446 lines
16 KiB
Markdown
446 lines
16 KiB
Markdown
Title: Server-Sent Events and PostgreSQL LISTEN/NOTIFY using Djangos StreamingHttpRequest
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Date: 2023-05-17
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Status: hidden
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Tags: django, sse, postgresql
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Slug: django-sse-postgresql-listen-notify
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Authors: Víðir Valberg Guðmundsson
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Summary: A write-up of how I implemented server-sent events using Django 4.2 and PostgreSQL LISTEN/NOTIFY
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---
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With the release of Django 4.2 we got the following [0]:
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> [`StreamingHttpResponse`](https://docs.djangoproject.com/en/4.2/ref/request-response/#django.http.StreamingHttpResponse "django.http.StreamingHttpResponse") now supports async iterators when Django is served via ASGI.
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And the documentation has been expanded with the following [1]:
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> When serving under ASGI, however, a [`StreamingHttpResponse`](https://docs.djangoproject.com/en/4.2/ref/request-response/#django.http.StreamingHttpResponse "django.http.StreamingHttpResponse") need not stop other requests from being served whilst waiting for I/O. This opens up the possibility of long-lived requests for streaming content and implementing patterns such as long-polling, and server-sent events.
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Being a sucker for simplicity I got quite intrigued by the possibility to serve
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server-sent events (also known as SSE) from Django in an asynchronous manner.
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So I set out to write a small, drumroll please, chat application!
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The code for the chat application can be found at
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[github.com/valberg/django-sse](https://github.com/valberg/django-sse).
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### What are server-sent events and why do we want to use them?
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Server-sent events is "old tech", as in that is has been supported in major
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browser since around 2010-2011 [2]. The idea is that the client "subscribes" to
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an HTTP endpoint, and the server can then issue data to the client as long as
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the connection is open. This is a great performance boost compared to other
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techniques as for instance polling the server.
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_But wait, isn't websockets "shinier"?_
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It depends. In many situations when it comes to developing web applications, we
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just want a way to push data to the client, and here a bidirectional
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connection like websockets feel like an overkill. Also, I would argue that using
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POST/PUT requests from the client and SSE to the client might be "just enough"
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compared to websockets.
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SSE also has the added benefit of having a built-in reconnection mechanism,
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which is something we would have to implement ourselves with websockets.
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All in all SSE is a much simpler solution than websockets, and in many (most?)
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cases that is all we need.
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### A simple implementation
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So lets get to some code!
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First we need our model for storing the chat messages:
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:::python
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class ChatMessage(models.Model):
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user = models.CharField(max_length=255)
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text = models.CharField(max_length=255)
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With the model defined we can write our view to stream the messages.
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The following is something along the lines of my initial attempt. First we have
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to define the view, which in fact will not change for the remainder of this
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blog post. The juicy bits are in the `stream_messages()` function. Note that
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the view is an async view, denoted by the `async` keyword.
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:::python
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async def stream_messages_view(request: HttpRequest) -> StreamingHttpResponse:
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return StreamingHttpResponse(
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streaming_content=stream_messages(),
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content_type="text/event-stream",
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)
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We tell the `StreamingHttpResponse` class to get its streaming content from the
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`stream_messages` function. I implemented this as follows initially:
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::python
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async def stream_messages() -> AsyncGenerator[str, None]:
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latest_message = None
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while True:
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current_message = await ChatMessage.objects.order_by("-id").afirst()
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# If we have a new foo yield that
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if latest_message != current_message:
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yield "data: {current_message.text}\n\n"
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latest_message = current_message
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await asyncio.sleep(5)
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So we've gotten rid of the HTTP overhead of polling by not having to do a
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request from the client every 5 seconds. But we are still doing a query to the
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database every 5 seconds, and that for each client. This is not ideal and is
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probably something we could have done with a synchronous view.
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Let's see if we can do better. But first we'll have to talk about how to run
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this code.
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#### Aside: Use an ASGI server for development
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One thing that took me some time to realise is that the Django runserver is not
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capable of running async views returning `StreamingHttpResponse`.
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Running the above view with the runserver results in the following error:
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:::text
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.../django/http/response.py:514: Warning: StreamingHttpResponse must
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consume asynchronous iterators in order to serve them synchronously.
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Use a synchronous iterator instead.
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Fortunately Daphne, the ASGI server which was developed to power Django Channels, has an async runserver which we can use:
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To set this up we'll have to install the `daphne` package, add `daphne` to the top of our installed apps, and set
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the `ASGI_APPLICATION` setting to point to our ASGI application.
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:::python
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INSTALLED_APPS = [
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"daphne",
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...
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"chat", # Our app
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]
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ASGI_APPLICATION = "project.asgi.application"
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Now we can just run `./manage.py runserver` as before and we are async ready!
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### More old tech to the rescue: PostgreSQL LISTEN/NOTIFY
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This is where we could reach for more infrastructure which could help us giving
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the database a break. This could be listening for data in Redis (this is what
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django-channels does), or even having a queue in RabbitMQ. No matter what, it
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is more infrastructure.
