A Django app to monitor and send mail asynchronously, complete with template support.
Project description
Django Post Office
Django Post Office is a simple app to send and manage your emails in Django. Some awesome features are:
- Allows you to send email asynchronously
- Multi backend support
- Supports HTML email
- Supports inlined images in HTML email
- Supports database based email templates
- Supports multilingual email templates (i18n)
- Built in scheduling support
- Works well with task queues like RQ or Celery
- Uses multiprocessing (and threading) to send a large number of emails in parallel
Dependencies
With this optional dependency, HTML emails are nicely rendered inside the Django admin backend. Without this library, all HTML tags will otherwise be stripped for security reasons.
Installation
Install from PyPI (or manually download from PyPI):
pip install django-post_office
Add post_office
to your INSTALLED_APPS in django's settings.py
:
INSTALLED_APPS = (
# other apps
"post_office",
)
Run migrate
:
python manage.py migrate
Set post_office.EmailBackend
as your EMAIL_BACKEND
in Django's settings.py
:
EMAIL_BACKEND = 'post_office.EmailBackend'
Quickstart
Send a simple email is really easy:
from post_office import mail
mail.send(
'recipient@example.com', # List of email addresses also accepted
'from@example.com',
subject='My email',
message='Hi there!',
html_message='Hi <strong>there</strong>!',
)
If you want to use templates, ensure that Django's admin interface is
enabled. Create an EmailTemplate
instance via admin
and do the
following:
from post_office import mail
mail.send(
'recipient@example.com', # List of email addresses also accepted
'from@example.com',
template='welcome_email', # Could be an EmailTemplate instance or name
context={'foo': 'bar'},
)
The above command will put your email on the queue so you can use the
command in your webapp without slowing down the request/response cycle
too much. To actually send them out, run
python manage.py send_queued_mail
. You can schedule this management
command to run regularly via cron:
* * * * * (/usr/bin/python manage.py send_queued_mail >> send_mail.log 2>&1)
Usage
mail.send()
mail.send
is the most important function in this library, it takes
these arguments:
Argument | Required | Description |
---|---|---|
recipients | Yes | List of recipient email addresses |
sender | No | Defaults to settings.DEFAULT_FROM_EMAIL , display name like John <john@a.com> is allowed |
subject | No | Email subject (if template is not specified) |
message | No | Email content (if template is not specified) |
html_message | No | HTML content (if template is not specified) |
template | No | EmailTemplate instance or name of template |
language | No | Language in which you want to send the email in (if you have multilingual email templates). |
cc | No | List of emails, will appear in cc field |
bcc | No | List of emails, will appear in bcc field |
attachments | No | Email attachments - a dict where the keys are the filenames and the values are files, file-like-objects or path to file |
context | No | A dict, used to render templated email |
headers | No | A dictionary of extra headers on the message |
scheduled_time | No | A date/datetime object indicating when the email should be sent |
expires_at | No | If specified, mails that are not yet sent won't be delivered after this date. |
priority | No | high , medium , low or now (sent immediately) |
backend | No | Alias of the backend you want to use, default will be used if not specified. |
render_on_delivery | No | Setting this to True causes email to be lazily rendered during delivery. template is required when render_on_delivery is True. With this option, the full email content is never stored in the DB. May result in significant space savings if you're sending many emails using the same template. |
Here are a few examples.
If you just want to send out emails without using database templates.
You can call the send
command without the template
argument.
from post_office import mail
mail.send(
['recipient1@example.com'],
'from@example.com',
subject='Welcome!',
message='Welcome home, {{ name }}!',
html_message='Welcome home, <b>{{ name }}</b>!',
headers={'Reply-to': 'reply@example.com'},
scheduled_time=date(2014, 1, 1),
context={'name': 'Alice'},
)
post_office
is also task queue friendly. Passing now
as priority
into send_mail
will deliver the email right away (instead of queuing
it), regardless of how many emails you have in your queue:
from post_office import mail
mail.send(
['recipient1@example.com'],
'from@example.com',
template='welcome_email',
context={'foo': 'bar'},
priority='now',
)
This is useful if you already use something like django-rq to send emails asynchronously and only need to store email related activities and logs.
