mirror of https://github.com/zulip/zulip.git
619 lines
26 KiB
Markdown
619 lines
26 KiB
Markdown
# Incoming webhook walkthrough
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Below, we explain each part of a simple incoming webhook integration,
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called **Hello World**. This integration sends a "hello" message to the `test`
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stream and includes a link to the Wikipedia article of the day, which
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it formats from json data it receives in the http request.
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Use this walkthrough to learn how to write your first webhook
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integration.
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## Step 0: Create fixtures
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The first step in creating an incoming webhook is to examine the data that the
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service you want to integrate will be sending to Zulip.
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Use <https://webhook.site/> or a similar tool to capture
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webhook payload(s) from the service you are integrating. Examining this
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data allows you to do two things:
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1. Determine how you will need to structure your webhook code, including what
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message types your integration should support and how.
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2. Create fixtures for your webhook tests.
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A test fixture is a small file containing test data, one for each test.
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Fixtures enable the testing of webhook integration code without the need to
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actually contact the service being integrated.
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Because `Hello World` is a very simple integration that does one
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thing, it requires only one fixture,
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`zerver/webhooks/helloworld/fixtures/hello.json`:
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```
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{
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"featured_title":"Marilyn Monroe",
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"featured_url":"https://en.wikipedia.org/wiki/Marilyn_Monroe",
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}
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```
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When writing your own incoming webhook integration, you'll want to write a test function
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for each distinct message condition your integration supports. You'll also need a
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corresponding fixture for each of these tests. Depending on the type of data
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the 3rd party service sends, your fixture may contain JSON, URL encoded text, or
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some other kind of data. See [Step 5: Create automated tests](#step-5-create-automated-tests) or
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[Testing](https://zulip.readthedocs.io/en/latest/testing/testing.html) for further details.
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### HTTP Headers
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Some third-party webhook APIs, such as GitHub's, don't encode all the
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information about an event in the JSON request body. Instead, they
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put key details like the event type in a separate HTTP header
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(generally this is clear in their API documentation). In order to
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test Zulip's handling of that integration, you will need to record
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which HTTP headers are used with each fixture you capture.
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Since this is integration-dependent, Zulip offers a simple API for
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doing this, which is probably best explained by looking at the example
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for GitHub: `zerver/webhooks/github/view.py`; basically, as part of
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writing your integration, you'll write a special function in your
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view.py file that maps the filename of the fixture to the set of HTTP
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headers to use. This function must be named "fixture_to_headers". Most
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integrations will use the same strategy as the GitHub integration:
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encoding the third party variable header data (usually just an event
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type) in the fixture filename, in such a case, you won't need to
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explicitly write the logic for such a special function again,
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instead you can just use the same helper method that the GitHub
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integration uses.
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## Step 1: Initialize your webhook python package
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In the `zerver/webhooks/` directory, create new subdirectory that will
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contain all of corresponding code. In our example it will be
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`helloworld`. The new directory will be a python package, so you have
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to create an empty `__init__.py` file in that directory via e.g.
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`touch zerver/webhooks/helloworld/__init__.py`.
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## Step 2: Create main webhook code
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The majority of the code for your new integration will be in a single
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python file, `zerver/webhooks/mywebhook/view.py`.
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The Hello World integration is in `zerver/webhooks/helloworld/view.py`:
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```
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from typing import Any, Dict, Iterable, Optional
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from django.http import HttpRequest, HttpResponse
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from django.utils.translation import ugettext as _
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from zerver.decorator import api_key_only_webhook_view
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from zerver.lib.webhooks.common import check_send_webhook_message
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from zerver.lib.request import REQ, has_request_variables
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from zerver.lib.response import json_error, json_success
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from zerver.lib.validator import check_dict, check_string
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from zerver.models import UserProfile
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@api_key_only_webhook_view('HelloWorld')
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@has_request_variables
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def api_helloworld_webhook(
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request: HttpRequest, user_profile: UserProfile,
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payload: Dict[str, Iterable[Dict[str, Any]]]=REQ(argument_type='body')
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) -> HttpResponse:
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# construct the body of the message
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body = 'Hello! I am happy to be here! :smile:'
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# try to add the Wikipedia article of the day
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body_template = '\nThe Wikipedia featured article for today is **[{featured_title}]({featured_url})**'
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body += body_template.format(**payload)
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topic = "Hello World"
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# send the message
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check_send_webhook_message(request, user_profile, topic, body)
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return json_success()
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```
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The above code imports the required functions and defines the main webhook
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function `api_helloworld_webhook`, decorating it with `api_key_only_webhook_view` and
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`has_request_variables`. The `has_request_variables` decorator allows you to
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access request variables with `REQ()`. You can find more about `REQ` and request
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variables in [Writing views](
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https://zulip.readthedocs.io/en/latest/tutorials/writing-views.html#request-variables).