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But I use PostgreSQL - and PostgreSQL is, like Django, "batteries included".
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PostgreSQL has this mechanism called "LISTEN/NOTIFY" where one client can
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LISTEN to a channel and then anyone can NOTIFY on that same channel.
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This seems like something we can use - but psycopg2 isn't async, so I'm not
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even sure if `sync_to_async` would help us here.
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### Enter psycopg 3
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I had put the whole thing on ice until I realized that another big thing (maybe
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a bit bigger than StreamingHttpResponse) in Django 4.2 is the support for
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psycopg 3 - and psycopg 3 is very much async!
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So I went for a stroll in the psycopg 3 documentation and found this gold[3]:
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::python
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import psycopg
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conn = psycopg.connect("", autocommit=True)
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conn.execute("LISTEN mychan")
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gen = conn.notifies()
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for notify in gen:
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print(notify)
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if notify.payload == "stop":
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gen.close()
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print("there, I stopped")
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This does almost what we want! It just isn't async and isn't getting connection
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info from Django.
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So by combining the snippet from the psycopg 3 documentation and my previous
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`stream_foos` I came up with this:
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:::python
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from collections.abc import AsyncGenerator
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import psycopg
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from django.db import connection
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async def stream_foos() -> AsyncGenerator[str, None]:
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connection_params = connection.get_connection_params()
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connection_params.pop('cursor_factory')
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aconnection = await psycopg.AsyncConnection.connect(
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**connection_params,
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autocommit=True,
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)
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channel_name = "new_foo"
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async with aconnection.cursor() as acursor:
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await acursor.execute(f"LISTEN {channel_name}")
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gen = aconnection.notifies()
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async for notify in gen:
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yield f"data: {notify.payload}\n\n"
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I was almost about to give up again, since this approach didn't work initially.
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All because I for some reason had removed the `autocommit=True` in my attempts
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to async-ify the snippet from the psycopg 3 documentation.
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#### Aside: Difference between 4.2 and 4.2.1
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the code worked initially in 4.2, but 4.2.1 fixed a regression regarding
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setting a custom cursor in the database configuration.
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In 4.2 we get this from `connection.get_connection_params()`:
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:::javascript
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{
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'dbname': 'postgres',
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'user': 'postgres',
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'password': 'postgres',
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'host': 'localhost',
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'port': 5432,
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'context': <psycopg.adapt.AdaptersMap object at 0x7f019cda7a60>,
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'prepare_threshold': None
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}
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in 4.2.1 we get this:
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:::javascript
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{
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'dbname': 'postgres',
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'client_encoding': 'UTF8',
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'cursor_factory': <class 'django.db.backends.postgresql.base.Cursor'>,
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'user': 'postgres',
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'password': 'postgres',
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'host': 'localhost',
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'port': '5432',
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'context': <psycopg.adapt.AdaptersMap object at 0x7f56464bcdd0>,
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'prepare_threshold': None
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}
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`django.db.backends.postgresql.base.Cursor` is not async iterable.
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So we can probably try to set our own `cursor_factory` in settings:
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:::python
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from psycopg import AsyncCursor
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DATABASES = {
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'default': {
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'ENGINE': 'django.db.backends.postgresql',
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'NAME': 'postgres',
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'USER': 'postgres',
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'PASSWORD': 'postgres',
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'HOST': 'localhost',
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'PORT': '5432',
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'OPTIONS': {
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"cursor_factory": AsyncCursor
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}
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}
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}
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But alas. For some reason this does not work. I guess that Django does some
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wrapping of the cursor - or maybe I've just encountered a bug. The cursor is at
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least not treated as an async cursor and thus we get the following error:
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:::pytb
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.../django-sse/venv/lib/python3.11/site-packages/django/db/backends/utils.py:41:
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RuntimeWarning: coroutine 'AsyncCursor.close' was never awaited
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self.close()
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RuntimeWarning: Enable tracemalloc to get the object allocation traceback
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.../django-sse/venv/lib/python3.11/site-packages/django/db/models/sql/compiler.py:1560:
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RuntimeWarning: coroutine 'AsyncCursor.execute' was never awaited
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cursor.execute(sql, params)
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RuntimeWarning: Enable tracemalloc to get the object allocation traceback
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So instead I opted for removing the `cursor_factory` in the streaming function.
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So that now looks like so:
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:::python
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async def stream_messages() -> AsyncGenerator[str, None]:
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connection_params = connection.get_connection_params()
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connection_params.pop('cursor_factory')
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aconnection = await psycopg.AsyncConnection.connect(
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**connection_params,
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autocommit=True,
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)
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channel_name = "new_message"
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async with aconnection.cursor() as acursor:
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print(type(acursor))
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await acursor.execute(f"LISTEN {channel_name}")
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gen = aconnection.notifies()
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async for notify in gen:
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yield f"data: {notify.payload}\n\n"
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### Test the endpoint with curl
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So now we've got the `LISTEN` part in place.
