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django/docs/email.txt
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==============
Sending e-mail
==============
Although Python makes sending e-mail relatively easy via the `smtplib library`_,
Django provides a couple of light wrappers over it, to make sending e-mail
extra quick.
The code lives in a single module: ``django.core.mail``.
.. _smtplib library: http://www.python.org/doc/current/lib/module-smtplib.html
Quick example
=============
In two lines::
from django.core.mail import send_mail
send_mail('Subject here', 'Here is the message.', 'from@example.com',
['to@example.com'], fail_silently=False)
Mail is sent using the SMTP host and port specified in the `EMAIL_HOST`_ and
`EMAIL_PORT`_ settings. The `EMAIL_HOST_USER`_ and `EMAIL_HOST_PASSWORD`_
settings, if set, are used to authenticate to the SMTP server, and the
`EMAIL_USE_TLS`_ setting controls whether a secure connection is used.
.. note::
The character set of e-mail sent with ``django.core.mail`` will be set to
the value of your `DEFAULT_CHARSET`_ setting.
.. _DEFAULT_CHARSET: ../settings/#default-charset
.. _EMAIL_HOST: ../settings/#email-host
.. _EMAIL_PORT: ../settings/#email-port
.. _EMAIL_HOST_USER: ../settings/#email-host-user
.. _EMAIL_HOST_PASSWORD: ../settings/#email-host-password
.. _EMAIL_USE_TLS: ../settings/#email-use-tls
send_mail()
===========
The simplest way to send e-mail is using the function
``django.core.mail.send_mail()``. Here's its definition::
send_mail(subject, message, from_email, recipient_list,
fail_silently=False, auth_user=None,
auth_password=None)
The ``subject``, ``message``, ``from_email`` and ``recipient_list`` parameters
are required.
* ``subject``: A string.
* ``message``: A string.
* ``from_email``: A string.
* ``recipient_list``: A list of strings, each an e-mail address. Each
member of ``recipient_list`` will see the other recipients in the "To:"
field of the e-mail message.
* ``fail_silently``: A boolean. If it's ``False``, ``send_mail`` will raise
an ``smtplib.SMTPException``. See the `smtplib docs`_ for a list of
possible exceptions, all of which are subclasses of ``SMTPException``.
* ``auth_user``: The optional username to use to authenticate to the SMTP
server. If this isn't provided, Django will use the value of the
``EMAIL_HOST_USER`` setting.
* ``auth_password``: The optional password to use to authenticate to the
SMTP server. If this isn't provided, Django will use the value of the
``EMAIL_HOST_PASSWORD`` setting.
.. _smtplib docs: http://www.python.org/doc/current/lib/module-smtplib.html
send_mass_mail()
================
``django.core.mail.send_mass_mail()`` is intended to handle mass e-mailing.
Here's the definition::
send_mass_mail(datatuple, fail_silently=False,
auth_user=None, auth_password=None):
``datatuple`` is a tuple in which each element is in this format::
(subject, message, from_email, recipient_list)
``fail_silently``, ``auth_user`` and ``auth_password`` have the same functions
as in ``send_mail()``.
Each separate element of ``datatuple`` results in a separate e-mail message.
As in ``send_mail()``, recipients in the same ``recipient_list`` will all see
the other addresses in the e-mail messages's "To:" field.
send_mass_mail() vs. send_mail()
--------------------------------
The main difference between ``send_mass_mail()`` and ``send_mail()`` is that
``send_mail()`` opens a connection to the mail server each time it's executed,
while ``send_mass_mail()`` uses a single connection for all of its messages.
This makes ``send_mass_mail()`` slightly more efficient.
mail_admins()
=============
``django.core.mail.mail_admins()`` is a shortcut for sending an e-mail to the
site admins, as defined in the `ADMINS`_ setting. Here's the definition::
mail_admins(subject, message, fail_silently=False)
``mail_admins()`` prefixes the subject with the value of the
`EMAIL_SUBJECT_PREFIX`_ setting, which is ``"[Django] "`` by default.
The "From:" header of the e-mail will be the value of the `SERVER_EMAIL`_ setting.
This method exists for convenience and readability.
.. _ADMINS: ../settings/#admins
.. _EMAIL_SUBJECT_PREFIX: ../settings/#email-subject-prefix
.. _SERVER_EMAIL: ../settings/#server-email
mail_managers() function
========================
``django.core.mail.mail_managers()`` is just like ``mail_admins()``, except it
sends an e-mail to the site managers, as defined in the `MANAGERS`_ setting.