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You must pass the name of your integration to the
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`api_key_only_webhook_view` decorator; that name will be used to
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describe your integration in Zulip's analytics (e.g. the `/stats`
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page). Here we have used `HelloWorld`. To be consistent with other
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integrations, use the name of the product you are integrating in camel
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case, spelled as the product spells its own name (except always first
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letter upper-case).
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The `api_key_only_webhook_view` decorator indicates that the 3rd party service will
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send the authorization as an API key in the query parameters. If your service uses
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HTTP Basic authentication, you would instead use the `authenticated_rest_api_view`
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decorator.
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You should name your webhook function as such
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`api_webhookname_webhook` where `webhookname` is the name of your
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integration and is always lower-case.
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At minimum, the webhook function must accept `request` (Django
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[HttpRequest](https://docs.djangoproject.com/en/1.8/ref/request-response/#django.http.HttpRequest)
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object), and `user_profile` (Zulip's user object). You may also want to
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define additional parameters using the `REQ` object.
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In the example above, we have defined `payload` which is populated
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from the body of the http request, `stream` with a default of `test`
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(available by default in the Zulip development environment), and
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`topic` with a default of `Hello World`. If your webhook uses a custom stream,
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it must exist before a message can be created in it. (See
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[Step 4: Create automated tests](#step-5-create-automated-tests) for how to handle this in tests.)
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The line that begins `# type` is a mypy type annotation. See [this
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page](https://zulip.readthedocs.io/en/latest/testing/mypy.html) for details about
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how to properly annotate your webhook functions.
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In the body of the function we define the body of the message as `Hello! I am
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happy to be here! :smile:`. The `:smile:` indicates an emoji. Then we append a
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link to the Wikipedia article of the day as provided by the json payload.
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* Sometimes, it might occur that a json payload does not contain all required keys your
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integration checks for. In such a case, any `KeyError` thrown is handled by the server
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backend and will create an appropriate response.
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Then we send a message with `check_send_webhook_message`, which will
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validate the message and do the following:
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* Send a public (stream) message if the `stream` query parameter is
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specified in the webhook URL.
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* If the `stream` query parameter isn't specified, it will send a private
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message to the owner of the webhook bot.
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Finally, we return a 200 http status with a JSON format success message via
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`json_success()`.
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## Step 3: Create an api endpoint for the webhook
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In order for an incoming webhook to be externally available, it must be mapped
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to a url. This is done in `zerver/lib/integrations.py`.
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Look for the lines beginning with:
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```
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WEBHOOK_INTEGRATIONS = [
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```
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And you'll find the entry for Hello World:
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```
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WebhookIntegration('helloworld', ['misc'], display_name='Hello World'),
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```
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This tells the Zulip api to call the `api_helloworld_webhook` function in
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`zerver/webhooks/helloworld/view.py` when it receives a request at
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`/api/v1/external/helloworld`.
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This line also tells Zulip to generate an entry for Hello World on the Zulip
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integrations page using `static/images/integrations/logos/helloworld.png` as its
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icon. The second positional argument defines a list of categories for the
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integration.
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At this point, if you're following along and/or writing your own Hello World
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webhook, you have written enough code to test your integration. There are three
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tools which you can use to test your webhook - 2 command line tools and a GUI.
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## Step 4: Manually testing the webhook
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For either one of the command line tools, first, you'll need to get an API key
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from the **Your bots** section of your Zulip user's Settings page. To test the webhook,
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you'll need to [create a bot](https://zulipchat.com/help/add-a-bot-or-integration) with
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the **Incoming Webhook** type. Replace `<api_key>` with your bot's API key in the examples
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presented below! This is how Zulip knows that the request was made by an authorized user.