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If we connect to the endpoint using curl (`-N` disables buffering and is a way to consume streming content with curl):
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:::console
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$ curl -N http://localhost:8000/messages/
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And connect to our database and run:
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:::sql
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NOTIFY new_message, 'Hello, world!';
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We, excitingly, get the following result :
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:::text
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data: Hello, world!
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Amazing!
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### Issuing the NOTIFY
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But we want the `NOTIFY` command to be issued when a new chat message is submitted.
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For this we'll have a small utility function which does the heavy lifting. Note
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that this is just a very simple synchronous function since everything is just
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happening within a single request-response cycle.
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:::python
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from django.db import connection
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def notify(*, channel: str, event: str, payload: str) -> None:
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payload = json.dumps({
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"event": event,
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"content": payload,
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})
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with connection.cursor() as cursor:
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cursor.execute(
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f"NOTIFY {channel}, '{payload}'",
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)
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And then we can use this in our view (I'm using `@csrf_exempt` here since this is just a quick proof of concept):
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:::python
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@csrf_exempt
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@require_POST
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def post_message_view(request: HttpRequest) -> HttpResponse:
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message = request.POST.get("message")
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user = request.POST.get("user")
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message = ChatMessage.objects.create(user=user, text=message)
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notify(
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channel="lobby",
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event="message_created",
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content=json.dumps({
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"text": message.text,
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"user": message.user,
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})
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)
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return HttpResponse("OK")
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The keen observer will notice that we are storing the payload content as a JSON string within a JSON string.
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This is because we have two recipients of the payload. The first is the `stream_messages` function which is going to
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send the payload to the client with a `event`, and the second is the browser which is going to parse the payload and use
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the `event` to determine what to do with the payload.
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For this we'll have to update our `stream_messages` function as follows:
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:::python
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async def stream_messages() -> AsyncGenerator[str, None]:
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connection_params = connection.get_connection_params()
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# Remove the cursor_factory parameter since I can't get
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# the default from Django 4.2.1 to work.
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# Django 4.2 didn't have the parameter and that worked.
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connection_params.pop('cursor_factory')
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aconnection = await psycopg.AsyncConnection.connect(
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**connection_params,
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autocommit=True,
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)
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channel_name = "lobby"
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async with aconnection.cursor() as acursor:
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await acursor.execute(f"LISTEN {channel_name}")
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gen = aconnection.notifies()
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async for notify in gen:
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payload = json.loads(notify.payload)
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event = payload.pop("event")
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data = payload.pop("data")
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yield f"event: {event}\ndata: {data}\n\n"
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Everything is the same except that we now parse the payload from the `NOTIFY` command and construct the SSE payload with
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an `event` and a `data` field. This will come in handy when dealing with the frontend.
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Another way to do this would be to use Django's
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[signals](https://docs.djangoproject.com/en/4.2/topics/signals/) or event
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writing a PostgreSQL
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[trigger](https://www.postgresql.org/docs/15/plpgsql-trigger.html) which issues
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the `NOTIFY` command.
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### Frontend stuff
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Now that we've got the backend in place, we can get something up and running on
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the frontend.
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We could use HTMX's [SSE
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extension](https://htmx.org/extensions/server-sent-events/) but for this
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example we'll just use the
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[EventSource](https://developer.mozilla.org/en-US/docs/Web/API/EventSource) API
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directly.
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:::html
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<template id="message">
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<div style="border: 1px solid black; margin: 5px; padding: 5px;">
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<strong class="user"></strong>: <span class="message"></span>
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</div>
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</template>
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<div id="messages"></div>
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<script>
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const source = new EventSource("/messages/");
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// Note that the event we gave our notify utility function is called "message_created"
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// so that's what we listen for here.
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source.addEventListener("message_created", function(evt) {
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// Parse the payload
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let payload = JSON.parse(evt.data);
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// Get and clone our template
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let template = document.getElementById('message');
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let clone = template.content.cloneNode(true);
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// Update our cloned template
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clone.querySelector('.user').innerText = payload.user;
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clone.querySelector('.message').innerText = payload.text;
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// Append the cloned template to our list of messages
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document.getElementById('messages').appendChild(clone);
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});
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</script>
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And that's it! We can now open two browser windows and see the messages appear in real time.
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Check out the repo for the full code where I've also added a simple form for submitting new messages.
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### Conclusion
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Django might not be the shiniest framework out there, but it is solid and boring - which is a good thing!
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And with the continued work on async support, it is becoming a viable option for doing real time stuff, especially when paired with other solid and boring tech like PostgreSQL and SSE!
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[0]: https://docs.djangoproject.com/en/4.2/releases/4.2/#requests-and-responses
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[1]: https://docs.djangoproject.com/en/4.2/ref/request-response/#django.http.StreamingHttpResponse
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[2]: https://caniuse.com/eventsource
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[3]:https://www.psycopg.org/psycopg3/docs/advanced/async.html#index-4
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