* are ``None`` and *usenetrc* is true, credentials from
``~/.netrc`` will be used if possible.
Unless intentionally delayed, login is normally performed during the
:class:`NNTP` object initialization and separately calling this function
is unnecessary. To force authentication to be delayed, you must not set
*user* or *password* when creating the object, and must set *usenetrc* to
False.
.. versionadded:: 3.2
.. method:: NNTP.starttls(context=None)
Send a ``STARTTLS`` command. This will enable encryption on the NNTP
connection. The *context* argument is optional and should be a
:class:`ssl.SSLContext` object. Please read :ref:`ssl-security` for best
practices.
Note that this may not be done after authentication information has
been transmitted, and authentication occurs by default if possible during a
:class:`NNTP` object initialization. See :meth:`NNTP.login` for information
on suppressing this behavior.
.. versionadded:: 3.2
.. versionchanged:: 3.4
The method now supports hostname check with
:attr:`ssl.SSLContext.check_hostname` and *Server Name Indication* (see
:data:`ssl.HAS_SNI`).
.. method:: NNTP.newgroups(date, *, file=None)
Send a ``NEWGROUPS`` command. The *date* argument should be a
:class:`datetime.date` or :class:`datetime.datetime` object.
Return a pair ``(response, groups)`` where *groups* is a list representing
the groups that are new since the given *date*. If *file* is supplied,
though, then *groups* will be empty.
>>> from datetime import date, timedelta
>>> resp, groups = s.newgroups(date.today() - timedelta(days=3))
>>> len(groups) # doctest: +SKIP
85
>>> groups[0] # doctest: +SKIP
GroupInfo(group='gmane.network.tor.devel', last='4', first='1', flag='m')
.. method:: NNTP.newnews(group, date, *, file=None)
Send a ``NEWNEWS`` command. Here, *group* is a group name or ``'*'``, and
*date* has the same meaning as for :meth:`newgroups`. Return a pair
``(response, articles)`` where *articles* is a list of message ids.
This command is frequently disabled by NNTP server administrators.
.. method:: NNTP.list(group_pattern=None, *, file=None)
Send a ``LIST`` or ``LIST ACTIVE`` command. Return a pair
``(response, list)`` where *list* is a list of tuples representing all
the groups available from this NNTP server, optionally matching the
pattern string *group_pattern*. Each tuple has the form
``(group, last, first, flag)``, where *group* is a group name, *last*
and *first* are the last and first article numbers, and *flag* usually
takes one of these values:
* ``y``: Local postings and articles from peers are allowed.
* ``m``: The group is moderated and all postings must be approved.
* ``n``: No local postings are allowed, only articles from peers.
* ``j``: Articles from peers are filed in the junk group instead.
* ``x``: No local postings, and articles from peers are ignored.
* ``=foo.bar``: Articles are filed in the ``foo.bar`` group instead.
If *flag* has another value, then the status of the newsgroup should be
considered unknown.
This command can return very large results, especially if *group_pattern*
is not specified. It is best to cache the results offline unless you
really need to refresh them.
.. versionchanged:: 3.2
*group_pattern* was added.
.. method:: NNTP.descriptions(grouppattern)
Send a ``LIST NEWSGROUPS`` command, where *grouppattern* is a wildmat string as
specified in :rfc:`3977` (it's essentially the same as DOS or UNIX shell wildcard
strings). Return a pair ``(response, descriptions)``, where *descriptions*
is a dictionary mapping group names to textual descriptions.
>>> resp, descs = s.descriptions('gmane.comp.python.*')
>>> len(descs) # doctest: +SKIP
295
>>> descs.popitem() # doctest: +SKIP
('gmane.comp.python.bio.general', 'BioPython discussion list (Moderated)')
.. method:: NNTP.description(group)
Get a description for a single group *group*. If more than one group matches
(if 'group' is a real wildmat string), return the first match. If no group
matches, return an empty string.
This elides the response code from the server. If the response code is needed,
use :meth:`descriptions`.
.. method:: NNTP.group(name)
Send a ``GROUP`` command, where *name* is the group name. The group is
selected as the current group, if it exists. Return a tuple
``(response, count, first, last, name)`` where *count* is the (estimated)
number of articles in the group, *first* is the first article number in
the group, *last* is the last article number in the group, and *name*
is the group name.
.. method:: NNTP.over(message_spec, *, file=None)
Send an ``OVER`` command, or an ``XOVER`` command on legacy servers.
*message_spec* can be either a string representing a message id, or
a ``(first, last)`` tuple of numbers indicating a range of articles in
the current group, or a ``(first, None)`` tuple indicating a range of
articles starting from *first* to the last article in the current group,
or :const:`None` to select the current article in the current group.
Return a pair ``(response, overviews)``. *overviews* is a list of
``(article_number, overview)`` tuples, one for each article selected
by *message_spec*. Each *overview* is a dictionary with the same number
of items, but this number depends on the server. These items are either
message headers (the key is then the lower-cased header name) or metadata
items (the key is then the metadata name prepended with ``":"``). The
following items are guaranteed to be present by the NNTP specification:
* the ``subject``, ``from``, ``date``, ``message-id`` and ``references``
headers
* the ``:bytes`` metadata: the number of bytes in the entire raw article
(including headers and body)
* the ``:lines`` metadata: the number of lines in the article body
The value of each item is either a string, or :const:`None` if not present.