If you want to send an email with attachments:
from django.core.files.base import ContentFile
from post_office import mail
mail.send(
['recipient1@example.com'],
'from@example.com',
template='welcome_email',
context={'foo': 'bar'},
priority='now',
attachments={
'attachment1.doc': '/path/to/file/file1.doc',
'attachment2.txt': ContentFile('file content'),
'attachment3.txt': {'file': ContentFile('file content'), 'mimetype': 'text/plain'},
}
)
Template Tags and Variables
post-office
supports Django's template tags and variables. For
example, if you put Hello, {{ name }}
in the subject line and pass in
{'name': 'Alice'}
as context, you will get Hello, Alice
as subject:
from post_office.models import EmailTemplate
from post_office import mail
EmailTemplate.objects.create(
name='morning_greeting',
subject='Morning, {{ name|capfirst }}',
content='Hi {{ name }}, how are you feeling today?',
html_content='Hi <strong>{{ name }}</strong>, how are you feeling today?',
)
mail.send(
['recipient@example.com'],
'from@example.com',
template='morning_greeting',
context={'name': 'alice'},
)
# This will create an email with the following content:
subject = 'Morning, Alice',
content = 'Hi alice, how are you feeling today?'
content = 'Hi <strong>alice</strong>, how are you feeling today?'
Multilingual Email Templates
You can easily create email templates in various different languages. For example:
template = EmailTemplate.objects.create(
name='hello',
subject='Hello world!',
)
# Add an Indonesian version of this template:
indonesian_template = template.translated_templates.create(
language='id',
subject='Halo Dunia!'
)
Sending an email using template in a non default languange is similarly easy:
mail.send(
['recipient@example.com'],
'from@example.com',
template=template, # Sends using the default template
)
mail.send(
['recipient@example.com'],
'from@example.com',
template=template,
language='id', # Sends using Indonesian template
)
Inlined Images
Often one wants to render images inside a template, which are attached
as inlined MIMEImage
to the outgoing email. This requires a slightly
modified Django Template Engine, keeping a list of inlined images, which
later will be added to the outgoing message.
First we must add a special Django template backend to our list of template engines:
TEMPLATES = [
{
...
}, {
'BACKEND': 'post_office.template.backends.post_office.PostOfficeTemplates',
'APP_DIRS': True,
'DIRS': [],
'OPTIONS': {
'context_processors': [
'django.contrib.auth.context_processors.auth',
'django.template.context_processors.debug',
'django.template.context_processors.i18n',
'django.template.context_processors.media',
'django.template.context_processors.static',
'django.template.context_processors.tz',
'django.template.context_processors.request',
]
}
}
]
then we must tell Post-Office to use this template engine:
POST_OFFICE = {
'TEMPLATE_ENGINE': 'post_office',
}
In templates used to render HTML for emails add
{% load post_office %}
<p>... somewhere in the body ...</p>
<img src="{% inline_image 'path/to/image.png' %}" />
Here the templatetag named inline_image
is used to keep track of
inlined images. It takes a single parameter. This can either be the
relative path to an image file located in one of the static
directories, or the absolute path to an image file, or an image-file
object itself. Templates rendered using this templatetag, render a
reference ID for each given image, and store these images inside the
context of the adopted template engine. Later on, when the rendered
template is passed to the mailing library, those images will be
transferred to the email message object as MIMEImage
-attachments.