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### Curl
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Using curl:
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```
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curl -X POST -H "Content-Type: application/json" -d '{ "featured_title":"Marilyn Monroe", "featured_url":"https://en.wikipedia.org/wiki/Marilyn_Monroe" }' http://localhost:9991/api/v1/external/helloworld\?api_key\=<api_key>
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```
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After running the above command, you should see something similar to:
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```
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{"msg":"","result":"success"}
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```
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### Management Command: send_webhook_fixture_message
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Using `manage.py` from within the Zulip development environment:
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```
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(zulip-py3-venv) vagrant@ubuntu-bionic:/srv/zulip$
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./manage.py send_webhook_fixture_message \
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--fixture=zerver/webhooks/helloworld/fixtures/hello.json \
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'--url=http://localhost:9991/api/v1/external/helloworld?api_key=<api_key>'
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```
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After running the above command, you should see something similar to:
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```
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2016-07-07 15:06:59,187 INFO 127.0.0.1 POST 200 143ms (mem: 6ms/13) (md: 43ms/1) (db: 20ms/9q) (+start: 147ms) /api/v1/external/helloworld (helloworld-bot@zulip.com via ZulipHelloWorldWebhook)
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```
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Some webhooks require custom HTTP headers, which can be passed using
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`./manage.py send_webhook_fixture_message --custom-headers`. For
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example:
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--custom-headers='{"X-Custom-Header": "value"}'
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The format is a JSON dictionary, so make sure that the header names do
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not contain any spaces in them and that you use the precise quoting
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approach shown above.
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### Integrations Dev Panel
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This is the GUI tool.
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1. Run `./tools/run-dev.py` then go to http://localhost:9991/devtools/integrations/.
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2. Set the following mandatory fields:
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**Bot** - Any incoming webhook bot.
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**Integration** - One of the integrations.
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**Fixture** - Though not mandatory, it's recommended that you select one and then tweak it if necessary.
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The remaining fields are optional, and the URL will automatically be generated.
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3. Click **Send**!
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By opening Zulip in one tab and then this tool in another, you can quickly tweak
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your code and send sample messages for many different test fixtures.
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Note: Custom HTTP Headers must be entered as a JSON dictionary, if you want to use any in the first place that is.
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Feel free to use 4-spaces as tabs for indentation if you'd like!
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Your sample notification may look like:
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<img class="screenshot" src="/static/images/api/helloworld-webhook.png" alt="screenshot" />
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## Step 5: Create automated tests
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Every webhook integration should have a corresponding test file:
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`zerver/webhooks/mywebhook/tests.py`.
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The Hello World integration's tests are in `zerver/webhooks/helloworld/tests.py`
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You should name the class `<WebhookName>HookTests` and have it inherit from
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the base class `WebhookTestCase`. For our HelloWorld webhook, we name the test
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class `HelloWorldHookTests`:
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```
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class HelloWorldHookTests(WebhookTestCase):
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STREAM_NAME = 'test'
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URL_TEMPLATE = "/api/v1/external/helloworld?&api_key={api_key}"
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FIXTURE_DIR_NAME = 'helloworld'
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# Note: Include a test function per each distinct message condition your integration supports
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def test_hello_message(self) -> None:
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expected_topic = "Hello World";
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expected_message = "Hello! I am happy to be here! :smile: \nThe Wikipedia featured article for today is **[Marilyn Monroe](https://en.wikipedia.org/wiki/Marilyn_Monroe)**";
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# use fixture named helloworld_hello
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self.send_and_test_stream_message('hello', expected_topic, expected_message,
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content_type="application/x-www-form-urlencoded")
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def get_body(self, fixture_name: str) -> str:
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return self.webhook_fixture_data("helloworld", fixture_name, file_type="json")
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```
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In the above example, `STREAM_NAME`, `URL_TEMPLATE`, and `FIXTURE_DIR_NAME` refer
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to class attributes from the base class, `WebhookTestCase`. These are needed by
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the helper function `send_and_test_stream_message` to determine how to execute
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your test. `STREAM_NAME` should be set to your default stream. If it doesn't exist,
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`send_and_test_stream_message` will create it while executing your test.
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If your test expects a stream name from a test fixture, the value in the fixture
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and the value you set for `STREAM_NAME` must match. The test helpers use `STREAM_NAME`
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to create the destination stream, and then create the message to send using the
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value from the fixture. If these don't match, the test will fail.
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`URL_TEMPLATE` defines how the test runner will call your incoming webhook, in the same way
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you would provide a webhook URL to the 3rd party service. `api_key={api_key}` says
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that an API key is expected.