Here's the definition::
mail_managers(subject, message, fail_silently=False)
.. _MANAGERS: ../settings/#managers
Examples
========
This sends a single e-mail to john@example.com and jane@example.com, with them
both appearing in the "To:"::
send_mail('Subject', 'Message.', 'from@example.com',
['john@example.com', 'jane@example.com'])
This sends a message to john@example.com and jane@example.com, with them both
receiving a separate e-mail::
datatuple = (
('Subject', 'Message.', 'from@example.com', ['john@example.com']),
('Subject', 'Message.', 'from@example.com', ['jane@example.com']),
)
send_mass_mail(datatuple)
Preventing header injection
===========================
`Header injection`_ is a security exploit in which an attacker inserts extra
e-mail headers to control the "To:" and "From:" in e-mail messages that your
scripts generate.
The Django e-mail functions outlined above all protect against header injection
by forbidding newlines in header values. If any ``subject``, ``from_email`` or
``recipient_list`` contains a newline (in either Unix, Windows or Mac style),
the e-mail function (e.g. ``send_mail()``) will raise
``django.core.mail.BadHeaderError`` (a subclass of ``ValueError``) and, hence,
will not send the e-mail. It's your responsibility to validate all data before
passing it to the e-mail functions.
If a ``message`` contains headers at the start of the string, the headers will
simply be printed as the first bit of the e-mail message.
Here's an example view that takes a ``subject``, ``message`` and ``from_email``
from the request's POST data, sends that to admin@example.com and redirects to
"/contact/thanks/" when it's done::
from django.core.mail import send_mail, BadHeaderError
def send_email(request):
subject = request.POST.get('subject', '')
message = request.POST.get('message', '')
from_email = request.POST.get('from_email', '')
if subject and message and from_email:
try:
send_mail(subject, message, from_email, ['admin@example.com'])
except BadHeaderError:
return HttpResponse('Invalid header found.')
return HttpResponseRedirect('/contact/thanks/')
else:
# In reality we'd use a form class
# to get proper validation errors.
return HttpResponse('Make sure all fields are entered and valid.')
.. _Header injection: http://securephp.damonkohler.com/index.php/Email_Injection
The EmailMessage and SMTPConnection classes
===========================================
**New in Django development version**
Django's ``send_mail()`` and ``send_mass_mail()`` functions are actually thin
wrappers that make use of the ``EmailMessage`` and ``SMTPConnection`` classes
in ``django.core.mail``. If you ever need to customize the way Django sends
e-mail, you can subclass these two classes to suit your needs.
.. note::
Not all features of the ``EmailMessage`` class are available through the
``send_mail()`` and related wrapper functions. If you wish to use advanced
features, such as BCC'ed recipients, file attachments, or multi-part
e-mail, you'll need to create ``EmailMessage`` instances directly.
This is a design feature. ``send_mail()`` and related functions were
originally the only interface Django provided. However, the list of
parameters they accepted was slowly growing over time. It made sense to
move to a more object-oriented design for e-mail messages and retain the
original functions only for backwards compatibility.
In general, ``EmailMessage`` is responsible for creating the e-mail message
itself. ``SMTPConnection`` is responsible for the network connection side of
the operation. This means you can reuse the same connection (an
``SMTPConnection`` instance) for multiple messages.
E-mail messages
---------------
The ``EmailMessage`` class is initialized with the following parameters (in
the given order, if positional arguments are used). All parameters are
optional and can be set at any time prior to calling the ``send()`` method.
* ``subject``: The subject line of the e-mail.
* ``body``: The body text. This should be a plain text message.
* ``from_email``: The sender's address. Both ``fred@example.com`` and
``Fred <fred@example.com>`` forms are legal. If omitted, the
`DEFAULT_FROM_EMAIL`_ setting is used.
* ``to``: A list or tuple of recipient addresses.
* ``bcc``: A list or tuple of addresses used in the "Bcc" header when
sending the e-mail.
* ``connection``: An ``SMTPConnection`` instance. Use this parameter if
you want to use the same conneciton for multiple messages. If omitted, a
new connection is created when ``send()`` is called.
* ``attachments``: A list of attachments to put on the message. These can
be either ``email.MIMEBase.MIMEBase`` instances, or ``(filename,
content, mimetype)`` triples.