To send an email containing both, a plain text body and some HTML with inlined images, use the following code snippet:
from django.core.mail import EmailMultiAlternatives
subject, body = "Hello", "Plain text body"
from_email, to_email = "no-reply@example.com", "john@example.com"
email_message = EmailMultiAlternatives(subject, body, from_email, [to_email])
template = get_template('email-template-name.html', using='post_office')
context = {...}
html = template.render(context)
email_message.attach_alternative(html, 'text/html')
template.attach_related(email_message)
email_message.send()
To send an email containing HTML with inlined images, but without a plain text body, use this code snippet:
from django.core.mail import EmailMultiAlternatives
subject, from_email, to_email = "Hello", "no-reply@example.com", "john@example.com"
template = get_template('email-template-name.html', using='post_office')
context = {...}
html = template.render(context)
email_message = EmailMultiAlternatives(subject, html, from_email, [to_email])
email_message.content_subtype = 'html'
template.attach_related(email_message)
email_message.send()
Custom Email Backends
By default, post_office
uses django's smtp.EmailBackend
. If you want
to use a different backend, you can do so by configuring BACKENDS
.
For example if you want to use django-ses:
# Put this in settings.py
POST_OFFICE = {
...
'BACKENDS': {
'default': 'smtp.EmailBackend',
'ses': 'django_ses.SESBackend',
}
}
You can then choose what backend you want to use when sending mail:
# If you omit `backend_alias` argument, `default` will be used
mail.send(
['recipient@example.com'],
'from@example.com',
subject='Hello',
)
# If you want to send using `ses` backend
mail.send(
['recipient@example.com'],
'from@example.com',
subject='Hello',
backend='ses',
)
Management Commands
send_queued_mail
- send queued emails, those aren't successfully sent will be marked asfailed
. Accepts the following arguments:
Argument | Description |
---|---|
--processes or -p |
Number of parallel processes to send email. Defaults to 1 |
--lockfile or -L |
Full path to file used as lock file. Defaults to /tmp/post_office.lock |
cleanup_mail
- delete all emails created before an X number of days (defaults to 90).
Argument | Description |
---|---|
--days or -d |
Email older than this argument will be deleted. Defaults to 90 |
--delete-attachments |
Flag to delete orphaned attachment records and files on disk. If not specified, attachments won't be deleted. |
You may want to set these up via cron to run regularly:
* * * * * (cd $PROJECT; python manage.py send_queued_mail --processes=1 >> $PROJECT/cron_mail.log 2>&1)
0 1 * * * (cd $PROJECT; python manage.py cleanup_mail --days=30 --delete-attachments >> $PROJECT/cron_mail_cleanup.log 2>&1)
Settings
This section outlines all the settings and configurations that you can
put in Django's settings.py
to fine tune post-office
's behavior.
Batch Size
If you may want to limit the number of emails sent in a batch (sometimes
useful in a low memory environment), use the BATCH_SIZE
argument to
limit the number of queued emails fetched in one batch.
# Put this in settings.py
POST_OFFICE = {
...
'BATCH_SIZE': 50,
}
Default Priority
The default priority for emails is medium
, but this can be altered by
setting DEFAULT_PRIORITY
. Integration with asynchronous email backends
(e.g. based on Celery) becomes trivial when set to now
.
# Put this in settings.py
POST_OFFICE = {
...
'DEFAULT_PRIORITY': 'now',
}
Override Recipients
Defaults to None
. This option is useful if you want to redirect all
emails to specified a few email for development purposes.
# Put this in settings.py
POST_OFFICE = {
...
'OVERRIDE_RECIPIENTS': ['to@example.com', 'to2@example.com'],
}
Message-ID
The SMTP standard requires that each email contains a unique Message-ID. Typically the Message-ID consists of two parts separated by the @
symbol: The left part is a generated pseudo random number. The right
part is a constant string, typically denoting the full qualified domain
name of the sending server.
By default, Django generates such a Message-ID during email delivery. Since django-post_office keeps track of all delivered emails, it can be very useful to create and store this Message-ID while creating each email in the database. This identifier then can be looked up in the Django admin backend.
To enable this feature, add this to your Post-Office settings:
# Put this in settings.py
POST_OFFICE = {
...
'MESSAGE_ID_ENABLED': True,
}
It can further be fine tuned, using for instance another full qualified domain name:
# Put this in settings.py
POST_OFFICE = {
...
'MESSAGE_ID_ENABLED': True,
'MESSAGE_ID_FQDN': 'example.com',
}
Otherwise, if MESSAGE_ID_FQDN
is unset (the default),
django-post_office falls back to the DNS name of the server, which
is determined by the network settings of the host.