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In `get_body`, the first argument in the call to `self.webhook_fixture_data` specifies the
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prefix of your fixture file names, and `file_type` their type. Common types are
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`json` and `txt`.
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When writing tests for your webhook, you'll want to include one test function
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(and corresponding fixture) per each distinct message condition that your
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integration supports.
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If, for example, we added support for sending a goodbye message to our `Hello
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World` webhook, we would add another test function to `HelloWorldHookTests`
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class called something like `test_goodbye_message`:
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```
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def test_goodbye_message(self) -> None:
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expected_topic = "Hello World";
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expected_message = "Hello! I am happy to be here! :smile:\nThe Wikipedia featured article for today is **[Goodbye](https://en.wikipedia.org/wiki/Goodbye)**";
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# use fixture named helloworld_goodbye
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self.send_and_test_stream_message('goodbye', expected_topic, expected_message,
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content_type="application/x-www-form-urlencoded")
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```
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As well as a new fixture `goodbye.json` in
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`zerver/webhooks/helloworld/fixtures/`:
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```
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{
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"featured_title":"Goodbye",
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"featured_url":"https://en.wikipedia.org/wiki/Goodbye",
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}
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```
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Also consider if your integration should have negative tests, a test where the
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data from the test fixture should result in an error. For details see
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[Negative tests](#negative-tests), below.
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Once you have written some tests, you can run just these new tests from within
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the Zulip development environment with this command:
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```
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(zulip-py3-venv) vagrant@ubuntu-bionic:/srv/zulip$
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./tools/test-backend zerver/webhooks/helloworld
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```
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(Note: You must run the tests from the top level of your development directory.
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The standard location in a Vagrant environment is `/srv/zulip`. If you are not
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using Vagrant, use the directory where you have your development environment.)
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You will see some script output and if all the tests have passed, you will see:
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```
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Running zerver.webhooks.helloworld.tests.HelloWorldHookTests.test_goodbye_message
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Running zerver.webhooks.helloworld.tests.HelloWorldHookTests.test_hello_message
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DONE!
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```
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## Step 6: Create documentation
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Next, we add end-user documentation for our integration. You
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can see the existing examples at <https://zulipchat.com/integrations>
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or by accessing `/integrations` in your Zulip development environment.
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There are two parts to the end-user documentation on this page.
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The first is the lozenge in the grid of integrations, showing your
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integration logo and name, which links to the full documentation.
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This is generated automatically once you've registered the integration
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in `WEBHOOK_INTEGRATIONS` in `zerver/lib/integrations.py`, and supports
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some customization via options to the `WebhookIntegration` class.
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Second, you need to write the actual documentation content in
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`zerver/webhooks/mywebhook/doc.md`.
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```
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Learn how Zulip integrations work with this simple Hello World example!
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The Hello World webhook will use the `test` stream, which is
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created by default in the Zulip dev environment. If you are running
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Zulip in production, you should make sure that this stream exists.
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Next, on your {{ settings_html|safe }}, create a Hello World bot.
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Construct the URL for the Hello World bot using the API key and
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stream name:
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`{{ api_url }}/v1/external/helloworld?api_key=abcdefgh&stream=test`
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To trigger a notification using this webhook, use
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`send_webhook_fixture_message` from the Zulip command line:
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(zulip-py3-venv) vagrant@ubuntu-bionic:/srv/zulip$
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./manage.py send_webhook_fixture_message \
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--fixture=zerver/tests/fixtures/helloworld/hello.json \
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'--url=http://localhost:9991/api/v1/external/helloworld?api_key=<api_key>'
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Or, use curl:
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curl -X POST -H "Content-Type: application/json" -d '{ "featured_title":"Marilyn Monroe", "featured_url":"https://en.wikipedia.org/wiki/Marilyn_Monroe" }' http://localhost:9991/api/v1/external/helloworld\?api_key\=<api_key>
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{!congrats.md!}
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![](/static/images/integrations/helloworld/001.png)
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```
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`{!congrats.md!}` is an example of a Markdown macro. Zulip has a macro-based
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Markdown/Jinja2 framework that includes macros for common instructions in
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Zulip's webhooks/integrations documentation.