* ``headers``: A dictionary of extra headers to put on the message. The
keys are the header name, values are the header values. It's up to the
caller to ensure header names and values are in the correct format for
an e-mail message.
For example::
email = EmailMessage('Hello', 'Body goes here', 'from@example.com',
['to1@example.com', 'to2@example.com'], ['bcc@example.com'],
headers = {'Reply-To': 'another@example.com'})
The class has the following methods:
* ``send(fail_silently=False)`` sends the message, using either
the connection that is specified in the ``connection``
attribute, or creating a new connection if none already
exists. If the keyword argument ``fail_silently`` is ``True``,
exceptions raised while sending the message will be quashed.
* ``message()`` constructs a ``django.core.mail.SafeMIMEText`` object (a
subclass of Python's ``email.MIMEText.MIMEText`` class) or a
``django.core.mail.SafeMIMEMultipart`` object holding the
message to be sent. If you ever need to extend the ``EmailMessage`` class,
you'll probably want to override this method to put the content you want
into the MIME object.
* ``recipients()`` returns a list of all the recipients of the message,
whether they're recorded in the ``to`` or ``bcc`` attributes. This is
another method you might need to override when subclassing, because the
SMTP server needs to be told the full list of recipients when the message
is sent. If you add another way to specify recipients in your class, they
need to be returned from this method as well.
* ``attach()`` creates a new file attachment and adds it to the message.
There are two ways to call ``attach()``:
* You can pass it a single argument that is an
``email.MIMEBase.MIMEBase`` instance. This will be inserted directly
into the resulting message.
* Alternatively, you can pass ``attach()`` three arguments:
``filename``, ``content`` and ``mimetype``. ``filename`` is the name
of the file attachment as it will appear in the e-mail, ``content`` is
the data that will be contained inside the attachment and
``mimetype`` is the optional MIME type for the attachment. If you
omit ``mimetype``, the MIME content type will be guessed from the
filename of the attachment.
For example::
message.attach('design.png', img_data, 'image/png')
* ``attach_file()`` creates a new attachment using a file from your
filesystem. Call it with the path of the file to attach and, optionally,
the MIME type to use for the attachment. If the MIME type is omitted, it
will be guessed from the filename. The simplest use would be::
message.attach_file('/images/weather_map.png')
.. _DEFAULT_FROM_EMAIL: ../settings/#default-from-email
Sending alternative content types
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
It can be useful to include multiple versions of the content in an e-mail;
the classic example is to send both text and HTML versions of a message. With
Django's e-mail library, you can do this using the ``EmailMultiAlternatives``
class. This subclass of ``EmailMessage`` has an ``attach_alternative()`` method
for including extra versions of the message body in the e-mail. All the other
methods (including the class initialization) are inherited directly from
``EmailMessage``.
To send a text and HTML combination, you could write::
from django.core.mail import EmailMultiAlternatives
subject, from_email, to = 'hello', 'from@example.com', 'to@example.com'
text_content = 'This is an important message.'
html_content = '<p>This is an <strong>important</strong> message.</p>'
msg = EmailMultiAlternatives(subject, text_content, from_email, [to])
msg.attach_alternative(html_content, "text/html")
msg.send()
By default, the MIME type of the ``body`` parameter in an ``EmailMessage`` is
``"text/plain"``. It is good practice to leave this alone, because it
guarantees that any recipient will be able to read the e-mail, regardless of
their mail client. However, if you are confident that your recipients can
handle an alternative content type, you can use the ``content_subtype``
attribute on the ``EmailMessage`` class to change the main content type. The
major type will always be ``"text"``, but you can change it to the subtype. For
example::
msg = EmailMessage(subject, html_content, from_email, [to])
msg.content_subtype = "html" # Main content is now text/html
msg.send()
SMTP network connections
------------------------
The ``SMTPConnection`` class is initialized with the host, port, username and
password for the SMTP server. If you don't specify one or more of those
options, they are read from your settings file.
If you're sending lots of messages at once, the ``send_messages()`` method of
the ``SMTPConnection`` class is useful. It takes a list of ``EmailMessage``
instances (or subclasses) and sends them over a single connection. For example,
if you have a function called ``get_notification_email()`` that returns a
list of ``EmailMessage`` objects representing some periodic e-mail you wish to
send out, you could send this with::
connection = SMTPConnection() # Use default settings for connection
messages = get_notification_email()
connection.send_messages(messages)