Retry
Not activated by default. You can automatically requeue failed email deliveries. You can also configure failed deliveries to be retried after a specific time interval.
# Put this in settings.py
POST_OFFICE = {
...
'MAX_RETRIES': 4,
'RETRY_INTERVAL': datetime.timedelta(minutes=15), # Schedule to be retried 15 minutes later
}
Log Level
Logs are stored in the database and is browseable via Django admin.
The default log level is 2 (logs both successful and failed deliveries)
This behavior can be changed by setting LOG_LEVEL
.
# Put this in settings.py
POST_OFFICE = {
...
'LOG_LEVEL': 1, # Log only failed deliveries
}
The different options are:
0
logs nothing1
logs only failed deliveries2
logs everything (both successful and failed delivery attempts)
Sending Order
The default sending order for emails is -priority
, but this can be
altered by setting SENDING_ORDER
. For example, if you want to send
queued emails in FIFO order :
# Put this in settings.py
POST_OFFICE = {
...
'SENDING_ORDER': ['created'],
}
Context Field Serializer
If you need to store complex Python objects for deferred rendering (i.e.
setting render_on_delivery=True
), you can specify your own context
field class to store context variables. For example if you want to use
django-picklefield:
# Put this in settings.py
POST_OFFICE = {
...
'CONTEXT_FIELD_CLASS': 'picklefield.fields.PickledObjectField',
}
CONTEXT_FIELD_CLASS
defaults to jsonfield.JSONField
.
Logging
You can configure post-office
's logging from Django's settings.py
.
For example:
LOGGING = {
"version": 1,
"disable_existing_loggers": False,
"formatters": {
"post_office": {
"format": "[%(levelname)s]%(asctime)s PID %(process)d: %(message)s",
"datefmt": "%d-%m-%Y %H:%M:%S",
},
},
"handlers": {
"post_office": {
"level": "DEBUG",
"class": "logging.StreamHandler",
"formatter": "post_office"
},
# If you use sentry for logging
'sentry': {
'level': 'ERROR',
'class': 'raven.contrib.django.handlers.SentryHandler',
},
},
'loggers': {
"post_office": {
"handlers": ["post_office", "sentry"],
"level": "INFO"
},
},
}
Threads
post-office
>= 3.0 allows you to use multiple threads to dramatically
speed up the speed at which emails are sent. By default, post-office
uses 5 threads per process. You can tweak this setting by changing
THREADS_PER_PROCESS
setting.
This may dramatically increase the speed of bulk email delivery, depending on which email backends you use. In my tests, multi threading speeds up email backends that use HTTP based (REST) delivery mechanisms but doesn't seem to help SMTP based backends.
# Put this in settings.py
POST_OFFICE = {
...
'THREADS_PER_PROCESS': 10,
}
Performance
Caching
if Django's caching mechanism is configured, post_office
will cache
EmailTemplate
instances . If for some reason you want to disable
caching, set POST_OFFICE_CACHE
to False
in settings.py
:
## All cache key will be prefixed by post_office:template:
## To turn OFF caching, you need to explicitly set POST_OFFICE_CACHE to False in settings
POST_OFFICE_CACHE = False
## Optional: to use a non default cache backend, add a "post_office" entry in CACHES
CACHES = {
'post_office': {
'BACKEND': 'django.core.cache.backends.memcached.PyLibMCCache',
'LOCATION': '127.0.0.1:11211',
}
}
send_many()
send_many()
is much more performant (generates less database queries)
when sending a large number of emails. send_many()
is almost identical
to mail.send()
, with the exception that it accepts a list of keyword
arguments that you'd usually pass into mail.send()
:
from post_office import mail
first_email = {
'sender': 'from@example.com',
'recipients': ['alice@example.com'],
'subject': 'Hi!',
'message': 'Hi Alice!'
}
second_email = {
'sender': 'from@example.com',
'recipients': ['bob@example.com'],
'subject': 'Hi!',
'message': 'Hi Bob!'