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See
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[our guide on documenting an integration][integration-docs-guide]
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for further details, including how to easily create the message
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screenshot. Mostly you should plan on templating off an existing guide, like
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[this one](https://raw.githubusercontent.com/zulip/zulip/master/zerver/webhooks/github/doc.md).
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[integration-docs-guide]: https://zulip.readthedocs.io/en/latest/documentation/integrations.html
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## Step 7: Preparing a pull request to zulip/zulip
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When you have finished your webhook integration and are ready for it to be
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available in the Zulip product, follow these steps to prepare your pull
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request:
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1. Run tests including linters and ensure you have addressed any issues they
|
|
report. See [Testing](https://zulip.readthedocs.io/en/latest/testing/testing.html)
|
|
and [Linters](https://zulip.readthedocs.io/en/latest/testing/linters.html) for details.
|
|
2. Read through [Code styles and conventions](
|
|
https://zulip.readthedocs.io/en/latest/contributing/code-style.html) and take a look
|
|
through your code to double-check that you've followed Zulip's guidelines.
|
|
3. Take a look at your git history to ensure your commits have been clear and
|
|
logical (see [Version Control](
|
|
https://zulip.readthedocs.io/en/latest/contributing/version-control.html) for tips). If not,
|
|
consider revising them with `git rebase --interactive`. For most incoming webhooks,
|
|
you'll want to squash your changes into a single commit and include a good,
|
|
clear commit message.
|
|
4. Push code to your fork.
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|
5. Submit a pull request to zulip/zulip.
|
|
|
|
If you would like feedback on your integration as you go, feel free to post a
|
|
message on the [public Zulip instance](https://chat.zulip.org/#narrow/stream/bots).
|
|
You can also create a [`[WIP]` pull request](
|
|
https://zulip.readthedocs.io/en/latest/overview/contributing.html#working-on-an-issue) while you
|
|
are still working on your integration. See the
|
|
[Git guide](https://zulip.readthedocs.io/en/latest/git/pull-requests.html#create-a-pull-request)
|
|
for more on Zulip's pull request process.
|
|
|
|
## Advanced topics
|
|
|
|
More complex implementation or testing needs may require additional code, beyond
|
|
what the standard helper functions provide. This section discusses some of
|
|
these situations.
|
|
|
|
### Negative tests
|
|
|
|
A negative test is one that should result in an error, such as incorrect data.
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|
The helper functions may interpret this as a test failure, when it should instead
|
|
be a successful test of an error condition. To correctly test these cases, you
|
|
must explicitly code your test's execution (using other helpers, as needed)
|
|
rather than call the usual helper function.
|
|
|
|
Here is an example from the WordPress integration:
|
|
|
|
```
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|
def test_unknown_action_no_data(self) -> None:
|
|
# Mimic send_and_test_stream_message() to manually execute a negative test.
|
|
# Otherwise its call to send_json_payload() would assert on the non-success
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|
# we are testing. The value of result is the error message the webhook should
|
|
# return if no params are sent. The fixture for this test is an empty file.
|
|
|
|
# subscribe to the target stream
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|
self.subscribe(self.test_user, self.STREAM_NAME)
|
|
|
|
# post to the webhook url
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|
post_params = {'stream_name': self.STREAM_NAME,
|
|
'content_type': 'application/x-www-form-urlencoded'}
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|
result = self.client_post(self.url, 'unknown_action', **post_params)
|
|
|
|
# check that we got the expected error message
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|
self.assert_json_error(result, "Unknown WordPress webhook action: WordPress Action")
|
|
```
|
|
|
|
In a normal test, `send_and_test_stream_message` would handle all the setup
|
|
and then check that the incoming webhook's response matches the expected result. If
|
|
the webhook returns an error, the test fails. Instead, explicitly do the
|
|
setup it would have done, and check the result yourself.
|
|
|
|
Here, `subscribe_to_stream` is a test helper that uses `TEST_USER_EMAIL` and
|
|
`STREAM_NAME` (attributes from the base class) to register the user to receive
|
|
messages in the given stream. If the stream doesn't exist, it creates it.
|
|
|
|
`client_post`, another helper, performs the HTTP POST that calls the incoming
|
|
webhook. As long as `self.url` is correct, you don't need to construct the webhook
|
|
URL yourself. (In most cases, it is.)
|
|
|
|
`assert_json_error` then checks if the result matches the expected error.
|
|
If you had used `send_and_test_stream_message`, it would have called
|
|
`send_json_payload`, which checks the result with `assert_json_success`.