It is advisable to use the :func:`decode_header` function on header
values when they may contain non-ASCII characters::
>>> _, _, first, last, _ = s.group('gmane.comp.python.devel')
>>> resp, overviews = s.over((last, last))
>>> art_num, over = overviews[0]
>>> art_num
117216
>>> list(over.keys())
['xref', 'from', ':lines', ':bytes', 'references', 'date', 'message-id', 'subject']
>>> over['from']
'=?UTF-8?B?Ik1hcnRpbiB2LiBMw7Z3aXMi?= <martin@v.loewis.de>'
>>> nntplib.decode_header(over['from'])
'"Martin v. Löwis" <martin@v.loewis.de>'
.. versionadded:: 3.2
.. method:: NNTP.help(*, file=None)
Send a ``HELP`` command. Return a pair ``(response, list)`` where *list* is a
list of help strings.
.. method:: NNTP.stat(message_spec=None)
Send a ``STAT`` command, where *message_spec* is either a message id
(enclosed in ``'<'`` and ``'>'``) or an article number in the current group.
If *message_spec* is omitted or :const:`None`, the current article in the
current group is considered. Return a triple ``(response, number, id)``
where *number* is the article number and *id* is the message id.
>>> _, _, first, last, _ = s.group('gmane.comp.python.devel')
>>> resp, number, message_id = s.stat(first)
>>> number, message_id
(9099, '<20030112190404.GE29873@epoch.metaslash.com>')
.. method:: NNTP.next()
Send a ``NEXT`` command. Return as for :meth:`.stat`.
.. method:: NNTP.last()
Send a ``LAST`` command. Return as for :meth:`.stat`.
.. method:: NNTP.article(message_spec=None, *, file=None)
Send an ``ARTICLE`` command, where *message_spec* has the same meaning as
for :meth:`.stat`. Return a tuple ``(response, info)`` where *info*
is a :class:`~collections.namedtuple` with three attributes *number*,
*message_id* and *lines* (in that order). *number* is the article number
in the group (or 0 if the information is not available), *message_id* the
message id as a string, and *lines* a list of lines (without terminating
newlines) comprising the raw message including headers and body.
>>> resp, info = s.article('<20030112190404.GE29873@epoch.metaslash.com>')
>>> info.number
0
>>> info.message_id
'<20030112190404.GE29873@epoch.metaslash.com>'
>>> len(info.lines)
65
>>> info.lines[0]
b'Path: main.gmane.org!not-for-mail'
>>> info.lines[1]
b'From: Neal Norwitz <neal@metaslash.com>'
>>> info.lines[-3:]
[b'There is a patch for 2.3 as well as 2.2.', b'', b'Neal']
.. method:: NNTP.head(message_spec=None, *, file=None)
Same as :meth:`article()`, but sends a ``HEAD`` command. The *lines*
returned (or written to *file*) will only contain the message headers, not
the body.
.. method:: NNTP.body(message_spec=None, *, file=None)
Same as :meth:`article()`, but sends a ``BODY`` command. The *lines*
returned (or written to *file*) will only contain the message body, not the
headers.
.. method:: NNTP.post(data)
Post an article using the ``POST`` command. The *data* argument is either
a :term:`file object` opened for binary reading, or any iterable of bytes
objects (representing raw lines of the article to be posted). It should
represent a well-formed news article, including the required headers. The
:meth:`post` method automatically escapes lines beginning with ``.`` and
appends the termination line.
If the method succeeds, the server's response is returned. If the server
refuses posting, a :class:`NNTPReplyError` is raised.
.. method:: NNTP.ihave(message_id, data)
Send an ``IHAVE`` command. *message_id* is the id of the message to send
to the server (enclosed in ``'<'`` and ``'>'``). The *data* parameter
and the return value are the same as for :meth:`post()`.
.. method:: NNTP.date()
Return a pair ``(response, date)``. *date* is a :class:`~datetime.datetime`
object containing the current date and time of the server.
.. method:: NNTP.slave()
Send a ``SLAVE`` command. Return the server's *response*.
.. method:: NNTP.set_debuglevel(level)
Set the instance's debugging level. This controls the amount of debugging
output printed. The default, ``0``, produces no debugging output. A value of
``1`` produces a moderate amount of debugging output, generally a single line
per request or response. A value of ``2`` or higher produces the maximum amount
of debugging output, logging each line sent and received on the connection
(including message text).
The following are optional NNTP extensions defined in :rfc:`2980`. Some of
them have been superseded by newer commands in :rfc:`3977`.
.. method:: NNTP.xhdr(hdr, str, *, file=None)
Send an ``XHDR`` command. The *hdr* argument is a header keyword, e.g.
``'subject'``. The *str* argument should have the form ``'first-last'``
where *first* and *last* are the first and last article numbers to search.
Return a pair ``(response, list)``, where *list* is a list of pairs ``(id,
text)``, where *id* is an article number (as a string) and *text* is the text of
the requested header for that article. If the *file* parameter is supplied, then
the output of the ``XHDR`` command is stored in a file. If *file* is a string,
then the method will open a file with that name, write to it then close it.
If *file* is a :term:`file object`, then it will start calling :meth:`write` on
it to store the lines of the command output. If *file* is supplied, then the
returned *list* is an empty list.
.. method:: NNTP.xover(start, end, *, file=None)
Send an ``XOVER`` command. *start* and *end* are article numbers
delimiting the range of articles to select. The return value is the
same of for :meth:`over()`. It is recommended to use :meth:`over()`
instead, since it will automatically use the newer ``OVER`` command
if available.
Utility functions
-----------------
The module also defines the following utility function:
.. function:: decode_header(header_str)
Decode a header value, un-escaping any escaped non-ASCII characters.
*header_str* must be a :class:`str` object. The unescaped value is
returned. Using this function is recommended to display some headers
in a human readable form::
>>> decode_header("Some subject")
'Some subject'
>>> decode_header("=?ISO-8859-15?Q?D=E9buter_en_Python?=")
'Débuter en Python'
>>> decode_header("Re: =?UTF-8?B?cHJvYmzDqG1lIGRlIG1hdHJpY2U=?=")
'Re: problème de matrice'