}
kwargs_list = [first_email, second_email]
mail.send_many(kwargs_list)
Attachments are not supported with mail.send_many()
.
Running Tests
To run the test suite:
`which django-admin.py` test post_office --settings=post_office.test_settings --pythonpath=.
You can run the full test suite for all supported versions of Django and Python with:
tox
or:
python setup.py test
Integration with Celery
If your Django project runs in a Celery enabled configuration, you can use its worker to send out queued emails. Compared to the solution with cron (see above), or the solution with uWSGI timers (see below) this setup has the big advantage that queued emails are send immediately after they have been added to the mail queue. The delivery is still performed in a separate and asynchronous task, which prevents sending emails during the request/response-cycle.
If you configured Celery in your project and started the Celery worker, you should see something such as:
--------------- celery@halcyon.local v4.0 (latentcall)
--- ***** -----
-- ******* ---- [Configuration]
- *** --- * --- . broker: amqp://guest@localhost:5672//
- ** ---------- . app: __main__:0x1012d8590
- ** ---------- . concurrency: 8 (processes)
- ** ---------- . events: OFF (enable -E to monitor this worker)
- ** ----------
- *** --- * --- [Queues]
-- ******* ---- . celery: exchange:celery(direct) binding:celery
--- ***** -----
[tasks]
. post_office.tasks.cleanup_expired_mails
. post_office.tasks.send_queued_mail
Delivering emails through the Celery worker must be explicitly enabled:
# Put this in settings.py
POST_OFFICE = {
...
'CELERY_ENABLED': True,
}
Emails will then be delivered immediately after they have been queued. In order to make this happen,
the project's celery.py
setup shall invoke the
autodiscoverttasks
function. In case of a temporary delivery failure, we might want retrying to send those emails by a
periodic task. This can be scheduled with a simple
Celery beat configuration,
for instance through
app.conf.beat_schedule = {
'send-queued-mail': {
'task': 'post_office.tasks.send_queued_mail',
'schedule': 600.0,
},
}
The email queue now will be processed every 10 minutes. If you are using
Django Celery Beat,
then use the Django-Admin backend and add a periodic taks for post_office.tasks.send_queued_mail
.
Depending on your policy, you may also want to remove expired emails from the queue. This can be
done by adding another periodic taks for post_office.tasks.cleanup_mail
, which may run once a
week or month.
Integration with uWSGI
If setting up Celery is too daunting and you use
uWSGI as application
server, then uWSGI decorators can act as a poor men's scheduler. Just
add this short snipped to the project's wsgi.py
file:
from django.core.wsgi import get_wsgi_application
application = get_wsgi_application()
# add this block of code
try:
import uwsgidecorators
from django.core.management import call_command
@uwsgidecorators.timer(10)
def send_queued_mail(num):
"""Send queued mail every 10 seconds"""
call_command('send_queued_mail', processes=1)
except ImportError:
print("uwsgidecorators not found. Cron and timers are disabled")
Alternatively you can also use the decorator
@uwsgidecorators.cron(minute, hour, day, month, weekday)
. This will
schedule a task at specific times. Use -1
to signal any time, it
corresponds to the *
in cron.
Please note that uwsgidecorators
are available only, if the
application has been started with uWSGI. However, Django's internal
./manange.py runserver
also access this file, therefore wrap the block
into an exception handler as shown above.
This configuration can be useful in environments, such as Docker containers, where you don't have a running cron-daemon.
Signals
Each time an email is added to the mail queue, Post Office emits a
special Django
signal.
Whenever a third party application wants to be informed about this
event, it shall connect a callback function to the Post Office's signal
handler email_queued
, for instance:
from django.dispatch import receiver
from post_office.signals import email_queued
@receiver(email_queued)
def my_callback(sender, emails, **kwargs):
print("Added {} mails to the sending queue".format(len(emails)))
The Emails objects added to the queue are passed as list to the callback handler.
Changelog
Full changelog can be found here.
Created and maintained by the cool guys at Stamps, Indonesia's most elegant CRM/loyalty platform.
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