|
|
|
|
### Custom query parameters
|
|
|
|
Custom arguments passed in URL query parameters work as expected in the webhook
|
|
code, but require special handling in tests.
|
|
|
|
For example, here is the definition of a webhook function that gets both `stream`
|
|
and `topic` from the query parameters:
|
|
|
|
```
|
|
def api_querytest_webhook(request: HttpRequest, user_profile: UserProfile,
|
|
payload: str=REQ(argument_type='body'),
|
|
stream: str=REQ(default='test'),
|
|
topic: str=REQ(default='Default Alert')):
|
|
```
|
|
|
|
In actual use, you might configure the 3rd party service to call your Zulip
|
|
integration with a URL like this:
|
|
|
|
```
|
|
http://myhost/api/v1/external/querytest?api_key=abcdefgh&stream=alerts&topic=queries
|
|
```
|
|
|
|
It provides values for `stream` and `topic`, and the webhook can get those
|
|
using `REQ` without any special handling. How does this work in a test?
|
|
|
|
The new attribute `TOPIC` exists only in our class so far. In order to
|
|
construct a URL with a query parameter for `topic`, you can pass the
|
|
attribute `TOPIC` as a keyword argument to `build_webhook_url`, like so:
|
|
|
|
```
|
|
class QuerytestHookTests(WebhookTestCase):
|
|
|
|
STREAM_NAME = 'querytest'
|
|
TOPIC = "Default Topic"
|
|
URL_TEMPLATE = "/api/v1/external/querytest?api_key={api_key}&stream={stream}"
|
|
FIXTURE_DIR_NAME = 'querytest'
|
|
|
|
def test_querytest_test_one(self) -> None:
|
|
# construct the URL used for this test
|
|
self.TOPIC = "Query Test"
|
|
self.url = self.build_webhook_url(topic=self.TOPIC)
|
|
|
|
# define the expected message contents
|
|
expected_topic = "Query Test"
|
|
expected_message = "This is a test of custom query parameters."
|
|
|
|
self.send_and_test_stream_message('test_one', expected_topic, expected_message,
|
|
content_type="application/x-www-form-urlencoded")
|
|
|
|
def get_body(self, fixture_name: str) -> str:
|
|
return self.webhook_fixture_data("querytest", fixture_name, file_type="json")
|
|
```
|
|
|
|
You can also override `get_body` if your test data needs to be constructed in
|
|
an unusual way. For more, see the definition for the base class, `WebhookTestCase`
|
|
in `zerver/lib/test_classes.py.`
|
|
|
|
|
|
### Custom HTTP event-type headers
|
|
|
|
Some third-party services set a custom HTTP header to indicate the event type that
|
|
generates a particular payload. To extract such headers, we recommend using the
|
|
`validate_extract_webhook_http_header` function in `zerver/lib/webhooks/common.py`,
|
|
like so:
|
|
|
|
```
|
|
event = validate_extract_webhook_http_header(request, header, integration_name)
|
|
```
|
|
|
|
`request` is the `HttpRequest` object passed to your main webhook function. `header`
|
|
is the name of the custom header you'd like to extract, such as `X_EVENT_KEY`, and
|
|
`integration_name` is the name of the third-party service in question, such as
|
|
`GitHub`.
|
|
|
|
Because such headers are how some integrations indicate the event types of their
|
|
payloads, the absence of such a header usually indicates a configuration
|
|
issue, where one either entered the URL for a different integration, or happens to
|
|
be running an older version of the integration that doesn't set that header.
|
|
|
|
If the requisite header is missing, this function sends a PM to the owner of the
|
|
webhook bot, notifying them of the missing header.
|
|
|
|
### Handling unexpected webhook event types
|
|
|
|
Many third-party services have dozens of different event types. In some cases, we
|
|
may choose to explicitly ignore specific events. In other cases, there may be
|
|
events that are new or events that we don't know about. In such cases, we
|
|
recommend raising `UnexpectedWebhookEventType` (found in
|
|
`zerver/lib/webhooks/common.py`), like so:
|
|
|
|
```
|
|
raise UnexpectedWebhookEventType(webhook_name, event_type)
|
|
```
|
|
|
|
`webhook_name` is the name of the integration that raises the exception.
|
|
`event_type` is the name of the unexpected webhook event.
|